A KYOCERA GROUP COMPANY
TPC
High Voltage Ceramic Capacitors
1
Contents
High Voltage Ceramic Capacitors
TPC
Page
Introduction
High Voltage Ceramic Capacitors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
General Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Dielectrics - Type I - Temperature Compensating. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Dielectrics - Paraelectric and Type II. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
How To Order. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
High Voltage Ceramic Capacitors
Selection Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
General Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
HZ Type - Strontium-based Dielectric. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
HP Type - Strontium-based Dielectric. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
HB / HF Types - Type II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
HD / HE Types - Type II (N) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Custom Designed Live-Line Dividers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
HR / HS Types - Type II . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
HT / HU Types- Type I . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Quality Assurance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Manufacturing Process . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Marking - Packaging - Identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Questionnaire: How to Define a Capacitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Standard Series and Associated Tolerances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
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.
2
Introduction
High Voltage Ceramic Capacitors
TPC
HIGH VOLTAGE CERAMIC CAPACITORS are particularly
suitable for applications requiring a high voltage (from 10
to 150 kV), while reactive current remains low. Ceramic
capacitors also achieve very good performance under pulse
and discharge conditions.
Various disc types cover a wide range of capacitances and
voltages as shown in the following figure. Specific pr operties
depend on the dielectric material used.
Other configurations such as rods (HF type), cascades (HC
type) are used to meet specific applications.
Capacitance (pF)
Voltage (kV)
10
10
50
40
30
20
100 1000 10000
HT HZ
HD HR
HP
3
Introduction
General Characteristics
TPC
The real characteristics of a capacitor can be described
using conventional physical parameters and the following
equivalent electrical circuit:
C capacitance is a measure of the capacitors aptitude
to store electrical charges Q under a voltage V
(C = Q/V).
K the dielectric constant, specific to each material
(less than 500 for type I materials, from 1000 up to
10,000 for type II materials),
A the area of the electrodes, and
t the thickness of the dielectric layer are the parame-
ters determining the capacitor value
C = K A(K = er)
t
T.C. the temperature coefficient of the capacitance is
expressed in ppm/°C for stable type I dielectrics.
DC/C is used for type II dielectrics and is expressed in %
of change of the capacitance in a fixed temperature
range.
VRthe rated voltage is the maximum voltage that can
be applied to the capacitor on continuous opera-
tion. It can be constituted by:
VDC a direct current component
VRMS an alternating current component
VPthe peak voltage
VEthe test voltage
RPthe parallel resistance
IR the insulation resistance under VDC.
RSor ESR (Equivalent Series Resistance) accounts for
the conductivity of the electrodes and connections.
LSor ESL (Equivalent Series Inductance) depends on
the geometry of electrodes dielectric and connec-
tions, leads...
CPtakes into account dielectric environment of the
capacitor (coating...) but is generally neglected
except to describe very high frequency behavior of
the capacitor or for very low capacitance value.
Rp, Rs, Ls, Cp can be considered as parasitic
effects. They generate energy losses and a
dephasing
jdifference between voltage and current from 90°.
The loss angle d(90° - j) is commonly used.
tg dthe tangent of loss angle
DF the dissipation factor (same as tg d)
Q the quality factor is the ratio between the stored
energy and the dissipated energy. It measures the
quality of the capacitor and can be expressed as
Q = 1/tg dor 1/D.F.
ƒ being the frequency of the AC signal
wthe pulsation of this signal with w= 2pƒ
Z the complex impedance of the capacitor is given by
the relation (neglecting Cp):
Z = RS+ j LSw+ 1= R + j X
1 + j Cw
RP
the tangent of the loss angle tg dcan also be
expressed as tg d=R
X
so, neglecting Ls for LSw<1
C w
tg d= RSCw+1 + 1
RPCwR2
PCw
ƒRS the series resonance frequency of the capacitor is
the frequency where the capacitance reactance is
exactly equal to the inductive reactance due to LS
LSw=1 or w=1 or ƒRS =1
CwLSC2pLSC
ƒRP the parallel resonance frequency occurs when LSis
equal to CP:ƒRP =1
2pLSCP
Between ƒRS and ƒRP, the capacitor reacts as an
inductance, but still blocks DC.
The equivalent electrical circuit can be simplified
using approximations according to the frequency:
- At ƒ = ƒRS the circuit is reduced to
Z = RS
- For high frequencies but below ƒRS
Z = RS+1/jCw
tg d= RSCw
- For low frequencies Z = 1
1 + jCw
RP
tg d= 1
RPCw
IRMS is the maximum RMS current that can be transmit-
ted by the capacitor electrodes
WRis defined as the maximum reactive power and is
expressed by WR= V2RMS Cw=I2RMS
Cw
WAis the active power or dissipated power
WA= WRtg d= (2pƒCV2)(DF)
Rs
Rs
C
RpRsLs
Cp
C
RP
C
Z (W)
Rs
Frs F(Hz)
冑
冑冑
TPC code A C H P T U V
Dielectric class P100 NP0 N33 N150 N470 N750 N1500
Temperature coefficient
of the capacitance +100 0 -33 -150 -470 -750 -1500
(ppm/°C)
Operating temperature
range (°C) -25 +95 -25 +95 -25 +95 -25 +95 -25 +95 -25 +95 -25 +95
Typical dielectric constant 15 18 30 70 50 125 270
Dielectric strength
kVDC/mm 20 20 20 8 8 8 6
Dissipation factor
(1MHz/25°C) 5.10-4 5.10-4 5.10-4 5.10-4 5.10-4 10.10-4 10.10-4
Insulation resistance
(500V/25°C) > 100 G > 100 G > 100 G > 100 G > 100 G > 100 G > 100 G
4
TYPE I CAPACITORS - GENERAL
(with specific temperature coefficient)
Type I capacitors are particularly suitable for applications
where high stability of capacitance and low losses are
required (tuning circuit capacitors). In addition, they offer
linear capacitance change with temperature.
DIELECTRIC SELECTION -
STANDARDIZATION
Introduction
Dielectrics - Type I - Temperature Compensating
TPC
DIELECTRIC CHARACTERISTICS (typical values - non-exhaustive list)
Temp. coeff.*
Specification Code
(⌬ = -55 +125°C)
Value Tolerance**
TPC CECC DIN EIA
CEI
(ppm/°C) (ppm/°C)
MIL
(P100) +100 ± 30 A AG / 1B P100/1B M7G
0 ± 30 C CG / 1B NP0/1B C0G
(NP0)
-33 ± 30 H HG / 1B N33/1B H2G
(N33)
-150 ± 30 P PG / 1B N150/1B P2G
(N150)
-470 ± 120 T TJ / 1B N470/1B T2J
(N470)
-750 ± 120 U UJ / 1B N750/1B U2J
(N750)
-1500 ± 250 V VK / 1B N1500/1B V2K
(N1500)
* Reference temperature (CECC): 25°C
** If not otherwise specified in data sheets
5
Introduction
Dielectrics - Type I - Temperature Compensating
TPC
12525-55
-0.80
-1.04
-0.56
0
0.70
1.00
1.30 (P100) (A)
(%)
ÆC
C
Temperature (¡C)
-25 0 50 75 100
-55
-7.5
-5
-2.5
+2.5
+5
+7.5
0
(%)
25-25 0 50 75 100 125
H / N33
P / N150
T / N470
Temperature (¡C)
(H) (N33) (P) (N150) (T) (N470)
ÆC
C
-55
0.05%
0.10%
% D.F.
