AVX RF Microwave
Products
www.avx.com
Version 16.12
1
AVX Microwave
Ask The World Of Us
As one of the world’s broadest line
multilayer ceramic chip capacitor
suppliers, and a major Thin Film
RF/Microwave capacitor, inductor,
directional coupler and low pass filter and
microwave ceramic capacitor manufacturer,
it is our mission to provide First In Class
Technology, Quality and Service, by
establishing progressive design,
manufacturing and continuous
improvement programs driving
toward a single goal:
TOTAL CUSTOMER SATISFACTION
RF/Microwave Products
Table of Contents
Company Profile ........................................................................4
Thin-Film RF/Microwave Capacitor Technology
Accu-P®
Thin-Film Technology......................................................................................6
Thin-Film Chip Capacitors ..........................................................................7-9
0201 Typical Electrical Tables – Accu-P®...............................................10-11
0402 Typical Electrical Tables – Accu-P®...............................................12-13
0603 Typical Electrical Tables – Accu-P®...............................................14-15
0805 Typical Electrical Tables – Accu-P®...............................................16-17
1210 Typical Electrical Tables – Accu-P®..............................................18-19
High Frequency Characteristics .............................................................20-25
Environmental / Mechanical Characteristics ..................................................26
Performance Characteristics RF Power Applications.......................................27
Application Notes..................................................................................28-29
Automatic Insertion Packaging .....................................................................30
Thin-Film RF/Microwave Inductor Technology
Accu-L®
L0201 Tight Tolerance RF Inductor ........................................................32-33
L0402 Tight Tolerance RF Inductor ........................................................34-35
L0603 AND L0805 SMD High-Q RF Inductor – Accu-L®........................36-38
Environmental Characteristics.......................................................................39
Application Notes ....................................................................................... 40
Thin-Film RF/Microwave Directional Couplers
CP0302/CP0402/CP0603/CP0805
and DB0603N/DB0805 3dB 90°
CP0402W2700FNTR Wide Band High Directivity ....................................42-43
CP0402W2700FNTR Test Jigs .....................................................................44
CP0302A5425ENTR / CP0402Q5425ENTR / CP0603Q5425ENTR
High Directivity Directional Couplers For WiFi Bands ...............................45-46
CP0402P High Directivity, Tight Coupling Tolerance ................................47-48
CP0402 High Directivity LGA Termination...............................................49-52
CP0603 High Directivity LGA Termination...............................................53-58
CP0402 / CP0603 High Directivity Couplers Test Jigs....................................59
CP0603 SMD Type – Thin-Film Directional Couplers...............................60-62
CP0603 SMD Type – High Directivity............................................................63
CP0805 SMD Type – Thin-Film Directional Couplers...............................64-68
CP0805 and CP0603 Test Jigs ....................................................................69
DB0603N 3dB 90º Couplers .................................................................70-86
DB0805 3dB 90° Couplers ...................................................................87-98
DB0805 3dB 90° Test Jigs ..........................................................................99
Thin-Film RF/Microwave Harmonic Low Pass Filter
LP0402/LP0603/LP0805
LP0402N Series Harmonic Low Pass Filter
Lead-Free LGA Termination.........................................................101-103
LP0402N Series Harmonic Low Pass Filter
Lead-Free LGA Termination Test Jigs ....................................................104
LP0603 Lead-Free LGA Type ...........................................................105-108
LP0603 Test Jigs ......................................................................................109
LP0805 Type Harmonic....................................................................110-111
LP0805 Test Jigs ......................................................................................112
1206 High Performance
LP1206A0512BNTR Harmonic Low Pass Filter..................................113-114
LP1206A0700ANTR Low Pass Filter.................................................115-116
Thin-Film RF/Microwave Products – Designer Kits.....117-119
Multilayer Organic (MLOTM) Technology
MLOTM Capacitors ...........................................................121-124
MLOTM Diplexers
0603 WLAN/BT ...............................................................................125-130
0805 CDMA....................................................................................131-132
0805 WCDMA .................................................................................133-134
0805 WLAN ....................................................................................135-136
0805 WLAN/BT ...............................................................................137-138
Automated SMT Assembly/SMT Reflow Profile............................................139
MLOTM Inductors
Tight Tolerance ................................................................................140-141
High Current....................................................................................142-143
Hi-Q................................................................................................144-145
Performance Characteristics ......................................................................146
Automated SMT Assembly/SMT Reflow Profile............................................147
MLOTM SMT Crossovers
RF-DC.............................................................................................148-150
RF-RF .............................................................................................151-153
Automated SMT Assembly/SMT Reflow Profile............................................154
RF Inductors
AL Series – Air Core Inductors....................................................156-162
AS Series – Square Air Core Inductors ........................................163-167
LCWC Series – Wire Wound Chip Inductor ........................................168-177
RF/Microwave Capacitors
RF/Microwave Multilayer Capacitors (MLC)
UQ Series High Q Ultra Low ESR MLC.........................................179-191
SQ Series Ultra Low ESR MLC ....................................................192-204
AQ Series..................................................................................205-208
MIL-PRF-55681 “BG” Voltage Temperature
Limits (+90±20ppm/°C).......................................................209-211
• CDR11BG; CDR12BG (0.055" x 0.055") - Failure Rate Level: M, P, R, S
• CDR13BG; CDR14BG (0.110" x 0.110") - Failure Rate Level: M, P, R, S
Performance Curves ..................................................................212-216
Automatic Insertion Packaging ............................................................217
HQ®Series, High RF Power Capacitors.......................................218-224
RF/Microwave C0G (NP0) Capacitors
Ultra Low ESR “CU” Series, C0G (NP0) Capacitors (RoHS) ...........
225-226
Ultra Low ESR “U” Series, C0G (NP0) Capacitors (RoHS)..............
227-229
Ultra Low ESR “U” Series, C0G (NP0) Capacitors (RoHS)
Automotive, AEC Q200 Qualified...........................................
230-232
Ultra Low ESR “U” Series, C0G (NP0) Capacitors (Sn/Pb).............
233-235
RF/Microwave “U” Series Designer Kits..............................236
2
RF/Microwave Products
Table of Contents
Company Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1
2
3
4
5
6
7
8
3
Thin-Film RF/Microwave Capacitor Technology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-30
Accu-P
Thin-Film RF/Microwave Inductor Technology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31-40
Accu-L®
Thin-Film RF/Microwave Directional Couplers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41-99
CP0302/CP0402/CP0603/CP0805 and DB0603N/DB0805 3dB 90°
Thin-Film RF/Microwave Harmonic Low Pass Filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100-116
LP0402/LP0603/LP0805
LP1206 High Performance
Thin-Film RF/Microwave Products – Designer Kits. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 117-119
Multilayer Organic (MLOTM) Technology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120-154
MLOTM Capacitors MLOTM Inductors
MLOTM Diplexers MLOTM SMT Crossovers
RF Inductors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155-177
Air Core Inductors
Square Air Core Inductors
Wire Wound Chip Inductors
RF/Microwave Capacitors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 178-236
RF/Microwave Multilayer Capacitors (MLC)
RF/Microwave C0G (NP0) Capacitors
RF/Microwave “U” Series Designer Kits
4
RF/Microwave Products
Company Profile
AVX Corporation is a leading manufacturer of multilayer ceramic,
thin film and tantalum, as well as other passive electronic
components. These products are used in virtually every electronic
system today, including data processing, telecommunications,
consumer electronics, automotive electronics, military and
aerospace systems, and instrumentation and process controls.
We continually strive to be the leader in all component segments we
supply. RF/Microwave capacitors is a thrust business for us. AVX
offers a broad line of RF/Microwave Chip Capacitors in a wide range
of sizes, styles, and ratings.
The Thin-Film Products range illustrated in this catalog represents
the state-of-the-art in RF Capacitors, Inductors, Directional
Couplers and Low Pass Filters. The thin-film technology provides
components that exhibit excellent batch-to-batch repeatability of
electrical parameters at RF frequencies.
The Accu-P®series of capacitors are available in ultra-tight
tolerances (±0.01pF) as well as non-standard capacitance values.
The Accu-L®series of inductors are ideally suited for applications
requiring an extremely high Q and high current capability.
The CP0302/CP0402/CP0603/CP0805 series of Directional
Couplers cover the frequency range of 800 MHz to 6 GHz. They
feature low insertion loss, high directivity and highly accurate
coupling factors.
The LP0402/0603/0805 series of Low Pass Filters provide a rugged
component in a small size package with excellent high frequency
performance.
The Multilayer Organic (MLOTM) series of components are based on
AVX’s patented multilayer organic technology (US patent 6,987,307).
They are low profile with frequencies well above 1GHz.
Another major series of microwave capacitors consists of both
multilayer porcelain and ceramic capacitors for frequencies from
10 MHz to 4.2 GHz (UQ and SQ Series). Six sizes of specially
designed ultra-low ESR C0G (NP0) capacitors are covered for
RF applications (CU and U Series).
The air core and wire wound ceramic chip inductors offer high
current ratings (up to 4.4A) and quality factor (>100).
Ask the world of us. Call (864) 967-2150.
Or visit our website http://www.avx.com
555
Thin-Film RF/Microwave
Capacitor Technology
Accu-P®
Accu-P®
Thin-Film Technology
THE IDEAL CAPACITOR
The non-ideal characteristics of a real capacitor can be
ignored at low frequencies. Physical size imparts inductance
to the capacitor and dielectric and metal electrodes result in
resistive losses, but these often are of negligible effect on the
circuit. At the very high frequencies of radio communication
(>100MHz) and satellite systems (>1GHz), these effects
become important. Recognizing that a real capacitor will
exhibit inductive and resistive impedances in addition to
capacitance, the ideal capacitor for these high frequencies is
an ultra low loss component which can be fully characterized
in all parameters with total repeatability from unit to unit.
Until recently, most high frequency/microwave capacitors
were based on fired-ceramic (porcelain) technology. Layers
of ceramic dielectric material and metal alloy electrode paste
are interleaved and then sintered in a high temperature oven.
This technology exhibits component variability in dielectric
quality (losses, dielectric constant and insulation resistance),
variability in electrode conductivity and variability in physical
size (affecting inductance). An alternate thin-film technology
has been developed which virtually eliminates these vari-
ances. It is this technology which has been fully incorporated
into Accu-P®and Accu-P® to provide high frequency capaci-
tors exhibiting truly ideal characteristics.
The main features of Accu-P®may be summarized as follows:
High purity of electrodes for very low and repeatable
ESR.
Highly pure, low-K dielectric for high breakdown field,
high insulation resistance and low losses to frequencies
above 40GHz.
Very tight dimensional control for uniform inductance,
unit to unit.
Very tight capacitance tolerances for high frequency
signal applications.
This accuracy sets apart these Thin-Film capacitors from
ceramic capacitors so that the term Accu has been
employed as the designation for this series of devices, an
abbreviation for “accurate.”
THIN-FILM TECHNOLOGY
Thin-film technology is commonly used in producing semi-
conductor devices. In the last two decades, this technology
has developed tremendously, both in performance and in
process control. Today’s techniques enable line definitions of
below 1μm, and the controlling of thickness of layers at 100Å
(10-2μm). Applying this technology to the manufacture of
capacitors has enabled the development of components
where both electrical and physical properties can be tightly
controlled.
The thin-film production facilities at AVX consist of:
Class 1000 clean rooms, with working areas under
laminar-flow hoods of class 100, (below 100 particles
per cubic foot larger than 0.5μm).
High vacuum metal deposition systems for high-purity
electrode construction.
Photolithography equipment for line definition down to
2.0μm accuracy.
Plasma-enhanced CVD for various dielectric deposi-
tions (CVD=Chemical Vapor Deposition).
High accuracy, microprocessor-controlled dicing saws
for chip separation.
High speed, high accuracy sorting to ensure strict
tolerance adherence.
Alumina (Al2O3)
Electrode
Electrode
Dielectric (SiO2/ SiNO)
Terminations
Seal
(SiNO)
Orientation Marking
Alumina (Al2O3)
ACCU-P® CAPACITOR STRUCTURE
1
6
Accu-P®
Thin-Film Chip Capacitors
ACCU-P®TECHNOLOGY
The use of very low-loss dielectric materials, silicon dioxide and
silicon oxynitride, in conjunction with highly conductive elec-
trode metals results in low ESR and high Q. These
high-frequency characteristics change at a slower rate with
increasing frequency than for ceramic microwave capacitors.
Because of the thin-film technology, the above-mentioned
frequency characteristics are obtained without significant
compromise of properties required for surface mounting.
The main Accu-P®properties are:
Internationally agreed sizes with excellent dimensional
control.
• Ultra small size chip capacitors (01005) are available.
• Ultra tight capacitance tolerances.
• Low ESR at VHF, UHF and microwave frequencies.
• Enhanced RF power handling capablity.
• High stability with respect to time, temperature, frequency
and voltage variation.
Nickel/solder-coated terminations to provide excellent sol-
derability and leach resistance.
ACCU-P®FEATURES
Accu-P®meets the fast-growing demand for low-loss
(high-Q) capacitors for use in surface mount technology espe-
cially for the mobile communications market, such as cellular
radio of 450 and 900 MHz, UHF walkie-talkies, UHF cordless
telephones to 2.3 GHz, low noise blocks at 11-12.5 GHz and
for other VHF, UHF and microwave applications.
Accu-P®is currently unique in its ability to offer very
low capacitance values (0.05pF) and very tight capacitance
tolerances (±0.01pF).
The RF power handling capability of the Accu-P®allows
for its usage in both small signal and RF power applica-
tions.
Thin Film Technology guarantees minimal batch to batch
variability of parameters at high frequency.
Inspection test and quality control procedures in accor-
dance with ISO 9001, CECC, IECQ and USA MIL
Standards yield products of the highest quality.
Hand soldering Accu-P®: Due to their construction utilizing
relatively high thermal conductivity materials, Accu-P’s
have become the preferred device in R & D labs and pro-
duction environments where hand soldering is used.
APPLICATIONS
Cellular Communications
CT2/PCN (Cordless
Telephone/Personal Comm.
Networks)
Satellite TV
Cable TV
GPS (Global Positioning Systems)
Vehicle Location Systems
Vehicle Alarm Systems
Paging
Military Communications
Radar Systems
Video Switching
Test & Measurements
Filters
VCO's
Matching Networks
RF Amplifiers
APPROVALS
ISO 9001
1
7
The following 3 digit capacitance codes should
be used for ordering AVX Accu-P®capacitors
CAPACITANCE EXAMPLE
CODE
0.00 to 0.99pF Rxx 0.15pF = 04023JR15ABSTR
1.00 to 1.99pF Axx 1.55pF = 04023JA55PBSTR
2.00 to 2.99pF Bxx 2.85pF = .....B85...
3.00 to 3.99pF Cxx 3.85pF = .....C85...
4.00 to 4.99pF Dxx 4.85pF = .....D85...
5.00 to 5.99pF Exx 5.85pF = .....E85...
6.00 to 6.99pF Fxx 6.85pF = .....F85...
7.00 to 7.99pF Gxx 7.85pF = .....G85...
8.00 to 8.99pF Hxx 8.85pF = .....H85...
9.00 to 9.99pF Jxx 9.85pF = .....J85...
10.0 to 19.9pF Kxx 13.8pF = ....K38...
20.0 to 29.9pF Lxx 22.5pF = ....L25...
30.0 to 39.9pF Mxx 33.8pF = ....M38...
40.0 to 49.9pF Nxx 43.5pF = ....N35...
1
8
Accu-P®
Thin-Film Chip Capacitors for
RF Signal and Power Applications
L
T
B
1
W
B2
0402
Size
C005
0201
0402
0603
0805
1210*
3
Voltage
2 = 200V
1 = 100V
5 = 50V
3 = 25V
Y = 16V
Z = 10V
J
Temperature
Coefficient (1)
J = 0±30ppm/°C
(-55°C to
+125°C)
K = 0±60ppm/°C
(-55°C to
+125°C)
4R7
Capacitance
Capacitance
expressed in pF.
(2 significant
digits + number
of zeros)
for values <10pF,
letter R denotes
decimal point.
Example:
68pF = 680
8.2pF = 8R2
A
Tolerance
for
C≤2.0pF*
Z = ±0.01pF
P = ±0.02pF
Q = ±0.03pF
A = ±0.05pF
B = ±0.1pF
C = ±0.25pF
for C≤3.0pF
Q = ±0.03pF
A = ±0.05pF
B = ±0.1pF
C = ±0.25pF
for C≤5.6pF
A = ±0.05pF
B = ±0.1pF
C = ±0.25pF
for 5.6pF<C<10pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
for C≥10pF
F = ±1%
G = ±2%
J = ±5%
B
Specification
Code
B = Accu-P®
technology
S
Termination
Code
W = Nickel/Solder Coated
Accu-P®0402 Sn90,
Pb10***
T = Nickel/High Temperature
Solder Coated
Accu-P®0805**, 1210**
Sn96, Ag4
Nickel/Solder Coated
Accu-P®0603***
Sn63, Pb37
**S = Nickel/Lead Free
Solder Coated
Accu-P®01005, 0201,
0402, 0603
Sn100
TR
Packaging
Code
TR = Tape & Reel
(1) TC’s shown are per EIA/IEC Specifications.
\500
Option
Operating and Storage Temperature Range -55°C to +125°C
Temperature Coefficients(1) 0 ± 30ppm/°C dielectric code “J” / 0 ± 60ppm/°C dielectric code “K”
Capacitance Measurement 1 MHz, 1 Vrms
Insulation Resistance (IR) ≥1011 Ohms (≥1010 Ohms for 0201 and 0402 size)
Proof Voltage 2.5 URfor 5 secs.
Aging Characteristic Zero
Dielectric Absorption 0.01%
ELECTRICAL SPECIFICATIONS
HOW TO ORDER
* Tolerances as tight as ±0.01pF are available.
Please consult the factory.
01005* 0201* 0402* 0603* 0805* 1210
L 0.405±0.020 0.60±0.05 1.00±0.1 1.60±0.1 2.01±0.1 3.02±0.1
(0.016±0.001) (0.023±0.002) (0.039±0.004) (0.063±0.004) (0.079±0.004) (0.119±0.004)
W 0.215 ± 0.020 0.325±0.050 0.55±0.07 0.81±0.1 1.27±0.1 2.5±0.1
(0.0085 ± 0.001) (0.0128±0.002) (0.022±0.003) (0.032±0.004) (0.050±0.004) (0.100±0.004)
T 0.145 ± 0.020 0.225±0.050 0.40±0.1 0.63±0.1 0.93±0.2 0.93±0.2
(0.006 ± 0.001) (0.009±0.002) (0.016±0.004) (0.025±0.004) (0.036±0.008) (0.036±0.008)
B10.00 0.10±0.10 0.00 0.35±0.15 0.30±0.1 0.43±0.1
(0.000 ) (0.004±0.004) (0.000 ) (0.014±0.006) (0.012±0.004) (0.017±0.004)
B2 0.10 ± 0.03 0.15±0.05 0.20±0.1 0.35±0.15 0.30±0.1 0.43±0.1
(0.004 ± 0.001) (0.006±0.002) (0.008±0.004) (0.014±0.006) (0.012±0.004) (0.017±0.004)
ACCU-P®(Signal and Power Type Capacitors)
*Mount Black Side Up DIMENSIONS: millimeters (inches)
+0.1
-0.0
+0.004
-0.000
+0.1
-0.0
+0.004
-0.000
Engineering Kits Available
see pages 118-119
**RoHS compliant
*** Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
1
Accu-P®
Signal and Power Type Capacitors
TEMP. COEFFICIENT CODE
“J” = 0±30ppm/°C (-55°C to +125°C)(2) “K” = 0±60ppm/°C (-55°C to +125°C)(2)
(1) For capacitance values higher than listed in table, please consult factory.
(2) TC shown is per EIA/IEC Specifications.
These values are produced with “K” temperature coefficient code only.
Accu-P®Capacitance Ranges (pF)
Intermediate values are available within the indicated range.
Size
Size Code C005 0201 0402 0603 0805 1210
Voltage 16 100 50 25 16 10 200 100 50 25 16 10 200 100 50 25 100 50 25 100 50
Cap in Cap
pF(1) code
0.1 0R1
0.2 0R2
0.3 0R3
0.4 0R4
0.5 0R5
0.6 0R6
0.7 0R7
0.8 0R8
0.9 0R9
1.0 1R0
1.1 1R1
1.2 1R2
1.3 1R3
1.4 1R4
1.5 1R5
1.6 1R6
1.7 1R7
1.8 1R8
1.9 1R9
2.0 2R0
2.1 2R1
2.2 2R2
2.3 2R3
2.4 2R4
2.5 2R5
2.6 2R6
2.7 2R7
2.8 2R8
2.9 2R9
3.0 3R0
3.1 3R1
3.2 3R2
3.3 3R3
3.4 3R4
3.5 3R5
3.6 3R6
3.7 3R7
3.8 3R8
3.9 3R9
4.0 4R0
4.1 4R1
4.2 4R2
4.3 4R3
4.4 4R4
4.5 4R5
4.6 4R6
4.7 4R7
5.1 5R1
5.6 5R6
6.2 6R2
6.8 6R8
7.5 7R5
8.2 8R2
9.1 9R1
10.0 100
11.0 110
12.0 120
13.0 130
14.0 140
15.0 150
16.0 160
17.0 170
18.0 180
19.0 190
20.0 200
21.0 210
22.0 220
24.0 240
27.0 270
30.0 300
33.0 330
39.0 390
47.0 470
56.0 560
68.0 680
9
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
0.05 ±0.02 20.9 599 402 0.055 650 3220 0.056 265 4010 0.057 195 4450
0.1 ±0.02 19.4 574 316 0.110 614 2682 0.112 246 3036 0.113 188 3113
0.15 ±0.02 17.9 510 280 0.163 550 2087 0.166 220 2404 0.168 170 2441
0.2 ±0.02 16.4 445 245 0.216 520 1693 0.220 210 1971 0.223 160 1970
0.25 ±0.02 15.5 436 240 0.262 510 1371 0.268 204 1604 0.272 153 1646
0.3 ±0.02 14.6 427 235 0.309 500 1149 0.316 199 1337 0.320 146 1421
0.35 ±0.02 14.1 423 232 0.360 494 1001 0.369 196 1177 0.374 144 1265
0.4 ±0.02 12.5 418 230 0.411 489 874 0.421 193 1038 0.427 142 1129
0.45 ±0.02 11.9 413 227 0.461 484 819 0.473 191 972 0.481 140 1066
0.5 ±0.02 11.3 408 224 0.512 478 765 0.526 188 906 0.535 138 1003
0.55 ±0.02 10.9 403 222 0.563 473 710 0.578 186 840 0.588 137 940
0.6 ±0.02 10.4 398 219 0.614 468 667 0.631 183 791 0.642 135 882
0.65 ±0.02 10.0 394 217 0.664 462 624 0.683 181 742 0.695 133 825
0.7 ±0.02 9.5 389 214 0.715 457 580 0.735 178 693 0.749 131 767
0.75 ±0.02 9.3 384 211 0.766 452 557 0.788 176 664 0.802 129 729
0.8 ±0.02 9.1 379 209 0.817 446 534 0.840 173 635 0.856 127 692
0.85 ±0.02 8.9 374 206 0.868 441 511 0.893 171 606 0.909 126 654
0.9 ±0.02 8.8 370 203 0.918 436 487 0.945 168 577 0.963 124 616
0.95 ±0.02 8.6 365 201 0.969 430 464 0.998 166 548 1.016 122 579
1 ±0.02 8.4 360 198 1.020 425 441 1.050 163 519 1.070 120 541
1.05 ±0.02 8.2 358 197 1.078 421 426 1.112 161 502 1.134 119 523
1.1 ±0.02 8.0 355 195 1.135 418 410 1.173 159 486 1.199 117 505
1.15 ±0.02 7.8 353 194 1.193 414 395 1.235 157 469 1.263 116 488
1.2 ±0.02 7.6 350 193 1.251 411 379 1.296 155 452 1.327 115 470
1.25 ±0.02 7.5 348 191 1.308 407 364 1.358 153 436 1.392 114 452
1.3 ±0.02 7.4 345 190 1.366 403 348 1.419 151 419 1.456 112 434
1.35 ±0.02 7.3 343 189 1.424 400 333 1.481 149 402 1.520 111 416
1.4 ±0.02 7.2 340 187 1.481 396 317 1.542 147 386 1.585 110 398
1.45 ±0.02 7.1 338 186 1.539 393 302 1.604 145 369 1.649 109 381
1.5 ±0.02 7.0 335 184 1.597 389 287 1.665 144 353 1.713 107 363
1.55 ±0.02 6.8 332 183 1.642 386 282 1.714 142 347 1.764 106 358
1.6 ±0.02 6.7 330 181 1.687 382 277 1.762 141 342 1.815 105 352
1.65 ±0.02 6.6 327 180 1.732 378 272 1.810 140 337 1.866 104 347
1.7 ±0.02 6.5 324 178 1.777 375 267 1.859 138 331 1.917 103 342
1.75 ±0.02 6.4 321 176 1.822 371 262 1.907 137 326 1.968 102 337
1.8 ±0.02 6.3 318 175 1.866 367 257 1.955 136 321 2.018 101 331
1.85 ±0.02 6.2 315 173 1.911 364 252 2.003 134 316 2.069 100 326
1.9 ±0.02 6.2 312 172 1.956 360 247 2.052 133 310 2.120 99 321
1.95 ±0.02 6.1 309 170 2.001 357 242 2.100 132 305 2.171 98 316
2 ±0.03 6.0 306 168 2.046 353 237 2.148 131 300 2.222 97 310
2.1 ±0.03 5.9 301 166 2.150 348 232 2.263 128 293 2.344 95 303
2.2 ±0.03 5.7 296 163 2.254 343 227 2.377 125 287 2.467 93 296
2.3 ±0.03 5.6 292 160 2.358 337 222 2.491 122 281 2.590 91 289
2.4 ±0.03 5.5 287 158 2.462 332 217 2.606 120 274 2.712 89 282
2.5 ±0.03 5.4 282 155 2.566 327 212 2.720 117 268 2.835 87 275
2.6 ±0.03 5.3 277 152 2.670 322 207 2.834 114 262 2.958 85 268
2.7 ±0.03 5.2 272 150 2.773 317 202 2.949 112 255 3.080 83 261
2.8 ±0.03 5.1 269 148 2.878 312 199 3.066 110 252 3.209 81 258
2.9 ±0.03 5.0 265 146 2.983 308 196 3.184 108 248 3.337 80 254
3 ±0.03 4.9 261 144 3.088 304 193 3.301 106 245 3.465 78 251
3.1 ±0.05 4.8 257 141 3.192 299 190 3.419 105 241 3.593 77 247
3.2 ±0.05 4.7 253 139 3.297 295 187 3.536 103 238 3.722 76 244
3.3 ±0.05 4.6 250 137 3.402 291 185 3.654 101 234 3.850 74 240
3.4 ±0.05 4.6 246 135 3.506 286 182 3.771 99 231 3.978 73 237
3.5 ±0.05 4.5 242 133 3.611 282 179 3.889 98 227 4.107 71 233
3.6 ±0.05 4.5 238 131 3.716 278 176 4.006 96 224 4.235 70 230
3.7 ±0.05 4.4 234 129 3.820 273 173 4.124 94 220 4.363 69 226
3.8 ±0.05 4.4 230 127 3.925 269 170 4.241 92 217 4.492 67 223
3.9 ±0.05 4.3 227 125 4.030 265 167 4.359 91 213 4.620 66 219
10
Accu-P®
0201 Typical Electrical Tables
1
10
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Tesonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
4 ±0.05 4.3 224 123 4.138 262 165 4.484 89 210 4.760 65 216
4.1 ±0.05 4.2 222 122 4.247 259 162 4.610 88 207 4.901 64 213
4.2 ±0.05 4.2 220 121 4.356 257 159 4.735 87 204 5.041 63 210
4.3 ±0.05 4.1 218 120 4.464 254 157 4.860 86 201 5.181 62 207
4.4 ±0.05 4.1 216 119 4.573 252 154 4.986 85 198 5.322 61 204
4.5 ±0.05 4.0 214 118 4.682 249 152 5.111 83 195 5.462 60 201
4.6 ±0.05 4.0 212 116 4.790 246 149 5.237 82 192 5.602 59 198
4.7 ±0.05 3.9 209 115 4.899 244 147 5.362 81 189 5.743 58 195
5.1 ±0.05 3.8 201 110 5.334 233 136 5.863 76 178 6.304 54 183
5.6 ±0.05 3.6 190 105 5.877 220 124 6.490 70 163 7.006 49 168
6.2 ±0.1 3.5 177 97 6.488 208 126 7.290 65 167 7.993 45 174
6.8 ±0.1 3.3 164 90 7.100 195 128 8.090 60 171 8.980 41 179
7.5 ±0.1 3.2 153 84 7.901 182 125 9.129 56 166 10.27 38 173
8.2 ±0.1 3.0 142 78 8.701 168 121 10.17 52 160 11.56 34 167
9.1 ±0.1 2.9 135 74 9.676 159 118 11.57 49 154 13.49 32 161
10 ±1% 2.8 128 70 10.65 151 114 12.96 45 148 15.41 29 155
11 ±1% 2.7 120 66 11.73 141 110 14.52 42 142 17.55 27 148
12 ±1% 2.5 112 62 12.82 132 105 16.07 39 135 19.68 24 141
13 ±1% 2.4 105 58 13.92 124 104 17.82 36 135 22.38 22 142
14 ±1% 2.4 98 54 15.02 116 103 19.57 32 135 25.08 19 142
15 ±1% 2.3 91 50 16.12 108 102 21.32 29 135 27.78 17 143
16 ±1% 2.2 86 47 17.37 102 103 24.04 27 135 NA NA NA
17 ±1% 2.2 81 44 18.63 96 105 26.76 25 136 NA NA NA
18 ±1% 2.1 76 42 19.88 90 106 29.48 23 136 NA NA NA
19 ±1% 2.1 71 39 21.14 83 108 32.20 21 136 NA NA NA
20 ±1% 2.1 65 36 22.39 77 109 34.92 19 136 NA NA NA
22 ±1% 2.0 55 30 24.90 65 112 40.36 15 137 NA NA NA
Accu-P®
0201 Typical Electrical Tables
1
11
Accu-P®
0402 Typical Electrical Tables
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
0.05 ±0.02 20.9 856 471 0.06 881 1411 0.06 562 1216 0.06 498 983
0.1 ±0.02 19.4 848 466 0.11 873 1316 0.11 554 1115 0.11 490 914
0.15 ±0.02 17.9 840 462 0.16 866 1222 0.16 547 1013 0.16 482 845
0.2 ±0.02 16.4 832 457 0.21 858 1128 0.21 539 912 0.22 474 776
0.25 ±0.02 15.5 823 453 0.26 850 1033 0.27 532 810 0.27 465 707
0.3 ±0.02 14.6 815 448 0.31 842 939 0.32 525 708 0.32 457 638
0.35 ±0.02 14.1 807 444 0.36 834 844 0.37 517 607 0.37 449 569
0.4 ±0.02 12.5 799 439 0.41 827 750 0.42 510 505 0.42 441 500
0.45 ±0.02 11.9 791 435 0.46 819 667 0.47 502 458 0.48 432 453
0.5 ±0.02 11.3 783 430 0.51 811 583 0.52 495 410 0.53 424 407
0.55 ±0.02 10.9 774 426 0.57 803 500 0.57 487 363 0.58 416 360
0.6 ±0.02 10.4 766 421 0.62 796 465 0.62 480 343 0.63 408 339
0.65 ±0.02 10.0 758 417 0.67 788 431 0.67 472 322 0.68 399 317
0.7 ±0.02 9.5 750 413 0.72 780 396 0.72 465 302 0.73 391 296
0.75 ±0.02 9.3 746 410 0.77 776 375 0.78 456 290 0.79 381 285
0.8 ±0.02 9.1 743 408 0.82 772 354 0.83 447 277 0.84 370 273
0.85 ±0.02 9.0 739 406 0.87 768 334 0.88 438 265 0.89 360 262
0.9 ±0.02 8.8 735 404 0.92 764 313 0.93 429 253 0.95 350 250
0.95 ±0.02 8.4 732 402 0.97 760 292 0.98 420 240 1.00 339 239
1 ±0.02 8.0 728 400 1.02 756 271 1.04 411 228 1.05 329 227
1.05 ±0.02 7.9 725 398 1.07 752 258 1.09 406 221 1.11 323 221
1.1 ±0.02 7.8 721 397 1.12 749 245 1.14 401 214 1.16 318 214
1.15 ±0.02 7.6 718 395 1.17 745 232 1.20 396 207 1.22 312 208
1.2 ±0.02 7.4 714 393 1.22 742 218 1.25 391 200 1.27 306 202
1.25 ±0.02 7.2 711 391 1.27 738 205 1.31 386 193 1.32 301 195
1.3 ±0.02 7.0 707 389 1.32 734 192 1.36 381 185 1.38 295 189
1.35 ±0.02 6.9 704 387 1.37 731 179 1.41 376 178 1.43 289 183
1.4 ±0.02 6.8 700 385 1.42 727 165 1.47 371 171 1.49 283 177
1.45 ±0.02 6.7 697 383 1.47 724 152 1.52 366 164 1.54 278 170
1.5 ±0.02 6.5 693 381 1.52 720 139 1.58 361 157 1.60 272 164
1.55 ±0.02 6.5 690 379 1.56 716 135 1.62 358 153 1.65 269 159
1.6 ±0.02 6.5 686 377 1.61 713 130 1.67 355 148 1.70 267 155
1.65 ±0.02 6.5 683 375 1.66 709 126 1.72 352 143 1.76 264 150
1.7 ±0.02 6.4 679 373 1.71 705 122 1.77 349 139 1.81 261 146
1.75 ±0.02 6.3 676 372 1.75 702 118 1.82 347 134 1.86 259 141
1.8 ±0.02 6.2 672 370 1.80 698 113 1.87 344 130 1.92 256 137
1.85 ±0.02 6.1 669 368 1.85 694 109 1.92 341 125 1.97 253 132
1.9 ±0.02 6.0 665 366 1.90 690 105 1.97 338 121 2.02 251 128
1.95 ±0.02 5.9 662 364 1.94 687 101 2.01 335 116 2.08 248 123
2 ±0.03 5.7 658 362 1.99 683 96 2.06 332 112 2.13 245 119
2.1 ±0.03 5.4 651 358 2.10 676 93 2.18 326 108 2.26 241 115
2.2 ±0.03 5.1 643 354 2.21 669 89 2.30 321 104 2.38 236 112
2.3 ±0.03 5.0 636 350 2.31 662 85 2.42 315 101 2.51 231 109
2.4 ±0.03 4.9 629 346 2.42 656 81 2.54 309 97 2.64 226 106
2.5 ±0.03 4.7 622 342 2.53 649 77 2.65 303 94 2.76 221 102
2.6 ±0.03 4.6 614 338 2.64 642 74 2.77 298 90 2.89 216 99
2.7 ±0.03 4.5 607 334 2.75 635 70 2.89 292 86 3.02 211 96
2.8 ±0.03 4.5 600 330 2.85 628 68 3.01 288 83 3.15 207 92
2.9 ±0.03 4.4 592 326 2.95 621 66 3.13 283 80 3.28 203 88
3 ±0.03 4.4 585 322 3.06 614 64 3.24 279 76 3.41 200 84
3.1 ±0.05 4.4 578 318 3.16 607 62 3.36 274 73 3.54 196 80
3.2 ±0.05 4.3 570 314 3.27 600 60 3.48 270 70 3.67 192 76
3.3 ±0.05 4.3 563 310 3.37 593 58 3.60 265 67 3.80 188 72
3.4 ±0.05 4.3 556 306 3.47 586 57 3.71 261 63 3.93 184 68
3.5 ±0.05 4.2 548 302 3.58 579 55 3.83 256 60 4.06 180 64
3.6 ±0.05 4.2 541 298 3.68 572 53 3.95 252 57 4.19 177 60
3.7 ±0.05 4.1 534 294 3.78 565 51 4.06 247 54 4.32 173 56
3.8 ±0.05 4.0 526 289 3.89 558 49 4.18 243 50 4.45 169 52
3.9 ±0.05 3.9 519 285 3.99 551 47 4.30 238 47 4.58 165 48
1
12
Accu-P®
0402 Typical Electrical Tables
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
4 ±0.05 3.9 513 282 4.10 545 47 4.42 235 47 4.73 162 48
4.1 ±0.05 3.8 507 279 4.20 539 47 4.55 232 46 4.87 160 48
4.2 ±0.05 3.8 501 275 4.30 534 46 4.67 228 46 5.01 157 48
4.3 ±0.05 3.7 495 272 4.41 528 46 4.79 225 46 5.16 154 48
4.4 ±0.05 3.7 489 269 4.51 522 46 4.92 222 46 5.30 151 47
4.5 ±0.05 3.6 483 265 4.61 516 46 5.04 219 45 5.44 149 47
4.6 ±0.05 3.6 477 262 4.72 511 45 5.16 216 45 5.59 146 47
4.7 ±0.05 3.5 471 259 4.82 505 45 5.29 213 45 5.73 143 47
5.1 ±0.05 3.4 446 245 5.23 482 44 5.78 200 43 6.30 133 47
5.6 ±0.05 3.3 416 229 5.75 453 43 6.40 184 42 7.02 119 46
6.2 ±0.1 3.0 388 213 6.41 427 44 7.26 167 44 8.11 107 47
6.8 ±0.1 2.8 360 198 7.07 400 44 8.12 150 45 9.19 95 48
7.5 ±0.1 2.7 338 186 7.85 378 45 9.17 139 47 10.57 86 49
8.2 ±0.1 2.6 315 173 8.62 356 45 10.22 128 48 11.95 77 50
9.1 ±0.1 2.5 292 160 9.63 333 45 11.75 115 47 14.23 69 50
10 ±1% 2.4 268 148 10.65 310 45 13.28 103 47 16.50 61 49
11 ±1% 2.3 242 133 11.77 285 44 14.98 89 46 19.04 51 49
12 ±1% 2.2 217 119 12.90 259 44 16.68 75 45 21.57 42 48
13 ±1% 2.2 202 111 14.03 241 44 18.83 68 47 25.73 38 49
14 ±1% 2.1 187 103 15.17 223 44 20.97 62 49 29.89 33 49
15 ±1% 2.1 172 94 16.30 204 45 23.12 56 51 34.05 29 50
16 ±1% 2.0 157 87 17.53 187 44 25.91 50 49 41.44 25 49
17 ±1% 1.9 143 79 18.75 169 43 28.70 45 46 48.82 21 47
18 ±1% 1.8 129 71 19.98 152 42 31.49 39 44 56.21 17 46
19 ±1% 1.8 121 67 21.11 143 42 33.51 36 44 60.92 15 47
20 ±1% 1.8 110 61 22.25 131 41 35.53 33 43 65.63 14 48
22 ±1% 1.8 98 54 24.51 116 41 39.57 26 42 75.05 10 51
24 ±1% 1.8 87 48 27.51 104 37 54.94 21 35 NA NA NA
27 ±1% 1.7 70 39 32.01 85 32 77.98 13 23 NA NA NA
30 ±1% 1.7 65 36 35.89 78 28 106.50 10 12 NA NA NA
33 ±1% 1.7 60 33 40.05 74 27 NA NA NA NA NA NA
36 ±1% 1.7 58 32 45.13 71 28 NA NA NA NA NA NA
39 ±1% 1.7 56 31 50.21 69 28 NA NA NA NA NA NA
43 ±1% 1.6 53 29 56.98 66 29 NA NA NA NA NA NA
47 ±1% 1.6 50 28 63.75 63 30 NA NA NA NA NA NA
51 ±1% 1.6 48 26 70.53 60 31 NA NA NA NA NA NA
56 ±1% 1.6 44 24 78.99 56 33 NA NA NA NA NA NA
58 ±1% 1.6 42 23 83.54 54 34 NA NA NA NA NA NA
68 ±1% 1.6 32 18 106.28 42 40 NA NA NA NA NA NA
1
13
Accu-P®
0603 Typical Electrical Tables
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
0.05 ±0.02 25.6 1200 660 0.06 1333 945 0.06 556 832 0.06 397 880
0.1 ±0.02 18.1 1156 636 0.11 1284 675 0.11 535 628 0.11 382 667
0.15 ±0.02 14.8 1111 611 0.16 1235 555 0.16 514 533 0.16 367 567
0.2 ±0.02 12.8 1067 587 0.21 1185 483 0.21 494 474 0.22 353 505
0.25 ±0.02 11.4 1022 562 0.26 1136 433 0.27 473 433 0.27 338 462
0.3 ±0.02 10.4 978 538 0.31 1086 397 0.32 453 402 0.32 323 430
0.35 ±0.02 9.7 933 513 0.36 1037 368 0.37 432 378 0.37 309 404
0.4 ±0.02 9.0 889 489 0.41 988 345 0.42 412 358 0.42 294 383
0.45 ±0.02 8.5 844 464 0.46 938 326 0.47 391 341 0.48 279 365
0.5 ±0.02 8.1 800 440 0.51 889 310 0.52 370 327 0.53 265 350
0.55 ±0.02 7.7 788 434 0.57 875 296 0.57 363 315 0.58 261 337
0.6 ±0.02 7.4 777 427 0.62 860 283 0.62 356 304 0.63 258 326
0.65 ±0.02 7.1 765 421 0.67 846 273 0.67 348 294 0.68 255 315
0.7 ±0.02 6.8 754 414 0.72 832 263 0.72 341 285 0.73 252 306
0.75 ±0.02 6.6 742 408 0.77 817 254 0.78 334 277 0.79 248 298
0.8 ±0.02 6.4 730 402 0.82 803 247 0.83 326 270 0.84 245 290
0.85 ±0.02 6.2 719 395 0.87 789 239 0.88 319 264 0.89 242 283
0.9 ±0.02 6.0 707 389 0.92 775 233 0.93 312 258 0.95 239 277
0.95 ±0.02 5.9 696 383 0.97 760 227 0.98 304 252 1.00 235 271
1 ±0.02 5.7 684 376 1.019 746 216 1.061 297 242 1.101 232 260
1.05 ±0.02 5.6 667 367 1.076 731 213 1.126 290 239 1.171 226 256
1.1 ±0.02 5.4 649 357 1.134 717 210 1.190 282 236 1.241 220 253
1.15 ±0.02 5.3 632 347 1.192 702 206 1.254 275 233 1.311 214 250
1.2 ±0.02 5.2 614 338 1.250 687 203 1.318 267 230 1.381 209 247
1.25 ±0.02 5.1 605 333 1.307 677 200 1.382 262 227 1.451 203 244
1.3 ±0.02 5.0 596 328 1.365 667 197 1.446 257 224 1.521 197 241
1.35 ±0.02 4.9 587 323 1.423 658 194 1.511 252 221 1.591 191 238
1.4 ±0.02 4.8 578 318 1.481 648 190 1.575 247 218 1.661 185 235
1.45 ±0.02 4.8 569 313 1.538 638 187 1.639 242 215 1.731 179 232
1.5 ±0.02 4.7 560 308 1.596 628 184 1.703 237 212 1.801 173 229
1.55 ±0.02 4.6 551 303 1.645 620 181 1.760 233 209 1.866 170 226
1.6 ±0.02 4.5 542 298 1.694 611 178 1.817 228 206 1.930 166 222
1.65 ±0.02 4.5 534 293 1.743 603 175 1.874 224 203 1.995 163 219
1.7 ±0.02 4.4 525 289 1.792 595 172 1.931 219 200 2.060 159 216
1.75 ±0.02 4.3 516 284 1.841 587 169 1.988 215 197 2.124 156 213
1.8 ±0.02 4.2 507 279 1.890 578 166 2.045 211 194 2.189 153 209
1.85 ±0.02 4.2 498 274 1.939 570 163 2.102 206 191 2.253 149 206
1.9 ±0.02 4.1 490 269 1.988 562 160 2.158 202 188 2.318 146 203
1.95 ±0.02 4.1 481 264 2.037 553 157 2.215 197 185 2.383 142 199
2 ±0.03 4.0 472 260 2.086 545 154 2.272 193 182 2.447 139 196
2.1 ±0.03 3.9 462 254 2.190 535 151 2.402 187 180 2.604 134 193
2.2 ±0.03 3.8 452 249 2.295 524 148 2.532 181 177 2.761 129 191
2.3 ±0.03 3.8 442 243 2.400 514 145 2.662 175 175 2.917 124 188
2.4 ±0.03 3.7 433 238 2.504 503 143 2.793 168 172 3.074 118 186
2.5 ±0.03 3.6 423 232 2.609 493 140 2.923 162 170 3.230 113 183
2.6 ±0.03 3.6 413 227 2.714 482 137 3.053 156 167 3.387 108 181
2.7 ±0.03 3.5 403 222 2.818 472 134 3.183 150 165 3.543 103 178
2.8 ±0.03 3.4 395 217 2.933 463 133 3.336 147 164 3.742 100 177
2.9 ±0.03 3.4 388 213 3.047 453 131 3.489 144 162 3.940 97 175
3 ±0.03 3.3 380 209 3.162 444 130 3.642 140 161 4.139 95 174
3.1 ±0.05 3.2 372 205 3.276 435 129 3.795 137 160 4.337 92 172
3.2 ±0.05 3.2 365 201 3.391 425 127 3.947 134 159 4.536 89 171
3.3 ±0.05 3.1 357 196 3.506 416 126 4.100 131 157 4.734 86 169
3.4 ±0.05 3.1 349 192 3.620 407 125 4.253 128 156 4.933 84 168
3.5 ±0.05 3.1 342 188 3.735 397 123 4.406 125 155 5.131 81 166
3.6 ±0.05 3.0 334 184 3.849 388 122 4.559 121 154 5.330 78 165
3.7 ±0.05 3.0 326 179 3.964 379 121 4.712 118 152 5.528 75 164
3.8 ±0.05 3.0 318 175 4.078 369 119 4.865 115 151 5.727 73 162
3.9 ±0.05 2.9 311 171 4.193 360 118 5.018 112 150 5.925 70 161
1
14
Accu-P®
0603 Typical Electrical Tables
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
4 ±0.05 2.9 307 169 4.301 355 117 5.188 110 149 6.188 68 160
4.1 ±0.05 2.8 303 167 4.410 351 116 5.358 108 148 6.450 67 159
4.2 ±0.05 2.8 299 164 4.518 347 116 5.528 106 148 6.713 65 158
4.3 ±0.05 2.7 295 162 4.627 342 115 5.698 104 147 6.975 64 157
4.4 ±0.05 2.7 291 160 4.735 338 114 5.867 102 146 7.238 62 157
4.5 ±0.05 2.7 287 158 4.843 333 113 6.037 100 146 7.500 61 156
4.6 ±0.05 2.6 283 156 4.952 329 112 6.207 98 145 7.763 59 155
4.7 ±0.05 2.6 279 154 5.060 324 112 6.377 96 144 8.025 58 154
5.1 ±0.05 2.5 263 145 5.494 307 109 7.057 88 142 9.075 52 151
5.6 ±0.05 2.4 244 134 6.035 285 105 7.906 78 138 10.39 44 147
6.2 ±0.1 2.3 228 126 6.865 267 102 9.517 72 133 13.66 40 141
6.8 ±0.1 2.2 213 117 7.694 250 100 11.13 66 128 16.93 35 135
7.5 ±0.1 2.1 195 107 8.367 227 98 12.63 57 125 20.91 28 132
8.2 ±0.1 2.0 176 97 9.041 205 96 14.14 49 123 24.88 21 129
9.1 ±0.1 1.9 161 89 10.20 188 96 18.09 42 122 40.00 16 128
10 ±1% 1.8 146 80 11.37 171 95 22.05 36 121 70.00 12 127
11 ±1% 1.7 129 71 12.66 153 95 26.44 29 120 140.0 6 126
12 ±1% 1.6 112 62 13.95 134 94 30.83 22 119 231.3 1 125
13 ±1% 1.6 102 56 15.31 122 93 40.37 18 118 n/a n/a n/a
14 ±1% 1.5 92 51 16.67 111 92 49.91 15 118 n/a n/a n/a
15 ±1% 1.5 82 45 18.03 99 90 59.44 11 117 n/a n/a n/a
16 ±1% 1.4 79 43 19.61 96 90 80.00 8 117 n/a n/a n/a
17 ±1% 1.4 76 42 21.18 92 90 120.0 6 116 n/a n/a n/a
18 ±1% 1.3 73 40 22.76 89 90 190.0 4 116 n/a n/a n/a
19 ±1% 1.3 69 38 24.37 84 89 n/a n/a n/a n/a n/a n/a
20 ±1% 1.2 65 36 25.98 80 89 n/a n/a n/a n/a n/a n/a
22 ±1% 1.2 57 31 29.21 72 87 n/a n/a n/a n/a n/a n/a
24 ±1% 1.2 48 26 34.44 62 87 n/a n/a n/a n/a n/a n/a
27 ±1% 1.1 43 24 41.87 56 86 n/a n/a n/a n/a n/a n/a
30 ±1% 1.0 37 21 49.29 49 85 n/a n/a n/a n/a n/a n/a
33 ±1% 1.0 32 18 56.72 43 84 n/a n/a n/a n/a n/a n/a
36 ±1% 1.0 27 15 64.15 37 83 n/a n/a n/a n/a n/a n/a
39 ±1% 1.0 21 12 71.57 30 82 n/a n/a n/a n/a n/a n/a
1
15
Accu-P®
0805 Typical Electrical Tables
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
0.1 ±0.02 17.2 880 484 0.125 890 3296 0.125 545 2417 0.126 447 2265
0.15 ±0.02 14.1 872 480 0.176 885 2073 0.178 530 1626 0.181 434 1546
0.2 ±0.02 12.3 864 475 0.228 880 1492 0.231 516 1227 0.235 420 1178
0.25 ±0.02 11.0 857 471 0.279 874 1156 0.284 501 986 0.290 407 955
0.3 ±0.02 10.1 849 467 0.331 869 938 0.337 487 825 0.344 394 804
0.35 ±0.02 9.4 841 462 0.382 864 787 0.390 472 710 0.399 380 695
0.4 ±0.02 8.8 833 458 0.433 859 675 0.443 458 623 0.453 367 613
0.45 ±0.02 8.3 825 454 0.485 853 590 0.496 443 555 0.508 353 549
0.5 ±0.02 7.9 817 450 0.536 848 523 0.549 429 501 0.562 340 497
0.55 ±0.02 7.5 811 446 0.584 843 469 0.600 420 456 0.616 331 454
0.6 ±0.02 7.2 805 443 0.631 838 425 0.651 411 419 0.670 322 418
0.65 ±0.02 6.9 798 439 0.679 834 387 0.702 402 387 0.724 313 388
0.7 ±0.02 6.7 792 436 0.726 829 356 0.753 393 360 0.778 304 362
0.75 ±0.02 6.5 786 432 0.774 824 329 0.804 384 337 0.832 295 339
0.8 ±0.02 6.3 779 429 0.822 819 306 0.855 375 316 0.886 286 319
0.85 ±0.02 6.1 773 425 0.869 814 285 0.906 366 298 0.940 277 301
0.9 ±0.02 5.9 767 422 0.917 810 267 0.957 357 282 0.994 268 285
0.95 ±0.02 5.8 760 418 0.964 805 251 1.008 348 267 1.049 260 271
1 ±0.02 5.6 754 415 1.012 800 231 1.059 339 235 1.103 251 242
1.05 ±0.02 5.5 747 411 1.065 794 223 1.120 335 228 1.170 247 235
1.1 ±0.02 5.4 740 407 1.119 788 215 1.181 330 221 1.237 244 228
1.15 ±0.02 5.3 732 403 1.172 782 208 1.242 326 214 1.304 240 220
1.2 ±0.02 5.1 725 399 1.225 776 200 1.304 322 207 1.371 237 213
1.25 ±0.02 5.0 718 395 1.279 770 192 1.365 318 200 1.438 233 206
1.3 ±0.02 4.9 711 391 1.332 764 184 1.426 313 193 1.505 230 199
1.35 ±0.02 4.9 704 387 1.386 758 176 1.487 309 186 1.573 226 192
1.4 ±0.02 4.8 696 383 1.439 752 169 1.548 305 179 1.640 223 184
1.45 ±0.02 4.7 689 379 1.492 746 161 1.609 300 172 1.707 219 177
1.5 ±0.02 4.6 682 375 1.546 740 153 1.670 296 165 1.774 216 170
1.55 ±0.02 4.6 675 371 1.600 733 151 1.734 292 163 1.850 212 168
1.6 ±0.02 4.5 668 367 1.654 726 148 1.799 287 161 1.927 208 165
1.65 ±0.02 4.4 660 363 1.708 719 146 1.864 283 159 2.003 204 163
1.7 ±0.02 4.3 653 359 1.762 712 143 1.928 278 157 2.079 200 160
1.75 ±0.02 4.3 646 355 1.816 705 141 1.993 274 155 2.156 197 158
1.8 ±0.02 4.2 639 351 1.870 698 139 2.058 269 152 2.232 193 155
1.85 ±0.02 4.2 632 347 1.924 691 136 2.122 265 150 2.308 189 153
1.9 ±0.02 4.1 624 343 1.978 684 134 2.187 260 148 2.385 185 150
1.95 ±0.02 4.1 617 339 2.033 677 131 2.252 256 146 2.461 181 148
2 ±0.03 4.0 610 336 2.087 670 129 2.316 251 144 2.537 177 145
2.1 ±0.03 3.9 597 328 2.183 658 127 2.440 245 142 2.690 171 143
2.2 ±0.03 3.8 584 321 2.280 646 124 2.563 239 139 2.843 165 141
2.3 ±0.03 3.8 571 314 2.377 634 122 2.687 233 137 2.996 159 139
2.4 ±0.03 3.6 557 307 2.474 623 119 2.810 227 135 3.149 154 136
2.5 ±0.03 3.6 544 299 2.571 611 117 2.934 221 133 3.301 148 134
2.6 ±0.03 3.6 531 292 2.668 599 114 3.057 215 130 3.454 142 132
2.7 ±0.03 3.4 518 285 2.764 587 112 3.181 209 128 3.607 136 130
2.8 ±0.03 3.4 507 279 2.875 575 111 3.348 204 127 3.850 132 129
2.9 ±0.03 3.4 497 273 2.987 564 110 3.514 199 125 4.093 129 127
3 ±0.03 3.3 486 267 3.098 552 109 3.681 194 124 4.335 125 126
3.1 ±0.05 3.3 475 261 3.209 540 108 3.848 189 123 4.578 121 125
3.2 ±0.05 3.2 465 256 3.320 528 107 4.014 183 122 4.821 118 123
3.3 ±0.05 3.1 454 250 3.431 517 106 4.181 178 120 5.064 114 122
3.4 ±0.05 3.1 443 244 3.542 505 105 4.348 173 119 5.307 110 121
3.5 ±0.05 3.1 433 238 3.653 493 104 4.515 168 118 5.549 107 119
3.6 ±0.05 3.0 422 232 3.764 481 103 4.681 163 116 5.792 103 118
3.7 ±0.05 3.0 412 226 3.875 470 102 4.848 158 115 6.035 99 116
3.8 ±0.05 3.0 401 220 3.986 458 101 5.015 153 114 6.278 96 115
3.9 ±0.05 2.9 390 215 4.097 446 100 5.182 148 113 6.521 92 114
1
16
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
4 ±0.05 2.9 384 211 4.214 440 99 5.378 144 112 6.861 89 113
4.1 ±0.05 2.9 378 208 4.331 434 98 5.574 141 112 7.201 86 113
4.2 ±0.05 2.8 372 205 4.448 428 98 5.769 138 111 7.541 84 112
4.3 ±0.05 2.7 366 202 4.564 422 97 5.965 134 111 7.881 81 111
4.4 ±0.05 2.7 360 198 4.681 415 96 6.161 131 110 8.222 78 111
4.5 ±0.05 2.7 355 195 4.798 409 96 6.357 128 110 8.562 75 110
4.6 ±0.05 2.7 349 192 4.915 403 95 6.553 124 109 8.902 72 110
4.7 ±0.05 2.6 343 188 5.032 397 94 6.749 121 109 9.242 69 109
5.1 ±0.05 2.5 319 175 5.499 373 91 7.533 108 107 10.60 58 107
5.6 ±0.05 2.4 289 159 6.083 342 88 8.513 91 104 12.30 44 104
6.2 ±0.1 2.3 264 145 6.842 313 86 10.43 79 102 18.03 36 103
6.8 ±0.1 2.2 239 131 7.601 283 84 12.35 68 101 23.76 28 102
7.5 ±0.1 2.1 218 120 8.468 259 83 14.84 61 100 37.25 21 101
8.2 ±0.1 2.0 198 109 9.334 234 82 17.32 55 100 50.74 15 100
9.1 ±0.1 1.9 179 99 10.57 213 82 24.90 46 100 n/a n/a n/a
10 ±1% 1.8 160 88 11.80 191 81 32.48 37 100 n/a n/a n/a
11 ±1% 1.7 139 77 13.17 167 81 40.90 26 101 n/a n/a n/a
12 ±1% 1.6 119 65 14.54 143 80 49.32 16 101 n/a n/a n/a
13 ±1% 1.6 110 60 16.17 134 80 n/a n/a n/a n/a n/a n/a
14 ±1% 1.5 101 55 17.79 125 80 n/a n/a n/a n/a n/a n/a
15 ±1% 1.5 92 51 19.42 116 80 n/a n/a n/a n/a n/a n/a
16 ±1% 1.4 87 48 21.13 110 79 n/a n/a n/a n/a n/a n/a
17 ±1% 1.4 83 46 22.85 104 78 n/a n/a n/a n/a n/a n/a
18 ±1% 1.3 78 43 24.57 99 77 n/a n/a n/a n/a n/a n/a
19 ±1% 1.3 73 40 26.41 92 77 n/a n/a n/a n/a n/a n/a
20 ±1% 1.3 67 37 28.26 85 76 n/a n/a n/a n/a n/a n/a
22 ±1% 1.2 57 31 31.95 72 76 n/a n/a n/a n/a n/a n/a
24 ±1% 1.2 46 25 35.64 59 75 n/a n/a n/a n/a n/a n/a
27 ±1% 1.1 41 22 44.94 54 74 n/a n/a n/a n/a n/a n/a
30 ±1% 1.0 36 20 54.24 48 73 n/a n/a n/a n/a n/a n/a
33 ±1% 1.0 30 17 63.54 42 72 n/a n/a n/a n/a n/a n/a
36 ±1% 0.9 25 14 72.84 37 71 n/a n/a n/a n/a n/a n/a
39 ±1% 0.9 20 11 82.14 31 70 n/a n/a n/a n/a n/a n/a
43 ±1% 0.9 16 9 102.9 27 66 n/a n/a n/a n/a n/a n/a
47 ±1% 0.8 12 7 123.7 23 63 n/a n/a n/a n/a n/a n/a
Accu-P®
0805 Typical Electrical Tables
1
17
Accu-P®
1210 Typical Electrical Tables
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
0.1 ±0.02 15.6 1190 654 0.136 1176 3633 0.136 606 2149 0.136 450 2068
0.15 ±0.03 12.7 1179 648 0.190 1166 2129 0.190 597 1407 0.191 444 1370
0.2 ±0.02 11.0 1168 642 0.244 1156 1457 0.244 589 1042 0.246 438 1023
0.25 ±0.02 9.8 1156 636 0.297 1145 1086 0.299 581 826 0.301 432 816
0.3 ±0.02 8.9 1145 630 0.351 1135 854 0.353 573 683 0.356 426 678
0.35 ±0.02 8.3 1134 624 0.405 1125 697 0.408 565 581 0.411 421 580
0.4 ±0.02 7.7 1123 618 0.459 1115 584 0.462 557 505 0.466 415 506
0.45 ±0.02 7.3 1112 612 0.513 1105 500 0.516 549 447 0.521 409 449
0.5 ±0.02 6.9 1101 606 0.567 1095 435 0.571 541 400 0.576 403 404
0.55 ±0.02 6.6 1090 599 0.617 1084 384 0.621 532 362 0.627 397 366
0.6 ±0.02 6.3 1079 593 0.666 1074 342 0.672 524 331 0.679 391 335
0.65 ±0.02 6.0 1068 587 0.716 1064 308 0.723 516 304 0.731 385 309
0.7 ±0.02 5.8 1057 581 0.765 1054 279 0.774 508 282 0.783 379 287
0.75 ±0.02 5.6 1046 575 0.815 1044 255 0.824 500 262 0.834 374 267
0.8 ±0.02 5.4 1035 569 0.864 1034 234 0.875 492 245 0.886 368 250
0.85 ±0.02 5.3 1023 563 0.914 1024 216 0.926 484 230 0.938 362 236
0.9 ±0.02 5.1 1012 557 0.963 1013 201 0.976 476 217 0.989 356 222
0.95 ±0.02 5.0 1001 551 1.013 1003 187 1.027 467 205 1.041 350 210
1 ±0.02 5.0 992 546 1.062 983 167 1.078 459 170 1.093 344 177
1.05 ±0.02 4.9 981 539 1.107 975 163 1.124 451 167 1.141 338 174
1.1 ±0.02 4.8 969 533 1.152 966 158 1.170 443 165 1.189 331 172
1.15 ±0.02 4.7 958 527 1.196 958 154 1.217 435 162 1.236 325 169
1.2 ±0.02 4.6 946 521 1.241 950 150 1.263 427 160 1.284 318 167
1.25 ±0.02 4.5 935 514 1.285 942 146 1.309 419 157 1.332 312 164
1.3 ±0.02 4.4 923 508 1.330 933 142 1.355 410 155 1.380 305 162
1.35 ±0.02 4.3 912 502 1.375 925 138 1.402 402 152 1.428 299 159
1.4 ±0.02 4.2 900 495 1.419 917 134 1.448 394 150 1.476 293 156
1.45 ±0.02 4.1 889 489 1.464 908 129 1.494 386 147 1.524 286 154
1.5 ±0.02 4.1 877 483 1.508 900 125 1.541 378 144 1.572 280 151
1.55 ±0.02 4.0 862 474 1.567 890 123 1.618 371 143 1.638 274 150
1.6 ±0.02 3.9 846 465 1.626 881 122 1.694 363 142 1.704 268 149
1.65 ±0.02 3.9 831 457 1.685 871 120 1.771 356 140 1.770 262 148
1.7 ±0.02 3.8 815 448 1.743 862 118 1.848 349 139 1.836 256 147
1.75 ±0.02 3.7 800 440 1.802 852 116 1.925 342 138 1.902 250 145
1.8 ±0.02 3.7 784 431 1.861 843 114 2.002 334 136 1.968 244 144
1.85 ±0.02 3.6 769 423 1.920 833 112 2.079 327 135 2.034 239 143
1.9 ±0.02 3.5 753 414 1.978 824 110 2.156 320 134 2.100 233 142
1.95 ±0.02 3.4 737 406 2.037 814 108 2.233 313 132 2.167 227 141
2 ±0.03 3.3 722 397 2.096 805 107 2.310 305 131 2.233 221 139
2.1 ±0.03 3.2 691 380 2.213 786 103 2.464 291 128 2.365 209 137
2.2 ±0.03 3.0 660 363 2.331 767 99 2.618 276 126 2.497 198 135
2.3 ±0.03 2.9 644 354 2.420 747 97 2.681 268 123 2.613 191 132
2.4 ±0.03 2.9 629 346 2.508 728 96 2.744 259 121 2.729 185 130
2.5 ±0.03 2.8 614 338 2.597 709 94 2.807 251 118 2.845 179 128
2.6 ±0.03 2.8 598 329 2.686 689 93 2.870 242 116 2.961 173 126
2.7 ±0.03 2.7 583 321 2.775 670 91 2.933 234 114 3.077 167 123
2.8 ±0.03 2.7 574 316 2.875 659 90 3.047 230 113 3.205 164 122
2.9 ±0.03 2.7 566 311 2.975 647 89 3.162 227 112 3.334 161 121
3 ±0.03 2.7 557 306 3.075 636 88 3.276 223 111 3.462 157 121
3.1 ±0.05 2.7 548 302 3.174 625 87 3.390 220 110 3.590 154 120
3.2 ±0.05 2.6 540 297 3.274 613 87 3.504 216 109 3.718 151 119
3.3 ±0.05 2.6 531 292 3.374 602 86 3.619 213 108 3.847 148 118
3.4 ±0.05 2.6 522 287 3.474 591 85 3.733 209 107 3.975 145 117
3.5 ±0.05 2.6 514 283 3.574 579 84 3.847 206 106 4.103 141 116
3.6 ±0.05 2.5 505 278 3.674 568 83 3.961 202 105 4.231 138 115
3.7 ±0.05 2.5 496 273 3.773 556 82 4.076 198 104 4.359 135 114
3.8 ±0.05 2.5 488 268 3.873 545 81 4.190 195 103 4.488 132 113
3.9 ±0.05 2.4 479 264 3.973 534 80 4.304 191 102 4.616 129 112
1
18
Capacitance Self Q Standard Value Frequency Frequency Frequency
@ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz
and Tolerance Frequency
C (pF) Tol. (GHz) Typ. Min. C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR
Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ.
