SU989707A1 - Self-exciting dc voltage converter with parametric stabilization of output voltage - Google Patents

Description

It is connected to the output terminals via a rectifier with a capacitive filter t. The disadvantage of this converter is the low efficiency due to the loss of energy associated with its return and unilateral magnetisation of the core at idle, as well as inefficiency when operating at a partial load. The purpose of the invention is to increase efficiency when operating at partial loads. The goal is achieved by the fact that in a self-driving DC-voltage converter containing a transformer, the primary winding of which is connected to the input terminals — through a power junction of the transistor, the control junction of which through a resistor is connected to the winding of the reverse (z, while the voltage limiting winding of the connection on with the input pins through the node of the limitation, the specified node of the limiting unit is made on an additional transistor, through the – force transition of which the limiting winding is connected to the input to the terminals, with this control junction of this transistor through the limiting resistor and thyristor connected to the second winding of the feedback, and the control circuit of the thyristor connected to the voltage divider, the conclusions of which through the Zener diode are connected to the specified second winding of the feedback. schematic diagram of the proposed converter.The converter contains an autogenitor assembled on the power transistor 1 and a transformer 2 with five windings: primary 3, secondary k, feedback first 5, limited voltage 6, and feedback the second 7. Transistor 8 serves to limit the voltage across the load. Zener diode 9 is used to monitor the output voltage level and supply a control pulse to the thyristor Er. The resistances (voltage divider) P and 12 are used to adjust the output voltage of the converter 13 — to ensure the operating mode of the transistor 8 in the case when the thyristor is turned off. The resistance W limits the current in the base circuit of the auxiliary transistor 8. Energy is supplied from the power source, and is delivered through the rectifier 4 4 to 15 the load connected to the output terminals shunted by a capacitor 16.. The converter works as follows. Consider one cycle of the converter. After the source is connected, transistor 1 opens and energy begins to accumulate in the transformer. When the collector current of the transistor rises to the magnitude causing its output to linear mode, the transistor closes. An emf of self-induction appears, the polarity of which is opposite to the former in all windings. Therefore, the winding 5 holds the transistor 1 in the closed state, the winding k transfers energy to the capacitor 16 and to the load, the winding 7 through the zener diode 9 and the voltage divider 11-12 delivers a control pulse to the thyristor 10. winding 7 does not reach the control voltage level, the zener diode 9, the thyristor 10 and the transistor 8 are closed. After reaching the control voltage level, the Zener diode 9 thyristor 10 and transistor 8 open. In the on state, it is maintained by the second feedback winding 7. In this case, the voltage on all windings is limited at a level that specifies the magnitude of the power supply voltage. Since at this moment the voltage across the winding k is lower than the voltage across the capacitor, the converter starts to operate in idle mode. This state is maintained until the collector current of the auxiliary transistor 8 rises to the value causing its output to linear mode. Then, the transistor 8 is closed. At this time, transistor 1 opens and the cycle repeats. Thus, at full load, the converter works as a single-stroke one; in idle mode, it is push-pull. At partial loads, in both modes, however, the single-cycle mode is the main one. The described converter, compared with the case when an energy return valve is used to stabilize the voltage, works more economically. This is due to the fact that there are no energy losses associated with its return and

Claims (1)

Claim A self-excited DC-DC converter with parametric stabilization of the output voltage, comprising a transformer, the primary winding of which is connected to the input terminals through the power transistor transition, the control transition of which through the resistor is connected to the feedback winding, while the voltage limiting winding is connected to the input terminals through the limiting node, and the output winding is connected to the output terminals through a rectifier with a capacitive filter, the transition of this transistor through the limit flax resistor and thyristor connected to the second feedback winding svya communication, and a thyristor control ^{circuit, 5} key to a voltage divider, across the terminals of which a zener Con • cheny to said second feedback winding of the transformer.