General Electrical, Physical, and Environmental Characteristics
Test Procedures:
Section J of the catalog covers the
applicable test procedures
Humidity Test:
The Non-Hermetically sealed units shall be
tested as outlined in section J “Humidity Test”
As a result of the test there shall be:
• No visible damage
• Max.
∆
C of ± 5%
• Min. IR = 50% of initial limit
• Max. DF = .5%
Electrical Characteristics:
Capacitance, Dissipation Factor, Insulation
Resistance, and Dielectric Strength shall be
measured as specified in section J.
Physical Characteristics:
The Lead Strength shall be measured as
specified in section J.
DC Life:
810P, 820P, 842P & 860P: 140% of rated voltage at 125°C for 250 hours.
832P & 880P: 125% of rated voltage at 150C for 250 hours.
882P: 125% of rated voltage for 250 hours at 125C.
As a result of the test there shall be:
• No permanent open or short circuit
Environmental Characteristics:
Vibration Test: (Condition B)
No mechanical damage, short, open or
intermittent circuit
• No visible damage
• Max.
∆
C of ± 5%
• Min. IR = 50% of initial limit
Moisture Resistance:
The hermetically sealed units shall be tested
as outlined in the Moisture Resistance testing
of section J.
As a result of the test there shall be:
• No visible damage
• Max.
∆
C of ± 5%
• Min. IR = 50% of initial limit
• Max. DF = .5%
• Max. DF = 0.3%
AC Life:
The 859P shall be tested at 110% of the
rated rms voltage at 400 Hz for 250 hours at 85°C.
As a result of the test there shall be:
• No permanent open or short circuit
• No visible damage
• Max.
∆
C of ± 5%
• Min. IR = 50% of initial limit
• Max. DF = 0.5%
F-2
electronics
,
inc.
METALIZED POLYPHENYLENE SULFIDE FILM CAPACITORS
F3
electronics
,
inc.
POLYPHENYLENE SULFIDE FILM CAPACITORS
STYLES FOR METAL-CASE FILM CAPACITORS
SECTION GROUNDED TO CASE
SECTION INSULATED FROM CASE
DIMENSIONS IN INCHES
DIMENSIONS IN INCHES
CASE STYLE 01
+1.00
-0
1.625
CASE STYLE 02
±0.031
0.172 MAX
L
±0.031
+1.00
-0
1.625
0.172
MAX
1.625
+1.00
-0.00
L
D
-0.005
±0.015
DIA
D
+0.015
-0.005
CASE STYLE 04
+1.00
-0
1.625
±0.015
0.020
1.625
+1.000
-0.000
CASE STYLE 03
+1.00
-0
1.625
±0.015
0.020
L
±0.062
L
±0.31
0.020
±0.015
0.172
MAX
0.172
MAX
INSULATING SLEEVE
0.0075 MAX THICKNESS
D
+0.015
-0.005
D
+0.015
-0.037 DIA.
INSULATING SLEEVE
0.0075 MAX THICKNESS
CASE STYLE 12
1.625
+1.00
-0
CASE STYLE 13
1.625
+1.00
-0
1.625
+1.000
-0.000
WRAP-AROUND
APPROX. 135°
FOR 0.400 DIA.,
AND APPROX.
225° FOR LARGER DIA.
DIA
0.172
MAX
L
D
±0.031
L
±0.031
+0.015 DIA
-0.005
C
L
0.172
MAX
C
L
D
-0.005
±0.015
A
±0.005
DIA
C B
W
±0.015
0.033
±0.005
FOR 0.400 DIA.,
0.051
±0.005
FOR DIA. 0.500
AND LARGER
±0.005
A
DIA
C B
W
±0.015
0.033
±0.005
FOR 0.400
DIA., 0.051
±0.005
FOR
DIA. 0.500 AND LARGER
Bracket Dimensions (Style 12 & 13)
Inches
D
0.400
0.500
0.562
0.670
0.750
1.000
W
0.250
0.500
0.500
0.500
0.500
0.500
A
0.144
0.156
0.156
0.156
0.156
0.156
B
0.187±0.015
0.250±0.031
0.250±0.031
0.250±0.031
0.250±0.031
0.250±0.031
C
0.312±0.031
0.437±0.062
0.437±0.062
0.437±0.062
0.437±0.062
0.437±0.062
dimensionsbrac style 12 and 13
F4
electronics
,
inc.
