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
Does the PIC microcontroller have a switch or something like that? It is impossible to unplug the power supply every time you want to change the plug. This is too troublesome, and will the system be e...
Hammer T2 will be released tomorrow. A few days ago, Zhongtianxin, a foundry of Hammer 2, went bankrupt. At the end of the year, a big thing happened to the PCB factory again. According to reports, 8 ...
I would like to ask where is the void nwk_Status( uint16 statusCode, uint16 statusValue ) function called and what is the value of the entry parameter statusValue?...
Electronic engineers, how can we better embrace GaN? Participate in the survey to get a gift!Click here to participate in the questionnaireGallium Nitride (GaN) Power DevicesGallium nitride (GaN) powe...
[i=s]This post was last edited by johnrey on 2015-4-3 22:29[/i] [size=4]Ti's sample event is very popular recently. Is this the fifth time? And there are always interesting things every time. Let's se...
I want to output the floating point numbers obtained from ADC to a computer through the serial port. The PIC microcontroller is similar to the 51 microcontroller, which does not send data byte by byte...
PV DC fuses are safety devices used to protect PV panels, inverters, and DC loads. To ensure their safety and reliability, they must be UL248 certified.
Before applying for UL248 certifi...[Details]
Reflow soldering, a common soldering method in modern electronics manufacturing, primarily melts solder paste and pads to form solder joints. With technological advancements, soldering equipment ha...[Details]
Electric vehicles are currently gaining momentum, but this is just a facade. Fuel-powered vehicles remain unchallenged. While electric vehicles boast unique advantages in environmental emissions an...[Details]
With the rapid advancement of automation technology, collaboration between robots is no longer just science fiction. Imagine dozens of machines moving goods in a warehouse without interfering with ...[Details]
1 Source of creativity
With the further development of electronic technology, electronic pets have gradually entered people's family life. At present, there are two main categories of relative...[Details]
Overview
As handheld voice communication devices become more and more popular, they are increasingly used in noisy environments, such as airports, busy roads, crowded bars, etc. In such noisy ...[Details]
With the development of science, the use of variable frequency technology is becoming more and more widespread, and it is used in both industrial equipment and household appliances. Inverter air co...[Details]
Coal mines typically contain gas and coal dust. When gas and coal dust reach a certain concentration, they can cause explosions. Electrical equipment generates arcs during normal operation or durin...[Details]
In daily life, power transformers have different functions and uses due to different usage scenarios. The most common ones can be divided into: control transformers, isolation transformers, rectifi...[Details]
Bosch has released a new SoC series to support L2+ advanced driver assistance functions. The chip integrates high resolution and long-range detection capabilities, and has built-in support for neur...[Details]
Intel®
Xeon®
6
-
core processors now support the new Amazon EC2 R8i and R8i-flex instances on Amazon Web Services (AWS).
These new instances offer superior performance and fast...[Details]
Wearable technology is taking off, with applications evolving rapidly, from smartwatches to fitness trackers and even smart wigs! Bluetooth Smart is at the center of this revolution. This is the se...[Details]
In this final installment of a five-part blog series, I will discuss noise in op amps driving headphone loads and some techniques for reducing it. Previous posts have discussed headphone load power...[Details]
The intelligent
dust monitoring system intelligently monitors dust concentrations at and around construction sites. All concentration values are transmitted to a cloud server for
cloud co...[Details]
The primary control objective in this case is the display and alarming of data parameters on the Xinheng control scale instrument. The system's main PLC uses a Siemens CPU, and data is collected vi...[Details]
Microchip MCU
京公网安备 11010802033920号
EEWORLD
