SU1439713A2 - Voltage converter - Google Patents

Description

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The invention relates to electrical engineering, can be used in converter technology and is an improvement of the device according to, ed. Ev, No. 1101988.

The purpose of the invention is to increase reliability by synchronizing the switching off of the keys and increasing the utilization rate of the transformer-Q pa core by induction.

The drawing shows a voltage converter circuit.

The device contains the first 1 and second 2 keys, made, for example, 15 on transistors, through which the primary winding 3 of transformer 4 is connected to input terminals 5 and 6. The first terminal 5 is connected to the cathode of the first diode 7 and the first key 1, and to the second 6 - second-20 swarm key 2 | And the anode of diode 8, the cathode of which is connected to key 1 through the first additional winding 9, and the anode of the disk 7 is connected to key 2 through the second additional winding Yu, while 25 parallel to diodes 7 and 8 are connected capacitors 11 and 12 respectively. The secondary winding 13 is designed to connect the load, for example, through a rectifier. A capacitor J4 is connected to the input terminals 30 5 and 6.

The voltage converter operates as follows.

When the power supply is connected, capacitors 11 and 12 are charged through 35 oppositely connected windings 3, 9 and 10, while the operating point of the transformer core shifts to the region of negative induction values. When keys 1 and 40 2 are simultaneously opened through the winding 3 of transformer 4, current flows and the power source energy enters the load, the transformer core is magnetized. When locking the keys, the energy accumulated in the transformer is recovered to the power source 14 through the additional windings 9 and 1C and the capacitors 11 and 12 which are oppositely connected to the winding 3 and which discharge into the winding 3 and, accordingly, on keys 1 and 2, the voltage gradually increases. After the capacitors .11 and 12 are discharged, diodes 7 and 8 are opened and the remaining part of the energy from $ 5 is fed into the supply network. After the diodes are locked, the process of charging the capacitors 11 and 12 begins, which facilitates the flow of current in the opposite direction. Thus, the core of the transformer is sufficiently used by induction, and during this process of locking the voltage rise rate decreases. The process of locking is similar to that when there is an RCD chain on the keys.

When two transistor switches are available, one of them always comes with a long dissipation time, and this leads to different turn-off times. Let transistor switch 1 be turned off first, then the magnetizing current of the transformer flows through the circuit: winding 3, switch 2, diode 8, winding 9. The transformer turns out to be short-circuited and the magnetization process does not occur, at this moment a zero pause voltage is formed on the winding that is Blur the process of restoring the magnetic properties of the transformer to the next cycle. In the presence of capacitors, the differences in switching off times of chips 1 and 2 are reduced due to the fact that the charged capacitor 12 with its discharge current contributes to accelerated dissipation in key 2 due to the additional current pulse through the collector-emitter circuit of key 2.

Thus, the introduction of capacitors allows to increase the calculated induction in the core of the transformer, to increase reliability by synchronizing the switching off of the keys, to reduce overvoltage on the converter elements and to form a favorable switching path of the transistor switches, which also increases the reliability.

Claims (1)

Invention Formula Voltage converter on aut. St. No. 1101988, characterized in that, in order to increase reliability by synchronizing the switching off of the keys and increasing the use of the transformer core by induction, a corresponding inserted capacitor is connected in parallel to each of the diodes.