SU782094A1 - Voltage converter - Google Patents

Description

(54) VOLTAGE CONVERTER

The invention relates to radio engineering and can be used in automation and computer technology. A voltage converter is known that contains two oppositely connected diodes, a resistor and two transistors, a transformer whose primary winding is connected between the potential power supply bus and KOJ transistor transceivers, which are connected to the common bus, and the base to the first terminals of the diodes, the base one of the transistors connected to the first output of the secondary winding of the transformer 1. However, this voltage converter has a low efficiency. The purpose of the invention is to increase the efficiency of the voltage converter. The goal is achieved by the fact that the converter contains two oppositely connected diodes, a resistor and two transistors, a transformer whose primary winding is connected between the potential power source machine and the collectors of the transistors, the emitters of which are connected to the common bus and the bases to the first terminals diodes, with the base of one of the transistors connected to the first output of the transformer secondary winding, a capacitor connected between the base of the other transistor and the second output of the secondary winding is introduced the second resistor, the collector of which is connected to the second terminals of the diodes, between the base of the third transistor and. a common resistor includes a first resistor, and a second resistor between the eglitter and the potential power supply bus. The drawing shows a circuit diagram of a voltage converter. The voltage converter contains diodes 1 and 2, a resistor 3, transistors 4. and 5, a transformer 6, the primary winding 7 of which is connected between the power line 8 of the power supply and the collectors of transistors 4 and 5, the emitters of which are connected to the common bus 9, and the bases, respectively, with the first terminals of diodes 1 and 2. The base of the transistor 5 is connected to one output of the secondary winding 10 of the transistor. b.

782094

A capacitor 11 is connected to the converter, connected between the second circuit of the winding 10 of the transformer 6 and the base of the transistor 4; The third transistor 12 and the second resistor 13 are also inserted in the converter. The transistor 12 has a coil connected to the second terminals of diodes 1 and 2. The first resistor 3 is connected between base T | 5 resistor 12 and common bus 9, and the second resistor 13 intersects 12 and potengitichnoy bus 8 istchch: nickname power.

 Dimension 14 is a winding converter.

The voltage converter operates as follows.

After supplying the supply voltage to busbars 8 and 9 on the resistor 3, voltage is applied / is an offset to transistors 4 and 5, which ensures automatic start of the circuit. One of the transistors, for example 4, begins to open, and a voltage is induced on the winding 10 that causes current to flow through the circuit: winding 10, capacitor 11, base-junction transition of transistor 4, diode 2, transistor 12. At the same time, The capacitor 11 is constant, the current set by the variable resistor 13 and the transistor 12 connected in accordance with the common base circuit. The transistor 12 provides power to the transistors 4 and 5 with rectangular current pulses, as a result of which switching losses are reduced and the efficiency of the voltage converter increases, t

When the capacitor 11 is charged to a voltage equal to the voltage across the base winding 10, the base current of the transistor 4 decreases to zero, and the transistor 4 closes. The voltage across the winding 10 changes the polarity: and the process repeats.

The pulse frequency of the voltage converter is proportional to the collector current of the transistor 12 and can be controlled by the variable resistor 13.

The output pulses are removed from the output winding 14,

Claims (1)

1. A. A. Zhuravlev, K. B. Mazel. Constant voltage transistors on transistors. M., Energie, 1974, p. 17, fig. 14 (prototype).