MRC | Criteria | Characteristic |
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ABHP | OVERALL LENGTH | 1.260 INCHES NOMINAL |
ADAQ | BODY LENGTH | 0.500 INCHES NOMINAL |
ADAT | BODY WIDTH | 0.500 INCHES NOMINAL |
ADAU | BODY HEIGHT | 0.600 INCHES NOMINAL |
AEBY | DISTANCE BETWEEN CENTERLINES OF MOUNTING FACILITIES PARALLEL TO BODY LENGTH | 0.300 INCHES NOMINAL |
AECR | VIBRATION RESISTANCE RANGE IN HERTZ | +10.0/+2000.0 |
AFGA | OPERATING TEMP RANGE | -55.0/+85.0 DEG CELSIUS |
AFSV | AVERAGE LIFE RATING IN HOURS | 30000.0 |
AHAJ | REFERENCE FREQUENCY PER FUNCTION | 10.36 GIGAHERTZ BLANK |
AHAQ | SOURCE IMPEDANCE RATING PER FUNCTION | 50.0 OHMS BLANK |
AHAS | LOAD IMPEDANCE PER FUNCTION | 50.0 OHMS BLANK |
AHBN | INPUT TERMINAL MANUFACTURER CODE | 15942 |
AHBP | INPUT TERMINAL IDENTIFICATION | SMA-RECEPTACLE |
AHBS | OUTPUT TERMINAL MANUFACTURER CODE | 15942 |
AHBT | OUTPUT TERMINAL IDENTIFICATION | SMA-RECEPTACLE |
AHBZ | VOLTAGE STANDING WAVE RATIO PER FUNCTION | 2.0 BLANK |
AKEJ | MOUNTING FACILITY SCREW THREAD SERIES DESIGNATOR | UNC |
AKNA | INCLOSURE TYPE | ENCASED |
AXHR | MOUNTING FACILITY TYPE AND QUANTITY | 2 THREADED HOLE |
CQDR | INSERTION LOSS AT REFERENCE FREQUENCY PER FUNCTION IN DECIBELS | 2.0 BLANK |
CQDW | FUNCTIONAL TERMINAL TYPE AND QUANTITY | 1 CONNECTOR, RECEPTACLE INPUT 1ST FUNCTION |
CQDW | FUNCTIONAL TERMINAL TYPE AND QUANTITY | 1 CONNECTOR, RECEPTACLE OUTPUT 2ND FUNCTION |
CQFC | SPECIFIED FREQUENCIES OF DISCRIMINATION PER FUNCTION | 200.00 MEGAHERTZ BLANK AND 8.16 GIGAHERTZ BLANK AND 12.56 GIGAHERTZ BLANK AND 25.12 GIGAHERTZ BLANK |
CQJX | NOMINAL THREAD SIZE | 0.086 INCHES |
CQRG | BODY MATERIAL | ALUMINUM |
CRBB | FREQUENCY BAND WIDTH PER FUNCTION | 8.16 GIGAHERTZ BLANK AND 12.56 GIGAHERTZ BLANK |
CRBC | DISCRIMINATION AT SPECIFIED FREQUENCIES PER FUNCTION IN DECIBELS | 40.0 MINIMUM BLANK AND 3.0 MAXIMUM BLANK AND 3.0 MAXIMUM BLANK AND 40.0 MINIMUM BLANK |
CRBN | VOLTAGE STANDING WAVE RATIO FREQUENCY LIMITS PER FUNCTION | 8.16 GIGAHERTZ BLANK AND 12.56 GIGAHERTZ BLANK |
STYL | STYLE DESIGNATOR | RECTANGULAR TERMINAL/TERMINALS ON OPPOSITE SURFACES |