Part Number
DEMIL
Shelf Life
UOM
NIIN
Part Information
Shielded polytetrafluoroethylene insolated output wires
NSN
National Stock Number:
TXT
Description:
Radio Frequency Interfere Filter
MRC:
The dimension measured along the longitudinal axis with terminated points at the extreme ends of the item.ABHP
Overall Length:
7.750 inches
MRC:
The distance measured in a straight line from the bottom to the top of an item.ABKW
Overall Height:
3.120 inches
MRC:
A measurement of the longest dimension of the body,in distinction from width.ADAQ
Body Length:
5.750 inches
MRC:
A measurement taken at right angles to the length of the body,in distinction from thickness.ADAT
Body Width:
10.000 inches
MRC:
The distance between centerlines of mounting facilities parallel to the length of the item.AEBY
Distance Between Centerlines Of Mounting Facilities Parallel To Body Length:
6.750 inches
MRC:
The distance between centerlines of mounting facilities parallel to the width of the item.AEHA
Distance Between Centerlines Of Mounting Facilities Parallel To Body Width:
9.000 inches
MRC:
The national stock number or the identification information of the end equipment for which the item is a part.AGAV
End Application:
Motor ac 1.H
MRC:
The total opposition per function,presented by a source of energy to the input terminals of an item.AHAQ
Source Impedance Rating Per Function:
50.0 ohms 1st radio interference 1st function
MRC:
The total opposition per function,presented by a source of energy to the input terminals of an item.AHAQ
Source Impedance Rating Per Function:
50.0 ohms 2nd radio interference 2nd function
MRC:
The total opposition per function,presented by a load to the output terminals of an item.AHAS
Load Impedance Per Function:
50.0 ohms 1st radio interference 1st function
MRC:
The total opposition per function,presented by a load to the output terminals of an item.AHAS
Load Impedance Per Function:
50.0 ohms 2nd radio interference 2nd function
MRC:
The level of electrical flow,per function,for which the item is designed to operate,expressed in ampers.AHBC
Operating Current Rating Per Function In Amps:
14.0 1st radio interference 1st function
MRC:
The level of electrical flow,per function,for which the item is designed to operate,expressed in ampers.AHBC
Operating Current Rating Per Function In Amps:
14.0 2nd radio interference 2nd function
MRC:
Indicates the type of principal circuitry per function interconnected within the item to produce the desired frequency versus attenuation characteristics.AHBL
Principal Circuitry Type Per Function:
Inductance-capacitance 1st radio interference 1st function
MRC:
Indicates the type of principal circuitry per function interconnected within the item to produce the desired frequency versus attenuation characteristics.AHBL
Principal Circuitry Type Per Function:
Inductance-capacitance 2nd radio interference 2nd function
MRC:
Indicates the type of inclosure provided to coat,cover,protect,or encase the item.AKNA
Inclosure Type:
Encased
MRC:
Indicates the type and number of facilities by which the item is mounted.AXHR
Mounting Facility Type And Quantity:
8 unthreaded hole 1st function
MRC:
Indicates the functional type and number of terminals providing electrical connection to the item.CQDW
Functional Terminal Type And Quantity:
2 threaded stud input 1st function
MRC:
Indicates the functional type and number of terminals providing electrical connection to the item.CQDW
Functional Terminal Type And Quantity:
2 wire lead output 2nd function
MRC:
The level of electrical potential and type of current,per function,for which the item is designed.CQGC
Operating Voltage Rating And Type Per Function:
600.0 volts dc 1st radio interference 1st function
MRC:
The level of electrical potential and type of current,per function,for which the item is designed.CQGC
Operating Voltage Rating And Type Per Function:
600.0 volts dc 2nd radio interference 2nd function
MRC:
The style designation indicating the configuration that most nearly corresponds to the appearance of the item.STYL
Style Designator:
Rectangular terminal/terminals on opposite surfaces