SU978291A1 - Discrete phase-shifting device - Google Patents

Description

one

The invention relates to a converter technique. And can be used in. devices for controlling the phase of control pulses of thyristor voltage converters

Discrete phase-shifting devices are known that contain a null-organ connected to the synchronization voltage and to the inhibiting circuit, a clock generator, a clock counter connected to the output of the inhibitor circuit, a selection block of a larger number from two numbers whose inputs are connected to the corresponding terminals. control code and clock counter buses, and the output is the output of the C 13 phase shifter.

A disadvantage of the known device is low reliability due to the absence of restrictions on the minimum angle of deflection.

The closest technical solution to the invention in terms of means and results achieved is a discrete phase-shifting device containing a clock pulse generator, connected by its output to the first input of the inhibit element, the output of which is connected to the clock counter input, the first outputs of which are connected to the inputs

10 of the angle decoder, the second outputs are connected to the first inputs of the code comparison unit, the second inputs of which are connected to the outputs of the register of the control unit, a null organ connected by its output to the R input of the reset trigger, the S input which is connected to the outputs of the angle of-moiii decoder and C 21 code comparison block.

A disadvantage of the known device is that it does not provide for the possibility of changing the angle oij when the external conditions change, the magnitude of the supply voltage, the ambient temperature, which reduces the energy performance, reliability and functionality of the device. The purpose of the invention is to increase the reliability and expand the functional device capabilities. The goal is achieved. The device is equipped with an AND element and an operational amplifier, the inputs of which are connected to terminals for connecting the network and the source of the reference voltage, the amplifier output being connected to the first input of the AND element, the second input of which is connected to the inverse output of the reset trigger, and the output - with the second input element, ban. A temperature-dependent element is connected between the input of the operational amplifier and the terminal for connecting the network, mainly in the form of a thermistor. The drawing is a block diagram of a discrete phase-shifting device. In the device, the oscillator 1 clock: output pulses are connected via bar 2 to the counter input 3 clock pulses. The output of the counter 3 is connected to the first input of block comparison codes, the second input of which is connected to the register of the control system 5. The output of the code comparison unit 4 is connected to the first input of the reset trigger 6. The angle decoder 7 is connected by its input to the output of the counter 3 and the output to the first input of the reset trigger 6. The second input of the Ypigger 6 reset is connected to the output of the null organ 8. The operational amplifier 9 has inputs for connecting to the mains voltage source through the thermistor Yu and the voltage source, and the output is connected to the element By By The first input of the element II P is connected to the output of the operational amplifier 9, the second input is connected to the inverse output of the reset trigger 6 and the output to the second input of the prohibition element 2. The device works as follows. The input of the zero-organ 8 receives the voltage of the corresponding phase. The signal appearing at the output of the nullorgan B when a voltage appears at its input sets the reset trigger 6 to the unit state. At the 97 4 output of the operational amplifier 9, the signal only appears when the voltage that is proportional to network, there will be more reference voltage. The signal appearing at the output of the operational amplifier 9 opens element 11 and thus issues a command to allow the counter to be filled with 3 pulses of the reference frequency from generator 1 through prohibition element 2. The register of the control unit 5 with an angle limiting device is intended for storing a code corresponding to a certain value of the firing angle of the thyristor. This code is changed according to the law specified by the control unit. The register code of control block 5 and counter code 3 are compared using a code comparison block C. When the codes coincide, a pulse appears at the output of the code comparison block i, which is then used to generate thyristor control pulses. At the same time, this pulse arrives at the input of the reset trigger b and sets it to the zero state. As a result, a logical zero appears at the output of AND 11 and the prohibition element 2 is closed. After the occurrence of the voltage of the same phase at the input of the null organ 8, the cycle repeats completely. The parameters of the thyristor depend largely on the temperature. To account for its influence on the circuit, the input of the operational amplifier 9 intended to be connected to the mains voltage source is connected temperature-dependent element, such as a thermistor 10, It is installed on the thyristor radiator. At the nominal temperature, the signal at the input of the operational amplifier 9 enables the unlocking of the thyristor at the moment of increasing the temperature and changes in the characteristics of the thyristor, therefore, the temperature-dependent element 10 provides the bias of the enable signal to unlocking in the direction of decreasing the angle. The use of the invention provides improved reliability and enhanced functionality of the device, which is achieved by introducing an operational amplifier, element I and temperature-dependent element into the device circuit, controlling the angle in the maximum possible range, which ultimately leads to an increase in the drive power factor controlled by the discrete phase shifter device.

Claims (1)

1. USSR author's certificate If 660162, cl. H 02 M 1/08, 1979. 2, USSR Author's Certificate No., cl. H 02 R 13/16, 1979. ha {- ftg h