4 ±0.05 2.4 473 260 4.083 528 79 4.435 189 101 4.768 127 112
4.1 ±0.05 2.4 467 257 4.192 522 78 4.565 186 100 4.919 125 111
4.2 ±0.05 2.4 462 254 4.302 516 78 4.695 183 100 5.071 123 110
4.3 ±0.05 2.3 456 251 4.411 511 77 4.825 180 99 5.223 121 110
4.4 ±0.05 2.3 450 247 4.521 505 76 4.956 178 98 5.375 119 109
4.5 ±0.05 2.3 444 244 4.630 499 75 5.086 175 98 5.526 117 108
4.6 ±0.05 2.3 438 241 4.740 493 75 5.216 172 97 5.678 115 108
4.7 ±0.05 2.2 432 238 4.849 487 74 5.347 170 96 5.830 113 107
5.1 ±0.05 2.1 408 225 5.288 464 71 5.868 159 93 6.437 106 105
5.6 ±0.05 2.0 379 208 5.835 435 67 6.519 145 90 7.195 96 102
6.2 ±0.1 1.9 355 195 6.440 408 65 7.176 137 86 7.897 91 96
6.8 ±0.1 1.8 330 182 7.044 380 62 7.832 129 83 8.599 85 91
7.5 ±0.1 1.7 308 169 7.823 351 61 8.927 115 81 10.08 74 89
8.2 ±0.1 1.7 285 157 8.601 322 60 10.02 100 78 11.55 63 87
9.1 ±0.1 1.6 266 146 9.600 304 58 11.55 93 77 13.93 57 85
10 ±1% 1.5 247 136 10.60 285 57 13.09 85 76 16.30 50 84
11 ±1% 1.5 225 124 11.71 265 56 14.79 76 74 18.94 43 82
12 ±1% 1.4 204 112 12.82 244 54 16.49 68 73 21.57 36 81
13 ±1% 1.3 193 106 13.97 230 53 18.64 61 72 26.09 32 80
14 ±1% 1.3 181 99 15.13 215 53 20.80 55 71 30.61 28 79
15 ±1% 1.2 169 93 16.28 200 52 22.95 48 70 35.13 24 78
16 ±1% 1.2 164 90 17.51 195 51 26.01 46 69 46.51 22 76
17 ±1% 1.2 159 88 18.75 189 50 29.07 43 67 57.90 19 75
18 ±1% 1.1 154 85 19.98 183 49 32.14 41 66 69.29 17 73
19 ±1% 1.1 150 82 21.21 178 49 36.34 39 66 n/a n/a n/a
20 ±1% 1.1 145 80 22.43 172 49 40.55 38 65 n/a n/a n/a
22 ±1% 1.0 136 75 24.88 162 49 48.96 34 64 n/a n/a n/a
24 ±1% 1.0 126 70 27.34 151 48 57.38 31 63 n/a n/a n/a
27 ±1% 0.9 112 62 31.02 135 48 70.00 26 62 n/a n/a n/a
30 ±1% 0.9 101 56 36.14 121 48 n/a n/a n/a n/a n/a n/a
33 ±1% 0.8 90 50 41.27 108 48 n/a n/a n/a n/a n/a n/a
36 ±1% 0.8 79 44 46.39 95 48 n/a n/a n/a n/a n/a n/a
39 ±1% 0.8 68 38 51.52 82 48 n/a n/a n/a n/a n/a n/a
43 ±1% 0.7 54 30 58.35 64 48 n/a n/a n/a n/a n/a n/a
47 ±1% 0.7 39 21 65.18 46 48 n/a n/a n/a n/a n/a n/a
82 ±1% 0.7 17 10 148.400 24 48 n/a n/a n/a n/a n/a n/a
1
19
Accu-P®
High Frequency Characteristics
2.5
2
1.5
1
0.5
0
10000
1000
100
1000
100
10
Capacitance (pF)
SRF (GHz)
Frequency (MHz)
Accu-P® 01005 Typical SRF vs Capacitance
ESR (mΩ)
Accu-P® 01005 Typical ESR vs Frequency
Frequency (MHz)
Q
Accu-P® 01005 Typical Q vs Frequency
5 10 15 20 25 30 35
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
0.5pF
0.8pF
1.0pF
1.2pF
1.8pF
1.0pF
0.8pF
2.4pF
1
20
Measured on HP8720ES
Measured on Agilent 4278A/4991A
Measured on Agilent 4278A/4991A
Accu-P®
High Frequency Characteristics
35.0
30.0
25.0
20.0
15.0
10.0
5.0
0.0
1000
100
1000
100
10
Capacitance (pF)
SRF (GHz)
Frequency (MHz)
Accu-P® 0201 Typical SRF vs Capacitance
ESR (mΩ)
Accu-P® 0201 Typical ESR vs Frequency
Frequency (MHz)
Q
Accu-P® 0201 Typical Q vs Frequency
0 5 10 15 20 25
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
6.8pF
15pF
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
6.8pF
15pF
1
21
Measured on HP8720ES
Measured on Agilent 4278A/4991A
Measured on Agilent 4278A/4991A
Accu-P®
High Frequency Characteristics
1
22
30.0
25.0
20.0
15.0
10.0
5.0
0.0
1000
100
50
1000
100
10
Capacitance (pF)
SRF (GHz)
Frequency (MHz)
Accu-P® 0402 Typical SRF vs Capacitance
ESR (mΩ)
Accu-P® 0402 Typical ESR vs Frequency
Frequency (MHz)
Q
Accu-P® 0402 Typical Q vs Frequency
0 10 20 30 40 50 60 70
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
Measured on HP8720ES
Measured on Agilent 4278A/4991A
Measured on Agilent 4278A/4991A
Accu-P®
High Frequency Characteristics
1
23
30.0
25.0
20.0
15.0
10.0
5.0
0.0
350
300
250
200
150
100
50
1000
100
10
Capacitance (pF)
SRF (GHz)
Frequency (MHz)
Accu-P® 0603 Typical SRF vs Capacitance
ESR (mΩ)
Accu-P® 0603 Typical ESR vs Frequency
Frequency (MHz)
Q
Accu-P® 0603 Typical Q vs Frequency
0 5 10 15 20 25 30 35 40
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
6.8pF
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
6.8pF
Measured on HP8720ES
Measured on Agilent 4278A/4991A
Measured on Agilent 4278A/4991A
Accu-P®
High Frequency Characteristics
20
18
16
14
12
10
8
6
4
2
0
350
300
250
200
150
100
50
1000
100
10
Capacitance (pF)
SRF (GHz)
Frequency (MHz)
Accu-P® 0805 Typical SRF vs Capacitance
ESR (mΩ)
Accu-P® 0805 Typical ESR vs Frequency
Frequency (MHz)
Q
Accu-P® 0805 Typical Q vs Frequency
0 10 20 30 40 50
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
8.2pF
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
6.8pF
8.2pF
Measured on HP8720ES
Measured on Agilent 4278A/4991A
Measured on Agilent 4278A/4991A
1
24
Accu-P®
High Frequency Characteristics
20
18
16
14
12
10
8
6
4
2
0
300
250
200
150
100
50
0
1000
100
10
Capacitance (pF)
SRF (GHz)
Frequency (MHz)
Accu-P® 1210 Typical SRF vs Capacitance
ESR (mΩ)
Accu-P® 1210 Typical ESR vs Frequency
Frequency (MHz)
Q
Accu-P® 1210 Typical Q vs Frequency
0 5 10 15 20 25 30 35 40 45 50
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
800 1000 1200 1400 1600 1800 2000 2200 2400 2600
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
6.8pF
15pF
0.8pF
1.2pF
1.8pF
2.2pF
3.3pF
4.7pF
6.8pF
15pF
Measured on HP8720ES
Measured on Agilent 4278A/4991A
Measured on Agilent 4278A/4991A
1
25
Accu-P®
Environmental / Mechanical Characteristics
QUALITY & RELIABILITY
Accu-P®is based on well established thin-film technology
and materials.
• ON-LINE PROCESS CONTROL
This program forms an integral part of the production cycle
and acts as a feedback system to regulate and control
production processes. The test procedures, which are
integrated into the production process, were developed
after long research work and are based on the highly
developed semiconductor industry test procedures and
equipment. These measures help AVX to produce a con-
sistent and high yield line of products.
• FINAL QUALITY INSPECTION
Finished parts are tested for standard electrical parameters
and visual/mechanical characteristics. Each production lot
is 100% evaluated for: capacitance and proof voltage at
2.5 UR. In addition, production is periodically evaluated for:
Average capacitance with histogram printout for
capacitance distribution;
IR and Breakdown Voltage distribution;
Temperature Coefficient;
Solderability;
Dimensional, mechanical and temperature stability.
QUALITY ASSURANCE
The reliability of these thin-film chip capacitors has been
studied intensively for several years. Various measures
have been taken to obtain the high reliability required today
by the industry. Quality assurance policy is based on well
established international industry standards. The reliability
of the capacitors is determined by accelerated testing
under the following conditions:
Life (Endurance) 125°C, 2UR, 1000 hours
Accelerated Damp
Heat Steady State 85°C, 85% RH, UR,
1000 hours.
TEST CONDITIONS REQUIREMENT
Life (Endurance)
125°C, 2UR,1000 hours No visible damage
MIL-STD-202F Method 108A
Δ C/C ≤ 2% for C≥5pF
Δ C ≤ 0.25pF for C<5pF
Accelerated Damp
85°C, 85% RH, UR, 1000 hours No visible damage
Heat Steady State
Δ C/C ≤ 2% for C≥5pF
MIL-STD-202F Method 103B
Δ C ≤ 0.25pF for C<5pF
Temperature Cycling
-55°C to +125°C, 15 cycles – Accu-P® No visible damage
MIL-STD-202F Method 107E
Δ C/C ≤ 2% for C≥5pF
MIL-STD-883D Method 1010.7
Δ C ≤ 0.25pF for C<5pF
Resistance to Solder Heat
260°C ± 5°C for 10 secs C remains within initial limits
IEC-68-2-58
ENVIRONMENTAL CHARACTERISTICS
TEST CONDITIONS REQUIREMENT
Solderability
Components completely immersed in a Terminations to be well tinned, minimum 95%
IEC-68-2-58
solder bath at 235°C for 2 secs. coverage
Leach Resistance
Components completely immersed in a
Dissolution of termination faces ≤15% of area
IEC-68-2-58
solder bath at 260±5°C for 60 secs.
Dissolution of termination edges ≤25% of length
Adhesion
A force of 5N applied for 10 secs. No visible damage
MIL-STD-202F Method 211A
Termination Bond Strength
Tested as shown in diagram No visible damage
IEC-68-2-21 Amend. 2
Δ C/C ≤ 2% for C≥5pF
Δ C ≤ 0.25pF for C<5pF
Robustness of Termination
A force of 5N applied for 10 secs. No visible damage
IEC-68-2-21 Amend. 2
High Frequency Vibration
55Hz to 2000Hz, 20G No visible damage
MIL-STD-202F Method 201A,
204D
(Accu-P®only)
Storage
12 months minimum with components Good solderability
stored in “as received” packaging
MECHANICAL CHARACTERISTICS
D
45mm 45mm
D = 3mm Accu-P
D = 1mm Accu-F
1
26
CAPACITOR TYPE CHIP SIZE THERMAL IMPEDANCE (°C/W)
Accu-P®0805 6.5
1210 5
Microwave MLC 0505 12
1210 7.5
ADVANTAGES OF ACCU-P®
IN RF POWER CIRCUITS
The optimized design of Accu-P®offers the designer of RF
power circuits the following advantages:
Reduced power losses due to the inherently low ESR of
Accu-P®.
Increased power dissipation due to the high thermal
conductivity of Accu-P®.
PRACTICAL APPLICATION
IN RF POWER CIRCUITS
There is a wide variety of different experimental methods
for measuring the power handling performance of a
capacitor in RF power circuits. Each method has its
own problems and few of them exactly reproduce the
conditions present in “real” circuit applications.
Similarly, there is a very wide range of different circuit appli-
cations, all with their unique characteristics and operating
conditions which cannot possibly be covered by such
“theoretical” testing.
• THE ONLY TRUE TEST OF A CAPACITOR IN ANY PARTICULAR
APPLICATION IS ITS PERFORMANCE UNDER OPERATING
CONDITIONS IN THE ACTUAL CIRCUIT.
Accu-P®
Performance Characteristics RF Power Applications
RF POWER APPLICATIONS
In RF power applications capacitor losses generate heat. Two
factors of particular importance to designers are:
• Minimizing the generation of heat.
• Dissipating heat as efficiently as possible.
CAPACITOR HEATING
The major source of heat generation in a capacitor in RF
power applications is a function of RF current (I) and ESR,
from the relationship:
Power dissipation = I2RMS x ESR
• Accu-P®capacitors are specially designed to minimize
ESR and therefore RF heating. Values of ESR for
Accu-P®capacitors are significantly less than those of
ceramic MLC components currently available.
HEAT DISSIPATION
Heat is dissipated from a capacitor through a variety of
paths, but the key factor in the removal of heat is the
thermal conductivity of the capacitor material.
The higher the thermal conductivity of the capacitor, the
more rapidly heat will be dissipated.
The table below illustrates the importance of thermal
conductivity to the performance of Accu-P®in power
applications.
1210
0805
Amps
8
6
4
2
00 200 400 600 800 1000 1200 1400MHz
1210
0805
0603
0402
PRODUCT MATERIAL THERMAL CONDUCTIVITY W/mK
Accu-P®Alumina 18.9
Microwave MLC Magnesium Titanate 6.0
Power Handling
Accu-P®10pF
Data used in calculating the graph:
Thermal impedance of capacitors:
0402 17°C/W
0603 12°C/W
0805 6.5°C/W
1210 5°C/W
Thermal impedance measured using RF generator,
amplifier and strip-line transformer.
ESR of capacitors measured on Boonton 34A
THERMAL IMPEDANCE
Thermal impedance of Accu-P®chips is shown below com-
pared with the thermal impedance of Microwave MLC’s.
The thermal impedance expresses the temperature difference
in °C between chip center and termination caused by
a power dissipation of 1 watt in the chip. It is expressed in
°C/W.
1
27
1.7
(0.068)
0.55
(0.022)
0.5
(0.020)
0.6
(0.024)
0.6
(0.024)
3.0
(0.118)
1.25 (0.049)
1.0
(0.039)
0.17
(0.007)
0.20
(0.008)
0.22
(0.009)
0.78
(0.030)
0.34
(0.013)
0.26
(-0.010)
0.26
(-0.010)
0.26
(-0.010)
1.0
(0.039)
1.0
(0.039)
4.0
(0.157)
1.0
(0.039)
2.5 (0.098)
2.0
(0.079)
1.0
(0.039)
0.8 (0.031)
2.3
(0.091)
0.6
(0.024)
0.85
(0.033)
0.85
(0.033)
Accu-P®
Application Notes
GENERAL
Accu-P®SMD capacitors are designed for soldering to printed
circuit boards or other substrates. The construction of the
components is such that they will withstand the time/temper-
ature profiles used in both wave and reflow soldering methods.
CIRCUIT BOARD TYPE
The circuit board types which may be used with Accu-P®are
as follows:
All flexible types of circuit boards
(eg. FR-4, G-10) and also alumina.
For other circuit board materials, please consult factory.
HANDLING
SMD capacitors should be handled with care to avoid damage
or contamination from perspiration and skin oils. The use of
plastic tipped tweezers or vacuum pick-ups is strongly recom-
mended for individual components. Bulk handling should
ensure that abrasion and mechanical shock are minimized. For
automatic equipment, taped and reeled product gives the
ideal medium for direct presentation to the placement
machine.
COMPONENT PAD DESIGN
Component pads must be designed to achieve good
joints and minimize component movement during reflow
soldering. Pad designs are given below for both wave and
reflow soldering.
The basis of these designs is:
a. Pad width equal to component width. It is permissible to
decrease this to as low as 85% of component width but
it is not advisable to go below this.
b. Pad overlap 0.5mm beneath large components. Pad
overlap about 0.3mm beneath small components.
c. Pad extension of 0.5mm for reflow of large components
and pad extension about 0.3mm for reflow of small com-
ponents. Pad extension about 1.0mm for wave soldering.
REFLOW SOLDERING
PAD DIMENSIONS: millimeters (inches)
0402
Accu-P®
0201
Accu-P®
01005
Accu-P®
0603
Accu-P®
0805
Accu-P®
1210
Accu-P®
1
28
Accu-P®
Application Notes
PREHEAT & SOLDERING
The rate of preheat in production should not exceed 4°C/
second and a recommended maximum is about 2°C/second.
Temperature differential from preheat to soldering should not
exceed 100°C.
For further specific application or process advice, please consult
AVX.
COOLING
After soldering, the assembly should preferably be allowed
to cool naturally. In the event of assisted cooling, similar
conditions to those recommended for preheating should be
used.
HAND SOLDERING & REWORK
Hand soldering is permissible. Preheat of the PCB to 150°C is
required. The most preferable technique is to use hot air sol-
dering tools. Where a soldering iron is used, a temperature
controlled model not exceeding 30 watts should be used and
set to not more than 260°C.
CLEANING RECOMMENDATIONS
Care should be taken to ensure that the devices are
thoroughly cleaned of flux residues, especially the space
beneath the device. Such residues may otherwise become
conductive and effectively offer a lossy bypass to the device.
Various recommended cleaning conditions (which must be
optimized for the flux system being used) are as follows:
Cleaning liquids. . . . . . . i-propanol, ethanol, acetylacetone,
water and other standard PCB
cleaning liquids.
Ultrasonic conditions . . power-20w/liter max.
frequency-20kHz to 45kHz.
Temperature . . . . . . . . . 80°C maximum (if not otherwise
limited by chosen solvent system).
Time . . . . . . . . . . . . . . . 5 minutes max.
STORAGE CONDITIONS
Recommended storage conditions for Accu-P®prior to use
are as follows:
Temperature . . . . . . . . . . 15°C to 35°C
Humidity . . . . . . . . . . . . . ≤65%
Air Pressure . . . . . . . . . . 860mbar to 1060mbar
220
210
200
190
180
170
160
150
140
130
120
110
100
90
80
70
60
50
40
30
20
00.511.522.533.544.5
Assembly enters the
preheat zone
Additional soak time
to allow uniform
heating of the
substrate
Soak time
1) Activates the flux
2) Allows center of board
temperatures to catch up with
corners
45-60 sec.
above solder
melting point
Assembly exits heat–
no forced cooldown
186°C solder melting
temperature
COMPONENT LAND TEMP (DEG C)
Time (mins)
1
29
RECOMMENDED REFLOW
SOLDERING PROFILE
COMPONENTS WITH
SnPb TERMINATIONS
330
260
250
200
150
100
50
0
Temp (ºC)
Time
0:00 0:43 1:28 2:10 2:53 3:36 4:19 5:02 5:48 6:29
Peak Temperature = 260ºC
RECOMMENDED REFLOW
SOLDERING PROFILE
LEAD FREE
COMPONENTS WITH
Sn100 TERMINATIONS
ABCDEF
8.0 ± 0.3 3.5 ± 0.05 1.75±0.1 2.0 ± 0.05 4.0 ± 0.1 1.5
(0.315 ± 0.012) (0.138 ± 0.002) (0.069 ± 0.004) (0.079 ± 0.002) (0.157 ± 0.004) (0.059 )
Accu-P®
Automatic Insertion Packaging
A(1) BCDEFG
180±1.0 1.5 min. 13±0.2 20.2 min. 50 min. 9.6±1.5 14.4 max.
(7.087±0.039) (0.059 min.) (0.512 ± 0.008) (0.795 min.) (1.969 min.) (0.370 ± 0.050) (0.567 max.)
AVX reserves the right to change the information published herein without notice.
TAPE & REEL
All tape and reel specifications are in compliance with EIA 481-1-A.
(equivalent to IEC 286 part 3).
• 8mm carrier
• Reeled quantities: Reels of 3,000 per 7" reel or 10,000 pieces per 13" reel
01005, 0201 and 0402 = 5,000 pieces per 7" reel and 20,000 pieces per 13" reel
FULL RADIUS
D*
B* C
E
F
G MAX.
A
DRIVE SPOKES OPTIONAL
IF USED, ASTERISKED
DIMENSIONS APPLY.
*
A
E
P
D
F
W
L
C
B
10 PITCHES
CUMULATIVE
TOLERANCE ON
TAPE ±0.2
CENTER LINES
OF CAVITY
TOP
TAPE
DIRECTION OF FEED
REEL
DIMENSIONS: millimeters (inches)
CARRIER
DIMENSIONS: millimeters (inches)
Metric dimensions will govern.
Inch measurements rounded and for reference only.
(1) 330mm (13 inch) reels are available.
+0.1
-0.0
+0.004
-0.000
The nominal dimensions of the component compartment (W,L) are derived from the component size.
P = 4mm for 0603, 0805, 1210
P = 2mm for C005, 0201 and 0402
1
30
31
Thin-Film RF/Microwave
Inductor Technology
Accu-L®
31
The L0201 SMD Tuning Inductor is based on thin-film multilayer
technology. The technology provides a miniature part with
excellent high frequency performance and rugged construction
for reliable automatic assembly.
APPLICATIONS
• Mobile Communications
• Satellite TV Receivers
• GPS
• Vehicle Location Systems
• Wireless LAN’s
• Filters
• Matching Networks
L
T
B1
W
B2
DIMENSIONS: millimeters (inches)
(TOP View)
L0.600±0.050
(0.024±0.002)
W0.325±0.050
(0.013±0.002)
T0.225±0.050
(0.009±0.002)
ACCU-L®TECHNOLOGY
B1 0.100±0.100
(0.004±0.004)
B2 0.150±0.050
(0.006±0.002)
0.78
(0.031)
0.26
(0.010)
0.26
(0.010)
0.26
(0.010)
0.34
(0.013)
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/Lead Free solder coating compatible with automatic
soldering technologies: reflow, wave soldering, vapor phase
and manual.
L0201 XXX
Inductance
(nH)
X
Tolerance
H
Series
S
Lead Free
Termination
TR
Taped &
Reeled
HOW TO ORDER
Recommended Pad Layout Dimensions mm (inches)
P/N Example: L02013R3BHSTR
Accu-L®0201 Tight Tolerance
SMD RF Thin Film Tuning Inductor
2
32
ELECTRICAL SPECIFICATIONS
450MHz 900MHz 1900MHz 2400MHz
Tolerance QQQQ
SRF RDC IDC
L(nH) A=±0.05nH , B=±0.1nH, (min) (Typ) (Typ) (Typ)
min. max. max.
C=±0.2nH, D=±0.5nH (GHz) ()(mA)
0.33 ±0.05nH , ± 0.1nH , ± 0.2nH 13 24 36 39 35 0.1 550
0.39 ±0.05nH , ± 0.1nH , ± 0.2nH 11 23 34 38 33 0.1 550
0.47 ±0.05nH , ± 0.1nH , ± 0.2nH 10 18 26 30 32 0.1 550
0.56 ±0.05nH , ± 0.1nH , ± 0.2nH 9 16 24 27 31 0.1 500
0.68 ±0.05nH , ± 0.1nH , ± 0.2nH 8 19 28 32 30 0.2 500
0.82 ±0.05nH , ± 0.1nH , ± 0.2nH 8 19 28 32 28 0.2 400
1.0 ±0.05nH , ± 0.1nH , ± 0.2nH 7 16 26 30 26 0.2 400
1.2 ±0.05nH , ± 0.1nH , ± 0.2nH 7 16 26 30 24 0.3 300
1.5 ± 0.1nH , ± 0.2nH , ± 0.5nH 7 16 26 30 23 0.5 250
1.8 ± 0.1nH , ± 0.2nH , ± 0.5nH 7 15 25 29 20 0.5 250
2.2 ± 0.1nH , ± 0.2nH , ± 0.5nH 7 15 22 24 18 0.6 200
2.7 ± 0.1nH , ± 0.2nH , ± 0.5nH 7 15 22 24 14 0.7 180
3.3 ± 0.1nH , ± 0.2nH , ± 0.5nH 7 15 22 24 13 1.0 150
All intermediate Inductance values within the indicated range are available.
Accu-L®0201 Tight Tolerance
SMD RF Thin Film Tuning Inductor
2
33
The L0402 LGA Inductor is based on thin-film multilayer technology.
The technology provides a miniature part with excellent high frequency
performance and rugged construction for reliable automatic assembly.
APPLICATIONS
• Mobile Communications
• Satellite TV Receivers
• GPS
• Vehicle Location Systems
• Wireless LAN’s
• Filters
• Matching Networks
L
T
S
W
BA
H
DIMENSIONS: millimeters (inches)
(Bottom View)
L1.00±0.10
(0.039±0.004)
W0.58±0.07
(0.023±0.003)
T0.35±0.10
(0.014±0.004)
GENERAL DESCRIPTION
ITF TECHNOLOGY
A0.48±0.05
(0.019±0.002)
B0.17±0.05
(0.007±0.002)
S, H 0.064±0.05
(0.003±0.002)
LAND GRID ARRAY
ADVANTAGES
• Inherent Low Profile
• Self Alignment during Reflow
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
0.7
(0.028)
1.6 (0.063)
0.6 (0.024)
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/Lead Free solder coating compatible with automatic
soldering technologies: reflow, wave soldering, vapor phase
and manual.
L0402 XXX
Inductance
(nH)
X
Tolerance
H
Series
N
LGA
Termination
Sn100
TR
Taped &
Reeled
HOW TO ORDER
Recommended Pad Layout Dimensions mm (inches)
MAKING AND ORIENTATION IN TAPE
P/N Example: L04023R3BHNTR
(Top View)
L0402 Tight Tolerance
RF Inductor
LEAD-FREE COMPATIBLE
COMPONENT
2
34
ELECTRICAL SPECIFICATIONS
450MHz 900MHz 1900MHz 2400MHz
Tolerance QQQQQ
SRF RDC IDC
L(nH) A=±0.05nH , B=±0.1nH, (min) (Typ) (Typ) (Typ) (Typ)
min. max. max.
C=±0.2nH, D=±0.5nH (MHz) ()(mA)
0.56 ± 0.05nH, ± 0.1nH 35 45 55 65 75 20000 0.02 1000
0.68 ± 0.05nH, ± 0.1nH 30 40 50 60 70 20000 0.04 750
0.82 ± 0.05nH, ± 0.1nH 25 40 50 60 70 20000 0.06 500
1.0 ± 0.05nH, ± 0.1nH 20 30 35 40 50 20000 0.15 500
1.2 ± 0.05nH, ± 0.1nH, ± 0.2nH 20 30 30 40 45 20000 0.20 400
1.5 ± 0.05nH, ± 0.1nH, ± 0.2nH 20 25 30 40 40 18000 0.20 400
1.8 ± 0.05nH, ± 0.1nH, ± 0.2nH 18 20 30 35 40 16000 0.20 400
2.2 ± 0.05nH, ± 0.1nH, ± 0.2nH 15 20 25 35 40 15000 0.20 400
2.7 ± 0.05nH, ± 0.1nH, ± 0.2nH 15 20 25 35 40 9500 0.25 250
3.3 ± 0.1nH, ± 0.2nH, ± 0.5nH 15 20 25 35 40 8500 0.40 250
3.9 ± 0.1nH, ± 0.2nH, ± 0.5nH 13 20 20 30 30 8000 0.45 250
4.7 ± 0.1nH, ± 0.2nH, ± 0.5nH 13 20 20 30 30 7500 0.45 250
5.6 ± 0.1nH, ± 0.2nH, ± 0.5nH 13 20 20 30 30 7000 0.65 200
6.8 ± 0.1nH, ± 0.2nH, ± 0.5nH 12 15 20 25 30 6500 0.90 200
Please contact factory for intermediate inductance values within the indicated range.
L0402 Tight Tolerance
RF Inductor
2
35
L
T
B
W
Operating/Storage
Temp. Range:
-55°C to +125°C
DIMENSIONS: millimeters (inches) 0603 0805
L 1.6±0.10 2.11±0.10
(0.063±0.004) (0.083±0.004)
W 0.81±0.10 1.5±0.10
(0.032±0.004) (0.059±0.004)
T 0.61±0.10 0.91±0.13
(0.024±0.004) (0.036±0.005)
top: 0.0 +0.3/-0.0 0.25±0.15
B (0.0+0.012) (0.010±0.006)
bottom: 0.35±0.20
(0.014±0.008)
Accu-L®
SMD High-Q RF Inductor
ACCU-L®TECHNOLOGY
The Accu-L®SMD Inductor is based on thin-film mul ti lay er
technology. This technology provides a level of control on the
elec tri cal and physical characteristics of the com po nent which
gives consistent characteristics within a lot and lot-to-lot.
The original design provides small size, excellent high-
frequency performance and rugged construction for re li able
automatic assembly.
FEATURES
• High Q
• RF Power Capability
• High SRF
• Low DC Resistance
• Ultra-Tight Tolerance on Inductance
• Standard 0603 and 0805 Chip Size
• Low Profile
• Rugged Construction
• Taped and Reeled
The Accu-L®inductor is particularly suited for the tele com -
mu ni ca tions industry where there is a continuing trend
towards miniaturization and in creas ing frequencies. The
Accu-L®inductor meets both the per for mance and tolerance
requirements of present cellular frequencies 450MHz and
900MHz and of future fre quen cies, such as 1700MHz,
1900MHz and 2400MHz.
APPLICATIONS
• Mobile Communications
• Satellite TV Receivers
• GPS
• Vehicle Locations Systems
• Filters
• Matching Networks
10 nH Inductor (Top View)
2
36
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
Accu-L® 0603 and 0805
SMD High-Q RF Inductor
HOW TO ORDER
450 MHz 900 MHz 1900 MHz 2400 MHz IDC max
Test Frequency Test Frequency Test Frequency Test Frequency SRF min RDC max (mA)
Inductance Available QL (nH) QL (nH) QL (nH) Q(MHz) (Ω)
L (nH) Inductance Tolerance Typical Typical Typical Typical (1)
1.2 ±0.1, ±0.2nH 49 1.2 70 1.2 134 1.2 170 10000 0.04 1000
1.5 ±0.1, ±0.2nH 26 1.54 39 1.52 63 1.52 76 10000 0.06 1000
1.8 ±0.1, ±0.2nH 20 1.74 30 1.73 50 1.72 59 10000 0.07 1000
2.2 ±0.1, ±0.2nH 20 2.2 30 2.24 49 2.24 56 10000 0.08 1000
2.7 ±0.1, ±0.2nH 21 2.7 30 2.75 48 2.79 54 9000 0.08 750
3.3 ±0.1, ±0.2, ±0.5nH 24 3.33 35 3.39 56 3.47 64 8400 0.08 750
3.9 ±0.1, ±0.2, ±0.5nH 25 3.9 57 4.06 60 4.21 69 6500 0.12 500
4.7 ±0.1, ±0.2, ±0.5nH 23 4.68 32 4.92 46 5.2 49 5500 0.15 500
5.6 ±0.2, ±0.5nH 26 5.65 36 5.94 54 6.23 60 5000 0.25 300
6.8 ±0.2, ±0.5nH 23 6.9 33 7.3 47 8.1 39 4500 0.30 300
8.2 ±0.2, ±0.5nH 23 8.4 31 10 35 12.1 31 3800 0.35 300
10.0 ±2%, ±5% 28 10 39 11.8 47 14.1 41 3500 0.45 300
12.0 ±2%, ±5% 28 13.2 38 14.1 30 17.2 20 3000 0.50 300
15.0 ±2%, ±5% 28 16.2 38 25.9 30 49.8 15 2500 0.60 300
(1) IDC measured for 15°C rise at 25°C ambient temperature
(2) IDC measured for 70°C rise at 25°C ambient temperature
L, Q, SRF measured on HP 4291A, Boonton 34A and Wiltron 360
Vector Analyzer, RDC measured on Keithley 580 micro-ohmmeter.
ELECTRICAL SPECIFICATIONS TABLE FOR ACCU-L®0603
450 MHz 900 MHz 1700 MHz 2400 MHz IDC max
Test Frequency Test Frequency Test Frequency Test Frequency SRF min RDC max (mA)
Inductance Available QL (nH) QL (nH) QL (nH) Q(MHz) (Ω) T = 15°C T = 70°C
L (nH) Inductance Tolerance Typical Typical Typical Typical (1) (2)
1.2 ±0.1nH, ±0.2nH, ±0.5nH 60 1.2 92 1.2 122 1.2 92 10000 0.05 1000 2000
1.5 ±0.1nH, ±0.2nH, ±0.5nH 50 1.5 74 1.5 102 1.5 84 10000 0.05 1000 2000
1.8 ±0.1nH, ±0.2nH, ±0.5nH 50 1.8 72 1.8 88 1.9 73 10000 0.06 1000 2000
2.2 ±0.1nH, ±0.2nH, ±0.5nH 42 2.2 62 2.2 82 2.3 72 10000 0.07 1000 2000
2.7 ±0.1nH, ±0.2nH, ±0.5nH 42 2.7 62 2.8 80 2.9 70 10000 0.08 1000 2000
3.3 ±0.1nH, ±0.2nH, ±0.5nH 38 3.3 46 3.4 48 3.5 57 10000 0.11 750 1500
3.9 ±0.1nH, ±0.2nH, ±0.5nH 27 3.9 36 4.0 38 4.1 42 10000 0.20 750 1500
4.7 ±0.1nH, ±0.2nH, ±0.5nH 43 4.8 62 5.3 76 5.8 60 5500 0.10 750 1500
5.6 ±0.5nH 50 5.7 68 6.3 73 7.6 62 4600 0.10 750 1500
6.8 ±0.5nH 43 7.0 62 7.7 71 9.4 50 4500 0.11 750 1500
8.2 ±0.5nH 43 8.5 56 10.0 55 15.2 32 3500 0.12 750 1500
10 ±2%, ±5% 46 10.6 60 13.4 52 2500 0.13 750 1500
12 ±2%, ±5% 40 12.9 50 17.3 40 2400 0.20 750 1500
15 ±2%, ±5% 36 16.7 46 27 23 2200 0.20 750 1000
18 ±2%, ±5% 30 21.9 27 1700 0.35 500 1000
22 ±2%, ±5% 36 27.5 33 1400 0.40 500 1000
ELECTRICAL SPECIFICATIONS TABLE FOR ACCU-L®0805
(1) IDC measured for 15°C rise at 25°C ambient temperature when soldered to FR-4 board. Inductance and Q measured on Agilent 4291B / 4287 using the 16196A test fixture.
Engineering Kits Available
see pages 118-119
L
Product
Inductor
0805
Size
0603
0805
4R7
Inductance
Expressed in nH
(2 significant digits +
number of zeros)
for
values <10nH,
letter R denotes
decimal point.
Example:
22nH = 220
4.7nH = 4R7
D
Tolerance
for
L 4.7nH,
B = ±0.1nH
C = ±0.2nH
D = ±0.5nH
4.7nH<L<10nH,
C = ±0.2nH
D = ±0.5nH
L ≥ 10nH,
G = ±2%
J = ±5%
E
Specification
Code
E = Accu-L®0805
technology
G = Accu-L®0603
technology
S
Termination
Code
W = Nickel/
solder coated
(Sn 63, Pb 37)
**S = Nickel/
Lead Free
Solder coated
(Sn100)
TR
Packaging
Code
TR = Tape and Reel
(3,000/reel)
**RoHS compliant
2
37
Typical Inductance vs. Frequency
L0805
Measured on HP4291A and
Wiltron 360 Vector Analyzer
200
100
10
103.532.521.510.5
15nH 10nH 6.8nH 4.7nH2.7nH
Current (A)
Temperature rise will typically be no higher than shown by the graph
T (°C)
Maximum Temperature Rise
at 25°C ambient temperature (on FR-4)
L0805
Accu-L® 0603 and 0805
SMD High-Q RF Inductor
Typical Q vs. Frequency
L0805
Measured on HP4291A and
Boonton 34A Coaxial Line
0.1
0
20
40
Q
60
100
120
140
80
1
22nH
15nH
10nH
5.6nH
1.8nH
1.5nH
1.2nH
10
Frequency (GHz)
Typical Inductance vs. Frequency
L0603
15nH
8.2nH
6.8nH
4.7nH
3.3nH
2.2nH
1.8nH
1.2nH
100
10
10 0.5 1 1.5
Frequency (GHz)
L (nH)
2 2.5 3
180
160
140
120
100
80
60
40
20
0012
Frequency (GHz)
Q
3
1.2nH
1.5nH
5.6nH
8.2nH
15nH
Typical Q vs. Frequency
L0603
Measured on AGILENT 4291B/4287
using the 16196A test fixture
Measured on AGILENT 4291B/4287
using the 16196A test fixture
L0805
L0603
2
38
Accu-L® 0603 and 0805
SMD High-Q RF Inductor
TEST CONDITIONS REQUIREMENT
Solderability Components completely immersed in Terminations to be well tinned.
a solder bath at 235 ± 5°C for 2 secs. No visible damage.
Leach Resistance Components completely immersed in Dissolution of termination faces
a solder bath at 260 ±5°C for 60 secs. ≤ 15% of area.
Dissolution of termination edges
25% of length.
Storage 12 months minimum with components Good solderability
stored in “as received” packaging.
Shear Components mounted to a substrate. No visible damage
A force of 5N applied normal to the
line joining the terminations and in
a line parallel to the substrate.
Rapid Change of Components mounted to a substrate. No visible damage
Temperature 5 cycles -55°C to +125°C.
Tested as shown in diagram
Bend Strength No visible damage
Temperature Component placed in +0 to +125 ppm/°C
Coefficient of environmental chamber (typical)
Inductance -55°C to +125°C.
(TCL) T1= 25°C
FINAL QUALITY INSPECTION
Finished parts are tested for electrical parameters and visual/
mechanical characteristics. Parts are 100% tested for inductance at 450MHz. Parts are
100% tested for RDC. Each pro duc tion lot is eval u at ed on a
sample basis for:
• Q at test frequency
• Static Humidity Resistance: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
1mm
deflection
45mm 45mm
TCL = • 106
L2-L1
L1(T2-T1)
ENVIRONMENTAL CHARACTERISTICS
2
39
40
Accu-L®
Application Notes
HANDLING
SMD chips should be handled with care to avoid dam age or
contamination from perspiration and skin oils. The use of
plastic tipped tweezers or vacuum pick-ups is strongly
recommended for individual components. Bulk handling
should ensure that abrasion and mechanical shock are min-
imized. For automatic equipment, taped and reeled product
is the ideal medium for direct presentation to the placement
machine.
CIRCUIT BOARD TYPE
All flexible types of circuit boards may be used (e.g. FR-4,
G-10) and also alumina.
For other circuit board materials, please consult factory.
COMPONENT PAD DESIGN
Component pads must be designed to achieve good joints
and minimize component movement during sol der ing.
Pad designs are given below for both wave and reflow
soldering.
The basis of these designs is:
a. Pad width equal to component width. It is per mis si ble
to decrease this to as low as 85% of component width
but it is not advisable to go be low this.
b. Pad overlap about 0.3mm.
c. Pad extension about 0.3mm for reflow.
Pad ex ten sion about 0.8mm for wave soldering.
PREHEAT & SOLDERING
The rate of preheat in production should not exceed
4°C/second. It is recommended not to exceed 2°C/sec ond.
Temperature differential from preheat to soldering should not
exceed 150°C.
For further specific application or process advice, please
consult AVX.
HAND SOLDERING & REWORK
Hand soldering is permissible. Preheat of the PCB to 100°C
is required. The most preferable technique is to use hot air
soldering tools. Where a soldering iron is used, a tem per a -
ture controlled model not exceeding 30 watts should be
used and set to not more than 260°C. Max i mum al lowed
time at temperature is 1 minute. When hand sol der ing, the
base side (white side) must be sol dered to the board.
COOLING
After soldering, the assembly should preferably be al lowed to
cool naturally. In the event of assisted cool ing, similar condi-
tions to those rec om mend ed for pre heat ing should be used.
CLEANING RECOMMENDATIONS
Care should be taken to ensure that the devices are thor -
ough ly cleaned of flux residues, especially the space be neath
the device. Such residues may otherwise be come conduc-
tive and effectively offer a lossy bypass to the de vice. Various
recommended cleaning conditions (which must be optimized
for the flux system being used) are as follows:
Cleaning liquids . . . . . . i-propanol, ethanol, acetylace-
tone, water, and other standard
PCB cleaning liquids.
Ultrasonic conditions . . power – 20w/liter max.
frequency – 20kHz to 45kHz.
Temperature . . . . . . . . . 80°C maximum (if not oth er wise
limited by chosen sol vent system).
Time. . . . . . . . . . . . . . . 5 minutes max.
STORAGE CONDITIONS
Recommended storage conditions for Accu-L®prior to use
are as follows:
Temperature. . . . . . . . . 15°C to 35°C
Humidity . . . . . . . . . . . ≤65%
Air Pressure . . . . . . . . . 860mbar to 1060mbar
RECOMMENDED SOLDERING PROFILE
For recommended soldering profile see page 29
REFLOW SOLDERING
DIMENSIONS: millimeters (inches)
0.7
(0.028)
1.6
(0.063)
0.6
(0.024)
0.6
(0.024)
0.4
(0.015)
0402
Accu-L®
0.78
(0.031) 0.26
(0.010)
0.26
(0.010)
0.26
(0.010)
0.34
(0.013)
0201
Accu-L®
0.7
(0.028)
0.7
(0.028)
1.4
(0.055)
2.8
(0.110)
1.5
(0.059)
0805
Accu-L®
0
.
90
(
0.035
)
0
.
90
(
0.035
)
0
.
50
(
0.020
)
2.
3
(
0.091
)
0
.
8
(
0.031
)
0603
Accu-L®
2
40
4141
Thin-Film RF/Microwave
Directional Couplers
CP0302/CP0402/CP0603/CP0805
and DB0603N/DB0805 3dB 90°
41
ITF TECHNOLOGY
The ITF High Directivity Wide Band LGA Coupler is based on thin-
film multilayer technology. The technology provides a miniature
part with excellent high frequency performance and rugged
construction for reliable automatic assembly.
The Wide Band High Directivity Coupler displays a stable coupling
factor over a wide frequency band.
QUALITY INSPECTION
Finished parts are 100% tested for electrical
parameters and visual characteristics. Each
production lot is evaluated on a sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/Lead Free solder coating compatible with
automatic soldering technologies: reflow, wave
soldering, vapor phase and manual.
OPERATING TEMPERATURE
-40°C to +85°C
POWER RATING
3W RF Continuous
CP 0402 W
Type
Wide
Band
XXXX
Frequency
(MHz)
X
Sub-
Type
N
LGA
Termination
Sn100
TR
Taped &
Reeled
HOW TO ORDER
Thin Film Directional Couplers
Wide Band High Directivity
CP0402W2700FNTR
APPLICATIONS
• Mobile communications
• Satellite TV receivers
• GPS
• Vehicle location systems
• Wireless LAN’s
LAND GRID ARRAY
ADVANTAGES
• Inherent Low Profile
Self Alignment during Reflow
Excellent Solderability
Low Parasitics
Better Heat Dissipation
L
T
S
W
BH
A
DIMENSIONS (Bottom View) mm (inches)
L1.00±0.05
(0.040±0.002)
W0.58±0.04
(0.023±0.002)
T0.35±0.05
(0.014±0.002)
A0.20±0.05
(0.008±0.002)
B0.18±0.05
(0.007±0.002)
S, H 0.05±0.05
(0.002±0.002)
0.31
(0.012)
0.15
(0.006)
0.53
(0.021)
0.20
(0.008)
GND
Out
Coupling
IN
Recommended Pad Layout Dimensions mm (inches)
TERMINALS (Top View)
3
42
Thin Film Directional Couplers
Wide Band High Directivity
CP0402W2700FNTR
Directional Coupler Type CP0402W2700FNTR
-60
-50
-40
-30
-20
-10
0
500 1,000 1,500 2,000 2,500 3,000
Frequency MHz
Coupling R Loss Isolation dB
-12
-10
-8
-6
-4
-2
0
I Loss dB
Frequency Coupling I. Loss Return Directivity
P/N [MHz] [dB] max. Loss [dB]
[dB] [dB]
CP0402W2700FNTR 700-2,700 24±2 0.3 18 20
3
43
GENERAL DESCRIPTION
These jigs are designed for testing the CP0402W2700FNTR
High Directivity Couplers using a Vector Network Analyzer.
They consist of a dielectric substrate, having 50Ω microstrips
as conducting lines and a bottom ground plane located at a
distance of 0.254mm (0.010") from the microstrips.
The substrate used is Neltec’s NH9338ST0254C1BC.
The connectors are SMA type (female), ‘Johnson Components
Inc.’ Product P/N: 142-0701-841.
Both a measurement jig and a calibration jig are provided.
The calibration jig is designed for a full 2-port calibration, and
consists of an open line, short line and through line. LOAD
calibration can be done by a 50Ω SMA termination.
When measuring a component, it can be either soldered or
pressed using a non-metallic stick until all four ports touch
the appropriate pads. Set the VNA to the relevant frequency
band. Connect the VNA using a 10dB attenuator on the jig
terminal connected to port 2. Follow the VNAs instruction
manual and use the calibration jig to perform a full 2-Port
calibration in the required bandwidths.
Place the coupler on the measurement jig as follows:
GND (Coupler) Connector 1 (Jig) IN (Coupler) Connector 3 (Jig)
Coupling (Coupler) Connector 2 (Jig) Out (Coupler) Connector 4 (Jig)
To measure I. Loss connect:
Connector 3 (Jig) Port 1 (VNA) Connector 2 (Jig) 50Ω
Connector 4 (Jig) Port 2 (VNA)
To measure R. Loss and Coupling connect:
Connector 3 (Jig) Port 1 (VNA) Connector 4 (Jig) 50Ω
Connector 2 (Jig) Port 2 (VNA)
To measure Isolation connect:
Connector 4 (Jig) Port 1 (VNA) Connector 2 (Jig) Port 2 (VNA)
Connector 3 (Jig) 50Ω
MEASUREMENT PROCEDURE
Measurement Jig
Connector 1
(not used)
Connector 2
Connector 4
Connector 3
Calibration Jig
Short Line
to GND.
Load &
Through
Load &
Through
Connector
Johnson
P/N 142-0701-841
Open
Line
HS
OPEN
TH
HS
OPEN
TH
Thin Film Directional Couplers
Wide Band High Directivity
CP0402W2700FNTR Test Jigs
3
44
3
Thin Film Directional Couplers
WiFi Band High Directivity
45
CP0302P5425ENTR / CP0302A5425ENTR / CP0402Q5425ENTR / CP0603Q5425ENTR
HIGH DIRECTIVITY DIRECTIONAL COUPLERS FOR WIFI BANDS
TECHNOLOGY
These High Directivity LGA Couplers are based on
thin-film multilayer technology. The technology
provides a miniature part with excellent high frequency
performance and rugged construction for reliable
automatic assembly. The WiFi Bands Couplers are
offered in 0302, 0402 and 0603 standard sizes having
identical electrical performance.
APPLICATIONS:
• WiFi
PART NUMBERS
CP0302P5425ENTR
CP0302A5425ENTR
CP0402Q5425ENTR
CP0603Q5425ENTR
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance : 125°C, IR, 4 hours
TERMINATION
Nickel/Lead-Free Solder coating (Sn100) compatible with
automatic soldering technologies: reflow, wave soldering,
vapor phase and manual.
OPERATING TEMPERATURE
-40°C to +85°C
L
T
S
W
BH
A
DIMENSIONS (Bottom View)
mm (inches)
CP0302 CP0402 CP0603
L0.65±0.04 1.0±0.05 1.6±0.1
(0.026±0.002) (0.040±0.002) (0.063±0.004)
W0.50±0.04 0.58±0.04 0.84±0.1
(0.02±0.002) (0.023±0.002) (0.033±0.004)
T0.25±0.05 0.35±0.05 0.60±0.1
(0.01±0.002) (0.014±0.002) (0.024±0.004)
A0.20±0.05 0.20±0.05 0.25±0.05
(0.008±0.002) (0.008±0.002) (0.01±0.002)
B0.10±0.04 0.18±0.05 0.20±0.05
(0.004±0.002) (0.007±0.002) (0.008±0.002)
S, H 0.025±0.025 0.05±0.05 0.05±0.05
(0.001±0.001) (0.002±0.002) (0.002±0.002)
TERMINALS (Top View)
RECOMMENDED PAD LAYOUT
DIMENSTIONS
mm (inches)
50 OHM
OUT
COUPLING
IN
50 OHM
COUPLING
OUT
IN
CP0603
CP0402
50 OHM
COUPLING
OUT
IN
CP0302
CP0302
CP0402 / CP0603: see pages 49 / 53
0.30
(0.012)
0.25
(0.01)
0.20
(0.008)
0.20
(0.008)
3
46
Thin Film Directional Couplers
WiFi Band High Directivity
-7
-6
-5
-4
-3
-2
-1
0
-70
-60
-50
-40
-30
-20
-10
0
1345
[GHz]
26
Coupling R Loss Isolation dB
I Loss dB
Frequency Coupling I. Loss Return Directivity
P/N [MHz] [dB] max. Loss [dB]
[dB] [dB]
2,400-2,496 -20±0.5 -0.2 -30 20
CP0302P5425ENTR 4,900-5,950 -13±0.5 -0.4 -25 20
ELECTRICAL CHARACTERISTICS
Frequency Coupling I. Loss Return Directivity
P/N [MHz] [dB] max. Loss [dB]
[dB] [dB]
2,400-2,496 -20±1 -0.2 -30 20
CP0302A5425ENTR 4,900-5,950 -13±1 -0.4 -25 20
Frequency Coupling I. Loss Return Directivity
P/N [MHz] [dB] max. Loss [dB]
[dB] [dB]
CP0402Q5425ENTR 2,400-2,496 -20±1 -0.3 -30 20
CP0603Q5425ENTR 4,900-5,950 -13±1 -0.4 -25 20
Thin Film Directional Coupler
CP0402P High Directivity, Tight Coupling Tolerance
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/Lead-Free Solder coating compatible with automatic
soldering technologies: reflow, wave soldering, vapor phase
and manual.
OPERATING TEMPERATURE:
-40°C to +85°C
The CP0402P Series High Directivity, Tight Coupling Tolerance LGA
Coupler is based on the proprietary RFAP Thin-Film multilayer technology.
The technology provides a miniature part with excellent high frequency
performance and ugged construction for reliable automatic assembly.
The ITF Coupler is offered in a variety of frequency bands compatible
with various types of high frequency wireless systems.
APPLICATIONS
• Wireless communications
• Wireless LAN’s
• GPS
• WiMAX
L
T
S
W
B
A
DIMENSIONS: millimeters (inches)
(Bottom View)
L1.00±0.05
(0.040±0.002)
W0.58±0.04
(0.023±0.002)
T0.35±0.05
(0.014±0.002)
GENERAL DESCRIPTION
ITF (Integrated Thin-Film) TECHNOLOGY
A0.20±0.05
(0.008±0.002)
B0.18±0.05
(0.007±0.002)
S0.05±0.05
(0.002±0.002)
0.31
(0.012)
0.15
(0.006)
0.53
(0.021)
0.20
(0.008)
OUT
IN
50 OHM
COUPLING
Recommended Pad Layout Dimensions mm (inches)
LAND GRID ARRAY
ADVANTAGES
• Inherent Low Profile
• Self Alignment during Reflow
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
• Power Rating 3W RF Continuous
CP
Style
0402
Size
0402
P
Type
±0.5dB
Tight Tolerance
XXXX
Frequency
MHz
X
Sub-Type
N
Termination
LGA
Lead-Free
TR
Taped & Reeled
HOW TO ORDER
TERMINALS (Top View) LEAD-FREE COMPATIBLE
COMPONENT
3
47
Thin Film Directional Coupler
CP0402P High Directivity, Tight Coupling Tolerance
Coupler P/N CP0402PxxxxAN
Coupler P/N CP0402PxxxxBN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0402P0836AN 824 - 849 19.10±0.5 0.25 32
CP0402P0881AN 869 - 894 18.60±0.5 0.25 31
GSM CP0402P0902AN 890 - 915 18.50±0.5 0.25 31
CP0402P0947AN 935 - 960 18.00±0.5 0.25 31
E-GSM CP0402P0897AN 880 - 915 18.50±0.5 0.25 31
CP0402P0942AN 925 - 960 18.00±0.5 0.25 31
PDC CP0402P1441AN 1429 - 1453 14.50±0.5 0.40 28 21
PCN CP0402P1747AN 1710 - 1785 13.00±0.5 0.50 26
CP0402P1842AN 1805 - 1880 12.50±0.5 0.50 26
PCS CP0402P1880AN 1850 - 1910 12.30±0.5 0.50 25
CP0402P1960AN 1930 - 1990 12.00±0.5 0.50 25
PHP CP0402P1907AN 1895 - 1920 12.30±0.5 0.50 25
DECT CP0402P1890AN 1880 - 1900 12.30±0.5 0.50 25
Wireless LAN CP0402P2442AN 2400 - 2484 10.30±0.5 0.70 23
CP0402P3500AN 3450 - 3550 7.60±0.5 1.30 15 14
WiFi CP0402P5000AN 4950 - 5050 5.00±0.5 1.50 15 13
CP0402P5500AN 5450 - 5550 4.60±0.5 1.50 14 13
CP0402P6000AN 5950 - 6050 4.00±0.5 1.50 14 13
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples [MHz] [dB] [dB]
AMPS CP0402P0836BN 824 - 849 22.00±0.5 0.20 28
CP0402P0881BN 869 - 894 21.70±0.5 0.20 28
GSM CP0402P0902BN 890 - 915 21.50±0.5 0.20 28
CP0402P0947BN 935 - 960 21.00±0.5 0.25 27
E-GSM CP0402P0897BN 880 - 915 21.50±0.5 0.20 28
CP0402P0942BN 925 - 960 21.00±0.5 0.25 27
PDC CP0402P1441BN 1429 - 1453 17.50±0.5 0.25 24 27
PCN CP0402P1747BN 1710 - 1785 16.00±0.5 0.30 23
CP0402P1842BN 1805 - 1880 15.50±0.5 0.35 23
PCS CP0402P1880BN 1850 - 1910 15.50±0.5 0.35 23
CP0402P1960BN 1930 - 1990 15.00±0.5 0.35 22
PHP CP0402P1907BN 1895 - 1920 15.50±0.5 0.35 23
DECT CP0402P1890BN 1880 - 1900 15.50±0.5 0.35 23
Wireless LAN CP0402P2442BN 2400 - 2484 13.30±0.5 0.40 21
CP0402P3500BN 3450 - 3550 9.40±0.5 0.80 18 14
WiFi CP0402P5000BN 4950 - 5050 7.40±0.5 1.20 14 13
CP0402P5500BN 5450 - 5550 6.70±0.5 1.60 14 13
CP0402P6000BN 5950 - 6050 6.10±0.5 2.00 14 13
Coupler P/N CP0402PxxxxEN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples [MHz] [dB] [dB]
AMPS CP0402P0836EN 824 - 849 27.20±0.5 0.20 35
CP0402P0881EN 869 - 894 26.80±0.5 0.20 34
GSM CP0402P0902EN 890 - 915 26.50±0.5 0.20 34
CP0402P0947EN 935 - 960 26.00±0.5 0.20 34 25
E-GSM CP0402P0897EN 880 - 915 26.50±0.5 0.20 34
CP0402P0942EN 925 - 960 26.00±0.5 0.20 34
PDC CP0402P1441EN 1429 - 1453 22.30±0.5 0.25 29
PCN CP0402P1747EN 1710 - 1785 20.50±0.5 0.25 27
CP0402P1842EN 1805 - 1880 20.30±0.5 0.25 26
PCS CP0402P1880EN 1850 - 1910 20.00±0.5 0.25 26
CP0402P1960EN 1930 - 1990 20.00±0.5 0.25 26 23
PHP CP0402P1907EN 1895 - 1920 20.00±0.5 0.25 26
DECT CP0402P1890EN 1880 - 1900 20.00±0.5 0.25 26
Wireless LAN CP0402P2442EN 2400 - 2484 18.00±0.5 0.35 23
CP0402P3500EN 3450 - 3550 15.00±0.5 0.37 20 16
WiFi CP0402P5000EN 4950 - 5050 12.50±0.5 0.50 18 13
CP0402P5500EN 5450 - 5550 11.50±0.5 0.65 16 13
CP0402P6000EN 5950 - 6050 11.10±0.5 0.70 15 13
3
48
-72
-60
-48
-36
-24
-12
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
CP0402PxxxxANTR
I. Loss
Coupling
R. Loss
Isolation
-24
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
CP0402PxxxxBNTR
I. Loss
Coupling
R. Loss
Isolation
-12
-10
-8
-6
-4
-2
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
CP0402PxxxxENTR
I. Loss
Coupling
R. Loss
Isolation
CP
Style
Directional Coupler
0402
Size
0402
X
Type
****
Frequency
(MHz)
X
Sub Type
N
LGA
Termination
L = LGA Sn90, Pb10
**N = LGA Sn100
TR
Packaging Code
TR = Tape and Reel
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Sn90Pb10 or Lead-Free Sn100 Nickel/Solder coating
compatible with automatic soldering technologies: reflow,
wave soldering, vapor phase and manual.
TERMINALS (Top View)
The ITF High Directivity LGA Coupler is based on thin-film multilayer
technology. The technology provides a miniature part with excellent high
frequency performance and rugged construction for reliable automatic
assembly.
The ITF Coupler is offered in a variety of frequency bands compatible
with various types of high frequency wireless systems.
APPLICATIONS
• Mobile Communications
• Satellite TV Receivers
• GPS
• Vehicle Location Systems
• Wireless LAN’s
L
T
S
W
B
A
DIMENSIONS: millimeters (inches)
(Bottom View)
L1.00±0.05
(0.040±0.002)
W0.58±0.04
(0.023±0.002)
T0.35±0.05
(0.014±0.002)
HOW TO ORDER
Thin-Film Directional Couplers
CP0402 High Directivity LGA Termination
GENERAL DESCRIPTION
ITF (Integrated Thin-Film) TECHNOLOGY
A0.20±0.05
(0.008±0.002)
B0.18±0.05
(0.007±0.002)
S0.05±0.05
(0.002±0.002)
0.31
(0.012)
0.15
(0.006)
0.53
(0.021)
0.20
(0.008)
OUT
IN
50 OHM
COUPLING
Recommended Pad Layout Dimensions mm (inches)
FEATURES
• Inherent Low Profile
• Self Alignment during Reflow
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
• Operating/Storage Temp
-40°C to +85°C
• Power Rating 3W RF Cont
IN CP
50
OHM
IN
OUT
50
OHM
OUT
CP
ORIENTATION IN TAPE
*The recommended distance to the PCB Ground Plane is 0.254mm (0.010")
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
**RoHS compliant
3
49
Thin-Film Directional Couplers
CP0402 High Directivity LGA Termination
CP0402 - TYPE SELECTION CHART
-40
-35
-30
-25
-20
-15
-10
-5
0
0.511.522.533.544.555.56
Coupling [dB]
Frequency [GHz]
CP0402AxxxxAN
CP0402AxxxxFN
CP0402AxxxxEN
CP0402AxxxxDN
CP0402AxxxxCN
CP0402AxxxxBN
Coupling vs. Frequency
Intermediate coupling factors are readily available.
Please contact factory.
3
50
Thin-Film Directional Couplers
CP0402 High Directivity LGA Termination
Important: Couplers can be used at any frequency within the indicated range.
3
51
Coupler P/N CP0402AxxxxAN
Coupler P/N CP0402AxxxxBN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0402A0836AN 824 - 849 19.10 0.25 32
CP0402A0881AN 869 - 894 18.60 0.25 31
GSM CP0402A0902AN 890 - 915 18.50 0.25 31
CP0402A0947AN 935 - 960 18.00 0.25 31
E-GSM CP0402A0897AN 880 ÷915 18.50 0.25 31
CP0402A0942AN 925 ÷960 18.00 0.25 31
PDC CP0402A1441AN 1429 - 1453 14.50 0.40 28 21
PCN CP0402A1747AN 1710 - 1785 13.00 0.50 26
CP0402A1842AN 1805 - 1880 12.50 0.50 26
PCS CP0402A1880AN 1850 - 1910 12.30 0.50 25
CP0402A1960AN 1930 - 1990 12.00 0.50 25
PHP CP0402A1907AN 1895 - 1920 12.30 0.50 25
DECT CP0402A1890AN 1880 - 1900 12.30 0.50 25
Wireless LAN CP0402A2442AN 2400 - 2484 10.30 0.70 23
CP0402A3500AN 3450 - 3550 7.60 1.30 15 14
WiFi CP0402A5000AN 4950 - 5050 5.00 1.50 15 13
CP0402A5500AN 5450 - 5550 4.60 1.50 14 13
CP0402A6000AN 5950 - 6050 4.00 1.50 14 13
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples [MHz] [dB] [dB]
AMPS CP0402A0836BN 824 - 849 22.00 0.20 28
CP0402A0881BN 869 - 894 21.70 0.20 28
GSM CP0402A0902BN 890 - 915 21.50 0.20 28
CP0402A0947BN 935 - 960 21.00 0.25 27
E-GSM CP0402A0897BN 880 ÷915 21.50 0.20 28
CP0402A0942BN 925 ÷960 21.00 0.25 27
PDC CP0402A1441BN 1429 - 1453 17.50 0.25 24 27
PCN CP0402A1747BN 1710 - 1785 16.00 0.30 23
CP0402A1842BN 1805 - 1880 15.50 0.35 23
PCS CP0402A1880BN 1850 - 1910 15.50 0.35 23
CP0402A1960BN 1930 - 1990 15.00 0.35 22
PHP CP0402A1907BN 1895 - 1920 15.50 0.35 23
DECT CP0402A1890BN 1880 - 1900 15.50 0.35 23
Wireless LAN CP0402A2442BN 2400 - 2484 13.30 0.40 21
CP0402A3500BN 3450 - 3550 9.40 0.80 18 14
WiFi CP0402A5000BN 4950 - 5050 7.40 1.20 14 13
CP0402A5500BN 5450 - 5550 6.70 1.60 14 13
CP0402A6000BN 5950 - 6050 6.10 2.00 14 13
Coupler P/N CP0402AxxxxCN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples [MHz] [dB] [dB]
AMPS CP0402A0836CN 824 - 849 23.60 0.20 33
CP0402A0881CN 869 - 894 23.00 0.20 33
GSM CP0402A0902CN 890 - 915 23.00 0.20 26
CP0402A0947CN 935 - 960 22.50 0.20 33 22
E-GSM CP0402A0897CN 880 ÷915 23.00 0.20 25
CP0402A0942CN 925 ÷960 22.50 0.20 32
PDC CP0402A1441CN 1429 - 1453 19.00 0.25 31
PCN CP0402A1747CN 1710 - 1785 17.20 0.25 30
CP0402A1842CN 1805 - 1880 17.00 0.25 30
PCS CP0402A1880CN 1850 - 1910 16.80 0.25 30 19
CP0402A1960CN 1930 - 1990 16.50 0.25 29
PHP CP0402A1907CN 1895 - 1920 16.80 0.25 29
DECT CP0402A1890CN 1880 - 1900 16.80 0.25 30
Wireless LAN CP0402A2442CN 2400 - 2484 14.70 0.45 28
CP0402A3500CN 3450 - 3550 10.97 0.67 23 17
WiFi CP0402A5000CN 4950 - 5050 8.00 1.00 21 16
CP0402A5500CN 5450 - 5550 7.50 1.10 21 15
CP0402A6000CN 5950 - 6050 7.10 1.30 23 15
-72
-60
-48
-36
-24
-12
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0402AxxxxANTR
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
-24
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0402AxxxxBNTR
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
7.318"
-24
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0402AxxxxCNTR
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
Thin-Film Directional Couplers
CP0402 High Directivity LGA Termination
Important: Couplers can be used at any frequency within the indicated range.
