SU838948A1 - Dc-to-dc voltage converter - Google Patents

Description

rectangular pulse generator, output capacitor, storage capacitor, the pole of which is connected. Yen with an average output of the switch extreme output connected to one input output in each switch entered two diodes and an additional storage capacitor and each pole of the output capacitor through two additional inputs of the switch connected to one pole of each storage capacitor connected through a diode to the extreme output of the switch, the middle output of which connected to the junction point of the two other poles of the storage capacitors, the control unit being in the form of a sequence Flax coupled frequency divider and pulse distributor.

The drawing shows a block converter circuit.

It contains a switch 1, the middle pin 2 of which is connected to the poles of storage capacitors 3,4, connected via diodes 5,6 to the input terminals 7,8 and the extreme leads 9,10 of the switch connected through additional leads 11-14 to the output condensate. rum 15 and load 16. The generator output 17 rectangular pulses is connected to a control block 18 consisting of a frequency divider 19 and a distributor of 20 pulses.

The operation of the device is as follows.

In the initial state, all the outputs of the switch 1 are in the isolated state, the storage capacitors 3., 4 are charged before the voltage Sh /. When closing the extreme output 9 with the output 2 of the switch 1, the storage capacitor 4 is charged from the input voltage U- during the duration of the impulse block 18. The next impulse of this block closes the middle output 2 with the extreme output 10, the additional storage capacitor 3 is charged. the termination of the action of two pulses arriving at the control unit; the sum of the voltages of the storage capacitors 3.4 exceeds the value of the input voltage at the terminals 7.8, so that the diodes 5.6 are under reverse They have a high voltage and a high resistance for ripple arising from the effects of electromagnetic interference on the device, which leads to a decrease in the output voltage ripple.

The third impulse coming from the control unit closes the additional terminals 11, 12 and 13, 14 forms the transmission circuit

energy storage capacitors. 3.4 V load 16, in parallel with which the output capacitor 15 is connected. The time constant of the discharge of the output capacitor 15 is greater than the value of the constant charge time of the storage capacitors 3.4, therefore during the third pulse, when the storage capacitors 3 discharge, 4, the load, the source, and the consumer (load 16) are dissipated by a greater resistance of diodes 5.6, which results in limiting the spectrum and reducing the ripple of the output voltage caused by the influence of parasitic electromagnetic interference from the side they are (terminals 7.8) of the source. The reduction of the pulsations caused by input voltage converters with an increase in the power consumption is achieved by multiple switching on up to additional storage capacitors and an increase in the additional terminals of the switch,

Claims (2)

1. The author's certificate of the USSR 526049, cl. H 02 M 3/125, 1978. 2. Authors certificate of the USSR 466598, cl. H 02 M 3/06., 1971 (prototype). 18 IS Ii6tjt