SU1541577A1 - Pulsing voltage regulator - Google Patents

Abstract

The invention relates to the secondary power supply sources of electronic equipment. The aim of the invention is to enhance the functionality by providing a smooth control mode for the level of current limiting while improving reliability. The comparison unit 3 generates pulses that determine the duration of the on state of the key element 1. In the saturated state interval of the key element, the stabilizer output current is integrated by the integrator 4. The duration of the pulses at the output of the comparison unit 3 is determined on one side by the duration of the pulses output pulse modulator 6, the feedback circuit for the output voltage. On the other hand, this duration is determined by the ratio of the amplitude of the output pulses of the amplitude modulator 5 and the instantaneous value of the voltage at the output of the integrator 4. At a load current less than the specified for limiting, to the instant of the end of the pulse of the pulse-width modulator 6, the voltage of the integrator 4 is not manages to increase to the value given by amplitude modulator 5. As the load current increases, the moment of equality of the voltages of integrator 4 and amplitude modulator 5 occurs before the end of the pulse at the output of the wide pulsed modulator 6, which leads to a shortening of the control pulses at the output of the comparison unit 3. Stabilizer from stub mode

5n 02m 5/257 to "inverter converter

Description

The invention relates to electrical engineering and can be used in systems for the secondary power supply of electronic devices.

The purpose of the invention is to enhance the functionality by providing a smooth level control mode with current limiting while improving reliability.

The drawing shows a structural diagram of a pulse voltage regulator.

The pulse voltage regulator contains a key element 1 connected between the input terminal and the output LCD filter 2. The control input of the key element 1 is connected to the output of the comparison unit 3. Comparison inputs are connected to the output of the integrator 4 and the output of the amplitude modulator 5. The input of the amplitude modulator 5 is connected to the output of the pulse width modulator 6. Between the pulse width modulator 6 and the output terminal, the error amplifier 7 is turned on. In series with load 8, current sensor 9 is switched on. The current sensor is connected to the input of the integrator 4, the reset input of which is connected to the output of the shaper 10 of the reset pulse. The input of the reset pulse generator is connected to the output of the comparison unit 3. The reference voltage source 11 is connected to another input of the error amplifier 7.

The stabilizer works as follows.

From the moment the key element is turned off in the previous period of operation, integrator 4 begins to integrate a voltage proportional to the load current coming from the current sensors 9. Thus, in the steady state, from the output of the integrator 4, one of the inputs of the comparison circuit 3 receives a voltage proportional to the average value of the load current. At the same time, pulses arrive at the second input of the comparison circuit,

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These are processed by a conventional voltage feedback circuit containing an error amplifier 7 and a pulse-width modulator 6. At the same time, the amplitude of the output pulses of the pulse-width modulator 6 can be changed using an amplitude modulator 5.

Thus, the duration of the control pulses is determined by the duration of the control pulses from the output of the pulse-width modulator, as well as by the ratio of the voltage levels of the amplitude modulator 5 and the current value of the integrator voltage. When the load current is less than the current limit level, the voltage at the output of the integrator 4 does not have time to increase to the level specified by the output voltage of the amplitude modulator 5, and the duration of the output pulses of the comparison unit is equal to the pulse width of the pulse-width modulator 6.

As the load current increases, the voltage of the integrator 4 rises and reaches the level of the pulses from the amplitude modulator 5 before they terminate and the key element 1 controlled by the comparison unit 3 is turned off before this is determined by the voltage feedback circuit. On the falling edge of the control pulses from the output of the comparison unit 3, the driver 10 of the reset pulses will reset the integrator and prepare it for the next period of operation. Thus, with an increase in the load current above a value specified by the amplitude of the pulses of the amplitude modulator 5, the pulse voltage regulator changes from the stabilization mode of the output voltage to the stabilization mode of the load current.

By varying the amplitude of the pulses at the output of the amplitude modulator 5, the level of limiting the output current can be smoothly changed.

5154

Claims (1)

Invention Formula A pulse voltage regulator containing a key element connected in series between the input and output pins, a current sensor and an output LCD filter, a voltage feedback unit that includes an error amplifier, one input connected to the output pins, a pulse-width modulator an input connected to the output of the error amplifier, and a source of reference voltage, an output connected to another input of the error amplifier, characterized in that, in order to extend the function By providing smooth control of the current level with simultaneous increase in reliability, an amplitude modulator, an integrator, a reset pulse shaper, and a comparator are entered, the first input of the comparator through the amplitude modulator is connected to the output of the feedback modulus the second input of the comparator unit through the integrator is connected to the output of the current sensor and the output of the comparator unit is connected with the control input of the key element and through the reset pulse shaper - with the integrator reset input.