3
52
Coupler P/N CP0402AxxxxDN
Coupler P/N CP0402AxxxxEN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0402A0836DN 824 - 849 25.20 0.20 29
CP0402A0881DN 869 - 894 24.80 0.20 28
GSM CP0402A0902DN 890 - 915 24.70 0.20 28
CP0402A0947DN 935 - 960 24.10 0.20 28 20
E-GSM CP0402A0897DN 880 ÷915 24.70 0.20 28
CP0402A0942DN 925 ÷960 24.10 0.20 28
PDC CP0402A1441DN 1429 - 1453 20.50 0.20 25
PCN CP0402A1747DN 1710 - 1785 19.00 0.20 24
CP0402A1842DN 1805 - 1880 18.50 0.25 23
PCS CP0402A1880DN 1850 - 1910 18.20 0.25 23 18
CP0402A1960DN 1930 - 1990 18.00 0.25 23
PHP CP0402A1907DN 1895 - 1920 18.10 0.25 23
DECT CP0402A1890DN 1880 - 1900 18.20 0.25 23
Wireless LAN CP0402A2442DN 2400 - 2484 16.00 0.35 22
CP0402A3500DN 3450 - 3550 12.50 0.46 21 17
WiFi CP0402A5000DN 4950 - 5050 10.00 0.65 21 16
CP0402A5500DN 5450 - 5550 9.60 0.76 20 15
CP0402A6000DN 5950 - 6050 9.10 0.84 20 15
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples [MHz] [dB] [dB]
AMPS CP0402A0836EN 824 - 849 27.20 0.20 35
CP0402A0881EN 869 - 894 26.80 0.20 34
GSM CP0402A0902EN 890 - 915 26.50 0.20 34
CP0402A0947EN 935 - 960 26.00 0.20 34 25
E-GSM CP0402A0897EN 880 ÷915 26.50 0.20 34
CP0402A0942EN 925 ÷960 26.00 0.20 34
PDC CP0402A1441EN 1429 - 1453 22.30 0.25 29
PCN CP0402A1747EN 1710 - 1785 20.50 0.25 27
CP0402A1842EN 1805 - 1880 20.30 0.25 26
PCS CP0402A1880EN 1850 - 1910 20.00 0.25 26 23
CP0402A1960EN 1930 - 1990 20.00 0.25 26
PHP CP0402A1907EN 1895 - 1920 20.00 0.25 26
DECT CP0402A1890EN 1880 - 1900 20.00 0.25 26
Wireless LAN CP0402A2442EN 2400 - 2484 18.00 0.35 23
CP0402A3500EN 3450 - 3550 15.00 0.37 20 16
WiFi CP0402A5000EN 4950 - 5050 12.50 0.50 18 13
CP0402A5500EN 5450 - 5550 11.50 0.65 16 13
CP0402A6000EN 5950 - 6050 11.10 0.70 15 13
Coupler P/N CP0402AxxxxFN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples [MHz] [dB] [dB]
AMPS CP0402A0836FN 824 - 849 31.00 0.20 29.10
CP0402A0881FN 869 - 894 30.70 0.20 28.60
GSM CP0402A0902FN 890 - 915 30.60 0.20 28.50
CP0402A0947FN 935 - 960 30.00 0.20 28.10
E-GSM CP0402A0897FN 880 ÷915 30.60 0.20 28.50
CP0402A0942FN 925 ÷960 30.00 0.20 28.10
PDC CP0402A1441FN 1429 - 1453 26.50 0.20 25.00 11
PCN CP0402A1747FN 1710 - 1785 25.00 0.20 23.80
CP.0402A1842FN 1805 - 1880 24.50 0.20 23.60
PCS CP0402A1880FN 1850 - 1910 24.20 0.20 23.50
CP0402A1960FN 1930 - 1990 24.00 0.20 23.30
PHP CP0402A1907FN 1895 - 1920 24.20 0.20 23.40
DECT CP0402A1890FN 1880 - 1900 24.20 0.20 23.50
Wireless LAN CP0402A2442FN 2400 - 2484 22.00 0.25 22.60
CP0402A3500FN 3450 - 3550 18.00 0.27 22.00 9
WiFi CP0402A5000FN 4950 - 5050 15.70 0.30 23.01 8
CP0402A5500FN 5450 - 5550 15.20 0.30 20.36 7.5
CP0402A6000FN 5950 - 6050 14.50 0.30 18.94 7.5
-12
-10
-8
-6
-4
-2
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0402AxxxxDNTR
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
-12
-10
-8
-6
-4
-2
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0402AxxxxENTR
Frequency [GHz]
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
I. Loss
Coupling
R. Loss
Isolation
-6
-5
-4
-3
-2
-1
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0402AxxxxFNTR
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
I. Loss
Coupling
R. Loss
Isolation
The ITF LGA Coupler is based on thin-film multilayer technology.
The technology provides a miniature part with excellent high frequency
performance and rugged construction for reliable automatic assembly.
The ITF Coupler is offered in a variety of frequency bands compatible
with various types of high frequency wireless systems.
APPLICATIONS
• Mobile Communications
• Satellite TV Receivers
• GPS
• Vehicle Location Systems
• Wireless LAN’s
L
T
S
W
B
A
DIMENSIONS: millimeters (inches)
(Bottom View)
L1.60±0.10
(0.063±0.004)
W0.84±0.10
(0.033±0.004)
T0.60±0.10
(0.024±0.004)
Thin-Film Directional Couplers
CP0603 High Directivity LGA Termination
GENERAL DESCRIPTION
ITF (Integrated Thin-Film) TECHNOLOGY
A0.25±0.05
(0.010±0.002)
B0.20±0.05
(0.008±0.002)
S0.05±0.05
(0.002±0.002)
FEATURES
• Inherent Low Profile
• Self Alignment during Reflow
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
• Operating/Storage Temp
-40°C to +85°C
• Power Rating 3W RF Cont
1.75 (0.069)
0.50
(0.020)
0.40
(0.016)
1.10
(0.043)
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Sn90Pb10 or Lead-Free Sn100 Nickel/Solder coating
compatible with automatic soldering technologies: reflow,
wave soldering, vapor phase and manual.
TERMINALS (Top View)
CP
Style
Directional Coupler
0603
Size
0603
X
Type
****
Frequency
(MHz)
X
Sub Type
N
Termination
Code
L = LGA Sn90, Pb10
**N = LGA Sn100
TR
Packaging Code
TR = Tape and Reel
HOW TO ORDER
OUT
IN
50 OHM
COUPLING
Recommended Pad Layout Dimensions mm (inches)
IN CP
50
OHM
IN
OUT
50
OHM
OUT
CP
ORIENTATION IN TAPE
*The recommended distance to the PCB Ground Plane is 0.254mm (0.010")
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
**RoHS compliant
For RoHS compliant products,
please select correct termination style.
3
53
Thin-Film Directional Couplers
CP0603 High Directivity LGA Termination
CP0603 - TYPE SELECTION CHART
-40
-35
-30
-25
-20
-15
-10
-5
0
0.511.522.533.544.555.56
dB
Frequency [GHz]
CP0603AxxxxFN
CP0603AxxxxMN
CP0603AxxxxAN
CP0603AxxxxCN
CP0603AxxxxHN
CP0603AxxxxBN
CP0603AxxxxDN
CP0603AxxxxGN
CP0603AxxxxEN
CP0603AxxxxKN
CP0603AxxxxLN
Coupling vs. Frequency
Intermediate coupling factors are readily available.
Please contact factory.
3
54
Thin-Film Directional Couplers
CP0603 High Directivity LGA Type
Important: Couplers can be used at any frequency within the indicated range.
3
55
Coupler P/N CP0603AxxxxAN
Coupler P/N CP0603AxxxxBN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836AN 824 - 849 20.0 0.25 28
CP0603A0881AN 869 - 894 19.7 0.25 28
GSM CP0603A0902AN 890 - 915 19.4 0.25 27
CP0603A0947AN 935 - 960 19.0 0.25 27
E-GSM CP0603A0897AN 880 - 915 19.4 0.25 28
CP0603A0942AN 925 - 960 19.0 0.25 27
PDC CP0603A1441AN 1429 - 1453 15.5 0.40 24 22
PCN CP0603A1747AN 1710 - 1785 14.0 0.50 22
CP0603A1842AN 1805 - 1880 13.5 0.50 22
PCS CP0603A1880AN 1850 - 1910 13.2 0.50 22
CP0603A1960AN 1930 - 1990 13.0 0.55 21
PHP CP0603A1907AN 1895 - 1920 13.2 0.50 22
DECT CP0603A1890AN 1880 - 1900 13.2 0.50 22
Wireless LAN CP0603A2442AN 2400 - 2484 11.5 0.75 20
CP0603A3500AN 3450 - 3550 8.6 1.3 17 20
WiFi CP0603A5000AN 4950 - 5050 6.1 2.2 13 14
CP0603A5500AN 5450 - 5550 5.5 2.5 15 13
CP0603A6000AN 5950 - 6050 5 3 11.6 13
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836BN 824 - 849 23.0 0.20 31
CP0603A0881BN 869 - 894 22.7 0.20 31
GSM CP0603A0902BN 890 - 915 22.5 0.20 31
CP0603A0947BN 935 - 960 22.0 0.20 30 24
E-GSM CP0603A0897BN 880 - 915 22.5 0.20 31
CP0603A0942BN 925 - 960 22.0 0.20 30
PDC CP0603A1441BN 1429 - 1453 18.5 0.25 27
PCN CP0603A1747BN 1710 - 1785 17.0 0.25 25
CP0603A1842BN 1805 - 1880 16.4 0.25 25
PCS CP0603A1880BN 1850 - 1910 16.2 0.25 25
CP0603A1960BN 1930 - 1990 16.0 0.25 24 21
PHP CP0603A1907BN 1895 - 1920 16.1 0.25 25
DECT CP0603A1890BN 1880 - 1900 16.2 0.25 25
Wireless LAN CP0603A2442BN 2400 - 2484 14.2 0.35 23
CP0603A3500BN 3450 - 3550 11.2 0.6 20 20
WiFi CP0603A5000BN 4950 - 5050 8.4 1.1 16.7 17
CP0603A5500BN 5450 - 5550 7.8 1.4 15.7 16
CP0603A6000BN 5950 - 6050 7.2 1.6 15 15
Coupler P/N CP0603AxxxxCN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836CN 824 - 849 15.2 0.35 23
CP0603A0881CN 869 - 894 15.0 0.35 23
GSM CP0603A0902CN 890 - 915 14.7 0.35 23
CP0603A0947CN 935 - 960 14.3 0.40 22 23
E-GSM CP0603A0897CN 880 - 915 14.7 0.35 23
CP0603A0942CN 925 - 960 14.3 0.40 22
PDC CP0603A1441CN 1429 - 1453 11.0 0.70 19
PCN CP0603A1747CN 1710 - 1785 9.5 0.80 18
CP0603A1842CN 1805 - 1880 9.0 0.90 17
PCS CP0603A1880CN 1850 - 1910 8.8 0.90 17
CP0603A1960CN 1930 - 1990 8.5 1.00 17 21
PHP CP0603A1907CN 1895 - 1920 8.8 0.90 17
DECT CP0603A1890CN 1880 - 1900 8.8 0.90 17
Wireless LAN CP0603A2442CN 2400 - 2484 7.0 1.40 15
CP0603A3500CN 3450 - 3550 4.8 2.0 23 20
WiFi CP0603A5000CN 4950 - 5050 3.0 3.6 21 17
CP0603A5500CN 5450 - 5550 3.0 4.0 20.6 16
CP0603A6000CN 5950 - 6050 2.5 4.5 20.5 16
-48
-40
-32
-24
-16
-8
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxANTR
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
-10
-8
-6
-4
-2
0
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4.0 4.8 5.6 6.4
CP0603AxxxxBNTR
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
-120
-100
-80
-60
-40
-20
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxCNTR
I Loss [dB]
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
Thin-Film Directional Couplers
CP0603 High Directivity LGA Type
Important: Couplers can be used at any frequency within the indicated range.
3
56
Coupler P/N CP0603AxxxxDN
Coupler P/N CP603AxxxxEN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836DN 824 - 849 22.0 0.25 31
CP0603A0881DN 869 - 894 21.8 0.25 30
GSM CP0603A0902DN 890 - 915 21.3 0.25 30
CP0603A0947DN 935 - 960 21.0 0.30 30 30
E-GSM CP0603A0897DN 880 - 915 21.3 0.25 30
CP0603A0942DN 925 - 960 21.0 0.30 30
PDC CP0603A1441DN 1429 - 1453 17.7 0.40 27
PCN CP0603A1747DN 1710 - 1785 16.0 0.40 25
CP0603A1842DN 1805 - 1880 15.4 0.40 25
PCS CP0603A1880DN 1850 - 1910 15.2 0.40 24
CP0603A1960DN 1930 - 1990 15.0 0.40 24 25
PHP CP0603A1907DN 1895 - 1920 15.2 0.40 24
DECT CP0603A1890DN 1880 - 1900 15.2 0.40 24
Wireless LAN CP0603A2442DN 2400 - 2484 13.3 0.55 22
CP0603A3500DN 3450 - 3550 10.1 0.66 25.3 20
WiFi CP0603A5000DN 4950 - 5050 7.8 1.17 21.1 18
CP0603A5500DN 5450 - 5550 6.8 1.39 19.9 18
CP0603A6000DN 5950 - 6050 6.3 1.64 18.8 17
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836EN 824 - 849 25.8 0.20 32
CP0603A0881EN 869 - 894 25.3 0.20 32
GSM CP0603A0902EN 890 - 915 25.0 0.20 32
CP0603A0947EN 935 - 960 24.7 0.20 31
E-GSM CP0603A0897EN 880 - 915 26.0 0.20 32
CP0603A0942EN 925 - 960 24.7 0.20 31
PDC CP0603A1441EN 1429 - 1453 22.0 0.25 28 21
PCN CP0603A1747EN 1710 - 1785 19.5 0.30 26
CP0603A1842EN 1805 - 1880 19.0 0.30 26
PCS CP0603A1880EN 1850 - 1910 18.8 0.30 26
CP0603A1960EN 1930 - 1990 18.5 0.30 26
PHP CP0603A1907EN 1895 - 1920 18.7 0.30 26
DECT CP0603A1890EN 1880 - 1900 18.8 0.30 26
Wireless LAN CP0603A2442EN 2400 - 2484 17.0 0.40 24
CP0603A3500EN 3450 - 3550 13.2 0.5 18 20
WiFi CP0603A5000EN 4950 - 5050 10.7 0.9 13 16
CP0603A5500EN 5450 - 5550 10.2 1.2 12 15
CP0603A6000EN 5950 - 6050 9.7 1.4 12 14
Coupler P/N CP603AxxxxFN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836FN 824 - 849 31.2 0.20 32
CP0603A0881FN 869 - 894 30.8 0.20 32
GSM CP0603A0902FN 890 - 915 30.5 0.20 30
CP0603A0947FN 935 - 960 30.2 0.20 30
E-GSM CP0603A0897FN 880 - 915 30.5 0.20 30
CP0603A0942FN 925 - 960 30.2 0.20 30
PDC CP0603A1441FN 1429 - 1453 27.0 0.25 28 12
PCN CP0603A1747FN 1710 - 1785 25.0 0.25 27
CP0603A1842FN 1805 - 1880 26.5 0.25 27
PCS CP0603A1880FN 1850 - 1910 24.3 0.25 27
CP0603A1960FN 1930 - 1990 24.0 0.25 28
PHP CP0603A1907FN 1895 - 1920 24.2 0.25 27
DECT CP0603A1890FN 1880 - 1900 24.2 0.25 27
Wireless LAN CP0603A2442FN 2400 - 2484 21.5 0.25 25
CP0603A3500FN 3450 - 3550 17.8 0.33 20.0 13
WiFi CP0603A5000FN 4950 - 5050 15.4 0.62 14.86 12
CP0603A5500FN 5450 - 5550 14.8 0.86 13.58 12
CP0603A6000FN 5950 - 6050 14.3 1.02 12.58 11
-24
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxDNTR
I Loss [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
Coupling, Return Loss,
Isolation, [dB]
-24
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxENTR
I Loss [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
Coupling, Return Loss,
Isolation, [dB]
-24
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxFNTR
I Loss [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
Coupling, Return Loss,
Isolation, [dB]
Thin-Film Directional Couplers
CP0603 High Directivity LGA Type
Important: Couplers can be used at any frequency within the indicated range.
3
57
Coupler P/N CP603AxxxxGN
Coupler P/N CP603AxxxxHN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836GN 824 - 849 34.2 0.20 30
CP0603A0881GN 869 - 894 33.8 0.20 30
GSM CP0603A0902GN 890 - 915 33.6 0.20 30
CP0603A0947GN 935 - 960 33.2 0.20 29
E-GSM CP0603A0897GN 880 - 915 33.6 0.20 30
CP0603A0942GN 925 - 960 33.2 0.20 29
PDC CP0603A1441GN 1429 - 1453 30.0 0.25 25 13
PCN CP0603A1747GN 1710 - 1785 28.5 0.25 24
CP0603A1842GN 1805 - 1880 28.0 0.25 24
PCS CP0603A1880GN 1850 - 1910 27.7 0.25 24
CP0603A1960GN 1930 - 1990 27.5 0.25 23
PHP CP0603A1907GN 1895 - 1920 27.6 0.25 24
DECT CP0603A1890GN 1880 - 1900 27.7 0.25 24
Wireless LAN CP0603A2442GN 2400 - 2484 25.5 0.25 22
CP0603A3500GN 3450 - 3550 21.6 0.31 20 13
WiFi CP0603A5000GN 4950 - 5050 19 0.39 16 12
CP0603A5500GN 5450 - 5550 18.5 0.57 15 12
CP0603A6000GN 5950 - 6050 18.0 0.74 14 11
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836HN 824 - 849 17.3 0.30 26
CP0603A0881HN 869 - 894 17.0 0.30 25
GSM CP0603A0902HN 890 - 915 16.7 0.30 25
CP0603A0947HN 935 - 960 16.3 0.35 25 26
E-GSM CP0603A0897HN 880 - 915 17.0 0.35 25
CP0603A0942HN 925 - 960 16.3 0.35 25
PDC CP0603A1441HN 1429 - 1453 13.0 0.55 22
PCN CP0603A1747HN 1710 - 1785 11.4 0.75 20
CP0603A1842HN 1805 - 1880 11.0 0.75 20
PCS CP0603A1880HN 1850 - 1910 10.8 0.75 19
CP0603A1960HN 1930 - 1990 10.5 0.75 19 24
PHP CP0603A1907HN 1895 - 1920 10.7 0.75 19
DECT CP0603A1890HN 1880 - 1900 10.8 0.75 19
Wireless LAN CP0603A2442HN 2400 - 2484 8.8 1.00 17
CP0603A3500HN 3450 - 3550 5.9 1.48 25 21
WiFi CP0603A5000HN 4950 - 5050 4.4 2.59 22 18
CP0603A5500HN 5450 - 5550 4 2.95 22 17
CP0603A6000HN 5950 - 6050 3.5 3.37 21 17
Coupler P/N CP603AxxxxMN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836MN 824 - 849 24.2 0.20 33
CP0603A0881MN 869 - 894 23.8 0.20 32
GSM CP0603A0902MN 890 - 915 23.4 0.20 32
CP0603A0947MN 935 - 960 23.2 0.20 32 23
E-GSM CP0603A0897MN 880 - 915 23.4 0.20 32
CP0603A0942MN 925 - 960 23.2 0.20 32
PDC CP0603A1441MN 1429 - 1453 20.0 0.25 28
PCN CP0603A1747MN 1710 - 1785 18.4 0.25 27
CP0603A1842MN 1805 - 1880 18.0 0.25 26
PCS CP0603A1880MN 1850 - 1910 17.8 0.25 26
CP0603A1960MN 1930 - 1990 17.5 0.25 26 20
PHP CP0603A1907MN 1895 - 1920 17.7 0.25 26
DECT CP0603A1890MN 1880 - 1900 17.8 0.25 26
Wireless LAN CP0603A2442MN 2400 - 2484 15.6 0.35 24
CP0603A3500MN 3450 - 3550 12.8 0.58 18 20
WiFi CP0603A5000MN 4950 - 5050 10.2 1.0 15 16
CP0603A5500MN 5450 - 5550 9.7 1.2 15 14
CP0603A6000MN 5950 - 6050 8.9 1.5 13.5 9
-24
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxGNTR
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
I Loss [dB]
-50
-40
-30
-20
-10
0
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxHNTR
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
I Loss [dB]
-12
-10
-8
-6
-4
-2
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxMNTR
Coupling, Return Loss,
Isolation, [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
I Loss [dB]
3
58
Thin-Film Directional Couplers
CP0603 High Directivity LGA Type
Important: Couplers can be used at any frequency within the indicated range.
Coupler P/N CP603AxxxxLN
Coupler P/N CP603AxxxxKN
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836LN 824 - 849 26.89 0.08 32.5
CP0603A0881LN 869 - 894 26.55 0.08 32.2
GSM CP0603A0902LN 890 - 915 26.2 0.09 31.9 18
CP0603A0947LN 935 - 960 25.87 0.09 31.5
E-GSM CP0603A0897LN 880 - 915 26.2 0.09 31.9
CP0603A0942LN 925 - 960 25.87 0.09 31.5
PDC CP0603A1441LN 1429 - 1453 22.31 0.12 28.1 17.5
PCN CP0603A1747LN 1710 - 1785 20.51 0.15 26.4
CP0603A1842LN 1805 - 1880 20.03 0.15 26
PCS CP0603A1880LN 1850 - 1910 19.87 0.16 26
CP0603A1960LN 1930 - 1990 19.57 0.17 25.5 16.5
PHP CP0603A1907LN 1895 - 1920 19.77 0.16 25.7
DECT CP0603A1890LN 1880 - 1900 19.87 0.16 25.8
Wireless LAN CP0603A2442LN 2400 - 2484 17.7 0.22 23.9
CP0603A3500LN 3450 - 3550 14.85 0.56 20.6 16
WiFi CP0603A5000LN 4950 - 5050 12.4 0.95 17.8 11
CP0603A5500LN 5450 - 5550 11.83 1.2 17.1 9
CP0603A6000LN 5950 - 6050 11.08 1.33 15.9
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples* [MHz] [dB] [dB]
AMPS CP0603A0836KN 824 - 849 18.5 0.14 30
CP0603A0881KN 869 - 894 18.1 0.14 29 26
GSM CP0603A0902KN 890 - 915 17.6 0.15 29
CP0603A0947KN 935 - 960 17.3 0.15 29
E-GSM CP0603A0897KN 880 - 915 17.9 0.147 29 25
CP0603A0942KN 925 - 960 17.6 0.15 29
PDC CP0603A1441KN 1429 - 1453 14 0.27 25
PCN CP0603A1747KN 1710 - 1785 12.4 0.36 23
CP0603A1842KN 1805 - 1880 12 0.39 22.5
PCS CP0603A1880KN 1850 - 1910 11.8 0.4 22 24
CP0603A1960KN 1930 - 1990 11.4 0.44 22
PHP CP0603A1907KN 1895 - 1920 11.5 0.43 22
DECT CP0603A1890KN 1880 - 1900 11.7 0.41 22
Wireless LAN CP0603A2442KN 2400 - 2484 9.7 0.6 19 23
CP0603A3500KN 3450 - 3550 7.2 1.15 15 19
WiFi CP0603A5000KN 4950 - 5050 4.7 2.15 15
CP0603A5500KN 5450 - 5550 4.2 2.5 17 13
CP0603A6000KN 5950 - 6050 3.7 2.8 19
-24
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxLNTR
Coupling, Return Loss,
Isolation, [dB]
I Loss [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
-60
-48
-36
-24
-12
0
-50
-40
-30
-20
-10
0
0.8 1.6 2.4 3.2 4 4.8 5.6 6.4
CP0603AxxxxKNTR
Coupling, Return Loss,
Isolation, [dB]
I Loss [dB]
Frequency [GHz]
I. Loss
Coupling
R. Loss
Isolation
3
Thin-Film Directional Couplers
CP0402 / CP0603 High Directivity Couplers Test Jigs
GENERAL DESCRIPTION
These jigs are designed for testing the CP0402 and CP0603
High Directivity Couplers using a Vector Network Analyzer.
They consist of a dielectric substrate, having 50Ω microstrips
as conducting lines and a bottom ground plane located at a
distance of 0.254mm (0.010") from the microstrips.
The substrate used is Neltec’s NH9338ST0254C1BC.
The connectors are SMA type (female), ‘Johnson Components
Inc.’ Product P/N: 142-0701-841.
Both a measurement jig and a calibration jig are provided.
The calibration jig is designed for a full 2-port calibration, and
consists of an open line, short line and through line. LOAD
calibration can be done by a 50Ω SMA termination.
When measuring a component, it can be either soldered or
pressed using a non-metallic stick until all four ports touch
the appropriate pads. Set the VNA to the relevant frequency
band. Connect the VNA using a 10dB attenuator on the jig
terminal connected to port 2. Follow the VNAs instruction
manual and use the calibration jig to perform a full 2-Port
calibration in the required bandwidths.
Place the coupler on the measurement jig as follows:
Input (Coupler) Connector 1 (Jig) Termination (Coupler) Connector 3 (Jig)
Output (Coupler) Connector 2 (Jig) Coupling (Coupler) Connector 4 (Jig)
To measure I. Loss connect:
Connector 1 (Jig) Port 1 (VNA) Connector 3 (Jig) 50Ω
Connector 2 (Jig) Port 2 (VNA) Connector 4 (Jig) 50Ω
To measure R. Loss and Coupling connect:
Connector 1 (Jig) Port 1 (VNA) Connector 3 (Jig) 50Ω
Connector 2 (Jig) 50Ω Connector 4 (Jig) Port 2 (VNA)
To measure Isolation connect:
Connector 1 (Jig) 50Ω Connector 3 (Jig) 50Ω
Connector 2 (Jig) Port 1 (VNA) Connector 4 (Jig) Port 2 (VNA)
MEASUREMENT PROCEDURE
Measurement Jig
Connector 1
Connector 2
Connector 4
Connector 3
Calibration Jig
Short Line
to GND.
Load &
Through
Load &
Through
Connector
Johnson
P/N 142-0701-841
Open
Line
HS
OPEN
TH
59
60
Thin-Film Directional Couplers
CP0603 SMD Type
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/Solder coating compatible with automatic soldering
technologies: reflow, wave soldering, vapor phase and
manual.
The ITF SMD Coupler is based on thin-film multilayer technology.
The technology provides a miniature part with excellent high frequency
performance and rugged construction for reliable automatic assembly.
The ITF Coupler is offered in a variety of frequency bands compatible with
various types of high frequency wireless systems.
APPLICATIONS
• Mobile Communications
• Satellite TV Receivers
• GPS
• Vehicle Location Systems
• Wireless LAN’s
LW
B
T
B1
A
Bottom View
Top View
0603
L1.6±0.1
(0.063±0.004)
W0.84±0.1
(0.033±0.004)
T0.60±0.1
(0.028±0.004)
A0.35±0.15
(0.014±0.006)
B0.175±0.1
(0.007±0.004)
B1 0.00+0.1/0-0.0
(0.00+0.004/-0.0)
CP
Style
Directional Coupler
0603
Size
0603
X
Type
****
Frequency
MHz
X
Sub Type
S
Termination
Code
W = Sn90, Pb10
**S = Sn100
TR
Packaging Code
TR = Tape and Reel
HOW TO ORDER
GENERAL DESCRIPTION
ITF (Integrated Thin-Film) TECHNOLOGY
1.85
(0.073)
0.45
(0.018)
0.28
(0.011) 1.08
(0.043)
OUT 50 OHM
IN COUPLING
Orientation in tape
Recommended Pad Layout Dimensions
mm (inches)
FEATURES
• Miniature Size: 0603
• Frequency Range: 800MHz - 3GHz
• Characteristic Impedance: 50Ω
• Operating / Storage Temp.: -40ºC to +85ºC
• Power Rating: 3W Continuous
• Low Profile
• Rugged Construction
• Taped and Reeled
DIMENSIONS: millimeters (inches)
TERMINALS (Top View) Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
**RoHS compliant
For RoHS compliant products,
please select correct termination style.
3
60
61
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0603A0836CS 824 - 849 21±1
CP0603A0881CS 869 - 894 20.5±1 0.25
GSM CP0603A0902CS 890 - 915 20.5±1
CP0603A0947CS 935 - 960 20±1
E-GSM CP0603A0897CS 880 - 915 20.5±1
CP0603A0942CS 925 - 960 20±1
PDC CP0603A1441CS 1429 - 1453 16.5±1 0.40 1.2
PCN CP0603A1747CS 1710 - 1785 15±1
CP0603A1842CS 1805 - 1880 14.5±1
PCS CP0603A1880CS 1850 - 1910 14.5±1
CP0603A1960CS 1930 - 1990 14±1 0.5
PHP CP0603A1907CS 1895 - 1920 14.5±1
DECT CP0603A1890CS 1880 - 1900 14.5±1
Wireless LAN CP0603A2442CS 2400 - 2484 12.5±1 0.65
Thin-Film Directional Couplers
CP0603 SMD Type
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0603A0836AS 824 - 849 18.5±1
CP0603A0881AS 869 - 894 18.5±1 0.25
GSM CP0603A0902AS 890 - 915 18±1
CP0603A0947AS 935 - 960 17.5±1
E-GSM CP0603A0897AS 880 - 915 18±1
CP0603A0942AS 925 - 960 17.5±1
PDC CP0603A1441AS 1429 - 1453 14±1 0.4
PCN CP0603A1747AS 1710 - 1785 12.5±1 1.2
CP0603A1842AS 1805 - 1880 12±1 0.6
PCS CP0603A1880AS 1850 - 1910 12±1
CP0603A1960AS 1930 - 1990 11.5±1 0.65
PHP CP0603A1907AS 1895 - 1920 12±1 0.6
DECT CP0603A1890AS 1880 - 1900 12±1
Wireless LAN CP0603A2442AS 2400 - 2484 10±1 0.85
Coupler P/N CP0603A****AS
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0603A0836BS 824 - 849 16±1
CP0603A0881BS 869 - 894 15.5±1 0.25 1.2
GSM CP0603A0902BS 890 - 915 15.5±1
CP0603A0947BS 935 - 960 15±1
E-GSM CP0603A0897BS 880 - 915 15.5±1
CP0603A0942BS 925 - 960 15±1
PDC CP0603A1441BS 1429 - 1453 11.5±1 0.55
PCN CP0603A1747BS 1710 - 1785 10±1 1.3
CP0603A1842BS 1805 - 1880 9.5±1
PCS CP0603A1880BS 1850 - 1910 9±1
CP0603A1960BS 1930 - 1990 9±1 0.8
PHP CP0603A1907BS 1895 - 1920 9±1 1.4
DECT CP0603A1890BS 1880 - 1900 9±1
Wireless LAN CP0603A2442BS 2400 - 2484 7.5±1 1.1
Coupler P/N CP0603A****BS
Coupler P/N CP0603A****CS
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0603A0836DS 824 - 849 15.0±1
CP0603A0881DS 869 - 894 14.5±1 0.40 1.2
GSM CP0603A0902DS 890 - 915 14.5±1
CP0603A0947DS 935 - 960 14±1
E-GSM CP0603A0897DS 880 - 915 14.5±1
CP0603A0942DS 925 - 960 14±1
PDC CP0603A1441DS 1429 - 1453 10.5±1 0.7 1.3
PCN CP0603A1747DS 1710 - 1785 9±1
CP0603A1842DS 1805 - 1880 8.5±1 0.9
PCS CP0603A1880DS 1850 - 1910 8.5±1
CP0603A1960DS 1930 - 1990 8±1 1.0 1.5
PHP CP0603A1907DS 1895 - 1920 8.5±1
DECT CP0603A1890DS 1880 - 1900 8.5±1
Wireless LAN CP0603A2442DS 2400 - 2484 6.5±1 1.5
Coupler P/N CP0603A****DS
Important: Couplers can be used at any frequency within the indicated range.
I. Loss
Coupling
Return Loss
Isolation
0
-10
-20
-30
-40
-50
-60
0
-2
-4
-6
-8
-10
-12
Coupling, Return Loss,
Isolation (dB)
I. Loss (dB)
0.5 1.0 1.5 2.0 2.5
Frequency (GHz)
3.0 3.5
CP0603A****AS
I. Loss
Coupling
Return Loss
Isolation
0
-10
-20
-30
-40
-50
-60
0
-2
-4
-6
-8
-10
-12
Coupling, Return Loss,
Isolation (dB)
I. Loss (dB)
0.5 1.0 1.5 2.0 2.5
Frequency (GHz)
3.0
CP0603A****BS
I. Loss
Coupling
Return Loss
Isolation
0
-10
-20
-30
-40
-50
-60
-70
0
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
-11
-12
Coupling, Return Loss,
Isolation (dB)
I. Loss (dB)
0.5 1.0 1.5 2.0 2.5
Frequency (GHz)
3.0 3.5
CP0603A****CS
I. Loss
Coupling Return Loss
Isolation
0
-10
-20
-30
-40
-50
-60
0
-2
-4
-6
-8
-10
-12
-1
-3
-5
-7
-9
-11
Coupling, Return Loss,
Isolation (dB)
I. Loss (dB)
0.5 0.7 0.9 1.1 1.3
Frequency (GHz)
1.5 1.7 1.9 2.1 2.3 2.5
CP0603A****DS
3
61
62
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0603B0836CS 824 - 849 26.5±1
CP0603B0881CS 869 - 894 26±1
GSM CP0603B0902CS 890 - 915 26±1
CP0603B0947CS 935 - 960 25.5±1 0.2
E-GSM CP0603B0897CS 880 - 915 26±1
CP0603B0942CS 925 - 960 25.5±1
PDC CP0603B1441CS 1429 - 1453 22±1 1.2
PCN CP0603B1747CS 1710 - 1785 20.5±1
CP0603B1842CS 1805 - 1880 20±1
PCS CP0603B1880CS 1850 - 1910 20±1 0.25
CP0603B1960CS 1930 - 1990 19.5±1
PHP CP0603B1907CS 1895 - 1920 20±1
DECT CP0603B1890CS 1880 - 1900 20±1
Wireless LAN CP0603B2442CS 2400 - 2484 18±1 0.35 1.3
Thin-Film Directional Couplers
CP0603 SMD Type
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0603B0836AS 824 - 849 24.5±1
CP0603B0881AS 869 - 894 24±1
GSM CP0603B0902AS 890 - 915 24±1 0.2
CP0603B0947AS 935 - 960 23.5±1
E-GSM CP0603B0897AS 880 - 915 24±1
CP0603B0942AS 925 - 960 23.5±1
PDC CP0603B1441AS 1429 - 1453 20±1 0.25 1.2
PCN CP0603B1747AS 1710 - 1785 18±1
CP0603B1842AS 1805 - 1880 17.5±1
PCS CP0603B1880AS 1850 - 1910 17.5±1
CP0603B1960AS 1930 - 1990 17.5±1 0.3
PHP CP0603B1907AS 1895 - 1920 17.5±1
DECT CP0603B1890AS 1880 - 1900 17.5±1
Wireless LAN CP0603B2442AS 2400 - 2484 15.5±1 0.45
Coupler P/N CP0603B****AS
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0603B0836BS 824 - 849 25.5±1
CP0603B0881BS 869 - 894 25±1
GSM CP0603B0902BS 890 - 915 25±1
CP0603B0947BS 935 - 960 24.5±1 0.2
E-GSM CP0603B0897BS 880 - 915 25±1
CP0603B0942BS 925 - 960 24.5±1
PDC CP0603B1441BS 1429 - 1453 21±1 1.2
PCN CP0603B1747BS 1710 - 1785 19±1
CP0603B1842BS 1805 - 1880 19±1
PCS CP0603B1880BS 1850 - 1910 18.5±1 0.25
CP0603B1960BS 1930 - 1990 18.5±1
PHP CP0603B1907BS 1895 - 1920 18.5±1
DECT CP0603B1890BS 1880 - 1900 18.5±1
Wireless LAN CP0603B2442BS 2400 - 2484 16.5±1 0.35
Coupler P/N CP0603B****BS
Coupler P/N CP0603B****CS
Important: Couplers can be used at any frequency within the indicated range.
I. Loss
Coupling
Return Loss
Isolation
0
-10
-20
-30
-40
-50
-60
-1
-3
-5
-7
-9
-11
-13
Coupling, Return Loss,
Isolation (dB)
I. Loss (dB)
0.5 1.0 1.5 2.0 2.5
Frequency (GHz)
3.0 3.5 4.0
CP0603B****AS
I. Loss
Coupling
Return Loss
Isolation
0
-10
-20
-30
-40
-5
-15
-25
-35
-45
-50
0
-2
-4
-6
-8
-10
Coupling, Return Loss,
Isolation (dB)
I. Loss (dB)
0.5 1.0 1.5 2.0 2.5
Frequency (GHz)
3.0 3.5 4.0
CP0603B****BS
I. Loss
Coupling
Return Loss
Isolation
0
-10
-20
-30
-40
-5
-15
-25
-35
-45
-50
0
-2
-4
-6
-8
-10
Coupling, Return Loss,
Isolation (dB)
I. Loss (dB)
0.5 1.0 1.5 2.0 2.5
Frequency (GHz)
3.0 3.5 4.0
CP0603B****CS
3
62
Thin-Film Directional Couplers
CP0603 SMD Type – High Directivity
Coupler P/N CP0603D****AS
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples [MHz] [dB] [dB]
AMPS CP0603D0836AS 824 - 849 13.50 23
CP0603D0881AS 869 - 894 13.00
GSM CP0603D0902AS 890 - 915
CP0603D0947AS 935 - 960 12.50 0.50 22 21
E-GSM CP0603D0897AS 880 - 915 13.00
CP0603D0942AS 925 - 960 12.50
PDC CP0603D1441AS 1429 - 1453 9.00 1.00 18 19
PCN CP0603D1747AS 1710 - 1785 8.00 17 18
CP0603D1842AS 1805 - 1880 7.50
PCS CP0603D1880AS 1850 - 1910
CP0603D1960AS 1930 - 1990 1.40 17
PHP CP0603D1907AS 1895 - 1920 7.00 16
DECT CP0603D1890AS 1880 - 1900
Wireless LAN CP0603D2442AS 2400 - 2484 5.50 2.00 15 15
Important: Couplers can be used at any frequency within the indicated range.
Coupler P/N CP0603D****BS
Frequency Coupling I. Loss Return Directivity
Application P/N Band [dB] max. Loss [dB]
Examples [MHz] [dB] [dB]
AMPS CP0603D0836BS 824 - 849 20.00 36
CP0603D0881BS 869 - 894 19.50
GSM CP0603D0902BS 890 - 915 35
CP0603D0947BS 935 - 960 19.00 0.25
E-GSM CP0603D0897BS 880 - 915 19.50 36
CP0603D0942BS 925 - 960 19.00 35
PDC CP0603D1441BS 1429 - 1453 15.50 0.40 30
PCN CP0603D1747BS 1710 - 1785 14.00 0.50 28
19
CP0603D1842BS 1805 - 1880
PCS CP0603D1880BS 1850 - 1910 13.50
CP0603D1960BS 1930 - 1990 0.55 27
PHP CP0603D1907BS 1895 - 1920 13.00
DECT CP0603D1890BS 1880 - 1900
Wireless LAN CP0603D2442BS 2400 - 2484 11.00 0.70 24
I. Loss (dB)
I. Loss
Coupling
Return Loss
Isolation
0
-10
-20
-30
-40
-5
-15
-25
-35
0
-2
-4
-6
-8
-10
-12
-14
-16
Coupling, Return Loss,
Isolation (dB)
0.8 1.0 1.2 1.4 1.6
Frequency (GHz)
1.8 2.0 2.2 2.4
CP0603D****AS
I. Loss (dB)
I. Loss
Coupling
Return Loss
Isolation
0
-10
-20
-30
-40
-5
-15
-25
-35
-45
0
-2
-1
-4
-3
-6
-5
-8
-7
-9
Coupling, Return Loss,
Isolation (dB)
0.8 1.0 1.2 1.4 1.6
Frequency (GHz)
1.8 2.0 2.2 2.4
CP0603D****BS
3
63
The ITF SMD Coupler is based on thin-film multilayer technology.
The technology provides a miniature part with excellent high frequency
performance and rugged construction for reliable automatic assembly.
The ITF Coupler is offered in a variety of frequency bands compatible with
various types of high frequency wireless systems.
W
B
L
T
A
0805
L2.03±0.1 (0.080±0.004)
W1.55±0.1 (0.061±0.004)
T0.98±0.1 (0.039±0.004)
A0.56±0.25 (0.022±0.010)
B0.35±0.15 (0.014±0.006)
CP
Style
Directional Coupler
0805
Size
0805
A
Layout Type
(see layout types)
0902
Frequency
MHz
A
Sub Type
(see layout
sub-types)
S
Termination
Code
W = Nickel/Solder
(Sn/Pb)
**S = Nickel / Lead
Free Solder
(Sn100)
TR
Packaging Code
TR = Tape and Reel
HOW TO ORDER
Thin-Film Directional Couplers
CP0805 SMD Type
GENERAL DESCRIPTION
ITF (Integrated Thin-Film) TECHNOLOGY
FEATURES
• Small Size: 0805
• Frequency Range: 800MHz - 3GHz
• Characteristic Impedance: 50Ω
• Operating / Storage Temp.:
-40°C to +85°C
• Power Rating: 3W Continuous
• Low Profile
• Rugged Construction
• Taped and Reeled
APPLICATIONS
• Mobile Communications
• Satellite TV Receivers
• GPS
• Vehicle Location Systems
• Wireless LAN’s
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/Solder coating (Sn, Pb) compatible with automatic
soldering technologies: reflow, wave soldering, vapor phase
and manual.
2.33
(0.092)
0.60
(0.024)
0.65
(0.026)
2.25
(0.089)
Recommended Pad Layout Dimensions mm (inches)
NOTE: Components must be mounted on the board with the white (Alumina)
side DOWN.
DIMENSIONS: millimeters (inches)
(Top View)
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
**RoHS compliant
For RoHS compliant products,
please select correct termination style.
3
64
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0805A0836AW 824 - 849 16.5±1
CP0805A0881AW 869 - 894 16±1 0.25
GSM CP0805A0902AW 890 - 915 16±1
CP0805A0947AW 935 - 960 15.5±1 1.2
E-GSM CP0805A0897AW 880 - 915 16±1
CP0805A0942AW 925 - 960 15.5±1
PDC CP0805A1441AW 1429 - 1453 12±1 0.5 1.3
PCN CP0805A1747AW 1710 - 1785 10.5±1 0.7
CP0805A1842AW 1805 - 1880 10±1 0.8
PCS CP0805A1880AW 1850 - 1910 9.5±1 1.4
CP0805A1960AW 1930 - 1990 9.5±1
PHP CP0805A1907AW 1895 - 1920 9.5±1
DECT CP0805A1890AW 1880 - 1900 9.5±1
Thin-Film Directional Couplers
CP0805 Layout Types
Type: A
Sub-Type: A
I. Loss
Coupling
R. Loss
Isolation
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
-50
0.60 0.80 1.00 1.20 1.40
Frequency (GHz)
dB
I. Loss (dB)
1.60
0
-1
1.80 2.00
COUP
Port
RF IN
Port
50 OHM
(External
Resistor)
RF OUT
Port
LAYOUT
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0805A0836BW 824 - 849 19±1
CP0805A0881BW 869 - 894 18.5±1 0.25 1.2
GSM CP0805A0902BW 890 - 915 18±1
CP0805A0947BW 935 - 960 18±1
E-GSM CP0805A0897BW 880 - 915 18.5±1
CP0805A0942BW 925 - 960 18±1
PDC CP0805A1441BW 1429 - 1453 14.5±1 0.35
PCN CP0805A1747BW 1710 - 1785 12.5±1 0.5
CP0805A1842BW 1805 - 1880 12.5±1
PCS CP0805A1880BW 1850 - 1910 12±1 0.6
CP0805A1960BW 1930 - 1990 11.5±1 0.7 1.4
PHP CP0805A1907BW 1895 - 1920 12±1 0.6
DECT CP0805A1890BW 1880 - 1900 12±1
Wireless LAN CP0805A2442BW 2400 - 2484 10±1 0.9
Type: A
Sub-Type: B
I. Loss
Coupling
R. Loss
Isolation
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
-50
0.60 0.80 1.00 1.20 1.40
Frequency (GHz)
dB
I. Loss (dB)
1.60
0
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
1.80 2.00
COUP
Port
RF IN
Port
50 OHM
(External
Resistor)
RF OUT
Port
LAYOUT
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0805A0836CW 824 - 849 14±1
CP0805A0881CW 869 - 894 13.5±1 0.5
GSM CP0805A0902CW 890 - 915 13.5±1
CP0805A0947CW 935 - 960 13±1 1.4
E-GSM CP0805A0897CW 880 - 915 13.5±1
CP0805A0942CW 925 - 960 13±1
PDC CP0805A1441CW 1429 - 1453 9.5±1 1.15 1.8
PCN CP0805A1747CW 1710 - 1785 8±1 1.6
CP0805A1842CW 1805 - 1880 8±1
PCS CP0805A1880CW 1850 - 1910 7.5±1 1.75 2.2
Cp0805A1960CW 1930 - 1990 7.5±1
PHP CP0805A1907CW 1895 - 1920 7.5±1
DECT CP0805A1890CW 1880 - 1900 7.5±1
Wireless LAN CP0805A2442CW 2400 - 2484 6±1 2.5
Type: A
Sub-Type: C
I. Loss
Coupling
R. Loss
Isolation
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
-50
0.60 0.80 1.00 1.20 1.40
Frequency (GHz)
dB
1.60 1.80 2.00 2.20 2.40
COUP
IN
50 OHM
OUT
LAYOUT
Important: Couplers can be used at any frequency within the indicated range.
C
COUP 50 OHM
RF IN RF OUT
Sn100 LAYOUT
M
COUP 50 OHM
RF IN RF OUT
Sn100 LAYOUT
Y
COUP 50 OHM
RF IN RF OUT
Sn100 LAYOUT
3
65
COUP
IN
50 OHM
OUT
LAYOUT
Thin-Film Directional Couplers
CP0805 Layout Types
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0805A0836EW 824 - 849 11±1
CP0805A0881EW 869 - 894 10.5±1 0.85 1.4
GSM CP0805A0902EW 890 - 915 10.5±1
CP0805A0947EW 935 - 960 10±1
E-GSM CP0805A0897EW 880 - 915 10.5±1
CP0805A0942EW 925 - 960 10±1
PDC CP0805A1441EW 1429 - 1453 7±1 1.8 1.8
PCN CP0805A1747EW 1710 - 1785 5.5±1
CP0805A1842EW 1805 - 1880 5.5±1 2.7 2.2
PCS CP0805A1880EW 1850 - 1910 5±1
Cp0805A1960EW 1930 - 1990 5±1
PHP CP0805A1907EW 1895 - 1920 5±1 3.15 2.4
DECT CP0805A1890EW 1880 - 1900 5±1
Wireless LAN CP0805A2442EW 2400 - 2484 4±1 4.2
Type: A
Sub-Type: E
I. Loss
Coupling
R. Loss
Isolation
0
-5
-10
-15
-20
-25
-30
0.50 0.75 1.00 1.25 1.50
Frequency (GHz)
dB
1.75 2.00
I. Loss (dB)
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0805A0836DW 824 - 849 13.0±1
CP0805A0881DW 869 - 894 12.5±1 0.5 1.4
GSM CP0805A0902DW 890 - 915 12.5±1
CP0805A0947DW 935 - 960 12±1
E-GSM CP0805A0897DW 880 - 915 12.5±1
CP0805A0942DW 925 - 960 12±1
PDC CP0805A1441DW 1429 - 1453 8.5±1 1.25 1.8
PCN CP0805A1747DW 1710 - 1785 7±1
CP0805A1842DW 1805 - 1880 7±1 1.85
PCS CP0805A1880DW 1850 - 1910 7±1
Cp0805A1960DW 1930 - 1990 6.5±1 2.15 2.1
PHP CP0805A1907DW 1895 - 1920 6.5±1
DECT CP0805A1890DW 1880 - 1900 7±1 1.85 1.8
Wireless LAN CP0805A2442DW 2400 - 2484 5.5±1 2.4 2.1
Type: A
Sub-Type: D
I. Loss
Coupling
R. Loss
Isolation
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
-50
0.60 0.80 1.00 1.20 1.40
Frequency (GHz)
dB
1.60 1.80 2.00 2.20 2.40
COUP
IN
50 OHM
OUT
LAYOUT
COUP Port
RF IN
Port
RF OUT
Port
50 OHM
(External
Resistor)
LAYOUT
Type: B
Sub-Type: A
I. Loss
Coupling
R. Loss
Isolation
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
-50
1.00 1.20 1.40 1.60 1.80
Frequency (GHz)
dB
I. Loss (dB)
2.00
0
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
2.20 2.40
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0805B0836AW 824 - 849 21.5±1
CP0805B0881AW 869 - 894 21±1
GSM CP0805B0902AW 890 - 915 21±1
CP0805B0947AW 935 - 960 20.5±1 0.25
E-GSM CP0805B0897AW 880 - 915 21±1
CP0805B0942AW 925 - 960 20.5±1
PDC CP0805B1441AW 1429 - 1453 17±1
PCN CP0805B1747AW 1710 - 1785 15.5±1 1.2
Cp0805B1842AW 1805 - 1880 15.5±1 0.3
PCS CP0805B1880AW 1850 - 1910 15±1
CP0805B1960AW 1930 - 1990 14.5±1 0.4
PHP CP0805B1907AW 1895 - 1920 15±1 0.3
DECT CP0805B1890AW 1880 - 1900 15±1
Wireless LAN CP0805B2442AW 2400 - 2484 13±1 0.4
Important: Couplers can be used at any frequency within the indicated range.
F
COUP 50 OHM
RF IN RF OUT
Sn100 LAYOUT
K
COUP 50 OHM
RF IN RF OUT
Sn100 LAYOUT
T
RF IN COUP
RF OUT 50 OHM
Sn100 LAYOUT
3
66
Type: B
Sub-Type: C
I. Loss
Coupling
R. Loss
Isolation
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
-50
1.10 1.30 1.50 1.70 1.90
Frequency (GHz)
dB
I. Loss (dB)
2.10
0
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
2.30 2.50
COUP Port
RF IN
Port
RF OUT
Port
50 OHM
(External
Resistor)
LAYOUT
Type: B
Sub-Type: B
I. Loss
Coupling
R. Loss
Isolation
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
-50
1.00 1.20 1.40 1.60 1.80
Frequency (GHz)
dB
I. Loss (dB)
2.00
0
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
2.20 2.40 2.60
COUP Port
RF IN
Port
RF OUT
Port
50 OHM
(External
Resistor)
LAYOUT
Thin-Film Directional Couplers
CP0805 Layout Types
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0805B0836BW 824 - 849 23.5±1
CP0805B0881BW 869 - 894 23±1
GSM CP0805B0902BW 890 - 915 22.5±1
CP0805B0947BW 935 - 960 22±1
E-GSM CP0805B0897BW 880 - 915 23±1
CP0805B0942BW 925 - 960 22±1 0.25
PDC CP0805B1441BW 1429 - 1453 18.5±1
PCN CP0805B1747BW 1710 - 1785 17±1
CP0805B1842BW 1805 - 1880 16.5±1 1.2
PCS CP0805B1880BW 1850 - 1910 16.5±1
CP0805B1960BW 1930 - 1990 16±1
PHP CP0805B1907BW 1895 - 1920 16±1
DECT CP0805B1890BW 1880 - 1900 16±1
Wireless LAN CP0805B2442BW 2400 - 2484 14±1 0.4
Application P/N Frequency Coupling I. Loss VSWR
Examples Band [MHz] [dB] max max
AMPS CP0805B0836CW 824 - 849 25±1
CP0805B0881CW 869 - 894 24.5±1
GSM CP0805B0902CW 890 - 915 24±1
CP0805B0947CW 935 - 960 24±1
E-GSM CP0805B0897CW 880 - 915 24.5±1
CP0805B0942CW 925 - 960 24±1 0.25
PDC CP0805B1441CW 1429 - 1453 20±1
PCN CP0805B1747CW 1710 - 1785 18.5±1
Cp0805B1842CW 1805 - 1880 18.5±1 1.2
PCS CP0805B1880CW 1850 - 1910 18±1
Cp0805B1960CW 1930 - 1990 17.5±1
PHP CP0805B1907CW 1895 - 1920 18±1
DECT CP0805B1890CW 1880 - 1900 18±1
Wireless LAN CP0805B2442CW 2400 - 2484 16±1 0.4
Important: Couplers can be used at any frequency within the indicated range.
V
RF IN COUP
RF OUT 50 OHM
Sn100 LAYOUT
L
RF IN COUP
RF OUT 50 OHM
Sn100 LAYOUT
3
67
3
68
Thin-Film Directional Couplers
CP0805 Layout Types
-50
-40
-30
-20
-10
0
100 200 300 400 500 600
-20
-16
-12
-8
-4
0
-60
-50
-40
-30
-20
-10
0
200 300 400 600 700 800500
-6
-5
-4
-3
-2
-1
0
I. Loss
Coupling
R. Loss
Isolation
I. Loss
Coupling
R. Loss
Isolation
Frequency (MHz)
dB
I. Loss (dB)
Frequency (MHz)
dB
I. Loss (dB)
50
OHM
COUP
IN
OUT
A
50
OHM
COUP
IN OUT
E
VHF DIRECTIONAL COUPLER
CP0805L0155ASTR
Sn100 LAYOUT
UHF DIRECTIONAL COUPLER
CP0805L0436BSTR
Sn100 LAYOUT
Important: Couplers can be used at any frequency within the indicated range.
Frequency Coupling R. Loss I. Loss Directivity
P/N [MHz] [dB] [dB] max [dB]
[dB]
CP0805L0155ASTR 155 17.1±1 24 0.35 22
Frequency Coupling R. Loss I. Loss Directivity
P/N [MHz] [dB] [dB] max [dB]
[dB]
CP0805L0436BSTR 403-470 15.85±1 35 0.25 22
3
Thin-Film Directional Couplers
CP0805 and CP0603 Test Jig
GENERAL DESCRIPTION
This jig is designed for the testing of CP0805 and CP0603
series Directional Couplers using a vector network analyzer.
It consists of a FR4 multi-layer substrate, having 50Ω
microstrips as conducting lines and a ground plane in the
middle layer, located at a distance of 0.2mm from the
microstrips.
The connectors are SMA type (female), ‘Johnson Components
Inc.’ Product P/N: 142-0701-881.
The jig is designed for a full 2-port calibration. LOAD calibration
can be done either by a 50Ω SMA termination, or by soldering
a 50Ω chip resistor at the 50Ω ports.
MEASUREMENT PROCEDURE
When measuring a component, it can be either soldered or
pressed by a non-metallic stick until all four ports touch the
appropriate pads. To measure the coupling (and the R. Loss)
place the component on the Port 1 & Port 2 pads. Use two
SMA 50Ω terminations (male) to terminate the ports, which
are not connected to the network analyzer, and connect
the network analyzer to the two ports. A 90° rotation of
the component on its pads allows measuring a second
parameter (I. Loss).
ITF TEST JIG FOR COUPLER TYPES 0805 AND 0603 SMD
Connector (1 of 12)
P/N 142-0701-881
OpenShort
Load & Thru
Port 2
Port 2
Port 1
Port 1
50
50
50
50
Calibration Area
Coupler 0805
Coupler 0603
CP0805 SERIES DIRECTIONAL COUPLERS
Orientation and Tape and Reel Packaging Specification CP0805xxxxxxSTR (Sn100)
COUP
RF
IN
RF
OUT
50
OHM COUP
RF
IN
RF
OUT
50
OHM COUP
RF
IN
RF
OUT
50
OHM
TYPE AC TYPE AD TYPE AE
COUP
RF
IN
RF
OUT
50
OHM COUP
RF
IN
RF
OUT
50
OHM
TYPE AA TYPE AB
COUP
RF
IN
RF
OUT
50
OHM
COUP
RF
IN
RF
OUT
50
OHM
COUP
RF
IN
RF
OUT
50
OHM
TYPE BA TYPE BB TYPE BC
(Top View)
The parts should be mounted on the PCB with White (Alumina)
side down and the "dark" side up.
TYPE AC TYPE AD TYPE AE
COUP
RF
IN
RF
OUT
50
OHM
COUP
RF
IN
RF
OUT
50
OHM
COUP
RF
IN
RF
OUT
50
OHM
TYPE BA TYPE BB TYPE BC
COUP
RF
IN
RF
OUT
50
OHM COUP
RF
IN
RF
OUT
50
OHM COUP
RF
IN
RF
OUT
50
OHM
COUP
RF
IN
RF
OUT
50
OHM
COUP
RF
IN
RF
OUT
50
OHM
TYPE AA TYPE AB
(Top View)
The parts should be mounted on the PCB with printed side up.
C
Y
L
V
T
K
F
M
69
ORIENTATION IN TAPE
The DB0603N 3dB 90° Coupler is based on thin-film
multilayer technology. The technology provides a
miniature part with excellent high frequency performance
and rugged construction for reliable automatic assembly.
The RFAP LGA 3dB 90° Coupler will be offered in a variety
of frequency bands compatible with various types of high
frequency wireless systems.
APPLICATIONS
• Balanced Amplifiers and Signal Distribution in
Wireless Communications
L
T
S
W
B
A
DIMENSIONS:
millimeters (inches) Bottom View
L1.60±0.10
(0.063±0.004)
W0.84±0.10
(0.033±0.004)
T0.60±0.10
(0.024±0.004)
A0.25±0.05
(0.010±0.002)
B0.20±0.05
(0.008±0.002)
S0.05±0.05
(0.002±0.002)
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
GENERAL DESCRIPTION
RFAP TECHNOLOGY
IN
50
OHM OUT 1
OUT 2
LAND GRID ARRAY
ADVANTAGES:
• Inherent Low Profile
• Self Alignment during Reflow
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
FEATURES
• Miniature 0603 size
• Low I. Loss
• High Isolation
• Surface Mountable
• RoHS Compliant
• Supplied on T&R
• Power Rating:
10W RF
Continuous
Recommended Pad Layout Dimensions mm (inches)
1.75 (0.069)
0.50
(0.020)
0.40
(0.016)
1.10
(0.043)
Part Number Frequency Port Return Loss Isolation Insertion Loss Ampltidue Phase Balance Power
MHz Impedance [dB] [dB] [dB] Balance (Relative to 90º) Handing
Ω[dB] Deg Watts
Min. Max. Typ. Min. Typ. Min. Typ. Typ. Max. Typ. Max. Typ. Max Max.
DB0603N2140ANTR 2040 2240 50 15 26 15 23 0.30 0.40 0.50 0.80 2 3 10
DB0603N2400ANTR 2300 2500 50 12 17 15 23 0.25 0.35 0.30 0.80 2 3 10
DB0603N2600ANTR 2400 2800 50 12 17 15 23 0.25 0.35 0.30 0.80 2 3 10
DB0603N3000ANTR 2850 3150 50 12 15 15 26 0.20 0.30 0.30 0.80 2 3 10
DB0603N3500ANTR 3300 3700 50 12 15 15 26 0.20 0.30 0.30 0.80 2 3 10
DB0603N4600ANTR 4200 5000 50 12 16 12 15 0.50 0.70 0.40 1.00 1.5 3 10
DB0603N5500ANTR 5100 5900 50 12 16 10 14 0.60 0.80 0.80 1.50 1 3 10
DB0603N5800ANTR 5600 6000 50 12 16 12 17 0.40 0.90 0.30 0.90 2 3 10
ELECTRICAL PARAMETERS
NOTE: Additional Frequencies Available Upon Request
3
70
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
2040MHz to 2240MHz DB0603N2140ANTR
Return Loss - Input
-30
-28
-26
-24
-22
-20
2030 2060 2090 2120 2150 2180 2210 2240
Frequency (MHz)
dB
Insertion Loss
-1.8
-1.2
-0.6
0
2030 2060 2090 2120 2150 2180 2210 2240
Frequency (MHz)
dB
Amplitude Balance
-2
-1
0
1
2
2030 2060 2090 2120 2150 2180 2210 2240
Frequency (MHz)
dB
3
71
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
2040MHz to 2240MHz DB0603N2140ANTR
Phase Balance
-8
-4
0
4
8
2030 2060 2090 2120 2150 2180 2210 2240
Frequency (MHz)
dB
Isolation
-26
-24
-22
-20
-18
-16
2030 2060 2090 2120 2150 2180 2210 2240
Frequency (MHz)
dB
3
72
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
2200MHz to 2600MHz DB0603N2400ANTR
Return Loss - Input
-20
-18
-16
-14
-12
-10
2200 2300 2400 2500 2600
Frequency (MHz)
dB
Insertion Loss
-1.8
-1.2
-0.6
0
2200 2300 2400 2500 2600
Frequency (MHz)
dB
Amplitude Balance
-2
-1
0
1
2
2200 2300 2400 2500 2600
Frequency (MHz)
dB
3
73
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
2200MHz to 2600MHz DB0603N2400ANTR
Phase Balance
-8
-4
0
4
8
2200 2300 2400 2500 2600
Frequency (MHz)
dB
Isolation
-30
-28
-26
-24
-22
-20
2200 2300 2400 2500 2600
Frequency (MHz)
dB
3
74
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
2400MHz TO 2800MHz DB0603N2600ANTR
Return Loss - Input
-20
-18
-16
-14
-12
-10
2400 2500 2600 2700
Insertion Loss
-1.8
-1.2
-0.6
0
Amplitude Balance
-2
-1
0
1
2
2800
2400 2500 2600 2700 2800
2400 2500 2600 2700 2800
Frequency (MHz)
Frequency (MHz)
Frequency (MHz)
dBdBdB
3
75
3
76
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
2400MHz TO 2800MHz DB0603N2600ANTR
Phase Balance
-8
-4
0
4
8
Isolation
-30
-28
-26
-24
-22
-20
2400 2500 2600 2700 2800
Frequency (MHz)
2400 2500 2600 2700 2800
Frequency (MHz)
dBdB
3
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
2850MHz to 3150MHz DB0603N3000ANTR
Return Loss - Input
-20
-18
-16
-14
-12
-10
2800 2900 3000 3100 3200
Frequency (MHz)
dB
Insertion Loss
-1.8
-1.2
-0.6
0
2800 2900 3000 3100 3200
Frequency (MHz)
dB
Amplitude Balance
-2
-1
0
1
2
2800 2900 3000 3100 3200
Frequency (MHz)
dB
77
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
2850MHz to 3150MHz DB0603N3000ANTR
Phase Balance
-8
-4
0
4
8
2800 2900 3000 3100 3200
Frequency (MHz)
dB
Isolation
-30
-28
-26
-24
-22
-20
2800 2900 3000 3100 3200
Frequency (MHz)
dB
3
78
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
3200MHz to 3800MHz DB0603N3500ANTR
Return Loss - Input
-20
-18
-16
-14
-12
-10
3200 3300 3400 3500 3600 3700 3800
Frequency (MHz)
dB
Insertion Loss
-1.8
-1.2
-0.6
0
3200 3300 3400 3500 3600 3700 3800
Frequency (MHz)
dB
Amplitude Balance
-2
-1
0
1
2
3200 3300 3400 3500 3600 3700 3800
Frequency (MHz)
dB
3
79
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
3200MHz to 3800MHz DB0603N3500ANTR
Phase Balance
-8
-4
0
4
8
3200 3300 3400 3500 3600 3700 3800
Frequency (MHz)
dB
Isolation
-30
-28
-26
-24
-22
-20
3200 3300 3400 3500 3600 3700 3800
Frequency (MHz)
dB
3
80
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
4200MHz TO 5000MHz DB0603N4600ANTR
Return Loss - Input
-20
-18
-16
-14
-12
Isolation
-18
-16
-14
-12
Insertion Loss
-0.8
-0.6
-0.4
-0.2
0
4200 4400 4600 4800 5000
Frequency (MHz)
4200 4400 4600 4800 5000
Frequency (MHz)
4200 4400 4600 4800 5000
Frequency (MHz)
dBdBdB
3
81
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
4200MHz TO 5000MHz DB0603N4600ANTR
Amplitude Balance
-1
-0.5
0
0.5
1
Phase Balance
-3
-2
-1
0
1
2
3
4200 4400 4600 4800 5000
Frequency (MHz)
4200 4400 4600 4800 5000
Frequency (MHz)
dBdeg
3
82
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
5100MHz TO 5900MHz DB0603N5500ANTR
Return Loss - Input
-20
-18
-16
-14
-12
5100 5200 5300 5400 5500 5600 5700 5800 5900
Frequency (MHz)
5100 5200 5300 5400 5500 5600 5700 5800 5900
Frequency (MHz)
5100 5200 5300 5400 5500 5600 5700 5800 5900
Frequency (MHz)
dB
Isolation
-18
-16
-14
-12
-10
dB
Insertion Loss
-0.8
-0.6
-0.4
-0.2
dB
3
83
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
5100MHz TO 5900MHz DB0603N5500ANTR
Amplitude Balance
0
0.5
1
1.5
Phase Balance
-3
-2
-1
0
1
2
3
5100 5200 5300 5400 5500 5600 5700 5800 5900
Frequency (MHz)
5100 5200 5300 5400 5500 5600 5700 5800 5900
Frequency (MHz)
dBdB
3
84
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
5600MHz TO 6000MHz DB0603N5800ANTR
Return Loss - Input
-20
-18
-16
-14
-12
-10
dB
Isolation
-20
-18
-16
-14
-12
dB
Insertion Loss
-1
-0.8
-0.6
-0.4
-0.2
0
dB
5600 5700 5800 5900 6000
Frequency (MHz)
5600 5700 5800 5900 6000
Frequency (MHz)
5600 5700 5800 5900 6000
Frequency (MHz)
3
85
Thin-Film Directional Couplers
DB0603N 3dB 90° Couplers
5600MHz TO 6000MHz DB0603N5800ANTR
Amplitude Balance
-1
-0.5
0
0.5
1
Phase Balance
-3
-2
-1
0
1
2
3
dBdeg
5600 5700 5800 5900 6000
Frequency (MHz)
5600 5700 5800 5900 6000
Frequency (MHz)
3
86
TERMINALS (Top View)
Orientation in Tape
The ITF SMD 3dB 90° Coupler is based on thin-film multilayer
technology. The technology provides a miniature part with excellent
high frequency performance and rugged construction for reliable
automatic assembly.
