The present invention introduces an arrangement for enhancing the performance of an electronic circuit comprising a phototransistor (Q). Either a common-collector or a common-emitter connected phototransistor (Q) has a main resistor (R.sub.L), and at least one external bias resistors (R.sub.L2, R.sub.L3, R.sub.L4), each in parallel to one another. The microcontroller may directly control the voltage outputs or act via respective switches (S1, S2) regarding each respective resistor. When the electronic circuit with the phototransistor (Q) is switched on, at least one of the external bias resistors (R.sub.L2, R.sub.L3, R.sub.L4) are switched on. The voltage output rise time is short, and when the bias has been set, the external bias resistor(s) are disconnected functionally. This means that during the actual measurement with the electric circuit, only the main resistor (R.sub.L) is used in the connection.

A power electronic module (2) includes at least one semiconductor switch (4) and a gate-source control unit. The gate-source control unit includes an asymmetric transient voltage suppressor (TVS) diode (8) or two Zener diodes (10, 10) or one or more avalanche diodes arranged between the gate terminal (G) and the source terminal (S) of the semiconductor switch (4).

The present invention introduces an arrangement for enhancing the performance of an electronic circuit comprising a phototransistor (Q). Either a common-collector or a common-emitter connected phototransistor (Q) has a main resistor (R.sub.L), and at least one external bias resistors (R.sub.L2, R.sub.L3, R.sub.L4), each in parallel to one another. The microcontroller may directly control the voltage outputs or act via respective switches (S1, S2) regarding each respective resistor. When the electronic circuit with the phototransistor (Q) is switched on, at least one of the external bias resistors (R.sub.L2, R.sub.L3, R.sub.L4) are switched on. The voltage output rise time is short, and when the bias has been set, the external bias resistor(s) are disconnected functionally. This means that during the actual measurement with the electric circuit, only the main resistor (R.sub.L) is used in the connection.

Operating a PNP double-sided double-base bipolar junction transistor (DSDB BJT). One example is a method of operating a DSDB-BJT, the method comprising: conducting a first load current from an upper terminal of the power module to an upper base of the transistor, through the transistor, and from a lower base to a lower terminal of the power module; and then responsive assertion of a first interrupt signal interrupting the first load current from the lower base to the lower terminal by opening a lower-main FET and commutating a first shutoff current through a lower collector-emitter of the transistor to the lower terminal; and blocking current from the upper terminal to the lower terminal by the transistor.