SU1023593A1 - Inverter - Google Patents

Abstract

INVERTER, content output transformer, commutating choke, winding through di-; : odes are located between the collectors of the power transistors, and the middle point of the indicated winding is connected to the power input of the inverter, a positive circuit, via the frequency setting unit. feedback, distinguished by the fact that, in order to expand the frequency tuning range, control the transition of each power transtor by a shunt and phototransistor of the corresponding optocoupler, the radiator of which is one of these diodes, connected with this power transistor, and the positive reverse circuit The connections are connected to a high voltage transformer. V if-

Description

The invention relates to converting electrical engineering and can be used in secondary power sources.

A known inverter in which a switching choke £ 1 is used as a frequency setting element ‘.

The disadvantage of this inverter is the limited frequency control range. YU

Closest to the invention is an inverter containing an output transformer, a switching inductor, the winding of which through diodes is connected between the collectors of power 15 transistors, and the midpoint of this winding through the frequency setting unit is connected to the power input of the inverter, positive feedback circuit | -2]. 20

Disadvantage! ” This inverter is a narrow frequency setting range. since the positive feedback circuits are connected to the co-oscillating inductor, the voltage change on which using the frequency setting unit • affects the operation mode of the power transistors.

The purpose of the invention is the expansion of the frequency tuning range.

This goal is achieved by the fact that in an inverter containing an output transformer, a switching inductor, the winding of which through diodes is connected between the collectors of power transistors, and the midpoint of the specified winding is connected to the power input of the inverter, the positive feedback circuit, the control transition of each power through the frequency setting block the transistor is shunted by a 40 phototransistor corresponding to an ιό optocoupler, the emitter of which is one of these diodes, connected with this power transistor, and the circuit is positive 45 feedback connected to the output transformer.

The drawing shows the electrical circuit of the inverter.

The inverter contains an output transformer __ formator 1, power transistors 2 and 3, a switching choke 4 with a midpoint connected to the power source through the frequency setting block 5, the starting circuit b, two transistor optocouplers 7 and 8, emitters 55 (diodes) · of which connected by one electrode to the corresponding end of the switching inductor 4, and by the other, to the collector of that inverter transistor, in which the Bae-emitter junction shunts a phototransistor of the same optocoupler, and the positive feedback circuit from resistor 9 is blocking x diodes 10 and 11 Connected to the secondary winding of the output transformer 1.

In addition, additional diodes 12 and 13 can be connected in series with each emitter of optocouplers 7 and 8 to reduce the reverse voltage at said optocouplers.

The inverter operates as follows.

When the input voltage is applied, the starting circuit 6 creates a unlocking bias at the control transition of the transistor 2. The primary half-winding of the transformer 1 is connected to the input voltage through this transistor. In this case, the feedback circuit: the secondary winding of the transformer 1, the resistor 9 - diode 11, - ensures that the transistor 2 is aligned and the transistor 3 is locked. Through the frequency setting unit 5, the optocoupler diode 7 and transistor 2, a part of the input voltage is applied to the half-winding of the switching inductor 4. An increasing current flows through the inductor 4 and the diode of the optocoupler 7. When this current reaches the radiation level of the specified diode of the optocoupler 7, its phototransistor is turned on, which shunts the control transition of the transistor 2, causing it to be blocked. The magnetic waiting core of the transformer 1 then begins to decrease, causing a change in polarity on the windings. When this occurs, the unlocking of the transistor 3. In the future, the processes are repeated.

When the voltage of the frequency setting unit 5 changes, the voltage at the switching inductor 4 also changes, as a result of which the response time of the optocouplers 7 and 8, and therefore the frequency, changes. In this case, the switching inductor 4 does not enter saturation mode, and the degree of saturation of the transistors does not change.

Thus, the separation of the positive feedback circuits and the switching choke allows without measuring the operation mode of power transistors to increase the operating frequency range of the inverter.

VNIIIPI Order 4235/47 Circulation 687 Subscription

Branch of PPP Patent, l ·. Uzhhorod, st. Project, 4

Claims (1)

INVERTER containing an output transformer, a switching inductor, the winding of which is connected through diodes: 'odes between the collectors of power transistors, and the midpoint of this winding is connected to the power input of the inverter, the positive feedback circuit, through the frequency setting unit, distinguishing' with the fact that , in order to expand the range of the adjustable frequency, the control transition of each power transistor is shunted by a phototransistor of the corresponding optocoupler, the emitter of which is one of these diodes, associated with this a power transistor, and the positive feedback circuits are connected to the output transformer. (L p.