POLYPHENYLENE SULFIDE FILM CAPACITORS
TYPICAL TAB TERMINAL DIMENSIONS
0.020
c
L
±0.005
0.125
±0.015
c
L
SLOT 0.062 x 0.125
A
B
0.296
±0.062
Dwg. No A-9525
A = 0.156 ± 0.015" (3.96 ± 0.38mm)
B = 0.187 ± 0.015" (4.75 ± 0.38mm)
Tab Terminal available only on case diameters equal to or greater than 0.400 inches.
T1 & T3 s t y l e s a r e s u p p l i e d w i t h o n e t a b t e r m i n a l o n t h e i n s u l a t e d e n d a n d a g r o u n d lead on the opposite end.
CATALOG NUMBERING SYSTEM
EXAMPLE:
859P
183
X9
165
S
02
STYLE NUMBER.
SEE PAGE 4 FOR STYLE VARIATIONS
AND CORRESPONDING DIMENSIONS. (Metal case only)
TERMINAL.
S = WIRE LEADS, T = SOLDERING TAB*
*SOLDERING TABS ARE A VAILABLE ONLY ON CASE
DIAMETERS EQUAL TO OR GREATER THAN 0.400
INCHES. (Metal case only)
AC or DC VOLTAGE RATING.
EXPRESSED IN VOLTS. SEE STANDARD
RATINGS CHARTS FOR VOLTAGE CODE.
CAPACITANCE TOLERANCE.
X0 = ±20%; X9 = ±10%
X5 = ± 5%; X2 = ±2%
X1 = ± 1%
CAPACITANCE.
EXPRESSED IN PICOFARADS. THE FIRST TWO DIGITS ARE SIGNIFICANT
FIGURES; THE THIRD IS THE NUMBER OF ZEROS FOLLOWING. SEE STANDARD RATINGS
TABLES FOR CAP ACITANCE CODE. e.g. 183 = 18000pf or 0.018µf
I have a project plan that I would like to ask you guys. The project is to use Bluetooth technology to achieve wireless transmission of images. Is this feasible? Can it be achieved using Bluetooth? Th...
Thanks to EEWORLD, my desktop just lacks a speaker, hehe. This speaker is powered by USB (USB power supply, headphone plug, not USB speaker). Although it is small, the sound quality is still good. Whe...
1. Equipment Overview
Shell-and-tube heat exchangers are a common heat exchange device used in chemical evaporation and heating equipment. Currently, the tubesheets of shell-and-tube heat exch...[Details]
EtherCAT (Ethernet for Control Automation Technology) is a real-time industrial fieldbus communication protocol based on an Ethernet-based development framework. EtherCAT is one of the fastest indu...[Details]
Is electromagnetic radiation from electric vehicles harmful to the human body? Recently, the issue of electromagnetic radiation from electric vehicles has garnered widespread attention. However, pu...[Details]
As the main model among new energy vehicles, pure electric vehicles have received strong support and encouragement from the country in recent years, and their development is changing with each pass...[Details]
The structure of an LCD TV primarily consists of the LCD display module, power module, driver module (primarily including the main driver board and tuner board), and keypad module. LCD display modu...[Details]
On August 25th, SK Hynix announced that it has completed development and entered mass production of its 321-layer, 2Tb QLC NAND flash memory product. This achievement marks the world's first applic...[Details]
With the rapid adoption of smart electric vehicles, automotive chips are evolving from auxiliary control units to the foundation of the entire vehicle's intelligence. Their applications extend from...[Details]
Since its invention in the mid-1940s, the microwave oven has evolved from a humble beginning to commercial use, entering homes in the 1960s and rapidly gaining popularity. Its basic functionality a...[Details]
Smartphones have become essential digital devices, and the growing number of smartphone-centric applications is enriching people's lives. As users, they desire a better app experience and a wider r...[Details]
A multilevel inverter converts a DC signal into a multilevel staircase waveform. Instead of a straight positive-negative output waveform, the output waveform of a multilevel inverter alternates in ...[Details]
With growing environmental awareness, the continuous improvement of three-electric technology and the increasing deployment of infrastructure such as charging stations, the electrification of new e...[Details]
Nascent Micro is launching devices covering a wide range of power applications, including gallium nitride (GaN) drivers, dual-channel automotive drivers, and battery protection MOSFETs.
...[Details]
introduction
With the development and widespread use of integrated circuits in power electronics design, electronic products are trending towards smaller sizes, more components, and greater fu...[Details]
0 Introduction
Portable terminals integrate a computer and display screen into a single device. Due to limited space in portable devices, previous designs often used a single-chip microcompute...[Details]
At present, the most troubling thing about pure electric vehicles as new energy sources is not only the range anxiety, but also the disadvantage of long charging time. At present, ternary lithium b...[Details]
Electronics Design Contest
京公网安备 11010802033920号
EEWORLD
