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700D10896-348 Datasheet, PDF (2/4 Pages) List of Unclassifed Manufacturers – Power Ring Film CapacitorsTM
1. The thermal resistance is that from capacitor to application. This is a function of the application
environment, not the capacitor itself.
2. The capacitor can handle extreme current for small duty ratios. Trise occurs very slowly. This is
because the capacitor has a high specific heat.
Power Ring Film CapacitorsTM
3. These charts can be adapted for other currents by multiplying y axis values for any time by
(Iapp/200)²
SBE Part 700D10896-348
4. Internal capacitor Trise is added to the capacitor surface/terminal temperature.
5.
For 200 ARMS the assumed 10°C internal Trise is very conservative based on simulation results
and verification measurements.
Thermal Specifications
Here are two representations of “Capacitor Surface
Temperature over Time” for two specific Thermal
Resistances of 1°C/W and 0.5°C/W.
6. SamTerpmlienal1s .are assumed to be at case temperature.
Capacitor surface temperature rise above application
Samenplveir1o. nmCeapnatci@tor2su0r0facAemtepmspeRraMtuSrecruisreraebnotveloaappdl,ic1at0ioKn Henzv.i r onment @ 200 Amps
Thermal RreMsSisctuarrnecntelo=ad0,.150°KCH/zW. T: hermal resistance = 0.5°C/W:
28
Notes regarding these graphs:
27.5
• The thermal resistance is that from capacitor to
application.This is a function of the application
27
environment, not the capacitor itself.
26.5
• The capacitor can handle extreme current for small
26
duty ratios.Trise occurs very slowly.This is because
the capacitor has a high specific heat.
25.5
• These charts can be adapted for other currents by
25
multiplying y axis values for any time by (Iapp/200)²
0
1000
2000
3000
4000
Time in seconds
• Internal capacitor Trise is added to the capacitor
surface/terminal temperature.
Sample 2.
Capacitor surface temperature rise above application
• Terminals are assumed to be at case temperature. Saemnpvleir2o.nmeCnapta@cito2r0s0urAfamceptesmRpMerSatucruerrriesentablovaeda,p1p0licKaHtiozn.environment @ 200 Amp
Thermal rReMsiSstcaunrrceent=lo1a°dC, /1W0 K:Hz. Thermal resistance = 1°C/W:
31
30
29
28
27
Mechanical Specifications
26
Dimensions:
Refer to layout details
Terminals:
Tin plated copper,
25
0.032” thick
Encapsulation:
Molded polymer case,
0
2000
4000
6000
8000
Time in seconds
potted with RTV
Marking:
SBE
SBE company identification
Mechanical Specifications
700D348
1000 µF ±10%
SBE “short form” part number
Capacitance value and
Dimensions:
Terminals:
tolerance
Encapsulation:
Refer to layout details
Nickel plated copper, 0.032” thick
Polycarbonate outer housing, potted with RTV silicone
600 Vdc
DC voltage rating
Marking:
yyww-lot#-unit 12-digit serial number (date
code, lot number, unit number)
SBE
SBE Company Identification
700D348
SBE Part Number
1000 μF ±10%Capacitance value and tolerance
600 VDC
DC Voltage Rating
yyww
Weekly date code (i.e. 0915 = 15th week of 2009)
SBE Inc. 81 Parker Road
Barre, Vermont 05641 USA
Mechanical Mounting and additional thermal notes:
This capacitor is optimized for extremely low self inductance when connected to a suitable coplana
structure. When so connected, the capacitor is very rigidly attached to such a structure and thus d
SBE reserves the rightntootanmeceensdsdaersiliygnnedeadtato be mounted to a chassis. However, the capacitor case can be attached to
telephone: 802.a4p7pl6ic.a4ti1on4s6u r face/heat sink, etcw. ief dbessiirteed:.wWwhwen.SsBo Emloeucntterod,nthicesc.acpoamcitor can be part of the bu
fax: 802.661sstu.rr3ufca9tcu5er/0eh esuapt ps ionrkt.wUillsaesosfiestth-mwerimathialr:leiPmntooevwrfaaelcoreRf ccioanmpgap@coituoSnrdBabnEedltewbcuesternhoetnhaeitc. csNa.pocatoecmitthoar tctahseecaanpdacaiptoprliicnatetironna
is VERY small, and other bus structure heat sources are very likely significantly higher than the hea
added to the bus by the capacitor. Capacitor dissipation is approximately 5W at 200ARMS, from 1