25-25 0 50 75 100 125
Temperature (¡C)
1
0
-1
1
(%)
423 5
Voltage (kV/mm)
ÆC
C
-55 -25
-0.2
0
+0.2
+0.4
(%)
0 25 50 12510075
Temperature (¡C)
(C) (NP0)
ÆC
C
-55
-15
-10
-5
+5
+10
+15
0
(%)
25-25 0 50 75 100 125
U / N750
V / N1500
Temperature (¡C)
(U) (N750) (V) (N1500)
ÆC
C
1
0
- 2
2
(C) (NP0)
- 1
0.1 kHz 10 kHz 1MHz 100 MHz
Frequency
ÆC
C(%)
0.20%
% D.F. (C) (NP0)
0.10%
0
0.1 kHz 10 kHz 1MHz 100 MHz
Frequency
TYPICAL CHANGE OF CAPACITANCE
WITH TEMPERATURE PARAMETER CHANGE WITH TEMPER-
ATURE, VOLTAGE AND FREQUENCY
TPC code E* N* 1 Z 3 4 X W
Dielectric class N4700 See curves X7P Y7R Y5S Y5T Y5V Z5U
on page 7
Operating temperature
range (°C) -30 +85 -30 +85 -55 +125 -30 +125 -30 +85 -30 +85 -30 +85 +10 +85
Capacitance change
with temperature (%) +22 -33 (+300 -82) ±10 ±15 ±22 +22 -33 +22 -82 +22 -56
Typical dielectric constant 1850 2000 1000 2600 3300 3500 6500 7000
at 0.25 kV/mm
Dielectric strength
kVDC/mm 8.0 7.0 6.0 5.5 5.5 5.5 4.0 5.0
Dissipation factor
(1 kHz/1 Vrms/20°C) 5.10-4 20.10-4 100.10-4 200.10-4 100.10-4 150.10-4 200.10-4 100.10-4
Insulation resistance
(500V/20°C) > 10 G > 10 G > 10 G > 10 G > 10 G > 10 G > 10 G > 10 G
Temperature Classes
⌬
C TPC CEI EIA DIN
C CECC
Paraelectric dielectrics
+22 -33% -30 +85°C E (Y5T) N4700
+300 -82% -30 +85°C N
Type II
±10% -55 +125°C 1 (2B1) X7P
±15% -30 +125°C Z (2R4) Y7R
±22% -30 +85°C 3 (2C4) Y5S
+22 -33% -30 +85°C 4 (2E4) Y5T
+22 -82% -30 +85°C X (2F4) Y5V
+22 -56% +10 +85°C W (2E6) Z5U
6TPC
Introduction
Dielectrics - Paraelectric and Type II - General Application
PARAELECTRIC DIELECTRICS -
GENERAL
These strontium-based dielectrics exhibit a high dielectric
constant (>1500) and excellent electrical properties including
high dielectric strength, low dissipation factor and low
capacitance change with applied voltage.
They are particularly suitable for high energy discharges
applications as they present no electro-striction or piezo-
electric phenomenon.
TYPE II DIELECTRICS - GENERAL
(with non-specific temperature coefficient)
Type II dielectrics are characterized by a high permitivity
(higher than 1000), giving large capacitance with small size.
They are particularly suitable for filtering, decoupling and any
applications for which capacitance changes and dielectric
losses are of lesser importance.
They also present a drift effect of the capacitance as shown
below due to natural aging of the ceramic dielectric.
Note: classes with ( ) = approximate classes
DIELECTRIC CHARACTERISTICS (typical values - non-exhaustive list)
DIELECTRIC SELECTION -
STANDARDIZATION
110
+10
+5
0
- 5
- 10 100 1000 10 000 100 000
ÆC
C(%)
hours
Z5U
Y7R
⌬
C
C
Temperature
7
TPC
Introduction
Dielectrics - Paraelectric and Type II
TYPICAL CHANGE OF CAPACITANCE
WITH TEMPERATURE TYPICAL CHANGE OF CAPACITANCE
WITH APPLIED D.C. VOLTAGE
+40
+20
0
-20
-40
-60
-60 -40 -20 0 20 40 60 80 100 120
ÆC/C (%) N4700 (E)
+400
+300
+200
+100
0
-100-60 -40 -20 0 20 40 60 80 100 120
ÆC/C (%) — (N)
+20
+10
0
-10
-20
-30
-60 -40 -20 0 20 40 60 80 100 120
ÆC/C (%) X7P (1)
+40
+20
0
-20
-40
-60
-60 -40 -20 0 20 40 60 80 100 120
ÆC/C (%) Y7R (Z)
+40
+20
0
-20
-40
-60
-60 -40 -20 0 20 40 60 80 100 120
ÆC/C (%) Y5S (3)
+40
+20
0
-20
-40
-60
-60 -40 -20 0 20 40 60 80 100 120
ÆC/C (%) Y5T (4)
+20
0
-20
-40
-60
-80
-60 -40 -20 0 20 40 60 80 100 120
ÆC/C (%) Y5V (X)
+20
0
-20
-40
-60
-80
-60 -40 -20 0 20 40 60 80 100 120
ÆC/C (%) Z5U (W)
Temperature (¡C)
+5
+10
0
-5
-10
-15
-20012345
ÆC/C (%)
Field strength (kVdc/mm)
N4700 (E)
— (N)
+20
+40
0
-20
-40
-60
-80012345
ÆC/C (%)
Field strength (kVdc/mm)
X7P (1)
Y7R (Z)
0
+20
-20
-40
-60
-80
-100012345
ÆC/C (%)
Field strength (kVdc/mm)
Y5T (4)
Y5S (3)
0
+20
-20
-40
-60
-80
-100012345
ÆC/C (%)
Field strength (kVdc/mm)
Z5U (W)
Y5V (X)
8TPC
High Voltage Ceramic Capacitors
How To Order
HP40 E 3 0102 M — —
High Voltage
Radial-leaded
Discs
09
12
HZ 16
20
22
Coated Discs
HT 30
HD 40
HR 60
30
HP 40
50
60
Uncoated
Discs
HU 30
HE 40
HS 60
Rods
HB 30
HF 40
60
Type/Size Class
Type I
A = P 100
C = NP0
H = N33
T = N470
U = N750
V = N1500
Type II
E = N4700
N = N10000
W = +22 -56%
X = +22 -82%
Voltage
1000 V: L
1600 V: M
2000 V: N
2500 V: P
3000 V: Q
4000 V: R
5000 V: S
6000/6300 V: T
8000/9000 V: U
10,000 V: V
12,500 V: W
15/16 kV: X
20/25 kV: Y
30 kV: 3
40 kV: 4
50 kV: 5
Tolerance
C < 10pF
± 1pF
± 2pF
C ³10pF
±5%
±10%
±20%
-20 +50%
-20 +80%
Code
F
G
Code
J
K
M
S
Z
Suffix
--
PY
WH
Capacitance (EIA code)
Capacitance expressed
by 2 significant figures
1st digit: 0 (zero)
2nd and 3rd digits: the 2
significant figures of the
capacitance value.
