SU847472A1 - Two-cycle adjustable inverter - Google Patents

Description

The invention relates to electrical engineering and can be used in energy conversion systems, in particular in power supply devices for electronic or other equipment, in electric drives, in control and automation systems. The circuits of single-ended adjustable inverters are known, in which an additional transistor 1 and 2 is used to ensure the operation of the transformer in a symmetrical cycle. The disadvantage of these devices is that the energy is transferred to the load only in one cycle, which reduces the efficiency of using magnetic elements. The closest to the technical essence of the invention is a push-pull adjustable inverter containing two power switches, parallel to the output circuits of which are included the first shunt diodes, a transformer with a weakened magnetic coupling between the primary and load windings, and also the node for locking the power switches 3). The disadvantages of the known inverter are the complexity and unjustified power losses in the control circuits of power switches. The purpose of the invention is to simplify the device, reducing the dynamic losses in the power switches. The goal is achieved by the fact that the push-pull adjustable inverter is made according to a transformer oscillator circuit with a positive feedback winding, and its outputs are connected to the control electrodes of the power switches through circuits made of three parallel branches, of which the first and second are respectively a resistor and the first diode, and the third - are successively connected capacitor rt the second diode, and their common point through the third diode is connected to the power bus of the device to lock the power switches, and in parallel the input circuits of the power switches included second shunt diodes. The drawing shows the scheme of the inverter. The circuit contains controllable power switches 1 and 2, diodes 3 and 4, shunting output circuits of power switches 1 and 2, diodes 5 and 6, shunting input circuits of power switches 1 and 2, transformer 7 with secondary winding 8, primary windings 9 and 10, the positive feedback winding 11, the node 12 locks the power switches 1 and 2, the circuits 13 and 14 with asymmetrical conductivity, moreover, each circuit contains a resistor. 15 (16), diode Bbrti diode 17 (18), second diode 19 (20) capacitor 21 (22) and third diode 23 (, 24), busbars 25 and 26 of the inverter power supply bus 27 of the node 12 of locking, the input signal bus 28, generation drive circuit 29. The output circuit of the power switch (transistor) 1 (2) is shunted by a diode 3 (4) and through the primary winding 9 (10 transformer 7 is connected between supply buses 25 and 26. The input circuits of transistors 1 and 2 are shunted by diodes 5 and b, K of the secondary The winding 8 is connected via a rectifier. The winding pins 11 of the positive feedback are connected to the bases of the power transistors 1 and 2 through circuits 13 and 14 with asymmetrical conductivity, each circuit being formed by three parallel branches in the form of a resistor 15 (16) of the first diode 17 (18) and serial diode-conden Attorney circuit containing the second diode 19 (20) and capacitor 21 (22), and the middle point of each capacitor-diode circuit through the third diode 23 (2-;), -, „,„ „10 is connected to bus 27 of node 1 / lock The output circuits of this device are connected in parallel to the input circuits of the power transistors 1 and 2, and the input of the device 12 is connected to the control signal bus 28. The inverter operates as follows to initiate generation using the starting circuit 29 displacement, load currents, and power keys increase at each stroke smoothly about. Smooth increase in currents caused by intentional 8

Claims (1)

Invention Formula A two-stroke adjustable inverter containing two power switches, parallel to the weakened magnetic coupling between the primary and the load windings. If the limiting of the base current of the transistor to provide a limitation of the collector current, the amplitude of the current on the primary and secondary sides of the transformer will be given. In this case, the device, in relation to the aggregate of loads on the secondary side, acts as a current source. The threshold value for limiting the currents of the power switches is set by selecting the value of the resistors 15 and 16. This is due to the fact that in the first cycle the base current of the first transistor I closes through elements 6-18-11-15, and in the second cycle the base current of the second transistor 2 closes elements 5-17-11-16. By selecting the resistance values of the resistors 15 and 16, the amplitude of the collector currents are set to the same when the circuit is tuned. Since the circuit behaves as a current source with respect to the loads on the secondary side, the energy in these loads is regulated by periodic excitation and generation failure in the inverter. Generation failure is performed by applying a control signal to the locking node bus 28. In this case, with the help of diodes 19, 23, 20, 24, an economical pulsed mode of power supply to the node 12 is provided. After locking the power keys, the power consumption of node 12 is significantly reduced. Capacitors 21 and 22 energize the locking device for a time sufficient to sustain the locking process. The advantages of the proposed device are precisely that it is simpler, since there is no need to use a current sensor, a comparator, a power supply, a computer communication circuit with a locking device of the L1X keys. In addition, there is less power loss in it, since the value of the winding current of the positive feedback is set at the level necessary to ensure the required output current (according to load capacity ™).