DE1144334B - Transistor circuit for switching electrical devices, especially for protective devices - Google Patents

Description

The invention relates to a transistor circuit for switching electrical devices, in particular for Protective devices in which a switching transistor is controlled by one or more pulses.

In order to achieve reliable switching of the switching transistors, it is known that it is not enough to simply use pulses to give to the base, which block the transistor or make it conductive. Every transistor is dependent on the voltage applied between base and emitter. Is the base voltage for pnp transistors more negative than the emitter voltage, the transistor lets current through to the collector. That The control signal releases the transistor, so it must be negative in this case.

If there are no pulses, the transistor must definitely block. To achieve this, a positive bias is applied to the base. One then avoids that simply by changing the resistance a change in the transistor current as a result of the temperature voltage shifts is caused. So far, the bias voltages have either been activated by connecting a separate one Get a voltage source at the base of the transistor, or you can use an emitter resistor, the is connected to a voltage divider through which current flows continuously. This gives the Emitter has a more negative voltage than the base. However, these circuits have the disadvantage that either a separate voltage source is required or that a high power consumption in the used Voltage divider must be accepted.

It has also become known to control electronic relays by oscillators. Here is a Transistor controlled at the rate of the oscillator frequency.

It is now used to make a switching transistor conductive by means of pulses Oscillator circuits for generating the bias voltages suggested that the oscillator circuit for both Obtaining the reverse DC voltage as well as the forward DC voltage for the switching transistor used serves that one of these two DC voltages directly and the other via one Control transistor is connected to the switching transistor and that the base of the control transistor Switching signal is given.

The figure explains an embodiment. 1 is the switching transistor that, when conductive, is the Contactor switches on. The emitter is connected directly to the positive voltage P of a DC voltage source. If a negative signal reaches the base (in the case of pnp transistors), the switching transistor 1 is conductive. The base is now directly connected to the DC transistor circuit

for switching electrical devices,

especially for protective devices

Applicant:

Public company Brown, Boveri & Cie.,
Baden (Switzerland)

Representative: Dr.-Ing. E. Sommerfeld, patent attorney,
Munich 23, Dunantstr. 6th

Claimed priority:
Switzerland of February 10, 1961 (No. 1618)

Peter Harrison, Ennetbaden, Aargau (Switzerland),
has been named as the inventor

Richter 3 connected, through which a positive voltage is applied to the base. This is now not obtained from a power-consuming voltage divider or a special voltage source, but from an oscillator circuit in which an oscillation of any frequency is generated via the transistor 4 in the known oscillating circuit, which is formed by the resistors 5 and capacitors 6. This oscillation is fed to the transformer 7, which has the primary winding 27 and the two secondary windings 37, 47. After rectification in the rectifier 3, the positive half-waves of the oscillation now reach the base of the transistor and give it the necessary bias. The negative half-waves go via the rectifier 8 to the control transistor 9, to which the switching pulse is fed. In the example, this transistor is an npn transistor. If there is no signal, it blocks because there is a positive potential across the resistor 10 at the emitter. If, however, the transistor 9 becomes conductive due to a positive pulse, the negative potential of the rectifier 8 reaches the base of the switching transistor 1 via the transistor 9 and the resistors 11, 12 and opens it.

The rectifiers 13 serve as protective diodes.

With this device one gains a bias for the switching transistor, without special

309 537/345

Having to use power-consuming resistors or other voltage sources. The ones from Oscillator generated power is only a small control power, so that the transformer can be very small and the whole circuit is cheaper than the known circuits.

Claims (1)

Claim: Transistor circuit for switching electrical devices, in particular for protective devices in which a switching transistor is made conductive by pulses, but which is otherwise in the blocking state with the aid of a bias voltage, using an oscillator circuit to generate the bias voltages, characterized in that the oscillator circuit is used both for obtaining the Blocking direct voltage as well as the forward direct voltage for the switching transistor used serves that one of these two direct voltages is connected directly to the switching transistor and the other via a control transistor and that the switching signal is given to the base of the control transistor. Considered publications:
German Auslegeschrift No. 1078 613;
U.S. Patent No. 2,866,909. 1 sheet of drawings ® 309 537/345 2.