4th digit:
- for values ³10pF and
²990µF: the number of
ZEROS to be added to
the capacitance values
- for values ³1pF and
²9.9pF: the figure 9
signifying that the
capacitance value is
to be multiplied by 0.1
Examples: 1000pF: 0102
8.2pF: 0829
Capacitance expressed
by 3 significant figures
1st, 2nd and 3rd digits: the
3 significant figures of the
capacitance value.
4th digit:
- for values > 100pF and
²999 µF: the number of
ZEROS to be added to
the capacitance value
- for values > 10pF and
< 100pF: the figure 9
signifying that the
capacitance value is
to be multiplied by 0.01.
- for values > 1pF and
²10pF: the figure 8
signifying that the
capacitance value is
to be multiplied by 0.01.
Examples: 196pF: 1960
47.2pF: 4729
8.28pF: 8288
NOTE: Special drawing number
If customer requirements differ from the standard type, the codification of the product is modified as follows:
5th, 6th digit: –
7th digit: H for high voltage types
8th, 9th, 10th digit: drawing number
11th digit: –
12th, 13th digit: two digits number for revised edition number
Class not
specified
HD
HE
HR
HS
HB
HF
Voltage not
specified
HT
HU
HB
HF
For the fol-
lowing types
whose class or
voltage is not
specified but
inferred by the
type, the size
and the value:
write 0 (zero) in
the 5th (class)
or 6th digit
case (voltage).
ORDERING CODE
10 TPC
Main Signal Componen
t
Applications Series Type / Size / Finish
09
Radial leaded 12
Medium energy pulses discs HZ 16
18
20
22
26
PULSES 30
Molded discs 40
High energy pulses with connections HP 50
60
30
Live - line indication Rods HB 40
HF 60
AC AC voltage dividers Molded discs 30
at line frequency with connectors HD (HE) 40
60
Voltage dividers Custom products Complete dividers
30
High voltage HR (HS) 40
decoupling Molded 60
discs
with
DC connections 30
Low reactive power HT (HU) 40
coupling or tuning 60
High Voltage Ceramic Capacitors
Selection Guide
11
High Voltage Ceramic Capacitors
Selection Guide
TPC
Dimensions millimeters (inches)
Dielectric Reference
Capacitance
Electrical Characteristics
Detailed
Diam. Thick. Height Class
CR(pF)
Peak Rated Test Voltage Max. tg dspecification
Voltage (V
R
) (kV) V
E
(kV) (DF) on page
9.5 (0.374) 9 (0.354) 14.5 (0.571) 100
12 (0.472) 9 (0.354) 16 (0.630)
16 (0.630) 9 (0.354) 20 (0.787)
18 (0.709) 9 (0.354) 22 (0.866) N4700 HZ .. EW .. M -- 6, 9, 12 9, 14, 18 10.10-4 13
20 (0.787) 9 (0.354) 24 (0.945)
22 (0.866) 10 (0.394) 26 (1.024)
26 (1.024) 11 (0.433) 30 (1.180) 2700
28 (1.100) 23 (0.906) ... 17 (0.669) ... 390
38 (1.500) Y
48 (1.900) 32 (1.260) 26 (1.024) N4700 HP .. E3 .... M-- 20/30/40/50
22/33/44/53
10.10-4 14
58 (2.283) 44000
50.5 (1.988) 30.5 (1.201) HB.. 00 ... M-- 16 8 30
17 (0.669) 60 (2.362) 40 (1.575) Y5T HB .. 00 ... M-- 150.10-4 15
81 (3.189) 61 (2.402) HF.. 00 ... M-- 250 15 60
26.5 (1.043) 33 (1.300) 16 (0.630) X 250/500 15 20
39.5 (1.555) 33 (1.300) 16 (0.630) (N) HD .. 0Y....S-- 1000 15 20 20.10-4 16
56.5 (2.224) 40 (1.575)/ 19 (0.748)/ HE .. 0Y....S-- 2000/3000 15/20 20/30
45 (1.772) 21 (0.827)
precise dividing ratio according to customer requirements
27 (1.063)/ 37 (1.457)/ 23 (0.906)/ X470
34 (1.339) 40 (1.575) 28 (1.100) Z5U HR .. 0Y....S-- 16/20 24/30 200.10-4 18
39 (1.535)/ 37 (1.457)/ 23 (0.906)/ HS .. 0Y....S-- 5000
44 (1.732) 40 (1.575) 28 (1.100)
54 (2.126)/ 40 (1.575)/ 21 (0.827)/
55 (2.165) 47 (1.850) 28 (1.100)
25.5 (1.004) 50 (1.969) 30 (1.180) P100 A0 4.7
38 (1.500) 50 (1.969) 30 (1.180) N33 HT .. HO .... F-- 10/17 15/25 20.10-4 19
56 (2.205) 55 (2.165) 35 (1.378) N470 HU .. T0 .... K--
N750 HU .. U0 .... M-- 270
12 TPC
High Voltage Ceramic Capacitors
General Characteristics
HIGH VOLTAGE USES AND
REQUIREMENTS
• High voltage uses are numerous but they can be divided
into 3 main applications:
- high voltage / AC or power frequency
- high voltage / DC
- high energy pulses
• Each of them r equires specific properties leading to the use
of different kinds of ceramic dielectrics and product types.
HIGH VOLTAGE / AC USES
• The main applications include live line indicators, AC
dividers, grading systems for power distribution network,
protection for HV switches and power circuit breakers.
Coupling, by-passing high frequencies circuits where an
important reactive power is needed also use ceramic HV
capacitors.
• These applications require:
- a high internal resistance
- a high dielectric strength
together with:
- low or moderate losses at working frequencies (from
50 Hz up to a few kHz).
The active power (or losses) being:
Wa = 2PFC ⭈tg d⭈V2= k (C⭈tg d) (F⭈V2),
this shows that improved performance is obtained
when both
• good dielectric properties (low tg d) and
• no long term overvoltage occurs
- capacitors free of “partial discharge” (corona) effect,
up to rated rms voltage.
TPC is able to perform discharge free test and may
guarantee a rate as low as 5 picocoulombs at Vrms
upon request.
• High voltage capacitors for AC uses are mainly made of
type II dielectrics. These materials exhibit a significant non-
linearity: the capacitance value depends on the voltage
across the component and on the fr equency of the applied
signal.
HIGH VOLTAGE / DC USES
• The main applications are coupling, decoupling, multipliers
circuits, HV DC power supplies.
• They require
- a high internal resistance, even at elevated temper-
ature
- a very high dielectric strength
- a low ripple current
• Type I or type II capacitors can be used depending on the
particular application.
HIGH ENERGY PULSES
• Laser pulses circuitry, high energy/high voltage test equip-
ment (HV accelerators, physics research) require products
especially adapted to their specific requirements.
• Because of the high energy involved, the design of the
capacitors have to provide:
- a very low ESR (equivalent series resistance) to mini-
mize the lossed energy
W
=
º
0
ip
(E
SR ⭈⌱
2) di
- a very low ESL (equivalent series inductance) to keep
the correct pulse shape.
Typically, TPC products exhibit
ESR 10 m½
ESL 30 nH
peak current up to 50 kA
- a high withstanding of very large dV
dt or short signal rise
time
- a high energy density J
J = 1
2k eoerE2
even under high electric field, implying that eris very
little voltage dependent.
Through the use of almost linear or non-voltage
dependent capacitors, the stored energy can r each 50
to 100 J/liter for TPC products.
