SU1008870A1 - Transistorized inverter - Google Patents

Abstract

A TRANSISTOR INVERTER containing series-connected power transistors in the circuits (whose controls include preamplifiers connected by an optocoupler with an input of a control signal, which, in order to improve efficiency by eliminating the through-current mode, reliability and expansion of functionality by expanding the range of operating frequencies, additional transistors are introduced, connected to the control of the transition of power transistors, to the bae; Res base resistors additional transistors and additional optocouplers, which are incorporated -svetodiody header additional circuit (L-negative transistors, and each additional photodiode in series with the optocoupler. photodiode of optocoupler another power transistor. 00 EO

Description

The invention relates to a conversion technique, in particular to secondary power sources, and can be used in automation systems to convert DC voltage to AC. A static converter is known, which contains an additional transformer in the transistor control circuit wound on a core with a rectangular hysteresis loop and ensures the elimination of through currents by a fixed delay for switching on the transistor ij. The need to turn on the transformer for each inverter switch and the immutability of the fixed delay when changing the operation mode reduces the manufacturability, reduces the efficiency and degrades the weight and size characteristics of the converter. A transistor inverter containing a control unit with a transformer output is known, the power transistors of a push-pull power amplifier and two auxiliary transformers, the emitter-junction transitions of power transistors are shunted by the windings of the auxiliary transformers with diodes, connected in the forward direction, the other windings of the auxiliary transformers are connected to resistors through windings 23. The disadvantages of this device are the presence of auxiliary transformers, reducing technologies. device accuracy and additional losses in the power transistors control circuits. In addition, the presence of transformers does not allow a wide range of variations in the operating frequency of the converter. Closest to the inventive inverter, containing series-connected power transistors, the control circuits of which include preamplifiers, the input connected via a optocoupler with a source of control signal, a current sensor connected to the load circuit and a threshold device whose input is connected to the sensor current and output to the logic block. The disadvantages of the known device are low efficiency and reliability due to the fact that the current sensor is included in the load circuit, which also does not allow ing into modes with a high frequency switching transistors. In addition, the presence of a threshold device and a logic block complicates the device. The purpose of the invention is to increase efficiency and reliability by directly monitoring the state of the power transistors of the inverter rack as they switch and extending the functionality as a result of expanding the operating frequency range of the inverter. The goal is achieved by the fact that a transistor inverter containing series-connected power transistors, the control circuits of which include preamplifiers, input connected through an optocoupler to a control signal source, introduced additional transistors connected to the control transition of the power transistors, to the bases of which are connected base resistors of additional transistors, and additional optocouplers, the LEDs of which are included in the collector circuit of additional transistors, and The photodiode of each additional optocoupler is in series with the photodiode of the indicated optocoupler of another power transistor. The drawing shows the layout of the inverter rack. The inverter rack contains power transistors 1 and 2, controlled through preamplifiers 3, 4 and optocouplers 5.6 from control signals, additional transistors 7 and 8, whose bases through resistors 9 and 10 are connected to the bases of power transistors 1 and 2, and Optocouplers 11 and 12, the LEDs of which are included in the additional collector circuits, transistors 7 and 8, respectively., The successively connected photodiodes of the optocouplers 11 and b are connected to the preamplifier 4, and the series-connected photodiodes of the optocouplers 12 and 5 - to ritelny amplifier 3. Inverter .rabotaet follows. When a signal arrives at the optocoupler 5 (b) to open the power transistor 1- (2, this signal will not reach the pre-amplifier (4) until the optocoupler 12 (11) included in the collector circuit of transistor 8 is switched on ( 7). Transistors 7 and 8 operate in a key mode. The moment of switching on transistor 8 (7J is determined by the end of the dissipation of charge in the base of power transistor 2 (1). Thus, transistor 1 (2) does not open. Until the transistor is fully closed 2 (l). The introduction of such an automatic cross

31008870 "

connection, it is possible to increase efficiency and reliability. Using the invention, the improvement, completely eliminating the end-to-end, saves weight and size parameters

switching currents in a wide device, and also broadens the frequency pre-range. frequency conversion options.

Claims (1)

A transistor inverter containing serially connected power transistors, in the control circuit I of which are included pre-amplifiers, connected via optocouplers with an input source of a control signal, characterized in that; that, in order to increase efficiency by eliminating the through-current mode, reliability and expanding functionality by expanding the operating frequency range, additional transistors connected to the control transition of power transistors are introduced, to the bases of which are connected through resistors of the base of additional transistors, and additional optocouplers, LEDs which are included in the collector circuits of additional transistors, and the photodiode of each additional optocoupler in series with the photodiode of the other power optocoupler transistor.