SU1603505A1 - Variable a.c. to d.c. voltage converter - Google Patents

Abstract

The invention relates to a converter technique and can be used in control and regulation systems, key amplifiers and voltage stabilizers. The purpose of the invention is to expand the range of control of the load current and increase speed, as well as increase reliability and efficiency. In the converter, the power transistor switch 3 is made of two transistors 4 and 15 of different types of conductivity and a diode 14 is connected between their collectors with imposing charge and abrupt restoration of the reverse resistance, which eliminates the additional power source for diode 14, which is significant for high power loads . 2 hp f-ly, 2 ill.

Description

Figure 2 Compiled by V. Gorokhov

Editor A. Makovska Tehred M. Didyk

Order 3392

Circulation 500

VNSHGI State Committee on the Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113033, Moscow, Zh-35, 4/5 Raushsk nab.

 Proofreader T. Paly

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Claims (3)

Claim 1. A controlled AC to DC converter containing a rectifier with input terminals and a capacitor filter at its output, a power transistor switch containing a first pnp type transistor connected by a base through the first capacitor to the first output of a pulse-width control unit a modulator and a first one, a power source, output terminals, one of which is connected to the positive terminal of the rectifier, and the other is formed by one of the terminals of the inductor, while between the base of the first collector of the first trans stories included diode nakrpleniem charge facing the cathode to the collector, the emitter of the first transistor connected to the negative rectifier vodom • You are a ,, and the output terminals are shunted by a reverse diode .tem characterized in that, in order to expand the range regula tion load current. To increase speed / and also to increase reliability and efficiency, the power transistor switch additionally contains a second pnp type transistor connected by an emitter to another inductance terminal, a collector to the anode, and a base to the diode cathode with charge accumulation through the first additional diode facing the base of the second transistor, the anode of the diode with the accumulation of charge connected to the base of the first transistor through a second additional diode connected by the cathode to the base of the first transistor, and the control unit contains a second power source and two nodes for generating bipolar pulses, each connected to its own power source, the first and second sources being made with a midpoint, the output of the first node for generating bipolar pulses is connected to the base of the first transistor through a third additional diode connected by the anode to the base, turned on parallel to the first capacitor, the output of the second bipolar pulse generating unit is connected to the base of the second transistor through a fourth additional diode connected by the cathode to the base Connected in parallel with the second capacitor, and the inputs of the first and second forming units 25 are connected to first and second outputs of the pulse width modulator, at the midpoint of the first power source unit ♦ control connected to the emitter. 40 of the first transistor, and the midpoint of the second power source of the control unit is connected to the emitter of the transistor. 2 .. The converter according to claim 1, about 45, characterized in that each bipolar pulse generating unit is made in the form of two transistors of different conductivity types, the emitters of which are combined and are 50 output node, the collectors of these transistors are connected to the poles of their power source, and the base is connected to the first and second outputs of the pulse-width modulator. 3. The converter according to claim 2, characterized in that the bases of the transistors of each bipolar pulse generating unit are combined, and photodiodes optically connected to the corresponding LED are connected between the point of their connection and the collector of each transistor of the node; than the LEDs belonging to the collector – base circuit of different types of transformers of the first and second nodes of the formation of bipolar pulses · are interconnected and connected to ·: -. · the first and second outputs of the pulse-width modulator, respectively. Pulses at the first output of modulator 6 pulses at the second (inverse) output of modulator 6 The voltage at the output of the node 20 relative to the emitter of the transistor 4 Voltage based on transistor 4 relative to its emitter The voltage at the output of the node 21 relative to the emitter of the transistor The voltage at the base of transistor 15 relative to its emitter The voltage at the collector of transistor 4 relative to its emitter <t delay = t resorption of the diode Z4 _u t delay = Voltage at £ resorption collector diode tran- _t M eistora 15 The relative * ~~ ** in relative its ____ emitter ___J FIG. 2