RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 1 Rev2, July 2012
DATASHEET
G
ENERAL
D
ESCRIPTION
This document describes the specifications for the
IDTF1150 Zero-Distortion
TM
RF to IF Downconverting
Mixer. This device is part of a series of downconverting
mixers offered with high side or low side injection
options for all UTRA bands. See the Part# Matrix for the
details of all devices in this series.
The F1150 dual channel device is designed to operate
with a single 5V supply. It is optimized for operation in
a Multi-mode, Multi-carrier BaseStation Receiver for RF
bands from 1700 - 2200 MHz with High Side Injection.
IF frequencies from 50 to 450 MHz are supported.
Nominally, the device offers +40 dBm Output IP3 with
335 mA of I
CC
. Alternately one can adjust 4 resistor
values and a toggle pin to run the device in low current
mode with +36 dBm Output IP3 and 235 mA of I
CC
.
C
OMPETITIVE
A
DVANTAGE
In typical basestation receivers the RF to IF mixer
dominates the linearity performance for the entire
receive system. Zero-Distortion mixers dramatically
improve the maximum signal levels (IM
3
tones) that the
BTS can withstand at a desired Signal to Noise Ratio
(SNR.) Alternately, one can run the device in Low
Current Mode to reduce Power consumption significantly.
IDT’s innovative design allows realization of either
benefit.
IP3
O
:
5 dB STD Mode,
2 dB LC Mode
Dissipation:
40% LC
Mode,
12% STD Mode
Allows for higher RF gain
improving Sensitivity
P
ART
#
M
ATRIX
Part# RF freq
range
UTRA bands IF freq
range
Typ.
Gain
Injection
F1100 698 - 915 5,6,8,12,13,14,17
,19,20 50 - 450 8.5 High Side
F1102 698 - 915 5,6,8,12,13,14,17
,19,20 50 - 250 8.5 Both
F
F1
11
15
50
0
1
17
70
00
0
-
-
2
22
20
00
0
1
1,
,2
2,
,3
3,
,4
4,
,9
9,
,1
10
0,
,
3
33
3,
,
3
3
4
4
,
,
3
3
5
5
,
,
3
3
6
6
,
,
3
3
7
7
,
,
3
3
9
9
5
50
0
-
-
4
45
50
0
8
8.
.5
5
H
Hi
ig
gh
h
S
Si
id
de
e
F1152 1400 - 2200
1,2,3,4,9,10,11
21
1
, 24
1
, 33,
34,35, 36, 37,39
50 - 350 8.4 Low Side
F1162 2200 – 2700 7,38,40,41
2
50 – 500 8.9 Both
F
EATURES
Dual Path for Diversity Systems
Ideal for Multi-Carrier Systems
8.5 dB Gain (200 MHz IF)
Ultra linear +38 dBm IP3
O
(350 MHz IF)
Ultra linear
+
+4
40
0
d
dB
Bm
m
I
IP
P3
3
O
O
(
(2
20
00
0
M
MH
Hz
z
I
IF
F)
)
Low NF < 10 dB
200 Ω output impedance
Ultra high +13 dBm P1dB
I
P
Pi
in
n
C
Co
om
mp
pa
at
ti
ib
bl
le
e with existing solutions
6x6 36 pin package
P
Po
ow
we
er
r
D
Do
ow
wn
n
m
mo
od
de
e
< 200 nsec settling from Power Down
Minimizes Synth pulling in Standby Mode
Low Current Mode : I
I
C
CC
C
=
=
2
23
35
5
m
mA
A
Standard Mode: I
CC
= 335 mA
D
EVICE
B
LOCK
D
IAGRAM
O
RDERING
I
NFORMATION
1 – with High side injection
2 – With High side or Low side injection
RF
IN_A
IF
OUT_A
RF VCO
LO
ISET
LC
MODE
RF
IN_B
IF
OUT_B
Bias
Control
STBY
2
IDT
F
1150NB
GI8
0.8 mm height
package
Green
Industrial
Temp range
Tape &
Reel
Omit IDT
prefix
RF product Line
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 2 Rev2, July 2012
DATASHEET
A
BSOLUTE
M
AXIMUM
R
ATINGS
VCC to GND -0.3V to +5.5V
STBY, LC
MODE
-0.3V to (VCC_ + 0.3V)
IF_A+, IF_B+, IF_A-, IF_B-, LO_IN -0.3V to (VCC_ + 0.3V)
LO1_ADJ, LO2_ADJ, IF_BiasA, IF_BiasB to GND -0.3V to +1.2V
RF Input Power (RF_IN[A+, A-, B+, B-]) +20dBm
Continuous Power Dissipation 2.2W
θ
JA
(Junction – Ambient) +35°C/W
θ
JC
(Junction – Case)
The Case is defined as the exposed paddle
+2.1°C/W
Operating Temperature Range (Case Temperature) T
C
= -40°C to +100°C
Maximum Junction Temperature 150°C
Storage Temperature Range -65°C to +150°C
Lead Temperature (soldering, 10s) . +260°C
Stresses above those listed above may cause permanent damage to the device. Functional operation of the
device at these or any other conditions above those indicated in the operational section of this specification is
not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 3 Rev2, July 2012
DATASHEET
IDTF1150
S
PECIFICATION
(1700
2200
MH
Z
M
IXER W
/H
IGH
S
IDE
I
NJECTION
)
Specifications apply at V
CC
= +5.0V, F
RF
= 1850 MHz, F
IF
= 350MHz, P
LO
= 0 dBm, T
C
= +25°C, STBY = GND, LC
MODE
= V
IH
(STD
Mode),
EVKit BOM = Standard Mode, Transformer Loss included (not de-embedded) unless otherwise noted.