The ITF 3dB 90° Coupler is offered in a variety of frequency bands
compatible with various types of high frequency wireless
systems.
APPLICATIONS
• Balanced Amplifiers and
Signal Distribution in
Mobile Communications
L
A
BW
T
DIMENSIONS:
millimeters (inches) Bottom View
L2.03±0.10
(0.080±0.004)
W1.55±0.10
(0.061±0.004)
T0.98±0.15
(0.037±0.006)
A0.56±0.25
(0.022±0.010)
B0.35±0.15
(0.014±0.006)
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
GENERAL DESCRIPTION
ITF TECHNOLOGY
1.76
(0.069)
2.24 (0.088)
GROUND
0.70
(0.028)
0.64
(0.025)
0.15 (0.006) TYP.
50
OHM
IN
OUT1
OUT2
50
OHM
Code Letter
Marking
IN
OUT1
OUT2
FEATURES
• Miniature 0805 size
• Low I. Loss
• High Isolation
• Power Handling:
10W RF CW
• Surface Mountable
• Supplied on Tape and Reel
• Operating Temperature
-40°C to +85°C
Recommended Pad Layout Dimensions mm (inches)
Part Number** Frequency FOI. Loss @ FOPhase Balance Code Letter
[MHz] [dB] [deg] max. Marking
DB0805A0880ASTR 880±30 0.35 3 Y
DB0805A0915ASTR 915±30 0.35 3 V
DB0805A0967ASTR 967±30 0.35 3 V
DB0805A1350ASTR 1350±50 0.35 3 C
DB0805A1650ASTR 1650±50 0.35 3 F
DB0805A1800ASTR 1800±50 0.30 3 F
DB0805A1850ASTR 1850±50 0.30 3 K
DB0805A1900ASTR 1900±50 0.30 3 K
DB0805A1950ASTR 1950±50 0.25 3 K
DB0805A2140ASTR 2140±50 0.25 3 L
DB0805A2325ASTR 2325±50 0.25 3 T
ELECTRICAL PARAMETERS*
*With Recommended Pad Layout
** LEAD FREE TERMINATION
PART NUMBERS:
DB0805AxxxxASTR
LEAD-FREE COMPATIBLE
COMPONENT
NOTE: Additional Frequencies Available Upon Request
3
87
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.4
-3.6
-3.8
850 865 880 895 910
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
850 855 880 905 930
Frequency (MHz)
dB
880 ± 30MHz DB0805A0880ASTR
3
88
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-2.8
-3.2
-3.4
-3.6
-3.8
885 900 915 930 945
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
865 890 915 940 965
Frequency (MHz)
dB
915 ± 30MHz DB0805A0915ASTR
3
89
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-2.8
-3.2
-3.4
-3.6
-3.8
937 952 967 982 997
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
917 942 967 992 1017
Frequency (MHz)
dB
967± 30MHz DB0805A0967ASTR
3
90
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.4
-3.6
-3.8
1300 1350 1400
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
1300 1350 1400
Frequency (MHz)
dB
1350 ± 50MHz DB0805A1350ASTR
3
91
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.4
-3.6
-2.8
1550 1600 1650 1700 1750
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
1550 1600 1650 1700 1750
Frequency (MHz)
dB
1650 ± 50MHz DB0805A1650ASTR
3
92
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.4
-3.6
-2.8
1750 1775 1800 1825 1850
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
1750 1775 1800 1825 1850
Frequency (MHz)
dB
1800 ± 50MHz DB0805A1800ASTR
3
93
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.4
-3.6
-2.8
1800 1825 1850 1875 1900
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
1800 1825 1850 1875 1900
Frequency (MHz)
dB
1850 ± 50MHz DB0805A1850ASTR
3
94
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.4
-3.6
1850 1875 1900 1925 1950
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
1850 1875 1900 1925 1950
Frequency (MHz)
dB
1900 ± 50MHz DB0805A1900ASTR
3
95
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.4
-3.6
-2.8
1900 1925 1950 1975 2000
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
1900 1925 1950 1975 2000
Frequency (MHz)
dB
1950 ± 50MHz DB0805A1950ASTR
3
96
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.4
-3.6
-3.8
-2.6
-2.8
2040 2090 2140 2190 2240
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
2140 2090 2140 2190 2240
Frequency (MHz)
dB
2140 ± 50MHz DB0805A2140ASTR
3
97
Thin-Film Directional Couplers
DB0805 3dB 90° Couplers
I. Loss 1
I. Loss 2
-3.0
-3.2
-3.3
-3.4
-3.5
-3.1
2275 2300 2325 2350 2375
Frequency (MHz)
dB
R. Loss
Isolation
-10
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
2275 2300 2325 2350 2375
Frequency (MHz)
dB
2325 ± 50MHz DB0805A2325ASTR
3
98
Thin-Film Directional Couplers
DB0805 3dB 90° Test Jigs
GENERAL DESCRIPTION
These jigs are designed for testing the DB0805 3dB 90°
Couplers using a Vector Network Analyzer.
They consist of a dielectric substrate, having 50Ω microstrips
as conducting lines and a bottom ground plane located at a
distance of 0.254mm from the microstrips.
The substrate used is Neltec’s NH9338ST0254C1BC.
The connectors are SMA type (female), ‘Johnson Components
Inc.’ Product P/N: 142-0701-841.
Both a measurement jig and a calibration jig are provided.
The calibration jig is designed for a full 2-port calibration, and
consists of an open line, short line and through line. LOAD
calibration can be done by a 50Ω SMA termination.
When measuring a component, it can be either soldered or
pressed using a non-metallic stick until all four ports touch
the appropriate pads. Set the VNA to the relevant frequency
band. Connect the VNA using a 10dB attenuator on the jig
terminal connected to port 2. Follow the VNAs instruction
manual and use the calibration jig to perform a full 2-port
calibration in the required bandwidths.
Place the coupler on the measurement jig as follows:
Input (Coupler) Connector 1 (Jig) Output 1 (Coupler) Connector 3 (Jig)
50Ω (Coupler) Connector 2 (Jig) Output 2 (Coupler) Connector 4 (Jig)
To measure R. Loss and I. Loss 1 connect:
Connector 1 (Jig) Port 1 (VNA) Connector 3 (Jig) Port 2 (VNA)
Connector 2 (Jig) 50Ω Connector 4 (Jig) 50Ω
To measure R. Loss and I. Loss 2 connect:
Connector 1 (Jig) Port 1 (VNA) Connector 3 (Jig) 50Ω
Connector 2 (Jig) 50Ω Connector 4 (Jig) Port 2 (VNA)
To measure Isolation connect:
Connector 1 (Jig) 50Ω Connector 3 (Jig) Port 1 (VNA)
Connector 2 (Jig) 50Ω Connector 4 (Jig) Port 2 (VNA)
MEASUREMENT PROCEDURE
Measurement Jig
Connector 1
Connector 2
Connector 4
Connector 3
Calibration Jig
Short Line
to GND
Load &
Through
Load &
Through
Connector
Johnson
P/N 142-0701-841
Open
Line
3
99
Thin-Film RF/Microwave
Harmonic Low Pass Filter
LP0402/LP0603/LP0805
100
LP
Style
0402
Size
N
Type
XXXX
Frequency
MHz
X
Sub-Type
N
Termination
LGA
Lead Free
TR
Taped & Reeled
Thin-Film Low Pass Filter
LP0402N Series Harmonic Lead-Free LGA Termination
RFAP TECHNOLOGY
The LP0402N Series Harmonic Low Pass Filter is based on
the proprietary RFAP Thin-Film multilayer technology. The
technology provides a miniature part with excellent high
frequency performance and rugged construction for reliable
automatic assembly.
The RFAP Harmonic Low Pass Filter is offered in a variety of
frequency bands compatible with various types of high
frequency wireless systems.
APPLICATIONS
• Wireless communications
• Wireless LAN’s
• GPS
• WiMAX
LAND GRID ARRAY ADVANTAGES
• Inherent Low Profile
• Self Alignment during Reflow
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85ºC, 85% RH, 160 hours
• Endurance: 125ºC, IR, 4 hours
TERMINATION
Nickel/Lead-Free solder coating compatible with automatic
soldering technologies: reflow, wave soldering, vapor phase
and manual.
HOW TO ORDER
LEAD-FREE COMPATIBLE
COMPONENT
4
101
DIMENSIONS: millimeters (inches)
(Bottom View)
L1.0±0.05
(0.040±0.002)
W0.58±0.04
(0.023±0.002)
T0.35±0.5
(0.014±0.002)
A0.20±0.06
(0.008±0.002)
B0.18±0.05
(0.007±0.002)
S0.05±0.05
(0.002±0.002)
TERMINALS (Top View)
RECOMMENDED PAD LAYOUT (mm)
Thin-Film Low Pass Filter
LP0402N Series Harmonic Lead-Free LGA Termination
L
T
S
W
B
A
0.30
(0.012)
0.15
(0.006)
0.51
(0.020)
0.20
(0.008)
IN
OUT
GND
GND
ELECTRICAL CHARACTERISTICS
(Guaranteed over –40°C to +85°C Operating Temperature Range)
Frequency Band I. Loss R. Loss Attenuation Attenuation
P/N [MHz] [dB] [dB] @ 2xF0@ 3xF0
[dB] [dB]
LP0402N2442ANTR 2400-2484 0.35 typ 20 30 17
0.5 max
LP0402N2690ANTR 2640-2740 0.35 typ 20 30 20
0.5 max
LP0402N3500ANTR 3400-3600 0.3 typ 19 30 20
0.5 max
LP0402N5200ANTR 5500-5350 0.2 typ 19 30 20
0.5 max
LP0402N5500ANTR 5350-5650 0.2 typ 15 30
0.5 max
LP0402N5800ANTR 5600-6000 0.2 typ 16 25
0.5 max
NOTE: Additional Frequencies Available Upon Request
4
102
Thin-Film Low Pass Filter
LP0402N Series Harmonic Lead-Free LGA Termination
0
-5
-10
-20
-25
-30
-35
-40
-45
0
-5
-10
-20
-25
-30
-35
-40
-45
0
-5
-10
-20
-25
-30
-35
-40
-45
0 2 4 6 8 10 12
S21
S11
(dB)
S21
S11
(dB)
Frequency (GHz) Frequency (GHz)
F
0
2F
0
3F
0
0 2 4 6 8 10 12 14 16
0 2 4 6 8 10 12 14
0 2 4 6 8 10 12 14
S21
S11
(dB)
S21
S11
(dB)
Frequency (GHz) Frequency (GHz)
S21
S11
(dB)
S21
S11
(dB)
0
-10
-20
-30
-40
-50
0
-10
-20
-30
-40
-50
0
-10
-20
-30
-40
-50
F
0
F
0
F
0
F
0
F
0
2F
0
2F
0
2F
0
2F
0
2F
0
3F
0
3F
0
0 2 4 6 8 10 12 14
Frequency (GHz)
0 2 4 6 8 10 12 14
Frequency (GHz)
LP0402N2442ANTR
LP0402N2690ANTR
LP0402N5500ANTR
LP0402N5800ANTR
LP0402N3500ANTR
LP0402N5200ANTR
4
103
Thin-Film Low Pass Filter
LP0402N Series Harmonic Lead-Free LGA Termination Test Jig
GENERAL DESCRIPTION
These jigs are designed for testing the LP0603 LGA Low
Pass Filters using a Vector Network Analyzer.
They consist of a dielectric substrate, having 50Ω microstrips
as conducting lines and a bottom ground plane located at a
distance of 0.127mm from the microstrips.
The substrate used is Neltec’s NH9338ST0127C1BC (or
similar).
The connectors are SMA type (female), ‘Johnson
Components Inc.’ Product P/N: 142-0701-841 (or similar).
Both a measurement jig and a calibration jig are provided.
The calibration jig is designed for a full 2-port calibration, and
consists of an open line, short line and through line. LOAD
calibration can be done by a 50Ω SMA termination.
MEASUREMENT PROCEDURE
Follow the VNAs instruction manual and use the calibration
jig to perform a full 2-Port calibration in the required band-
widths.
Solder the filter to the measurement jig as follows:
Input ËConnector 1 (Jig) GND (Filter) ËGND (Jig)
(Filter)
Output ËConnector 2 (Jig) GND (Filter) ËGND (Jig)
(Filter)
Set the VNA to the relevant frequency band. Connect the
VNA using a 10dB attenuator on the jig terminal connected
to port 2 (using an RF cable).
TEST JIG FOR LP0402 LOW PASS FILTER
Connector 1
Connector 2
Load &
Through
Short line to
GND
Connector
Johnson
P/N 142-0701-841
Open
line
Load &
Through
Measurement Calibration Jig
4
104
LP
Style
0603
Size
0603
A
Type
A or N
XXXX
Frequency
MHz
A
Sub-Type
N
Termination
LGA
**Ni/Lead Free Solder
TR
Taped & Reeled
Thin-Film Low Pass Filter
LP0603 Lead-Free LGA Type
GENERAL DESCRIPTION
The LP0603 ITF (Integrated Thin Film) Lead-Free LGA Low
Pass Filter is based on thin-film multilayer technology. The
technology provides a miniature part with excellent high
frequency performance and rugged construction for reliable
automatic assembly.
The ITF Low Pass Filters are offered in a variety of frequency
bands compatible with various types of high frequency
wireless systems.
FEATURES
• Miniature Size: 0603
• Frequency Range: 900MHz-5.5HGz
• Characteristic Impedance: 50 Ohm
• Operating/Storage Temperature: -40°C to +85°C
• Power Rating: 3W Continuous
• Low Profile
• Rugged Construction
• Lead Free
• Taped and Reeled
APPLICATIONS
• Mobile communications
• Satellite TV receivers
• GPS
• Vehicle location systems
• Wireless LANs
• RFID
LAND GRID ARRAY ADVANTAGES
• Inherent Low Profile
• Self Alignment during Reflow
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
FINAL QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics. Each production lot is evaluated on a
sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/Lead-Free Solder coating compatible with automatic
soldering technologies: reflow, wave soldering, vapor phase
and manual.
HOW TO ORDER
LEAD-FREE COMPATIBLE
COMPONENT
**RoHS compliant
4
105
DIMENSIONS: millimeters (inches)
(Bottom View)
L1.6±0.1
(0.063±0.004)
W0.84±0.1
(0.033±0.004)
T0.60±0.1
(0.024±0.004)
A0.25±0.05
(0.010±0.002)
B0.20±0.05
(0.008±0.002)
S0.05±0.05
(0.002±0.002)
TERMINALS AND ORIENTATION IN TAPE
(Top View)
RECOMMENDED PAD LAYOUT (mm)
Thin-Film Low Pass Filter
LP0603 Lead-Free LGA Type
L
T
S
W
B
A
1.75 (0.069)
0.50
(0.020)
0.40
(0.016)
1.10
(0.043)
OUT GND
GND
IN
OUT GND
GND
IN
ELECTRICAL CHARACTERISTICS
(Guaranteed over –40°C to +85°C Operating Temperature Range)
P/N Frequency I. Loss VSWR Attentuation
Band [MHz] [dB] max typ.
[dB] [dB]
LP0603A0902ANTR 890-915 0.35 typ 1.4 25 @ 2xF0
(0.5 max) 14 @ 3xF0
LP0603A0947ANTR 935-960 0.35 typ 1.4 25 @ 2xF0
(0.5 max) 17 @ 3xF0
LP0603A1747ANTR 1710-1785 0.3 typ 1.4 25 @ 2xF0
(0.5 max) 17 @ 3xF0
LP0603A1842ANTR 1805-1880 0.3 typ 1.4 27 @ 2xF0
(0.5 max) 15 @ 3xF0
LP0603A1880ANTR 1840-1920 0.3 typ 1.4 25 @ 2xF0
(0.5 max) 17 @ 3xF0
LP0603A1950ANTR 1920-1980 0.3 typ 1.4 27 @ 2xF0
(0.5 max) 15 @ 3xF0
LP0603A2140ANTR 2110-2170 0.3 typ 1.4 27 @ 2xF0
(0.5 max) 17 @ 3xF0
LP0603A2442ANTR 2412-2472 0.3 typ 1.4 25 @ 2xF0
(0.5 max) 17 @ 3xF0
LP0603N3500ANTR 3400-3600 -0.3 typ. 1.4 30 @ 2xF0
-0.5 max. 20 @ 3xF0
LP0603N5200ANTR 5050-5350 -0.2 typ. 1.4 30 @ 2xF0
-0.5 max. 20 @ 3xF0
LP0603N5500ANTR 5350-5650 -0.2 typ. 1.4 30 @ 2xF0
-0.5 max. 20 @ 3xF0
NOTE: Additional Frequencies Available Upon Request
4
106
Thin-Film Low Pass Filter
LP0603 Lead-Free LGA Type
-50
-38
-25
-13
0
0 0.25 0.50 0.75 1.00 1.25 1.50 1.75 2.00 2.25 2.50 2.75 3.00 3.25 3.50 3.75 4.00
S21
S11
(dB)
Frequency (GHz)
F0
2F0
3F0
-50
-38
-25
-13
0
0 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00 8.50 9.00
S21
S11
(dB)
Frequency (GHz)
2F0
F0
3F0
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
0 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00
S21
S11
(dB)
Frequency (GHz)
2F0
F0
3F0
-50
-38
-25
-13
0
0 0.25 0.50 0.75 1.00 1.25 1.50 1.75 2.00 2.25 2.50 2.75 3.00 3.25 3.50 3.75 4.00
S21
S11
(dB)
Frequency (GHz)
2F0
3F0
F0
-50
-38
-25
-13
0
0 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00
S21
S11
(dB)
Frequency (GHz)
2F0
F0
3F0
-50
-38
-25
-13
0
0 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00
S21
S11
(dB)
Frequency (GHz)
2F0
F0
3F0
LP0603A0902ANTR LP0603A0947ANTR
LP0603A1747ANTR LP0603A1842ANTR
LP0603A1880ANTR LP0603A1950ANTR
4
107
Thin-Film Low Pass Filter
LP0603 Lead-Free LGA Type
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
0 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00
S21
S11
(dB)
Frequency (GHz)
2F0
F0
3F0
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
0 1 2 3 4 5 6 7 8 9 10 11 12 13
S21
S11
(dB)
Frequency (GHz)
2F0
F0
3F0
0 1 2 3 4 5 6 7 8 9 10 11 12 13
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
S21
S11
(dB)
Frequency (GHz)
2F0
F0
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
0 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00 8.50 9.00 9.50 10.00
S21
S11
(dB)
Frequency (GHz)
2F0
F0
3F0
0 1 2 3 4 5 6 7 8 9 10 11 12 13
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
S21
S11
(dB)
Frequency (GHz)
2F0
F0
LP0603A2140ANTR LP0603A2442ANTR
LP0603N3500ANTR LP0603N5200ANTR
LP0603N5500ANTR
4
108
GENERAL DESCRIPTION
These jigs are designed for testing the LP0603 LGA Low
Pass Filters using a Vector Network Analyzer.
They consist of a dielectric substrate, having 50Ωmicrostrips
as conducting lines and a bottom ground plane located at a
distance of 0.127mm from the microstrips.
The substrate used is Neltec’s NH9338ST0127C1BC (or
similar).
The connectors are SMA type (female), ‘Johnson
Components Inc.’ Product P/N: 142-0701-841 (or similar).
Both a measurement jig and a calibration jig are provided.
The calibration jig is designed for a full 2-port calibration, and
consists of an open line, short line and through line. LOAD
calibration can be done by a 50ΩSMA termination.
MEASUREMENT PROCEDURE
Follow the VNAs instruction manual and use the calibration
jig to perform a full 2-Port calibration in the required band-
widths.
Solder the filter to the measurement jig as follows:
Input ËConnector 1 (Jig) GND (Filter) ËGND (Jig)
(Filter)
Output ËConnector 2 (Jig) GND (Filter) ËGND (Jig)
(Filter)
Set the VNA to the relevant frequency band. Connect the
VNA using a 10dB attenuator on the jig terminal connected
to port 2 (using an RF cable).
TEST JIG FOR LP0603 LEAD-FREE LGA LOW PASS FILTER
Thin-Film Low Pass Filter
LP0603 Lead-Free LGA Type Test Jig
Connector 1
Connector 2
Load &
Through
Short line to
GND
Connector
Johnson
P/N 152-0701-841
Open
line
Load &
OUT
Measurement Calibration Jig
4
109
LP
Style
Low Pass
0805A
Size
0805
0902
Frequency
MHz
AW
Termination
AW= Nickel/Solder (SnPb)
**AS = Nickel/ Lead Free
Solder (Sn100)
TR
Packaging Code
TR = Tape and Reel
Thin-Film Low Pass Filter
LP0805 Type Harmonic
GENERAL DESCRIPTION
The ITF (Integrated Thin-Film) SMD Filter is based on thin-film
multilayer technology. The technology provides a miniature
part with excellent high frequency performance and rugged
construction for reliable automatic assembly.
The ITF Filter is offered in a variety of frequency bands com-
patible with various types of high frequency wireless systems.
FEATURES
• Small Size: 0805
• Frequency Range: 800MHz - 3.5GHz
• Characteristic Impedance: 50Ω
• Operating / Storage Temp.: -40°C to +85°C
• Power Rating: 3W Continuous
• Low Profile
• Rugged Construction
• Taped and Reeled
APPLICATIONS
• Mobile Communications
• Satellite TV Receivers
• GPS
• Vehicle Location Systems
• Wireless LAN’s
PAD LAYOUT
See CP0805 pad layout on page 64.
FINAL QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual/mechanical characteristics. Each production lot is
evaluated on a sample basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR4 hours
TERMINATION
Nickel/Solder coating (Sn, Pb) compatible with automatic
soldering technologies: reflow, wave soldering, vapor phase
and manual.
DIMENSIONS: millimeters (inches)
L2.03±0.1
(0.080±0.004)
W1.55±0.1
(0.061±0.004)
T1.02±0.1
(0.040±0.004)
A0.56±0.25
(0.022±0.010)
B0.35±0.15
(0.014±0.006)
HOW TO ORDER
TERMINALS AND LAYOUT (Top View)
Orientation in Tape
IN GND
TYPE A TYPE D TYPE E TYPE F (Sn100)
OUT
IN
OUT
GND
GND IN
OUT
GND
GND IN
OUT
GND
GND
GND
MARKING
CODE
A
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
**RoHS compliant
For RoHS compliant products,
please select correct termination style.
4
110
Thin-Film Low Pass Filter
LP0805 Type Harmonic
ELECTRICAL CHARACTERISTICS
Application Part Frequency I. Loss VSWR Attenuation Layout Type Layout Type F
Number Band (MHz) max max (dB) Typical (SnPb) Marking Code
E-GSM
LP0805A0897AS
880 - 915 A E
LP0805A0942AS
925 - 960 A F
LP0805A0902AS
890 - 915 A E
GSM
LP0805A0947AS
935 - 960 A F
LP0805A1119AS
1101 - 1137 A H
AMPS
LP0805A0836AS
824 - 849 A A
LP0805A0881AS
869 - 894 A C
PCN
LP0805A1747AS
1710 - 1785 0.4dB 1.7 30 @ 2XFo D I
LP0805A1842AS
1805 - 1880 (0.3dB typ) 20 @ 3xFo D J
PCS
LP0805A1880AS
1850 - 1910 D K
LP0805A1960AS
1930 - 1990 D M
PHP
LP0805A1907AS
1895 - 1920 D L
DECT
LP0805A1890AS
1880 - 1900 D K
3G
LP0805A2150AS
1905 - 2180 D N
Wireless LAN
LP0805A2442AS
2400 - 2484 D S
WLL
LP0805A3500AS
3400 ~ 3600 E X
Typical Electrical Performance
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 2 4 6 8 1 3 5 7 109
Frequency (GHz)
dB
LP0805A1950ASTR
Fo
2Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 0.5 1 1.5 2 2.5 3 3.5 4
Frequency (GHz)
dB
LP0805A1119ASTR
Fo
2Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 1 2 3 4 5 6 7 8 9 10
Frequency (GHz)
dB
LP0805A2150ASTR
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 2 4 6 8 1 3 5 7 109
Frequency (GHz)
dB
LP0805A2442ASTR
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 2 4 6 8 1 3 5 7 10 9 11 1312
Frequency (GHz)
dB
LP0805A3500ASTR
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 2 4 6 8 1 3 5 7 109
Frequency (GHz)
dB
LP0805A1747ASTR
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 1 2 3 4 0.5 1.5 2.5 3.5
Frequency (GHz)
dB
LP0805A0967ASTR
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 2 4 6 8 1 3 5 7 109
Frequency (GHz)
dB
LP0805A1842ASTR
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 1 2 3 40.5 1.5 2.5 3.5
Frequency (GHz)
dB
LP0805A0836ASTR
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 1 2 3 4 0.5 1.5 2.5 3.5
Frequency (GHz)
dB
LP0805A0881ASTR
2Fo
Fo
3Fo
0
-10
-20
-30
-40
-50
-60
-70
0 1 2 3 40.5 1.5 2.5 3.5
Frequency (GHz)
dB
LP0805A0902ASTR
4
111
Thin-Film Low Pass Filter
LP0805 Test Jig
GENERAL DESCRIPTION
These jigs are designed for testing the LPF0805 Low Pass
Filters using a Vector Network Analyzer.
They consist of a dielectric substrate, having 50W microstrips
as conducting lines and a bottom ground plane located at a
distance of 0.254 mm from the microstrips.
The substrate used is RF-35-0100-C1B107 (or similar).
The connectors are SMA type (female), ‘Johnson
Components Inc.’ Product P/N: 142-0701-841(or similar).
Both a measurement jig and a calibration jig are provided.
The calibration jig is designed for a full 2-port calibration, and
consists of an open line, short line and through line. LOAD
calibration can be done by a 50W SMA termination.
MEASUREMENT PROCEDURE
Follow the VNAs instruction manual and use the calibration
jig to perform a full 2-Port calibration in the required band-
widths.
Solder the filter to the measurement jig as follows:
Input ËConnector 1 (Jig) GND (Filter) ËGND (Jig)
(Filter)
Output ËConnector 2 (Jig) GND (Filter) ËGND (Jig)
(Filter)
Set the VNA to the relevant frequency band. Connect the
VNA using a 10dB attenuator on the jig terminal connected
to port 2 (using an RF cable).
ITF TEST JIG FOR LOW PASS FILTER 0805
Connector 1
Connector 2
Load
Through
Load
Through
Short line to
GND
Connector
Johnson
P/N 142-0701-841
Open
line
Measurement Calibration Jig
4
112
4
ITF TECHNOLOGY
The ITF LGA Filter is based on thin-film multilayer technology. The
technology provides a miniature part with excellent high frequency
performance and rugged construction for reliable automatic assembly.
The ITF Filter is offered in a variety of frequency bands compatible
with various types of high frequency wireless systems.
FINAL QUALITY INSPECTION
Finished parts are 100% tested for electrical para-
meters and visual/mechanical characteristics.
Each production lot is evaluated on a sample
basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/ Lead free Solder coating (Sn100)
compatible with automatic soldering technologies:
reflow, wave soldering, vapor phase and manual.
POWER RATING
3W RF Continuous
LP 1206 A
Type
XXXX
Frequency
(MHz)
B
Sub-
Type
N
Termination
TR
Taped &
Reeled
HOW TO ORDER
High Performance Harmonic
Low Pass Filter
LP1206A0512BNTR
FEATURES
• Small size: 1206
• Frequency: 512MHz
• Characteristic impedance: 50Ω
• Operating/Storage temp: -40°C to +85°C
• Low profile
• Rugged construction
• Taped and reeled
• RoHS compliant
APPLICATIONS
• Mobile communications
• Satellite TV receivers
• GPS
• Vehicle location systems
• Wireless LAN’s
L
T
S
W
BH
A
DIMENSIONS (Bottom View) mm (inches)
L3.10±0.10
(0.122±0.004)
W1.60±0.10
(0.063±0.004)
T0.60±0.30
(0.024±0.012)
A0.39±0.10
0.015±0.004
B0.33±0.10
0.013±0.004
H, S 0.05±0.05
(0.002±0.002)
0.80
(0.031)
0.70
(0.028)
0.60
(0.024)
1.80
(0.071)
Orientation
Marking
IN
OUT
GND
GND
Recommended Pad Layout Dimensions mm (inches)
TERMINALS (Top View)
IN
OUT GND
GND
ORIENTATION IN TAPE
113
101515
4
Parameter Value Unit Notes
Fc 512 MHz
Rejection @ 900MHz -35 dB Min. (720MHz to 2GHz)
Insertion Loss 0.8 dB Max.
VSWR 2.3: 1 Max. (all ports)
Power Handling 3 W Continuous
Impedance 50 Ohm
Operating Temp. -40 to +85 ºC
Size 1206
High Performance Harmonic
Low Pass Filter
LP1206A0512BNTR
TERMINALS (Top View)
TYPICAL ELECTRICAL PERFORMANCE
0
-10
-20
-30
-40
-50
-60
-70
-80
Frequency (MHz)
S11 (dB)
S12 (dB)
100 500 900 1300 1700 2100 2500
m1
m2
m1 freq = 512 MHz
S21 = -0.78 dB
m2 freq = 720 MHz
S21 = -39 dB
114 101515
4
ITF TECHNOLOGY
The ITF LGA Filter is based on thin-film multilayer technology. The
technology provides a miniature part with excellent high frequency
performance and rugged construction for reliable automatic assembly.
The ITF Filter is offered in a variety of frequency bands compatible
with various types of high frequency wireless systems.
LP 1206 A
Type
XXXX
Frequency
(MHz)
A
Sub-
Type
N
Termination
TR
Taped &
Reeled
HOW TO ORDER
High Performance Low Pass Filter
LP1206A0700ANTR
FEATURES
• Small size: 1206
• Frequency: 700MHz
• Characteristic impedance: 50Ω
• Operating/Storage temp: -40°C to +85°C
• Low profile
• Rugged construction
• Taped and reeled
• RoHS compliant
APPLICATIONS
• Mobile communications
• Satellite TV receivers
• GPS
• Vehicle location systems
• Wireless LAN’s
L
T
S
W
BH
A
DIMENSIONS (Bottom View) mm (inches)
L3.10±0.10
(0.122±0.004)
W1.60±0.10
(0.063±0.004)
T0.60±0.30
(0.024±0.012)
A0.39±0.10
0.015±0.004
B0.33±0.10
0.013±0.004
H, S 0.05±0.05
(0.002±0.002)
0.80
(0.031)
0.70
(0.028)
0.60
(0.024)
1.80
(0.071)
Orientation
Marking
IN
OUT
GND
GND
Recommended Pad Layout Dimensions mm (inches)
TERMINALS (Top View)
FINAL QUALITY INSPECTION
Finished parts are 100% tested for electrical para-
meters and visual/mechanical characteristics.
Each production lot is evaluated on a sample
basis for:
• Static Humidity: 85°C, 85% RH, 160 hours
• Endurance: 125°C, IR, 4 hours
TERMINATION
Nickel/ Lead free Solder coating (Sn100)
compatible with automatic soldering technologies:
reflow, wave soldering, vapor phase and manual.
POWER RATING
3W RF Continuous
IN
OUT GND
GND
ORIENTATION IN TAPE
115
101515
4
116 101515
Parameter Value Unit Notes
Fc 700 MHz
Rejection @ 900MHz -35 dB Min. (900MHz to 2GHz)
Insertion Loss 0.9 dB Max.
VSWR 2.3: 1 Max. (all ports)
Power Handling 3 W Continuous
Impedance 50 Ohm
Operating Temp. -40 to +85 ºC
Size 1206
High Performance Low Pass Filter
LP1206A0700ANTR
TERMINALS (Top View)
TYPICAL ELECTRICAL PERFORMANCE
0
-10
-20
-30
-40
-50
0 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2
Frequency (GHz)
m1: Frequency = 700.0MHz
S21 = -0.8dB
m2: Frequency = 900.0MHz
S21 = -39.5dB
S11 (dB)
S21 (dB)
m1
m2
117
Thin-Film RF/Microwave
Products Designer Kits
Accu-P®/Accu-L®Kits
117
Volts Capacitors Tolerance
Value (pF)
0.05 Z
0.10 Z
0.15 Z
0.20 Z
100 0.25 Z
0.30 Z
0.35 Z
0.40 Z
0.45 Z
0.50 Z
0.55 P
0.60 P
0.65 P
0.70 P
0.75 P
0.80 P
0.85 P
0.90 P
50 0.95 P
1.0 P
1.1 P
1.2 P
1.3 P
1.4 P
1.5 P
1.6 P
1.7 P
1.8 P
25 1.9 P
2.0 P
600 Capacitors, 20 each of 30 values
Tolerance Z = ± 0.01pF
P = ± 0.02pF
Accu-P
®
Designer Kit Type 2800LF
Order Number: Accu-P
®
0201KITL5
Volts Capacitors Tolerance
Value (pF)
0.05 Z
0.10 Z
0.15 Z
0.20 Z
0.25 Z
0.30 Z
0.35 Z
0.40 Z
0.45 Z
0.50 Z
0.55 P
0.60 P
0.65 P
100 0.70 P
0.75 P
0.80 P
0.85 P
0.90 P
0.95 P
1.0 P
1.1 P
1.2 P
1.3 P
1.4 P
1.5 P
1.6 P
1.7 P
1.8 P
50 1.9 P
2.0 P
600 Capacitors, 20 each of 30 values
Tolerance Z = ± 0.01pF
P = ± 0.02pF
Accu-P
®
Designer Kit Type 2700LF
Order Number: Accu-P
®
0402KITL4
RF/Microwave Thin-Film Products
Designer Kits (Special Kits Available Upon Request)
Volts Capacitors Tolerance
Value (pF)
1.0 A
1.1 A
1.2 A
50 1.3 A
1.4 A
1.5 A
1.6 A
1.7 A
1.8 A
1.9 A
2.0 A
2.1 B
2.2 B
2.3 B
2.4 B
2.5 B
2.6 B
2.7 B
25 2.8 B
2.9 B
3.0 B
3.1 B
3.3 B
3.4 B
3.6 B
3.9 B
4.1 B
4.3 B
4.5 B
4.7 B
300 Capacitors, 10 each of 30 values
Tolerance A = ± 0.05pF G = ± 2%
B = ± 0.1pF J = ±5%
600 Capacitors, 20 each of 30 values
Tolerance P = ± 0.02pF A = ± 0.05pF
B = ± 0.1pF G = ± 2%
Volts Capacitors Tolerance
Value (pF)
0.1 P
0.2 P
100 0.3 P
0.4 P
0.5 P
0.6 P
0.7 P
0.8 P
0.9 P
50 1.0 P
1.1 A
1.2 A
1.3 A
1.5 A
1.8 A
2.0 B
2.2 B
2.4 B
2.7 B
3.0 B
25 3.3 B
3.6 B
3.9 B
4.7 B
5.6 B
6.8 B
7.5 B
16 8.2 B
10.0 G
12.0 G
Accu-P
®
Designer Kit Type 1700LF
Order Number: Accu-P
®
0201KITL2
Accu-P
®
Designer Kit Type 1800LF
Order Number: Accu-P
®
0201KITL3
Volts Capacitors Tolerance
Value (pF)
0.1 P
0.2 P
0.3 P
0.4 P
0.5 P
0.6 P
100 0.7 P
0.8 P
0.9 P
1.0 P
1.1 A
1.2 A
1.5 A
1.8 A
2.0 A
2.2 B
2.4 B
2.7 B
3.0 B
50 3.3 B
3.9 B
4.7 B
5.6 B
6.8 B
8.2 B
10.0 G
25 12.0 G
15.0 G
18.0 G
16 22.0 G
Accu-P
®
Designer Kit Type 1300LF
Order Number: Accu-P
®
0402KITL1
600 Capacitors, 20 each of 30 values
Tolerance P = 0.02pF A = ± 0.05pF
B = ± 0.1pF G = ± 2%
600 Capacitors, 20 each of 30 values
Tolerance A = ± 0.05pF
B = ± 0.1pF
Volts Capacitors Tolerance
Value (pF)
0.1 A
0.2 A
0.3 A
0.4 B
0.5 B
0.6 B
0.7 B
0.8 B
0.9 B
1.0 B
100 1.1 B
1.2 B
1.5 B
1.8 B
2.0 B
2.2 B
2.4 B
2.7 B
3.0 B
3.3 B
3.9 B
4.7 B
5.6 B
6.8 B
50 8.2 B
10.0 G
12.0 G
15.0 G
18.0 G
25 22.0 G
Volts Capacitors Tolerance
Value (pF)
1.0 A
1.1 A
1.2 A
1.3 A
100 1.4 A
1.5 A
1.6 A
1.7 A
1.8 A
1.9 A
2.0 A
2.1 B
2.2 B
2.3 B
2.4 B
2.5 B
2.6 B
2.7 B
50 2.8 B
2.9 B
3.0 B
3.1 B
3.3 B
3.4 B
3.6 B
3.9 B
4.1 B
4.3 B
4.5 B
4.7 B
Accu-P
®
Designer Kit Type 1400LF
Order Number: Accu-P
®
0402KITL2
Accu-P
®
Designer Kit Type 900LF
Order Number: Accu-P
®
0603KITL1
Volts Capacitors Tolerance
Value (pF)
0.1 A
0.2 A
0.3 A
0.4 A
0.5 B
0.7 B
0.8 B
0.9 B
1.0 B
1.2 B
100 1.5 B
1.8 B
2.0 B
2.2 B
2.7 B
3.3 B
3.9 B
4.7 B
5.6 B
6.8 B
8.2 B
10.0 G
12.0 G
15.0 G
18.0 G
22.0 G
50 27.0 J
33.0 J
39.0 J
47.0 J
Accu-P
®
Designer Kit Type 800LF
Order Number: Accu-P
®
0805KITL2
600 Capacitors, 20 each of 30 values
Tolerance A = ± 0.05pF
B = ± 0.1pF
600 Capacitors, 20 each of 30 values
Tolerance A = ± 0.05pF
B = ± 0.1pF
G = ± 2%
5
118
RF/Microwave Thin-Film Products
Designer Kits (Special Kits Available Upon Request)
300 Capacitors, 20 each of 15 values
Tolerance P= ± 0.02pF
Inductance
Value (nH) Tolerance
1.2
C
1.5
C
1.8
C
2.2
C
2.7
C
3.3
C
3.9
C
4.7
C
5.6
C
6.8
C
8.2
C
10
G
12
G
15
G
280 Inductors, 20 each of 14 values
Tolerance C = ±0.2nH
G = ±2%
Accu-L®
Designer Kit Type 1600LF
Order Number: Accu-L®0603KITL2
Accu-L® 0201
Designer Kit Type 3200
Order Number: Accu-L®0201KIT1
Inductance
Value (nH) Tolerance
0.33
A
0.39
A
0.47
A
0.56
A
0.68
A
0.82
A
1.0
A
1.2
A
1.5
B
1.8
B
2.2
B
2.7
B
3.3
B
260 Inductors, 20 each of 13 values
Tolerance A = ±0.05nH
B = ±0.1nH
Accu-L®
Designer Kit Type 2500
Order Number: Accu-L®L0402KIT01
Inductance
Value (nH) Tolerance
0.82
A
1.0
A
1.2
A
1.5
A
1.8
A
2.2
A
2.7
A
3.3
B
3.9
B
4.7
B
5.6
B
6.8
B
240 Inductors, 20 each of 12 values
Tolerance A = ±0.05nH
B = ±0.1nH
Inductance
Value (nH) Tolerance
1.8 C
2.2 C
2.7 C
3.3 C
3.9 C
4.7 C
5.6 C
6.8 D
8.2 D
10.0 J
12.0 J
15.0 J
18.0 J
22.0 J
Accu-L®
Designer Kit Type 1100LF
Order Number: Accu-L®0805KITL2
280 Inductors, 20 each of 14 values
Tolerance C = ±0.2nH
D = ±0.5nH
J = ±5%
150 Capacitors, 10 each of 15 values
Tolerance B = ± 0.1pF
G = ± 2%
Accu-P®
Designer Kit Type 2200LF
Order Number: Accu-P®0603KITL2
Volts Capacitors Tolerance
Value (pF)
0.05 P
0.10 P
0.15 P
0.20 P
0.25 P
0.30 P
0.35 P
100 0.40 P
0.45 P
0.50 P
0.55 P
0.60 P
0.65 P
0.70 P
0.75 P
Accu-P®
Designer Kit Type 700
Order Number: Accu-P®1210KIT02
Volts Capacitors Tolerance
Value (pF)
1.0 B
1.5 B
1.8 B
2.2 B
2.7 B
3.3 B
4.7 B
100 5.6 B
6.8 B
10.0 G
12.0 G
18.0 G
22.0 G
27.0 G
33.0 G
7500 Capacitors, 500 each of 15 values
Tolerance P = ± 0.02pF
Q = ± 0.03pF
Accu-P®01005
Designer Kit Type 3100LF
Order Number: Accu-P®C005KITL1
Volts Capacitors Tolerance
Value (pF)
0.05 P
0.1 P
0.2 P
0.3 P
0.4 P
0.5 P
0.6 P
16 0.7 P
0.8 P
0.9 P
1.0 Q
1.2 Q
1.5 Q
1.8 Q
2.2 Q
5
119
Multilayer Organic (MLOTM)
Technology
MLOTM Capacitors
MLOTM Diplexers
MLOTM Inductors
MLOTM SMT Crossovers
120
ML
AVX Style
03
Case Size
03 = 0603
7
Voltage
Code
5 = 50V
V = 250V
7 = 500V
1 1R8 P A
Failure Rate
Code
A = Not
Applicable
T2A
Multi-Layer Organic Capacitors
HOW TO ORDER
Temperature
Coefficient Code
1 = 0±30ppm
Termination Style
Code
T = Ni, Sin
Capacitance
Tolerance Code
P = ± 0.02 pF
A = ± .05 pF
B = ±.10 pF
C = ±.25 pF
D = ±.5 pF
F = ±1%
G = ±2%
J = ±5%
Capacitance
EIA Capacitance Code in pF.
First two digits = significant
figures or “R” for decimal
place.
Third digit = number of zeros
or after “R” significant figures.
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481
(equivalent to IEC 286 part 3).
—8mm carrier
—7" reel, 3,000 pcs per reel
Packaging Code
2A = 7" Reel Unmarked
Case Length (L) Width (W) Thickness (T) Band Width (B) Castellation Radius (R)
0603 0.063 ± 0.004 0.033 ± 0.004 0.025 ± 0.004 0.015 ± 0.005 0.008 ± 0.002
(1.600 ± 0.102) (0.838 ± 0.102) (0.635 ± 0.102) (0.381 ± 0.127) (0.203 ± 0.051)
MECHANICAL DIMENSIONS: inches (millimeters)
FEATURES
• Low ESR
• Hi-Q®
• High Self Resonance
• Tight Tolerance
• Low Dielectric Absorption
(0.0015%)
APPLICATIONS
• RF Power Amplifiers
• Low Noise Amplifiers
• Filter Networks
• Instrumentation
W
L
B
R
T
Based on its patented multilayer low loss organic (MLOTM) technology. These new
capacitors represent a paradigm shift from traditional ceramic and thin film passive
SMD components. Multilayer Organic Capacitors (MLOC) are polymer based
capacitors that use high conductivity copper interconnects in a multilayer fashion.
The ability to fabricate these components on large area substrates and state of the
art laser direct imaging allow for improved cost benefits and tolerance control. The
end result is a state of the art low ESR and high SRF low profile RF capacitor that can
support frequencies well above one GHz. Additionally MLOCs are expansion
matched to printed circuit boards to allow for improved reliability.
LEAD-FREE COMPATIBLE
COMPONENT
6
121
6
Multi-Layer Organic Capacitors
MECHANICAL SPECIFICATIONS
TEST CONDITIONS REQUIREMENT
Life (Endurance) MIL-STD-202F 125°C, 2UR, 1000 hours No visible damage C/C ≤2% for C≥5pF
Method 108A C/C ≤0.25pF for C<5pF
Accelerated Damp Heat Steady 85°C, 85% RH, UR, 1000 hours No visible damage C/C ≤2% for C≥5pF
State MIL-STD-202F Method 103B C/C ≤0.25pF for C<5pF
Temperature Cycling –55°C to +125°C, 15 cycles – MLOTM No visible damage C/C ≤2% for C≥5pF
MIL-STD-202F Method 107E C/C ≤0.25pF for C<5pF
MIL-STD-883D Method 1010.7
Resistance to Solder Heat 260°C ± 5°C for 10 secs. C remains within initial limits
IEC-68-2-58
ENVIRONMENTAL CHARACTERISTICS
TABLE I: CASE SIZE ML03
Cap. pF Cap. Tol. WVDC
0.1 P, A, B 50, 250, 500
0.2 P, A, B 50, 250, 500
0.3 P, A, B 50, 250, 500
0.4 P, A, B 50, 250, 500
0.5 P, A, B, C 50, 250, 500
0.6 P, A, B, C 50, 250, 500
0.7 P, A, B, C 50, 250, 500
0.8 P, A, B, C 50, 250, 500
0.9 P, A, B, C 50, 250, 500
1.0 P, A, B, C 50, 250, 500
1.1 P, A, B, C 50, 250, 500
1.2 P, A, B, C 50, 250, 500
Cap. pF Cap. Tol. WVDC
1.3 P, A, B, C 50, 250, 500
1.4 P, A, B, C 50, 250, 500
1.5 P, A, B, C 50, 250, 500
1.6 P, A, B, C 50, 250, 500
1.7 P, A, B, C 50, 250, 500
1.8 P, A, B, C 50, 250, 500
1.9 P, A, B, C 50, 250, 500
2.0 P, A, B, C 50, 250, 500
2.2 P, A, B, C 50, 250, 500
2.4 P, A, B, C 50, 250, 500
2.5 P, A, B, C 50, 250, 500
2.7 P, A, B, C 50, 250
Cap. pF Cap. Tol. WVDC
3.0 P, A, B, C 50, 250
3.3 P, A, B, C 50, 250
3.6 P, A, B, C 50, 250
3.9 P, A, B, C 50, 250
TEST CONDITIONS REQUIREMENT
Solderability IEC-68-2-58 Components completely immersed in Terminations to be well tinned, minimum 95%
a solder bath at 235°C for 2 secs. coverage
Leach Resistance IEC-68-2-58 Components completely immersed in Dissolution of termination faces ≤15% of area
a solder bath at 260±5°C for 60 secs. Dissolution of termination edges ≤25% of
length
Adhesion MIL-STD-202F A force of 5N applied for 10 secs. No visible damage
Method 211A
Termination Bond Strength Tested as shown in diagram No visible damage C/C ≤2% for C≥5pF
IEC-68-2-21 Amend. 2 C/C ≤0.25pF for C<5pF
Robustness of Termination A force of 5N applied for 10 secs. No visible damage
IEC-68-2-21 Amend. 2
Storage 12 months minimum with components Good solderability
stored in “as received” packaging
Life (Endurance) 125°C, 2UR, 1000 hours
Accelerated Damp 85°C, 85% RH, UR,
Heat Steady State 1000 hours.
QUALITY & RELIABILITY
MLOTM capacitors utilize high density interconnect wiring
technology on well established low loss organic materials.
FINAL QUALITY INSPECTION
Finished parts are tested for standard electrical parameters
and visual/mechanical characteristics. Each production lot
is 100% evaluated for: capacitance and proof voltage at
2.5 UR. In addition, production is periodically evaluated for:
• Average capacitance with histogram printout for
capacitance distribution;
• IR and Breakdown Voltage distribution;
• Temperature Coefficient;
• Solderability;
• Dimensional, mechanical and temperature stability.
QUALITY ASSURANCE
The reliability of these multilayer organic capacitors has
been extensively studied. Various methods and standards
have been used to ensure a high quality component
including JEDEC, Mil Spec and IPC testing. AVX’s quality
assurance policy is based on well established international
industry standards. The reliability of the capacitors is
determined by accelerated testing under the following
conditions:
122
Multi-Layer Organic Capacitors
0.01
0.10
1.00
10.00
0.00 0.20 0.40 0.60 0.80 1.00 1.20 1.40 1.60 1.80 2.00
Ohm
GHz
0.4 pF
0.7 pF
0.9 pF
1.7 pF
2.2 pF
1.4 pF
Typical ESR vs. Frequency
OPC 0603
2.5 pF
2.0 pF
1.5 pF
0.5pF
1.0pF
10000
1000
100
10
1
0.1
-1 1
Frequency (GHz)
Q
10
Typical ESR vs. Frequency
MLOTM 0603
Typical Q vs. Frequency
MLOTM 0603
6
123
6
124
Multi-Layer Organic Capacitors
1000
10
1
0.1 1 10
GHz
pF
Typical Self Resonant Frequency vs Capacitance
OPC 0603
Typical Self Resonant Frequency vs. Capacitance
MLOTM 0603
6
125
APPLICATIONS
Multiband applications including
WiFi, WiMax, GPS, and cellular
bands
LAND GRID ARRAY
ADVANTAGES
• Inherent Low Profile
• Excellent Solderability
• Low Parasitics
• High Heat Dissipation
Multilayer Organic (MLOTM)
0603 WLAN/BT Diplexer
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters
and visual characteristics.
OPERATING TEMPERATURE
-40ºC to +85ºC
TERMINATION
Finishes available in Ni Au, Ni Sn and OSP coatings
which are compatible with automatic soldering
technologies which include reflow, wave soldering, vapor
phase and manual. PART NUMBER: DP03B54257TR
No. Parameter Freq. (MHz) Port Specification Typ. value Unit
1Insertion 2400-2496 Low 0.55 max 0.40 dB
2Loss 4900-5950 High 1.2 max 0.80 dB
3Attenuation 500-2700 High 28 min 35 dB
4 9800-11900 High 10 min 14 dB
6 4800-4992 Low 20 min 25 dB
7 Attenuation 4900-5950 Low 23 min 27 dB
8 7200-7500 Low 26 min 30 dB
9Isolation 500-2700 Low-High 28 min 35 dB
10 4900-5950 Low-High 22 min 25 dB
11 VSWR 2400-2500 Ant 2.0 max 1.5 -
12 VSWR 4900-5950 Ant 2.0 max 1.3 -
13 VSWR 2400-2500 Low 2.0 max 1.5 -
14 VSWR 4900-5950 High 2.0 max 1.3 -
Size [mm(inches)] 1.65 x 0.88 (0.065 x 0.035)
Height [mm(inches)] 0.42 (0.017)
Volume (mm^3) 0.77
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
Terminal No. Terminal Name
1GND
2 Common
3GND
4 Low Frequency Port
5GND
6 High Frequency Port
POWER CAPACITY
4.5W Maximum
B
Design
5425
Frequency
(MHz)
7
Finish
7 = Au
T = NiSn
HOW TO ORDER
DP
Type
03
Size
ORIENTATION IN TAPE
Top View
TR
Packaging
Tape & Reel
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
65 4
12 3
Bottom View Side View
0.45±0.10
(0.018±0.004)
Unit: mm (inches)
0.30±0.10
(0.012±0.004)
0.23±0.10
(0.009±0.004)
0.06±0.10
(0.002±0.004)
0.15±0.02
(0.006±0.001)
1.65±0.20
(0.065±0.008)
0.88±0.20
(0.035±0.008)
0.61±0.05
(0.024±0.002)
0.46±0.10
(0.018±0.004)
0.51±0.05
(0.020±0.002)
0.45±0.10
(0.018±0.004)
COMPONENT DIMENSIONS AND FUNCTIONS
Mechanical Characteristics @ 25ºC
Electrical Characteristics @ 25ºC
MLOTM TECHNOLOGY
The 0603 diplexer is a best in class low profile
multilayer organic passive device that is based
on AVX’s patented multilayer organic high density
interconnect technology. The MLO™ diplexer
uses high dielectric constant and low loss
materials to realize high Q passive printed
elements such as inductors, and capacitors in a
multilayer stack up. The MLO™ diplexers can
support multiple wireless standards such as
WCDMA, CDMA, WLAN, GSM, and BT. These
diplexers are less than 0.5mm in height and are
ideally suited for band switching for dual band
systems. All diplexers are expansion matched to
printed circuit boards thereby resulting in
improved reliability vs. ceramic and Si
components.
6
126
Multilayer Organic (MLOTM)
0603 WLAN/BT Diplexer
S PARAMETER MEASUREMENTS
LOW BAND PORT ATTENUATION HIGH BAND PORT ATTENUATION
LOW BAND INSERTION LOSS HIGH BAND INSERTION LOSS
Low Band Attenuation
Frequency Attenuation
4.800 GHz 25.302
4.992 GHz 29.935
4.900 GHz 27.471
5.400 GHz 32.647
5.590 GHz 26.099
7.200 GHz 34.531
7.488 GHz 26.860
High Band Attenuation
Frequency Attenuation
0.500 GHz 35.133
2.400 GHz 39.019
2.450 GHz 41.406
2.496 GHz 42.793
2.700 GHz 31.607
9.800 GHz 13.967
11.90 GHz 28.352
Low Band Insertion Loss
Frequency Insertion Loss
2.400 GHz 0.404
2.450 GHz 0.418
2.496 GHz 0.420
High Band Insertion Loss
Frequency Insertion Loss
4.900 GHz 0.909
5.400 GHz 0.577
5.950 GHz 0.562
6
127
Multilayer Organic (MLOTM)
0603 WLAN/BT Diplexer
S PARAMETER MEASUREMENTS
COMMON PORT RETURN LOSS ISOLATION
LOW BAND RETURN LOSS HIGH BAND RETURN LOSS
Common Return Loss
Frequency Return Loss VSWR
2.400 GHz 14.066 1.494
2.450 GHz 14.162 1.487
2.496 GHz 14.325 1.476
4.900 GHz 12.750 1.599
5.400 GHz 24.603 1.125
5.950 GHz 21.310 1.188
Isolation
Frequency Attenuation
0.500 GHz 32.253
1.550 GHz 28.144
2.400 GHz 28.913
2.450 GHz 43.562
2.496 GHz 52.470
2.700 GHz 31.566
4.900 GHz 27.731
5.400 GHz 34.304
5.950 GHz 26.249
Low Band Return Loss
Frequency Return Loss VSWR
2.400 GHz 14.232 1.482
2.450 GHz 14.429 1.469
2.496 GHz 14.572 1.459
High Band Return Loss
Frequency Return Loss VSWR
4.900 GHz 12.587
5.400 GHz 27.577 1.087
5.950 GHz 22.533 1.161
6
128
APPLICATIONS
Multiband applications including
WiFi, WiMax, GPS, and cellular
bands
LAND GRID ARRAY
ADVANTAGES
• Inherent Low Profile
• Excellent Solderability
• Low Parasitics
• High Heat Dissipation
Multilayer Organic (MLOTM)
0603 WLAN/BT Diplexer
MLOTM TECHNOLOGY
The 0603 diplexer is a best in class low profile
multilayer organic passive device that is based
on AVX’s patented multilayer organic high density
interconnect technology. The MLO™ diplexer
uses high dielectric constant and low loss
materials to realize high Q passive printed
elements such as inductors, and capacitors in a
multilayer stack up. The MLO™ diplexers can
support multiple wireless standards such as
WCDMA, CDMA, WLAN, GSM, and BT. These
diplexers are less than 0.5mm in height and are
ideally suited for band switching for dual band
systems. All diplexers are expansion matched to
printed circuit boards thereby resulting in
improved reliability vs. ceramic and Si
components.
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters
and visual characteristics.
OPERATING TEMPERATURE
-40ºC to +85ºC
TERMINATION
Finishes available in Ni Au, Ni Sn and OSP coatings
which are compatible with automatic soldering
technologies which include reflow, wave soldering, vapor
phase and manual.
1
2
3
6
5
4
1
2
3
6
5
4
1
2
3
6
5
4
Terminal No. Terminal Name
1 Low Frequency Port
2GND
3 High Frequency Port
4GND
5 Common
6GND
POWER CAPACITY
4.5W Maximum
A
Design
5425
Frequency
(MHz)
7
Finish
7 = Au
T = NiSn
HOW TO ORDER
DP
Type
03
Size
ORIENTATION IN TAPE
Top View
TR
Packaging
Tape & Reel
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
65 4
12 3
Bottom View Side View
0.45±0.10
(0.018±0.004)
Unit: mm (inches)
0.30±0.10
(0.012±0.004)
0.23±0.10
(0.009±0.004)
0.06±0.10
(0.002±0.004)
0.15±0.02
(0.006±0.001)
1.65±0.20
(0.065±0.008)
0.88±0.20
(0.035±0.008)
0.61±0.05
(0.024±0.002)
0.46±0.10
(0.018±0.004)
0.51±0.05
(0.020±0.002)
0.45±0.10
(0.018±0.004)
COMPONENT DIMENSIONS AND FUNCTIONS
PART NUMBER: DP03A54257TR
No. Parameter Freq. (MHz) Port Specification Typ. value Unit
1Insertion 2400-2496 Low 0.55 max 0.40 dB
2Loss 4900-5950 High 1.2 max 0.80 dB
3Attenuation 500-2700 High 28 min 35 dB
4 9800-11900 High 10 min 14 dB
6 4800-4992 Low 20 min 25 dB
7 Attenuation 4900-5950 Low 23 min 27 dB
8 7200-7500 Low 26 min 30 dB
9Isolation 500-2700 Low-High 28 min 35 dB
10 4900-5950 Low-High 22 min 25 dB
11 VSWR 2400-2500 Ant 2.0 max 1.5 -
12 VSWR 4900-5950 Ant 2.0 max 1.3 -
13 VSWR 2400-2500 Low 2.0 max 1.5 -
14 VSWR 4900-5950 High 2.0 max 1.3 -
Size [mm(inches)] 1.65 x 0.88 (0.065 x 0.035)
Height [mm(inches)] 0.42 (0.017)
Volume (mm^3) 0.77
Mechanical Characteristics @ 25ºC
Electrical Characteristics @ 25ºC
6
129
Multilayer Organic (MLOTM)
0603 WLAN/BT Diplexer
S PARAMETER MEASUREMENTS
LOW BAND PORT ATTENUATION HIGH BAND PORT ATTENUATION
LOW BAND INSERTION LOSS HIGH BAND INSERTION LOSS
Low Band Attenuation
Frequency Attenuation
4.800 GHz 25.302
4.992 GHz 29.935
4.900 GHz 27.471
5.400 GHz 32.647
5.590 GHz 26.099
7.200 GHz 34.531
7.488 GHz 26.860
High Band Attenuation
Frequency Attenuation
0.500 GHz 35.133
2.400 GHz 39.019
2.450 GHz 41.406
2.496 GHz 42.793
2.700 GHz 31.607
9.800 GHz 13.967
11.90 GHz 28.352
Low Band Insertion Loss
Frequency Insertion Loss
2.400 GHz 0.404
2.450 GHz 0.418
2.496 GHz 0.420
High Band Insertion Loss
Frequency Insertion Loss
4.900 GHz 0.909
5.400 GHz 0.577
5.950 GHz 0.562
6
130
Multilayer Organic (MLOTM)
0603 WLAN/BT Diplexer
S PARAMETER MEASUREMENTS
COMMON PORT RETURN LOSS ISOLATION
LOW BAND RETURN LOSS HIGH BAND RETURN LOSS
Common Return Loss
Frequency Return Loss VSWR
2.400 GHz 14.066 1.494
2.450 GHz 14.162 1.487
2.496 GHz 14.325 1.476
4.900 GHz 12.750 1.599
5.400 GHz 24.603 1.125
5.950 GHz 21.310 1.188
Isolation
Frequency Attenuation
0.500 GHz 32.253
1.550 GHz 28.144
2.400 GHz 28.913
2.450 GHz 43.562
2.496 GHz 52.470
2.700 GHz 31.566
4.900 GHz 27.731
5.400 GHz 34.304
5.950 GHz 26.249
Low Band Return Loss
Frequency Return Loss VSWR
2.400 GHz 14.232 1.482
2.450 GHz 14.429 1.469
2.496 GHz 14.572 1.459
High Band Return Loss
Frequency Return Loss VSWR
4.900 GHz 12.587
5.400 GHz 27.577 1.087
5.950 GHz 22.533 1.161
6
131
Multilayer Organic (MLOTM)
0805 CDMA Diplexer
MLOTM TECHNOLOGY
The 0805 diplexer is a best in class low profile
multilayer organic passive device that is based
on AVX’s patented multilayer organic high
density interconnect technology. The MLOTM
diplexer uses high dielectric constant and low
loss materials to realize high Q passive printed
passive elements such as inductors and
capacitors in a multilayer stack up. The MLOTM
diplexers can support multiple wireless
standards such as WCDMA, CDMA, WLAN,
and GSM and are less than 0.6mm in
thickness. These components are ideally
suited for band switching for dual band
systems. All diplexers are expansion matched
to FR4 thereby resulting in improved reliability
over standard Si and ceramic devices.
APPLICATIONS
Multiband applications including WCDMA,
WLAN, WiMax, GPS, and cellular bands
LAND GRID ARRAY
ADVANTAGES
• Low Insertion Loss
• Excellent Solderability
• Low Parasitics
• Low Profile
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters
and visual characteristics.
OPERATING TEMPERATURE
-40ºC to +85ºC
TERMINATION
Finishes available in Ni/Sn, Immersion Sn, Immersion Au
and OSP coatings which are compatible with automatic
soldering technologies which include reflow, wave
soldering, vapor phase and manual.
PART NUMBER: DP05A19207TR
Specification @ 25ºC
Size [mm(inches)] 2.12 x 1.28 (0.083 x 0.050)
Height [mm(inches)] 0.55 (0.021)
Volume (mm^3) 1.5
Frequency Range (F1) (MHz) 859±35
Frequency Range (F2) (MHz) 1920±70
Insertion Loss (F1, at Fc) (dB) -0.4
Insertion Loss (F2, at Fc) (dB) -0.6
Attenuation (F1) at (F2) (dB) -23
Attenuation (F2) at (F1) (dB) -23
VSWR (Input @ F1) 1.4
VSWR (Input @ F2) 1.3
VSWR (Lowband @ F1) 1.4
VSWR (Highband @ F2) 1.4
A
Design
1920
Frequency
(MHz)
7
Finish
7 = Au
T = NiSn
TR
Packaging
Tape & Reel
TR = 3 Kpcs
TR/500 = 500 pcs
HOW TO ORDER
DP
Type
05
Size
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
6
5
4
1
2
3
6
5
4
1
2
3
COMPONENT DIMENSIONS AND FUNCTIONS
Terminal No. Terminal Name
1 High Frequency Port
2GND
3 Low Frequency Port
4GND
5 Common Port
6GND
POWER CAPACITY
4.5W Maximum
ORIENTATION IN TAPE
Top View
Multilayer Organic (MLOTM)
0805 CDMA Diplexer
S PARAMETER MEASUREMENTS
0
-5
-10
-15
-20
-25
-30
-35
dB(S(1,1)
dB(S(3,1)
0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6
freq, GHz
dB(S(2,3))
0
-5
-10
-15
-20
-25
-30
-35
-40
dB(S(1,1)
dB(S(2,1)
0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6
freq, GHz
-12
-14
-16
-18
-20
-22
-24
-26
-28
-30
-32
0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6
freq, GHz
Low Band
Return Loss
High Band
Return Loss
Isolation
Note: Measurements were taken using an Anritsu 4 port VNA; Diplexer was mounted on a custom evaluation board. To reduce systematic errors from the VNA, the coaxial
measurement cables, and evaluation board, a Short-Open-Load-Thru (SOLT) calibration was performed, using a custom fabricated calibration substrate. This is the most
common coaxial calibration methods.