• To ensure these properties, traditional ferroelectric type II
capacitors cannot be used due to their electrostrictive and
piezoelectric properties. TPC capacitors use quasi “para-
electric”, strontium-based, ceramic material.
13
TPC
Style
FEATURES
• Good energy pulses ability
• Excellent heat-proof,
humidity-proof characteristics
• High dielectric strength
• Epoxy coating
• High insulation resistance
• Small size and low cost
• Excellent Corona-proof
APPLICATIONS
• High-voltage DC Supply
(X-Ray, Gas laser, ...)
• Lightning arrester in voltage
distribution systems
• TV doubler & tripler
• Electrostatic copying
machines
High Voltage Ceramic Capacitors
HZ Type - Strontium-based Dielectric
12.7 (0.50)
± 2 (.079)
D max T max
Ø 0.8 (.003)
4 (.157) max
25.4 (1.00)
D + 1.0 (.039) max
ELECTRICAL CHARACTERISTICS
• Rated voltage 6.9, 12 kVdc
• Test voltage (in oil) 1.5xUR
• Capacitance change ±10%
vs DC voltage
• Temperature characteristic
within +10, +85°C N4700
• Dissipation factor < 10.10-4
• Insulation resistance
(1000 VDC / 60 s) > 10 G ½
• Capacitance range
(25°C - 1 kHz - 1 Vrms) 100pF to 2700pF
• Tolerance on capacitance ±20% (M)
TYPICAL CURVES
Capacitance
changes
vs
temperature
-30 -10 10 30 50 70 90
+10
+20
-10
-20
-30
0
Temperature (¡C)
Capacitance
change
(%)
2046810
12
+10
+20
-10
-6
-20
-30
0
DC bias (kV)
Capacitance
change
(%)
Capacitance
change
vs
DC bias
MARKING
• On each part: type (HZ), capacitance
• On packaging: reference, lot number HZ RANGE – RADIAL TYPE (Ue=1.5XUR)
Reference Cap. UR (kVdc) Dimensions millimeters (inches)
TUW
Size ±20% (pF) 6 9 12 D T
100 9.50 (0.374) 9.00 (0.354)
HZ09... 150 9.50 (0.374) 9.00 (0.354)
220 9.50 (0.374) 9.00 (0.354)
250 12.00 (0.472) 9.00 (0.354)
HZ12... 330 12.00 (0.472) 9.00 (0.354)
430 12.00 (0.472) 9.00 (0.354)
500 16.00 (0.630) 9.00 (0.354)
HZ16... 680 16.00 (0.630) 9.00 (0.354)
820 16.00 (0.630) 9.00 (0.354)
750 18.00 (0.709) 9.00 (0.354)
HZ18... 1000 18.00 (0.709) 9.00 (0.354)
1300 18.00 (0.709) 9.00 (0.354)
1000 20.00 (0.787) 9.00 (0.354)
HZ20... 1300 20.00 (0.787) 9.00 (0.354)
1800 20.00 (0.787) 9.00 (0.354)
1250 22.00 (0.866) 10.00 (0.394)
HZ22... 1600 22.00 (0.866) 10.00 (0.394)
2200 22.00 (0.866) 10.00 (0.394)
1500 26.00 (1.024) 11.00 (0.433)
HZ26... 2000 26.00 (1.024) 11.00 (0.433)
2700 26.00 (1.024) 11.00 (0.433)
14 TPC
High Voltage Ceramic Capacitors
HP Type - Strontium-based Dielectric
- Other tolerance on capacitance value, 50 kV voltage: please consult us.
- Tightening torque: 0.3 m.daN max
MARKING • On each part: logo, type, capacitance, rated voltage, manufacturing date
• On packaging: reference, lot number
REFERENCES - VOLTAGE AND CAPACITANCE RANGE
Rated Test AC Corona Capacitance Dimensions millimeters (inches)
Style Voltage Voltage Reference
inception
± 20%
voltage (kV)
Dd Lh
kVdc kVrms <5 pico C (pF) ±1 ±1 ±2
50Hz
HP 30 E Y 0751 M.-.- 750 28 (1.100) 12 (0.472) 23 (0.906) 17 (0.669)
HP 40 E Y 0142 M.-.- 1400 38 (1.500) 12 (0.472) 23 (0.906) 17 (0.669)
HP 40 E Y 0152 M.-.- 1500 38 (1.500) 12 (0.472) 23 (0.906) 17 (0.669)
20 22 HP 50 E Y 0202 M.-.- 10 2000 48 (1.900) 12 (0.472) 23 (0.906) 17 (0.669)
HP 50 E Y 0252 M.-.- 2500 48 (1.900) 12 (0.472) 23 (0.906) 17 (0.669)
HP 60 E Y 0302 M.-.- 3000 58 (2.283) 15 (0.591) 23 (0.906) 17 (0.669)
HP 60 E Y 0402 M.-.- 4000 58 (2.283) 15 (0.591) 23 (0.906) 17 (0.669)
HP 30 E 3 0511 M.-.- 510 28 (1.100) 12 (0.472) 26 (1.024) 20 (0.787)
HP 40 E 3 0941 M.-.- 940 38 (1.500) 12 (0.472) 26 (1.024) 20 (0.787)
HP 40 E 3 0102 M.-.- 1000 38 (1.500) 12 (0.472) 26 (1.024) 20 (0.787)
30 33 HP 50 E 3 0152 M.-.- 15 1500 48 (1.900) 12 (0.472) 26 (1.024) 20 (0.787)
HP 50 E 3 0172 M.-.- 1700 48 (1.900) 12 (0.472) 26 (1.024) 20 (0.787)
HP 60 E 3 0202 M.-.- 2000 58 (2.283) 15 (0.591) 26 (1.024) 20 (0.787)
HP 60 E 3 0272 M.-.- 2700 58 (2.283) 15 (0.591) 26 (1.024) 20 (0.787)
HP 30 E 4 0391 M.-.- 390 28 (1.100) 12 (0.472) 30 (1.180) 24 (0.945)
HP 40 E 4 0701 M.-.- 700 38 (1.500) 12 (0.472) 30 (1.180) 24 (0.945)
HP 40 E 4 0721 M.-.- 720 38 (1.500) 12 (0.472) 30 (1.180) 24 (0.945)
40 44 HP 50 E 4 0102 M.-.- 20 1000 48 (1.900) 12 (0.472) 30 (1.180) 24 (0.945)
HP 50 E 4 0132 M.-.- 1300 48 (1.900) 12 (0.472) 30 (1.180) 24 (0.945)
HP 60 E 4 0152 M.-.- 1500 58 (2.283) 15 (0.591) 32 (1.260) 26 (1.024)
HP 60 E 4 0202 M.-.- 2000 58 (2.283) 15 (0.591) 32 (1.206) 26 (1.024)
HP 40 E 5 0561 M.-.- 560 38 (1.500) 12 (0.472) 35 (1.378) 29 (1.142)
50 53 HP 50 E 5 0112 M.-.- 25 1100 48 (1.900) 12 (0.472) 35 (1.378) 29 (1.142)
HP 60 E 5 0172 M.-.- 1700 58 (2.283) 15 (0.591) 35 (1.378) 29 (1.142)
hL
0.5 (.02) max.