Parameter Comment Symbol
min typ max units
Logic Input High For Standby, LC
MODE
Pins V
IH
2
V
Logic Input Low For Standby, LC
MODE
Pins V
IL
0.8
V
Logic Current For Standby, LC
MODE
Pins I
IH,
I
IL
-30 +30
µA
Supply Voltage(s) All V
CC
pins V
CC
4.75 to
5.25
V
Operating
Temperature Range Case Temperature T
CASE
-40 to
+100
degC
Supply Current Total V
CC
, STD Mode
Total Both Channels
I
STD
334 375
mA
Supply Current
Total V
CC
, LC Mode
LC
MODE
= GND
EVkit BOM = LC Mode
Total Both Channels
I
LC
235 260
mA
Supply Current
Standby Mode
STBY = V
IH
Total Both Channels
I
STBY
23 30
mA
RF Freq Range Operating Range F
RF
1700 to
2200
MHz
IF Freq Range Operating Range F
IF
50 to 450
MHz
LO Freq Range High Side Injection
F
LO
1750 to
2650
MHz
LO Power P
LO
-3 to +6
dBm
RF Input Impedance Single Ended
Return Loss ~17 dB
Z
RF
50
IF Output Impedance Differential
Return Loss ~ 13 dB
Z
IF
200
LO port Impedance Single Ended
Return Loss ~15 dB
Z
LO
50
Settling Time
Pin = -13 dBm
Gate STBY from V
IH
to V
IL
Time for IF Signal to settle to
within 0.1 dB of final value
T
SETT
0.155
µsec
Gain STD Mode
Conversion Gain
F
RF
= 1710 MHz
LC
MODE
= V
IH
EVkit BOM = STD Mode
F
IF
= 350 MHz
G
STD
7.0 8.1 8.6
dB
Gain LC Mode
Conversion Gain
F
RF
= 2050 MHz
LC
MODE
= GND
EVkit BOM = LC Mode
F
IF
= 200 MHz
G
LC
7.2 8.2 8.8
dB
NF STD Mode Noise Figure NF
STD
10
dB
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 4 Rev2, July 2012
DATASHEET
IDTF1150
S
PECIFICATION
(C
ONTINUED
)
Parameter Comment Symbol
min typ max units
NF LC Mode
Noise Figure
LC
MODE
= GND
EVkit BOM = LC Mode
F
IF
= 200 MHz
NF
LC
9.6
dB
NF w/Blocker
-100 MHz offset blocker
P
IN
= +4 dBm
F
IF
= 250 MHz
NF
BLK
17.5 dB
Output IP3
Narrowband
P
IN
= -10 dBm per tone
800 KHz Tone Separation
IP3
O1
36 38
dBm
Output IP3
Wideband
P
IN
= -10 dBm per tone
30 MHz Tone Separation
IP3
O2
37
dBm
Output IP3
LC
MODE
P
IN
= -5 dBm per tone
F
RF
= 1850 MHz
F
IF
= 200 MHz
800 KHz Tone Separation
LC
MODE
= GND
EVKit BOM = LC Mode
IP3
O3
33 36
dBm
2RF – 2LO rejection
P
RF
= -10 dBm
Frequency = F
RF
+ ½ F
IF
2x2
-74 -64
dBc
1 dB Compression
Input referred
P1dB
I1
12 12.8
dBm
1 dB Compression -
LC
MODE
Input referred
LC
MODE
= GND
EVKit BOM = LC Mode
F
IF
= 200 MHz
P1dB
I2
8 10.6
dBm
Gain Comp. w/blocker
Blocker unmodulated tone
P
IN
= +8 dBm, -100 MHz offset
Signal Pin Tone = -20 dBm
Measure ∆G of signal
F
IF
= 250 MHz
∆G
AC
0.15
dB
Channel Isolation
IF_B Pout vs. IF_A w/ RF_A input
ISO
C
52
dB
LO to IF leakage
ISO
LI
-39 -35
dBm
RF to IF leakage
Pin = -10 dBm
ISO
RI
-30 -22.5
dBm
LO to RF leakage
ISO
LR
-40
dBm
1 – Items in min/max columns in bold italics are Guaranteed by Test
2 – All other Items in min/max columns are Guaranteed by Design Characterization
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 5 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDTIONS
Unless otherwise Noted, the following Apply
High Side Injection, 350 MHz IF & 200 MHz IF
RF frequency = 1850 MHz for single point measurements
Average of Channel A & Channel B
Pin = -10 dBm, 800KHz Tone Spacing
Use the Decoder example below for the Typ Op graphs on pages 6 – 10 & 13 - 17
4
5
6
7
8
9
10
11
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Conversion Gain (dB)
Typical
T
CASE
= 25C
V
SUPPLY
= 5.0V
LO
LEVEL
= 0 dBm
Hot or Low
T
CASE
= 85C or
V
SUPPLY
= 4.75V or
LO
LEVEL
= -3 dBm
Cold or High
T
CASE
= -40C or
V
SUPPLY
= 5.25V or
LO
LEVEL
= +6 dBm
350 MHz IF
(solid line)
200 MHz IF
(dotted line)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 6 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
STD
M
ODE
(1)
S
EE
T
RACE
D
ECODER ON
P
AGE
5
Gain vs. Temperature
Gain vs. LO Level
Output IP3 vs. V
CC
Gain vs. V
CC
Output IP3 vs. Temperature
Output IP3 vs. LO Level
4
5
6
7
8
9
10
11
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Conversion Gain (dB)
4
5
6
7
8
9
10
11
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Conversion Gain (dB)
15
20
25
30
35
40
45
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Output IP3 (dBm)
4
5
6
7
8
9
10
11