6
132
Multilayer Organic (MLOTM)
0805 WCDMA Diplexer
MLOTM TECHNOLOGY
The 0805 diplexer is a best in class low profile
multilayer organic passive device that is based
on AVX’s patented multilayer organic high
density interconnect technology. The MLOTM
diplexer uses high dielectric constant and low
loss materials to realize high Q passive printed
passive elements such as inductors and
capacitors in a multilayer stack up. The MLOTM
diplexers can support multiple wireless
standards such as WCDMA, CDMA, WLAN,
and GSM and are less than 0.6mm in
thickness. These components are ideally
suited for band switching for dual band
systems. All diplexers are expansion matched
to FR4 thereby resulting in improved reliability
over standard Si and ceramic devices.
APPLICATIONS
Multiband applications including WCDMA,
WLAN, WiMax, GPS, and cellular bands
LAND GRID ARRAY
ADVANTAGES
• Low Insertion Loss
• Excellent Solderability
• Low Parasitics
• Low Profile
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters
and visual characteristics.
OPERATING TEMPERATURE
-40ºC to +85ºC
TERMINATION
Finishes available in Ni/Sn, Immersion Sn, Immersion Au
and OSP coatings which are compatible with automatic
soldering technologies which include reflow, wave
soldering, vapor phase and manual.
PART NUMBER: DP05A19407TR
Specification @ 25ºC
Size [mm(inches)] 2.12 x 1.28 (0.083 x 0.050)
Height [mm(inches)] 0.55 (0.021)
Volume (mm^3) 1.5
Frequency Range (F1) (MHz) 892±68
Frequency Range (F2) (MHz) 1940±230
Insertion Loss (F1, at Fc) (dB) -0.4
Insertion Loss (F2, at Fc) (dB) -0.65
Attenuation (F1) at (F2) (dB) -23
Attenuation (F2) at (F1) (dB) -20
VSWR (Input @ F1) 1.3
VSWR (Input @ F2) 1.4
VSWR (Lowband @ F1) 1.4
VSWR (Highband @ F2) 1.2
6
5
4
1
2
3
6
5
4
1
2
3
Terminal No. Terminal Name
1 High Frequency Port
2GND
3 Low Frequency Port
4GND
5 Common Port
6GND
POWER CAPACITY
4.5W Maximum
A
Design
1940
Frequency
(MHz)
7
Finish
7 = Au
T = NiSn
HOW TO ORDER
DP
Type
05
Size
ORIENTATION IN TAPE
Top View
TR
Packaging
Tape & Reel
TR = 3 Kpcs
TR/500 = 500 pcs
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
65 4
12 3
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
COMPONENT DIMENSIONS AND FUNCTIONS
6
133
Multilayer Organic (MLOTM)
0805 WCDMA Diplexer
S PARAMETER MEASUREMENTS
High Band
Return Loss
Low Band
Return Loss
Isolation
0
-5
-10
-15
-20
-25
-30
-35
dB(S(1.1)
dB(S(3.1)
0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6
freq, GHz
dB(S(2.3))
0
-10
-20
-30
-40
-50
-60
dB(S(1.1)
dB(S(2.1)
0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6
freq, GHz
-5
-10
-15
-20
-25
-30
-35
0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6
freq, GHz
Note: Measurements were taken using an Anritsu 4 port VNA; Diplexer was mounted on a custom evaluation board. To reduce systematic errors from the VNA, the coaxial
measurement cables, and evaluation board, a Short-Open-Load-Thru (SOLT) calibration was performed, using a custom fabricated calibration substrate. This is the most
common coaxial calibration methods.
6
134
Multilayer Organic (MLOTM)
0805 WLAN Diplexer
MLOTM TECHNOLOGY
The 0805 diplexer is a best in class low
profile multilayer organic passive device
that is based on AVX’s patented multilayer
organic high density interconnect
technology. The MLOTM diplexer uses high
dielectric constant and low loss materials
to realize high Q passive printed elements
such as inductors and capacitors in a
multilayer stack up. The MLOTM diplexers
can support multiple wireless standards
such as WCDMA, CDMA, WLAN and
GSM. These components which are less
than 0.6mm in thickness are ideally suited
for band switching for dual band systems.
All diplexers are expansion matched to
FR4 thereby resulting in improved reliability
over standard Si and ceramic devices.
APPLICATIONS
Multiband applications including WiFi,
WiMax, GPS, and cellular bands
LAND GRID ARRAY
ADVANTAGES
• Low Insertion Loss
• Excellent Solderability
• Low Parasitics
• Low Profile
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters
and visual characteristics.
OPERATING TEMPERATURE
-40ºC to +85ºC
TERMINATION
Finishes available in Ni/Sn, Immersion Sn, Immersion Au
and OSP coatings which are compatible with automatic
soldering technologies which include reflow, wave
soldering, vapor phase and manual. PART NUMBER: DP05A52507TR
Specification @ 25ºC
Size [mm(inches)] 2.12 x 1.28 (0.083 x 0.050)
Height [mm(inches)] 0.55 (0.021)
Volume (mm^3) 1.5
Frequency Range (F1) (MHz) 2450±50
Frequency Range (F2) (MHz) 5250±100
Insertion Loss (F1) (dB) -0.5
Insertion Loss (F2) (dB) -0.5
Attenuation (F1) at (F2) (dB) -20
Attenuation (F2) at (F1) (dB) -20
Return Loss (Lowband @ F1) (dB) -12
Return Loss (Highband @ F2) (dB) -12
Isolation (Lowband @ F1) (dB) -25
Isolation (Highband @ F2) (dB) -21
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
65 4
12 3
6
5
4
1
2
3
6
5
4
1
2
3
Terminal No. Terminal Name
1 High Frequency Port
2GND
3 Low Frequency Port
4GND
5 Common Port
6GND
POWER CAPACITY
4.5W Maximum
A
Design
5250
Frequency
(MHz)
7
Finish
7 = Au
T = NiSn
HOW TO ORDER
DP
Type
05
Size
ORIENTATION IN TAPE
Top View
TR
Packaging
Tape & Reel
TR = 3 Kpcs
TR/500 = 500 pcs
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
COMPONENT DIMENSIONS AND FUNCTIONS
6
135
Multilayer Organic (MLOTM)
0805 WLAN Diplexer
S PARAMETER MEASUREMENTS
0
-5
-10
-15
-20
-25
-30
dB_S11
dB_S21
1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0
freq, GHz
Low Band
Return Loss
0
-5
-10
-15
-20
-25
-30
dB_S11
dB_S31
1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0
freq, GHz
High Band
Return Loss
-5
-10
-15
-20
-25
-30
dB_S23
1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0
freq, GHz
Isolation
6
136
Multilayer Organic (MLOTM)
0805 WLAN/BT Diplexer
MLOTM TECHNOLOGY
The 0805
MLOTM diplexer is best in class low
profile multilayer organic passive device that
is based on AVX’s patented multilayer organic
high density interconnect technology. The
MLOTM diplexer uses high dielectric constant
and low loss materials to realize high Q
passive printed elements such as inductors
and capacitors in a multilayer stack up. The
MLOTM diplexers can support multiple wireless
standards such as WCDMA, CDMA, WLAN
and GSM. These components which are less
than 0.5mm in thickness are ideally suited for
band switching for dual band systems. All
MLOTM diplexers are expansion matched to
FR4 thereby resulting in improved reliability
over standard Si and ceramic devices.
APPLICATIONS
Multiband applications including WiFi, BT,
WiMax, GPS, and cellular bands
LAND GRID ARRAY
ADVANTAGES
• Low Insertion Loss
• Excellent Solderability
• Low Parasitics
• Matched CTE to PCB
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters
and visual characteristics.
OPERATING TEMPERATURE
-40ºC to +85ºC
TERMINATION
Finishes available in Ni/Sn, Immersion Sn, Immersion Au
and OSP coatings which are compatible with automatic
soldering technologies which include reflow, wave
soldering, vapor phase and manual. PART NUMBER: DP05B54257TR
Specification @ 25ºC
Size [mm(inches)] 2.12 x 1.28 (0.083 x 0.050)
Height [mm(inches)] 0.55 (0.021)
Volume (mm^3) 1.5
Pass Band Range (F1) (MHz) 2450 +/-50MHz
Pass Band Range (F2) (MHz) 5425 +/-525MHz
Insertion Loss (F1) (dB) -0.5
Insertion Loss (F2) (dB) -1.0
Attenuation (F1)
4800MHz - 6000MHz (dB) -36
Attenuation 3 x (F1) (dB) -31
Attenuation (F2)
1800MHz - 2500MHz (dB) -26
Attenuation 2 x (F2) (dB) -13
Attenuation 3 x (F2) (dB) -15
VSWR (Input @ F1) 1.2
VSWR (Input @ F2) 1.7
VSWR (Lowband @ F1) 1.2
VSWR (Highband @ F2) 1.7
1
2
3
6
5
4
1
2
3
6
5
4
Terminal No. Terminal Name
1 Low Frequency Port
2GND
3 High Frequency Port
4GND
5 Common Port
6GND
POWER CAPACITY
4.5W Maximum
B
Design
5425
Frequency
(MHz)
7
Finish
7 = Au
T = NiSn
HOW TO ORDER
DP
Type
05
Size
ORIENTATION IN TAPE
Top View
TR
Packaging
Tape & Reel
TR = 3 Kpcs
TR/500 = 500 pcs
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
65 4
12 3
Bottom View Side View
0.20±0.10
(0.008±0.004)
0.20±0.10
(0.008±0.004)
2.12±0.20
(0.083±0.008)
0.44±0.10
(0.017±0.004)
0.55±0.10
(0.022±0.004)
0.64±0.05
(0.025±0.002)
0.04±0.04
(0.002±0.002)
0.25±0.10
(0.010±0.004)
1.28±0.20
(0.050±0.008)
0.95±0.05
(0.037±0.002)
Unit: mm (inches)
COMPONENT DIMENSIONS AND FUNCTIONS
6
137
Multilayer Organic (MLOTM)
0805 WLAN/BT Diplexer
S PARAMETER MEASUREMENTS
Frequency (0.5 - 17GHz)
dB
0
-10
-20
-30
-40
-50
-60
-70
-80
5.E+08 3.E+09 5.E+09 7.E+09 9.E+09 1.E+10 1.E+10 1.E+10 1.E+10
2.5 GHz
-28.013
1.8 GHz
-25.611 dB
7.5 GHz
-24.673 dB
11.95 GHz
-16.991 dB
4.8 GHz
-69.659 dB
4.95 GHz
-1.218 dB
5.95 GHz
-1.178 dB
5.45 GHz
-0.6133 dB
2.5 GHz
-0.454 dB
16.30 GHz
-23.06 dB
10.8 GHz
-17.255 dB
High Band
Low Band
Return Loss
6
138
Multilayer Organic (MLOTM)
AUTOMATED SMT ASSEMBLY
SMT REFLOW PROFILE
The following section describes the guidelines for automated
SMT assembly of MLOTM RF devices which are typically Land
Grid Array (LGA) packages or side termination SMT pacages.
Control of solder and solder paste volume is critical for
surface mount assembly of MLOTM RF devices onto the PCB.
Stencil thickness and aperture openings should be adjusted
according to the optimal solder volume. The following are
general recommendations for SMT mounting of MLOTM
devices onto the PCB.
Common IR or convection reflow SMT processes shall be
used for the assembly. Standard SMT reflow profiles, for
eutectic and Pb free solders, can be used to surface mount
the MLOTM devices onto the PCB. In all cases, a temperature
gradient of 3°C/sec, or less, should be maintained to prevent
warpage of the package and to ensure that all joints reflow
properly. Additional soak time and slower preheating time
may be required to improve the out-gassing of solder paste.
In addition, the reflow profile depends on the PCB density
and the type of solder paste used. Standard no-clean solder
paste is generally recommended. If another type of flux is
used, complete removal of flux residual may be necessary.
Example of a typical lead free reflow profile is shown below.
Profile Parameter Pb free, Convection, IR/Convection
Ramp-up rate (Tsmax to Tp 3ºC/second max.
Preheat temperature (Ts min to Ts max) 150ºC to 200ºC
Preheat time (ts) 60 – 180 seconds
Time above TL, 217ºC (tL) 60 – 120 seconds
Peak temperature (Tp) 260°C
Time within 5ºC of peak temperature (tp) 10 – 20 seconds
Ramp-down rate 4ºC/second max.
Time 25ºC to peak temperature 6 minutes max.
Critical Zone
TL to Tp
Ramp-down
Ramp-up
Ts max
25
t 25ºC to Peak
Ts min
ts
Preheat
Tp tp
TLtL
Time
Temperature
Figure A. Typical Lead Free Profile and Parameters
6
139
6
140 050916
MLOTM Tight Tolerance Inductors
The Multilayer Organic Tight Tolerance Inductor is a low profile organic
based inductor that can support mobile communications, satellite appli-
cations, GPS, matching networks, and collision avoidance. The MLOTM
Tight Tolerance Inductor series of components are based on AVX’s
patented multilayer organic technology (US patent 6,987,307). MLOTM
Tight Tolerance Inductors incorporate very low loss organic materials
which allow for high Q and high stability over frequency. MLOTM Tight
Tolerance Inductors are surface mountable and are expansion matched to
FR4 printed wiring boards. MLOTM Tight Tolerance Inductors utilize fine line
high density interconnect technology thereby allowing for tight tolerance
control and high repeatability. Reliability testing is performed to JEDEC
and mil standards. Finishes are available in RoHS compliant Sn.
HL
Style
Tight
Tolerance
02
Size
02 = 0402
X
Tolerance
A = ±0.05nH
B = ±0.1nH
G = ±2%
T
Termination
Sn100
TR
Packaging
5000pcs
T&R
APPLICATIONS
• Mobile communications
• Satellite Applications
• GPS
• Collision Avoidance
• Wireless LAN’s
FEATURES
• Tight Tolerance
• High Frequency
• High Withstanding Voltage
• Low DC Resistance
• Surface Mountable
• 0402 Case Size
• RoHS Compliant Finishes
• Available in Tape and Reel
SURFACE MOUNT
ADVANTAGES
• Inherent Low Profile
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
• Expansion Matched to PCB
HOW TO ORDER
QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics.
TERMINATION
RoHS compliant Sn finish.
OPERATING TEMPERATURE
-55ºC to +125ºC
XXX
Inductance
Expressed in nH
(2 significant digits + number of zeros)
for values <10nH,
letter R denotes decimal point.
Example:
22nH = 220
4.7nH = 4R7
DIMENSIONS mm (inches)
0.23 (0.009)
0.59 (0.023)
1.00 (0.039)
0.46 (0.018)
6
141
050916
MLOTM Tight Tolerance Inductors
0402 ELECTRICAL SPECIFICATIONS
Available
L (nH) Inductance Tolerance Q Idc max Rdc max SRF min
450MHz A = ±0.05nH, B = ±0.1nH 450MHz (mA) (mΩ) (GHz)
G = ±2%
0.8 ±0.05nH, ±0.1nH 15 450 100 7
0.9 ±0.05nH, ±0.1nH 15 450 100 7
1 ±0.05nH, ±0.1nH 15 420 100 7
1.1 ±0.05nH, ±0.1nH 15 410 100 7
1.2 ±0.05nH, ±0.1nH 15 410 110 7
1.3 ±0.05nH, ±0.1nH 15 295 13 7
1.5 ±0.05nH, ±0.1nH 15 295 150 7
1.6 ±0.05nH, ±0.1nH 15 230 150 7
1.8 ±0.05nH, ±0.1nH 15 295 160 7
2 ±0.05nH, ±0.1nH 15 230 18 7
2.2 ±0.05nH, ±0.1nH 15 230 200 7
2.4 ±0.05nH, ±0.1nH 15 230 200 7
2.7 ±0.05nH, ±0.1nH 15 230 250 7
3 ±0.05nH, ±0.1nH 15 200 300 7
3.3 ±0.05nH, ±0.1nH 15 200 340 7
3.6 ±0.05nH, ±0.1nH 15 180 350 7
3.9 ±0.05nH, ±0.1nH 15 180 400 7
4.7 ±0.1nH 15 170 480 7
5.6 ±0.1nH 15 150 500 7
6.8 ±0.1nH 15 140 600 7
8.2 ±0.1nH 15 115 800 6
10 ±2% 15 105 1000 5
12 ±2% 15 95 1100 4
15 ±2% 15 95 1200 4
18 ±2% 15 85 1500 3
22 ±2% 15 75 1900 3
27 ±2% 15 75 2100 3
30 ±2% 15 65 2200 2
32 ±2% 15 65 2200 2
Specifications based on performance of component assembled properly on printed circuit board with 50Ω nominal impedance.
RECOMMENDED FOOTPRINT mm (inches)
Case Size D1 D2 D3 D4 D5
0201 0.85 (0.033) 0.30 (0.012) 0.25 (0.010) 0.30 (0.012) 0.35 (0.014)
0402 1.70 (0.067) 0.60 (0.024) 0.50 (0.020) 0.60 (0.024) 0.50 (0.020)
0603 2.30 (0.091) 0.80 (0.031) 0.70 (0.028) 0.80 (0.031) 0.75 (0.030)
0805 3.00 (0.118) 1.00 (0.039) 1.00 (0.039) 1.00 (0.039) 1.25 (0.049)
1206 4.00 (0.157) 1.00 (0.039) 2.00 (0.079) 1.00 (0.039) 1.60 (0.063)
1210 4.00 (0.157) 1.00 (0.039) 2.00 (0.079) 1.00 (0.039) 2.50 (0.098)
1808 5.60 (0.220) 1.00 (0.039) 3.60 (0.142) 1.00 (0.039) 2.00 (0.079)
1812 5.60 (0.220) 1.00 (0.039) 3.60 (0.142) 1.00 (0.039) 3.00 (0.118)
1825 5.60 (0.220) 1.00 (0.039) 3.60 (0.142) 1.00 (0.039) 6.35 (0.250)
2220 6.60 (0.260) 1.00 (0.039) 4.60 (0.181) 01.00 (0.039) 5.00 (0.197)
2225 6.60 (0.260) 1.00 (0.039) 4.60 (0.181) 1.00 (0.039) 6.35 (0.250)
D1 D3
D2
D4
D5
Component Pad Design
Component pads should be designed to achieve good solder filets and minimize
component movement during reflow soldering. pad designs are given below for
the most common sizes of multilayer ceramic capacitors for both wave and
reflow soldering. The basis of these designs is:
• Pad width equal to component width. It is permissible to decrease this to as
low as 85% of component width but it is not advisable to go below this.
• Pad overlap 0.5mm beneath component.
• Pad extension 0.5mm beyond components for relow and 1.0mm to wave
soldering.
MLOTM High Current Inductors
The Multilayer Organic High Current Inductor is a low profile organic
based inductor that can support mobile communications, satellite
applications, GPS, matching networks, and collision avoidance. Based on
AVX’s patented multilayer organic technology (US patent 6,987,307), the
0402 size Multilayer Organic High Current Inductor allows for much higher
current handling over similar multilayer ceramic chip inductors, a 50%
average increase in current handling over comparable thin film products
with similar Q, and current handling approaching that of wire wound
ceramic chip inductors. MLOTM High Current Inductors incorporate very
low loss organic materials which allow for high Q and high stability over
frequency. They are surface mountable and are expansion matched to
FR4 printed wiring boards. MLOTM High Current Inductors utilize fine line
high density interconnect technology thereby allowing for tight tolerance
control and high repeatability. Reliability testing is performed to JEDEC
and mil standards. Finishes are available in RoHS compliant Sn.
APPLICATIONS
• Mobile communications
• Satellite Applications
• GPS
• Collision Avoidance
• Wireless LAN’s
FEATURES
• High Q
• High SRF
• High Frequency
• High Current Handling
• Low DC Resistance
• Surface Mountable
• 0402 Case Size
• RoHS Compliant Finishes
• Available in Tape and Reel
SURFACE MOUNT
ADVANTAGES
• Inherent Low Profile
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
• Expansion Matched to PCB
DIMENSIONS QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics.
TERMINATION
RoHS compliant Sn finish.
OPERATING TEMPERATURE
-55ºC to +125ºC
mm (inches)
LWTR
1.00±0.10 0.58±0.075 0.35±0.10 0.125±0.050
(0.040±0.004) (0.023±0.003) (0.014±0.004) (0.005±0.002)
W
L
R
T
HLC
Type
HLC = High Current
02
Size
02 = 0402
X
Tolerance
B = ±0.1nH
C = ±0.2nH
D = ±0.5nH
G = ±2%
H = ±3%.
J = ±5%
T
Termination
Sn100
HOW TO ORDER
XXX
Inductance
Expressed in nH
(2 significant digits + number of zeros)
for values <10nH,
letter R denotes decimal point.
Example:
22nH = 220
4.7nH = 4R7
6
142
TR
Packaging
5000pcs T&R
MLOTM High Current Inductors
0402 ELECTRICAL SPECIFICATIONS
450 MHz 900 MHz 1900 MHz 2400 MHz
Test Frequency Test Frequency Test Frequency Test Frequency
Available SRF Min Rdc Max Idc Max
Inductance Tolerance Q L (nH) Q L (nH) Q L (nH) Q (GHz) (m) (mA)
L (nH) B = ±0.1nH, C = ±0.2nH 450 MHz 900 MHz 900 MHz 1900 MHz 1900 MHz 2400 MHz 2400 MHz
450 MHz D = ±0.5nH, G = ±2%
H = ±3%, J = ±5%
0.8 ±0.1nH, ±0.2nH, ±0.5nH 30 0.8 42 0.8 55 0.8 61 >20 100 875
0.9 ±0.1nH, ±0.2nH, ±0.5nH 26 0.9 36 0.9 47 0.9 52 >20 100 835
1 ±0.1nH, ±0.2nH, ±0.5nH 25 1.0 34 1.0 45 1.0 50 >20 100 800
1.1 ±0.1nH, ±0.2nH, ±0.5nH 24 1.1 33 1.1 43 1.1 48 20 100 782
1.2 ±0.1nH, ±0.2nH, ±0.5nH 24 1.2 33 1.2 44 1.2 48 20 110 751
1.3 ±0.1nH, ±0.2nH, ±0.5nH 25 1.3 34 1.3 44 1.3 49 19 130 725
1.5 ±0.1nH, ±0.2nH, ±0.5nH 25 1.5 35 1.5 45 1.5 50 19 150 679
1.6 ±0.1nH, ±0.2nH, ±0.5nH 25 1.6 35 1.6 45 1.6 49 18 150 660
1.8 ±0.1nH, ±0.2nH, ±0.5nH 25 1.8 35 1.8 45 1.8 49 18 160 626
2 ±0.1nH, ±0.2nH, ±0.5nH 26 2.0 35 2.0 45 2.1 49 17 180 596
2.2 ±0.1nH, ±0.2nH, ±0.5nH 27 2.2 36 2.2 46 2.2 50 16 200 571
2.4 ±0.1nH, ±0.2nH, ±0.5nH 27 2.4 37 2.4 47 2.4 50 15 200 549
2.7 ±0.1nH, ±0.2nH, ±0.5nH 27 2.7 36 2.7 46 2.7 48 14 250 521
3 ±0.1nH, ±0.2nH, ±0.5nH 27 3.0 36 3.0 44 3.1 46 12 300 497
3.3 ±0.1nH, ±0.2nH, ±0.5nH 27 3.3 36 3.3 44 3.4 46 11 340 476
3.6 ±0.1nH, ±0.2nH, ±0.5nH 27 3.6 37 3.7 45 3.8 46 10 350 457
3.9 ±0.1nH, ±0.2nH, ±0.5nH 28 3.9 38 4.0 46 4.1 47 10 400 441
4.7 ±0.1nH, ±0.2nH, ±0.5nH 29 4.7 39 4.9 45 5.1 44 9 480 405
5.6 ±0.1nH, ±0.2nH, ±0.5nH 30 5.7 40 6.0 44 6.3 42 8 500 375
6.8 ±2%, ±3%, ±5% 30 6.9 39 7.5 41 8.0 37 7 600 343
8.2 ±2%, ±3%, ±5% 29 8.4 37 9.4 37 10.4 31 6 800 315
10 ±2%, ±3%, ±5% 30 10.3 38 12.0 35 13.9 27 5 1000 290
12 ±2%, ±3%, ±5% 32 12.5 40 15.7 31 19.8 19 4 1100 265
15 ±2%, ±3%, ±5% 32 15.9 38 22.3 24 33.0 9 4 1200 240
18 ±2%, ±3%, ±5% 28 19.4 32 31.1 15 60.0 0.3 3 1500 210
22 ±2%, ±3%, ±5% 30 24.0 34 44.7 11 n/a n/a 3 1900 202
27 ±2%, ±3%, ±5% 29 30.5 30 n/a n/a n/a n/a 3 2100 184
30 ±2%, ±3%, ±5% 28 34.0 27 n/a n/a n/a n/a 2 2200 180
32 ±2%, ±3%, ±5% 28 37.7 27 n/a n/a n/a n/a 2 2200 175
Specifications based on performance of component assembled properly on printed circuit board with 50Ω nominal impedance.
Idc max: Maximum 15ºC rise in component temperature over ambient.
6
143
MLOTM Hi-Q Inductors
APPLICATIONS
• Mobile communications
• Satellite Applications
• GPS
• Collision Avoidance
• Wireless LAN’s
FEATURES
• High Q
• High SRF
• High Frequency
• Low DC Resistance
• Surface Mountable
• 0402 Case Size
• RoHS Compliant Finishes
• Available in Tape and Reel
SURFACE MOUNT
ADVANTAGES
• Inherent Low Profile
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
• Expansion Matched to PCB
DIMENSIONS QUALITY INSPECTION
Finished parts are 100% tested for electrical parameters and
visual characteristics.
TERMINATION
RoHS compliant Sn finish.
OPERATING TEMPERATURE
-55ºC to +125ºC
mm (inches)
LWTR
1.00±0.10 0.58±0.075 0.35±0.10 0.125±0.050
(0.040±0.004) (0.023±0.003) (0.014±0.004) (0.005±0.002)
W
L
R
T
HLQ
Type
HLQ = High Q
02
Size
02 = 0402
X
Tolerance
B = ±0.1nH
C = ±0.2nH
H = ±3%
T
Termination
Sn100
HOW TO ORDER
XXX
Inductance
Expressed in nH
(2 significant digits + number of zeros)
for values <10nH,
letter R denotes decimal point.
Example:
22nH = 220
4.7nH = 4R7
The Multilayer Organic Hi-Q Inductor is a low profile organic based
inductor that can support mobile communications, satellite applications,
GPS, matching networks, and collision avoidance. The MLOTM Hi-Q
Inductor series of components are based on AVX’s patented multilayer
organic technology (US patent 6,987,307 and 7,439,840). MLOTM Hi-Q
Inductors incorporate very low loss organic materials and low profile
copper which allow for high Q and high stability over frequency. MLOTM Hi-
Q Inductors are surface mountable and are expansion matched to FR4
printed wiring boards. MLOTM Hi-Q Inductors utilize fine line high density
interconnect technology thereby allowing for tight tolerance control and
high repeatability. Reliability testing is performed to JEDEC and mil
standards. Finishes are available in RoHS compliant Sn.
6
144
TR
Packaging
5000pcs T&R
MLOTM Hi-Q Inductors
0402 ELECTRICAL SPECIFICATIONS
Available
L (nH) Inductance Tolerance Q min SRF min Rdc max Idc max
450MHz B = ±0.1nH, C = ±0.2nH 450MHz (GHz) (mΩ) (mA)
H = ±3%
0.8 ±0.1nH, ±0.2nH 17 7 100 350
0.9 ±0.1nH, ±0.2nH 17 7 100 350
1 ±0.1nH, ±0.2nH 17 7 100 330
1.1 ±0.1nH, ±0.2nH 17 7 100 330
1.2 ±0.1nH, ±0.2nH 17 7 110 330
1.3 ±0.1nH, ±0.2nH 17 7 130 330
1.5 ±0.1nH, ±0.2nH 17 7 150 330
1.6 ±0.1nH, ±0.2nH 17 7 150 300
1.8 ±0.1nH, ±0.2nH 17 7 160 300
2 ±0.1nH, ±0.2nH 17 7 180 245
2.2 ±0.1nH, ±0.2nH 17 7 200 245
2.4 ±0.1nH, ±0.2nH 17 7 200 245
2.7 ±0.1nH, ±0.2nH 17 7 250 245
3 ±0.1nH, ±0.2nH 17 7 300 225
3.3 ±0.1nH, ±0.2nH 17 7 340 225
3.6 ±0.1nH, ±0.2nH 17 7 350 200
3.9 ±0.1nH, ±0.2nH 17 7 400 200
4.7 ±0.1nH, ±0.2nH 17 7 480 195
5.6 ±0.1nH, ±0.2nH 17 7 500 170
6.8 ±3% 17 7 600 160
8.2 ±3% 17 6 800 130
10 ±3% 17 5 1000 120
12 ±3% 17 4 1100 110
15 ±3% 17 4 1200 110
18 ±3% 17 3 1500 110
22 ±3% 17 3 1900 95
27 ±3% 17 3 2100 95
30 ±3% 17 2 2200 85
32 ±3% 17 2 2200 85
Specifications based on performance of component assembled properly on printed circuit board with 50Ω nominal impedance.
Idc max: Maximum 15ºC rise in component temperature over ambient.
6
145
MLOTM Inductors
MLOTM INDUCTOR PERFORMANCE CHARACTERISTICS
0
Frequency (GHz)
210
86412
0
10
20
30
40
50
60
-50
-40
-10
-20
-30
0
30
20
10
40
50
Q
Inductance (nH)
Inductance (nH)
Inductance @
450MHz 2.0nH
0
Frequency (GHz)
210
864 12
0
25
30
35
40
45
50
-100
-80
-20
-40
-60
0
60
40
20
80
100
Q
Inductance @
450MHz 4.7nH
120
20
15
10
5
SRF
5.65
SRF
10.85
Max Q
53
0
Frequency (GHz)
0.5 3.532.514
0
25
30
35
40
45
-400
-300
-100
-200
0
300
200
100
Q
Inductance (nH)
Inductance @
450MHz 18.2nH
400
20
15
10
5
21.5
SRF
2.38
Max Q
32
Max Q
45
Typical Performance: 4.7nH
Typical Performance: 2.0nH
Typical Performance: 18.2nH
6
146
MLOTM Inductors
AUTOMATED SMT ASSEMBLY
SMT REFLOW PROFILE
The following section describes the guidelines for automated
SMT assembly of MLOTM RF devices which are typically Land
Grid Array (LGA) packages or side termination SMT packages.
Control of solder and solder paste volume is critical for
surface mount assembly of MLOTM RF devices onto the PCB.
Stencil thickness and aperture openings should be adjusted
according to the optimal solder volume. The following are
general recommendations for SMT mounting of MLOTM
devices onto the PCB.
Common IR or convection reflow SMT processes shall be
used for the assembly. Standard SMT reflow profiles, for
eutectic and Pb free solders, can be used to surface mount
the MLOTM devices onto the PCB. In all cases, a temperature
gradient of 3°C/sec, or less, should be maintained to prevent
warpage of the package and to ensure that all joints reflow
properly. Additional soak time and slower preheating time
may be required to improve the out-gassing of solder paste.
In addition, the reflow profile depends on the PCB density
and the type of solder paste used. Standard no-clean solder
paste is generally recommended. If another type of flux is
used, complete removal of flux residual may be necessary.
Example of a typical lead free reflow profile is shown below.
Profile Parameter Pb free, Convection, IR/Convection
Ramp-up rate (Tsmax to Tp 3ºC/second max.
Preheat temperature (Ts min to Ts max) 150ºC to 200ºC
Preheat time (ts) 60 – 180 seconds
Time above TL, 217ºC (tL) 60 – 120 seconds
Peak temperature (Tp) 260°C
Time within 5ºC of peak temperature (tp) 10 – 20 seconds
Ramp-down rate 4ºC/second max.
Time 25ºC to peak temperature 6 minutes max.
Critical Zone
TL to Tp
Ramp-down
Ramp-up
Ts max
25
t 25ºC to Peak
Ts min
ts
Preheat
Tp tp
TLtL
Time
Temperature
Figure A. Typical Lead Free Profile and Parameters
6
147
MLOTM RF-DC SMT Crossover
GENERAL DESCRIPTION
The MLOTM SMT RF-DC Crossover is a very low profile crossover that intersects an
RF and DC circuit trace in an SMT package. The RF-DC Crossover is a low cost
solution for applications where a critical RF circuit trace intersects a DC circuit pre-
cluding the need for an expensive multilayer printed circuit board. The SMT pack-
age can support frequencies up to 6 GHz. MLOTM crossovers have been subjected
to JEDEC reliability standards and 100% electrically tested. The RF-DC crossovers
are available in NiSn.
FEATURES
• DC – 6.0 GHz
• RF – DC Crossover
• Low Loss
• DC Isolation
• Surface Mountable
• Tape and Reel
• 100% Tested
APPLICATIONS
• Mobile communications
• GPS
• Vehicle location systems
• Wireless LAN’s
LAND GRID ARRAY
ADVANTAGES
• Inherent Low Profile
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
TOP VIEW
Frequency Port Ins. Return Loss Power
θ
JC Operating
(GHz) Impedance Loss (dB min) (Watts) (ºC /Watts) Temperature
(ohms) (dB max) (ºC)
DC -2.5 50 0.05 20 30 140 -55 to +85
2.5 – 4.0 50 0.10 20 19 140 -55 to +85
4.0 – 6.0 50 0.15 15 9 140 -55 to +85
* Specification based on performance of component assembled properly on printed circuit board with 50Ω nominal impedance.
QUALITY INSPECTION
Finished parts are 100% tested for electrical
parameters and visual characteristics.
TERMINATION
NiSn compatible with automatic soldering
technologies: Pb free reflow, wave soldering, vapor
phase and manual.
OPERATING
TEMPERATURE
- 55ºC to +85ºC
X2A
Series
2020
Size
T
Packaging
T = 1000pcs T&R
T/250 = 250pcs T&R
B = Bulk
HOW TO ORDER
RFDC
Type
6
148 050416
MLOTM RF-DC SMT Crossover
RF IN/OUT
GND
GND
RF IN/OUT
0.76 ±0.10 X4
(0.030 ±0.004 X4)
0.99 ±0.20 X4 SQ
(0.039 ±0.008 X4 SQ)
TOP BOTTOM
4.98 ±0.25
(0.196 ±0.010)
GND
GND
GND GND
GND
4.98 ±0.25
(0.196 ±0.010)
RF IN/OUT
RF IN/OUT
1.12 ±0.10
(0.044 ±0.004)
0.40 ±0.04
(0.016 ±0.002)
GND
0.74 ±0.10 X4
(0.029 ±0.004 X4)
SIDE
0.40 ±0.04
(0.016 ±0.002)
X4)
MECHANICAL OUTLINE
6
149
050416
0.0
-0.1
-0.2
-0.3
-0.4
-0.5
Insertion Loss (dB)
Frequency (GHz)
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
RF/DC Crossover – Insertion Loss
RF/DC Crossover – Insertion Loss
MLOTM RF-DC SMT Crossover
RF-DC SMT CROSSOVER PERFORMANCE: 0.3 GHZ TO 6 GHZ
MOUNTING PROCEDURE MOUNTING FOOTPRINT
MLOTM SMT crossovers require 50Ω
transmission lines leading to and from all of the
RF ports. Proper grounding is required in order
to ensure optimal device performance. If these
conditions are not met then performance
parameters including insertion loss, return loss
and any isolation may not meet published
values. All of the MLOTM components utilize
castellated interconnects which allow for high
yield assembly, expansion matched and
halogen free dielectric. When mounting the
user must be mindful of the following: a) ensure
the RF pads of the device are in contact with
the circuit trace of the printed circuit board and
b) the ground plane of neither the component
nor the PCB is in contact with the RF signal.
Parts are specifically oriented in the tape and
reel.
To ensure proper
electrical and thermal
performance there must
be a ground plane with
100% solder connection
underneath the part.
-10-
-20
-30
-40
-50
-60
Return Loss (dB)
Frequency (GHz)
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
RF/DC Crossover – Return Loss
RF/DC Crossover – Return Loss
1.60 SQ TYP
(0.063)
50
Transmission
Line
Multiple
plated thru holes
to ground
DC Line
0.86 TYP
(0.034)
3.75
(0.148)
Dimensions are in mm (inches)
6
150 050416
MLOTM RF-RF SMT Crossover
GENERAL DESCRIPTION
The MLOTM SMT RF-RF Crossover is a very low profile crossover that intersects an
RF and RF circuit trace in an SMT package. The RF-RF Crossover is a low cost
solution for applications where a critical RF circuit trace intersects a RF circuit
precluding the need for an expensive multilayer printed circuit board. The SMT
package can support frequencies up to 6 GHz. MLOTM crossovers have been
subjected to JEDEC reliability standards and 100% electrically tested. The RF-RF
crossovers are available in NiSn.
FEATURES
• DC – 6.0 GHz
• RF – RF Crossover
• Low Loss
• High Isolation
• Surface Mountable
• Tape and Reel
• 100% Tested
QUALITY INSPECTION
Finished parts are 100% tested for electrical
parameters and visual characteristics.
TERMINATION
NiSn compatible with automatic soldering
technologies: Pb free reflow, wave soldering, vapor
phase and manual.
OPERATING
TEMPERATURE
- 55ºC to +85ºC
APPLICATIONS
• Mobile communications
• GPS
• Vehicle location systems
• Wireless LAN’s
LAND GRID ARRAY
ADVANTAGES
• Inherent Low Profile
• Excellent Solderability
• Low Parasitics
• Better Heat Dissipation
TOP VIEW
Frequency Port Ins. Return Loss Isolation Power
θ
JC Operating
(GHz) Impedance Loss (dB min) (dB min) (Watts) (ºC /Watts) Temperature
(ohms) (dB max) (ºC)
DC -2.5 50 0.05 20 50 30 150 -55 to +85
2.5 – 4.0 50 0.10 18 30 19 150 -55 to +85
4.0 – 6.0 50 0.15 10 20 9 150 -55 to +85
* Specification based on performance of component assembled properly on printed circuit board with 50Ω nominal impedance.
X2B
Series
2020
Size
T
Packaging
T = 1000pcs T&R
T/250 = 250pcs T&R
B = Bulk
HOW TO ORDER
RFRF
Type
6
151
050416
MLOTM RF-RF SMT Crossover
2.49 (0.098)
3.50
(0.138)
2.409
(0.095)
3.00
(0.118)
4.978
(0.196)
0.739
(0.029)
0.564 x 4
(0.022 x 4)
0.462 x 4
(0.018 x 4)
0.750 (0.030)
4.126 (0.162)
2.214 (0.087)
2.490 (0.098)
2.866 (0.106)
0
0
4.978 (0.196)
0.462 x 4
(0.018 x 4)
0.552 (0.022)
0.750 (0.030)
0.740
(0.029)
0.210
(0.008)
SIDE
0.40 ±0.04
(0.016 ±0.002)
MECHANICAL OUTLINE
6
152 050416
2.49 (0.098)
3.50
(0.138)
3.00
(0.118)
4.978
(0.196)
2.409
(0.095)
0.739
(0.029)
0.564 x 4
(0.022 x 4)
0.462 x 4
(0.018 x 4)
0.750 (0.030)
4.126 (0.162)
2.214 (0.087)
2.490 (0.098)
2.866 (0.106)
0
0
4.978 (0.196)
0.462 x 4
(0.018 x 4)
0.552 (0.022)
0.750 (0.030)
0.740
(0.029)
0.210
(0.008)
TOP BOTTOM
MLOTM RF-RF SMT Crossover
RF-RF SMT CROSSOVER PERFORMANCE: 0.3 GHZ TO 6 GHZ
MOUNTING PROCEDURE MOUNTING FOOTPRINT
MLOTM SMT crossovers require 50Ω
transmission lines leading to and from
all of the RF ports. Proper grounding is
required in order to ensure optimal
device performance. If these conditions
are not met then performance
parameters including insertion loss,
return loss and any isolation may not
meet published values. All of the MLOTM
components utilize castellated
interconnects which allow for high yield
assembly, expansion matched and
halogen free dielectric. When mounting
the user must be mindful of the
following: a) ensure the RF pads of the
device are in contact with the circuit
trace of the printed circuit board and b)
the ground plane of neither the
component nor the PCB is in contact
with the RF signal. Parts are specifically
oriented in the tape and reel.
To ensure proper electrical and thermal performance there must be a ground plane
with 100% solder connection underneath the part.
0.02
-0.02
-0.07
-0.12
-0.17
-0.22
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
Frequency (GHz)
Insertion Loss 2 (dB)
Insertion Loss 1 (dB)
-10
-20
-30
-40
-50
-60
-70
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
Frequency (GHz)
Return Loss 2 (dB)
Return Loss 1 (dB)
-20
-30
-40
-50
-60
-70
-80
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
Frequency (GHz)
Isolation (dB)
6
4
2
0
-2
-4
-6
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
Frequency (GHz)
Phase Balance (ºC)
RF/RF Crossover – Insertion Loss RF/RF Crossover – Return Loss
RF/RF Crossover – Isolation RF/RF Crossover – Phase Balance
4 x 50
Transmission
Line
Multiple
plated thru holes
to ground
TYP
034)
0.86 TYP
(0.034)
1.07 TYP
(0.042)
1.60 8Q TYP
(0.063)
Dimensions are in mm (inches)
6
153
050416
MLOTM SMT Crossover
AUTOMATED SMT ASSEMBLY
The following section describes the guidelines for automated
SMT assembly of MLOTM RF devices which are typically
Land Grid Array (LGA) packages or side termination
SMT packages.
Control of solder and solder paste volume is critical for
surface mount assembly of MLOTM RF devices onto the PCB.
Stencil thickness and aperture openings should be adjusted
according to the optimal solder volume. The following are
general recommendations for SMT mounting of MLOTM
devices onto the PCB.
SMT REFLOW PROFILE
Common IR or convection reflow SMT processes shall be
used for the assembly. Standard SMT reflow profiles, for
eutectic and Pb free solders, can be used to surface mount
the MLOTM devices onto the PCB. In all cases, a temperature
gradient of 3°C/sec, or less, should be maintained to prevent
warpage of the package and to ensure that all joints reflow
properly. Additional soak time and slower preheating time
may be required to improve the out-gassing of solder paste.
In addition, the reflow profile depends on the PCB density
and the type of solder paste used. Standard no-clean solder
paste is generally recommended. If another type of flux is
used, complete removal of flux residual may be necessary.
Example of a typical lead free reflow profile is shown below:
Profile Parameter Pb free, Convection, IR/Convection
Ramp-up rate (Tsmax to Tp) 3ºC/second max.
Preheat temperature (Ts min to Ts max) 150ºC to 200ºC
Preheat time (ts) 60 – 180 seconds
Time above TL, 217ºC (tL) 60 – 120 seconds
Peak temperature (Tp) 260°C
Time within 5ºC of peak temperature (tp) 10 – 20 seconds
Ramp-down rate 4ºC/second max.
Time 25ºC to peak temperature 6 minutes max.
Critical Zone
TL to Tp
Ramp-down
Ramp-up
Ts max
25
t 25ºC to Peak
Ts min
ts
Preheat
Tp tp
TLtL
Time
Temperature
6
154 050416
155
RF Inductors
AL Series - Air Core Inductors
AS Series - Square Air Core Inductors
LCWC - Wire Wound Chip Inductors
7
156
AVX Air Core RF Inductors, part of the wound air core inductor family, are
ideal for RF circuits, broadband I/O filtering, frequency selection, or
impedance matching. The air core inductor provides better performance
over solid core inductors with higher Q, and better current handling
capabilities.
GENERAL DESCRIPTION
AL
Air Core Inductor
05A
Size
Size
05A = 0605
05B = 0605
12A = 1212
12B = 1212
016 = 1516
023 = 2523
02N5
Inductance
02N5 = 2.5nH
12N5 = 12.5nH
130N = 130nH
G
Tolerance
G = 2%
J = 5%
K = 10%
T
Termination
T = Sn/Ag over Cu
(96.5% Sn, 3% Ag,
0.5% Cu)
R
Packaging
R = 7" reel
S = 13" reel*
*AL016 & AL023 Only
HOW TO ORDER
Air Core RF Inductors
AL Series
FEATURES
• Air Core Construction
• High Q
• High Current
• Excellent SRF
• Many inductance values ranging
from 1.65nH to 538nH
Technical Data All technical data related to an ambient temperature of +25˚C
Inductance Range 1.65nH to 538nH
Inductance Tolerance 2%, 5%, 10%
Rated Current 1.5A to 4.0A
Operating Temperature -40˚C to +125˚C
Termination 96.5% Tin/3% Silver over 0.5% Copper
ELECTRICAL SPECIFICATIONS
APPLICATIONS
• RF Applications
• RF Circuits
• Broadband I/O Filtering
• Impedance Matching/Tuning
• Decoupling/Bypassing
7
157
ELECTRICAL SPECIFICATIONS
AVX P/N Turns Inductance Tolerance Q Q Test Freq. DCR max SRF Ir max
(nH) (%) min. typ. (MHz) (mΩ) GHz (min.) Amps
AL05A1N65KTR 2 1.65 K 100 - 800 4 10 1.60
AL05A2N55*TR 3 2.55 J, K 100 - 800 5 8.2 1.60
AL05A3N85*TR 4 3.85 G, J, K 100 - 800 6 7.5 1.60
AL05A5N45*TR 5 5.45 G, J 100 - 800 8 7 1.60
AL05B05N6*TR 6 5.6 G, J 100 - 800 9 6.5 1.60
AL05B7N15*TR 7 7.15 G, J 100 - 800 10 6 1.60
AL05B08N8*TR 8 8.8 G, J 100 - 800 12 6 1.60
AL05B9N85*TR 9 9.85 G, J 100 - 800 13 5.2 1.60
AL05B12N5*TR 10 12.55 G, J 100 - 800 14 4.6 1.60
AL12A02N5KTR 1 2.5 K 145 - 150 1.1 12.5 4.00
AL12A05N0*TR 2 5 J, K 140 - 150 1.8 6.5 4.00
AL12A08N0*TR 3 8 G, J 140 - 150 2.6 5 4.00
AL12A12N5*TR 4 12.5 G, J 137 - 150 3.4 3.3 4.00
AL12A18N5*TR 5 18.5 G, J 132 - 150 3.9 2.5 4.00
AL12B17N5*TR 6 17.5 G, J 100 - 150 4.5 2.2 4.00
AL12B22N0*TR 7 22 G, J 102 - 150 5.2 2.1 4.00
AL12B28N0*TR 8 28 G, J 105 - 150 6 1.8 4.00
AL12B35N5*TR 9 35.5 G, J 112 - 150 6.8 1.5 4.00
AL12B43N0*TR 10 43 G, J 106 - 150 7.9 1.2 4.00
AL01622N0*TS 4 22 G, J 100 135 150 4.2 3.2 3.00
AL01627N0*TS 5 27 G, J 100 135 150 4 2.7 3.50
AL01633N0*TS 5 33 G, J 100 130 150 4.8 2.5 3.00
AL01639N0*TS 6 39 G, J 100 135 150 4.4 2.1 3.00
AL01647N0*TS 6 47 G, J 100 135 150 5.6 2.1 3.00
AL01656N0*TS 7 56 G, J 100 125 150 6.2 1.5 3.00
AL01668N0*TS 7 68 G, J 100 120 150 8.2 1.5 2.50
AL01682N0*TS 8 82 G, J 100 120 150 9.4 1.3 2.50
AL016100N*TS 9 100 G, J 100 115 150 12.3 1.2 1.70
AL016120N*TS 9 120 G, J 100 125 150 17.3 1.1 1.50
AL02390N0*TS 9 90 G, J 95 114 50 15 1.140 3.50
AL023111N*TS 10 111 G, J 87 104 50 15 1.020 3.50
AL023130N*TS 11 130 G, J 87 104 50 20 0.900 3.00
AL023169N*TS 12 169 G, J 95 114 50 25 0.875 3.00
AL023206N*TS 13 206 G, J 95 114 50 30 0.800 3.00
AL023222N*TS 14 222 G, J 92 110 50 35 0.730 3.00
AL023246N*TS 15 246 G, J 95 114 50 35 0.685 3.00
AL023307N*TS 16 307 G, J 95 114 50 35 0.660 3.00
AL023380N*TS 17 380 G, J 95 114 50 50 0.590 2.50
AL023422N*TS 18 422 G, J 95 114 50 60 0.540 2.50
AL023491N*TS 19 491 G, J 95 114 50 65 0.535 2.00
AL023538N*TS 20 538 G, J 87 104 50 90 0.490 2.00
*Tolerance: G= ± 2%, J: ± 5%, K: ± 10%
a. Test Equipment:
L/Q: HP-4291B With HP16193A test fixture or equivalent.
SRF: HP8753E /HP8720D or equivalent.
RDC: Chroma 16502 or equivalent.
b. Operating temperature range: -40ºC to +125ºC.
c. For Temperature Rise: 15ºC
d. Storage Temp.: -40ºC to +85ºC.
f. MSL: Level 1
Air Core RF Inductors
AL Series
7
158
PHYSICAL DIMENSIONS
RECOMMENDED LAND PATTERNS
Air Core RF Inductors
AL Series
E
B
A
D
C
30°
180°
Tinned Length SIDE END TOP
E
AF
D
C
G
SIDE END TOP
30°
180°
Measure Line 0
Co-Plane ≤0.10 (0.004)
B
Part Number A B C D E F G
AL05A 1.42 ± 0.13 1.37 ± 0.15 0.89 ± 0.25 2.21 ± 0.25 1.83 ± 0.25 0.51 max. 0.35 min.
(0.056 ± 0.005) (0.056 ± 0.005) (0.035 ± 0.010) (0.087 ± 0.010) (0.072 ± 0.010) (0.200 max.) (0.014 min.)
AL05B 1.42 ± 0.13 1.37 ± 0.15 0.89 ± 0.25 4.04 ± 0.30 3.66 ± 0.30 0.51 max. 0.35 min.
(0.056 ± 0.005) (0.056 ± 0.005) (0.035 ± 0.010) (0.159 ± 0.012) (0.144 ± 0.012) 0.200 max. 0.014 min.
AL12A 3.05 max. 3.18 max. 0.58 ± 0.38 3.68 max. 2.92 ± 0.25 ––
(0.120 max.) (0.125 max.) (0.023 ± .0.015) (0.145 max.) (0.115 ± 0.010)
AL12B 3.05 max. 3.18 max. 0.58 ± 0.38 6.86 max. 5.84 ± 0.25 ––
(0.120 max.) (0.125 max.) (0.023 ± 0.015) (0.270 max.) (0.230 ± 0.010)
AL016 3.81 4.20 max. 1.53 ± 0.39 4.83 max. 4.32 ± 0.39 ––
(0.150) (0.165 max.) (0.060 ± 0.015) (0.190 max.) (0.170 ± 0.015)
AL023 6.35 max. 5.90 max. 1.02 ± 0.39 10.55 max. 7.98 ± 0.51 ––
(0.250 max.) (0.232 max.) (0.040 ± 0.015) (0.415 max.) (0.314 ± 0.020)
Part Number A B C D E
AL05A 2.62 2.46 1.04 1.02 0.79
(0.103) (0.097) (0.041) (0.040) (0.031)
AL05B 4.45 2.46 2.87 1.02 0.79
(0.175) (0.097) (0.113) (0.040) (0.031)
AL12A 4.19 3.30 1.65 2.79 1.27
(0.165) (0.130) (0.065) (0.110) (0.050)
AL12B 7.24 3.30 4.70 2.79 1.27
(0.285) (0.130) (0.185) (0.110) (0.050)
AL016 5.80 5.16 2.85 2.62 1.48
(0.228) (0.203) (0.112) (0.103) (0.058)
AL023 10.0 4.70 5.95 2.42 2.04
(0.394) (0.185) (0.234) (0.095) (0.080)
mm (inches)
mm (inches)
e
d
b
c
a
TINNED LENGTH BETWEEN 30º AND 180º
AL05A, AL05B
AL12A, AL12B, AL016, AL023
7
159
PERFORMANCE SPECIFICATIONS
Air Core RF Inductors
AL Series
210
180
150
120
90
60
30
0
100 1000 10000
Frequency (MHz)
Q
30
25
20
15
10
5
0
10 100 1000 10000
Frequency (MHz)
Inductance (nH)
2.50nH
5.00nH
8.00nH
12.5nH
18.5nH
Inductance vs. Frequency Typical Q vs. Frequency
150
100
50
0
10 100 1000 10000
Frequency (MHz)
Q
18
15
12
9
6
3
0
10 100 1000 10000
Frequency (MHz)
Inductance (nH)
5.60nH
7.15nH
8.80nH
9.85nH
12.6nH
Inductance vs. Frequency Typical Q vs. Frequency
200
150
100
50
0
10 100 1000 10000
Frequency (MHz)
Q
8
6
4
2
0
1 10 100 1000 10000
Frequency (MHz)
Inductance vs. Frequency
Inductance (nH)
5.45nH
3.85nH
2.55nH
1.65nH
Typical Q vs. Frequency
AL05B
AL12A
AL05A
7
160
PERFORMANCE SPECIFICATIONS
Air Core RF Inductors
AL Series
160
140
120
100
80
60
40
10 100 1000
Frequency (MHz)
Q
1000
800
600
400
200
0
1 10 100 1000
Frequency (MHz)
Inductance (nH)
90.0nH
169nH
307nH
538nH
Inductance vs. Frequency Typical Q vs. Frequency
300
250
200
150
100
50
0
10 100 1000 10000
Frequency (MHz)
Q
250
200
150
100
50
0
10 100 1000 10000
Frequency (MHz)
Inductance (nH)
22.0nH
39.0nH
47.0nH
56.0nH
68.0nH
82.0nH
120nH
Inductance vs. Frequency Typical Q vs. Frequency
140
120
100
80
60
40
20
0
100 1000
Frequency (MHz)
Q
200
150
100
50
0
10 100 1000 10000
Frequency (MHz)
Inductance vs. Frequency
Inductance (nH)
17.5nH
22.0nH
28.0nH
35.5nH
43.0nH
Typical Q vs. Frequency
AL016
AL023
AL12B
7
161
TYPICAL RoHS REFLOW PROFILE
Air Core RF Inductors
AL Series
300
250
217
200
150
100
50
0
0 30 60 90 120 150 180 210 240 270 300
Time within 5ºC
of peak temperature
(30 seconds)
Time (seconds)
Temperature (ºC)
Preheat / Soak
(60–120 seconds)
Reflow
Time above 217ºC
(60–150 seconds)
Ramp-Up
3ºC/sec max
Ramp-Down
6ºC/sec max
Peak Temperature
255–260ºC
7
162
PACKAGING SPECIFICATIONS
Air Core RF Inductors
AL Series
Thickness (t)
0.10 (.004) max
Embossed Cavity
Embossed Carrier
User Direction of Feed
No Components
390 (15.354) min
160 (6.299) min
560 (22.047) max
Components
Cover Tape
No Components
• The force for tearing off cover tape is
10 to 130 grams in the arrow direction
Top Cover Tape
165° to 180°
Base Tape
End Start
C
C
AB
T
G
N
MATERIAL: PLASTIC
P
t
W
2.0 ±0.1
(0.079 ±0.004)
1.5 +0.1/-0
(0.059 +0.004/-0)
4.0 ±0.1
(0.157 ±0.004)
1.75 ±0.1
(0.069 ±0.004)
CARRIER TAPE REELS DIMENSIONS OF CARRIER TAPE
Series ITEM A B C N G T W P t
AL05A DIM. 178 21 13 75 8.4 12.5 8 4 0.30
TOL. ±2.0 ±0.8 ±0.8 ±2.0 +1.5 +1.5 ±0.3 ±0.1 ±0.05
AL05B DIM. 180 21 13 50 12.4 18.4 12 4 0.35
TOL. MAX ±0.8 +0.5/-0.2 MIN +2.0 MAX ±0.30 ±0.10 ±0.05
AL12A DIM. 178 25 15 75 12.5 16.4 12 8 0.25
TOL. ±2.0 ±1.0 ±0.5 ±2.0 +1.5 +1.5 ±0.2 ±0.1 ±0.05
AL12B DIM. 178 50 15 75 16.5 20.4 16 8 0.25
TOL. ±2.0 ±1.0 ±0.5 ±2.0 +1.5 +1.5 ±0.2 ±0.1 ±0.05
AL016 DIM. 340 20.2 13 100 16.5 25.5 16 12 0.30
TOL. MAX MIN ±0.5 REF ±0.5 ±0.5 ±0.30 ±0.10 ±0.05
AL023 DIM. 340 20.2 13 100 24.5 30.4 24.0 12.0 0.35
TOL. MAX MIN ±0.5 REF ±0.5 ±0.5 ±0.30 ±0.10 ±0.05
mm (inches)
7
163
AVX Square Air Core RF Inductors, part of the wound air core inductor
family, are ideal for RF circuits, broadband I/O filtering, frequency selection,
or impedance matching. The unique square cross section of the air core
inductor provides better performance, and offers manufacturing
advantages over toroidal coils.
GENERAL DESCRIPTION
AS
Air Core Inductor
(Square Cross
Section)
06
Size
Size
06 = 0806
07 = 0807
08 = 0908
05N5
Inductance
05N5 =5.5nH
06N0 = 6.0nH
12N3 = 12.3nH
J
Tolerance
G = 2%
J = 5%
K = 10%
T
Termination
T = Sn/Ag over Cu
(96.5% Sn, 3% Ag,
0.5% Cu)
R
Packaging
R = 7 inch reel
(2000 pieces per reel)
HOW TO ORDER
ELECTRICAL SPECIFICATIONS
AVX P/N Turns Inductance Tolerance Q Test Freq. DCR max SRF Ir max
(nH) (%) min. (MHz) (mΩ) (GHz) (A)
AS0605N5*TR 3 5.5 G, J, K 60 400 3.4 4.9 2.9
AS0606N0*TR 3 6 G, J, K 64 400 6 5.2 2.9
AS0608N9*TR 4 8.9 G, J, K 90 400 7 4.3 2.9
AS0612N3*TR 5 12.3 G, J, K 90 400 8 4.8 2.9
AS0615N7*TR 6 15.7 G, J, K 90 400 9 4.4 2.9
AS0619N4*TR 7 19.4 G, J, K 90 400 10 4 2.9
AS0706N9*TR 3 6.9 G, J, K 100 400 6 4.6 2.7
AS0710N2*TR 4 10.2 G, J, K 100 400 7 4 2.7
AS0711N2*TR 4 11.2 G, J, K 90 400 6.3 3.6 2.7
AS0713N7*TR 5 13.7 G, J, K 100 400 8 4.3 2.7
AS0717N0*TR 6 17 G, J, K 100 400 9 4 2.7
AS0722N0*TR 7 22 G, J, K 100 400 10 3.5 2.7
AS0808N1*TR 3 8.1 G, J, K 130 400 6 5.2 4.4
AS0812N1*TR 4 12.1 G, J, K 130 400 7 4.3 4.4
AS0814N7*TR 4 14.7 G, J, K 90 400 7.2 3 4.4
AS0816N6*TR 5 16.6 G, J, K 130 400 8 3.4 4.4
AS0821N5*TR 6 21.5 G, J, K 130 400 9 3.7 4.4
AS0823N0*TR 6 23 G, J, K 130 400 10 2.6 4.4
AS0825N0*TR 7 25 G, J, K 130 400 10 2.5 4.4
AS0827N3*TR 7 27.3 G, J, K 130 400 10 3.2 4.4
Note: 1. *Tolerance: G=±2%, J=±5%, K=±10%
2. Inductance & Q measured on the HP4291B. With HP16193A test fixture.
3. SRF measured using the HP8753E
4. Operating Temperature range: -40˚C to +125˚C
5. Electrical Specifications at 25˚C
6. MSL: Level 1
Square Air Core RF Inductors
AS Series
FEATURES
• Square cross section construction
• Available in 0806, 0807, and 0908 sizes
• 20 Inducance values ranging
from 5.5nH to 27.3nH
• High Q
• High Current
• Excellent SRF
Technical Data All technical data related to an ambient temperature of +25˚C
Inductance Range 5.5nH to 27.3nH
Inductance Tolerance 2%, 5%, 10%
Rated Current 2.7A, 2.9A, 4.4A
Operating Temperature -40˚C to +125˚C
Termination 96.5% Tin/3% Silver over 0.5% Copper
ELECTRICAL SPECIFICATIONS
APPLICATIONS
• RF Applications
• RF Circuits
• Broadband I/O Filtering
• Impedance Matching
7
164
PHYSICAL DIMENSIONS
Square Air Core RF Inductors
AS Series
MAX.
MIN.
