TXT
묘사:
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:
2.064 inches
MRC:
A measurement taken at right angles to the length of the mounting slot,in distinction from thickness.ABTD
Mounting Slot Width:
0.188 inches
MRC:
A measurement of the longest dimension of the body,in distinction from width.ADAQ
Body Length:
2.000 inches
MRC:
The length of a straight line which passes through the center of the body,and terminates at the outside circumference.ADAR
Body Outside Diameter:
1.000 inches
MRC:
The minimum and maximum limits of temperature at which the item is rated for operation.AFGA
Operating Tempurature Range:
-55.0/+85.0 degrees celsius
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 blank
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 blank
MRC:
The cycles per second /hertz/ of the power line alternating current.AHBB
Power Line Frequency Rating Per Function In Hertz:
60.0 blank
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:
3.0 blank
MRC:
The greatest amount of voltage loss per function,resulting from the devices inherent opposition to the flow of electrical current.AHBE
Maximum Voltage Drop Per Function:
2.2 volts screw on tube not specified and 6.0 volts 23rd band suppression not specified
MRC:
The greatest amount of voltage loss per function,resulting from the devices inherent opposition to the flow of electrical current.AHBE
Maximum Voltage Drop Per Function:
2.2 volts screw on tube not specified and 6.0 volts dc blank
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 blank
MRC:
The maximum permissible temperature increase in the item as a result of its operation under normal conditions.AHCG
Maximum Tempurature Rise:
25.0 degrees celsius
MRC:
The value of the average amount of electrical energy per function,which the item may pass or dissipate in continuous operation without degradation of physical or electrical characteristics.AHCH
Average Power Rating Per Function:
12.0 watts blank
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:
1 slot
MRC:
Indicates the functional type and number of terminals providing electrical connection to the item.CQDW
Functional Terminal Type And Quantity:
1 wire lead output 2nd function
MRC:
Indicates the functional type and number of terminals providing electrical connection to the item.CQDW
Functional Terminal Type And Quantity:
1 wire lead input 1st function
MRC:
The maximum alternating current root mean square voltage that the insulating material/s/ of the item will withstand without resulting in disruptive discharge or deterioration.CQDZ
Maximum Dielectric Withstanding Ac Rms Voltage:
440.0 volts at sea level
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:
220.0 volts ac blank and 600.0 volts dc blank
MRC:
The chemical compound or mechanical mixture properties of which the body is fabricated.CQRG
Body Material:
Metal
MRC:
The maximum direct current voltage that the insulating material/s/ of the item will withstand without resulting in disruptive discharge or deterioration.CRDC
Maximum Dielectric Withstanding Dc Voltage:
1.2 kilovolts at sea level
MRC:
The style designation indicating the configuration that most nearly corresponds to the appearance of the item.STYL
Style Designator:
Round terminal/terminals on opposite surfaces