NSN 5915-00-458-8792 of Filter Low Pass - Parts Details
Alternative NSN: 5915004588792 |
Item Name: Filter Low Pass |
FSG: 59 Electrical and Electronic Equipment Components |
Federal Supply Class (FSC): 5915 Filters and Networks |
NIIN: 004588792 |
NCB Code: USA (00) |
Manufacturers: Trilithic Inc |
ASAP Aviation Procurement, owned and operated by ASAP Semiconductor, is the latest parts procurement platform for the aerospace and aviation industry. Check out high demanding part numbers 5LE30-3-AA under NSN 5915-00-458-8792 of Filter Low Pass manufactured by Trilithic Inc.
Federal Supply Class of NSN 5915-00-458-8792 is FSC 5915 contains part details of Filters and Networks. Quote for your desired part numbers.
Part Number's List for NSN 5915-00-458-8792, 5915004588792
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Part No Manufacturer Item Name QTY RFQ 5LE30-3-AA Trilithic Inc filter low pass Avl RFQ
Characteristics Data of NSN 5915004588792MRC Criteria Characteristic ABHP OVERALL LENGTH 14.060 INCHES NOMINAL ADAR BODY OUTSIDE DIAMETER 1.250 INCHES NOMINAL AFGA OPERATING TEMP RANGE -54.0/+60.0 DEG CELSIUS AHAJ REFERENCE FREQUENCY PER FUNCTION 15.0 MEGAHERTZ 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 23042 AHBP INPUT TERMINAL IDENTIFICATION SMA-JACK AHBS OUTPUT TERMINAL MANUFACTURER CODE 23042 AHBT OUTPUT TERMINAL IDENTIFICATION SMA-JACK AHBZ VOLTAGE STANDING WAVE RATIO PER FUNCTION 1.5 BLANK AKNA INCLOSURE TYPE ENCASED AXHR MOUNTING FACILITY TYPE AND QUANTITY 2 TERMINAL CQDR INSERTION LOSS AT REFERENCE FREQUENCY PER FUNCTION IN DECIBELS 1.0 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 1.00 HERTZ BLANK AND 30.00 MEGAHERTZ BLANK AND 48.00 MEGAHERTZ BLANK AND 96.00 MEGAHERTZ BLANK CQRG BODY MATERIAL METAL CRBB FREQUENCY BAND WIDTH PER FUNCTION 1.00 HERTZ BLANK AND 30.00 MEGAHERTZ BLANK CRBC DISCRIMINATION AT SPECIFIED FREQUENCIES PER FUNCTION IN DECIBELS 3.0 MAXIMUM BLANK AND 3.0 MAXIMUM BLANK AND 70.0 MINIMUM BLANK AND 70.0 MINIMUM BLANK CRBN VOLTAGE STANDING WAVE RATIO FREQUENCY LIMITS PER FUNCTION 1.0 HERTZ BLANK AND 30.0 MEGAHERTZ BLANK PKWT UNPACKAGED UNIT WEIGHT 21.090 OUNCES STYL STYLE DESIGNATOR ROUND TERMINAL/TERMINALS ON OPPOSITE SURFACES
MRC | Criteria | Characteristic |
---|---|---|
ABHP | OVERALL LENGTH | 14.060 INCHES NOMINAL |
ADAR | BODY OUTSIDE DIAMETER | 1.250 INCHES NOMINAL |
AFGA | OPERATING TEMP RANGE | -54.0/+60.0 DEG CELSIUS |
AHAJ | REFERENCE FREQUENCY PER FUNCTION | 15.0 MEGAHERTZ 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 | 23042 |
AHBP | INPUT TERMINAL IDENTIFICATION | SMA-JACK |
AHBS | OUTPUT TERMINAL MANUFACTURER CODE | 23042 |
AHBT | OUTPUT TERMINAL IDENTIFICATION | SMA-JACK |
AHBZ | VOLTAGE STANDING WAVE RATIO PER FUNCTION | 1.5 BLANK |
AKNA | INCLOSURE TYPE | ENCASED |
AXHR | MOUNTING FACILITY TYPE AND QUANTITY | 2 TERMINAL |
CQDR | INSERTION LOSS AT REFERENCE FREQUENCY PER FUNCTION IN DECIBELS | 1.0 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 | 1.00 HERTZ BLANK AND 30.00 MEGAHERTZ BLANK AND 48.00 MEGAHERTZ BLANK AND 96.00 MEGAHERTZ BLANK |
CQRG | BODY MATERIAL | METAL |
CRBB | FREQUENCY BAND WIDTH PER FUNCTION | 1.00 HERTZ BLANK AND 30.00 MEGAHERTZ BLANK |
CRBC | DISCRIMINATION AT SPECIFIED FREQUENCIES PER FUNCTION IN DECIBELS | 3.0 MAXIMUM BLANK AND 3.0 MAXIMUM BLANK AND 70.0 MINIMUM BLANK AND 70.0 MINIMUM BLANK |
CRBN | VOLTAGE STANDING WAVE RATIO FREQUENCY LIMITS PER FUNCTION | 1.0 HERTZ BLANK AND 30.0 MEGAHERTZ BLANK |
PKWT | UNPACKAGED UNIT WEIGHT | 21.090 OUNCES |
STYL | STYLE DESIGNATOR | ROUND TERMINAL/TERMINALS ON OPPOSITE SURFACES |