SU752702A1 - Transistor inverter - Google Patents

Description

one

The invention relates to converter equipment and can be used in automation and secondary power devices.

Known adjustable converter of constant tension, containing a master oscillator, pulse-width modulus of mountains, two-stroke power amplifier

W ..

There is no forced locking of the power transistors in the device, which leads to an increase in the dynamic potential and to the saturation of the power transformer at frequencies above 10 kPh.

A similar adjustable constant voltage converter | 2J is also known.

However, it is not possible to use an inverter circuit, the emitters jg of the transistors of which are not connected to each other.

The closest to the flow of the essence of the proposed is an inverter,

having active transistors

AND.

However, in a well-known inverter, a power transistor is needed in a power ycflator, for which emitters are combined, which is not always acceptable even if transistors are used with an equal conductivity type, for example, in a bridge circuit. and possesses a lower efficiency due to the inclusion of directly 1С-tori directly in the base circuit, which at significant output powers leads to additional losses on them.

The purpose of the invention is to enhance the functionality and increase efficiency.

Claims (1)

The goal is achieved by the fact that in the anisistor inverter, which contains the master oscillator with an output transformer, the secondary winding of which is terminated through diodes. and the middle one, through the commutator-emitter junction of the new switching transistor, is connected with the control transitions of the transistors of the push-pull power amplifier; first and second switching transistors, collector-emitter junction. the second of which is connected to the output of the MITVP 1, this connection is made in the form of the first additional transformer, one of the primary windings of which is connected to the rectifier input and the other through the first transistor and diodes to the secondary winding which through additional diodes connected to the extreme. the primary windings of the second additional transformer, and the middle terminals of the two above-mentioned windings are connected via the collector-emitter junction of the second switching transistor, and the secondary windings of the second additional transformer are connected via diodes to the control junctions of the UFT transistors of the power amplifier. adjustable inverter circuit. The inverter contains a driver for a forator 1 connected to an input voltage source, a transformer for a master oscillator 2, a pulse-pulse modulator 3 including a saw driver and a differential DCF 4, the output of which is connected to the inputs of switching transistors 5 and 6, connecting through the diodes 7, 8, 9, 10 and 11 the transformer winding of the master oscillator with the unlocking 12 and locking 13 transformers, the secondary windings of which are connected to the power transistors of the inverter 14 and the locking diodes 15 and limiting resistors 16. Circuit works as follows. The master oscillator 1 emits a rectangular stress. Pulse width modulator 3 during each half-period of the voltage setting the gene & The rator forms a two-field voltage, with a negative voltage at the output of the DCF 4 corresponding to the open state of the corresponding transistors in the inverter 14, and a positive state to the transistor. Two transistors of the inverter 14 are open. The voltage on the primary winding of the transformer 12 is supplied through the open transistor 5 and one of the diodes 7 or 8. The base current of the power transistors is limited by resistors 16. During a jauz, the control voltage transistor 5 is locked and opens the transistor 6. Consequently, on the secondary windings of the transformer 12, the voltage disappears and appears on the secondary windings of the transformer 13, which are connected to the locking diodes 15 to the inputs of the power transistors. Thus, forced sticking of the latter is carried out. To eliminate the possibility of opening the previously locked power transiogors during a pause in the control voltage, the transformer 12 has an additional winding with a rectifier 11, which is connected at this time by an open transistor 6, therefore, the voltage on the secondary windings of the transformer 12 i is close to zero and all the transistors of the inverter 14 securely locked. In the next half-period, the process is repeated, but another is opened, a pair of power transistors. The power consumed by the control circuit during a pause in the control voltage does not exceed the effective control power. In addition, the proposed device allows the use of any known inverter circuit (bridge, half bridge, midpoint) with any number of core transistors, for example, three series-connected bridge circuits. Claims of the invention A transistor inverter containing a master oscillator with an output transformer, the secondary winding of which is connected to the extreme terminals through the diodes, and the middle one. - through to the elec- trum-in-emitter junction of the first switching transistor it is connected with the control inputs of the transistors of the push-pull power amplifier, its additional winding is connected to one of the inputs of the ro-pulse modulator, and the output of the latter is connected to the base-switching seven transitions of the first and second switching transistors, a cluster-emitter junction of the second of which is connected to the output of the rectifier, characterized in that, in order to improve functionality and increase efficiency, the above connection Flax in the form of the first additional transformer, one of the primary circuits of which is sent to the input of the rectifier, another through the aforementioned first transistor and diodes to the charging winding of the master switch, the extreme leads of which through the additional diodes are connected to the extreme leads of the primary winding of the second additional transformer aTOpa, and the average conclusions of the two above mentioned windings and windings are the collector-emitter junction of the second switching transistor, and the JB of the secondary winding of the second additional The transformer through diodes are connected to control transitions of transistors with a power supply. Sources of information,:, hyphinous into account when exftease 1, USSR Copyright Certificate M "527808," l. H 02 M 3/335, 1973, 2, USSR Author's Certificate No. 491941, Yu1. G 05F 1/64. 1972. 3, USSR author's certificate According to the application Me 2572048/07, cl. H O2 M 3/335, 1978.