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Conversion Gain (dB)
15
20
25
30
35
40
45
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Output IP3 (dBm)
15
20
25
30
35
40
45
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Output IP3 (dBm)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 7 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
STD
M
ODE
(2)
-
S
EE
T
RACE
D
ECODER ON
P
AGE
5
P1dB vs. Temperature
P1dB vs. LO Level
2RF x 2LO Rejection vs. V
CC
P1dB vs. V
CC
2RF x 2LO rejection vs. Temperature
2RF x 2LO rejection vs. LO Level
7
8
9
10
11
12
13
14
15
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Input P1dB (dBm)
7
8
9
10
11
12
13
14
15
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Input P1dB (dBm)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
2RF X 2LO [Pin = -10] response (dBc)
7
8
9
10
11
12
13
14
15
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Input P1dB (dBm)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
2RF X 2LO [Pin = -10] response (dBc)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
2RF X 2LO [Pin = -10] response (dBc)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 8 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
STD
M
ODE
(3)
S
EE
T
RACE
D
ECODER ON
P
AGE
5
I
CC
vs. Temperature
I
CC
vs. LO Level
LO-IF Leakage vs. V
CC
I
CC
vs. V
CC
LO-IF Leakage vs. Temperature
LO-IF Leakage vs. LO Level
0.200
0.220
0.240
0.260
0.280
0.300
0.320
0.340
0.360
0.380
0.400
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Total Icc (A)
0.200
0.220
0.240
0.260
0.280
0.300
0.320
0.340
0.360
0.380
0.400
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Total Icc (A)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
LO to IF Leakage (dBm)
0.200
0.220
0.240
0.260
0.280
0.300
0.320
0.340
0.360
0.380
0.400
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Total Icc (A)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
LO to IF Leakage (dBm)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
LO to IF Leakage (dBm)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 9 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
STD
M
ODE
(4)
S
EE
T
RACE
D
ECODER ON
P
AGE
5
RF-IF Leakage vs. Temperature
RF-IF Leakage vs. LO Level
3RF X 3LO Rejection vs. V
CC
RF-IF Leakage vs. V
CC
3RF X 3LO Rejection vs. Temperature
3RF X 3LO Rejection vs. LO Level
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
RF to IF Leakage [Pin = -10 dBm] (dBm)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
RF to IF Leakage [Pin = -10 dBm] (dBm)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
3RF X 3LO [Pin = -10] response (dBc)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
RF to IF Leakage [Pin = -10 dBm] (dBm)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
3RF X 3LO [Pin = -10] response (dBc)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
3RF X 3LO [Pin = -10] response (dBc)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 10 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
STD
M
ODE
(5)
S
EE
T
RACE
D
ECODER ON
P
AGE
5
Channel Isolation vs. Temperature
Channel Isolation vs. LO Level
Noise Figure vs. V
CC
Channel Isolation vs. V
CC
Noise Figure vs. Temperature
Noise Figure ChA vs. ChB
30
35
40
45
50
55
60
65
70
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Channel Isolation (dBc)
30
35
40
45
50
55
60
65
70
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Channel Isolation (dBc)
6
8
10
12
14
16
1.80E+09 1.85E+09 1.90E+09 1.95E+09 2.00E+09
RF Freq (Hz)
Noise Figure (dB)
30
35
40
45
50
55
60
65
70
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Channel Isolation (dBc)
6
8
10
12
14
16
1.80E+09 1.85E+09 1.90E+09 1.95E+09 2.00E+09
RF Freq (Hz)
Noise Figure (dB)
6
8
10
12
14
16
1.80E+09 1.85E+09 1.90E+09 1.95E+09 2.00E+09
RF Freq (Hz)
Noise Figure (dB)
200 MHz IF only
ChA (Dotted Line)
ChB (Solid Line) -40C
+25C +85C
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 11 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
G
ENERAL
(-1-)
NF v. Blocker
(RF = 1850 MHz, IF = 250 MHz, T
