SU1201984A1 - Pulsed d.c.voltage regulator - Google Patents

Abstract

PULSE CONSTANT VOLTAGE REGULATOR, containing the first transistor, the first and second diodes, the filter choke and the first additional choke, connected in a three-pole circuit, the first power output of the first transistor connected to the first power output of the regulator, the first output of the first diode is connected to the second power output of the regulator torus, the second power output of the transistor is connected to the first output of the first additional drossel, the second output connected to the first output of the throttle filter, the second output connected to the third power output of the regulator, and the control input of the first transistor is connected to the first control input of the regulator, characterized in that, in order to increase efficiency by reducing the dynamic switching loss, it is equipped with a second transistor and a second additional choke, the first power output The second transistor is connected to the first power output of the first transistor, the second power output of the transistor is connected through the second additional choke to the first output of the filter droop, and the control output from the second th control input of the regulator, the first terminal of the second diode is connected to the second power terminal of the regulator, and the second terminals of the first and second diodes are connected to the second power terminal of the first and second transistors, respectively.

Description

The invention relates to the power sources of radio engineering devices, in particular, the conversion of a constant voltage to a constant. The aim of the invention is to increase the efficiency by reducing the dynamic switching loss. Figure 1 shows a diagram of a push-pull pulse controller; Fig. 2 shows a pulse-voltage regulating circuit with decreasing voltage; in fig. 3 is a diagram of a pulse regulator with voltage inversion; in fig. 4 is a diagram of a pulse voltage regulator. The pulse regulator with voltage reduction (Fig. 2) contains the first 1 and second 2 transistors, the first 3 and second 4 diodes, the filter choke 5, the first 6 and second 7 additional chokes connected in a three-pole circuit, which has the first 8, The second 9 and third 10 drivers are the power ones and the first I1 and second 12 conclusions are controlling. In the initial state, the first transistor 1 and the first diode 3 are closed, the current through the first additional 42 choke 6 does not flow. The load current flows through the second DIODE 4, the second additional choke 7 and the choke 5 of the filter. When the transistor 1 is turned on, a rise is made from the current zero through the first choke 6, and at the connection point of the chokes 5-7, a potential is established due to the division of the supply voltage. This potential reduces the current through the second diode 4 and choke 7. When this current reaches zero, the second diode 4 closes and the load current flows through the chokes 6 and 5. When the first transistor 1 turns off, the load current closes through the first diode 3, chokes 5 and 6 .. When the second transistor 2 is turned on, the current through the second inductor 7 rises from zero, the potential at the connection point of the chokes 5-7 reduces the current through the inductor 6 and the diode 3 to zero. When the second transistor 2 turns off, the load current closes through the second diode 4, inductors 7 and 5 pulse work regulators with inverting and increasing voltage are similar.

Fig

Claims (1)

PULSE DC REGULATOR, comprising a first transistor, first and second diodes, a filter choke and a first additional choke connected in a three-terminal circuit, the first power output of the first transistor connected to the first power output of the regulator, the first output of the first diode to the second power output of the regulator, the second power terminal of the transistor is connected to the first terminal of the first additional inductor, the second terminal connected to the first terminal of the filter inductor, the second terminal connected to a third the power output of the regulator, and the control input of the first transistor is connected to the first control input of the regulator, characterized in that, in order to increase the efficiency by reducing dynamic switching losses, it is equipped with a second transistor and a second additional inductor, the first power output of the second transistor is connected to the first the power output of the first transistor, the second power output of the transistor _{e is} connected through a second auxiliary choke with the first output of the filter choke, and the control output with the second control the input of the controller, and the first output of the second diode is connected to the second power output of the controller, and the second conclusions of the first and second diodes are connected to the second power output of the first and second transistors, respectively. SU .... 1201984> throttle 6 does not leak. The load current flows through the second diode 4, the second additional choke 7 and filter choke 5. When 5 of transistor 1 is turned on, the current rises from zero through the first inductor 6, and at the point of connection of the inductors 5-7 a potential is established due to the division of the voltage of the power supply • 0. This potential reduces the current through the second diode 4 and inductor 7. When this current reaches zero, the second diode 4 closes, and the load current flows through 15 reactors 6 and 5. When the first transistor 1 turns off, the load current closes through the first diode 3, reactors 5 and 6 .. When you turn on the second transistor 2, the current through the second 20, the inductor 7 rises from zero, the potential at the point of connection of the reactors 5-7 reduces to zero the current through the inductor 6 and diode 3 "When the second transistor 2 is turned off, the load current 25 closes through the second diode 4, the reactors 7 and 5. The operation of pulse regulators with inverting and increasing voltage is similar.