D
M 5
d
FEATURES
• Excellent behavior on pulse
and discharge conditions
• Excellent capacitance vs
voltage characteristic
• Optimized size, epoxy
coating
• Low dissipation factor
• Very low Corona effect
APPLICATIONS
• High-voltage supply for
gas lasers
• Marx generators
• Power generators
• Copying machines
• Electronic microscopes
ELECTRICAL CHARACTERISTICS
• Rated voltage (VR) 20 to 50 kVdc
• Test voltage (VE) 22 to 53 kVRMS
(50Hz, in oil, 60 s without destruction)
• Temperature ranges
storage -40 +125°C
operating -30 +85°C
• Temperature characteristic N4700
• Dissipation factor
(25°C, 1 kHz, 1 Vrms) < 10.10-4
• Insulation resistance
(1000 VDC / 60 s) > 100 G ½
• Capacitance range
(25°C - 1 kHz - 1 Vrms) 390pF to 4000pF
• Tolerance ±20%
• Self-inductance 60 nH
TYPICAL CURVES
Capacitance and dissipation factor changes vs temperature,
DC voltage, frequency
-60
-50
-40
-30
-20
-10
0
+10
+20
+30
+40
-40 -20 0 20 40 60 80 100 120
0
1
2
3
ÆC/C (%) DF (%)
Dissipation factor
Temperature (¡C)
Capacitance
-20
-10
0
200 40 60 80 100
ÆC/C (%)
Capacitance
Voltage (% VR DC)
-3
-2
-1
0
10.1 10 100
0
0,5
1,0
1,5
ÆC/C (%) DF (%)
Dissipation factor
Frequency (kHz)
Capacitance
15
TPC
SPECIAL TYPES
According to specific customer requirements, TPC has developed special
types to mold like:
• Coated rod capacitors • Rod capacitors with assembled terminals
Dimensions, electrical characteristics can be adapted upon request.
50 100
+30
+60
0
(%)
V/VR (%)
ÆC
C
L
ø
ø
M
lM
L
ø
l
M
FEATURES
• These rod capacitors are designed for capacitive AC
voltage dividers at 50/60 Hz frequency. • Two versions are available:
- HF type: unprotected rod with connections
- HB type: unprotected metallized rod
High Voltage Ceramic Capacitors
HB/HF Types - Type II
C1
C2
C1
C2
C1Pilot lights
{Ph. 1
Ph. 2
Ph. 3
High voltage
C2
VR
Vd
Vd = VR
( )
C2
C1+ C2
Capacitance change vs
temperature
Important:
Handling of uncoated types
must be done under strict clean-
liness conditions.
Special types
Other models with different
dimensions and capacitance
can also be supplied upon
request.
Note: For other electrical characteristics, please consult us.
ELECTRICAL
CHARACTERISTICS
• Capacitance range (at VRrms)16 to 250pF
• Capacitance tolerance ±20%
(±10%: consult us)
• Rated voltage (VR)8 kV
rms to 15 kVrms
• Test voltage (VE )
-measurement made in a
dielectric fluid (ref. F113)
during 1 min 30 kVrms to 60 kVrms
• Dissipation factor (at Vrms)tg d150.10-4
• Ionization or corona voltage Ui 8 kVrms to 14 kVrms
• Shock wave behavior
(HB/HF types) 140 kVc (1.2/50 µs wave)
• Main parameters change vs
temperature, voltage See typical curves below
-55 -35 -15 5 25 45 65 85 105 125
+20
-20
-40
-60
-80
0
(%)
Temperature (¡C)
ÆC
C
APPLICATIONS
• In HV mains supply (VR), phase presence is checked by
pilot lights. These lamps are supplied with a low voltage
(Vd) which is obtained by means of capacitive divider
according to the formula:
• HB/HF types are for the high voltage section of the
divider (C2).
Capacitance change vs
voltage
REFERENCES - VOLTAGE AND CAPACITANCE RANGE
CRVRVECorona level Dimensions millimeters (inches) Weight
Style Reference (pF) kVRMS kVRMS <5 pico C
kVRMS DL lg
HF60001250M.-.- 125 15 60 >14 17 (0.669) 81 (3.189) 61 (2.402) 115
HF60000101M.-.- 100 15 60 >14 17 (0.669) 81 (3.189) 61 (2.402) 115
HF HF60000500M.-.- 50 15 60 >14 17 (0.669) 81 (3.189) 61 (2.402) 115
HF60000250M.-.- 25 15 60 >14 17 (0.669) 81 (3.189) 61 (2.402) 115
HF60000160M.-.- 16 15 60 >14 17 (0.669) 81 (3.189) 61 (2.402) 115
HF40000181M.-.- 180 11 42 >11 17 (0.669) 60 (2.362) 40 (1.575) 80
HF40000750M.-.- 75 11 42 >11 17 (0.669) 60 (2.362) 40 (1.575) 80
HF40000360M.-.- 36 11 42 >11 17 (0.669) 60 (2.362) 40 (1.575) 80
HF40000240M.-.- 24 11 42 >11 17 (0.669) 60 (2.362) 40 (1.575) 80
HF30000251M.-.- 250 8 30 >8 17 (0.669) 50.5 (1.988) 30.5 (1.201) 65
HF30000101M.-.- 100 8 30 >8 17 (0.669) 50.5 (1.988) 30.5 (1.201) 65
HF30000480M.-.- 48 8 30 >8 17 (0.669) 50.5 (1.988) 30.5 (1.201) 65
HF30000320M.-.- 32 8 30 >8 17 (0.669) 50.5 (1.988) 30.5 (1.201) 65
HB60001250M.-.- 125 15 60 >14 17 (0.669) / 61 (2.402) 110
HB60000101M.-.- 100 15 60 >14 17 (0.669) / 61 (2.402) 110
HB60000500M.-.- 50 15 60 >14 17 (0.669) / 61 (2.402) 110
HB HB60000250M.-.- 25 15 60 >14 17 (0.669) / 61 (2.402) 110
HB60000160M.-.- 16 15 60 >14 17 (0.669) / 61 (2.402) 110
HB40000181M.-.- 180 11 42 >11 17 (0.669) / 40 (1.575) 70
HB40000750M.-.- 75 11 42 >11 17 (0.669) / 40 (1.575) 70
HB40000360M.-.- 36 11 42 >11 17 (0.669) / 40 (1.575) 70
HB40000240M.-.- 24 11 42 >11 17 (0.669) / 40 (1.575) 70
HB30000251M.-.- 250 8 30 >8 17 (0.669) / 30.5 (1.201) 55
HB30000101M.-.- 100 8 30 >8 17 (0.669) / 30.5 (1.201) 55
HB30000480M.-.- 48 8 30 >8 17 (0.669) / 30.5 (1.201) 55
HB30000320M.-.- 32 8 30 >8 17 (0.669) / 30.5 (1.201) 55
TYPICAL CURVES
16 TPC
Dimensions millimeters (inches) Torque
C
R
V
R
V
E
S Weight
Style Reference (pF) (kV
C~
) (kV
C~
)D L h ⭋d p e (m.daN) (g)
HD 30 0X 0251S-- 250 15 20 26.5 (1.043) 33 (1.300) 16 (0.630) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3 30
HD 30 0X 0501S-- 500 15 20 26.5 (1.043) 33 (1.300) 16 (0.630) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3 30
HD 40 0X 0102S-- 1000 15 20 39.5 (1.555) 33 (1.300) 16 (0.630) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3 60
HD 60 0Y 0202S-- 2000 20 30 56.5 (2.224) 45 (1.772) 21 (0.827) 12 (0.472) 8 (0.315) 11 (0.433) 10 (0.394) 1 160
HD 60 0X 0302S-- 3000 15 20 40 (1.575) 19 (0.748) 135
HB 30 0X 0251S-- 250 15 20 12 (0.472) — 8 (0.315)
HB 30 0X 0501S-- 500 15 20 17 (0.669) — 9 (0.354)
HB 40 0X 0102S-- 1000 15 20 26 1.024) — 9 (0.354)
HB 60 0Y 0202S-- 2000 20 30 42 (1.654) — 12 (0.472)
HB 60 0X 0302S-- 3000 15 20 42 (1.654) — 9 (0.354)
FEATURES
• Disc capacitor, type II
• Excellent capacitance vs voltage
characteristic
• Low dissipation factor
• Good behavior on frequency
• Two available versions:
- HD: Molded type with connections
- HE: Uncoated type without
connections (silvered ceramic)
High Voltage Ceramic Capacitors
HD/HE Types - Type II (N)
REFERENCES - VOLTAGE AND CAPACITANCE RANGE
APPLICATIONS
• AC voltage dividers at industrial
frequency
• High frequency decoupling
• Other special applications
h p
L ± 2 (.079)
D ± 2 (.079)
e
ø
d
h ± 2 (.079)
D ± 2 (.079)
Important: HD type
In order to improve capacitor mounting,
connections ends are designed with two flats.
