SU1129537A1 - Ac-to-dc voltage converter - Google Patents

Abstract

AC VOLTAGE CONVERTER to PERMANENT, containing a driver module, the input of which is connected to the input bus and the output to the first input of the integrator integrator, a pulse control device, the output of which is connected to the control electrode of the key, capacitor, one plate of which is connected to the input of the amplifier One of the conclusions of the key is about the fact that, in order to increase the speed of operation when operating in the frequency range of the input signals, a resistor and a voltage element from the zones The insensitivity of the transfer characteristic is near zero, an oscillator is used as a pulse control device, the output of the adder-integrator is connected to the second capacitor plate and the output bus, another output of the coyg key (across the amplifier and through the threshold element to the second input of the adder -integrator, a (resistor-: connected between the input and output of the amplifier.

Description

The invention relates to an electrical measurement technique and can be used in alternating voltage voltmeters. A known converter of alternating voltage into a constant voltage containing a rectifier, the output of which is connected to the averaging filter, and in parallel to the rectifier a compensating channel is connected, which has the differentiating properties l. In the known converter, the time constant of the averaging filter is selected from the condition of providing the minimum permissible level of ripples at the lowest frequency of the input signal, which limits its speed at higher frequencies, despite the fact that the constant times of the compensating channel and the averaging filter are partially retired. The closest to the technical essence of the invention is an alternating voltage converter -in constant, containing a driver module input signal, the input of which is connected to the input bus, and the output - to the first input of the adder-integrator, a pulse control device, the output of which is connected to the control electrode of the key, a capacitor, one plate of which is connected to the input of the amplifier and one of the conclusions of the key, the other output of which is connected to the output of the adder-integrator, the input of the control device with union of the input bus, single plate of the capacitor - to the common bus, the output of the amplifier is connected to the output bus and the second input-integrato adder 23. pa: However, the maximum speed of the device provides for this parameter oootvetstvukitsim with its elements only on a fixed input frequency. If the converter needs to in the frequency range, then the maximum speed is possible only at the minimum frequency, and at higher frequencies it decreases. The purpose of the invention is to increase the speed when operating in the frequency range of the input signals. The goal is achieved by the fact that, in an AC-DC-DC converter containing a driver module, the input of which is connected to the input bus and the output to the first input of the integrator, the pulse control device whose output is connected to the control electrode of the switch is a capacitor , one plate of which is connected to the input of the amplifier and one of the outputs of the key, a resistor and a threshold element with the dead zone of the transfer characteristic near zero are additionally entered, as an impulse Foot control device used oscillator, the output summatoraintegratora coupled to said second electrode of the capacitor and the output line, the other terminal of the key coupled to the output of the amplifier and via a threshold element - to a second input summatoraintegratora, and a resistor connected between the input and the output amplifier. Fig. 1 shows a block diagram of a variable voltage converter. Continuously; figure 2 - the transfer characteristic of the threshold element; in FIG. T, time diagrams of the output voltage of the converter: a — when the input signal is turned on, b — when the input signal is turned off, c — the time diagram of the prototype output voltage when the input signal is turned on. A variable-voltage converter contains a module 1 driver (for example, a full-wave rectifier), the input of which is connected to the input bus, and an output to the first input of the integrator 2, a pulse control device 3, the output of which is connected to the control key electrode 4, - a capacitor 5, one plate of which is connected to the input of the amplifier 6 and one of the outputs of the key 4, the resistor 7 and the threshold element 8 to the dead zone of the transfer characteristic near zero, as a pulse control an oscillator 2 is connected to the free plate of the capacitor 5 and the output bus, the free switch 4 is connected to the output of amplifier 6 and through the threshold element 8 to the second input of the adder integrator 2, and the resistor 7 is on between the input and output of the amplifier 6. 3 AC / DC converter operates as follows. The former of module 1 supplies the first input of the adder-integrator 2 with a voltage equal to the module of the input alternating voltage. The output DC voltage of the adder-in; the generator 2 changes in magnitude with a change in the magnitude of the input signal, and its rate of change, which determines the speed of the conversion, depends on the time constant of the adder-integrator 2, which is chosen level of ripple output voltage at the lowest frequency of the input signal. When the switch 4 is open, a change in the output voltage of the adder-integrator 2 causes the appearance of the output voltage of the amplifier 6, which is proportional to the rate of change of the output voltage of the converter, since the capacitor 5, the amplifier 6 and the resistor 7 form a differentiating unit. At a sufficiently high rate of change of the output voltage of the converter, the output voltage of the amplifier 6 exceeds the threshold voltage level Uf, (FIG. 2) of the dead zone of the threshold element 8. The voltage, the difference between the indicated voltages, is applied to the second input of the adder integrator 2, due to which the rate of change of the output voltage of the converter increases; the polarity of the output voltage of the amplifier 6 is positive as the output voltage of the converter rises and negative when it decreases . Thus, with the open key 4, the converter turns out to be covered by a positive feedback circuit, which also ensures a sharp increase in the rate of change of the output voltage. When the key 4 is closed, the output voltage of the amplifier 6 is zero, the positive feedback circuit is open and the rate of change of the output voltage is determined only by the parameters of the combiner-integrator 2. When a switch 4 is applied to the control electrode, the switch opens for the time Vc period. At time intervals when key 4 is closed (t ... fig. 3, diagrams a, b,. where tj-t), the process of changing the output voltage goes slowly without the participation of positive feedback. At time intervals when key 4 is open (t2 ... t, Ha Fig. 3, diagrams a, b, where t,), the process of changing the output voltage is sharply accelerated due to positive feedback. When reducing the rate of change of the output voltage in the time interval when key 4 is open, as a result of approaching a steady-state value, the output voltage of amplifier 6 stays less than the threshold voltage of the dead zone of the transfer characteristic of the threshold voltage G of element 8, therefore positive inverse the link is not included regardless of the state of the key 4 (t.,. tj in FIG. 3, diagrams a, b). Thus, the invention allows, by periodically turning on the positive feedback circuit, to increase its speed when operating in the frequency range of the input signal by no less than an order.

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Claims (1)

AC VOLTAGE CONVERTER TO CONSTANT, containing a module driver, the input of which is connected to the input bus, and the output to the first input of the integrator-integrator, a pulse control device, the output of which is connected to the control electrode of the switch, a capacitor, one lining of which is connected to the input of the amplifier and one of the key outputs ·, except for the fact that in order to increase the speed * when working in the frequency range of the input signals, a resistor and a threshold element with a zone In the case of a transfer characteristic near zero, a self-oscillator was used as a pulse control device, while the integrator-integrator output is connected to the second capacitor plate and the output bus, the other key output is connected to the amplifier output and through the threshold element to the second input of the integrator-integrator, a (resistor ·· is connected between the input and output of the amplifier. .G 1 1129537 2