A
= 25C)
Settling Time (STBY -> V
IL
)
EVKit LO Port Match (T
A
= 25C, P
MEAS
= 0 dBm)
5x-4 Spur
(+5 dBm Pin, IF = 350 MHz, STD Mode)
Settling Time (STBY -> V
IH
)
EVkit RF Port Match (T
A
= 25C)
7
11
15
19
23
27
-30 -22 -14 -6 2 10
Blocker Level (dBm)
Noise Figure (dB)
STD Mode (Green)
LC Mode (Blue)
ChA (Solid Line)
ChB (Dotted Line)
-0.5
-0.3
-0.1
0.1
0.3
0.5
-40 0 40 80 120 160 200
Time (nsec)
Vrf Out (Volts)
0
2
4
6
8
10
STBY Logic Pin (Volts)
Vrf
VSTBY
Turn On Settling Time: 155 nsec
-25
-20
-15
-10
-5
0
1.8E+09 2.0E+09 2.2E+09 2.4E+09 2.6E+09
LO Freq (Hz)
LO Port Gamma (dB)
STD Mode LC Mode
LC STBY STD STBY
-115
-110
-105
-100
-95
-90
-85
-80
-75
-70
-65
1.718E+09 1.748E+09 1.778E+09 1.830E+09 1.854E+09 1.878E+09
Spur Freq (Hz)
5XRF - 4XLO spur (dBc)
Solid Lines - Channel A
Dotted Lines - Channel B
Blue: -40C T
C
Green: 25C T
C
Red: 85C T
C
-0.5
-0.3
-0.1
0.1
0.3
0.5
-40 0 40 80 120 160
Time (nsec)
Vrf Out (Volts)
0
2
4
6
8
10
STBY Logic Pin (Volts)
Vrf
VSTBY
Turn Off Settling Time: 30 nsec
-25
-20
-15
-10
-5
0
1.7E+09 1.8E+09 1.9E+09 2.0E+09 2.1E+09 2.2E+09
RF Freq (Hz)
RF Port Gamma (dB)
ChA STD Mode ChB STD Mode
ChA LC Mode ChB LC Mode
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 12 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
G
ENERAL
(-2-)
EVkit IF Port Match (T
A
= 25C)
IP3
O
vs. Tone
f (T
A
= 25C, Freq = 1850 MHz)
Gain Distribution
(N = 2348, F
RF
= 1710M , F
IF
= 350M)
Small Signal Compression
(IF = 250 MHz, STD Mode)
IP3
O
vs. RF Power (T
A
= 25C, Freq = 1850 MHz)
IP3
O
Distribution
(N = 2348, F
RF
= 1850M , F
IF
= 200M)
-25
-20
-15
-10
-5
0
5.0E+07 1.5E+08 2.5E+08 3.5E+08 4.5E+08
IF Freq (Hz)
IF Port Gamma (dB)
ChA STD Mode ChB STD Mode
ChA LC Mode ChB LC Mode
15
20
25
30
35
40
45
8.00E+05 5.60E+06 1.04E+07 1.52E+07 2.00E+07 2.48E+07 2.96E+07
Tone Separation (Hz)
Output IP3 (dBm)
STD Mode (Green)
LC Mode (Blue) IP3+ (Solid Lines)
IP3- (Dotted Lines)
200 MHz IF only
0%
5%
10%
15%
20%
25%
30%
Percentage
Gain Bin (dB)
Channel B
Channel A
Standard Mode
0
2
4
6
8
10
-30 -22 -14 -6 2 10
Large Signal Blocker Level (dBm)
Small Signal Gain (dB)
Channel B
Channel A
15
20
25
30
35
40
45
-16 -14 -12 -10 -8 -6 -4 -2
Pin (dBm/Tone)
Output IP3 (dBm)
STD Mode (Green)
LC Mode (Blue)
350 MHz (Solid Lines)
200 MHz (Dotted Lines)
0%
5%
10%
15%
20%
25%
30%
35%
Percentage
IP3O Bin (dBm)
Channel B
Channel A
Low Current Mode
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 13 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
LC
M
ODE
(1)
S
EE
T
RACE
D
ECODER ON
P
AGE
5
Gain vs. Temperature
Gain vs. LO Level
Output IP3 vs. V
CC
Gain vs. V
CC
Output IP3 vs. Temperature
Output IP3 vs. LO Level
4
5
6
7
8
9
10
11
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Conversion Gain (dB)
4
5
6
7
8
9
10
11
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Conversion Gain (dB)
15
20
25
30
35
40
45
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Output IP3 (dBm)
4
5
6
7
8
9
10
11
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Conversion Gain (dB)
15
20
25
30
35
40
45
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Output IP3 (dBm)
15
20
25
30
35
40
45
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Output IP3 (dBm)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 14 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
LC
M
ODE
(2)
-
S
EE
T
RACE
D
ECODER ON
P
AGE
5
P1dB vs. Temperature
P1dB vs. LO Level
2RF x 2LO Rejection vs. V
CC
P1dB vs. V
CC
2RF x 2LO rejection vs. Temperature
2RF x 2LO rejection vs. LO Level
7
8
9
10
11
12
13
14
15
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Input P1dB (dBm)
7
8
9
10
11
12
13
14
15
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Input P1dB (dBm)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
2RF X 2LO [Pin = -10] response (dBc)
7
8
9
10
11
12
13
14
15
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Input P1dB (dBm)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
2RF X 2LO [Pin = -10] response (dBc)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