Thus, tightening torque is only applied on the
screw (consult chart above for torque “S” value).
Hardware supplied for capacitor mounting
2 x screws TCB M5 L8
or TCB M8 L12 according
2 x washers to ⭋
Important: HE type
Handling of uncoated types must be done
under strict cleanliness conditions.
MARKING
- TPC - Reference (HTD)
- Capacitance
- Rated voltage
ELECTRICAL
CHARACTERISTICS
• Operating temperature range -30 +85°C
(+125°C: consult us)
• Rated voltage (Vrms/50 Hz) 15 kV or 20 kV
• Test voltage (Vrms/50 Hz) 20 kV or 30 kV
• Capacitance range 250 to 3000pF
• Capacitance tolerance -20 +50% (S)
• Dissipation factor tg d²20.10-4
• Self-inductance L ²30 nH
• Main parameters change vs
applied voltage, temperature
and frequency See typical curves
TYPICAL CURVES
Capacitance change vs
temperature Capacitance change vs
applied voltage
Maximum reactive power (WR), voltage (VR),
current (IRMS) vs frequency
-40
0
+100
+200
+300
(%)
20-20 0 40 60
Temperature (¡C)
HD30/40/60
ÆC
C
-8
-6
-4
-2
0
+2
(%)
7525 50 100
Voltage (% VR DC)
HD30/40/60
ÆC
C
0
4
8
12
16
20
Irms
(A)
VR
(Vc)
15426108F (MHz)
HD30-500 pF
200
400
600
800
1000
Wr
(kVAR)
1
2
3
4
5
0
4
8
12
16
20
Irms
(A)
VR
(Vc)
15426108F (MHz)
HD40-1000 pF
200
400
600
800
1000
Wr
(kVAR)
1
2
3
4
5
17
TPC
High Voltage Ceramic Capacitors
Custom Designed Live-Line Dividers
APPLICATIONS
TPC is able to study and design live-line dividers to customers
specifications, up to 150 KVrms.
They can be used for:
- voltage presence indication
- voltage presence alarm
- voltage measurement
PRINCIPLE OF USE
• Using the following equivalent circuit
with: VR: rated voltage of the line
Vd: low voltage output
C1: low voltage / high value capacitor
C2: high voltage / low value capacitor
Zm: measuring impedance
Zt: impedance of C1at 50/60 Hz
the low voltage output is obtained by
the ratio being adjusted to the expected value.
• For measurement application, the measurement impe-
dance Zm must be larger than at least 10 times Ztin order
not to affect the dividing ratio where:
FEATURES
The high and low voltage elements can be supplied either
separately or in the same molding.
The capacitor divider ratio can be adjusted between 1/200
and 1/10 together with a tolerance that can be as tight
as 2%.
The products can be developed for rated line voltage from
10kV up to 150 KVrms.
TYPICAL EXAMPLES
• Style “A”
• Style “B”
For dimensions, capacitances, voltages, ratio, please consult
your local sales office.
Vd= VR
( )
C2
C1+ C2
C2
C1+ C2
Zt=1
C1• C2
C1+ C2
Ud
UR
C2
C1Zm
( )
High voltage
connection
neutral
depending
on voltage
Low voltage
output (Vd)
(connection)
l
High voltage
connection
neutral Low voltage
output (Vd)
(cable)
l depending
on voltage
18 TPC
TYPICAL CURVES
Capacitance change
vs applied voltage
Capacitance change
vs temperature
-55 -35 -15 5 25 45 65 85
+20
0
-20
-40
-60
-80
Temperature (¡C)
ÆC
C(%)
0255075
+20¡C
+10¡C
100
0
-10
+10
-20
-30
-40
Applied Voltage (% VR DC)
ÆC
C(%)
High Voltage Ceramic Capacitors
HR/HS Types - Type II
REFERENCES - VOLTAGE AND CAPACITANCE RANGE
SPECIAL TYPES
Upon request:
- Metallized uncoated ceramic disc with connections
- Stacks with coated or uncoated units from standard ceramic disc
FEATURES
• Disc capacitor, type II
• Two available versions:
- HR: Molded type with connections
- HS: Uncoated type without connections
(silvered ceramic)
APPLICATIONS
• DC high voltage applications
ELECTRICAL CHARACTERISTICS
• Operating temperature range -55 +85°C
(+125°C: consult us)
• Rated voltage (Vrms/50 Hz) 16 kV or 20 kV
• Test voltage (Vrms/50 Hz) 24 kV or 30 kV
• Capacitance range
(F = 1 kHz / T = 25°C /
Um= 1 Vrms)470 to 5000pF
• Capacitance tolerance
on rated capacitance -20 +50% (S)
• Dissipation factor tg d²200.10-4
• Insulation resistance
(Um = 1000 V / 1 mn) Ri ³10 G ½
• Self-inductance L ²0.03 µH
• Main parameters change vs
applied voltage, temperature See typical curves
Dimensions millimeters (inches) Torque
C
R
V
R
V
E
SWeight
Style Reference (pF) (kV
C~
) (kV
C~
)D D
1
Lh⭋d p e (m.daN) (g)
HR 30 0X 0471S-- 470 16 24 27 (1.063) 25 (0.984) 37 (1.457) 23 (0.906) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3 32
HR 30 0Y 0471S-- 470 20 30 34 (1.339) 32 (1.260) 40 (1.575) 28 (1.100) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3 45
HR 40 0X 0102S-- 1000 16 24 39 (1.535) 37 (1.457) 37 (1.457) 23 (0.906) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3 65
HR 40 0Y 0102S-- 1000 20 30 44 (1.732) 42 (1.654) 40 (1.575) 28 (1.100) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3 90
HR 60 0Y 0222S-- 2200 20 30 54 (2.126) 52 (2.047) 47 (1.850) 28 (1.100) 12 (0.472) 8 (0.315) 13 (0.512) 10 (0.394) 1 180
HR 60 0X 0502S-- 5000 16 24 55 (2.165) 54 (2.126) 40 (1.575) 21 (0.827) 12 (0.472) 8 (0.315) 13 (0.512) 10 (0.394) 1 180
HS 30 0X 0471S-- 470 16 24 17 (0.669) — — 13 (0.512)
HS 30 0Y 0471S-- 470 20 30 19 (0.748) — — 17 (0.669)
HS 40 0X 0102S-- 1000 16 24 26 (1.024) — — 14 (0.551)
HS 40 0Y 0102S-- 1000 20 30 29 (1.142) — — 16 (0.630)
HS 60 0Y 0222S-- 2200 20 30 37 (1.457) — — 14 (0.551)
HS 60 0X 0502S-- 5000 16 24 42 (1.654) — — 8 (0.315)
hp
L ± 2 (.079)
e
d
(ISO)
ø
D1
D
h ± 2 (.079)
D ± 2 (.079)
Important: HR type
In order to improve capacitor mounting, connec-
tions ends are designed with two flats. Thus,
tightening torque is only applied on the screw
(consult chart above for torque “S” value).
