SU1176426A1 - Circuit for controlling conduction phase of switchingtype transistor in mains supply equipment - Google Patents

Abstract

1. PHASE DIAGRAM OF CONDUCTION IN APPARATUS switching transistor MAINS to the control winding resistance included in series in the emitter circuit of the switching transistor and the control transistor, characterized in that the control transistor 4 included additional transistor structure relative to the switching transistor 1 connected by a collector with the zero point of the control winding 3, in the base circuit of the switching transistor, with an emitter through resistance 5 - with an emitter n The switching transistor 1, by its base, is connected to the output terminal 2, connected to the input supply terminal, and between the collector and the base of the control transistor 4 is connected resistance 6. 2. Circuit pp, 1 is different from the fact that diode 7 is turned on (L direction is locked with respect to the base current of the control transistor 4 between its base and the aforementioned input power supply and is ground by the capacitor 8.

Description

The invention relates to a circuit for controlling the conductivity phase of switching transistors in power supply devices and finds priming in power supply devices of electronic devices, for example, in television receivers. The power supply devices (German patent No. 2160659, class H 02 P 13/22, 19 and the accepted German application No. 233611 class H 02 P 13/22, 1976) contain a well-known scheme for controlling the conduction phase of a switching transistor, in which The base current required to control the switching transistor to a conducting state is taken from the control winding made in the form of a feedback winding and is limited by the additional resistance. The necessary periodic locking of the switching transistor is achieved by a locking device, which creates a base current of the opposite direction for entering the locking phase. Through the resistance provided in the emitter circuit of the switching transistor, a voltage proportional to the output current of the switching transistor is created and used with the control device to act on. the starting point of the phase is locked, with the result that the output voltage is stabilized. The disadvantage of this circuit is that due to a change in the input supply voltage, the base current of the switching transistor changes in inverse proportion to the change in the collector current. Since the switching transistor under all tolerance conditions must be controlled in the saturation state, taking into account the accumulation time of the switching transistor, this adversely affects the control properties of the mains supply device. This disadvantage can only be limited in part by the high demands placed on the switching transistor with respect to accumulation time and current gain. Another well-known circuit for controlling the base current of switching transistors in mains power supply devices is described in the German FG 12L6097 accepted application. CL, 21 d, 25.1965, in which, using a limiting resistance made in the form of a control transistor, for the base current during the conduction phase, a step change in the base current is made depending on the input voltage. The base current for the control transistor is created in separate switching stages. Further, this control transistor can be used together with the control device to also stabilize the output voltage, limiting, respectively, the collector current of the switching transistor by outputting from our own. The disadvantages of this solution are that, with respect to the input-voltage-dependent control of the base of the switching transistor, they require high costs and are not applicable to mains supply devices with high input voltages because of a switching transistor out of saturation of the switching transistor, since it is impossible to avoid overloading power switching transistor. The aim of the invention is to improve the control properties of the power supply devices and reduce the time requirements for accumulation and the current gain of the switching transistor. The invention is based on the task of performing a circuit for controlling the conduction phase of a switching transistor in network devices with a control winding and a control transistor in the emitter circuit of the switching transistor so as to achieve control of the base current proportional to the collector current and minimally To negatively influence the accumulation time of the switching transistor on the control properties of the power supply device. In accordance with the invention, this is achieved by switching on a transistor with opposite conductivity (transistor of complementary structure) relative to a switching transistor, the collector of which is connected to the zero point of the control winding, and the emitter of which is through resistance

Claims (2)

1. CONTROL PHASE CONTROL SCHEME OF THE SWITCHING TRANSISTOR IN POWER SUPPLY INSTRUMENTS with a control winding, a resistance connected in series in the emitter circuit of a switching transistor and a control transistor, characterized in that as a control transistor 4 there is a transistor 1 connected with an additional structure transistor 1 with respect to with a zero point of the control winding 3, in the base circuit of the switching transistor, by the emitter through resistance 5 - with the emitter switching transistor 1, with its base - with a resistance terminal 2 connected to the input supply terminal, and resistance 6 is connected between the collector and the base of the control transistor 4. 2. The circuit according to claim 1, characterized in that the diode 7 is turned on in the direction of locking relative to the base current of the control transistor 4 between its base and said input supply terminal and is shunted by the capacitor 8.