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170153K250BB

Description
High Current / Low ESR, Wrap and Fill Axial Leaded Capacitors
File Size288KB,3 Pages
ManufacturerETC2
Download Datasheet View All

170153K250BB Overview

High Current / Low ESR, Wrap and Fill Axial Leaded Capacitors

High Current / Low ESR, Wrap and Fill Axial Leaded Capacitors
Type 170
Axial Leaded Metallized Polypropylene
The Type 170 series axial lead metallized polypropylene
capacitors are available in bulk or on tape and reel for
automatic insertion. The tape wrap and epoxy end fill
construction meets UL510 (outer wrap) and UL94V0
(epoxy). Type 170 is non-inductive with low ESR and
high current capability for switch-mode power supply
applications
Highlights
Low ESR
High current
Available on tape and reel or bulk
Epoxy end fill meets UL94V-0
Non inductively wound
Flame retardant outer wrap meets UL510
Specifications
Capacitance Range:
Voltage Range:
Capacitance Tolerance:
Operating Temperature Range:
Dielectric Withstand Voltage:
Dissipation Factor (DF):
0.001 µF to 4.7 µF
160
to
630 Vdc (90 to 250 Vac, 60 Hz)
±5%, ±10%, ±20%
–55 ºC to +105 ºC (
derate linearly to 50% rated
1.6 x rated voltage for 2 s @ +25 ºC ±5 ºC
tgδ x 10
–4
at +25 ºC ±5 ºC
kHz
1
10
100
C
≤0.1
µF
≤6
≤10
≤30
0.1 µF <C ≤1 µF
≤6
≤20
C >1 µF
≤6
voltage at 105 ºC)
Insulation Resistance:
Self Inductance:
Life Test:
Damp Heat Test:
Soldering:
Long Term Storage Stability:
Maximum Pulse Rise Time dv/dt and Pulse
Characteristic (Wo):
Complies with the EU Directive
2002/95/EC requirement
restricting the use of Lead (Pb),
Mercury (Hg), Cadmium (Cd),
Hexavalent chromium (Cr(VI)),
PolyBrominated Biphenyls (PBB)
and PolyBrominated Diphenyl
Ethers (PBDE).
100,000 MΩ x µF, 200,000 MΩ Min.
1 nH max. per 1 mm lead and body length
1000 hrs @ 85 ºC 1.25 x Vn
95% RH @ +40 ºC for 21 days
260 ºC ±5 ºC for 10 s ±1 s
ΔC/C ≤ ±0.5% after 2 years
L Max
Vn
160
250
400
630
11
5
11
16.5
5
10
13.5
20
20.5
3
7
10
15
28
2
4
6.5
10
33
1
2.5
4
6
Outline Drawing
If the working voltage (V) is less than the nominal voltage (Vn), the capaci-
tor can work at higher dv/dt . In this case, the maximum value allowed
is obtained by multiplying the above value (See table dv/dt) with the ratio
Vn/V
Ød ±.002
±0.05 mm)
1.58 ±0.2
(40 ±5 mm)
L
Max
1.58 ±0.2
(40 ±5 mm)
D
Max
Lead Material: tinned copper wire
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830 • www.cde.com
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