Hardware supplied for capacitor mounting
2 x screws TCB M5 L8
or TCB M8 L12 according
2 x washers to Ø
Handling of uncoated types must be done
under strict cleanliness conditions.
MARKING
- Reference (HTX)
- Capacitance
- Rated voltage
19
TPC
High Voltage Ceramic Capacitors
HT/HU Types - Type I
TYPES AND DIMENSIONS Dimensions millimeters (inches)mm) Tightening
dtorque
Style Type/Size D L h ⭋(ISO) p e S (m.daN)
HT 30 25.5 (1.004) 50 (1.969) 30 (1.180) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3
HT 40 38 (1.500) 50 (1.969) 30 (1.180) 8 (0.315) 5 (0.197) 9 (0.354) 7 (0.276) 0.3
HT 60 56 (2.205) 55 (2.165) 35 (1.378) 12 (0.472) 8 (0.315) 13 (0.512) 10 (0.394) 1
HU 30 22 (0.866) —
HU 40 30 (1.180) —
HU 60 42 (1.654) —
h maxp
L max
D ± 2 (.079)
e
ø
d
h ± 2 (.079)
D ± 2 (.079)
Important: HT type
In order to improve capacitor mounting, connec-
tions ends are designed with two flats. Thus, tight-
ening torque is only applied on the screw (consult
chart above for torque “S” value).
Hardware supplied for capacitor mounting
2 x screws TCB M5 L8 according
or TCB M8 L12 to Ø
2 x washers
Important: HU type
Handling of uncoated types must be done under strict cleanliness conditions.
Height h: Depending on capacitance
please consult us
MARKING
- Reference (HT)
- Capacitance, tolerance
- Rated voltage
FEATURES
• Disc capacitor, type I
• Low reactive power
• High stability vs temperature
• No capacitance change vs voltage
• Two available versions:
- HT: Molded type with connections
- HU: Uncoated type without
connections (silvered ceramic)
APPLICATIONS
• High voltage coupling
• High voltage tuning
Type Rated capacitance Rated voltage Test voltage Capacitance vs temperature
CR(pF) VR(kV) VE(kV / 50 Hz) TC (ppm/°C)
HT/HU30A 4.7-5.6 17 25
HT/HU30A 6.8 10 15
HT/HU40A 8.2 17 25 +100 ±100
HT/HU40A 10-15 10 15
HT/HU60A 18-22 17 25
HT/HU60A 27-47 10 15
HT/HU30H 10 17 25
HT/HU30H 12 10 15
HT/HU40H 15-22 17 25 -33 ±60
HT/HU40H 27-33 10 15
HT/HU60H 39-47 17 25
HT/HU60H 56-100 10 15
HT/HU30T 22 10 15
HT/HU40T 27-33 17 25
HT/HU40T 39-56 10 15 -470 ±160
HT/HU60T 68-82 17 25
HT/HU60T 100-150 10 15
HT/HU30U 22-27 17 25
HT/HU30U 33-39 10 15
HT/HU40U 47-56 17 25 -750 ±250
HT/HU40U 68-100 10 15
HT/HU60U 120-150 17 25
HT/HU60U 180-270 10 15
TABLE OF VALUES
ELECTRICAL CHARACTERISTICS
• Climatic category -55 +85°C, 21 days damp heat
• Rated voltage
(DC voltage + HF peak) 10 kV or 17 kV
• Test voltage
(V
rms
/50 Hz) 15 kV or 25 kV
• Dissipation factor
C ²50pF tg d²20.10
-4
C >50pF tg d²20 (15 + 0.7 ).10
-4
C
• Temperature coefficient TC = +100 to -750 ppm/°C
depending on capacitance value
• Tolerances and associated ±1pF (F) ±10% (K) ±20% (M)
series C < 10pF E 12 E 6
20 TPC
High Voltage Ceramic Capacitors
Quality Assurance
LOT RELEASE
Every high voltage and power capacitor is inspected
individually during manufacture.
They must, before shipping, satisfy the criteria of the quality
control department.
Each lot is checked in accordance with defined sampling
plans.
The tests are performed in accordance with the specifica-
tions hereunder.
MECHANICAL TESTS
Dimensions of each unit are inspected and must be in accor-
dance with the characteristics specified on the particular
data sheet.
OPERATING CLIMATIC CONDITIONS
TPC power capacitors temperature range, in normal
utilization, is from -30°C to +85°C.
However if provided power is decreased as previously
indicated, it is possible to use them at higher temperatures.
Please refer to us.
ELECTRICAL TESTS
• Capacitance and tangent of loss angle (DF)
Tests are made at room temperature and the
measurement conditions are:
Type I - C < 1000pF:
- measuring frequency: 1 MHz
- measuring voltage: ²10 Vrms
C ³1000 pF:
- measuring frequency: 1 kHz
- measuring voltage: ²10 Vrms
Type II - C < 100pF:
- measuring frequency: 1 MHz
- measuring voltage: ²1 Vrms
C ³100pF:
- measuring frequency: 1 kHz
- measuring voltage: ²1 Vrms
• Dielectric strength
This test is realized with DC or AC/50 Hz voltage (refer to
individual data sheet for each type). Units are kept under
applied voltage for 1 min.
• Insulation resistance
Insulation resistance value is warranted higher than 10 G½
after 1 min at 1000 VDC.
• Temperature coefficient
Temperature coefficients are measured with voltage less
than 10V in temperature range from +20°C to +85°C.
Temperature coefficients are within the tolerances speci-
fied in particular data sheets.
21
TPC
High Voltage Ceramic Capacitors
Manufacturing Process
Incoming raw material Inspection: every batch
Weighing - Mixing - Grinding - Drying Ratio of materials, duration: every batch
Calcination Temperature, duration, particle size: every batch
Weighing - Mixing - Grinding Ratio of materials, duration: every batch
Slurry production Viscosity: every batch
Spray-drying Particle size, moisture content: every batch
Qualification of dielectric Electrical characteristics: every batch
Shaping Dimensions, visual: by sampling
Sintering Temperature, duration
Qualification of semi-finished products Dimensions, electrical characteristics: every batch
Metallization Visual inspection: every batch
Soldering Visual inspection: every batch
Coating/marking Visual inspection: every batch
Curing Temperature, duration: every batch
Final manufacturing inspection Capacitance, tg d, IR, dielectric strength: 100%
Quality control
Dimensions, visual inspection, electrical parameters: sampling plan
Packaging
Quality acceptance QA report: every batch
Shipping consignment
Outgoing shipping-inspection Every batch, every shipment: packaging, documentation
MANUFACTURING OF DIELECTRIC AND SEMI-FINISHED CAPACITORS
MANUFACTURING OF COATED CAPACITORS
22 TPC
High Voltage Ceramic Capacitors
Marking - Packaging - Identification
MARKING
Each part is marked with the following indications:
- Logo
- Reference
- Rated capacitance (EIA code)
- Tolerance on capacitance (EIA code)
- Rated voltage
IDENTIFICATION - TRACEABILITY
On the packaging of all shipped capacitors, you will find a
bar code label (code 39). This label gives systematic infor-
mation on the type of product, part number, lot number,
packing date and quantity.
