F21062
Filters and Networks
FILTER,RADIO FREQUENCY INTERFERENCE
F21062
FILTER,RADIO FREQUENCY INTERFERENCE
ACT NOW! SUBMIT A QUICK QUOTE.
Technical Characteristics
-
Power Line Frequency Rating Per Function In Hertz
400.0 2nd radio interference
-
Operating Temp Range
-0.0/+50.0 deg celsius
-
Operating Current Rating Per Function In Amps
0.75 1st radio interference
-
Maximum Voltage Drop Per Function
1.5 volts ac 2nd radio interference
-
Load Impedance Per Function
50.0 ohms 2nd radio interference
-
Body Surface Treatment
tin
-
Operating Current Rating Per Function In Amps
0.75 2nd radio interference
-
Operating Voltage Rating And Type Per Function
115.0 volts ac 1st radio interference 1st function
-
Body Material
metal
-
Principal Circuitry Type Per Function
inductance-capacitance 2nd radio interference
-
Functional Terminal Type And Quantity
2 wire lead output 2nd function
-
Overall Length
2.770 inches maximum
-
Body Width
1.770 inches maximum
-
Style Designator
rectangular terminal/terminals on opposite surfaces
-
Source Impedance Rating Per Function
50.0 ohms 1st radio interference
-
Operating Voltage Rating And Type Per Function
115.0 volts ac 2nd radio interference 2nd function
-
Mounting Facility Type And Quantity
2 unthreaded hole
-
Body Length
2.070 inches maximum
-
Unthreaded Mounting Hole Diameter
0.188 inches nominal
-
Source Impedance Rating Per Function
50.0 ohms 2nd radio interference
-
Unpackaged Unit Weight
8.000 ounces
-
Vibration Resistance Range In Hertz
+1.0/+25.0
-
Body Height
1.150 inches maximum
-
Load Impedance Per Function
50.0 ohms 1st radio interference
-
Maximum Voltage Drop Per Function
1.5 volts ac 1st radio interference
-
Functional Terminal Type And Quantity
2 pin input 1st function
-
Power Line Frequency Rating Per Function In Hertz
400.0 1st radio interference
-
Distance Between Centerlines Of Mounting Facilities Parallel To Body Length
2.390 inches nominal
-
Principal Circuitry Type Per Function
inductance-capacitance 1st radio interference
-
Inclosure Type
encased
-
Maximum Temp Rise
10.0 deg celsius