2RF X 2LO [Pin = -10] response (dBc)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 15 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
LC
M
ODE
(3)
S
EE
T
RACE
D
ECODER ON
P
AGE
5
I
CC
vs. Temperature
I
CC
vs. LO Level
LO-IF Leakage vs. V
CC
I
CC
vs. V
CC
LO-IF Leakage vs. Temperature
LO-IF Leakage vs. LO Level
0.200
0.220
0.240
0.260
0.280
0.300
0.320
0.340
0.360
0.380
0.400
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Total Icc (A)
0.200
0.220
0.240
0.260
0.280
0.300
0.320
0.340
0.360
0.380
0.400
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Total Icc (A)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
LO to IF Leakage (dBm)
0.200
0.220
0.240
0.260
0.280
0.300
0.320
0.340
0.360
0.380
0.400
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Total Icc (A)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
LO to IF Leakage (dBm)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
LO to IF Leakage (dBm)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 16 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
LC
M
ODE
(4)
S
EE
T
RACE
D
ECODER ON
P
AGE
5
RF-IF Leakage vs. Temperature
RF-IF Leakage vs. LO Level
3RF X 3LO Rejection vs. V
CC
RF-IF Leakage vs. V
CC
3RF X 3LO Rejection vs. Temperature
3RF X 3LO Rejection vs. LO Level
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
RF to IF Leakage [Pin = -10 dBm] (dBm)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
RF to IF Leakage [Pin = -10 dBm] (dBm)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
3RF X 3LO [Pin = -10] response (dBc)
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
RF to IF Leakage [Pin = -10 dBm] (dBm)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
3RF X 3LO [Pin = -10] response (dBc)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
3RF X 3LO [Pin = -10] response (dBc)
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 17 Rev2, July 2012
DATASHEET
T
YPICAL
O
PERATING
C
ONDITIONS
LC
M
ODE
(5)
S
EE
T
RACE
D
ECODER ON
P
AGE
5
Channel Isolation vs. Temperature
Channel Isolation vs. LO Level
Noise Figure vs. V
CC
Channel Isolation vs. V
CC
Noise Figure vs. Temperature
Noise Figure ChA vs. ChB
30
35
40
45
50
55
60
65
70
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Channel Isolation (dBc)
30
35
40
45
50
55
60
65
70
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Channel Isolation (dBc)
6
8
10
12
14
16
1.80E+09 1.85E+09 1.90E+09 1.95E+09 2.00E+09
RF Freq (Hz)
Noise Figure (dB)
30
35
40
45
50
55
60
65
70
1.70E+09 1.80E+09 1.90E+09 2.00E+09 2.10E+09
RF Freq (Hz)
Channel Isolation (dBc)
6
8
10
12
14
16
1.80E+09 1.85E+09 1.90E+09 1.95E+09 2.00E+09
RF Freq (Hz)
Noise Figure (dB)
6
8
10
12
14
16
1.80E+09 1.85E+09 1.90E+09 1.95E+09 2.00E+09
RF Freq (Hz)
Noise Figure (dB)
200 MHz IF only
ChA (Dotted Lines)
ChB (Solid Lines) -40C
+25C +85C
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 18 Rev2, July 2012
DATASHEET
H
H
I
IG
GH
H
T
T
E
EM
MP
P
O
PERATING
C
ONDITIONS
[200
MH
Z
IF]
(1)
Gain
[EVKit de-embedded]
2RF x 2LO rejection
LO - IF leakage
Output IP3
[EVkit de-embedded]
Input 1dB Compression
3RF x 3LO rejection
5
6
7
8
9
10
11
12
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
Gain (dB)
RF Freq (GHz)
25C case - 200 MHz IF - STD 25C case - 200 MHz IF - LC
25C ambient - 200 MHz IF - STD 25C ambient - 200 MHz IF - LC
100C case - 200 MHz IF - STD 100C case - 200 MHz IF - LC
EVkit effects de-embedded, corrected for:
TC4-1T transformer loss (graph on page 20)
RF input trace loss (graph on page 20)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
2 X 2 Rejection [Pin = -10] (dBc)
RF Freq (GHz)
25C case - 200 MHz IF - STD 25C case - 200 MHz IF - LC
25C ambient - 200 MHz IF - STD 25C ambient - 200 MHz IF - LC
100C case - 200 MHz IF - STD 100C case - 200 MHz IF - LC
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
LO to IF leakage (dBm)
RF Freq (GHz)
25C case - 200 MHz IF - STD 25C case - 200 MHz IF - LC
25C ambient - 200 MHz IF - STD 25C ambient - 200 MHz IF - LC
100C case - 200 MHz IF - STD 100C case - 200 MHz IF - LC
25
30
35
40
45
50