An example is given below:
Quantity of parts per packaging
Lot number
Packaging date (YYMMDD)
Product and part number reference
This information allows traceability of the entire manufacturing process, from critical raw materials to shipment.
This is extremely useful for any information request, customer complaint or product return.
CROSS REFERENCES PREVIOUS REFERENCES / NEW REFERENCES
High Voltage
Previous Reference New Reference
HT030 ... 060 HT30 ... 60
HT030D ... 060D HU30 ... 60
HTD230 ... 360 HD30 ... 60
HTD230D ... 360D HE30 ... 60
HTX230 ... 360 HR30 ... 60
HTX230D ... 360D HS30 ... 60
HTZ130 ... 160 HB30 ... 60
HTZ131 ... 161 HF30 ... 60
23
TPC
High Voltage Ceramic Capacitors
Questionnaire: How to Define a Capacitor
CUSTOM DESIGN REQUIREMENTS
Customer: ________________________________________________________________ Date: ____________________________
Country: __________________________________________________________________
• What is your application:
❑Coupling / Decoupling: ____________________________ ❑Tuning: ____________________________________________
❑Smoothing: ______________________________________ ❑High energy pulses: __________________________________
❑Voltage divider: __________________________________ ❑Voltage multiplier: ____________________________________
• What are the critical parameters in this application:
❑Low cap. variation vs temperature: __________________________________________________________________________
❑Guaranteed minimum cap. value (under T°C + Udc or ac):______________________________________________________
❑Low dielectric losses:______________________________ At low frequency: ______________________________________
❑Low ESR:________________________________________ At high frequency: ______________________________________
❑Minimum I.R (M ): ________________________________ At what temperature: __________________________________
❑Other (describe):__________________________________________________________________________________________
____________________________________________________________________________________________________________
• Signal
1. Pulse Signal
• Peak voltage:__________________
• Rise time or dV/dt: ____________
• Peak current: __________________
• Recurrent frequency: __________
• Energy stored: ________________
2. Sine Wave
• rms voltage: __________________
• rms current: __________________
• Frequency:____________________
• DC bias if any: ________________
• Reactive power: ________________
• Divider ratio: __________________
• Physical parameters
• Operating temperature range: __________________________________________ • Maximum weight: ________________
• Mounting requirements:________________________________________________ • Maximum dimensions: ____________
• Other requirements: ____________________________________________________________________________________
________________________________________________________________________________________________________
________________________________________________________________________________________________________
________________________________________________________________________________________________________
• Recommended product:
• Type / Size: ______________ • Voltage: ________________ • Capacitance: ____________ • Tolerance: ______________
U
tt
I
24 TPC
High Voltage Ceramic Capacitors
Standard Series and Associated Tolerances
E 6 E 12 E 24 E 48 E 96
±20% ±10% ±5% ±2% ±1%
100 100 100 100 100
102
105 105
107
110 110 110
113
115 115
118
120 120 121 121
124
127 127
130 130
133 133
137
140 140
143
147 147
150 150 150 150
154 154
160 158
162 162
165
169 169
174
180 180 178 178
182
187 187
191
196 196
200 200
205 205
210
215 215
220 220 220 221
226 226
232
240 237 237
243
249 249
255
261 261
270 270 267
274 274
280
287 287
294
300 301 301
309
E 6 E 12 E 24 E 48 E 96
±20% ±10% ±5% ±2% ±1%
316 316
330 330 330 324
332 332
340
348 348
360 357
365 365
374
383 383
390 390 392
402 402
412
422 422
430 432
442 442
453
470 470 470 464 464
475
487 487
499
510 511 511
523
536 536
549
560 560 562 562
576
590 590
604
620 619 619
634
649 649
665
680 680 680 681 681
698
715 715
732
750 750 750
768
787 787
820 820 806
825 825
845
866 866
887
910 909 909
931
953 953
976
S-HVC7.5M1199-C
Contact:
USA
AVX Myrtle Beach, SC
Corporate Offices
Tel: 843-448-9411
FAX: 843-626-5186
AVX Northwest, WA
Tel: 360-669-8746
FAX: 360-699-8751
AVX North Central, IN
Tel: 317-848-7153
FAX: 317-844-9314
AVX Northeast, MA
Tel: 508-485-8114
FAX: 508-485-8471
AVX Mid-Pacific, CA
Tel: 408-436-5400
FAX: 408-437-1500
AVX Southwest, AZ
Tel: 602-539-1496
FAX: 602-539-1501
AVX South Central, TX
Tel: 972-669-1223
FAX: 972-669-2090
AVX Southeast, NC
Tel: 919-878-6357
FAX: 919-878-6462
AVX Canada
Tel: 905-564-8959
FAX: 905-564-9728
EUROPE
AVX Limited, England
European Headquarters
Tel: ++44 (0)1252 770000
FAX: ++44 (0)1252 770001
AVX S.A., France
Tel: ++33 (1) 69.18.46.00
FAX: ++33 (1) 69.28.73.87
AVX GmbH, Germany - AVX
Tel: ++49 (0) 8131 9004-0
FAX: ++49 (0) 8131 9004-44
AVX GmbH, Germany - Elco
Tel: ++49 (0) 2741 2990
FAX: ++49 (0) 2741 299133
AVX srl, Italy
Tel: ++390 (0)2 614571
FAX: ++390 (0)2 614 2576
AVX sro, Czech Republic
Tel: ++420 (0)467 558340
FAX: ++420 (0)467 558345
A KYOCERA GROUP COMPANY
http://www.avxcorp.com
ASIA-PACIFIC
AVX/Kyocera, Singapore
Asia-Pacific Headquarters
Tel: (65) 258-2833
FAX: (65) 350-4880
AVX/Kyocera, Hong Kong
Tel: (852) 2-363-3303
FAX: (852) 2-765-8185
AVX/Kyocera, Korea
Tel: (82) 2-785-6504
FAX: (82) 2-784-5411
AVX/Kyocera, Taiwan
Tel: (886) 2-2696-4636
FAX: (886) 2-2696-4237
AVX/Kyocera, China
Tel: (86) 21-6249-0314-16
FAX: (86) 21-6249-0313
AVX/Kyocera, Malaysia
Tel: (60) 4-228-1190
FAX: (60) 4-228-1196
Elco, Japan
Tel: 045-943-2906/7
FAX: 045-943-2910
Kyocera, Japan - AVX
Tel: (81) 75-604-3426
FAX: (81) 75-604-3425
Kyocera, Japan - KDP
Tel: (81) 75-604-3424
FAX: (81) 75-604-3425
