FILM CAPACITORS
1
www.exxelia.com info@exxelia.com
Page revised 05/20
Taping : dimensions
FEATURES
• High temperature to +200°C
• Ultra-Stable Performance through
Temperature/Voltage Range
• Rugged/Lightweight Construction
• Manufactured in U.S.
APPLICATIONS
• Oil & Gas
• Aerospace & Defense
• High Temperature Modules
PHYSICAL CHARACTERISTICS
Construction: Non-Inductive wound PTFE
metallized Polymer fi lm
Case: Flame retardant tape wrap and high
temperature resin end fi ll
Lead Material: < 600 V
PTFE insulated silver stranded
copper wire
> 600 V
MIL-W-16878/4 (Type E) wire
Lead Strength: Capable of withstanding a fi ve
pound pull force on lead axis
HOW TO ORDER
253P 105 X9 050
Series Capacitance code Tolerance code Voltage rating
253P 105 = 1 µF
X9 = ±10%
X5 = ±5%
050 = 50 V
DC
253P Series Wrap-and-Fill High Temperature PTFE Film capacitors
ELECTRICAL SPECIFICATIONS
Electrical specifi cations
Parameter Value
Operating Temperature
–55°C to +200°C
Without derating for DC operation
Capacitance Range 0.022 µF to 1.0 µF
Capacitance Tolerance ±10%, ±5%
Dissipation Factor
0.05% max
When measured at 1 kHz @ 25°C
Insulation Resistance
at +25°C 1,000,000 MΩ-µF, need not exceed 2,000,000 MΩ
at +85°C 200,000 MΩ-µF, need not exceed 400,000 MΩ
at +125°C 25,000 MΩ-µF, need not exceed 50,000 MΩ
at +200°C 2,000 MΩ-µF, need not exceed 4,000 MΩ
Film Capacitor with PTFE Dielectric
Industry-Leading Performance at Temperatures up to 200°C
Custom confi gurations and extended/intermediary values available upon request.
FILM CAPACITORS
2
info@exxelia.comwww.exxelia.com
Page revised 05/20
General characteristicsWrap-and-Fill High Temperature PTFE Film capacitors 253P Series
L max.
D max.
x
1.750
* Leads to be within ±0.062”at center line at egress, but not less than 0.031” from edge
DIELECTRIC CHARACTERISTICS CONFIGURATION OUTLINE
OUTLINE DIMENSIONS in inches
Lead Wire Sizes
Case Diameter Lead AWG
0.301 to 0.500 No. 22
> 0.500 No. 20
Capacitance
(µF)
Part Number
Dimensions in inches
D max. L max.
250 V
DC
0.1 253P104X*250 0.32 0.65
0.22 253P224X*250 0.36 0.75
0.33 253P334X*250 0.42 0.75
0.47 253P474X*250 0.38 1.10
0.68 253P684X*250 0.44 1.10
0.82 253P824X*250 0.48 1.10
1 253P105X*250 0.52 1.10
400 V
DC
0.068 253P683X*400 0.35 0.65
0.082 253P823X*400 0.37 0.65
0.1 253P104X*400 0.34 0.75
0.22 253P224X*400 0.37 1.10
0.33 253P334X*400 0.43 1.10
0.47 253P474X*400 0.49 1.10
0.68 253P684X*400 0.57 1.10
0.82 253P824X*400 0.57 1.25
1 253P105X*400 0.63 1.25
600 V
DC
0.033 253P333X*600 0.36 0.65
0.047 253P473X*600 0.35 0.75
0.068 253P683X*600 0.40 0.75
0.082 253P823X*600 0.43 0.75
0.1 253P104X*600 0.36 1.10
0.22 253P224X*600 0.49 1.10
0.33 253P334X*600 0.58 1.10
0.47 253P474X*600 0.63 1.25
0.68 253P684X*600 0.73 1.25
0.82 253P824X*600 0.65 1.75
1 253P105X*600 0 .71 1.75
800 V
DC
0.022 253P223X*800 0.34 0.75
0.033 253P333X*800 0.39 0.75
0.047 253P473X*800 0.34 1.10
0.068 253P683X*800 0.39 1.10
0.082 253P823X*800 0.42 1.10
0.1 253P104X*800 0.45 1.10
0.22 253P224X*800 0.58 1.25
0.33 253P334X*800 0.69 1.25
0.47 253P473X*800 0.66 1.75
0.68 253P683X*800 0.77 1.75
0.82 253P823X*800 0.83 1.75
1 253P105X*800 0.91 1.75
Change in Capacitance vs Temperature
(°C)
Change in Capacitance (%)
5
4
3
2
1
0
–1
–2
–3
–4
–5
–50 –25 0 25 50 75 100 125 150 175 200
Dissipation Factor vs Temperature
(°C)
Dissipation Factor (%)
0.10
0.09
0.08
0.07
0.06
0.05
0.04
0.03
0.02
0.01
0
–50 –25 0 25 50 75 100 125 150 175 200
Change in Capacitance vs Temperature
(°C)
Insulation Resistance (MΩ-µF)
1,000,000
100,000
10,000
1,000
100
0
25 7550 100 125 150 175 200
* Input tolerance number to complete part number: 9 = ±10%, 5 = ±5%
Custom configurations and extended/intermediary values available upon request.