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
Output IP3 (dBm)
RF Freq (GHz)
25C case - 200 MHz IF - STD 25C case - 200 MHz IF - LC
25C ambient - 200 MHz IF - STD 25C ambient - 200 MHz IF - LC
100C case - 200 MHz IF - STD 100C case - 200 MHz IF - LC
EVkit effects de-embedded, corrected for:
TC4-1T transformer loss (graph on page 20)
6
7
8
9
10
11
12
13
14
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
Input P1dB (dBm)
RF Freq (GHz)
25C case - 200 MHz IF - STD 25C case - 200 MHz IF - LC
25C ambient - 200 MHz IF - STD 25C ambient - 200 MHz IF - LC
100C case - 200 MHz IF - STD 100C case - 200 MHz IF - LC
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
3 X 3 Rejection [Pin =-10] (dBc)
RF Freq (GHz)
25C case - 200 MHz IF - STD 25C case - 200 MHz IF - LC
25C ambient - 200 MHz IF - STD 25C ambient - 200 MHz IF - LC
100C case - 200 MHz IF - STD 100C case - 200 MHz IF - LC
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 19 Rev2, July 2012
DATASHEET
H
H
I
IG
GH
H
T
T
E
EM
MP
P
O
PERATING
C
ONDITIONS
[350
MH
Z
IF]
(2)
Gain
[EVKit de-embedded]
2RF x 2LO rejection
LO - IF leakage
Output IP3
[EVkit de-embedded]
Input 1dB Compression
RF – IF leakage
5
6
7
8
9
10
11
12
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
Gain (dB)
RF Freq (GHz)
25C case - 350 MHz IF - STD 25C case - 350 MHz IF - LC
25C ambient - 350 MHz IF - STD 25C ambient - 350 MHz IF - LC
100C case - 350 MHz IF - STD 100C case - 350 MHz IF - LC
EVkit effects de-embedded, corrected for:
TC4-1T transformer loss (graph on page 20)
RF input trace loss (graph on page 20)
-100
-90
-80
-70
-60
-50
-40
-30
-20
-10
0
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
2 X 2 Rejection [Pin = -10] (dBc)
RF Freq (GHz)
25C case
-
350 MHz IF
-
STD
25C case
-
350 MHz IF
-
LC
25C ambient - 350 MHz IF - STD 25C ambient - 350 MHz IF - LC
100C case
-
350 MHz IF
-
STD
100C case
-
350 MHz IF
-
LC
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
LO to IF leakage (dBm)
RF Freq (GHz)
25C case - 350 MHz IF - STD 25C case - 350 MHz IF - LC
25C ambient - 350 MHz IF - STD 25C ambient - 350 MHz IF - LC
100C case - 350 MHz IF - STD 100C case - 350 MHz IF - LC
25
30
35
40
45
50
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
Output IP3 (dBm)
RF Freq (GHz)
25C case - 350 MHz IF - STD 25C case - 350 MHz IF - LC
25C ambient - 350 MHz IF - STD 25C ambient - 350 MHz IF - LC
100C case - 350 MHz IF - STD 100C case - 350 MHz IF - LC
EVkit effects de-embedded, corrected for:
TC4-1T transformer loss (graph on page 20)
6
7
8
9
10
11
12
13
14
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
Input P1dB (dBm)
RF Freq (GHz)
25C case - 350 MHz IF - STD 25C case - 350 MHz IF - LC
25C ambient - 350 MHz IF - STD 25C ambient - 350 MHz IF - LC
100C case - 350 MHz IF - STD 100C case - 350 MHz IF - LC
-70
-65
-60
-55
-50
-45
-40
-35
-30
-25
-20
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
RF to IF leakage [Pin = -10] (dBm)
RF Freq (GHz)
25C case - 350 MHz IF - STD 25C case - 350 MHz IF - LC
25C ambient - 350 MHz IF - STD 25C ambient - 350 MHz IF - LC
100C case - 350 MHz IF - STD 100C case - 350 MHz IF - LC
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 20 Rev2, July 2012
DATASHEET
H
H
I
IG
GH
H
T
T
E
EM
MP
P
O
PERATING
C
ONDITIONS
[G
ENERAL
]
(3)
Channel Isolation
Noise Figure [EVkit de-embedded]
EVkit RF trace loss
Output IP2
Output 1dB Compression
[EVkit de-embedded]
EVkit Transformer Loss
40
45
50
55
60
65
70
75
80
85
90
1.70
1.75
1.80
1.85
1.90
1.95
2.00
2.05
2.10
ChA to ChB Isolation (dBc)
RF Freq (GHz)
25C case - 200 MHz IF - STD 25C case - 200 MHz IF - LC
25C ambient - 200 MHz IF - STD 25C ambient - 200 MHz IF - LC
100C case - 200 MHz IF - STD 100C case - 200 MHz IF - LC
6
7
8
9
10
11
12
13
1800 1850 1900 1950 2000
Noise Figure (dB)
RF Freq (MHz)
-40 degC - ChA -40 degC - ChB
25 degC - ChA 25 degC - ChB
100 degC
-
ChA
100 degC
-
ChB
EVkit RF input trace loss de-embedded
Low Current Mode (LC)
-0.5
-0.4
-0.3
-0.2
-0.1
0.0
1500 1600 1700 1800 1900 2000 2100 2200 2300 2400
RF Trace Loss [ChA & ChB] (dB)
