SU847299A1 - Relay-pulse dc voltage stabilizer - Google Patents

Description

(54) RELAY-PULSE CONSTANT STABILIZER

VOLTAGE

The invention relates to electrical engineering, in particular, to pulse voltage stabilizers, and is intended for use in power systems of computer machines and automatic devices. A device containing a control with a sawtooth comparison generator, a trigger connected to a switch control circuit, a power amplifier with a transformer, a synchronization node, the generator of a sawtooth voltage control, is known with two inputs and is connected by one input through a synchronization node to a the trigger — another through the comparison node — to the 1J switch. However, the known stabilizer belongs to the pulse width class. The circuit solution. Exclusive currents of the open cover in the stabilizer creates pauses between the pulses that charge the output capacitance, as a result of which it has inertia, i.e. The circuit design of the stabilizer does not allow filling the indicated pauses with charge pulses. The closest to the proposed is ((L stabilizer containing a low-frequency rectifier with a filter, an input connected to the input terminals, and an output connected to the first key-converter, the secondary winding of the output transformer of which is connected to the output terminals via a high-frequency converter and with the input of the error amplifier, the output connected to the input of the Schmidt trigger, the output of which is connected to the first inputs of two-key elements, the second inputs are connected to the corresponding output With the pulse driver, the first power amplifier whose input is connected to the output of the first key element and the output is connected to the control input of the first key converter -fzl 38 In a known device, using delay lines connected by inputs to the outputs of a square pulse generator, rt s one of the inputs of the circuits AND and the outputs with other inputs of the same circuits AND, to the third inputs of which the output of the Schmidt trigger is connected, between the pulses arriving at the inputs of the key converter, pauses are formed, excluding currents overlap in the pass transistors switching converter. These pauses, eliminating the overlap currents, create pauses between the pulses that discharge the output capacitance of the stabilizer, thereby increasing the inertia of the stabilizer. The purpose of the invention is to reduce the inertia of the stabilizer. The goal is achieved by the fact that the DC pulse-voltage regulator is equipped with a second key converter and a second power amplifier, the output of the second key element being connected via a second power amplifier to the control input of the second key converter with an input of a low-frequency rectifier connected to the output with the filter, and the secondary winding of the output trans.formator connected to the input of the high-frequency rectifier with a filter. FIG. I shows a functional diagram of the proposed device; in fig. 2 is a timing diagram explaining his work. The relay relay voltage regulator contains a low-frequency rectifier 1 with a filter. The key converters.Pi 2. and 3 connected by the input to the input pins, which are connected via the output transformers 4 and 5 to the inputs of the high-frequency rectifier 6 with a filter. The output of the high-frequency rectifier 6 with a filter is connected to the output terminals and the input of the error amplifier 7, the output of which is connected to the input of the Schmidt trigger 8. The shaper has 9 pulses connected by the outputs 10 and P with the inputs 12 and 13 of the key elements, the second inputs of which are connected to the output of the Schmidt trigger 8. The outputs 12 and 13 of the key elements through the amplifiers 14 and 15 of the power connected to the inputs of the key converters 2 and 3. The stabilizer operates as follows

in a way.

Claims (2)

Day of the proposed circuit solution 9 Coming to the input of the stabilizer; The alternating voltage of the industrial network is sup- plied by a low-frequency rectifier 1 with a filter and is supplied to power the key converters 2 and 3, from the outputs of which, through the output transformers 4 and 5, the high-frequency rectangular voltage is removed with pauses between the pulses. The high-frequency voltage is rectified by a high-frequency rectifier 6 with a filter and is fed to the output terminals and to the input of the error amplifier 7. The pulsations and stability of the output voltage are amplified by the misalignment amplifiers 7 and are fed to the input of Schmidt triper 8. When the output voltage of the stabilizer is lower than normal, the Schmidt trigger is triggered and allows the key elements 12 and 13 of the signals coming from the outputs of the driver 9 pulses to pass through. The pulse shaper 9 forms at its outputs Yu and II (Fig. I and Fig. 2) bipolar pulses with pauses between pulses. Moreover, the pulses at the exit II shaper. 9 pulses are shifted relative to its pulses at the output 10 by about 1/4 of the period. The pulses from OUTPUTS 12 and 13 of the key elements are amplified by the I4 and 15 power amplifiers and are fed to the input of the key converters 2 and 3. The pauses between the pulses fed to the input of the key converter eliminate the appearance of overlap currents in the transistors of the key converter, and the shift impulses at the output of key converters for 1/4 of the period eliminates the inertia of the stabilizer due to pauses. Thus, the pulses that charge the output capacitance of the stabilizer repeat without delay the duration of the pulses coming from the Schmidt trigger 8. The operation of the stabilizer is explained by the timing diagram (Fig. 2), which shows the output voltage of the output of the respective devices, as well as the shape of the pulses that charge the output capacity of the stabilizer. Such a circuit design reduces the inertia of the stabilizer, impairs its output parameters and, consequently, increases the reliability of the computational operation. cars in general. The economic feasibility is vindicated by the fact that by improving the output characteristics of the stabilizer, the likelihood of failures and malfunctions in the computer is reduced and, consequently, costly machine time is saved. Claims relay voltage regulator containing low frequency rectifier with filter inlet connected to input terminals and output connected to the first key converter, the secondary winding of the output transformer of which is connected to output terminals via a high frequency rectifier with filter and with the input of the amplifier for matching, the output connected to the trigger input (Schmidt, the output of which is connected to the first inputs of two key elements, the second inputs of which are ineny with respective outputs i pulse generator, the first power amplifier, the input of which is connected to the output of the first key element, and the output connected to the control input of the first key converter, differs in that, in order to reduce the inertia of the stabilizer, it is equipped with a second key I converter and the second power amplifier , U) and what is the output of the second key element through the second power amplifier connected to the control input of the second key converter, the input of the low-frequency rectifier connected to the output filter, and the secondary winding of the output transformer connected to the input of the high-frequency rectifier with a filter. Sources of information taken into account in the examination 1, USSR Copyright Certificate 517014, cl. G 05 F 1/36, 1974. 2. USSR author's certificate according to the application No. 2594885, cl. G 05F1 / 56 1978.