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
[b][url=http://www.deyisupport.com/blog/b/the_process/archive/2016/04/06/66ak2l06-soc.aspx][b]Can the 66AK2L06 SoC enable the minimization of test and measurement equipment? [/b][/url][/b] [b][/b] [al...
I use atmel studio6.0 with a main frequency of 8M. Every time I reach while, it stops. /* * ADC.c * * Created: 2012/6/18 16:13:15 * Author: Administrator */ #include
#includeunsigned int Adc_Val;
unsi...
The specific situation is this: the MCU and 164 used before were on the same circuit board. When the power was turned on, the digital screen was good and would not flicker. Now, because the driver par...
I want a switching power supply that can convert AC200V to DC24V, that is: input: L output: +24V N -24V The only requirement is that the circuit is simple and reliable. It is best to use Protel 99se t...
While
the solid-state battery
industry is still engaged in a long technological marathon for
the "ultimate solution" for
electric vehicles
, some companies have begun looking for mor...[Details]
Wave soldering is a crucial electronic component soldering technique used in the production of a wide range of electronic devices, from home appliances to computers to avionics. The process is wide...[Details]
Nios II is a configurable 16-/32-bit RISC processor. Combined with a rich set of peripheral-specific instructions and hardware acceleration units, it provides a highly flexible and powerful SOPC sy...[Details]
1. Project Overview
1.1 Introduction
Currently, most music files are saved in MP3 format, a lossy audio compression format that cannot perfectly reproduce the original music. With the exp...[Details]
introduction
Bluetooth technology is a short-range wireless communication technology designed to replace wired cables. It is a wireless communication technology standard developed by the SIG, ...[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]
In recent years, with the application of the IEC61850 standard and the development and deployment of optoelectronic transformers, the concept of digital substations has been put into practical use ...[Details]
1 Introduction
In the mid-1960s, American scientist Maas conducted extensive experimental research on the charging process of open-cell batteries and proposed an acceptable charging curve for ...[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]
Through AI connection technology supported by Qualcomm X85 5G modem and RF and Qualcomm FastConnect 7900 mobile connection system, seamless switching can be achieved between cellular net...[Details]
Over the past decade, the narrative surrounding fuel vehicles has been one of decline and replacement. Under the onslaught of new energy vehicles, traditional automakers have been forced to acceler...[Details]
introduction
As core electronic components used in vastly different fields, automotive-grade chips and mobile/consumer-grade chips exhibit significant differences in their...[Details]
For self-driving cars, LiDAR is the sensory organ that allows them to "see the road." Simply put, its operating principle involves sending out a laser beam, receiving the echo, and ultimately gener...[Details]
Today,
the Intel®
Universal
Quick Connector (UQD) Interchangeability Alliance was officially established
. At the inaugural ceremony, Intel and its first certified partners—Invicta...[Details]
As the core of electric vehicles, batteries are concerned with vehicle use and maintenance. The operation of vehicles is guaranteed by the electricity generated by batteries. For batteries, battery...[Details]
DSP and ARM Processors
京公网安备 11010802033920号
EEWORLD