B
A
C
E
D
F
Part Number A B C D E F
AS0605N5*TR 1.346±0.102 1.829±0.254 1.397±0.102 0.962 2.60 0.51
(0.053±0.004) (0.072±0.01) (0.055±0.004) (0.038) (0.102) (0.020)
AS0606N0*TR 1.295±0.102 1.829±0.254 1.397±0.102 0.99 2.60 0.51
(0.051±0.004) (0.072±0.01) (0.055±0.004) (0.390) (0.102) (0.020)
AS0608N9*TR 1.626±0.152 1.829±0.254 1.397±0.102 1.27 2.60 0.51
(0.640±0.006) (0.072±0.01) (0.055±0.004) (0.050) (0.102) (0.020)
AS0612N3*TR 1.930±0.152 1.829±0.254 1.397±0.102 1.63 2.60 0.51
(0.076±0.006) (0.072±0.01) (0.055±0.004) (0.064) (0.102) (0.020)
AS0615N7*TR 2.286±0.152 1.829±0.254 1.397±0.102 1.96 2.60 0.51
(0.09±0.006) (0.072±0.01) (0.055±0.004) (0.070) (0.102) (0.020)
AS0619N4*TR 2.591±0.152 1.829±0.254 1.397±0.102 2.29 2.60 0.51
(0.102±0.006) (0.072±0.01) (0.055±0.004) (0.090) (0.102) (0.020)
AS0706N9*TR 1.295±0.102 1.829±0.254 1.524±0.254 1.02 2.60 0.51
(0.051±0.004) (0.072±0.01) (0.060±0.010) (0.040) (0.102) (0.020)
AS0710N2*TR 1.626±0.152 1.829±0.254 1.524±0.254 1.32 2.60 0.51
(0.064±0.006) (0.072±0.01) (0.060±0.010) (0.052) (0.102) (0.020)
AS0711N2*TR 1.549±0.152 1.829±0.254 1.524±0.254 1.24 2.60 0.51
(0.061±0.006) (0.072±0.01) (0.060±0.010) (0.049) (0.102) (0.020)
AS0713N7*TR 1.930±0.152 1.829±0.254 1.524±0.254 1.57 2.60 0.51
(0.076±0.006) (0.072±0.01) (0.060±0.010) (0.062) (0.102) (0.020)
AS0717N0*TR 2.286±0.152 1.829±0.254 1.524±0.254 1.93 2.60 0.51
(0.09±0.006) (0.072±0.01) (0.060±0.010) (0.076) (0.102) (0.020)
AS0722N0*TR 2.591±0.152 1.829±0.254 1.524±0.254 2.29 2.60 0.51
(0.102±0.006) (0.072±0.01) (0.060±0.010) (0.090) (0.102) (0.020)
AS0808N1*TR 1.473±0.152 2.134±0.152 1.829±0.152 1.12 2.80 0.64
(0.058±0.006) (0.084±0.006) (0.072±0.006) (0.044) (0.110) (0.025)
AS0812N0*TR 1.854±0.152 2.134±0.152 1.829±0.152 1.45 2.80 0.64
(0.073±0.006) (0.084±0.006) (0.072±0.006) (0.570) (0.110) (0.025)
AS0814N7*TR 1.549±0.152 2.134±0.152 1.829±0.152 1.24 2.80 0.64
(0.061±0.006) (0.084±0.006) (0.072±0.006) (0.049) (0.110) (0.025)
AS0816N6*TR 2.210±0.152 2.134±0.152 1.829±0.152 1.83 2.80 0.64
(0.087±0.006) (0.084±0.006) (0.072±0.006) (0.072) (0.110) (0.025)
AS0821N5*TR 2.565±0.152 2.134±0.152 1.829±0.152 2.18 2.80 0.64
(0.101±0.006) (0.084±0.006) (0.072±0.006) (0.086) (0.110) (0.025)
AS0823N0*TR 2.235±0.152 2.134±0.152 1.829±0.152 1.90 2.80 0.64
(0.088±0.006) (0.084±0.006) (0.072±0.006) (0.075) (0.110) (0.025)
AS0825N0*TR 2.972±0.152 2.134±0.152 1.829±0.152 2.57 2.80 0.64
(0.117±0.006) (0.084±0.006) (0.072±0.006) (0.101) (0.110) (0.025)
AS0827N3*TR 2.972±0.152 2.134±0.152 1.829±0.152 2.57 2.80 0.64
(0.117±0.006) (0.084±0.006) (0.072±0.006) (0.101) (0.110) (0.025)
mm (inches)
7
165
PERFORMANCE SPECIFICATIONS
Square Air Core RF Inductors
AS Series
500
450
400
350
300
250
200
150
100
50
0
10 100 1000 10000
Frequency (MHz)
Q
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
5
0
10 100 1000 10000
Frequency (MHz)
Inductance (nH)
27N3
16N6
12N1
08N1
Inductance vs. Frequency Typical Q vs. Frequency
250
200
150
100
50
0
10 100 1000 10000
Frequency (MHz)
Q
30
25
20
15
10
5
0
10 100 1000 10000
Frequency (MHz)
Inductance (nH)
22N0
17N0
11N2
06N9
Inductance vs. Frequency Typical Q vs. Frequency
160
140
120
100
80
60
40
20
0
10 100 1000 10000
Frequency (MHz)
Q
30
25
20
15
10
5
0
10 100 1000 10000
Frequency (MHz)
Inductance vs. Frequency
Inductance (nH)
19N4
15N7
08N9
05N5
Typical Q vs. Frequency
AS07
AS08
AS06
7
166
TYPICAL RoHS REFLOW PROFILE
Square Air Core RF Inductors
AS Series
300
250
217
200
150
100
50
0
0 30 60 90 120 150 180 210 240 270 300
Time within 5ºC
of peak temperature
(30 seconds)
Time (seconds)
Temperature (ºC)
Preheat / Soak
(60–120 seconds)
Reflow
Time above 217ºC
(60–150 seconds)
Ramp-Up
3ºC/sec max
Ramp-Down
6ºC/sec max
Peak Temperature
255–260ºC
7
167
PACKAGING SPECIFICATIONS
Square Air Core RF Inductors
AS Series
Thickness (t)
0.10 (.004) max
Embossed Cavity
Embossed Carrier
User Direction of Feed
No Components
390 (15.354) min
160 (6.299) min
560 (22.047) max
Components
Cover Tape
No Components
• The force for tearing off cover tape is
10 to 130 grams in the arrow direction
Top Cover Tape
165° to 180°
Base Tape
End Start
C
C
AB
E
T
D1 P1
tE
F
W
G
N
D0 P2 P0
CARRIER TAPE REELS DIMENSIONS OF CARRIER TAPE
ITEMA B C G N T W E F P1P2P0D0D1 t
DIM.178 25 15 12.5 75 16.4 12.0 1.75 5.50 4.00 2.0 4.0 1.5 1.0 0.23
(7.008) (0.984) (0.591) (0.492) (2.953) (0.646) (0.472) (0.069) (0.217) (0.157) (0.079) (0.157) (0.059) (0.039) (0.009)
TOL.±2.0 ±1.0 ±0.5 +1.5 ±2.0 +1.5 ±0.2 ±0.1 ±0.1 ±0.1 ±0.1 ±0.1 +0.1 ±0.1 ±0.05
(0.079) (0.039) (0.020) (0.059) (0.079) (0.059) (0.008) (0.004) (0.004) (0.004) (0.004) (0.004) (0.004) (0.004) (0.020)
mm (inches)
7
168
Wire Wound Chip Inductor
LCWC Series
DIMENSIONS
STANDARD
A
E
F
F
G
C
D
I
I
J
H
Terminal Wraparound:
Approx. 0.007 inches
0.18 (0.007) Both Ends
B
Pad
La
y
out
Overall
Terminal
Type Size A B C D EFGH I J
Weight (g)
(inch) Max. Max. Max. Ref. (1000pcs)
0402 0402 1.27 0.76 0.61 0.15 0.51 0.23 0.56 0.66 0.50 0.46 0.8
(0.050) (0.030) (0.024) (0.006) (0.020) (0.009) (0.022) (0.026) (0.020) (0.018)
0603 0603 1.80 1.12 1.02 0.38 0.76 0.33 0.86 1.02 0.64 0.64 3.46
(0.071) (0.044) (0.040) (0.015) (0.030) (0.013) (0.034) (0.040) (0.025) (0.025)
0805 0805 2.29 1.73 1.52 0.51 1.27 0.44 1.02 1.78 1.02 0.76 12.13
(0.090) (0.068) (0.060) (0.020) (0.050) (0.017) (0.040) (0.070) (0.040) (0.030)
1008 1008 2.92 2.79 2.13 0.65 2.03 0.51 1.52 2.54 1.02 1.27 30.73
(0.115) (0.110) (0.084) (0.026) (0.080) (0.020) (0.060) (0.100) (0.040) (0.050)
1206 1206 3.45 1.90 1.40 0.50 1.60 0.50 2.20 1.93 1.02 1.78 40
(0.136) (0.075) (0.055) (0.020) (0.063) (0.020) (0.087) (0.076) (0.040) (0.070)
mm (inches)
LOW PROFILE
Type Size A B C D EFGH I J
(inch) Max. Max. Max. Ref.
0805 0805 2.29 1.73 1.03 0.51 1.27 0.44 1.02 1.78 1.02 0.76
(0.090) (0.068) (0.041) (0.020) (0.050) (0.017) (0.040) (0.070) (0.040) (0.030)
1008 1008 2.92 2.79 1.40 0.65 2.03 0.51 1.52 2.54 1.02 1.27
(0.115) (0.110) (0.055) (0.026) (0.080) (0.020) (0.060) (0.100) (0.040) (0.050)
mm (inches)
HIGH CURRENT/HIGH Q
Type Size A B C D EFGH I J
(inch) Max. Max. Max. Ref.
0603 0603 1.80 1.12 1.02 0.38 0.76 0.33 0.86 1.02 0.64 0.64
(0.071) (0.044) (0.040) (0.015) (0.030) (0.013) (0.034) (0.040) (0.025) (0.025)
0805 0805 2.29 1.73 1.52 0.51 1.27 0.44 1.02 1.78 1.02 0.76
(0.090) (0.068) (0.060) (0.020) (0.050) (0.017) (0.040) (0.070) (0.040) (0.030)
1008 1008 2.92 2.79 2.03 0.65 2.03 0.51 1.52 2.54 1.02 1.27
(0.115) (0.110) (0.080) (0.026) (0.080) (0.020) (0.060) (0.100) (0.040) (0.050)
mm (inches)
Ceramic Core
Electrode
(Ag/Pd+Ni+Sn)
Magnet Wire
UV Glue
FEATURES
• Ceramic base provide high SRF
• Ultra-compact inductors provide high Q factors
• Low profile, high current are available
Miniature SMD chip inductor for fully automated
assembly
Outstanding endurance from Pull-up force,
mechanical shock and pressure
• Tighter tolerance down to ±2%
• Smaller size of 0402 (1005)
APPLICATIONS
RF Products:
• Cellular Phone (CDMA/GSM/PHS)
• Cordless Phone (DECT/CT1CT2)
• Remote Control, Security System
• Wireless PDA
• Smart Phone
• WLL, Wireless LAN / Mouse /
Keyboard / Earphone
• VCO, RF Module & Other Wireless Products
• Base Station, Repeater
• GPS Receiver
Broad Band Applications:
• CATV Filter, Tuner
• Cable Modem/ XDSL Tuner
• Set Top Box
IT Applications:
• USB 2.0
• IEEE 1394
CONSTRUCTION COLOR CODING
Color Coding
7
169
Wire Wound Chip Inductor
LCWC Series
LC
Family
LC = Chip Inductor
WC
Series
WC = WW Ceramic
0402
Size
0402
0603
0805
1008
1206
K
Tolerance
G = 2%
J = 5%
K = 10%
R
Packaging
R = 7" Reel
101
Inductance
3N9 = 3.9nH
39N = 39nH
R39 = 390nH
3R9 = 3900nH
153 = 15000nH
G
Style
G = Standard
Q = High Q/
Current
R = Low Profile
T
Termination
T = Sn Plate
A
Special
A = Standard
HOW TO ORDER
0402
STANDARD ELECTRICAL SPECIFICATIONS
lnductance Tolerance L Freq. Quality Factor SRF DCR lDC 900MHz 1.7GHz
(nH) (MHz) Min. Factor (Ω) max. (mA) max. L Q L Q
1.0 ±10% 250 16 12.70 0.045 1360 1.02 77 1.02 69
1.9 ±10% 250 16 11.30 0.070 1040 1.72 68 1.74 82
2.0 ±10% 250 16 11.10 0.070 1040 1.93 54 1.93 75
2.2 ±10% 250 19 10.80 0.070 960 2.19 59 2.23 100
2.4 ±10% 250 15 10.50 0.070 790 2.24 51 2.27 68
2.7 ±10% 250 16 10.40 0.120 640 2.23 42 2.25 61
3.3 ±10% 250 19 7.00 0.066 840 3.10 65 3.12 87
3.6 ±5, ±10% 250 19 6.80 0.066 840 3.56 45 3.62 71
3.9 ±5, ±10% 250 19 5.80 0.066 840 3.89 50 4.00 75
4.3 ±5, ±10% 250 18 6.00 0.091 700 4.19 47 4.30 71
4.7 ±5, ±10% 250 18 4.70 0.130 640 4.55 48 4.68 68
5.1 ±5, ±10% 250 20 4.80 0.083 800 5.15 56 5.25 82
5.6 ±5, ±10% 250 20 4.80 0.083 760 5.16 54 5.28 81
6.2 ±5, ±10% 250 20 4.80 0.083 760 6.16 52 6.37 76
6.8 ±5, ±10% 250 20 4.80 0.083 680 6.56 63 6.93 78
7.5 ±5, ±10% 250 22 4.80 0.104 680 7.91 60 8.22 88
8.2 ±5, ±10% 250 22 4.40 0.104 680 8.50 57 8.85 84
8.7 ±5, ±10% 250 18 4.10 0.200 480 8.78 54 9.21 73
9.0 ±5, ±10% 250 22 4.16 0.104 680 9.07 62 9.53 78
9.5 ±5, ±10% 250 18 4.00 0.200 480 9.42 54 9.98 69
10 ±2, ±5, ±10% 250 21 3.90 0.195 480 9.80 50 10.10 67
11 ±2, ±5, ±10% 250 24 3.68 0.120 640 10.70 52 11.20 78
12 ±2, ±5, ±10% 250 24 3.60 0.120 640 11.90 53 12.70 71
13 ±2, ±5, ±10% 250 24 3.45 0.210 440 13.40 51 14.60 57
15 ±2, ±5, ±10% 250 24 3.28 0.172 560 14.60 55 15.50 77
16 ±2, ±5, ±10% 250 24 3.10 0.220 560 16.60 46 18.80 47
18 ±2, ±5, ±10% 250 25 3.10 0.230 420 18.30 57 20.30 62
19 ±2, ±5, ±10% 250 24 3.04 0.202 480 19.10 50 21.10 67
20 ±2, ±5, ±10% 250 25 3.00 0.250 420 20.70 52 23.70 53
22 ±2, ±5, ±10% 250 25 2.80 0.300 400 23.20 53 26.80 53
23 ±2, ±5, ±10% 250 24 2.72 0.300 400 23.80 49 26.90 64
24 ±2, ±5, ±10% 250 25 2.70 0.300 400 25.10 51 29.50 50
27 ±2, ±5, ±10% 250 24 2.48 0.300 400 28.70 49 33.50 63
30 ±2, ±5, ±10% 250 25 2.35 0.350 400 31.10 46 38.50 39
33 ±2, ±5, ±10% 250 24 2.35 0.350 400 34.90 31 41.70 32
36 ±2, ±5, ±10% 250 24 2.32 0.440 320 39.50 44 48.40 53
39 ±2, ±5, ±10% 250 25 2.10 0.550 200 41.70 47 50.20 45
40 ±2, ±5, ±10% 250 24 2.24 0.500 320 39.00 44 47.40 33
43 ±2, ±5, ±10% 250 25 2.03 0.810 100 45.80 46 61.60 34
47 ±2, ±5, ±10% 250 25 2.10 0.830 150 50.00 38 55.80 37
51 ±2, ±5, ±10% 250 25 1.75 0.820 100 50.40 47 59.40 37
56 ±2, ±5, ±10% 250 25 1.76 0.970 100 57.40 49 72.40 40
68 ±2, ±5, ±10% 250 22 1.62 1.120 100 69.60 45 83.40 38
7
170
Wire Wound Chip Inductor
LCWC Series
0603
lnductance Tolerance L Freq. Quality Factor SRF DCR lDC 900MHz 1.7GHz Color
(nH) (MHz) Min. Factor (Ω) max. (mA) max. L Q L Q Code
1.6 ±5, ±10% 250 24 12.5 0.030 700 1.53 35 1.58 55 Blue
1.8 ±5, ±10% 250 16 12.5 0.045 700 1.63 35 1.66 50 Black
2.2 ±5, ±10% 250 15 6.00 0.100 700 2.18 41 2.20 64 White
2.3 ±5, ±10% 250 16 >4.00 0.140 700 2.32 32 2.35 40 Yellow
3.3 ±2, ±5, ±10% 250 22 >6.00 0.080 700 3.35 47 3.40 65 Red
3.6 ±2, ±5, ±10% 250 22 5.80 0.063 700 3.53 49 3.58 65 Violet
3.9 ±2, ±5, ±10% 250 22 >6.00 0.080 700 3.95 49 3.96 67 Brown
4.3 ±2, ±5, ±10% 250 22 5.80 0.063 700 4.32 49 4.43 67 Orange
4.5 ±2, ±5, ±10% 250 20 5.80 0.120 700 4.74 55 4.87 92 Gray
4.7 ±2, ±5, ±10% 250 25 5.80 0.120 700 4.65 53 4.80 67 Violet
5.1 ±2, ±5, ±10% 250 20 5.80 0.160 700 5.13 47 5.36 56 Green
5.6 ±2, ±5, ±10% 250 20 5.80 0.170 700 5.53 56 5.86 77 Yellow
6.2 ±2, ±5, ±10% 250 25 5.80 0.110 700 6.28 60 6.40 85 Black
6.3 ±2, ±5, ±10% 250 25 5.80 0.110 700 6.67 41 6.86 61 Black
6.8 ±2, ±5, ±10% 250 27 5.80 0.110 700 6.75 60 7.10 81 Red
7.5 ±2, ±5, ±10% 250 28 4.80 0.106 700 7.70 60 7.82 65 Brown
8.2 ±2, ±5, ±10% 250 27 4.80 0.110 700 8.25 64 8.40 81 Green
8.7 ±2, ±5, ±10% 250 28 4.80 0.109 700 8.86 62 9.32 58 Yellow
9.1 ±2, ±5, ±10% 250 35 4.80 0.130 700 9.20 70 9.70 80 Black
9.5 ±2, ±5, ±10% 250 28 5.40 0.135 700 9.70 59 9.92 61 Blue
10 ±2, ±5, ±10% 250 31 4.80 0.130 700 10.0 66 10.6 83 Orange
11 ±2, ±5, ±10% 250 31 4.00 0.086 700 11.3 53 12.1 56 Gray
12 ±2, ±5, ±10% 250 35 4.00 0.130 700 12.3 72 13.5 83 Yellow
15 ±2, ±5, ±10% 250 35 4.00 0.170 700 15.4 64 16.8 89 Green
16 ±2, ±5, ±10% 250 35 3.30 0.110 700 16.5 55 18.0 52 White
17 ±2, ±5, ±10% 250 35 3.20 0.170 700 17.6 56 19.4 44 Red
18 ±2, ±5, ±10% 250 35 3.10 0.170 700 18.7 70 21.4 69 Blue
20 ±2, ±5, ±10% 250 40 3.00 0.190 700 20.7 80 23.5 30 Green
22 ±2, ±5, ±10% 250 38 3.00 0.190 700 22.8 73 26.1 71 Violet
23 ±2, ±5, ±10% 250 38 2.85 0.190 700 24.1 71 28.0 71 Orange
24 ±2, ±5, ±10% 250 38 2.80 0.130 700 25.7 45 30.9 40 Black
27 ±2, ±5, ±10% 250 40 2.80 0.220 600 29.2 74 34.6 65 Gray
30 ±2, ±5, ±10% 250 40 2.80 0.150 600 31.4 47 39.8 28 Brown
33 ±2, ±5, ±10% 250 40 2.30 0.220 600 36.0 67 49.5 42 White
36 ±2, ±5, ±10% 250 37 2.30 0.250 600 39.1 47 48.9 24 Red
39 ±2, ±5, ±10% 250 40 2.20 0.250 600 42.7 60 60.2 40 Black
43 ±2, ±5, ±10% 200 38 2.00 0.280 600 46.9 44 60.3 21 Orange
47 ±2, ±5, ±10% 200 38 2.00 0.280 600 52.2 62 77.2 35 Brown
51 ±2, ±5, ±10% 200 38 1.90 0.280 600 55.5 69 82.2 34 Blue
56 ±2, ±5, ±10% 200 38 1.90 0.310 600 62.5 56 97.0 26 Red
62 ±2, ±5, ±10% 200 37 1.80 0.340 600 68.0 40 110 10 Gray
68 ±2, ±5, ±10% 200 37 1.70 0.340 600 80.5 54 168 21 Orange
72 ±2, ±5, ±10% 150 34 1.70 0.490 600 82.0 53 135 20 Yellow
82 ±2, ±5, ±10% 150 34 1.70 0.540 400 96.2 54 177 21 Green
91 ±2, ±5, ±10% 150 30 1.70 0.500 400 110.0 50 416.4 6 Brown
100 ±2, ±5, ±10% 150 34 1.40 0.580 400 124.0 49 319.5 13 Blue
110 ±2, ±5, ±10% 150 32 1.35 0.610 300 138.0 43 342.7 15 Violet
120 ±2, ±5, ±10% 150 32 1.30 0.650 300 166.0 39 529.3 8 Gray
130 ±2, ±5, ±10% 150 30 1.40 0.720 300 185.0 60 - - White
140 ±2, ±5, ±10% 100 28 1.30 0.870 280 190.0 80 - - Blue
150 ±2, ±5, ±10% 100 28 1.30 0.950 280 230.0 25 - - White
160 ±2, ±5, ±10% 100 25 1.30 1.400 280 215.0 20 - - Yellow
180 ±2, ±5, ±10% 100 25 1.25 1.400 250 305.0 22 - - Black
220 ±2, ±5, ±10% 100 25 1.20 1.600 250 377.0 21 - - Brown
260 ±2, ±5, ±10% 100 25 1.00 2.000 200 469.0 21 - - Violet
270 ±2, ±5, ±10% 100 25 0.90 2.100 200 523.0 19 - - Red
280 ±2, ±5, ±10% 100 25 1.00 2.400 100 524.0 18 - - Green
300 ±2, ±5, ±10% 100 25 0.75 2.500 150 539.7 21 - - Orange
330 ±2, ±5, ±10% 100 25 0.90 3.800 100 680.4 20 - - Blue
390 ±2, ±5, ±10% 100 25 0.90 4.350 100 734.5 29 - - Yellow
470 ±2, ±5, ±10% 100 23 0.60 3.600 80 - - - - White
7
171
Wire Wound Chip Inductor
LCWC Series
0805
Inductance Tolerance L Freq. Quality Factor SRF DCR IDC Color Code
(nH) (MHz) min. (GHz) min. (Ω) max. (mA) max.
2.7 ±5, ±10% 250 80 @ 1500MHz 7.900 0.06 800 Brown
2.8 ±5, ±10% 250 80 @ 1500MHz 7.900 0.06 800 Gray
3.0 ±5, ±10% 250 65 @ 1500MHz 7.900 0.06 800 White
3.3 ±5, ±10% 250 50 @ 1500MHz 6.000 0.08 600 Black
5.6 ±5, ±10% 250 65 @ 1000MHz 5.500 0.08 600 Orange
6.2 ±5, ±10% 250 50 @ 1000MHz 5.500 0.11 600 Green
6.8 ±5, ±10% 250 50 @ 1000MHz 5.500 0.11 600 Brown
7.5 ±5, ±10% 250 50 @ 1000MHz 4.500 0.14 600 Green
8.2 ±5, ±10% 250 50 @ 1000MHz 4.700 0.12 600 Red
8.7 ±5, ±10% 250 50 @ 1000MHz 4.000 0.21 400 White
10 ±2, ±5, ±10% 250 60 @ 500MHz 4.200 0.10 600 Blue
12 ±2, ±5, ±10% 250 50 @ 500MHz 4.000 0.15 600 Orange
15 ±2, ±5, ±10% 250 50 @ 500MHz 3.400 0.17 600 Yellow
18 ±2, ±5, ±10% 250 50 @ 500MHz 3.300 0.20 600 Green
22 ±2, ±5, ±10% 250 55 @ 500MHz 2.600 0.22 500 Blue
24 ±2, ±5, ±10% 250 50 @ 500MHz 2.000 0.22 500 Gray
27 ±2, ±5, ±10% 250 55 @ 500MHz 2.500 0.25 500 Violet
33 ±2, ±5, ±10% 250 60 @ 500MHz 2.050 0.27 500 Gray
36 ±2, ±5, ±10% 250 55 @ 500MHz 1.700 0.27 500 Orange
39 ±2, ±5, ±10% 250 60 @ 500MHz 2.000 0.29 500 White
43 ±2, ±5, ±10% 200 60 @ 500MHz 1.650 0.34 500 Yellow
47 ±2, ±5, ±10% 200 60 @ 500MHz 1.650 0.31 500 Black
56 ±2, ±5, ±10% 200 60 @ 500MHz 1.550 0.34 500 Brown
68 ±2, ±5, ±10% 200 60 @ 500MHz 1.450 0.38 500 Red
72 ±2, ±5, ±10% 150 65 @ 500MHz 1.400 0.40 500 Green
82 ±2, ±5, ±10% 150 65 @ 500MHz 1.300 0.42 400 Orange
91 ±2, ±5, ±10% 150 65 @ 500MHz 1.200 0.48 400 Black
100 ±2, ±5, ±10% 150 65 @ 500MHz 1.200 0.46 400 Yellow
110 ±2, ±5, ±10% 150 50 @ 250MHz 1.000 0.48 400 Brown
120 ±2, ±5, ±10% 150 50 @ 250MHz 1.100 0.51 400 Green
150 ±2, ±5, ±10% 100 50 @ 250MHz 0.920 0.56 400 Blue
180 ±2, ±5, ±10% 100 50 @ 250MHz 0.870 0.64 400 Violet
200 ±2, ±5, ±10% 100 50 @ 250MHz 0.860 0.66 400 Orange
220 ±2, ±5, ±10% 100 50 @ 250MHz 0.850 0.70 400 Gray
240 ±2, ±5, ±10% 100 44 @ 250MHz 0.690 1.00 350 Red
250 ±2, ±5, ±10% 100 50 @ 250MHz 0.680 1.00 350 Green
270 ±2, ±5, ±10% 100 48 @ 250MHz 0.650 1.00 350 White
300 ±2, ±5, ±10% 100 48 @ 250MHz 0.620 1.20 330 Yellow
330 ±2, ±5, ±10% 100 48 @ 250MHz 0.600 1.40 310 Black
360 ±2, ±5, ±10% 100 48 @ 250MHz 0.580 1.45 300 Green
390 ±2, ±5, ±10% 100 48 @ 250MHz 0.560 1.50 290 Brown
430 ±2, ±5, ±10% 50 33 @ 100MHz 0.430 1.70 230 Blue
470 ±2, ±5, ±10% 50 33 @ 100MHz 0.375 1.70 250 Red
560 ±2, ±5, ±10% 25 23 @ 50MHz 0.340 1.90 230 Orange
600 ±2, ±5, ±10% 25 23 @ 50MHz 0.260 1.60 450 White
620 ±2, ±5, ±10% 25 23 @ 50MHz 0.220 2.20 210 Yellow
680 ±2, ±5, ±10% 25 23 @ 50MHz 0.200 2.20 190 Green
750 ±2, ±5, ±10% 25 23 @ 50MHz 0.200 2.30 180 Blue
820 ±2, ±5, ±10% 25 23 @ 50MHz 0.200 2.35 180 Violet
1000 ±2, ±5, ±10% 25 20 @ 50MHz 0.100 2.50 170 Gray
1200 ±2, ±5, ±10% 7.9 18 @ 25MHz 0.100 2.50 170 White
1500 ±2, ±5, ±10% 7.9 16 @ 25MHz 0.100 2.50 170 Black
1800 ±2, ±5, ±10% 7.9 16 @ 7.9MHz 0.080 2.50 170 Brown
2200 ±2, ±5, ±10% 7.9 16 @ 7.9MHz 0.060 2.70 160 Red
2700 ±2, ±5, ±10% 7.9 16 @ 7.9MHz 0.050 3.10 150 Orange
3300 ±2, ±5, ±10% 7.9 15 @ 7.9MHz 0.040 4.40 90 Blue
4700 ±2, ±5, ±10% 7.9 15 @ 7.9MHz 0.040 6.40 90 Green
7
172
Wire Wound Chip Inductor
LCWC Series
1008
Inductance Tolerance L Freq. Quality Factor SRF DCR IDC Color Code
(nH) (MHz) min. (GHz) min. (Ω) max. (mA) max.
*5.6 ±5, ±10% 50 50 @ 1500MHz 4.000 0.15 1000 Black
*10 ±2, ±5, ±10% 50 50 @ 500MHz 4.100 0.08 1000 Brown
*12 ±2, ±5, ±10% 50 50 @ 500MHz 3.300 0.09 1000 Red
*15 ±2, ±5, ±10% 50 50 @ 500MHz 2.500 0.11 1000 Orange
*18 ±2, ±5, ±10% 50 50 @ 350MHz 2.400 0.12 1000 Yellow
*22 ±2, ±5, ±10% 50 55 @ 350MHz 2.400 0.12 1000 Green
24 ±2, ±5, ±10% 50 55 @ 350MHz 1.900 0.13 1000 Blue
*27 ±2, ±5, ±10% 50 55 @ 350MHz 1.600 0.13 1000 Violet
*33 ±2, ±5, ±10% 50 60 @ 350MHz 1.600 0.14 1000 Gray
36 ±2, ±5, ±10% 50 60 @ 350MHz 1.600 0.15 1000 Orange
*39 ±2, ±5, ±10% 50 60 @ 350MHz 1.500 0.15 1000 White
*47 ±2, ±5, ±10% 50 65 @ 350MHz 1.500 0.16 1000 Black
*56 ±2, ±5, ±10% 50 65 @ 350MHz 1.300 0.18 1000 Brown
*62 ±2, ±5, ±10% 50 65 @ 350MHz 1.250 0.20 1000 Blue
*68 ±2, ±5, ±10% 50 65 @ 350MHz 1.300 0.20 1000 Red
75 ±2, ±5, ±10% 50 60 @ 350MHz 1.100 0.21 1000 White
*82 ±2, ±5, ±10% 50 60 @ 350MHz 1.000 0.22 1000 Orange
91 ±2, ±5, ±10% 50 50 @ 350MHz 1.000 0.45 1000 White
*100 ±2, ±5, ±10% 25 60 @ 350MHz 1.000 0.56 650 Yellow
*120 ±2, ±5, ±10% 25 60 @ 350MHz 0.950 0.63 650 Green
*150 ±2, ±5, ±10% 25 45 @ 100MHz 0.850 0.70 800 Blue
*180 ±2, ±5, ±10% 25 45 @ 100MHz 0.750 0.77 620 Violet
*220 ±2, ±5, ±10% 25 45 @ 100MHz 0.700 0.84 500 Gray
*240 ±2, ±5, ±10% 25 45 @ 100MHz 0.650 0.88 500 White
*270 ±2, ±5, ±10% 25 45 @ 100MHz 0.600 0.91 690 Black
*300 ±2, ±5, ±10% 25 45 @ 100MHz 0.585 1.00 450 Brown
*330 ±2, ±5, ±10% 25 45 @ 100MHz 0.570 1.05 450 Red
*360 ±2, ±5, ±10% 25 45 @ 100MHz 0.530 1.10 470 Orange
*390 ±2, ±5, ±10% 25 45 @ 100MHz 0.500 1.12 630 Yellow
*430 ±2, ±5, ±10% 25 45 @ 100MHz 0.480 1.15 470 Green
*470 ±2, ±5, ±10% 25 45 @ 100MHz 0.450 1.19 470 Blue
*560 ±2, ±5, ±10% 25 45 @ 100MHz 0.415 1.33 580 Violet
*620 ±2, ±5, ±10% 25 45 @ 100MHz 0.375 1.40 300 Gray
*680 ±2, ±5, ±10% 25 45 @ 100MHz 0.375 1.47 540 White
*750 ±2, ±5, ±10% 25 45 @ 100MHz 0.360 1.54 360 Black
*820 ±2, ±5, ±10% 25 45 @ 100MHz 0.350 1.61 400 Brown
*910 ±2, ±5, ±10% 25 35 @ 50MHz 0.320 1.68 380 Red
*1000 ±2, ±5, ±10% 25 35 @ 50MHz 0.290 1.75 370 Orange
*1200 ±2, ±5, ±10% 7.9 35 @ 50MHz 0.250 2.00 310 Yellow
*1500 ±2, ±5, ±10% 7.9 28 @ 50MHz 0.200 2.30 330 Green
*1800 ±2, ±5, ±10% 7.9 28 @ 50MHz 0.160 2.60 300 Blue
*2200 ±2, ±5, ±10% 7.9 28 @ 50MHz 0.160 2.80 280 Violet
*2700 ±2, ±5, ±10% 7.9 22 @ 25MHz 0.140 3.20 290 Gray
*3300 ±2, ±5, ±10% 7.9 22 @ 25MHz 0.110 3.40 290 White
*3900 ±2, ±5, ±10% 7.9 18 @ 25MHz 0.100 3.60 260 Black
*4700 ±2, ±5, ±10% 7.9 18 @ 25MHz 0.090 4.00 260 Brown
5600 ±2, ±5, ±10% 7.9 16 @ 7.96MHz 0.020 4.00 240 Red
6800 ±2, ±5, ±10% 7.9 15 @ 7.96MHz 0.040 4.90 200 Orange
8200 ±2, ±5, ±10% 7.9 15 @ 7.96MHz 0.025 6.00 170 Yellow
10000 ±2, ±5, ±10% 2.52 15 @ 7.96MHz 0.020 9.00 150 Green
12000 ±2, ±5, ±10% 2.52 15 @ 7.96MHz 0.018 10.5 130 Blue
15000 ±2, ±5, ±10% 2.52 15 @ 7.96MHz 0.015 11.5 120 Violet
*Test Methods I Instrument: Network I Spectrum Analyzer
7
173
Wire Wound Chip Inductor
LCWC Series
1206
Inductance Tolerance L Freq. Quality Factor SRF DCR IDC Color Code
(nH) (MHz) min. (GHz) min. (Ω) max. (mA) max.
6.8 ±5, ±10% 100 30 @ 300MHz 5.50 0.07 1000 Brown
10 ±5, ±10% 100 40 @ 300MHz 4.00 0.08 1000 Red
12 ±5, ±10% 100 40 @ 300MHz 3.20 0.08 1000 Orange
15 ±5, ±10% 100 40 @ 300MHz 3.20 0.10 1000 Yellow
18 ±5, ±10% 100 50 @ 300MHz 2.80 0.10 1000 Green
22 ±5, ±10% 100 50 @ 300MHz 2.20 0.10 1000 Blue
24 ±5, ±10% 100 50 @ 300MHz 2.00 0.10 1000 Red
27 ±2, ±5, ±10% 100 50 @ 300MHz 1.80 0.11 1000 Violet
33 ±2, ±5, ±10% 100 55 @ 300MHz 1.80 0.11 1000 Gray
39 ±2, ±5, ±10% 100 55 @ 300MHz 1.80 0.12 1000 White
47 ±2, ±5, ±10% 100 55 @ 300MHz 1.50 0.13 1000 Black
56 ±2, ±5, ±10% 100 55 @ 300MHz 1.45 0.14 1000 Brown
62 ±2, ±5, ±10% 100 55 @ 300MHz 1.20 0.20 1000 Violet
68 ±2, ±5, ±10% 100 55 @ 300MHz 1.20 0.26 950 Red
82 ±2, ±5, ±10% 100 55 @ 300MHz 1.20 0.21 920 Orange
91 ±2, ±5, ±10% 100 55 @ 300MHz 1.10 0.24 900 White
100 ±2, ±5, ±10% 100 55 @ 300MHz 1.10 0.26 850 Yellow
120 ±2, ±5, ±10% 100 55 @ 300MHz 0.75 0.26 800 Green
150 ±2, ±5, ±10% 100 60 @ 300MHz 0.95 0.31 750 Blue
180 ±2, ±5, ±10% 50 55 @ 300MHz 0.90 0.43 700 Violet
220 ±2, ±5, ±10% 50 55 @ 300MHz 0.76 0.50 670 Gray
270 ±2, ±5, ±10% 50 55 @ 300MHz 0.74 0.56 630 White
300 ±2, ±5, ±10% 50 50 @ 150MHz 0.68 0.60 600 Green
330 ±2, ±5, ±10% 50 45 @ 150MHz 0.65 0.62 590 Black
360 ±2, ±5, ±10% 50 45 @ 150MHz 0.60 0.65 550 Blue
390 ±2, ±5, ±10% 50 45 @ 150MHz 0.60 0.75 530 Brown
470 ±2, ±5, ±10% 50 45 @ 150MHz 0.55 1.30 490 Red
560 ±2, ±5, ±10% 35 45 @ 150MHz 0.47 1.34 460 Orange
620 ±2, ±5, ±10% 35 45 @ 150MHz 0.47 1.58 460 Gray
680 ±2, ±5, ±10% 35 45 @ 150MHz 0.45 1.58 430 Yellow
750 ±2, ±5, ±10% 35 45 @ 150MHz 0.44 2.25 320 White
820 ±2, ±5, ±10% 35 45 @ 150MHz 0.42 1.82 400 Green
910 ±2, ±5, ±10% 35 45 @ 150MHz 0.41 2.95 310 Green
1000 ±2, ±5, ±10% 35 45 @ 150MHz 0.40 2.80 320 Blue
1200 ±2, ±5, ±10% 35 45 @ 150MHz 0.38 3.20 300 Violet
7
174
Wire Wound Chip Inductor
LCWC Series
LOW PROFILE ELECTRICAL SPECIFICATIONS
0805
Inductance Tolerance L Freq. Quality Factor SRF DCR IDC Color Code
(nH) (MHz) min. (GHz) min. (Ω) max. (mA) max.
1.8 ±5% 250 55 @ 1500MHz 9.40 0.03 800 Black
3.9 ±5, ±10% 250 60 @ 1000MHz 6.10 0.06 800 Brown
4.7 ±5, ±10% 250 50 @ 1000MHz 5.50 0.06 800 Red
6.8 ±5, ±10% 250 50 @ 1000MHz 5.50 0.08 800 Orange
8.2 ±5, ±10% 250 50 @ 1000MHz 4.80 0.08 800 Yellow
10 ±2, ±5, ±10% 250 55 @ 750MHz 3.30 0.08 800 Green
12 ±2, ±5, ±10% 250 55 @ 750MHz 3.80 0.10 800 Blue
15 ±2, ±5, ±10% 250 50 @ 500MHz 2.95 0.10 800 Violet
18 ±2, ±5, ±10% 250 50 @ 500MHz 3.10 0.13 800 Gray
22 ±2, ±5, ±10% 250 50 @ 500MHz 2.90 0.15 800 Whit
27 ±2, ±5, ±10% 250 50 @ 500MHz 2.45 0.23 600 Black
33 ±2, ±5, ±10% 250 50 @ 500MHz 2.35 0.28 600 Brown
39 ±2, ±5, ±10% 250 50 @ 500MHz 2.20 0.33 600 Red
47 ±2, ±5, ±10% 200 50 @ 500MHz 2.00 0.39 600 Orange
56 ±2, ±5, ±10% 200 50 @ 500MHz 1.85 0.39 500 Yellow
68 ±2, ±5, ±10% 200 50 @ 500MHz 1.50 0.40 500 Green
82 ±2, ±5, ±10% 150 50 @ 500MHz 1.50 0.44 500 Blue
100 ±2, ±5, ±10% 150 50 @ 500MHz 1.20 0.64 400 Violet
120 ±2, ±5, ±10% 150 40 @ 250MHz 1.15 0.68 300 Gray
150 ±2, ±5, ±10% 150 40 @ 250MHz 1.05 0.80 300 Whit
1000 ±2, ±5, ±10% 25 16 @ 50MHz 0.08 3.50 170 Black
1008
Inductance Tolerance L Freq. Quality Factor SRF DCR IDC Color Code
(nH) (MHz) min. (GHz) min. (Ω) max. (mA) max.
3.3 ±5, ±10% 50 42 @ 1500MHz 6.00 0.03 1000 White
4.2 ±5, ±10% 50 42 @ 1500MHz 6.00 0.15 1000 Black
6.8 ±5, ±10% 50 50 @ 1500MHz 5.40 0.17 1000 Brown
8.2 ±5, ±10% 50 50 @ 1500MHz 5.00 0.22 1000 Red
15 ±5, ±10% 50 57 @ 500MHz 3.00 0.22 1000 Orange
18 ±5, ±10% 50 50 @ 350MHz 2.40 0.12 1000 Gray
20 ±5, ±10% 50 72 @ 500MHz 2.40 0.33 1000 Yellow
27 ±5, ±10% 50 50 @ 350MHz 1.60 0.13 850 Green
30 ±5, ±10% 50 69 @ 500MHz 2.40 0.38 600 Blue
40 ±5, ±10% 50 67 @ 500MHz 2.00 0.43 600 Violet
50 ±2, ±5, ±10% 50 72 @ 500MHz 1.90 0.48 600 Gray
60 ±2, ±5, ±10% 50 75 @ 500MHz 1.80 0.52 600 White
70 ±2, ±5, ±10% 50 68 @ 500MHz 1.70 0.55 510 Black
80 ±2, ±5, ±10% 50 75 @ 500MHz 1.40 0.56 510 Brown
180 ±2, ±5, ±10% 50 50 @ 350MHz 0.90 0.40 450 Blue
560 ±2, ±5, ±10% 25 40 @ 100MHz 0.415 1.33 400 Red
7
175
HIGH CURRENT ELECTRICAL SPECIFICATIONS
0603
Inductance Tolerance L Freq. Quality Factor SRF DCR IDC Color Code
(nH) (MHz) min. (GHz) min. (Ω) max. (mA) max.
1.6 ±5, ±10% 250 24 12.50 0.030 2400 Black
3.6 ±5, ±10% 250 24 5.90 0.048 2300 Brown
3.9 ±5, ±10% 250 25 5.90 0.054 2200 Red
6.8 ±5, ±10% 250 35 5.80 0.054 2100 Orange
7.5 ±5, ±10% 250 38 3.70 0.059 2100 Yellow
8.2 ±5, ±10% 250 38 3.70 0.060 2000 White
10 ±2, ±5, ±10% 250 38 3.70 0.071 2000 Green
12 ±2, ±5, ±10% 250 38 3.00 0.075 2000 Blue
15 ±2, ±5, ±10% 250 38 2.80 0.080 1900 Violet
18 ±2, ±5, ±10% 250 40 2.80 0.099 1900 Gray
22 ±2, ±5, ±10% 250 42 2.40 0.099 1800 White
24 ±2, ±5, ±10% 250 42 2.40 0.105 1800 Black
HIGH Q ELECTRICAL SPECIFICATIONS
0805
Inductance Tolerance L Freq. Quality Factor SRF DCR IDC Color Code
(nH) (MHz) min. (GHz) min. (Ω) max. (mA) max.
2.5 ±5, ±10% 250 80 @ 1500MHz 6.00 0.020 1600 Black
5.6 ±5, ±10% 250 98 @ 1500MHz 6.00 0.035 1600 Brown
6.2 ±5, ±10% 250 88 @ 1000MHz 4.75 0.035 1600 Red
6.8 ±5, ±10% 250 80 @ 1000MHz 4.40 0.035 1600 White
8.2 ±5, ±10% 250 75 @ 1000MHz 3.00 0.075 1000 Gray
10 ±5, ±10% 250 80 @ 1000MHz 3.00 0.060 1600 Black
12 ±5, ±10% 250 80 @ 1000MHz 3.00 0.045 1600 Orange
15 ±2, ±5, ±10% 250 80 @ 1000MHz 2.80 0.100 1200 Black
16 ±2, ±5, ±10% 250 72 @ 500MHz 2.95 0.060 1500 Yellow
18 ±2, ±5, ±10% 250 75 @ 500MHz 2.55 0.060 1400 Green
20 ±2, ±5, ±10% 250 70 @ 500MHz 2.05 0.055 1400 Blue
22 ±2, ±5, ±10% 250 80 @ 500MHz 2.00 0.100 1200 Black
27 ±2, ±5, ±10% 250 75 @ 500MHz 2.00 0.070 1300 Violet
30 ±2, ±5, ±10% 250 65 @ 500MHz 1.95 0.095 1200 Gray
39 ±2, ±5, ±10% 250 65 @ 500MHz 1.60 0.110 1100 White
48 ±2, ±5, ±10% 200 65 @ 500MHz 1.40 0.095 1200 Black
51 ±2, ±5, ±10% 200 65 @ 500MHz 1.40 0.120 1000 Brown
1008
Inductance Tolerance L Freq. Quality Factor SRF DCR IDC Color Code
(nH) (MHz) min. (GHz) min. (Ω) max. (mA) max.
3.0 ±5, ±10% 50 70 @ 1500MHz 6.00 0.04 1600 Black
3.9 ±5, ±10% 50 75 @ 1500MHz 6.00 0.05 1600 White
4.1 ±5, ±10% 50 75 @ 1500MHz 6.00 0.05 1600 Brown
7.8 ±5, ±10% 50 75 @ 500MHz 3.80 0.05 1600 Red
10 ±2, ±5, ±10% 50 60 @ 500MHz 3.60 0.06 1600 Orange
12 ±2, ±5, ±10% 50 70 @ 500MHz 2.80 0.06 1500 Yellow
18 ±2, ±5, ±10% 50 62 @ 350MHz 2.70 0.07 1400 Green
22 ±2, ±5, ±10% 50 62 @ 350MHz 2.05 0.07 1400 Blue
33 ±2, ±5, ±10% 50 75 @ 350MHz 1.70 0.09 1300 Violet
39 ±2, ±5, ±10% 50 75 @ 350MHz 1.30 0.09 1300 Gray
47 ±2, ±5, ±10% 50 75 @ 350MHz 1.45 0.12 1200 White
56 ±2, ±5, ±10% 50 75 @ 350MHz 1.23 0.12 1200 Black
68 ±2, ±5, ±10% 50 80 @ 350MHz 1.15 0.13 1100 Brown
82 ±2, ±5, ±10% 50 80 @ 350MHz 1.06 0.16 1100 Red
100 ±2, ±5, ±10% 50 50 @ 350MHz 0.82 0.16 1000 Orange
Wire Wound Chip Inductor
LCWC Series
7
176
ENVIRONMENTAL CHARACTERISTICS
Wire Wound Chip Inductor
LCWC Series
MECHANICAL PERFORMANCE TEST
Items Requirement Test Methods
Inductance HP4286
Q HP4286
SRF Refer to standard electrical HP4287
DC Resistance RDC characteristic spec. Micro-Ohm meter (Gom-801G)
Rated Current IDC Applied the current to coils, The inductance change
should be less than 10% to initial value
Over Load Inductors shall have no evidence of Applied 2 times of rated allowed DC current
electrical and mechanical damage to inductor for a period of 5 minutes
Withstanding Voltage Inductors shall be no evidence of AC voltage of 500 VAC applied between inductors
electrical and mechanical damage. terminal and case for 1 min.
Insulation Resistance 1000M ohm min. 100 VDC applied between inductor terminal and
case and case
MECHANICAL PERFORMANCE TEST
Items Requirement Test Methods
Test device shall be soldered on the substrate
Vibration Appearance: No damage Oscillation Frequency: 10 to 55 to 10Hz for 1 min.
L change: within ±5% Amplitude: 1.5 mm
Q change: within ±10% Time: 2 hrs for each axis (X, Y &Z), total 6 hrs
Resistance to Solder Temperature: 260±50ºC
Soldering Heat Immersion Time: 10±2 seconds
The device should be soldered (260±5 for 10 seconds)
Component Adhesion 1 lbs. For 0402 to a tinned copper subs rate. A dynamiter force gauge
(Push Test) 2 lbs. For 0603 should be applied to the side of the component. The
3 lbs. For the rest device must with stand a minimum force of 2 or 4
pounds without a failure of adhesion on termination
Dropping chip by each side and each corner.
Drop No damage Drop 10 times in total
Drop height: 100 cm Drop weight: 125 g
Solderability 90% covered with solder Inductor shall be dipped in a melted solder bath at
245±5 for 3 seconds
Resistance to Solvent No damage on appearance and marking MIL-STD202F, Method 215D
CLIMATIC TEST
Items Requirement Test Methods
Temperature Characteristic -40 ~ +125°C
Temperature: 40±2°C
Humidity Relative Humidity: 90 ~ 95% Time: 96±2 hrs
Measured after exposure in the room condition for 2 hrs
Temperature: -40±2°C
Low Temperature Storage Appearance: No damage Time: 96±2 hrs
L change: within ±10% Inductors are tested after 1 hour at room temperature
Q change: within ±20% One cycle:
Thermal Shock
Total: 5 cycles
High Temperature Storage Temperature: 125±2°C Time: 96±2 hrs
Measured after exposure in the room condition for 1 hour
High Temperature Load Life
Temperature: 85±2°C Time: 1000±12 hrs
There should be no evidence of Load: Allowed DC current
Damp Heat with Load short of open circuit. Temperature: 40±2°C
Relative Humidity: 90 ~ 95%
Time: 1000±12 hrs Load: Allowed DC current
Step Temperature (°C) Time (min.)
1 -25±3 30
2 25±2 15
3 125±3 30
4 25±2 15
7
177
REEL DIMENSIONS AND PACKAGING QUANTITY
Wire Wound Chip Inductor
LCWC Series
60.0 ± 0.50
(2.362 ± 0.020)
1.20 ± 0.20
(0.047 ± 0.008)
9.00 ± 0.30
(0.354 ±0.0112)
11.4 ± 1.00
(0.449 ± 0.039)
Label
D: 21.8 ± 0.80
(0.858 ± 0.031)
D: 13.0 ± 0.30
(0.512 ± 0.012)
2.00 ± 0.50
(0.079 ±0.020)
P0
P1
W
F
B
HPA
φ 1.5 1.75 ± 0.10
(0.069 ± 0.004)
Thickness (t)
0.10 (.004) max
Embossed Cavity
Embossed Carrier
PAPER TAPE SPECIFICATION AND PACKAGING QUANTITY
4.00 ± 0.10
(0.157 ± 0.004)
G
E
C
A
ø1.50
ø1.50
B
D
F
H
I
EMBOSSED PLASTIC PAPER TAPE SPECIFICATION AND PACKAGING QUANTITY
Type A B H F P P0P1W ReeI (EA)
LCWC0402 0.72 1.19 0.60 3.50 4.00 4.00 2.00 8.00 4,000
(0.028) (0.047) (0.024) (0.138) (0.157) (0.147) (0.079) (0.315)
LCWC0603 1.35 1.95 0.95 3.50 4.00 4.00 2.00 8.00 4,000
(0.053) (0.077) (0.037) (0.138) (0.157) (0.147) (0.079) (0.315)
mm (inches)
Type A B C D E F G H I ReeI (EA)
LCWC0805 8.00 ± 0.20 1.85 ± 0.10 4.00 ± 0.10 2.30 ± 0.10 3.50 ± 0.05 1.75 ± 0.10 2.00 ± 0.05 1.45 ± 0.05 0.23 ± 0.05 2,000
(0.315 ± 0.008) (0.073 ± 0.073) (0.157 ± 0.073) (0.091 ± 0.073) (0.138 ± 0.002) (0.069 ± 0.073) (0.079 ± 0.002) (0.057 ± 0.002) (0.009 ± 0.002)
LCWC0805 (R) 8.00 ± 0.20 1.80 ± 0.10 4.00 ± 0.10 2.30 ± 0.10 3.50 ± 0.05 1.75 ± 0.10 2.00 ± 0.05 0.90 ± 0.05 0.23 ± 0.05 2,000
(0.315 ± 0.008) (0.071 ± 0.073) (0.157 ± 0.073) (0.091 ± 0.073) (0.138 ± 0.002) (0.069 ± 0.073) (0.079 ± 0.002) (0.035 ± 0.002) (0.009 ± 0.002)
LCWC0805 (Q) 8.00 ± 0.20 1.85 ± 0.10 4.00 ± 0.10 2.30 ± 0.10 3.50 ± 0.05 1.75 ± 0.10 2.00 ± 0.05 1.45 ± 0.05 0.23 ± 0.05 2,000
(0.315 ± 0.008) (0.073 ± 0.073) (0.157 ± 0.073) (0.091 ± 0.073) (0.138 ± 0.002) (0.069 ± 0.073) (0.079 ± 0.002) (0.057 ± 0.002) (0.009 ± 0.002)
LCWC1206 8.00 ± 0.20 1.95 ± 0.10 4.00 ± 0.10 3.50 ± 0.10 3.50 ± 0.05 1.75 ± 0.10 2.00 ± 0.05 1.50 ± 0.05 0.23 ± 0.05 2,000
(0.315 ± 0.008) (0.077 ± 0.073) (0.157 ± 0.073) (0.138 ± 0.073) (0.138 ± 0.002) (0.069 ± 0.073) (0.079 ± 0.002) (0.059 ± 0.002) (0.009 ± 0.002)
LCWC1008 8.00 ± 0.20 2.70 ± 0.10 4.00 ± 0.10 2.80 ± 0.10 3.50 ± 0.05 1.75 ± 0.10 2.00 ± 0.05 2.00 ± 0.05 0.23 ± 0.05 2,000
(0.315 ± 0.008) (0.106 ± 0.073) (0.157 ± 0.073) (0.110 ± 0.073) (0.138 ± 0.002) (0.069 ± 0.073) (0.079 ± 0.002) (0.079 ± 0.002) (0.009 ± 0.002)
LCWC1008 (R) 8.00 ± 0.20 2.70 ± 0.10 4.00 ± 0.10 2.80 ± 0.10 3.50 ± 0.05 1.75 ± 0.10 2.00 ± 0.05 1.50 ± 0.05 0.23 ± 0.05 2,000
(0.315 ± 0.008) (0.106 ± 0.073) (0.157 ± 0.073) 0.110 ± 0.073) (0.138 ± 0.002) (0.069 ± 0.073) (0.079 ± 0.002) (0.059 ± 0.002) (0.009 ± 0.002)
LCWC1008 (Q) 8.00 ± 0.20 2.70 ± 0.10 4.00 ± 0.10 2.80 ± 0.10 3.50 ± 0.05 1.75 ± 0.10 2.00 ± 0.05 2.00 ± 0.05 0.23 ± 0.05 2,000
(0.315 ± 0.008) (0.106 ± 0.073) (0.157 ± 0.073) 0.110 ± 0.073) (0.138 ± 0.002) (0.069 ± 0.073) (0.079 ± 0.002) (0.079 ± 0.002) (0.009 ± 0.002)
mm (inches)
178
RF/Microwave Capacitors
RF/Microwave Multilayer Capacitors (MLC)
RF/Microwave C0G (NP0) Capacitors
RF/Microwave “U” Series Designer Kits
8
UQ
AVX Style
CB
Case Size
CA = 0605
CB = 1210
CR = 0709
CL = 0402
CS = 0603
CF = 0805
See mechanical
dimensions below
7
Voltage
Code
5 = 50V
1 = 100V
E = 150V
2 = 200V
V = 250V
9 = 300V
7 = 500V
A 100 J A
Failure Rate
Code
A = Not
Applicable
TME
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
FEATURES:
• Ultra Low ESR
• High Q
• High Self Resonance
• Capacitance Range 0.1 pF to 1000 pF
APPLICATIONS:
• RF Power Amplifiers
• Low Noise Amplifiers
• Filter Networks
• MRI Systems
HOW TO ORDER
Temperature
Coefficient Code
A = 0±30ppm/°C
Termination Style
Code
J = Nickel Barrier
Sn/Pb (60/40)
**T = 100% Tin
**C = Non-Magnetic
Barrier/Tin
Capacitance
EIA Capacitance Code in pF.
First two digits = significant
figures or “R” for decimal
place.
Third digit = number of zeros
or after “R” significant figures.
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481
(equivalent to IEC 286 part 3).
—8mm carrier
—7" reel: UQCA = 500 or 4000 pc T&R UQCL = 500, 4000 or 10,000 pc T&R
UQCB = 500 or 1000 pc T&R UQCS = 500 or 4000 pc T&R
UQCR = 500 or 1000 pc T&R UQCF = 500 or 4000 pc T&R
Packaging Code
ME = 7" Reel Marked
(0605, 1210 &
0709 only)
2A = 7" Unmarked
(0402, 0603, &
0805 only)
* Vertical T&R available
Case Length (L) Width (W) Thickness (T) Band Width (bw)
UQCA .055 + .015 - .010 .055±.015 .057 (1.45) max. .010 + .010 -.005
(1.40+ .381 - .254) (1.40±.381) (.254 +.254 -.127)
UQCB .110 + .020 - .010 .110±.015 .102 (2.59) max. .015±.010
(2.79 +.508 -.254) (2.79±.381) (.381±.254)
UQCR .070 ± .015 .090±.010 .115 (2.92) max. .010 + .010 -.005
(1.78 ± .381) (2.29±.254) (.254 +.254 -.127)
UQCL .040 ± .004 .020±.004 .024 (.600) max. .010 ± .006
(1.02 ± .100) (0.51±.100) (0.25 ± 0.15)
UQCS .063 ± .006 .032±.006 .035 (.890) max. .014 ± .006
(1.60 ± 0.15) (0.81±0.15) (0.36 ± 0.15)
UQCF .079 ± .008 .049±.008 .051 (1.30) max. .020 ± 0.01
(2.01 ± 0.20) (1.24±0.20) (0.51 ± 0.25)
MECHANICAL DIMENSIONS: inches (millimeters)
L
W
T
A
101J
bw
**RoHS compliant
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
Also available in:
Capacitance
Tolerance Code
A = ±.05 pF
B = ±.1 pF
C = ±.25 pF
D = ±.5 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
179
8
180
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
ELECTRICAL SPECIFICATIONS
Temperature Characteristic Code A
Temperature Coefficient (TCC) (A) 0 ± 30 PPM/ºC
Capacitance Range (A) 0.1 pF to 1000 pF
Operating Temperature 0.1 pF to 1000 pF: from -55ºC to +125ºC
Quality Factor (Q) Greater than 2,000 at 1 MHz
Insulation Resistance (IR) 0.1 pF to 1000 pF
105Megohms min. @ 25ºC at rated WVDC
104Megohms min. @ 125ºC at rated WVDC
Working Voltage (WVDC) See Capacitance Values table
Dielectric Withstanding Voltage (DWV) 250% of rated WVDC for 5 secs
Aging Effects None
Piezoelectric Effects None
Capacitance Drift ± (0.02% or 0.02 pF), whichever is greater
Thermal Shock Mil-STD-202, Method 107, Condition A
Moisture Resistance Mil-STD-202, Method 106
Low Voltage Humidity Mil-STD-202, Method 103, condition A, with 1.5 VDC
applied while subjected to an environment of 85ºC with
85% relative humidity for 240 hours
Life Test Mil-STD-202, Method 108, for 2000 hours at 125ºC
200% WVDC
Shock Mil-STD-202, Method 213, Condition J
Vibration Mil-STD-202, Method 204, Condition B
Immersion Mil-STD-202, Method 104, Condition B
Salt Spray Mil-STD-202, Method 101, Condition B
Solderability Mil-STD-202, Method 208
Terminal Strength Mil-STD-202, Method 211
Temperature Cycling Mil-STD-202, Method 102, Condition C
Barometric Pressure Mil-STD-202, Method 105, Condition B
Resistance to Solder Heat Mil-STD-202, Method 210, Condition C
ENVIRONMENTAL CHARACTERISTICS
AVX UQ will meet and exceed the requirements of EIA-198, MIL-PRF-55681 and MIL-PRF-123
8
181
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
TABLE I: TC: A (0±30PPM/°C)
Cap. pF Cap. Tol. WVDC
0.1 B 250
0.2 B 250
0.3 B,C 250
0.4 B,C 250
0.5 B, C, D 250
0.6 B, C, D 250
0.7 B, C, D 250
0.8 B, C, D 250
0.9 B, C, D 250
1.0 B, C, D 250
1.1 B, C, D 250
1.2 B, C, D 250
1.3 B, C, D 250
1.4 B, C, D 250
1.5 B, C, D 250
Cap. pF Cap. Tol. WVDC
1.6 B, C, D 250
1.7 B, C, D 250
1.8 B, C, D 250
1.9 B, C, D 250
2.0 B, C, D 250
2.2 B, C, D 250
2.4 B, C, D 250
2.7 B, C, D 250
3.0 B, C, D 250
3.3 B, C, D 250
3.6 B, C, D 250
3.9 B, C, D 250
4.3 B, C, D 250
4.7 B, C, D 250
5.1 B, C, D 250
Cap. pF Cap. Tol. WVDC
5.6 B, C, D 250
6.2 B, C, D 250
6.8 B, C, J, K 250
7.5 B, C, J, K 250
8.2 B, C, J, K 250
9.1 B, C, J, K 250
10 F, G, J, K, M 250
11 F, G, J, K, M 250
12 F, G, J, K, M 250
13 F, G, J, K, M 250
15 F, G, J, K, M 250
16 F, G, J, K, M 250
18 F, G, J, K, M 250
20 F, G, J, K, M 250
22 F, G, J, K, M 250
Cap. pF Cap. Tol. WVDC
24 F, G, J, K, M 250
27 F, G, J, K, M 250
30 F, G, J, K, M 250
33 F, G, J, K, M 250
36 F, G, J, K, M 250
39 F, G, J, K, M 250
43 F, G, J, K, M 250
47 F, G, J, K, M 250
51 F, G, J, K, M 250
56 F, G, J, K, M 250
62 F, G, J, K, M 250
68 F, G, J, K, M 250
75 F, G, J, K, M 250
82 F, G, J, K, M 250
91 F, G, J, K, M 250
100 F, G, J, K, M 250
Case Size A
TABLE II: TC: A (0±30PPM/°C)
Cap. pF Cap. Tol. WVDC
0.1 B 500
0.2 B 500
0.3 B,C 500
0.4 B,C 500
0.5 B, C, D 500
0.6 B, C, D 500
0.7 B, C, D 500
0.8 B, C, D 500
0.9 B, C, D 500
1.0 B, C, D 500
1.1 B, C, D 500
1.2 B, C, D 500
1.3 B, C, D 500
1.4 B, C, D 500
1.5 B, C, D 500
1.6 B, C, D 500
1.7 B, C, D 500
1.8 B, C, D 500
1.9 B, C, D 500
2.0 B, C, D 500
2.2 B, C, D 500
2.4 B, C, D 500
2.7 B, C, D 500
3.0 B, C, D 500
3.3 B, C, D 500
Cap. pF Cap. Tol. WVDC
3.6 B, C, D 500
3.9 B, C, D 500
4.3 B, C, D 500
4.7 B, C, D 500
5.1 B, C, D 500
5.6 B, C, D 500
6.2 B, C, D 500
6.8 B, C, J, K 500
7.5 B, C, J, K 500
8.2 B, C, J, K 500
9.1 B, C, J, K 500
10 F, G, J, K
, M
500
11 F, G, J, K
, M
500
12 F, G, J, K
, M
500
13 F, G, J, K
, M
500
15 F, G, J, K
, M
500
16 F, G, J, K
, M
500
18 F, G, J, K
, M
500
20 F, G, J, K
, M
500
22 F, G, J, K
, M
500
24 F, G, J, K
, M
500
27 F, G, J, K
, M
500
30 F, G, J, K
, M
500
33 F, G, J, K
, M
500
36 F, G, J, K
, M
500
Cap. pF Cap. Tol. WVDC
39 F, G, J, K
, M
500
43 F, G, J, K
, M
500
47 F, G, J, K
, M
500
51 F, G, J, K
, M
500
56 F, G, J, K
, M
500
62 F, G, J, K
, M
500
68 F, G, J, K
, M
500
75 F, G, J, K
, M
500
82 F, G, J, K
, M
500
91 F, G, J, K
, M
500
100 F, G, J, K
, M
500
110 F, G, J, K
, M
300
120 F, G, J, K
, M
300
130 F, G, J, K
, M
300
150 F, G, J, K
, M
300
160 F, G, J, K
, M
300
180 F, G, J, K
, M
300
200 F, G, J, K
, M
300
220 F, G, J, K
, M
200
240 F, G, J, K
, M
200
270 F, G, J, K
, M
200
300 F, G, J, K
, M
200
330 F, G, J, K
, M
200
360 F, G, J, K
, M
200
390 F, G, J, K
, M
200
Cap. pF Cap. Tol. WVDC
430 F, G, J, K
, M
200
470 F, G, J, K
, M
200
510 F, G, J, K
, M
100
560 F, G, J, K
, M
100
620 F, G, J, K
, M
100
680 F, G, J, K
, M
50
750 F, G, J, K
, M
50
820 F, G, J, K
, M
50
910 F, G, J, K
, M
50
1000 F, G, J, K
, M
50
Case Size B
TABLE III: TC: A (0±30PPM/°C)
Cap. pF Cap. Tol. WVDC
1.0 B, C, D 500
1.1 B, C, D 500
1.2 B, C, D 500
1.3 B, C, D 500
1.4 B, C, D 500
1.5 B, C, D 500
1.6 B, C, D 500
1.7 B, C, D 500
1.8 B, C, D 500
1.9 B, C, D 500
2.0 B, C, D 500
2.1 B, C, D 500
2.2 B, C, D 500
2.4 B, C, D 500
2.7 B, C, D 500
Cap. pF Cap. Tol. WVDC
3.0 B, C, D 500
3.3 B, C, D 500
3.6 B, C, D 500
3.9 B, C, D 500
4.3 B, C, D 500
4.7 B, C, D 500
5.1 B, C, D 500
5.6 G, J, K, M 500
6.2 G, J, K, M 500
6.8 G, J, K, M 500
7.5 G, J, K, M 500
8.2 G, J, K, M 500
9.1 G, J, K, M 500
10 G, J, K, M 500
11 G, J, K, M 500
Cap. pF Cap. Tol. WVDC
12 G, J, K, M 500
13 G, J, K, M 500
15 G, J, K, M 500
16 G, J, K, M 500
18 G, J, K, M 500
20 G, J, K, M 500
22 G, J, K, M 500
24 G, J, K, M 500
27 G, J, K, M 500
30 G, J, K, M 500
33 G, J, K, M 500
36 G, J, K, M 500
39 G, J, K, M 500
43 G, J, K, M 500
47 G, J, K, M 500
Cap. pF Cap. Tol. WVDC
51 G, J, K, M 500
56 G, J, K, M 500
62 G, J, K, M 500
68 G, J, K, M 500
75 G, J, K, M 500
82 G, J, K, M 500
91 G, J, K, M 500
100 G, J, K, M 500
Case Size R
8
182
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
TABLE IV: TC: A (0±30PPM/°C)
Cap. pF Cap. Tol. WVDC
0.1 A, B 200
0.2 A, B 200
0.3 A, B, C 200
0.4 A, B, C 200
0.5 A, B, C 200
0.6 A, B, C 200
0.7 A, B, C 200
0.8 A, B, C 200
0.9 A, B, C 200
1.0 A, B, C, D 200
1.1 A, B, C, D 200
1.2 A, B, C, D 200
1.3 A, B, C, D 200
1.5 A, B, C, D 200
Cap. pF Cap. Tol. WVDC
1.6 A, B, C, D 200
1.8 A, B, C, D 200
2.0 A, B, C, D 200
2.2 A, B, C, D 200
2.4 A, B, C, D 200
2.7 A, B, C, D 200
3.0 A, B, C, D 200
3.3 A, B, C, D 200
3.6 A, B, C, D 200
3.9 A, B, C, D 200
4.3 A, B, C, D 200
4.7 A, B, C, D 200
5.1 A, B, C, D 200
5.6 A, B, C, D 200
Cap. pF Cap. Tol. WVDC
6.2 A, B, C, D 200
6.8 B, C, J, K 200
7.5 B, C, J, K 200
8.2 B, C, J, K 200
9.1 B, C, J, K 200
10 F, G, J, K, M 200
11 F, G, J, K, M 200
12 F, G, J, K, M 200
15 F, G, J, K, M 200
18 F, G, J, K, M 200
20 F, G, J, K, M 200
22 F, G, J, K, M 200
24 F, G, J, K, M 200
27 F, G, J, K, M 200
Case Size L
TABLE V:
Cap. pF Cap. Tol. WVDC
0.1 A, B 250
0.2 A, B 250
0.3 A, B, C 250
0.4 A, B, C 250
0.5 A, B, C 250
0.6 A, B, C 250
0.7 A, B, C 250
0.8 A, B, C 250
0.9 A, B, C 250
1.0 A, B, C, D 250
1.1 A, B, C, D 250
1.2 A, B, C, D 250
1.3 A, B, C, D 250
1.5 A, B, C, D 250
1.6 A, B, C, D 250
1.8 A, B, C, D 250
2.0 A, B, C, D 250
2.2 A, B, C, D 250
2.4 A, B, C, D 250
Cap. pF Cap. Tol. WVDC
2.7 A, B, C, D 250
3.0 A, B, C, D 250
3.3 A, B, C, D 250
3.6 A, B, C, D 250
3.9 A, B, C, D 250
4.3 A, B, C, D 250
4.7 A, B, C, D 250
5.1 A, B, C, D 250
5.6 A, B, C, D 250
6.2 A, B, C, D 250
6.8 B, C, J, K 250
7.5 B, C, J, K 250
8.2 B, C, J, K 250
9.1 B, C, J, K 250
10 F, G, J, K, M 250
11 F, G, J, K, M 250
12 F, G, J, K, M 250
15 F, G, J, K, M 250
18 F, G, J, K, M 250
Cap. pF Cap. Tol. WVDC
20 F, G, J, K, M 250
22 F, G, J, K, M 250
24 F, G, J, K, M 250
27 F, G, J, K, M 250
30 F, G, J, K, M 250
33 F, G, J, K, M 250
36 F, G, J, K, M 250
39 F, G, J, K, M 250
43 F, G, J, K, M 250
47 F, G, J, K, M 250
51 F, G, J, K, M 250
56 F, G, J, K, M 250
62 F, G, J, K, M 250
68 F, G, J, K, M 250
75 F, G, J, K, M 250
82 F, G, J, K, M 250
91 F, G, J, K, M 250
100 F, G, J, K, M 250
Case Size S
TABLE VI:
Cap. pF Cap. Tol. WVDC
0.1 A, B 250
0.2 A, B 250
0.3 A, B, C 250
0.4 A, B, C 250
0.5 A, B, C 250
0.6 A, B, C 250
0.7 A, B, C 250
0.8 A, B, C 250
0.9 A, B, C 250
1.0 A, B, C, D 250
1.1 A, B, C, D 250
1.2 A, B, C, D 250
1.3 A, B, C, D 250
1.5 A, B, C, D 250
1.6 A, B, C, D 250
1.8 A, B, C, D 250
2.0 A, B, C, D 250
2.2 A, B, C, D 250
2.4 A, B, C, D 250
2.7 A, B, C, D 250
3.0 A, B, C, D 250
Cap. pF Cap. Tol. WVDC
3.3 A, B, C, D 250
3.6 A, B, C, D 250
3.9 A, B, C, D 250
4.3 A, B, C, D 250
4.7 A, B, C, D 250
5.1 A, B, C, D 250
5.6 A, B, C, D 250
6.2 A, B, C, D 250
6.8 B, C, J, K 250
7.5 B, C, J, K 250
8.2 B, C, J, K 250
9.1 B, C, J, K 250
10 F, G, J, K, M 250
11 F, G, J, K, M 250
12 F, G, J, K, M 250
15 F, G, J, K, M 250
18 F, G, J, K, M 250
20 F, G, J, K, M 250
22 F, G, J, K, M 250
24 F, G, J, K, M 250
27 F, G, J, K, M 250
Cap. pF Cap. Tol. WVDC
30 F, G, J, K, M 250
33 F, G, J, K, M 250
36 F, G, J, K, M 250
39 F, G, J, K, M 250
43 F, G, J, K, M 250
47 F, G, J, K, M 250
51 F, G, J, K, M 250
56 F, G, J, K, M 250
62 F, G, J, K, M 250
68 F, G, J, K, M 250
75 F, G, J, K, M 250
82 F, G, J, K, M 250
91 F, G, J, K, M 250
100 F, G, J, K, M 250
110 F, G, J, K, M 250
120 F, G, J, K, M 250
150 F, G, J, K, M 250
180 F, G, J, K, M 250
200 F, G, J, K, M 250
220 F, G, J, K, M 250
240 F, G, J, K, M 250
Case Size F
8
183
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
UQ CA ESR vs. Frequency
UQ CA FSR & FPR vs. Capacitance
8
184
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
UQ CB ESR vs. Frequency
UQ CB FSR & FPR vs. Capacitance
8
185
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
UQ CR ESR vs. Frequency
UQ CR Resonance Horizontal Orientation
8
186
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
UQ CL ESR vs. Frequency
UQ CL Resonance Frequency
8
187
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
UQ CS ESR vs. Frequency
UQ CS ESR vs. Frequency
8
188
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
UQ CS Q vs. Capacitance
UQ CS Resonant Frequency
8
189
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
UQ CF ESR vs. Frequency
UQ CF Resonant Frequency
8
190
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
L
T
W
B B
D
CA
MOUNTING PAD DIMENSIONS CASE CL, CS & CF: inches (millimeters)
Case A min. B min. C min. D min.