RF Freq (MHz)
RF_-40C RF_25C RF_100C
40
45
50
55
60
65
70
75
80
85
90
1.70
1.75
1.80
1.85
1.90
1.95
2.00
2.05
2.10
Output IP2 (dBm)
RF Freq (GHz)
25C case - 200 MHz IF - STD 25C case - 200 MHz IF - LC
25C ambient - 200 MHz IF - STD 25C ambient - 200 MHz IF - LC
100C case - 200 MHz IF - STD 100C case - 200 MHz IF - LC
15
16
17
18
19
20
21
22
1.70 1.75 1.80 1.85 1.90 1.95 2.00 2.05 2.10
Output P1dB (dBm)
RF Freq (GHz)
25C case - 350 MHz IF - STD 25C case - 350 MHz IF - LC
25C ambient - 350 MHz IF - STD 25C ambient - 350 MHz IF - LC
100C case - 350 MHz IF - STD 100C case - 350 MHz IF - LC
EVkit effects de-embedded, corrected for:
TC4-1T transformer loss (graph on page 20)
-1.4
-1.2
-1.0
-0.8
-0.6
-0.4
-0.2
0.0
4.0E+07 8.0E+07 1.2E+08 1.6E+08 2.0E+08 2.4E+08 2.8E+08 3.2E+08 3.6E+08 4.0E+08
TC4-1T Transformer Loss (dB)
Frequency (Hz)
-40C +25C +100C
See Mixer Device Gain plots. This Data is
used to de-embed the EVKit measured data
RF to IF Dual Downconverting Mixer
IDT Zero-Distortion
TM
Mixer
P
ACKAGE
D
RAWING
(6
X
6
QFN)
RF to IF Dual Downconverting Mixer
1700 -
2200 MHz
21
2200 MHz
F1150NBGI
Rev2, July 2012
DATASHEET
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 22 Rev2, July 2012
DATASHEET
P
INOUTS
36 35 34 33 32 31 30 29 28
9
RF_B
8
7
6
NC [internal NC]
5
4
NC [internal NC]
3
GND [DB GND]
2
GND [RFA_rtn]
1
RF_A
18
GND [DB GND]
17
LO1_ADJ
16
V
CC
15
GND [internal NC]
14
IF_B-
13
IF_B+
12
GND [internal NC]
11
IF_BiasB
10
V
CC
19 LO_in
20
GND [internal NC]
21 V
CC
22
GND [LC
MODE
]
23
GND [STBY]
24
LO_SW [internal NC]
25
GND [DB GND]
26
NC [internal NC]
27
B
I
A
S
C
T
R
L
GND [DB GND]
LO2_ADJ
V
CC
GND [internal NC]
IF_A-
IF_A+
GND [internal NC]
IF_BiasA
V
CC
GND [DB GND]
GND [DB GND]
GND [RFB_rtn] GND [LO_rtn]
Black Text denotes recommended external connection
Red Text denotes internal Function or Connection
- DB GND = Downbonded to Paddle
- Internal NC = Pin not connected
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 23 Rev2, July 2012
DATASHEET
P
IN
D
ESCRIPTIONS
Pin(s) Name Function
1 RF_A Main Channel RF Input. Internally matched to 50Ω. DO NOT
apply DC to these pins
2, 8, 20
RF_Artn,
RF_Brtn,
LO_rtn
Transformer Ground Returns. Ground these pins.
3, 5, 7,18, 22,
24, 28 GND Ground these pins.
4, 6, 12, 15, 31,
23, 26, 27, 34 N.C. No Connection. Not internally connected. OK to connect to Vcc.
OK to connect to GND
10, 16, 21, 30,
36 VCC Power Supplies. Bypass to GND with capacitors shown in the
Typical Application Circuit as close as possible to pin.
9 RF_B Diversity Channel RF Input. Internally matched to 50Ω
11 IF_BiasB
Connect the specified resistor from this pin to ground to set the
bias for the Diversity IF amplifier. This is NOT a current set
resistor
13, 14 IFB+, IFB-
Diversity Mixer Differential IF Output. Connect pullup inductors
from each of these pins to VCC (see the Typical Application
Circuit).
17 LO1_ADJ Connect the specified resistor for either Standard or LC mode
from this pin to ground to set the LO common buffer Icc
19 LO_in Local Oscillator Input. Connect the LO to this port through a
series 3 pF capacitor
25 LC_MODE
Low_Current Mode. Set this pin to low or ground for LC mode.
Set to high or No-Connect for Standard mode. There is an
internal pull-up resistor.
22 STBY STBY Mode. Pull this pin high for Standby mode (~20 mA). Pull
low or Ground for normal Operation
29 LO2_ADJ Connect the specified resistor for either Standard or LC mode
from this pin to ground to set the LO drive buffers Icc
32, 33 IFA-, IFA+ Main Mixer Differential IF Output. Connect pullup inductors from
each of these pins to VCC (see the Typical Application Circuit).
35 IF_BiasA Connect the specified resistor from this pin to ground to set the
bias for the Main IF amplifier. This is NOT a current set resistor
— EP
Exposed Pad. Internally connected to GND. Solder this exposed
pad to a PCB pad that uses multiple ground vias to provide heat
transfer out of the device into the PCB ground planes. These
multiple via grounds are also required to achieve the noted RF
performance.
