SU1712946A1 - Multichannel d c voltage regulator - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the design of secondary power sources. Its application is expedient when, in it, centralized stabilization of several voltages with a single regulator with pulse-width modulation is used. The purpose of the invention — an increase in efficiency and reliability — is achieved by replacing channel stabilizers of continuous operation with protection modules while reducing the external load current of any channel below a critical value. The channel protection unit automatically loads this channel, preventing a dangerous increase in the output voltage of the channel when it is idle. In nominal mode, the power loading element does not consume. In the presence of a second threshold element, the protection unit also provides protection for the stabilizer against overload on this channel, putting the stabilizer into stabilization mode of the maximum permissible load current in the overloaded channel. 1 hp ff, 1 ill. T

Description

The invention relates to electrical engineering and can be used in the design of secondary power sources (VIP). Its application is expedient when centralized stabilization of several voltages with one controller with pulse-width modulation (PWM) is used in the VIP.

The purpose of the invention is to increase efficiency and reliability.

The drawing shows a functional diagram of the stabilizer.

Claims (2)

The multichannel DC voltage stabilizer contains a DC voltage to AC converter with a control modulation of the pulse width input and an output transformer 2, rectifier blocks 3.1-33.N according to the number of channels, one of them is as stable as possible. The inputs of the rectifier units 3.1-33.N are connected to the corresponding outputs of the output transformer 2, while the supply terminal of the constant voltage-to-voltage converter 1 is the input terminal and the channel outputs are the output terminals. The device also contains at least one protection unit 4, the input of which is connected to the output of the corresponding rectifying unit 3, and the output is the output of the corresponding channel, the output of the maximum stable channel is connected to the control modulation of the pulse width to the input of the constant-voltage converter 1 variable. The protection unit 4 consists of a current sensor 5 connected between the input and output of the protection unit 4, the first threshold element 6, the input of which is connected to the output of the current sensor 5, controlled by the load element 7, the control input of which is connected to the output of the first threshold element 6, and an output to the output of protection unit 4, and a second threshold element 8, the input of which is connected to the output of current sensor 5, and the output to the input control protective input of inverter 1 of DC to AC voltage. The stabilizer works as follows. The DC / AC converter 1 converts the DC voltage supplied to the power supply to square pulses with a width that is controlled from the control input of the converter, and the reduction of the control signal corresponds to the narrowing of these pulses. The stransformed output transformer 2 pulses are rectified and smoothed by 3.1 - 3.N rectifying blocks, at the outputs of which constant-voltage voltages are converted that are applied to the outputs. The stabilizer mode corresponds to a dynamic equilibrium between the pulse widths of the converter 1 and the voltage at the output of the maximum stable channel connected to the control input of the converter (in the drawing, output N). The voltage at the output of this channel is stabilized as in a single-channel stabilizer with an arbitrarily high accuracy, depending only on the stability of the reference source included in the converter, and on the loop gain of the voltage feedback circuit. Voltage at the outputs of other channels with a lower accuracy is automatically implemented, but only if the load currents of the channels do not fall below the critical value Douting О y) where UBUX is the output voltage of the channel: y is the filling factor of the pulses: f is the working the frequency of the VIP: CR is the inductance of the droplet filter. At lower load currents, the currents through the inductances of the LC filters in the rectifier blocks 3 undergo gaps, as a result of which the LC filters go into capacitive mode. The voltages at their outputs increase and the idling reaches amplitudes of rectified pulses that are 1 / u times the nominal stabilization voltage. The introduced protection unit 4 prevents the possibility of current reduction through the filter choke in rectifier unit 3 below the critical value, which provides protection against a dangerous increase in the output voltage of the channel when it is idle. The channel load current is measured by current sensor 5. By reducing the external load current to the minimum allowable value specified by the first threshold element 6, the controlled load element 7 is fully or partially connected to the channel output. In the nominal mode of operation of the stabilizer, the controlled power loading element 7 does not consume. In the presence of the second threshold element 8, the protection unit 4 also provides for the protection of the stabilizer against overloading through this channel. As the load current rises to the maximum allowable value specified by the second threshold element 8, the current feedback circuit closes through the control protective input of the DC / DC converter 1. By this, the stabilizer is switched to the stabilization mode of the maximum load current in the overloaded channel. the pulses at the output of the converter 1 at the same time are narrowed, the voltage at the outputs of all channels decreases proportionally. When the overload is eliminated, the voltages on the outputs are restored automatically. Thus, the increase in the efficiency of a multichannel stabilizer is provided by replacing the continuous channel stabilizing organs, which determine the main power losses in the known device, with protection blocks whose power losses are in the nominal mode of the stabilizer by an order of magnitude less. Claim 1. Multichannel DC voltage regulator containing DC / AC converter with control modulation of pulse width input and output transformer, rectifier units by the number of channels, one of them is as stable as possible, rectifier inputs are connected to the corresponding outputs of the output transformer, while the supply terminal of the DC / AC converter is an input terminal, and the outputs of the channels are output terminals, differing from that, in order to increase efficiency and reliability, at least one protection unit has been entered into it, whose input is connected to the output of the corresponding straightening unit, and the output is the output of the corresponding channel, the output of the most stable channel is connected to the control pulse width modulation input DC / DC converter, while the protection block consists of a current sensor connected between the input and output of the protection block, the first threshold element, the input of which is connected to the output of the current sensor, and Loadable element, the control input of which is connected to the output of the first threshold element, and the output to the output of the protection unit. 2. Stabilizer pop. 1, characterized in that the second threshold element is inputted to the protection unit, the input of which is connected to the output of the current sensor, and the output to the input of the control protective input of the dc-to-dc converter.