0402 (1005) .0275 .0354 .0157 .0866
(0.70) (0.90) (0.40) (2.20)
0603 (1608) .0393 .0433 .03236 .110
(1.00) (1.10) (0.60) (2.80)
0805 (2012) .0590 .0512 .0236 .1259
(1.50) (1.30) (0.60) (3.20)
A
D
C
B
Pad Size A min B min C min D min
Vertical Mount Normal 0.070 (1.778) 0.050 (1.270) 0.030 (0.762) 0.130 (3.302)
High Density 0.050 (1.270) 0.030 (0.762) 0.030 (0.762) 0.090 (2.286)
Horizontal Mount Normal 0.080 (2.032) 0.050 (1.270) 0.030 (0.762) 0.130 (3.302)
High Density 0.060 (1.524) 0.030 (0.762) 0.030 (0.762) 0.090 (2.286)
MOUNTING PAD DIMENSIONS CASE CA: inches (millimeters)
Cap Value
Pad Size A min B min C min D min
Vertical Mount 0.1 pF Normal 0.065 (1.651) 0.050 (1.270) 0.075 (1.905) 0.175 (4.445)
High Density 0.045 (1.143) 0.030 (0.762) 0.075 (1.905) 0.135 (3.429)
0.2 pF Normal 0.090 (2.286) 0.050 (1.270) 0.075 (1.905) 0.175 (4.445)
High Density 0.070 (1.778) 0.030 (0.762) 0.075 (1.905) 0.135 (3.429)
0.3 to Normal 0.110 (2.794) 0.050 (1.270) 0.075 (1.905) 0.175 (4.445)
510 pF High Density 0.090 (2.286) 0.030 (0.762) 0.075 (1.905) 0.135 (3.429)
> 510 pF Normal 0.120 (3.048) 0.050 (1.270) 0.075 (1.905) 0.175 (4.445)
High Density 0.100 (2.540) 0.030 (0.762) 0.075 (1.905) 0.135 (3.429)
Horizontal Mount All Normal 0.130 (3.302) 0.050 (1.270) 0.075 (1.905) 0.175 (4.445)
Values High Density 0.110 (2.794) 0.030 (0.762) 0.075 (1.905) 0.135 (3.429)
MOUNTING PAD DIMENSIONS CASE CB: inches (millimeters)
187
8
Microwave MLCs
UQ Series High Q Ultra Low ESR MLC
DESIGN KITS
Kit #
Compliance
Description Cap Value Tol. (pF)
KITUQ800LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCA 0505 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values,15 pcs min. per value 0.1 to 2.0 ±0.1
±0.25
KITUQ810LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCA 0505 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values,15 pcs min. per value 1.0 to 10 pF
±0.1
±0.25
±5%
KITUQ820LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCA 0505 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values,15 pcs min. per value 10 to 100 pF ±5%
KITUQ830LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCB 1111 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values,15 pcs min. per value 1.0 to 10 pF
±0.1
±0.25
±5%
KITUQ840LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCB 1111 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values,15 pcs min. per value 10 to 100 pF ±5%
KITUQ850LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCB 1111 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values,15 pcs min. per value 100 to 1000 pF ±5%
±10%
KITUQ360LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCL 0402 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values, 15 pcs min. per value 0.1 to 2.0 ±0.1
±0.25
KITUQ370LF LEAD-FREE COMPATIBLE
COMPONENT
UQCL 0402 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values, 15 pcs min. per value 1.0 to 10
±0.1
±0.25
±5%
KITUQ380LF LEAD-FREE COMPATIBLE
COMPONENT
UQCL 0402 Series Ultra-Low ESR
High Q Microwave Capacitors
8 different values, 15 pcs min. per value 10 to 27 ±5%
KITUQ250LF LEAD-FREE COMPATIBLE
COMPONENT
UQCS 0603 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values, 15 pcs min. per value 0.1 to 2.0 ±0.1
±0.25
KITUQ260LF LEAD-FREE COMPATIBLE
COMPONENT
UQCS 0603 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values, 15 pcs min. per value 1.0 to 10
±0.1
±0.25
±5%
KITUQ270LF LEAD-FREE COMPATIBLE
COMPONENT
UQCS 0603 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values, 15 pcs min. per value 10 to 100 ±5%
KITUQ320LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCF 0805 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values, 15 pcs min. per value 0.1 to 2.0 ±0.1
±0.25
KITUQ330LF LEAD-FREE COMPATIBLE
COMPONENT
UQCF 0805 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values, 15 pcs min. per value 1.0 to 10
±0.1
±0.25
±5%
KITUQ340LF LEAD-FREE COMPATIBLE
COMPONENT
UQCF 0805 Series Ultra-Low ESR
High Q Microwave Capacitors
16 different values, 15 pcs min. per value 10 to 100 ±5%
KITUQ350LF
LEAD-FREE COMPATIBLE
COMPONENT
UQCF 0805 Series Ultra-Low ESR
High Q Microwave Capacitors
7 different values, 15 pcs min. per value 100 to 240 ±5%
8
192 062116
RF/Microwave MLC’s
SQ Series Ultra Low ESR MLC
SQ
AVX Style
CA
Case Size
CA = 0505
CB = 1111
See mechanical
dimensions below
7
Voltage
Code
5 = 50V
1 = 100V
E = 150V
2 = 200V
V = 250V
9 = 300V
7 = 500V
C = 600V
A = 1000V
S = 1500V
M 100 J A
Failure Rate
Code
A = Not
Applicable
T1A
FEATURES:
• Low ESR
• High Q
• High Self Resonance
• Capacitance Range 0.1 pF to 5100 pF
• 175ºC Capability SQCB
(Standard voltages only)
APPLICATIONS:
• RF Power Amplifiers
• Low Noise Amplifiers
• Filter Networks
• MRI Systems
HOW TO ORDER
Temperature
Coefficient Code
M = +90±20ppm/°C
A = 0±30ppm/°C
C = 15% (“J” Termination only)
Termination Style Code
**T = 100% Tin
J = Nickel Barrier Sn/Pb
(60/40)
**7 = Ag/Ni/Au
H = Cu/Sn (Non-Magnetic)
Capacitance
Tolerance Code
B = ±.1 pF
C = ±.25 pF
D = ±.5 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
N = ±30%
Capacitance
EIA Capacitance Code in pF.
First two digits = significant
figures or “R” for decimal
place.
Third digit = number of zeros
or after “R” significant figures.
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481 (equivalent to IEC 286 part 3).
—8mm carrier
—7" reel: SQCA/SQCB = 1000 pcs
WAFFLE PACK
SQCA 100 pcs
SQCB 100 pcs
Packaging Code
1A = 7" Reel Unmarked
6A = Waffle Pack Unmarked
ME = 7" Reel Marked
WE = Waffle Pack Marked
* Vertical T&R available
Case Length (L) Width (W) Thickness (T) Band Width (bw)
SQCA* .055 + .015 - .010 .055±.015 .020/.057 .010 + .010 -.005
(1.40+ .381 - .254) (1.40±.381) (.508/1.45) (.254 +.254 -.127)
SQCB* .110 + .020 - .010 .110±.010 .030/.102 .015±.010
(2.79 +.508 -.254) (2.79±.254) (.762/2.59) (.381±.254)
MECHANICAL DIMENSIONS: inches (millimeters)
L
W
T
bw
**RoHS compliant
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
8
193
062116
RF/Microwave MLC’s
SQ Series Ultra Low ESR MLC
ELECTRICAL SPECIFICATIONS
Dielectric M & A C
Temperature Coefficient (TCC) (M) +90 ± 20 PPM/ºC ( -55ºC to +125ºC) ±15% (-55ºC to 125ºC)
(M) +90 ± 30 PPM/ºC ( +125ºC to +175ºC)*
(A) 0 ± 30 PPM/ºC
Capacitance Range (M) 0.1 pF to 1000 pF 0.001μF to 0.1μF
(A) 0.1 pF to 5100 pF
Operating Temperature A Case: -55ºC to +125ºC* -55°C to +125°C
B Case (M Dielectric):
0.1 pF to 330 pF: from -55ºC to +175ºC
360 pF to 5100 pF: from -55ºC to +125ºC
B Case (A Dielectric):
0.1 pF to 200 pF: from -55ºC to +175ºC
220 pF to 5100 pF: from -55ºC to +125ºC
Quality Factor (Q) M Dielectric A & B Case Greater than 10,000 at 1 MHz 2.5% @ 1kHz
A Dielectric B Case Greater than 10,000 at 1 MHz 0.1 - 200 pF
Greater than 2,000 at 1 MHz 220 - 1000 pF
Greater than 2,000 at 1 KHz 1100 - 5100 pF
A Dielectric A Case Greater than 10,000 at 1 MHz 0.1 - 100 pF
Greater than 2,000 at 1 MHz 110 - 1000 pF
Insulation Resistance (IR) 0.2 pF to 470 pF 104Megohms min. @ 25ºC at rated WVDC
106Megohms min. @ 25ºC at rated WVDC 103Megohms min. @ 125ºC at rated WVDC
105Megohms min. @ 125ºC at rated WVDC
510 pF to 5100 pF
105Megohms min. @ 25ºC at rated WVDC
104Megohms min. @ 125ºC at rated WVDC
Working Voltage (WVDC) See Capacitance Values table See Capacitance Values table
Dielectric Withstanding Voltage (DWV) WVDC 500V or less: 250% of rated WVDC for 5 seconds 250% of rated WVDC for 5 secs
WVDC 1250V or less: 150% of rated WVDC for 5 seconds
WVDC > 1250V: 120% of rated WVDC for 5 seconds
Aging Effects None <3% per decade hour
Piezoelectric Effects None None
Capacitance Drift ± (0.02% or 0.02 pF), whichever is greater Not Applicable
Themal Shock Mil-STD-202, Method 107, Condition A
Moisture Resistance Mil-STD-202, Method 106
Low Voltage Humidity Mil-STD-202, Method 103, condition A, with 1.5 VDC
applied while subjected to an environment of 85ºC with
85% relative humidity for 240 hours
Life Test Mil-STD-202, Method 108, for 2000 hours at 125ºC
Shock Mil-STD-202, Method 213, Condition J
Vibration Mil-STD-202, Method 204, Condition B
Immersion Mil-STD-202, Method 104, Condition B
Salt Spray Mil-STD-202, Method 101, Condition B
Solderability Mil-STD-202, Method 208
Terminal Strength Mil-STD-202, Method 211
Temperature Cycling Mil-STD-202, Method 102, Condition C
Barometric Pressure Mil-STD-202, Method 105, Condition B
Resistance to Solder Heat Mil-STD-202, Method 210, Condition C
ENVIRONMENTAL CHARACTERISTICS
AVX SQ will meet and exceed the requirements of EIA-198, MIL-PRF-55681 and MIL-PRF-123
* 175 SQCB only
8
194 062116
RF/Microwave MLC’s
SQ Series Ultra Low ESR MLC
TABLE II: TC: A (0±30PPM/°C)
TABLE III: TC: C (±15%)
Case Size A
TABLE I: TC: M (+90±20PPM/°C)
Cap. pF Cap. Tol. WVDC*
STD HV
0.1 B 150 250
0.2 B 150 250
0.3 B,C 150 250
0.4 B,C 150 250
0.5 B, C, D 150 250
0.6 B, C, D 150 250
0.7 B, C, D 150 250
0.8 B, C, D 150 250
0.9 B, C, D 150 250
1.0 B, C, D 150 250
1.1 B, C, D 150 250
1.2 B, C, D 150 250
1.3 B, C, D 150 250
1.4 B, C, D 150 250
1.5 B, C, D 150 250
1.6 B, C, D 150 250
Cap. pF Cap. Tol. WVDC*
STD HV
1.7 B, C, D 150 250
1.8 B, C, D 150 250
1.9 B, C, D 150 250
2.0 B, C, D 150 250
2.2 B, C, D 150 250
2.4 B, C, D 150 250
2.7 B, C, D 150 250
3.0 B, C, D 150 250
3.3 B, C, D 150 250
3.6 B, C, D 150 250
3.9 B, C, D 150 250
4.3 B, C, D 150 250
4.7 B, C, D 150 250
5.1 B, C, D 150 250
5.6 B, C, D 150 250
Cap. pF Cap. Tol. WVDC*
STD HV
6.2 B, C, D 150 250
6.8 B, C, J, K 150 250
7.5 B, C, J, K 150 250
8.2 B, C, J, K 150 250
9.1 B, C, J, K 150 250
10 F, G, J, K 150 250
11 F, G, J, K 150 250
12 F, G, J, K 150 250
13 F, G, J, K 150 250
15 F, G, J, K 150 250
16 F, G, J, K 150 250
18 F, G, J, K 150 250
20 F, G, J, K 150 250
22 F, G, J, K 150 250
24 F, G, J, K 150 250
Cap. pF Cap. Tol. WVDC*
STD HV
27 F, G, J, K 150 250
30 F, G, J, K 150 250
33 F, G, J, K 150 250
36 F, G, J, K 150 250
39 F, G, J, K 150 250
43 F, G, J, K 150 250
47 F, G, J, K 150 250
51 F, G, J, K 150 250
56 F, G, J, K 150 250
62 F, G, J, K 150 200
68 F, G, J, K 150 200
75 F, G, J, K 150 200
82 F, G, J, K 150 200
91 F, G, J, K 150 200
100 F, G, J, K 150 200
Cap. pF Cap. Tol. WVDC*
STD HV
0.1 B 150 250
0.2 B 150 250
0.3 B,C 150 250
0.4 B,C 150 250
0.5 B, C, D 150 250
0.6 B, C, D 150 250
0.7 B, C, D 150 250
0.8 B, C, D 150 250
0.9 B, C, D 150 250
1.0 B, C, D 150 250
1.1 B, C, D 150 250
1.2 B, C, D 150 250
1.3 B, C, D 150 250
1.4 B, C, D 150 250
1.5 B, C, D 150 250
1.6 B, C, D 150 250
1.7 B, C, D 150 250
1.8 B, C, D 150 250
1.9 B, C, D 150 250
2.0 B, C, D 150 250
2.2 B, C, D 150 250
2.4 B, C, D 150 250
Cap. pF Cap. Tol. WVDC*
STD HV
2.7 B, C, D 150 250
3.0 B, C, D 150 250
3.3 B, C, D 150 250
3.6 B, C, D 150 250
3.9 B, C, D 150 250
4.3 B, C, D 150 250
4.7 B, C, D 150 250
5.1 B, C, D 150 250
5.6 B, C, D 150 250
6.2 B, C, D 150 250
6.8 B, C, J, K 150 250
7.5 B, C, J, K 150 250
8.2 B, C, J, K 150 250
9.1 B, C, J, K 150 250
10 F, G, J, K 150 250
11 F, G, J, K 150 250
12 F, G, J, K 150 250
13 F, G, J, K 150 250
15 F, G, J, K 150 250
16 F, G, J, K 150 250
18 F, G, J, K 150 250
Cap. pF Cap. Tol. WVDC*
STD HV
20 F, G, J, K 150 250
22 F, G, J, K 150 250
24 F, G, J, K 150 250
27 F, G, J, K 150 250
30 F, G, J, K 150 250
33 F, G, J, K 150 250
36 F, G, J, K 150 250
39 F, G, J, K 150 250
43 F, G, J, K 150 250
47 F, G, J, K 150 250
51 F, G, J, K 150 250
56 F, G, J, K 150 250
62 F, G, J, K 150
200
68 F, G, J, K 150
200
75 F, G, J, K 150
200
82 F, G, J, K 150
200
91 F, G, J, K 150
200
100 F, G, J, K 150
110 F, G, J, K 150
120 F, G, J, K 150
130 F, G, J, K 150
Cap. pF Cap. Tol. WVDC*
STD HV
150 F, G, J, K 150
160 F, G, J, K 150
180 F, G, J, K 150
200 F, G, J, K 150
220 F, G, J, K 150
240 F, G, J, K 150
270 F, G, J, K 150
300 F, G, J, K 150
330 F, G, J, K 150
360 F, G, J, K 150
390 F, G, J, K 150
430 F, G, J, K 150
470 F, G, J, K 150
510 F, G, J, K 150
560 F, G, J, K 150
620 F, G, J, K 150
680 F, G, J, K 50
750 F, G, J, K 50
820 F, G, J, K 50
910 F, G, J, K 50
1000 F, G, J, K 50
Cap. pF Cap. Tol. WVDC
STD
1000 K, M, N 50
1200 K, M, N 50
1500 K, M, N 50
1800 K, M, N 50
2000 K, M, N 50
Cap. pF Cap. Tol. WVDC
STD
2200 K, M, N 50
2700 K, M, N 50
3300 K, M, N 50
3900 K, M, N 50
4700 K, M, N 50
Cap. pF Cap. Tol. WVDC
STD
5100 K, M, N 50
5600 K, M, N 50
6800 K, M, N 50
8200 K, M, N 50
10000 K, M, N 50
*STD = Standard voltage rating; HV = High voltage rating
8
195
062116
TABLE V: TC: A (0±30PPM/°C)
TABLE VI: TC: C (±15%)
TABLE IV: TC: M (+90±20PPM/°C)
RF/Microwave MLC’s
SQ Series Ultra Low ESR MLC
Case Size B
Cap. pF Cap. Tol. WVDC*
STD HV
0.1 B 500 1500
0.2 B 500 1500
0.3 B,C 500 1500
0.4 B,C 500 1500
0.5 B, C, D 500 1500
0.6 B, C, D 500 1500
0.7 B, C, D 500 1500
0.8 B, C, D 500 1500
0.9 B, C, D 500 1500
1.0 B, C, D 500 1500
1.1 B, C, D 500 1500
1.2 B, C, D 500 1500
1.3 B, C, D 500 1500
1.4 B, C, D 500 1500
1.5 B, C, D 500 1500
1.6 B, C, D 500 1500
1.7 B, C, D 500 1500
1.8 B, C, D 500 1500
1.9 B, C, D 500 1500
2.0 B, C, D 500 1500
2.2 B, C, D 500 1500
2.4 B, C, D 500 1500
Cap. pF Cap. Tol. WVDC*
STD HV
2.7 B, C, D 500 1500
3.0 B, C, D 500 1500
3.3 B, C, D 500 1500
3.6 B, C, D 500 1500
3.9 B, C, D 500 1500
4.3 B, C, D 500 1500
4.7 B, C, D 500 1500
5.1 B, C, D 500 1500
5.6 B, C, D 500 1500
6.2 B, C, D 500 1500
6.8 B, C, J, K 500 1500
7.5 B, C, J, K 500 1500
8.2 B, C, J, K 500 1500
9.1 B, C, J, K 500 1500
10 F, G, J, K 500 1500
11 F, G, J, K 500 1500
12 F, G, J, K 500 1500
13 F, G, J, K 500 1500
15 F, G, J, K 500 1500
16 F, G, J, K 500 1500
18 F, G, J, K 500 1500
Cap. pF Cap. Tol. WVDC*
STD HV
20 F, G, J, K 500 1500
22 F, G, J, K 500 1500
24 F, G, J, K 500 1500
27 F, G, J, K 500 1500
30 F, G, J, K 500 1500
33 F, G, J, K 500 1500
36 F, G, J, K 500 1500
39 F, G, J, K 500 1500
43 F, G, J, K 500 1500
47 F, G, J, K 500 1500
51 F, G, J, K 500 1500
56 F, G, J, K 500 1500
62 F, G, J, K 500 1500
68 F, G, J, K 500 1500
75 F, G, J, K 500 1500
82 F, G, J, K 500 1500
91 F, G, J, K 500 1500
100 F, G, J, K 500 1500
110 F, G, J, K 300 1500
120 F, G, J, K 300 1000
130 F, G, J, K 300 1000
Cap. pF Cap. Tol. WVDC*
STD HV
150 F, G, J, K 300 1000
160 F, G, J, K 300 1000
180 F, G, J, K 300 1000
200 F, G, J, K 300 1000
220 F, G, J, K 200 1000
240 F, G, J, K 200 600
270 F, G, J, K 200 600
300 F, G, J, K 200 600
330 F, G, J, K 200 600
360 F, G, J, K 200 600
390 F, G, J, K 200 600
430 F, G, J, K 200 600
470 F, G, J, K 200 600
510 F, G, J, K 100 300
560 F, G, J, K 100 300
620 F, G, J, K 100 300
680 F, G, J, K 50 300
750 F, G, J, K 50 300
820 F, G, J, K 50 300
910 F, G, J, K 50 300
1000 F, G, J, K 50 300
Cap. pF Cap. Tol. WVDC*
STD HV
0.1 B 500 1500
0.2 B 500 1500
0.3 B,C 500 1500
0.4 B,C 500 1500
0.5 B, C, D 500 1500
0.6 B, C, D 500 1500
0.7 B, C, D 500 1500
0.8 B, C, D 500 1500
0.9 B, C, D 500 1500
1.0 B, C, D 500 1500
1.1 B, C, D 500 1500
1.2 B, C, D 500 1500
1.3 B, C, D 500 1500
1.4 B, C, D 500 1500
1.5 B, C, D 500 1500
1.6 B, C, D 500 1500
1.7 B, C, D 500 1500
1.8 B, C, D 500 1500
1.9 B, C, D 500 1500
2.0 B, C, D 500 1500
2.2 B, C, D 500 1500
2.4 B, C, D 500 1500
2.7 B, C, D 500 1500
3.0 B, C, D 500 1500
3.3 B, C, D 500 1500
3.6 B, C, D 500 1500
Cap. pF Cap. Tol. WVDC*
STD HV
3.9 B, C, D 500 1500
4.3 B, C, D 500 1500
4.7 B, C, D 500 1500
5.1 B, C, D 500 1500
5.6 B, C, D 500 1500
6.2 B, C, D 500 1500
6.8 B, C, J, K 500 1500
7.5 B, C, J, K 500 1500
8.2 B, C, J, K 500 1500
9.1 B, C, J, K 500 1500
10 F, G, J, K 500 1500
11 F, G, J, K 500 1500
12 F, G, J, K 500 1500
13 F, G, J, K 500 1500
15 F, G, J, K 500 1500
16 F, G, J, K 500 1500
18 F, G, J, K 500 1500
20 F, G, J, K 500 1500
22 F, G, J, K 500 1500
24 F, G, J, K 500 1500
27 F, G, J, K 500 1500
30 F, G, J, K 500 1500
33 F, G, J, K 500 1500
36 F, G, J, K 500 1500
39 F, G, J, K 500 1500
43 F, G, J, K 500 1500
Cap. pF Cap. Tol. WVDC*
STD HV
47 F, G, J, K 500 1500
51 F, G, J, K 500 1000
56 F, G, J, K 500 1000
62 F, G, J, K 500 1000
68 F, G, J, K 500 1000
75 F, G, J, K 500 1000
82 F, G, J, K 500 1000
91 F, G, J, K 500 1000
100 F, G, J, K 500 1000
110 F, G, J, K 300 1000
120 F, G, J, K 300 1000
130 F, G, J, K 300 1000
150 F, G, J, K 300 1000
160 F, G, J, K 300 1000
180 F, G, J, K 300 1000
200 F, G, J, K 300 1000
220 F, G, J, K 200
240 F, G, J, K 200
270 F, G, J, K 200
300 F, G, J, K 200
330 F, G, J, K 200
360 F, G, J, K 200
390 F, G, J, K 200
430 F, G, J, K 200
470 F, G, J, K 200
510 F, G, J, K 100
Cap. pF Cap. Tol. WVDC*
STD HV
560 F, G, J, K 100
620 F, G, J, K 100
680 F, G, J, K 50
750 F, G, J, K 50
820 F, G, J, K 50
910 F, G, J, K 50
1000 F, G, J, K 50
1100 F, G, J, K 50
1200 F, G, J, K 50
1300 F, G, J, K 50
1500 F, G, J, K 50
1600 F, G, J, K 50
1800 F, G, J, K 50
2000 F, G, J, K 50
2200 F, G, J, K 50
2400 F, G, J, K 50
2700 F, G, J, K 50
3000 F, G, J, K 50
3300 F, G, J, K 50
3600 F, G, J, K 50
3900 F, G, J, K 50
4300 F, G, J, K 50
4700 F, G, J, K 50
5000 F, G, J, K 50
5100 F, G, J, K 50
Cap. pF Cap. Tol. WVDC
STD
5000 K, M, N 50
6800 K, M, N 50
8200 K, M, N 50
10000 K, M, N 50
12000 K, M, N 50
Cap. pF Cap. Tol. WVDC
STD
15000 K, M, N 50
18000 K, M, N 50
27000 K, M, N 50
33000 K, M, N 50
39000 K, M, N 50
Cap. pF Cap. Tol. WVDC
STD
47000 K, M, N 50
68000 K, M, N 50
82000 K, M, N 50
100000 K, M, N 50
*STD = Standard voltage rating; HV = High voltage rating
8
196 062116
RF/Microwave MLC’s
SQ Series Ultra Low ESR MLC
Typical ESR SQCA
0.001
0.01
0.1
1
10
10 100 1000
Frequency (Mhz)
ESR (ohms)
1pF
4.7pF
10pF
22pF
100pF
Typical ESR SQCB
0.001
0.01
0.1
1
10 100 1000
Frequency (Mhz)
ESR (ohms)
4.7pF
10pF
22pF
100pF
1000pF
8
197
06216
RF/Microwave MLC’s
SQ Series Ultra Low ESR MLC
SQCB Max Current
0.1
1
10
100
10 100 1000 10000
Frequency (Mhz)
Max Current (amps)
4.7pF
10pF
22pF
100pF
1000pF
SQCA Max Current
0.01
0.1
1
10
10 100 1000 10000
Frequency (Mhz)
Max Current (amps)
1pF
4.7pF
10pF
22pF
100pF
8
198 062116
RF/Microwave MLC’s
SQ Series Ultra Low ESR MLC
Series Resonant Frequency
100
1000
10000
1 10 100 1000
Capacitance (pF)
SRF(Mhz)
SQCA
SQCB
A
D
C
BMOUNTING PAD DIMENSIONS: inches (millimeters)
SQCA & SQCB DESIGN KITS
Case A min B min C min D min
SQCA 0.082 (2.083) 0.051 (1.295) 0.032 (0.813) 0.130 (3.302)
SQCB 0.131 (3.327) 0.051 (1.295) 0.074 (1.880) 0.177 (4.496)
SQCS 0.038 (0.965) 0.043 (1.092) 0.025 (0.635) 0.112 (2.845)
SQCF 0.059 (1.499) 0.051 (1.295) 0.024 (0.610) 0.125 (3.175)
PN Series Diel Term Range
KITSQ100LF SQCA P90 100% Tin
RoHS .1 to 2pF
KITSQ400LF C0G
KITSQ200LF SQCA P90 100% Tin
RoHS 1 to 10pF
KITSQ500LF C0G
KITSQ300LF SQCA P90 100% Tin
RoHS 10 to 100pF
KITSQ600LF C0G
KITSQ700LF SQCA C0G 100% Tin
RoHS 100 to 1000pF
KITSQ800LF SQCB P90 100% Tin
RoHS 1 to 10pF
KITSQ1100LF C0G
KITSQ900LF SQCB P90 100% Tin
RoHS 10 to 100pF
KITSQ1200LF C0G
KITSQ1000LF SQCB P90 100% Tin
RoHS 100 to 1000pF
KITSQ1300LF C0G
KITSQ1400LF SQCB C0G 100% Tin
RoHS 1000 to 5100 pF
8
199
092916
SQ
AVX Style
CS
Case Size
CS = 0603
CF = 0805
V
Voltage
Code
V = 250V
A 100 J A
Failure Rate
Code
A = Not
Applicable
T1A
Microwave MLC’s
SQCS (0603) SQCF (0805) Ultra Low ESR MLC
FEATURES:
• Low ESR
• High Q
• High Self Resonance
• Capacitance Range 0.1 pF to 240 pF
• EIA Size
APPLICATIONS:
• RF Power Amplifiers
• Low Noise Amplifiers
• Filter Networks
• Point to Point Radios
HOW TO ORDER
Temperature
Coefficient Code
A = 0±30ppm/°C
Termination
Style Code
**7 = Ag/Ni/Au
J = Nickel Barrier
Sn/Pb (60/40)
**T = 100% Tin
(Standard)
Capacitance
Tolerance Code
A = ±.05 pF
B = ±.1 pF
C = ±.25 pF
D = ±.5 pF
F = ±1%
G = ±2%
J = ±5%
Capacitance
EIA Capacitance Code in pF.
First two digits = significant
figures or “R” for decimal
place.
Third digit = number of zeros
or after “R” significant figures.
Packaging Code
1A = 7" Reel Unmarked
ME = 7" Reel Marked
* Vertical T&R available
* 500 piece reels available
Case Length (L) Width (W) Thickness (T) Band Width (bw)
SQCS .063±.006 .032±.006 .030 Max. .014±.006
(1.60±.152) (.813±.152) (.762) (.357±.152)
SQCF .079±.008 .049±.008 .045 Max. .014±.006
(2.01±.200) (1.24±.200) (1.14) (.357±.152)
MECHANICAL DIMENSIONS: inches (millimeters)
L
W
T
A
101J
bw
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481 (equivalent to IEC 286 part 3).
—8mm carrier
—7" reel = 4000 pcs (500 piece options)
**RoHS compliant
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
8
200 092916
Microwave MLC’s
Low ESR MLC Capacitors
ELECTRICAL SPECIFICATIONS
Temperature Coefficient (TCC) (A) 0 ± 30 PPM/ºC
Operating Temperature -55ºC to +125ºC
Quality Factor (Q) Greater than 10,000 at 1 MHz
Insulation Resistance (IR) 0.1 pF to 240 pF
105Megohms min. @ 25ºC at rated WVDC
104Megohms min. @ 125ºC at rated WVDC
Working Voltage (WVDC) See Capacitance Values table
Dielectric Withstanding Voltage (DWV) 250% of rated WVDC for 5 secs
Aging Effects None
Piezoelectric Effects None
Capacitance Drift ± (0.02% or 0.02 pF), whichever is greater
Themal Shock Mil-STD-202, Method 107, Condition A
Moisture Resistance Mil-STD-202, Method 106
Low Voltage Humidity Mil-STD-202, Method 103, condition A, with 1.5 VDC
applied while subjected to an environment of 85ºC with
85% relative humidity for 240 hours
Life Test Mil-STD-202, Method 108, for 2000 hours at 125ºC
Shock Mil-STD-202, Method 213, Condition J
Vibration Mil-STD-202, Method 204, Condition B
Immersion Mil-STD-202, Method 104, Condition B
Salt Spray Mil-STD-202, Method 101, Condition B
Solderability Mil-STD-202, Method 208
Terminal Strength Mil-STD-202, Method 211
Temperature Cycling Mil-STD-202, Method 102, Condition C
Barometric Pressure Mil-STD-202, Method 105, Condition B
Resistance to Solder Heat Mil-STD-202, Method 210, Condition C
ENVIRONMENTAL CHARACTERISTICS
AVX SQ will meet and exceed the requirements of EIA-198, MIL-PRF-55681 and MIL-PRF-123
8
201
092916
Cap. pF Cap. Tol. WVDC
0.1 A, B 250
0.2 A, B 250
0.3 A, B 250
0.4 A, B 250
0.5 A, B, C 250
0.6 A, B, C 250
0.7 A, B, C 250
0.8 A, B, C 250
0.9 A, B, C 250
1.0 A, B, C 250
1.1 A, B, C 250
1.2 A, B, C 250
1.3 A, B, C 250
1.4 A, B, C 250
1.5 A, B, C 250
1.6 A, B, C 250
1.7 A, B, C 250
1.8 A, B, C 250
1.9 A, B, C 250
2.0 A, B, C 250
2.2 A, B, C 250
Cap. pF Cap. Tol. WVDC
2.4 A, B, C 250
2.7 A, B, C 250
3.0 A, B, C 250
3.3 A, B, C 250
3.6 A, B, C 250
3.9 A, B, C 250
4.3 A, B, C 250
4.7 A, B, C 250
5.1 A, B, C 250
5.6 A, B, C 250
6.2 A, B, C 250
6.8 B, C, D 250
7.5 B, C, D 250
8.2 B, C, D 250
9.1 B, C, D 250
10 F, G, J 250
11 F, G, J 250
12 F, G, J 250
13 F, G, J 250
15 F, G, J 250
16 F, G, J 250
Cap. pF Cap. Tol. WVDC
18 F, G, J 250
20 F, G, J 250
22 F, G, J 250
24 F, G, J 250
27 F, G, J 250
30 F, G, J 250
33 F, G, J 250
36 F, G, J 250
39 F, G, J 250
43 F, G, J 250
47 F, G, J 250
51 F, G, J 250
56 F, G, J 250
62 F, G, J 250
68 F, G, J 250
75 F, G, J 250
82 F, G, J 250
91 F, G, J 250
100 F, G, J 250
Microwave MLC’s
SQ Series Available Capacitance/Size/WVDC/T.C.
TABLE I: TC: A (0±30PPM/°C) CASE SIZE S
Cap. pF Cap. Tol. WVDC
0.1 A, B 250
0.2 A, B 250
0.3 A, B 250
0.4 A, B 250
0.5 A, B, C 250
0.6 A, B, C 250
0.7 A, B, C 250
0.8 A, B, C 250
0.9 A, B, C 250
1.0 A, B, C 250
1.1 A, B, C 250
1.2 A, B, C 250
1.3 A, B, C 250
1.4 A, B, C 250
1.5 A, B, C 250
1.6 A, B, C 250
1.7 A, B, C 250
1.8 A, B, C 250
1.9 A, B, C 250
2.0 A, B, C 250
2.2 A, B, C 250
Cap. pF Cap. Tol. WVDC
2.4 A, B, C 250
2.7 A, B, C 250
3.0 A, B, C 250
3.3 A, B, C 250
3.6 A, B, C 250
3.9 A, B, C 250
4.3 A, B, C 250
4.7 A, B, C 250
5.1 A, B, C 250
5.6 A, B, C 250
6.2 A, B, C 250
6.8 B, C, D 250
7.5 B, C, D 250
8.2 B, C, D 250
9.1 B, C, D 250
10 F, G, J 250
11 F, G, J 250
12 F, G, J 250
13 F, G, J 250
15 F, G, J 250
16 F, G, J 250
Cap. pF Cap. Tol. WVDC
18 F, G, J 250
20 F, G, J 250
22 F, G, J 250
24 F, G, J 250
27 F, G, J 250
30 F, G, J 250
33 F, G, J 250
36 F, G, J 250
39 F, G, J 250
43 F, G, J 250
47 F, G, J 250
51 F, G, J 250
56 F, G, J 250
62 F, G, J 250
68 F, G, J 250
75 F, G, J 250
82 F, G, J 250
91 F, G, J 250
100 F, G, J 250
110 F, G, J 250
120 F, G, J 250
Cap. pF Cap. Tol. WVDC
150 F, G, J 250
180 F, G, J 250
200 F, G, J 250
220 F, G, J 250
240 F, G, J 250
TABLE II: TC: A (0±30PPM/°C) CASE SIZE F
8
202 092916
Microwave MLC’s
SQCS (0603) SQCF (0805) Ultra Low ESR MLC
Typical ESR SQCS
0.01
0.1
1
10 100 1000
Frequency (Mhz)
ESR (ohms)
1pF
4.7pF
10pF
22pF
100pF
Typical ESR SQCF
0.001
0.01
0.1
1
10 100 1000
Frequency (Mhz)
ESR (ohms)
1pF
4.7pF
10pF
100pF
240pF
8
203
092916
Microwave MLC’s
SQCS (0603) SQCF (0805) Ultra Low ESR MLC
Max Current SQCF
0.1
1
10
100
10 100 1000 10000
Frequency (Mhz)
1pF
4.7pF
10pF
100pF
240pF
Max Current (amps)
Max Current SQCS
0.1
1
10
100
10 100 1000 10000
Frequency (Mhz)
1pF
4.7pF
10pF
22pF
100pF
Max Current (amps)
8
204 092916
Microwave MLC’s
SQCS (0603) SQCF (0805) Ultra Low ESR MLC
100
1000
Series Resonant Frequency
100000
10000
11000
10 100
Capacitance (pF)
SRF(Mhz)
SQCS
SQCF
A
D
C
BMOUNTING PAD DIMENSIONS: inches (millimeters)
SQCS & SQCF ENGINEERING KITS
Case A min B min C min D min
SQCA 0.082 (2.083) 0.051 (1.295) 0.032 (0.813) 0.130 (3.302)
SQCB 0.131 (3.327) 0.051 (1.295) 0.074 (1.880) 0.177 (4.496)
SQCS 0.038 (0.965) 0.043 (1.092) 0.025 (0.635) 0.112 (2.845)
SQCF 0.059 (1.499) 0.051 (1.295) 0.024 (0.610) 0.125 (3.175)
PN Series Diel Term Range
Kit SQ1800LF SQCF C0G 100% Tin
RoHS .1 to 10pF
Kit SQ1900LF 10 to 240pF
Kit SQ1500LF SQCS C0G 100%Tin
RoHS .1 to 10pF
Kit SQ1600LF 10 to 100pF
Tolerance per PF:
B from .1 to 3.3 J from 10 to 240
C from 3.9 to 8.2
8
205
092616
Microwave MLC’s
AQ Series
AQ
AVX Style
AQ11, AQ12,
AQ13, AQ14
11
Case
Size
(See Chart)
E
Voltage
Code
5 = 50V
1 = 100V
E = 150V
2 = 200V
9 = 300V
7 = 500V
M 100 J
Capacitance
Tolerance
Code
B = ±.1 pF
C = ±.25 pF
D = ±.5 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
N = ±30%
A
Failure Rate
Code
A = Not
Applicable
1
Termination
Style Code
ME
Packaging*
Code
HOW TO ORDER
Temperature
Coefficient Code
M = +90±20ppm/°C (AQ11/12/13/14)
A = 0±30ppm/°C (AQ11/12/13/14)
C = 15% (“J” Termination only) (AQ12/14)
7 = Ag/Ni/Au (AQ11/13 only)
J = Nickel Barrier Sn/Pb
(60/40) - (AQ12/14 only)
T = 100% Tin (AQ12/14 only)
Capacitance
EIA Capacitance Code in pF.
First two digits = significant
figures or “R” for decimal
place.
Third digit = number of zeros
or after “R” significant figures.
3A = 13" Reel Unmarked
ME = 7" Reel Marked
RE = 13" Reel Marked
WE = Waffle Pack Marked
BE = Bulk Marked
These porcelain and ceramic dielectric multilayer capacitor
(MLC) chips are best suited for RF/ Microwave applications
typically ranging from 10 MHz to 4.2 GHz. Characteristic is a
fine grained, high density, high purity dielectric material imper-
vious to moisture with heavy internal palladium electrodes.
These characteristics lend well to applications requiring:
1) high current carrying capabilities;
2) high quality factors;
3) very low equivalent series resistance;
4) very high series resonance;
5) excellent stability under stresses of changing volt-
age, frequency, time and temperature.
Case Length (L) Width (W) Thickness (T) Band Width (bw)
AQ11 .055±.015 .055±.015 .020/.057 .010 + .010 -.005
(1.40±.381) (1.40±.381) (.508/1.45) (.254 +.254 -.127)
AQ12 .055 + .015 - .010 .055±.015 .020/.057 .010 + .010 -.005
(1.40+ .381 - .254) (1.40±.381) (.508/1.45) (.254 +.254 -.127)
AQ13 .110±.020 .110±.020 .030/.102 .015±.010
(2.79±.508) (2.79±.508) (.762/2.59) (.381±.254)
AQ14 .110 + .020 - .010 .110±.010 .030/.102 .015±.010
(2.79 +.889 -.254) (2.79±.508) (.762/2.59) (.381±.254)
MECHANICAL DIMENSIONS: inches (millimeters)
L
W
T
A
101J
bw
PACKAGING
Standard Packaging = Waffle Pack (maximum quantity is 80)
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481
(equivalent to IEC 286 part 3).
Sizes SQCA through SQCB, CDR11/12 through 13/14.
—8mm carrier
—7" reel: ≤0.040" thickness = 2000 pcs
≤0.075" thickness = 2000 pcs
—13" reel: ≤0.075" thickness = 10,000 pcs
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
8
206 092616
Microwave MLC’s
AQ Series
ELECTRICAL SPECIFICATIONS
AQ11, AQ12, AQ13, AQ14
M & A C
Temperature Coefficient (TCC) (M) +90 ± 20 PPM/ºC ( -55ºC to +125ºC) ±15% (-55ºC to 125ºC)
(M) +90 ± 30 PPM/ºC ( +125ºC to +175ºC)
(A) 0 ± 30 PPM/ºC
Capacitance Range (M) 0.1 pF to 1000 pF 0.001μF to 0.1μF
(A) 0.1 pF to 5100 pF
Operating Temperature 0.1 pF to 330 pF: from -55ºC to +175ºC -55°C to +125°C
360 pF to 5100 pF: from -55ºC to +125ºC
Quality Factor (Q) M Dielectric A & B Case Greater than 10,000 at 1 MHz 2.5% @ 1kHz
A Dielectric B Case Greater than 10,000 at 1 MHz 0.1 - 200 pF
Greater than 2,000 at 1 MHz 220 - 1000 pF
Greater than 2,000 at 1 KHz 1100 - 5100 pF
A Dielectric A Case Greater than 10,000 at 1 MHz 0.1 - 100 pF
Greater than 2,000 at 1 MHz 110 - 1000 pF
Insulation Resistance (IR) 0.1 pF to 470 pF 104Megohms min. @ 25ºC at rated WVDC
106Megohms min. @ 25ºC at rated WVDC 103Megohms min. @ 125ºC at rated WVDC
105Megohms min. @ 125ºC at rated WVDC
510 pF to 5100 pF
105Megohms min. @ 25ºC at rated WVDC
104Megohms min. @ 125ºC at rated WVDC
Working Voltage (WVDC) See Capacitance Values table See Capacitance Values table
Dielectric Withstanding Voltage (DWV) 250% of rated WVDC for 5 secs 250% of rated WVDC for 5 secs
(for 500V rated 150% of rated voltage)
Aging Effects None <3% per decade hour
Piezoelectric Effects None None
Capacitance Drift ± (0.02% or 0.02 pF), whichever is greater Not Applicable
Themal Shock Mil-STD-202, Method 107, Condition A
Moisture Resistance Mil-STD-202, Method 106
Low Voltage Humidity Mil-STD-202, Method 103, condition A, with 1.5 VDC
applied while subjected to an environment of 85ºC with
85% relative humidity for 240 hours
Life Test Mil-STD-202, Method 108, for 2000 hours at 125ºC
Shock Mil-STD-202, Method 213, Condition J
Vibration Mil-STD-202, Method 204, Condition B
Immersion Mil-STD-202, Method 104, Condition B
Salt Spray Mil-STD-202, Method 101, Condition B
Solderability Mil-STD-202, Method 208
Terminal Strength Mil-STD-202, Method 211
Temperature Cycling Mil-STD-202, Method 102, Condition C
Barometric Pressure Mil-STD-202, Method 105, Condition B
Resistance to Solder Heat Mil-STD-202, Method 210, Condition C
ENVIRONMENTAL CHARACTERISTICS
AVX SQLB will meet and exceed the requirements of EIA-198, MIL-PRF-55681 and MIL-PRF-123
8
207
092616
Microwave MLC’s
AQ Series Available Capacitance/Size/WVDC/T.C.
Case Length Width Thickness Band Width Avail. Term.
11 .055±.015 (1.40±.381) .055±.015 (1.40±.381) .020/.057 (.508/1.45) .010 +.010 -.005 (.254 +.254 -.127) 1 & 7
12 .055±.025 (1.40±.635) .055±.015 (1.40±.381) .020/.057 (.508/1.45) .010 +.010 -.005 (.254 +.254 -.127) J
13 .110±.020 (2.79±.508) .110±.020 (2.79±.508) .030/.102 (.762/2.59) .015±.010 (.381±.254) 1 & 7
14 .110 +0.035 -0.020 (2.79 +.889 -.508) .110±.020 (2.79±.508) .030/.102 (.762/2.59) .015±.010 (.381±.254) J
TABLE I: TC: M (+90±20PPM/°C)
CASE SIZE 11, 12, 13 & 14 DIMENSIONS: inches (millimeters)
Cap. pF Cap. Tol. WVDC
0.1 B 150
0.2 B 150
0.3 B,C 150
0.4 B,C 150
0.5 B, C, D 150
0.6 B, C, D 150
0.7 B, C, D 150
0.8 B, C, D 150
0.9 B, C, D 150
1.0 B, C, D 150
1.1 B, C, D 150
1.2 B, C, D 150
1.3 B, C, D 150
1.4 B, C, D 150
1.5 B, C, D 150
1.6 B, C, D 150
1.7 B, C, D 150
1.8 B, C, D 150
1.9 B, C, D 150
2.0 B, C, D 150
2.2 B, C, D 150
2.4 B, C, D 150
2.7 B, C, D 150
3.0 B, C, D 150
3.3 B, C, D 150
3.6 B, C, D 150
3.9 B, C, D 150
4.3 B, C, D 150
4.7 B, C, D 150
5.1 B, C, D 150
5.6 B, C, D 150
6.2 B, C, D 150
6.8 B, C, J, K, M 150
7.5 B, C, J, K, M 150
8.2 B, C, J, K, M 150
9.1 B, C, J, K, M 150
10 F, G, J, K, M 150
11 F, G, J, K, M 150
12 F, G, J, K, M 150
13 F, G, J, K, M 150
15 F, G, J, K, M 150
16 F, G, J, K, M 150
18 F, G, J, K, M 150
20 F, G, J, K, M 150
22 F, G, J, K, M 150
24 F, G, J, K, M 150
27 F, G, J, K, M 150
30 F, G, J, K, M 150
33 F, G, J, K, M 150
36 F, G, J, K, M 150
39 F, G, J, K, M 150
43 F, G, J, K, M 150
47 F, G, J, K, M 150
51 F, G, J, K, M 150
56 F, G, J, K, M 150
62 F, G, J, K, M 150
68 F, G, J, K, M 150
75 F, G, J, K, M 150
82 F, G, J, K, M 150
91 F, G, J, K, M 150
100 F, G, J, K, M 150
Case: AQ11, AQ12 Case: AQ13, AQ14
Cap. pF Cap. Tol. WVDC
0.1 B 500
0.2 B 500
0.3 B,C 500
0.4 B,C 500
0.5 B, C, D 500
0.6 B, C, D 500
0.7 B, C, D 500
0.8 B, C, D 500
0.9 B, C, D 500
1.0 B, C, D 500
1.1 B, C, D 500
1.2 B, C, D 500
1.3 B, C, D 500
1.4 B, C, D 500
1.5 B, C, D 500
1.6 B, C, D 500
1.7 B, C, D 500
1.8 B, C, D 500
1.9 B, C, D 500
2.0 B, C, D 500
2.2 B, C, D 500
2.4 B, C, D 500
2.7 B, C, D 500
3.0 B, C, D 500
3.3 B, C, D 500
3.6 B, C, D 500
3.9 B, C, D 500
4.3 B, C, D 500
4.7 B, C, D 500
5.1 B, C, D 500
5.6 B, C, D 500
6.2 B, C, D 500
6.8 B, C, J, K, M 500
7.5 B, C, J, K, M 500
8.2 B, C, J, K, M 500
9.1 B, C, J, K, M 500
10 F, G, J, K, M 500
11 F, G, J, K, M 500
12 F, G, J, K, M 500
13 F, G, J, K, M 500
15 F, G, J, K, M 500
16 F, G, J, K, M 500
18 F, G, J, K, M 500
20 F, G, J, K, M 500
22 F, G, J, K, M 500
24 F, G, J, K, M 500
27 F, G, J, K, M 500
30 F, G, J, K, M 500
33 F, G, J, K, M 500
36 F, G, J, K, M 500
39 F, G, J, K, M 500
43 F, G, J, K, M 500
47 F, G, J, K, M 500
51 F, G, J, K, M 500
56 F, G, J, K, M 500
62 F, G, J, K, M 500
68 F, G, J, K, M 500
75 F, G, J, K, M 500
82 F, G, J, K, M 500
91 F, G, J, K, M 500
Cap. pF Cap. Tol. WVDC
100 F, G, J, K, M 500
110 F, G, J, K, M 300
120 F, G, J, K, M 300
130 F, G, J, K, M 300
150 F, G, J, K, M 300
160 F, G, J, K, M 300
180 F, G, J, K, M 300
200 F, G, J, K, M 300
220 F, G, J, K, M 200
240 F, G, J, K, M 200
270 F, G, J, K, M 200
300 F, G, J, K, M 200
330 F, G, J, K, M 200
360 F, G, J, K, M 200
390 F, G, J, K, M 200
430 F, G, J, K, M 200
470 F, G, J, K, M 200
510 F, G, J, K, M 150
560 F, G, J, K, M 150
620 F, G, J, K, M 150
680 F, G, J, K, M 150
750 F, G, J, K, M 150
820 F, G, J, K, M 150
910 F, G, J, K, M 150
1000 F, G, J, K, M 150
8
208 092616
Microwave MLC’s
AQ Series Available Capacitance/Size/WVDC/T.C.
TABLE II: TC: A (0±30PPM/°C)
CASE SIZE 11, 12, 13 & 14 DIMENSIONS: inches (millimeters)
Cap. pF Cap. Tol. WVDC
0.1 B 150
0.2 B 150
0.3 B,C 150
0.4 B,C 150
0.5 B, C, D 150
0.6 B, C, D 150
0.7 B, C, D 150
0.8 B, C, D 150
0.9 B, C, D 150
1.0 B, C, D 150
1.1 B, C, D 150
1.2 B, C, D 150
1.3 B, C, D 150
1.4 B, C, D 150
1.5 B, C, D 150
1.6 B, C, D 150
1.7 B, C, D 150
1.8 B, C, D 150
1.9 B, C, D 150
2.0 B, C, D 150
2.2 B, C, D 150
2.4 B, C, D 150
2.7 B, C, D 150
3.0 B, C, D 150
3.3 B, C, D 150
3.6 B, C, D 150
3.9 B, C, D 150
4.3 B, C, D 150
4.7 B, C, D 150
5.1 B, C, D 150
5.6 B, C, D 150
6.2 B, C, D 150
6.8 B, C, J, K, M 150
7.5 B, C, J, K, M 150
8.2 B, C, J, K, M 150
9.1 B, C, J, K, M 150
10 F, G, J, K, M 150
11 F, G, J, K, M 150
12 F, G, J, K, M 150
13 F, G, J, K, M 150
15 F, G, J, K, M 150
16 F, G, J, K, M 150
18 F, G, J, K, M 150
20 F, G, J, K, M 150
22 F, G, J, K, M 150
Case: AQ11, AQ12
Cap. pF Cap. Tol. WVDC
24 F, G, J, K, M 150
27 F, G, J, K, M 150
30 F, G, J, K, M 150
33 F, G, J, K, M 150
36 F, G, J, K, M 150
39 F, G, J, K, M 150
43 F, G, J, K, M 150
47 F, G, J, K, M 150
51 F, G, J, K, M 150
56 F, G, J, K, M 150
62 F, G, J, K, M 150
68 F, G, J, K, M 150
75 F, G, J, K, M 150
82 F, G, J, K, M 150
91 F, G, J, K, M 150
100 F, G, J, K, M 150
110 F, G, J, K, M 50
120 F, G, J, K, M 50
130 F, G, J, K, M 50
150 F, G, J, K, M 50
160 F, G, J, K, M 50
180 F, G, J, K, M 50
200 F, G, J, K, M 50
220 F, G, J, K, M 50
240 F, G, J, K, M 50
270 F, G, J, K, M 50
300 F, G, J, K, M 50
330 F, G, J, K, M 50
360 F, G, J, K, M 50
390 F, G, J, K, M 50
430 F, G, J, K, M 50
470 F, G, J, K, M 50
510 F, G, J, K, M 50
560 F, G, J, K, M 50
620 F, G, J, K, M 50
680 F, G, J, K, M 50
750 F, G, J, K, M 50
820 F, G, J, K, M 50
910 F, G, J, K, M 50
1000 F, G, J, K, M 50
Case: AQ13, AQ14
Cap. pF Cap. Tol. WVDC
0.1 B 500
0.2 B 500
0.3 B,C 500
0.4 B,C 500
0.5 B, C, D 500
0.6 B, C, D 500
0.7 B, C, D 500
0.8 B, C, D 500
0.9 B, C, D 500
1.0 B, C, D 500
1.1 B, C, D 500
1.2 B, C, D 500
1.3 B, C, D 500
1.4 B, C, D 500
1.5 B, C, D 500
1.6 B, C, D 500
1.7 B, C, D 500
1.8 B, C, D 500
1.9 B, C, D 500
2.0 B, C, D 500
2.2 B, C, D 500
2.4 B, C, D 500
2.7 B, C, D 500
3.0 B, C, D 500
3.3 B, C, D 500
3.6 B, C, D 500
3.9 B, C, D 500
4.3 B, C, D 500
4.7 B, C, D 500
5.1 B, C, D 500
5.6 B, C, D 500
6.2 B, C, D 500
6.8 B, C, J, K, M 500
7.5 B, C, J, K, M 500
8.2 B, C, J, K, M 500
9.1 B, C, J, K, M 500
10 F, G, J, K, M 500
11 F, G, J, K, M 500
12 F, G, J, K, M 500
13 F, G, J, K, M 500
15 F, G, J, K, M 500
16 F, G, J, K, M 500
18 F, G, J, K, M 500
20 F, G, J, K, M 500
22 F, G, J, K, M 500
24 F, G, J, K, M 500
27 F, G, J, K, M 500
30 F, G, J, K, M 500
33 F, G, J, K, M 500
36 F, G, J, K, M 500
39 F, G, J, K, M 500
43 F, G, J, K, M 500
47 F, G, J, K, M 500
Cap. pF Cap. Tol. WVDC
51 F, G, J, K, M 500
56 F, G, J, K, M 500
62 F, G, J, K, M 500
68 F, G, J, K, M 500
75 F, G, J, K, M 500
82 F, G, J, K, M 500
91 F, G, J, K, M 500
100 F, G, J, K, M 500
110 F, G, J, K, M 300
120 F, G, J, K, M 300
130 F, G, J, K, M 300
150 F, G, J, K, M 300
160 F, G, J, K, M 300
180 F, G, J, K, M 300
200 F, G, J, K, M 300
220 F, G, J, K, M 200
240 F, G, J, K, M 200
270 F, G, J, K, M 200
300 F, G, J, K, M 200
330 F, G, J, K, M 200
360 F, G, J, K, M 200
390 F, G, J, K, M 200
430 F, G, J, K, M 200
470 F, G, J, K, M 200
510 F, G, J, K, M 150
560 F, G, J, K, M 150
620 F, G, J, K, M 150
680 F, G, J, K, M 150
750 F, G, J, K, M 150
820 F, G, J, K, M 150
910 F, G, J, K, M 150
1000 F, G, J, K, M 150
1100 F, G, J, K, M 50
1200 F, G, J, K, M 50
1300 F, G, J, K, M 50
1500 F, G, J, K, M 50
1600 F, G, J, K, M 50
1800 F, G, J, K, M 50
2000 F, G, J, K, M 50
2200 F, G, J, K, M 50
2400 F, G, J, K, M 50
2700 F, G, J, K, M 50
3000 F, G, J, K, M 50
3300 F, G, J, K, M 50
3600 F, G, J, K, M 50
3900 F, G, J, K, M 50
4300 F, G, J, K, M 50
4700 F, G, J, K, M 50
5000 F, G, J, K, M 50
5100 F, G, J, K, M 50
TABLE III: TC: C (±15%) CASE SIZE 12 & 14
Cap. pF Cap. Tol. WVDC
1000 K, M, N 50
1200 K, M, N 50
1500 K, M, N 50
1800 K, M, N 50
2000 K, M, N 50
Cap. pF Cap. Tol. WVDC
2200 K, M, N 50
2700 K, M, N 50
3300 K, M, N 50
3900 K, M, N 50
4700 K, M, N 50
Cap. pF Cap. Tol. WVDC
5100 K, M, N 50
5600 K, M, N 50
6800 K, M, N 50
8200 K, M, N 50
10000 K, M, N 50
Case: AQ12
Cap. pF Cap. Tol. WVDC
5000 K, M, N 50
6800 K, M, N 50
8200 K, M, N 50
10000 K, M, N 50
12000 K, M, N 50
Case: AQ14
Cap. pF Cap. Tol. WVDC
15000 K, M, N 50
18000 K, M, N 50
27000 K, M, N 50
33000 K, M, N 50
39000 K, M, N 50
Cap. pF Cap. Tol. WVDC
47000 K, M, N 50
68000 K, M, N 50
82000 K, M, N 50
100000 K, M, N 50
Case Length Width Thickness Band Width Avail. Term.
11 .055±.015 (1.40±.381) .055±.015 (1.40±.381) .020/.057 (.508/1.45) .010 +.010 -.005 (.254 +.254 -.127) 1 & 7
12 .055±.025 (1.40±.635) .055±.015 (1.40±.381) .020/.057 (.508/1.45) .010 +.010 -.005 (.254 +.254 -.127) J
13 .110±.020 (2.79±.508) .110±.020 (2.79±.508) .030/.102 (.762/2.59) .015±.010 (.381±.254) 1 & 7
14 .110 +0.035 -0.020 (2.79 +.889 -.508) .110±.020 (2.79±.508) .030/.102 (.762/2.59) .015±.010 (.381±.254) J
8
209
L
W
T
L
W
T
A
470J
100J
CDR13/14CDR11/12
bw bw
Per MIL-C-55681 AVX Length (L) Width (W) Thickness (T) Termination Band (bw)
Style Max Min Max Min
CDR11 AQ11 .055±.015 .055±.015 .057 .020 .020 .005
(1.40±.381) (1.40±.381) (1.45) (.508) (.508) (.127)
CDR12 AQ12 .055±.025 .055±.015 .057 .020 .020 .005
(1.40±.635) (1.40±.381) (1.45) (.508) (.508) (.127)
CDR13 AQ13 .110±.020 .110±.020 .102 .030 .025 .005
(2.79±.508) (2.79±.508) (2.59) (.762) (.635) (.127)
CDR14 AQ14 .110 +.035 -0.020 .110±.020 .102 .030 .025 .005
(2.79 +.889 -.508) (2.79±.508) (2.59) (.762) (.635) (.127)
CROSS REFERENCE: AVX/MIL-PRF-55681
Microwave MLC’s
CDR Series — MIL-PRF-55681 (RF/Microwave Chips)
MILITARY DESIGNATION PER MIL-PRF-55681
CDR12
MIL Style
CDR11, CDR12,
CDR13, CDR14
BG
Voltage
Temperature
Limits
101
Capacitance
A
Rated Voltage
Code
A = 50V
B = 100V
C = 200V
D = 300V
E = 500V
K
Capacitance
Tolerance Code
B = ±.1 pF
C = ±.25 pF
D = ±.5 pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
U
Termination
Finish (Military
Designations)
Code
S
Failure Rate
Level
M = 1.0%
P = .1%
R = .01%
S = .001%
HOW TO ORDER
BG = +90±20 ppm/°C with and without
rated voltage from -55°C to + 125°C
BP = 0±30ppm/°C with and without
rated voltage from -55°C to +125°C
M = Palladium silver
N = Silver-nickel-gold
S = Solder coated final with a minimum of
4 percent lead
T = Silver
U = Base metallization-barrier metal-solder coated
(tin/lead alloy, with a minimum of 4 percent lead)
W = Base metallization-barrier metal-tinned (tin or
tin/lead alloy)
Y = Base metallization-barrier metal-tin (100 per-
cent)
Z = Base metallization-barrier metal-tinned
(tin/lead alloy, with a minimum of 4 percent lead)
*See MIL-PRF-55681 Specification for more details
EIA Capacitance Code in pF.
First two digits = significant figures
or “R” for decimal place.
Third digit = number of zeros or
after “R” significant figures.