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 24 Rev2, July 2012
DATASHEET
EV
KIT
S
CHEMATIC
36 35 34 33 32 31 30 29 28
9
RF_B
8
RF_B rtn
7
6
NC
5
4
NC
3
GND
2
RF_A rtn
1
RF_A
18
GND
17
LO1_ADJ
16
V
CC
15
GND
14
IF_B-
13
IF_B+
12
GND
11
IF_BiasB
10
V
CC
19
LO_in
20
NC
21
V
CC
22
LC
MODE
23
STBY
24
NC
25
GND
26
NC
27
LO_rtn
B
I
A
S
C
T
R
L
C8
J4
C10
J5
C12
Vcc C13
R12
R11
C14
L3 L4
C15
J7
Vcc
R14
R13
C16
Vcc
C9
Vcc
J6
GND
LO2_ADJ
V
CC
GND
IF_A-
IF_A+
GND
IF_BiasA
V
CC
C5
Vcc C6
R15
R16
C3
L1 L2
C2
J2
Vcc
R17
R18
C1
Vcc
4:1 Balun
4:1 Balun
C11
JP
JP
Vcc
R9 R8
C4
Vcc
GND
GND
T1
T2
R10
J1
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 25 Rev2, July 2012
DATASHEET
EV
KIT
P
ICTURE
/L
AYOUT
/O
PERATION
Outer Position for STD
Mode (R15, R17
)
Close for Mixer Operation
Open to turn Mixer Off
Close for LC Mode
Open for STD Mode
Inner Position for LC Mode
(R16, R18)
Outer Position for STD
Mode (R11, R13)
Inner Position for LC Mode
(R12, R14)
Unused
Monitor
V
CC
Here
Apply
V
CC
Here
RF to IF Dual Downconverting Mixer
1700 - 2200 MHz
F1150NBGI
IDT Zero-Distortion
TM
Mixer 26 Rev2, July 2012
DATASHEET
EVK
IT
BOM
For Standard Mode, Open the LC
MODE
jumper in conjunction with positioning the 4 dual jumpers to select the
resistors in red.
For Low Current Mode close the LC
MODE
jumper in conjunction with positioning the 4 dual jumpers to select the
resistors in blue.
T
OP
M
ARKINGS
Item #
Value
Size
Desc
Mfr. Part #
Mfr.
Part Reference
Qty
1 10nF 0402
CAP CER 10000PF 16V 10% X7R 0402 GRM155R71C103KA01D
MURATA C1,5,6,9,12,13,16 7
2 1000pF 0402
CAP CER 1000PF 50V C0G 0402 GRM1555C1H102JA01D
MURATA C2,3,14,15 4
3
1.2nH
0402
0402CS-1N2XJLU Ceramic Chip Inductor 0402CS-1N2XJLU
COILCRAFT
C8,10
4 3pF 0402
CAP CER 3PF 0402 GRM1555C1H3R0CZ01D
MURATA C11 1
5 10uF 0603
CAP CER 10UF 6.3V X5R 0603 GRM188R60J106ME47D
MURATA C4 1
6 Header 2 Pin TH 2
CONN HEADER VERT SGL 2POS GOLD 961102-6404-AR
3M JP1,2,3 3
7 Header 3 Pin TH 3
CONN HEADER VERT SGL 3POS GOLD 961103-6404-AR
3M JP4,5,6,7 4
8 SMA_END_LAUNCH .062
SMA_END_LAUNCH 142-0711-821
Emerson Johnson J1,2,3,4,5,6,7 7
9 270nH 0805
0805CS (2012) Ceramic Chip Inductor 0805CS-271XJLB
COILCRAFT L1,2,3,4 4
10 27 0402
RES 27 OHM 1/10W 1% 0402 SMD ERJ-2RKF27R0X
Panasonic
R11,15
2
11 63 0402
RES 63 OHM 1/10W 1% 0402 SMD ERJ-2RKF63R0X
Panasonic
R12,16
2
12 91 0402
RES 91.0 OHM 1/10W 1% 0402 SMD ERJ-2RKF91R0X
Panasonic
R13
1
13 180 0402
RES 180 OHM 1/10W 1% 0402 SMD ERJ-2RKF1800X
Panasonic
R14
1
14 1.91K 0402
RES 1.91K OHM 1/10W 1% 0402 SMD ERJ-2RKF1911X
Panasonic
R18
1
15 1.21K 0402
RES 1.21K OHM 1/10W 1% 0402 SMD ERJ-2RKF1211X
Panasonic
R17
1
16 47K 0402
RES 47.0K OHM 1/16W 1% 0402 SMD RC0402FR-0747KL
Yageo R8,9 2
17 0 0402
RES 0.0 OHM 1/10W 0402 SMD ERJ-2GE0R00X
Panasonic R1,2,3,4,5,6,7,10 10
18 4:1 Balun SM-22
4:1 Center Tap Balun TC4-1TG2+
Mini Circuits T1,2 2
19 F1150ZM (021) QFN-36
Diversity Downconverter
IDT U1 1
20 PCB
F1150 EVKit Rev5
1
F1150 BOM
IDTF1150
NBGI
YA1206A
Q21A027M
Part Number
Date Code
: [xxYYWWx
]
(Work Week 6 of 2012)
Lot Code NOTE: Production Devices
are DateCode 1206 or later.