The Isabellenhutte an 0.0015Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a componen...
The Isabellenhutte an 0.1Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component t...
The Isabellenhutte an 0.01Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component ...
The Isabellenhutte an 0.015Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
The Isabellenhutte an 0.001Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
The Isabellenhutte an 1Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component tha...
The Isabellenhutte an 0.0022Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a componen...
The Isabellenhutte an 0.2Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component t...
The Isabellenhutte an 0.020Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
The Isabellenhutte an 0.022Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
The Isabellenhutte an 0.025Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
The Isabellenhutte an 0.0033Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a componen...
The Isabellenhutte an 0.033Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
The Isabellenhutte an 0.0047Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a componen...
The Isabellenhutte an 0.047Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
The Isabellenhutte an 0.5Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component t...
The Isabellenhutte an 0.0005Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a componen...
The Isabellenhutte an 0.050Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
The Isabellenhutte an 0.068Ω resistor from the PBV Series. Housed in a 4-pin case suitable for PCB mounting this resistor has been especially designed for use at low resistances, giving a component...
As there is a maximum temperature to which the wire can rise during an overload, if the resistor is already dissipating heat, then the pulse energy applied should be less than that allowed by the g...
As there is a maximum temperature to which the wire can rise during an overload, if the resistor is already dissipating heat, then the pulse energy applied should be less than that allowed by the g...
As there is a maximum temperature to which the wire can rise during an overload, if the resistor is already dissipating heat, then the pulse energy applied should be less than that allowed by the g...
As there is a maximum temperature to which the wire can rise during an overload, if the resistor is already dissipating heat, then the pulse energy applied should be less than that allowed by the g...
As there is a maximum temperature to which the wire can rise during an overload, if the resistor is already dissipating heat, then the pulse energy applied should be less than that allowed by the g...
As there is a maximum temperature to which the wire can rise during an overload, if the resistor is already dissipating heat, then the pulse energy applied should be less than that allowed by the g...