NSN 5910-00-105-5485

Part Details | MICA DIELECTRIC FIXED CAPACITOR

5910-00-105-5485 A capacitor, whose capacitance value cannot be adjusted or varied, having natural sheet mica or reconstituted flaked mica formed into sheets as the dielectric material. It may be a single unit, or consist of two or more fixed units which cannot be separated.

Alternate Parts: RDM15F731R5F3S, 01400150, 0140-0150, 01400150, 0140-0150, HP15731P5F3, 5910-00-105-5485, 00-105-5485, 5910001055485, 001055485

Supply Group (FSG) NSN Assigned NIIN Item Name Code (INC)
59JUL 12, 196800-105-548500005 ( CAPACITOR, FIXED, MICA DIELECTRIC )
REFERENCE DRAWINGS & PICTURES

W/O MTG FACILITIES TERMINAL(S) ON ONE SURFACE

NO COMMON OR GROUNDED ELECTRODE(S)

Cross Reference | NSN 5910-00-105-5485
Part Number Cage Code Manufacturer
RDM15F731R5F3S84171ARCO ELECTRONICS
0140-015028480HEWLETT-PACKARD COMPANYDBA HP
0140-01501LQK8KEYSIGHT TECHNOLOGIES, INC.
HP15731P5F357582SUSCO ELECTRONICS INC
Technical Data | NSN 5910-00-105-5485
Characteristic Specifications
CAPACITANCE VALUE PER SECTION731.500 PICOFARADS SINGLE SECTION
TOLERANCE RANGE PER SECTION-1.00 TO +1.00 PERCENT SINGLE SECTION
NONDERATED CONTINUOUS VOLTAGE RATING AND TYPE PER SECTION300.0 DC SINGLE SECTION
TEMP COEFFICIENT OF CAPACITANCE RANGE PER SECTION IN PPM PER DEG CELSIUS+0.0 TO +70.0 SINGLE SECTION
NONDERATED OPERATING TEMP-55.0 DEG CELSIUS MINIMUM AND 125.0 DEG CELSIUS MAXIMUM
BODY STYLE W/O MTG FACILITIES TERMINAL(S) ON ONE SURFACE
BODY LENGTH0.470 INCHES NOMINAL
BODY WIDTH0.400 INCHES NOMINAL
BODY HEIGHT0.220 INCHES NOMINAL
SCHEMATIC DIAGRAM DESIGNATOR NO COMMON OR GROUNDED ELECTRODE(S)
TERMINAL TYPE AND QUANTITY2 UNINSULATED WIRE LEAD
TERMINAL LENGTH1.250 INCHES NOMINAL
TERMINAL DIAMETER0.025 INCHES NOMINAL
CENTER TO CENTER DISTANCE BETWEEN TERMINALS PARALLEL TO LENGTH0.234 INCHES NOMINAL
CASE MATERIAL PLASTIC
INSULATION RESISTANCE AT REFERENCE TEMP100000.0 MEGOHMS
DISSIPATION FACTOR AT REFERENCE TEMP IN PERCENT0.0015
RELIABILITY INDICATOR NOT ESTABLISHED
TERMINAL SURFACE TREATMENT SOLDER
INSULATION RESISTANCE AT MAXIMUM OPERATING TEMP10000.0 MEGOHMS