PACKAGING
Standard Packaging Quanity
CDR11-12 = 100 pcs per waffle pack
CDR13-14 = 80 pcs per waffle pack
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481
(equivalent to IEC 286 part 3).
Sizes SQCA through SQCB, CDR11/12 through 13/14.
—8mm carrier
—7" reel: ≤0.040" thickness = 2000 pcs
≤0.075" thickness = 2000 pcs
—13" reel: ≤0.075" thickness = 10,000 pcs
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
8
210
Microwave MLC’s
CDR Series — MIL-PRF-55681 (RF/Microwave Chips)
TABLE I: STYLES CDR11 AND CDR12 CAPACITOR CHARACTERISTICS
Type Rated temperature
Designation Capacitance Capacitance and WVDC
1/ in pF tolerance V/Temperature
CDR1 -B-0R1AB-- 0.1 B BG, BP 50
CDR1 -B-0R2AB-- 0.2 B BG, BP 50
CDR1 -B-0R3A--- 0.3 B, C BG, BP 50
CDR1 -B-0R4A--- 0.4 B, C BG, BP 50
CDR1 -B-0R5A--- 0.5 B, C, D BG, BP 50
CDR1 -B-0R6A--- 0.6 B, C, D BG, BP 50
CDR1 -B-0R7A--- 0.7 B, C, D BG, BP 50
CDR1 -B-0R8A--- 0.8 B, C, D BG, BP 50
CDR1 -B-0R9A--- 0.9 B, C, D BG, BP 50
CDR1 -B-1R0A--- 1.0 B, C, D BG, BP 50
CDR1 -B-1R1A--- 1.1 B, C, D BG, BP 50
CDR1 -B-1R2A--- 1.2 B, C, D BG, BP 50
CDR1 -B-1R3A--- 1.3 B, C, D BG, BP 50
CDR1 -B-1R4A--- 1.4 B, C, D BG, BP 50
CDR1 -B-1R5A--- 1.5 B, C, D BG, BP 50
CDR1 -B-1R6A--- 1.6 B, C, D BG, BP 50
CDR1 -B-1R7A--- 1.7 B, C, D BG, BP 50
CDR1 -B-1R8A--- 1.8 B, C, D BG, BP 50
CDR1 -B-1R9A--- 1.9 B, C, D BG, BP 50
CDR1 -B-2R0A--- 2.0 B, C, D BG, BP 50
CDR1 -B-2R1A--- 2.1 B, C, D BG, BP 50
CDR1 -B-2R2A--- 2.2 B, C, D BG, BP 50
CDR1 -B-2R4A--- 2.4 B, C, D BG, BP 50
CDR1 -B-2R7A--- 2.7 B, C, D BG, BP 50
CDR1 -B-3R0A--- 3.0 B, C, D BG, BP 50
CDR1 -B-3R3A--- 3.3 B, C, D BG, BP 50
CDR1 -B-3R6A--- 3.6 B, C, D BG, BP 50
CDR1 -B-3R9A--- 3.9 B, C, D BG, BP 50
CDR1 -B-4R3A--- 4.3 B, C, D BG, BP 50
CDR1 -B-4R7A--- 4.7 B, C, D BG, BP 50
CDR1 -B-5R1A--- 5.1 B, C, D BG, BP 50
CDR1 -B-5R6A--- 5.6 B, C, D BG, BP 50
CDR1 -B-6R2A--- 6.2 B, C, D BG, BP 50
CDR1 -B-6R8A--- 6.8 B, C, J, K, M BG, BP 50
CDR1 -B-7R5A--- 7.5 B, C, J, K, M BG, BP 50
CDR1 -B-8R2A--- 8.2 B, C, J, K, M BG, BP 50
CDR1 -B-9R1A--- 9.1 B, C, J, K, M BG, BP 50
CDR1 -B-100A--- 10 F, G, J, K, M BG, BP 50
CDR1 -B-110A--- 11 F, G, J, K, M BG, BP 50
CDR1 -B-120A--- 12 F, G, J, K, M BG, BP 50
CDR1 -B-130A--- 13 F, G, J, K, M BG, BP 50
CDR1 -B-150A--- 15 F, G, J, K, M BG, BP 50
CDR1 -B-160A--- 16 F, G, J, K, M BG, BP 50
CDR1 -B-180A--- 18 F, G, J, K, M BG, BP 50
CDR1 -B-200A--- 20 F, G, J, K, M BG, BP 50
CDR1 -B-220A--- 22 F, G, J, K, M BG, BP 50
CDR1 -B-240A--- 24 F, G, J, K, M BG, BP 50
CDR1 -B-270A--- 27 F, G, J, K, M BG, BP 50
Type Rated temperature
Designation Capacitance Capacitance and WVDC
1/ in pF tolerance V/Temperature
CDR1 -B-300A--- 30 F, G, J, K, M BG, BP 50
CDR1 -B-330A--- 33 F, G, J, K, M BG, BP 50
CDR1 -B-360A--- 36 F, G, J, K, M BG, BP 50
CDR1 -B-390A--- 39 F, G, J, K, M BG, BP 50
CDR1 -B-430A--- 43 F, G, J, K, M BG, BP 50
CDR1 -B-470A--- 47 F, G, J, K, M BG, BP 50
CDR1 -B-510A--- 51 F, G, J, K, M BG, BP 50
CDR1 -B-560A--- 56 F, G, J, K, M BG, BP 50
CDR1 -B-620A--- 62 F, G, J, K, M BG, BP 50
CDR1 -B-680A--- 68 F, G, J, K, M BG, BP 50
CDR1 -B-750A--- 75 F, G, J, K, M BG, BP 50
CDR1 -B-820A--- 82 F, G, J, K, M BG, BP 50
CDR1 -B-910A--- 91 F, G, J, K, M BG, BP 50
CDR1 -B-101A--- 100 F, G, J, K, M BG, BP 50
CDR1 -B-111A--- 110 F, G, J, K, M BP 50
CDR1 -B-121A--- 120 F, G, J, K, M BP 50
CDR1 -B-131A--- 130 F, G, J, K, M BP 50
CDR1 -B-151A--- 150 F, G, J, K, M BP 50
CDR1 -B-161A--- 160 F, G, J, K, M BP 50
CDR1 -B-181A--- 180 F, G, J, K, M BP 50
CDR1 -B-201A--- 200 F, G, J, K, M BP 50
CDR1 -B-221A--- 220 F, G, J, K, M BP 50
CDR1 -B-241A--- 240 F, G, J, K, M BP 50
CDR1 -B-271A--- 270 F, G, J, K, M BP 50
CDR1 -B-301A--- 300 F, G, J, K, M BP 50
CDR1 -B-331A--- 330 F, G, J, K, M BP 50
CDR1 -B-361A--- 360 F, G, J, K, M BP 50
CDR1 -B-391A--- 390 F, G, J, K, M BP 50
CDR1 -B-431A--- 430 F, G, J, K, M BP 50
CDR1 -B-471A--- 470 F, G, J, K, M BP 50
CDR1 -B-511A--- 510 F, G, J, K, M BP 50
CDR1 -B-561A--- 560 F, G, J, K, M BP 50
CDR1 -B-621A--- 620 F, G, J, K, M BP 50
CDR1 -B-681A--- 680 F, G, J, K, M BP 50
CDR1 -B-751A--- 750 F, G, J, K, M BP 50
CDR1 -B-821A--- 820 F, G, J, K, M BP 50
CDR1 -B-911A--- 910 F, G, J, K, M BP 50
CDR1 -B-102A--- 1000 F, G, J, K, M BP 50
1/Complete type designation will include additional symbols to indicate style,
voltage-temperature limits, capacitance tolerance (where applicable), termina-
tion finish (“M” or “N” for style CDR11, and “S”, “U”, “W”, “Y” or “Z” for style
CDR12) and failure rate level.
8
211
Microwave MLC’s
CDR Series — MIL-PRF-55681 (RF/Microwave Chips)
TABLE II: STYLES CDR13 AND CDR14 CAPACITOR CHARACTERISTICS
Type Rated temperature
Designation Capacitance Capacitance and WVDC
1/ in pF tolerance V/Temperature
CDR1 -B-0R1*B-- 0.1 B BG, BP 200/500
CDR1 -B-0R2*B-- 0.2 B BG, BP 200/500
CDR1 -B-0R3*--- 0.3 B, C BG, BP 200/500
CDR1 -B-0R4*--- 0.4 B, C BG, BP 200/500
CDR1 -B-0R5*--- 0.5 B, C, D BG, BP 200/500
CDR1 -B-0R6*--- 0.6 B, C, D BG, BP 200/500
CDR1 -B-0R7*-- 0.7 B, C, D BG, BP 200/500
CDR1 -B-0R8*--- 0.8 B, C, D BG, BP 200/500
CDR1 -B-0R9*--- 0.9 B, C, D BG, BP 200/500
CDR1 -B-1R0*--- 1.0 B, C, D BG, BP 200/500
CDR1 -B-1R1*--- 1.1 B, C, D BG, BP 200/500
CDR1 -B-1R2*--- 1.2 B, C, D BG, BP 200/500
CDR1 -B-1R3*--- 1.3 B, C, D BG, BP 200/500
CDR1 -B-1R4*--- 1.4 B, C, D BG, BP 200/500
CDR1 -B-1R5*--- 1.5 B, C, D BG, BP 200/500
CDR1 -B-1R6*--- 1.6 B, C, D BG, BP 200/500
CDR1 -B-1R7*--- 1.7 B, C, D BG, BP 200/500
CDR1 -B-1R8*--- 1.8 B, C, D BG, BP 200/500
CDR1 -B-1R9*--- 1.9 B, C, D BG, BP 200/500
CDR1 -B-2R0*--- 2.0 B, C, D BG, BP 200/500
CDR1 -B-2R1*--- 2.1 B, C, D BG, BP 200/500
CDR1 -B-2R2*-- 2.2 B, C, D BG, BP 200/500
CDR1 -B-2R4*--- 2.4 B, C, D BG, BP 200/500
CDR1 -B-2R7*--- 2.7 B, C, D BG, BP 200/500
CDR1 -B-3R0*--- 3.0 B, C, D BG, BP 200/500
CDR1 -B-3R3*--- 3.3 B, C, D BG, BP 200/500
CDR1 -B-3R6*--- 3.6 B, C, D BG, BP 200/500
CDR1 -B-3R9*--- 3.9 B, C, D BG, BP 200/500
CDR1 -B-4R3*--- 4.3 B, C, D BG, BP 200/500
CDR1 -B-4R7*--- 4.7 B, C, D BG, BP 200/500
CDR1 -B-5R1*--- 5.1 B, C, D BG, BP 200/500
CDR1 -B-5R6*--- 5.6 B, C, D BG, BP 200/500
CDR1 -B-6R2*--- 6.2 B, C, D BG, BP 200/500
CDR1 -B-6R8*--- 6.8 B, C, J, K, M BG, BP 200/500
CDR1 -B-7R5*--- 7.5 B, C, J, K, M BG, BP 200/500
CDR1 -B-8R2*--- 8.2 B, C, J, K, M BG, BP 200/500
CDR1 -B-9R1*--- 9.1 B, C, J, K, M BG, BP 200/500
CDR1 -B-100*--- 10 F, G, J, K, M BG, BP 200/500
CDR1 -B-110*--- 11 F, G, J, K, M BG, BP 200/500
CDR1 -B-120*--- 12 F, G, J, K, M BG, BP 200/500
CDR1 -B-130*--- 13 F, G, J, K, M BG, BP 200/500
CDR1 -B-150*--- 15 F, G, J, K, M BG, BP 200/500
CDR1 -B-160*--- 16 F, G, J, K, M BG, BP 200/500
CDR1 -B-180*--- 18 F, G, J, K, M BG, BP 200/500
CDR1 -B-200*--- 20 F, G, J, K, M BG, BP 200/500
CDR1 -B-220*--- 22 F, G, J, K, M BG, BP 200/500
CDR1 -B-240*--- 24 F, G, J, K, M BG, BP 200/500
CDR1 -B-270*--- 27 F, G, J, K, M BG, BP 200/500
CDR1 -B-300*--- 30 F, G, J, K, M BG, BP 200/500
CDR1 -B-330*--- 33 F, G, J, K, M BG, BP 200/500
CDR1 -B-360*--- 36 F, G, J, K, M BG, BP 200/500
CDR1 -B-390*--- 39 F, G, J, K, M BG, BP 200/500
CDR1 -B-430*--- 43 F, G, J, K, M BG, BP 200/500
CDR1 -B-470*--- 47 F, G, J, K, M BG, BP 200/500
CDR1 -B-510*--- 51 F, G, J, K, M BG, BP 200/500
Type Rated temperature
Designation Capacitance Capacitance and WVDC
1/ in pF tolerance V/Temperature
CDR1 -B-560*--- 56 F, G, J, K, M BG, BP 200/500
CDR1 -B-620*--- 62 F, G, J, K, M BG, BP 200/500
CDR1 -B-680*--- 68 F, G, J, K, M BG, BP 200/500
CDR1 -B-750*--- 75 F, G, J, K, M BG, BP 200/500
CDR1 -B-820*--- 82 F, G, J, K, M BG, BP 200/500
CDR1 -B-910*--- 91 F, G, J, K, M BG, BP 200/500
CDR1 -B-101*--- 100 F, G, J, K, M BG, BP 200/500
CDR1 -B-111‡--- 110 F, G, J, K, M BG, BP 200/300
CDR1 -B-121‡--- 120 F, G, J, K, M BG, BP 200/300
CDR1 -B-131‡--- 130 F, G, J, K, M BG, BP 200/300
CDR1 -B-151‡--- 150 F, G, J, K, M BG, BP 200/300
CDR1 -B-161‡--- 160 F, G, J, K, M BG, BP 200/300
CDR1 -B-181‡--- 180 F, G, J, K, M BG, BP 200/300
CDR1 -B-201‡--- 200 F, G, J, K, M BG, BP 200/300
CDR1 -B-221C--- 220 F, G, J, K, M BG, BP 200
CDR1 -B-241C--- 240 F, G, J, K, M BG, BP 200
CDR1 -B-271C--- 270 F, G, J, K, M BG, BP 200
CDR1 -B-301C--- 300 F, G, J, K, M BG, BP 200
CDR1 -B-331C--- 330 F, G, J, K, M BG, BP 200
CDR1 -B-361C--- 360 F, G, J, K, M BG, BP 200
CDR1 -B-391C--- 390 F, G, J, K, M BG, BP 200
CDR1 -B-431C--- 430 F, G, J, K, M BG, BP 200
CDR1 -B-471C--- 470 F, G, J, K, M BG, BP 200
CDR1 -B-511B--- 510 F, G, J, K, M BG, BP 100
CDR1 -B-561B--- 560 F, G, J, K, M BG, BP 100
CDR1 -B-621B--- 620 F, G, J, K, M BG, BP 100
CDR1 -B-681A--- 680 F, G, J, K, M BG, BP 50
CDR1 -B-751A--- 750 F, G, J, K, M BG, BP 50
CDR1 -B-821A--- 820 F, G, J, K, M BG, BP 50
CDR1 -B-911A--- 910 F, G, J, K, M BG, BP 50
CDR1 -B-102A--- 1000 F, G, J, K, M BG, BP 50
CDR1 -B-112A--- 1100 F, G, J, K, M BP 50
CDR1 -B-122A--- 1200 F, G, J, K, M BP 50
CDR1 -B-132A--- 1300 F, G, J, K, M BP 50
CDR1 -B-152A--- 1500 F, G, J, K, M BP 50
CDR1 -B-162A--- 1600 F, G, J, K, M BP 50
CDR1 -B-182A--- 1800 F, G, J, K, M BP 50
CDR1 -B-202A--- 2000 F, G, J, K, M BP 50
CDR1 -B-222A--- 2200 F, G, J, K, M BP 50
CDR1 -B-242A--- 2400 F, G, J, K, M BP 50
CDR1 -B-272A--- 2700 F, G, J, K, M BP 50
CDR1 -B-302A--- 3000 F, G, J, K, M BP 50
CDR1 -B-332A--- 3300 F, G, J, K, M BP 50
CDR1 -B-362A--- 3600 F, G, J, K, M BP 50
CDR1 -B-392A--- 3900 F, G, J, K, M BP 50
CDR1 -B-432A--- 4300 F, G, J, K, M BP 50
CDR1 -B-472A--- 4700 F, G, J, K, M BP 50
CDR1 -B-502A--- 5000 F, G, J, K, M BP 50
CDR1 -B-512A--- 5100 F, G, J, K, M BP 50
1/Complete type designation will include additional symbols to indicate style,
voltage-temperature limits, capacitance tolerance (where applicable), termina-
tion finish (“M” or “N” for style CDR13, and “S”, “U”, “W”, “Y” or “Z” for style
CDR14) and failure rate level.
*C=200V; E=500V.
‡C=200V; D=300V.
8
212
Microwave MLC’s
Performance Curves
AVX CORPORATION
100 1000
Frequency (MHz)
1 Picofarad 10 Picofarad 100 Picofarad
1000
100
10
Q
10000
TYPICAL Q vs. FREQUENCY
AQ11/12
MIL-PRF-55681E - BG
STANDARD - M
AVX CORPORATION
1 10 100
Capacitance (pF)
250 MHz 500 MHz 1000 MHz
0.1
0.01
ESR (ohms)
1
TYPICAL ESR vs. CAPACITANCE
AQ11/12
MIL-PRF-55681E - BG
STANDARD - M
AVX CORPORATION
1 10 100
Capacitance (pF)
250 MHz 500 MHz 1000 MHz
1000
100
10
Q
10000
TYPICAL Q vs. CAPACITANCE
AQ11/12
MIL-PRF-55681E - BG
STANDARD - M
AVX CORPORATION
100 1000
Frequency (MHz)
100 Picofarad10 Picofarad3.3 Picofarad
0.1
0.01
ESR (ohms)
1
TYPICAL ESR vs. FREQUENCY
AQ11/12
MIL-PRF-55681E - BG
STANDARD - M
8
213
Microwave MLC’s
Performance Curves
AVX CORPORATION
100 1000
Frequency (MHz)
10 Picofarad1 Picofarad 47 Picofarad 330 Picofarad
1000
100
10
Q
10000
TYPICAL Q vs. FREQUENCY
AQ13/14
MIL-PRF-55681E - BG
STANDARD - M
AVX CORPORATION
1 10 100
Capacitance (pF)
250 MHz 500 MHz 1000 MHz
0.1
0.01
ESR (ohms)
1
TYPICAL ESR vs. CAPACITANCE
AQ13/14
MIL-PRF-55681E - BG
STANDARD - M
AVX CORPORATION
1 10 100
Capacitance (pF)
250 MHz 500 MHz 1000 MHz
1000
100
10
Q
10000
TYPICAL Q vs. CAPACITANCE
AQ13/14
MIL-PRF-55681E - BG
STANDARD - M
AVX CORPORATION
100 1000
Frequency (MHz)
100 Picofarad15 Picofarad1 Picofarad
0.1
0.01
ESR (ohms)
1
TYPICAL ESR vs. FREQUENCY
AQ13/14
MIL-PRF-55681E - BG
STANDARD - M
8
214
Microwave MLC’s
Performance Curves
AVX CORPORATION
100 1000
Frequency (MHz)
1 Picofarad 15 Picofarad 100 Picofarad
1000
100
10
Q
10000
TYPICAL Q vs. FREQUENCY
AQ11/12
MIL-PRF-55681E - BP
STANDARD - A
AVX CORPORATION
1 10 100
Capacitance (pF)
250 MHz 500 MHz 1000 MHz
0.1
0.01
ESR (ohms)
1
TYPICAL ESR vs. CAPACITANCE
AQ11/12
MIL-PRF-55681E - BP
STANDARD - A
AVX CORPORATION
1 10 100
Capacitance (pF)
250 MHz 500 MHz 1000 MHz
1000
100
10
Q
10000
TYPICAL Q vs. CAPACITANCE
AQ11/12
MIL-PRF-55681E - BP
STANDARD - A
AVX CORPORATION
100 1000
Frequency (MHz)
100 Picofarad47 Picofarad15 Picofarad
0.1
0.01
ESR (ohms)
1
TYPICAL ESR vs. FREQUENCY
AQ13/14
MIL-PRF-55681E - BP
STANDARD - A
8
215
Microwave MLC’s
Performance Curves
AVX CORPORATION
100 1000
Frequency (MHz)
2 Picofarad 15 Picofarad 100 Picofarad
1000
100
10
Q
10000
TYPICAL Q vs. FREQUENCY
AQ13/14
MIL-PRF-55681E - BP
STANDARD - A
AVX CORPORATION
1 10 100
Capacitance (pF)
250 MHz 500 MHz 1000 MHz
0.1
0.01
ESR (ohms)
1
TYPICAL ESR vs. CAPACITANCE
AQ13/14
MIL-PRF-55681E - BP
STANDARD - A
AVX CORPORATION
1 10 100
Capacitance (pF)
250 MHz 500 MHz 1000 MHz
1000
100
10
Q
10000
TYPICAL Q vs. CAPACITANCE
AQ13/14
MIL-PRF-55681E - BP
STANDARD - A
AVX CORPORATION
100 1000
Frequency (MHz)
100 Picofarad47 Picofarad15 Picofarad
0.1
0.01
ESR (ohms)
1
TYPICAL ESR vs. FREQUENCY
AQ13/14
MIL-PRF-55681E - BP
STANDARD - A
8
216
Microwave MLC’s
Performance Curves
TYPICAL RESONANT FREQUENCY vs. CAPACITANCE
AVX AQ11-14 (CDR11-14)
Parallel Resonant
Frequency
Series Resonant
Frequency
AQ11/12
AQ11/12
AQ13/14
AQ13/14
10
1.0
0.11.0 10 100 1000
Capacitance (pF)
Frequency (GHz)
TYPICAL RESONANT FREQUENCY vs. CAPACITANCE
AVX 0603
10
1.0
0.1110 100 1000
Capacitance (pF)
Frequency (GHz)
Parallel Resonant
Frequency
Series Resonant
Frequency
8
217
Microwave MLC’s
Automatic Insertion Packaging
TAPE & REEL: All tape and reel specifications are in compliance with EIA RS481 (equivalent to IEC 286 part 3).
Sizes SQCA through SQCB, CDR11/12 through 13/14.
—8mm carrier
—7" reel: ≤0.040" thickness = 2000 pcs
≤0.075" thickness = 2000 pcs
—13" reel: ≤0.075" thickness = 10,000 pcs
REEL DIMENSIONS:millimeters (inches)
“U” Series - 402/0603/0805/1210 Size Chips
—8mm carrier
—7" reel: 0402 = 10,000 pcs
0603 & 0805 ≤0.40" thickness = 4000 pcs
0805 . 0.040" thickness & 1210 = 2000 pcs
—13" reel: ≤0.075" thickness = 10,000 pcs
Tape A B* C D* N W1W2W3
Size(1) Max. Min. Min. Min. Max.
7.9 Min.
+1.0
8mm 8.4
-0.0
14.4 (.311)
+.060
(.331
-0.0
) (.567) 10.9 Max.
330 1.5 13.0±0.20 20.2 50 (.429)
(12.992) (.059) (.512±.008) (.795) (1.969)
11.9 Min.
+2.0
12mm 12.4
-0.0
18.4 (.469)
(.488
+.076
) (.724) 15.4 Max.
-0.0
(.607)
EMBOSSED CARRIER CONFIGURATION
8 & 12 MM TAPE ONLY
CONSTANT DIMENSIONS
Tape D0EP0P2TT1G1G2
Size Max.
+0.10
8mm 8.4
-0.0
1.75 ± 0.10 4.0 ± 0.10 2.0 ± 0.05 0.600 0.10 0.75 0.75
+.004
and (.059
-0.0
) (.069 ± .004) (.157 ± .004) (.079 ± .002) (.024) (.004) (.030) (.030)
12mm Max. Min. Min.
See See
Note 3 Note 4
Metric dimensions will govern.
English measurements rounded and for reference only.
(1) For tape sizes 16mm and 24mm (used with chip size 3640) consult EIA RS-481 latest revision.
Tape Size B1D1FP1RT2WA0B0K0
Max. Min. Min.
See Note 6 See Note 5 See Note 2
+0.3
8mm 4.55 1.0 3.5 ± 0.05 4.0 ± 0.10 25 2.5 Max 8.0
-0.1
See Note 1
+.012
(.179) (.039) (.138 ± .002) (.157 ± .004) (.984) (.098) (.315
-.004
8.2 1.5 5.5 ± 0.05 4.0 ± 0.10 30 6.5 Max 12.0 ± .30
12mm (.323) (.059) (.217 ± .002) (.157 ± .004) (1.181) (.256) (.472 ± .012) See Note 1
NOTES:
1. A0, B0, and K0are determined by the max. dimensions to the ends of the
terminals extending from the component body and/or the body dimensions of
the component. The clearance between the end of the terminals or body of the
component to the sides and depth of the cavity (A0, B0, and K0) must be within
0.05 mm (.002) min. and 0.50 mm (.020) max. The clearance allowed must also
prevent rotation of the component within the cavity of not more than 20 degrees
(see sketches C & D).
2. Tape with components shall pass around radius “R” without damage. The
minimum trailer length (Note 2 Fig. 3) may require additional length to provide R
min. for 12mm embossed tape for reels with hub diameters approaching N min.
(Table 4).
3. G1dimension is the flat area from the edge of the sprocket hole to either the
outward deformation of the carrier tape between the embossed cavities or to
the edge of the cavity whichever is less.
4. G2dimension is the flat area from the edge of the carrier tape opposite the
sprocket holes to either the outward deformation of the carrier tape between the
embossed cavity or to the edge of the cavity whichever is less.
5. The embossment hole location shall be measured from the sprocket hole
controlling the location of the embossment. Dimensions of embossment
location and hole location shall be applied independent of each other.
6. B1dimension is a reference dimension for tape feeder clearance only.
VARIABLE DIMENSIONS
)
8
218 102616
Hi-Q®High RF Power
MLC Surface Mount Capacitors
For 600V to 7200V Applications
PRODUCT OFFERING
Hi-Q®, high RF power, surface mount MLC capacitors from AVX
Corporation are characterized with ultra-low ESR and dissipation factor
at high frequencies. They are designed to handle high power and
high voltage levels for applications in RF power amplifiers, inductive
heating, high magnetic field environments (MRI coils), medical and
industrial electronics.
HOW TO ORDER
STYLE HQCC HQCE
(L) Length 5.84 +0.51 -0.25 9.65 +0.38 -0.25
(0.230 +0.020 -0.010) (0.380 +0.015 -0.010)
(W) Width 6.35 ± 0.38 9.65 ± 0.25
(0.250 ± 0.015) (0.380 ± 0.010)
(T) Thickness 3.68 (0.145) max. for
Max. capacitance values ≤ 680pF 4.32 (0.170) max.
4.19 (0.165) max. for
capacitance values > 680pF
(t) Overlap 1.02 (0.040) max. 1.02 (0.040) max.
DIMENSIONS
L
W
T
t
HQCC
AVX
Style
HQCC
HQCE
HQLC
HQLE
A
Voltage
300V = 9
500V = 7
800V = U
1000V = A
1500V = S
2500V = W
3000V = H
3600V = J
5000V = K
7200V = M
A
Temperature
Coefficient
C0G = A
P90 = M
271
Capacitance Code
(2 significant digits
+ no. of zeros)
Examples:
4.7 pF = 4R7
10 pF = 100
100 pF = 101
1,000 pF = 102
J
Capacitance
Tolerance
B = 0.1pf (<8.2pF)
C = ±0.25pF (<8.2pF)
D = ±0.50pF (<8.2pF)
F = ±1% (10pF)
G = ±2%
J = ±5%
K = ±10%
M = ±20%
A
Test Level
A = Standard
T
Termination*
T = Plated Ni and Sn
(RoHS Compliant)
J = 5% Min Pb
7 = Plated Ni and Au
A = Axial Ribbon
M = Microstrip
H = Cu/Sn (Non-Magnetic)
4 = Axial Ribbon (Non-Magnetic)
5 = Microstrip (Non-Magnetic)
1A
Packaging
1A = 7" Reel*
6A = Waffle Pack
*HQCC & HQCE
only
STYLE HQLC HQLE
(L) Length 6.22 ± 0.64 9.65 +0.89 -0.25
(0.245 ± 0.025) (0.380 +0.035 -0.010)
(W) Width 6.35 ± 0.38 9.65 ± 0.25
(0.250 ±0.015) (0.380 ± 0.010)
(T) Thickness 3.68 (0.145) max. for
Max. capacitance values ≤ 680pF 4.32 (0.170) max.
4.19 (0.165) max. for
capacitance values ≤ 680pF
(LL) Lead 12.7 min. 19.05
Length (0.500) (0.750)
(WL) Lead 6.10 ± 0.127 8.89 ± 0.25
Width (0.240 ± 0.005) (0.350 ±0.010)
(TL) Lead 0.102 ±0.025 0.25 ± 0.13
Thickness (0.004 ± 0.001) (0.010 ±0.005)
Lead High Purity Silver Leads High Purity Silver Leads
Material Leads are attached with Leads are attached with
High Temperature Solder High Temperature Solder
WLW
LT
LL
TL
WLW
LT
LL
TL
MICROSTRIP
AXIAL RIBBON
Not RoHS Compliant
LEAD-FREE COMPATIBLE
COMPONENT
For RoHS compliant products,
please select correct termination style.
mm (inches) mm (inches)
8
219
102616
Hi-Q®High RF Power
MLC Surface Mount Capacitors
For 600V to 7200V Applications
Capacitance Range 1.0pF to 2,700pF
(25°C, 1.0 ±0.2 Vrms at 1kHz, for ≤ 1000 pF use 1MHz)
Capacitance Tolerances ±0.10pF, ±0.25pF, ±0.50pF, ±1%, ±2%, ±5%, ±10%, ±20%
Dissipation Factor 25°C 0.1% Max (+25°C, 1.0 ±0.2 Vrms at 1kHz, for ≤ 1000 pF use 1MHz)
Operating Temperature Range -55°C to +125°C
Temperature Characteristic C0G: 0 ± 30 ppm/°C (-55°C to +125°C), P90: 90 ± 30 ppm/°C (-55°C to +125°C)
Insulation Resistance 100K MΩ min. @ +25°C and 500VDC
10K MΩ min. @ +125°C and 500VDC
Dielectric Strength 250% of WVDC for capacitors rated at 500 volts DC or less for 5 seconds.
150% of WVDC for capacitors rated at 1250 volts DC or less for 5 seconds.
120% of WVDC for capacitors rated above 1250 volts DC or less for 5 seconds.
DIELECTRIC PERFORMANCE CHARACTERISTICS
MOUNTING DIMENSIONS
Mounting Layout A min. B min. C min. D min.
Orientation Type
Normal 7.112 1.270 5.080 7.620
Horizontal (0.280) (0.050) (0.200) (0.300)
High 6.604 0.762 5.080 6.604
Density (0.260) (0.030) (0.200) (0.260)
Normal 3.810 1.270 5.080 7.620
Vertical (0.150) (0.050) (0.200) (0.300)
(<680pF) High 3.302 0.762 5.080 6.604
Density (0.130) (0.030) (0.200) (0.260)
Normal 4.699 1.270 5.080 7.620
Vertical (0.185) (0.050) (0.200) (0.300)
(>680pF) High 4.191 0.762 5.080 6.604
Density (0.165) (0.030) (0.200) (0.260)
B
A
D
C
B
Mounting Layout A min. B min. C min. D min.
Orientation Type
Normal 10.287 1.270 8.255 10.795
Horizontal (0.405) (0.050) (0.325) (0.425)
High 9.779 0.762 8.255 9.779
Density (0.385) (0.030) (0.325) (0.385)
Normal 4.699 1.270 8.255 10.795
Vertical (0.185) (0.050) (0.325) (0.425)
High 4.191 0.762 8.255 9.779
Density (0.165) (0.030) (0.325) (0.385)
HQCC HQCE
mm (inches) mm (inches)
8
220 102616
Hi-Q®High RF Power
MLC Surface Mount Capacitors
For 600V to 7200V Applications
HQCE CAPACITANCE VALUES (A DIELECTRIC)
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
1R0 1.0
1R2 1.2
1R5 1.5
1R8 1.8
2R2 2.2
2R7 2.7 C, D
3R3 3.3 3600 7200
3R9 3.9
4R7 4.7
5R6 5.6
6R8 6.8
8R2 8.2
100 10 G, J,
120 12 K, M
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
150 15
180 18
220 22
270 27
330 33
390 39 7200
470 47 G, J, 3600
560 56 K, M
680 68
820 82
101 100
121 120
151 150 5000
181 180
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
221 220
271 270 3600
331 330
391 390
471 470
561 560 G, J, 2500
681 680 K, M
821 820 NA
102 1000
122 1200 1000
152 1500
182 1800
222 2200
HQCE CAPACITANCE VALUES (M DIELECTRIC)
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
1R0 1.0
1R2 1.2
1R5 1.5
1R8 1.8
2R2 2.2
2R7 2.7 B, C, D
3R3 3.3 3600 7200
3R9 3.9
4R7 4.7
5R6 5.6
6R8 6.8
8R2 8.2
100 10 F, G, J,
120 12 K, M
150 15
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
180 18
220 22
270 27
330 33
390 39 7200
470 47 F, G, J,
560 56 K, M 3600
680 68
820 82
101 100
121 120
151 150 5000
181 180
221 220 3600
271 270
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
331 330 3600
391 390
471 470
561 560 2500
681 680 F, G, J,
821 820 K, M
102 1000 NA
122 1200 1000
152 1500
182 1800
222 2200
272 2700
332 3300 G, J 500
472 4700 K, M
512 5100
HQCC CAPACITANCE VALUES (A DIELECTRIC)
Cap Cap Tol. Rated
Code (pF) WVDC
1R0 1.0
1R2 1.2
1R5 1.5
1R8 1.8
2R2 2.2
2R7 2.7 B, C, D 2500
3R3 3.3
3R9 3.9
4R7 4.7
5R6 5.6
6R8 6.8
Cap Cap Tol. Rated
Code (pF) WVDC
8R2 8.2 B, C, D
100 10
120 12
150 15
180 18
220 22 F, G, J 2500
270 27 K, M
330 33
390 39
470 47
560 56
Cap Cap Tol. Rated
Code (pF) WVDC
680 68
820 82
101 100
121 120 2500
151 150 F, G, J
181 180 K, M
221 220
271 270
331 330 1500
391 390
Cap Cap Tol. Rated
Code (pF) WVDC
471 470 1500
561 560
681 680
821 820 1000
102 1000 F, G, J
122 1200 K, M
152 1500 500
182 1800
222 2200 300
272 2700
HQCC CAPACITANCE VALUES (M DIELECTRIC)
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
1R0 1.0
1R1 1.1
1R2 1.2
1R3 1.3
1R4 1.4
1R5 1.5
1R6 1.6
1R7 1.7
1R8 1.8
1R9 1.9
2R0 2.0
2R1 2.1
2R2 2.2
2R4 2.4 B, C, D 2500 3600
2R5 2.5
3R0 3.0
3R3 3.3
3R6 3.6
3R9 3.9
4R3 4.3
4R7 4.7
5R1 5.1
5R6 5.6
6R2 6.2
6R8 6.8
7R5 7.5
8R2 8.2
9R1 9.1
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
100 10
110 11
120 12
130 13
150 15
160 16
180 18
200 20
220 22
240 24
270 27
300 30
330 33
360 36 F, G, J
390 39 K, M 2500 3600
430 43
470 47
510 51
560 56
620 62
680 68
750 75
820 82
910 91
101 100
111 110
121 120 3000
131 130
151 150
Cap Cap Tol. Rated WVDC
Code (pF)
Standard Extended
161 160
181 180
201 200 2500 3000
221 220
241 240
271 270
301 300
331 330
331 330
361 360 1500 2000
391 390
431 430
471 470
511 510 F, G, J
561 560 K, M
621 620
681 680
751 750 1000 1500
821 820
911 910
102 1000
112 1100
122 1200
152 1500 500
182 1800 800
222 2200
242 2400 300 500
272 2700
8
221
102616
Q VS. CAPACITANCE
HQCC
100000
10000
1000
100
10
1 10 100 1000 10000
Capacitance (pF)
Q
30 MHz
150 MHz
500 MHz
(Typical)
CURRENT RATING VS. CAPACITANCE
HQCC
100
10
1
0.1
1 10 100 1000 10000
Capacitance (pF)
RMS Current (Amps)
150 MHz
30 MHz
Dotted line = Power dissipation limited
Solid line = Voltage limited (Vrms)
500 MHz
10 MHz
The current rating is based on a 65°C mounting
surface and a device thermal resistance () of
15°C/W. A power dissipation of 4W will result
in a case temperature of 125°C.
SERIES RESONANCE VS. CAPACITANCE
HQCC
10000
1000
100
10
1 10 100 1000 10000
Capacitance (pF)
Frequency (MHz)
(Typical)
ESR VS. CAPACITANCE
HQCC
1
0.1
0.01
0.001
1 10 100 1000 10000
Capacitance (pF)
ESR (Ohms)
150 MHz
30 MHz
(Typical)
500 MHz
HQCC PERFORMANCE CHARACTERISTICS (A DIELECTRIC)
Q VS. CAPACITANCE
HQCC
100000
10000
1000
100
10
1 10 100 1000 10000
Capacitance (pF)
Q
30 MHz
150 MHz
500 MHz
(Typical)
ESR VS. CAPACITANCE
HQCC
1
0.1
0.01
0.001
1 10 100 1000 10000
Capacitance (pF)
ESR (Ohms)
150 MHz
30 MHz
(Typical)
500 MHz
HQCC PERFORMANCE CHARACTERISTICS (M DIELECTRIC)
Hi-Q®High RF Power
MLC Surface Mount Capacitors
For 600V to 7200V Applications
8
222 102616
Hi-Q®High RF Power
MLC Surface Mount Capacitors
For 600V to 7200V Applications
Q VS. CAPACITANCE
HQCE
100000
10000
1000
100
1 10 100 1000
Capacitance (pF)
(1.0 pF to 400 pF)
Q
30 MHz
(Typical)
ESR VS. CAPACITANCE
HQCE
1
0.1
0.01
1 10 100 1000
Capacitance (pF)
(1.0 pF to 400 pF)
ESR (Ohms)
30 MHz
(Typical)
HQCE PERFORMANCE CHARACTERISTICS (A DIELECTRIC)
CURRENT RATING VS. CAPACITANCE
HQCC
100
10
1
0.1
1 10 100 1000 10000
Capacitance (pF)
RMS Current (Amps)
150 MHz
30 MHz
Dotted line = Power dissipation limited
Solid line = Voltage limited (Vrms)
500 MHz
10 MHz
The current rating is based on a 65°C mounting
surface and a device thermal resistance () of
15°C/W. A power dissipation of 4W will result
in a case temperature of 125°C.
SERIES RESONANCE VS. CAPACITANCE
HQCC
10000
1000
100
10
1 10 100 1000 10000
Capacitance (pF)
Frequency (MHz)
(Typical)
Q VS. CAPACITANCE
HQCE
1000
100
10
100 1000 10000
Capacitance (pF)
(430 pF to 2200 pF)
Q
30 MHz
(Typical)
ESR VS. CAPACITANCE
HQCE
0.1
0.01
0.001
100 1000 10000
Capacitance (pF)
(430 pF to 2200 pF)
ESR (Ohms)
30 MHz
(Typical)
8
223
102616
Hi-Q®High RF Power
MLC Surface Mount Capacitors
For 600V to 7200V Applications
CURRENT RATING VS. CAPACITANCE
HQCE
100
10
1
0.1
1 10 100 1000
Capacitance (pF)
(1.0 pF to 400 pF)
RMS Current (Amps)
2 MHz
30 MHz
Dotted line = Power dissipation limited
Solid line = Voltage limited (Vrms)
10 MHz
The current rating is based on a 65°C mounting
surface and a device thermal resistance () of
12°C/W. A power dissipation of 5W will result
in a case temperature of 125°C.
SERIES RESONANCE VS. CAPACITANCE
HQCE
10000
1000
100
10
1 10 100 1000 10000
Capacitance (pF)
Frequency (MHz)
(Typical)
CURRENT RATING VS. CAPACITANCE
HQCE
100
10
1
0.1
1 10 100 1000
Capacitance (pF)
(1.0 pF to 180 pF)
RMS Current (Amps)
2 MHz
30 MHz
Dotted line = Power dissipation limited
Solid line = Voltage limited (Vrms)
10 MHz
The current rating is based on a 65°C mounting
surface and a device thermal resistance () of
12°C/W. A power dissipation of 5W will result
in a case temperature of 125°C.
CURRENT RATING VS. CAPACITANCE
HQCE
100
10
1
100 1000 10000
Capacitance (pF)
(430 pF to 2200 pF)
RMS Current (Amps)
2 MHz
30 MHz
Dotted line = Power dissipation limited
Solid line = Voltage limited (Vrms)
10 MHz
The current rating is based on a 65°C mounting
surface and a device thermal resistance () of
12°C/W. A power dissipation of 5W will result
in a case temperature of 125°C.
HQCE PERFORMANCE CHARACTERISTICS (M DIELECTRIC)
Q VS CAPACITANCE
HQCE M Dielectric
100000
10000
1000
100
1 10 100 1000
Capacitance (1.0 pF to 400 pF)
Q
30 MHz
(Typical)
ESR VS CAPACITANCE
HQCE M Dielectric
1
0.1
0.01
1 10 100 1000
Capacitance (1.0 pF to 400 pF)
ESR (Ohms)
30 MHz
(Typical)
8
224 102616
Hi-Q®High RF Power
MLC Surface Mount Capacitors
For 600V to 7200V Applications
Q VS CAPACITANCE
HQCE M Dielectric
1000
100
10
100 1000 10000
Capacitance (430 pF to 5100 pF)
Q
30 MHz
(Typical)
ESR VS CAPACITANCE
HQCE M Dielectric
1
0.1
0.01
100 1000 10000
Capacitance (430 pF to 5100 pF)
ESR (Ohms)
30 MHz
(Typical)
CURRENT RATING VS CAPACITANCE
HQCE M Dielectric
100
10
1
0.1
1 10 100 1000
Capacitance (1.0 pF to 400 pF)
RMS Current (Amps)
Dotted line = Power dissipation limited
Solid line = Voltage limited (Vrms)
The current rating is based on a 65°C mounting
surface and a device thermal resistance () of
12°C/W. A power dissipation of 5W will result
in a case temperature of 125°C.
30 MHz 10 MHz
2 MHz
CURRENT RATING VS CAPACITANCE
HQCE M Dielectric
100
10
1
100 1000 10000
Capacitance (430 pF to 5100 pF)
RMS Current (Amps)
Dotted line = Power dissipation limited
Solid line = Voltage limited (Vrms)
The current rating is based on a 65°C mounting
surface and a device thermal resistance () of
12°C/W. A power dissipation of 5W will result
in a case temperature of 125°C.
30 MHz
10 MHz
2 MHz
SERIES RESONANCE VS CAPACITANCE
HQCE M Dielectric
10000
1000
100
10
1 10 100 100001000
Capacitance (pF)
Frequency (MHz)
(Typical)
8
225
110116
RF/Microwave C0G (NP0)
Capacitors (RoHS)
Ultra Low ESR, “CU” Series, C0G (NP0) Chip Capacitors
GENERAL INFORMATION
“CU” Series capacitors are C0G (NP0) chip capacitors
specially designed for “Ultra” low ESR for applications in
the communications market. Sizes available are EIA chip
sizes 01005 and 0201.
Size L W T g A
(Length) (Width) (Max. Thickness) (min.) (Termination Min./Max.)
0402 0.40±0.02 0.20±0.02 0.22 0.13 0.70/0.14
(01005) (0.016±0.0008) 0.008±0.0008) (0.009) (0.005) (0.003/0.006)
0603 0.60±0.03 0.30±0.03 0.33 0.15 0.10/0.20
(0201) (0.024±0.001) (0.012±0.001) (0.013) (0.006) (0.004/0.008)
A
B
DD
E
C
A
BC
01005 0201
mm (inches)
ELECTRICAL CHARACTERISTICS
LEAD-FREE COMPATIBLE
COMPONENT
DIMENSIONS:
CU01
Case Size
CU10 = 01005
CU01 = 0201
3
Voltage
Code
3 = 25V
Y = 16V
1
Dielectric
1 = 0±30ppm
C0G (NP0)
100
Capacitance
EIA Capacitance
Code in pF.
First two digits =
significant figures or
“R” for decimal place.
Third digit = number
of zeros or after “R”
significant figures.
J
Capacitance
Tolerance
Code
A = ±0.05pF
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
G = ±2%
J = ±5%
2
Packaging
Code
2 = 7" Reel
4 = 13" Reel
U = 7" Reel
4mm TR
(01005)
A
Failure Rate
Code
A = Not
Applicable
T
Termination
T = Plated Ni
and Sn
A
Special
A = Standard
HOW TO ORDER
Capacitance Value Range:
Size 01005 0.2 to 24pF
Size 0201 0.2 to 24pF
Temperature Coefficient of Capacitance (TC):
0±30 ppm/°C (-55° to +125°C)
Insulation Resistance (IR):
1012 Ω min. @ 25°C and rated WVDC
1011 Ω min. @ 125°C and rated WVDC
Working Voltage (WVDC):
Size Working Voltage
01005 - 16V, 25V (0.2pF-10pF), 16V (10pF-24pF)
0201 - 25 WVDC
8
226 110116
RF/Microwave C0G (NP0)
Capacitors (RoHS)
Ultra Low ESR, “CU” Series, C0G (NP0) Chip Capacitors
CAPACITANCE RANGE
ULTRA LOW ESR, “CU” SERIES
Cap AvailableTolerance
(pF) 01005 0201
0.5 B,C,D B,C,D
0.75
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7 B,C,D
5.6 C,D
6.2 C,D
6.8 D
8.2 D
10.0 G,J,K J,K
12.0
15.0
18.0
22.0
24.0
0
-5
In. loss
01005 6.2pF
R. loss
-10
-15
-20
-25
-30
-35
-40
-45
-50
024681012
dB
Frequency (GHz)
0
-5
In. loss
0201 4.7pF
R. loss
-10
-15
-20
-25
-30
-35
-40
-45
-50
024681012
dB
Frequency (GHz)
10
In. loss
0201 22pF
R. loss
dB
Frequency (GHz)
0
-10
-20
-30
-40
-50
024681012
F (GHz) IL R. loss
F1 0.31 -0.40 -9.68
F2 1.28 -5.03 -1.44
F3 2.408 -11.58 -0.27
F4 4.635 -40.55 -0.39
F5 4.897 -31.82 -0.47
F (GHz) IL R. loss
F1 0.31 -0.13 -12.90
F2 1.28 -2.89 -2.84
F3 2.408 -8.09 -0.60
F4 4.635 -29.45 -0.37
F5 4.897 -38.55 -0.45
F (GHz) IL R. loss
F1 0.31 -2.90 -2.85
F2 1.28 -15.26 -0.10
F3 2.408 -45.65 -0.10
F4 4.635 -14.90 -0.87
F5 4.897 -12.89 -1.08
8
227
RF/Microwave C0G (NP0)
Capacitors (RoHS)
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
GENERAL INFORMATION
“U” Series capacitors are C0G (NP0) chip capacitors spe-
cially designed for “Ultra” low ESR for applications in the
communications market. Max ESR and effective capacitance
are met on each value producing lot to lot uniformity.
Sizes available are EIA chip sizes 0603, 0805, and 1210.
Size A B C D E
0402 0.039±0.004 (1.00±0.1) 0.020±0.004 (0.50±0.1) 0.024 (0.6) max N/A N/A
0603 0.060±0.010 (1.52±0.25) 0.030±0.010 (0.76±0.25) 0.036 (0.91) max 0.010±0.005 (0.25±0.13) 0.030 (0.76) min
0805 0.079±0.008 (2.01±0.2) 0.049±0.008 (1.25±0.2) 0.040±0.005 (1.02±0.127) 0.020±0.010 (0.51±0.254) 0.020 (0.51) min
1210 0.126±0.008 (3.2±0.2) 0.098±0.008 (2.49±0.2) 0.050±0.005 (1.27±0.127) 0.025±0.015 (0.635±0.381) 0.040 (1.02) min
Capacitance Values and Tolerances:
Size 0402 - 0.2 pF to 22 pF @ 1 MHz
Size 0603 - 1.0 pF to 100 pF @ 1 MHz
Size 0805 - 1.6 pF to 160 pF @ 1 MHz
Size 1210 - 2.4 pF to 1000 pF @ 1 MHz
Temperature Coefficient of Capacitance (TC):
0±30 ppm/°C (-55° to +125°C)
Insulation Resistance (IR):
1012 Ω min. @ 25°C and rated WVDC
1011 Ω min. @ 125°C and rated WVDC
Working Voltage (WVDC):
Size Working Voltage
0402 - 50, 25 WVDC
0603 - 200, 100, 50 WVDC
0805 - 200, 100 WVDC
1210 - 200, 100 WVDC
Dielectric Working Voltage (DWV):
250% of rated WVDC
Equivalent Series Resistance Typical (ESR):
0402 - See Performance Curve, page 231
0603 - See Performance Curve, page 231
0805 - See Performance Curve, page 231
1210 - See Performance Curve, page 231
Marking: Laser marking EIA J marking standard
(except 0603) (capacitance code and
tolerance upon request).
MILITARY SPECIFICATIONS
Meets or exceeds the requirements of MIL-C-55681
A
B
DD
E
C
A
BC
A
B
DD
E
C
A
B
DD
E
C
0805
Case Size
0402
0603
0805
1210
1
Voltage Code
3 = 25V
5 = 50V
1 = 100V
2 = 200V
U
Dielectric =
Ultra Low
ESR
100
Capacitance
J
Capacitance
Tolerance
Code
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
A
Failure Rate
Code
A = Not
Applicable
T
Termination
T= Plated Ni and Sn
2
Packaging
Code
2 = 7" Reel
4 = 13" Reel
9 = Bulk
A
Special Code
A = Standard
HOW TO ORDER
EIA Capacitance Code in pF.
First two digits = significant figures
or “R” for decimal place.
Third digit = number of zeros or
after “R” significant figures.
DIMENSIONS: inches (millimeters)
0402 0603 0805 1210
inches (mm)
ELECTRICAL CHARACTERISTICS LEAD-FREE COMPATIBLE
COMPONENT
8
228
RF/Microwave C0G (NP0)
Capacitors (RoHS)
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
ULTRA LOW ESR, “U” SERIES
3.9 pF
4.7 pF
5.1 pF
6.8 pF
10.0 pF
15.0 pF
1
0.1
0.01
0500 1000 1500 2000 2500
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
0603 “U” SERIES
10 pF
15 pF
3.3 pF
1
0.1
0.01
0500 1000 1500 2000 2500
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
0402 “U” SERIES
10.0 pF
100 pF
1
0.1
0.01
0500 1000 1500 2000 2500
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
0805 “U” SERIES
10 pF
100 pF
300 pF
1
0.1
0.01
0500 1000 1500 2000
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
1210 “U” SERIES
ESR Measured on the Boonton 34A
CAPACITANCE RANGE
Available Size
Cap (pF) Tolerance 0402 0603 0805 1210
0.2 B,C 50V N/A N/A N/A
0.3
0.4
0.5 B,C
0.6 B,C,D
0.7
0.8
0.9 B,C,D
Available Size
Cap (pF) Tolerance 0402 0603 0805 1210
1.0 B,C,D 50V 200V 200V 200V
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.0
2.1
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2 B,C,D
6.8 B,C,J,K,M
Available Size
Cap (pF) Tolerance 0402 0603 0805 1210
7.5 B,C,J,K,M 50V 200V 200V 200V
8.2
9.1 B,C,J,K,M
10 F,G,J,K,M
11
12
13
15
18 200V
20 100V
22
24
27
30 50V
33 N/A
36
39
43
47
51
56
68
75
82
91
Available Size
Cap (pF) Tolerance 0402 0603 0805 1210
100 F,G,J,K,M N/A 100V 200V 200V
110 50V
120 50V
130 N/A 200V
140 100V
150
160 100V
180 N/A
200
220
270
300
330
360
390
430 200V
470 100V
510
560
620
680
750
820
910
1000 F,G,J,K,M
8
229
RF/Microwave C0G (NP0)
Capacitors (RoHS)
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
TYPICAL
SERIES RESONANT FREQUENCY
“U” SERIES CHIP
1210
0805
0603
0402
10
1.0
0.11.0 10 100 1000
Capacitance (pF)
Frequency (GHz)
8
230 120216
RF/Microwave Automotive C0G (NP0)
Capacitors (RoHS), AEC Q200 Qualified
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
Automotive “U” Series capacitors are C0G (NP0) chip capac-
itors specially designed for “Ultra” low ESR for applications in
the automotive market. Max ESR and effective capacitance
are met on each value producing lot to lot uniformity. Sizes
available are EIA chip sizes 0402 and 0603.
Size A B C D E
0402 0.039±0.004 (1.00±0.1) 0.020±0.004 (0.50±0.1) 0.024 (0.6) max N/A N/A
0603 0.060±0.010 (1.52±0.25) 0.030±0.010 (0.76±0.25) 0.036 (0.91) max 0.010±0.005 (0.25±0.13) 0.030 (0.76) min
Capacitance Values and Tolerances:
Size 0402 - 0.2 pF to 22 pF @ 1 MHz
Size 0603 - 1.0 pF to 100 pF @ 1 MHz
Temperature Coefficient of Capacitance (TC):
0±30 ppm/°C (-55° to +125°C)
Insulation Resistance (IR):
1012 Ω min. @ 25°C and rated WVDC
1011 Ω min. @ 125°C and rated WVDC
Working Voltage (WVDC):
Size Working Voltage
0402 - 100, 50, 25 WVDC
0603 - 200, 100, 50 WVDC
Dielectric Working Voltage (DWV):
250% of rated WVDC
Equivalent Series Resistance Typical (ESR):
0402 - See Performance Curve, page 234
0603 - See Performance Curve, page 234
Automotive Specifications
Meets or exceeds the requirements of AEC Q200
A
B
DD
E
C
A
BC
0402
Case Size
0402
0603
1
Voltage Code
5 = 50V
1 = 100V
2 = 200V
U
Dielectric =
Ultra Low
ESR
100
Capacitance
J
Capacitance
Tolerance
Code
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
4
Failure Rate
Code
4 = Automotive
T
Termination
T= Plated Ni and Sn
2
Packaging
Code
2 = 7" Reel
4 = 13" Reel
9 = Bulk
A
Special Code
A = Standard
HOW TO ORDER
EIA Capacitance Code in pF.
First two digits = significant figures
or “R” for decimal place.
Third digit = number of zeros or
after “R” significant figures.
DIMENSIONS: inches (millimeters)
0402 0603
inches (mm)
ELECTRICAL CHARACTERISTICS LEAD-FREE COMPATIBLE
COMPONENT
GENERAL INFORMATION
8
231
120216
RF/Microwave Automotive C0G (NP0)
Capacitors (RoHS), AEC Q200 Qualified
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
ULTRA LOW ESR, “U” SERIES
3.9 pF
4.7 pF
5.1 pF
6.8 pF
10.0 pF
15.0 pF
1
0.1
0.01
0500 1000 1500 2000 2500
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
0603 “U” SERIES
10 pF
15 pF
3.3 pF
1
0.1
0.01
0500 1000 1500 2000 2500
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
0402 “U” SERIES
CAPACITANCE RANGE
Available Size
Cap (pF) Tolerance 0402 0603
0.2 B,C 100V N/A
0.3
0.4
0.5 B,C
0.6 B,C,D
0.7
0.8
0.9 B,C,D
Available Size
Cap (pF) Tolerance 0402 0603
1.0 B,C,D 100V 200V
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.0
2.1
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2 B,C,D
6.8 B,C,J,K,M
Available Size
Cap (pF) Tolerance 0402 0603
7.5 B,C,J,K,M 100V 200V
8.2
9.1 B,C,J,K,M
10 F,G,J,K,M 100V
11 50V
12
13
15
18 200V
20 100V
22
24
27
30 50V
33 N/A
36
39
43
47
51
56
68
75
82
91
Available Size
Cap (pF) Tolerance 0402 0603
100 F,G,J,K,M N/A 100V
110 50V
120 50V
130 N/A
140
150
160
180
200
220
270
300
330
360
390
430
470
510
560
620
680
750
820
910
1000 F,G,J,K,M
8
232 120216
RF/Microwave Automotive C0G (NP0)
Capacitors (RoHS), AEC Q200 Qualified
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
TYPICAL
SERIES RESONANT FREQUENCY
“U” SERIES CHIP
0603
0402
10
1.0
0.11.0 10 100 1000
Capacitance (pF)
Frequency (GHz)
8
233
RF/Microwave C0G (NP0)
Capacitors (Sn/Pb)
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
GENERAL INFORMATION
“U” Series capacitors are C0G (NP0) chip capacitors spe-
cially designed for “Ultra” low ESR for applications in the
communications market. Max ESR and effective capacitance
are met on each value producing lot to lot uniformity.
Sizes available are EIA chip sizes 0603, 0805, and 1210.
Size A B C D E
0402 0.039±0.004 (1.00±0.1) 0.020±0.004 (0.50±0.1) 0.024 (0.6) max N/A N/A
0603 0.060±0.010 (1.52±0.25) 0.030±0.010 (0.76±0.25) 0.036 (0.91) max 0.010±0.005 (0.25±0.13) 0.030 (0.76) min
0805 0.079±0.008 (2.01±0.2) 0.049±0.008 (1.25±0.2) 0.040±0.005 (1.02±0.127) 0.020±0.010 (0.51±0.254) 0.020 (0.51) min
1210 0.126±0.008 (3.2±0.2) 0.098±0.008 (2.49±0.2) 0.050±0.005 (1.27±0.127) 0.025±0.015 (0.635±0.381) 0.040 (1.02) min
Capacitance Values and Tolerances:
Size 0402 - 0.2 pF to 22 pF @ 1 MHz
Size 0603 - 1.0 pF to 100 pF @ 1 MHz
Size 0805 - 1.6 pF to 160 pF @ 1 MHz
Size 1210 - 2.4 pF to 1000 pF @ 1 MHz
Temperature Coefficient of Capacitance (TC):
0±30 ppm/°C (-55° to +125°C)
Insulation Resistance (IR):
1012 Ω min. @ 25°C and rated WVDC
1011 Ω min. @ 125°C and rated WVDC
Working Voltage (WVDC):
Size Working Voltage
0402 - 50, 25 WVDC
0603 - 200, 100, 50 WVDC
0805 - 200, 100 WVDC
1210 - 200, 100 WVDC
Dielectric Working Voltage (DWV):
250% of rated WVDC
Equivalent Series Resistance Typical (ESR):
0402 - See Performance Curve, page 237
0603 - See Performance Curve, page 237
0805 - See Performance Curve, page 237
1210 - See Performance Curve, page 237
Marking: Laser marking EIA J marking standard
(except 0603) (capacitance code and
tolerance upon request).
MILITARY SPECIFICATIONS
Meets or exceeds the requirements of MIL-C-55681
A
B
DD
E
C
A
BC
A
B
DD
E
C
A
B
DD
E
C
LD05
Case Size
LD02 = 0402
LD03 = 0603
LD05 = 0805
LD10 = 1210
1
Voltage Code
3 = 25V
5 = 50V
1 = 100V
2 = 200V
U
Dielectric =
Ultra Low
ESR
100
Capacitance
J
Capacitance
Tolerance
Code
B = ±0.1pF
C = ±0.25pF
D = ±0.5pF
F = ±1%
G = ±2%
J = ±5%
K = ±10%
M = ±20%
A
Failure Rate
Code
A = Not
Applicable
B
Termination
B = 5% min lead
2
Packaging
Code
2 = 7" Reel
4 = 13" Reel
9 = Bulk
A
Special Code
A = Standard
HOW TO ORDER
EIA Capacitance Code in pF.
First two digits = significant figures
or “R” for decimal place.
Third digit = number of zeros or
after “R” significant figures.
DIMENSIONS: inches (millimeters)
0402 0603 0805 1210
inches (mm)
ELECTRICAL CHARACTERISTICS
Not RoHS Compliant
8
234
ULTRA LOW ESR, “U” SERIES
3.9 pF
4.7 pF
5.1 pF
6.8 pF
10.0 pF
15.0 pF
1
0.1
0.01
0500 1000 1500 2000 2500
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
0603 “U” SERIES
10 pF
15 pF
3.3 pF
1
0.1
0.01
0500 1000 1500 2000 2500
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
0402 “U” SERIES
10.0 pF
100 pF
1
0.1
0.01
0500 1000 1500 2000 2500
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
0805 “U” SERIES
10 pF
100 pF
300 pF
1
0.1
0.01
0500 1000 1500 2000
Frequency (MHz)
ESR (ohms)
TYPICAL ESR vs. FREQUENCY
1210 “U” SERIES
ESR Measured on the Boonton 34A
RF/Microwave C0G (NP0)
Capacitors (Sn/Pb)
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
CAPACITANCE RANGE
Available Size
Cap (pF) Tolerance LD02 LD03 LD05 LD10
0.2 B,C 50V N/A N/A N/A
0.3
0.4
0.5 B,C
0.6 B,C,D
0.7
0.8
0.9 B,C,D
Available Size
Cap (pF) Tolerance LD02 LD03 LD05 LD10
1.0 B,C,D 50V 200V 200V 200V
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.0
2.1
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2 B,C,D
6.8 B,C,J,K,M
Available Size
Cap (pF) Tolerance LD02 LD03 LD05 LD10
7.5 B,C,J,K,M 50V 200V 200V 200V
8.2
9.1 B,C,J,K,M
10 F,G,J,K,M
11
12
13
15
18 200V
20 100V
22
24
27
30 50V
33 N/A
36
39
43
47
51
56
68
75
82
91
Available Size
Cap (pF) Tolerance LD02 LD03 LD05 LD10
100 F,G,J,K,M N/A 100V 200V 200V
110 50V
120 50V
130 N/A 200V
140 100V
150
160 100V
180 N/A
200
220
270
300
330
360
390
430 200V
470 100V
510
560
620
680
750
820
910
1000 F,G,J,K,M
8
235
TYPICAL
SERIES RESONANT FREQUENCY
“U” SERIES CHIP
1210
0805
0603
0402
10
1.0
0.11.0 10 100 1000
Capacitance (pF)
Frequency (GHz)
RF/Microwave C0G (NP0)
Capacitors (Sn/Pb)
Ultra Low ESR, “U” Series, C0G (NP0) Chip Capacitors
8
236
0402
Kit 4000 UZ
Cap. Cap.
Value Tolerance Value Tolerance
pF pF
1.0 6.8
1.2 7.5 B (±0.1pF)
1.5 8.2
1.8 10.0
2.0 12.0
2.4 B (±0.1pF) 15.0
2.7 18.0
3.0 22.0 J (±5%)
3.3 27.0
3.9 33.0
4.7 39.0
5.6 47.0
***25 each of 24 values
***25 each of 15 values
Kit 5000 UZ
Cap. Cap.
Value Tolerance Value Tolerance
pF pF
0.5 4.7
1.0 5.6 B (±0.1pF)
1.5 6.8
1.8 B (±0.1pF) 8.2
2.2 10.0
2.4 12.0 J (±5%)
3.0 15.0
3.6
***25 each of 30 values
Kit 3000 UZ
Cap. Cap.
Value Tolerance Value Tolerance
pF pF
1.0 15.0
1.5 18.0
2.2 22.0
2.4 24.0
2.7 27.0
3.0 33.0
3.3 B (±0.1pF) 36.0
3.9 39.0 J (±5%)
4.7 47.0
5.6 56.0
7.5 68.0
8.2 82.0
9.1 100.0
10.0 J (±5%) 130.0
12.0 160.0
***25 each of 30 values
Kit 3500 UZ
Cap. Cap.
Value Tolerance Value Tolerance
pF pF
2.2 36.0
2.7 39.0
4.7 47.0
5.1 B (±0.1pF) 51.0
6.8 56.0
8.2 68.0
9.1 82.0
10.0 100.0 J (±5%)
13.0 120.0
15.0 130.0
18.0 J (±5%) 240.0
20.0 300.0
24.0 390.0
27.0 470.0
30.0 680.0
Designer Kits
“U” Dielectric Kits
0603
0805 1210
237
Other Products
NOTICE: Specifications are subject to change without notice. Contact your nearest AVX Sales Office for the latest specifications. All statements, information and data given
herein are believed to be accurate and reliable, but are presented without guarantee, warranty, or responsibility of any kind, expressed or implied. Statements
or suggestions concerning possible use of our products are made without representation or warranty that any such use is free of patent infringement and are not
recommendations to infringe any patent. The user should not assume that all safety measures are indicated or that other measures may not be required. Specifications are
typical and may not apply to all applications.
© AVX Corporation
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