SU1265937A1 - Phase shifting device phase shifting devg d.c.voltage ripples at rectifier output - Google Patents

Description

The invention relates to electrical engineering and can be used in systems of pulse-phase control of thyristor converters. 5

The aim of the invention is the reduction of overall dimensions.

The drawing shows a schematic diagram of the proposed device. 'θ

The phase shifting device comprises a synchronization unit 1, made on two zener diodes opposite connected and connected to the phase voltage of the network, a control voltage source 2, made on a phase shifting capacitor 3, shunted by an adjustable resistor, 4 and connected through a diode 5 and the output of the synchronization unit 1, a sawtooth former voltage performed on a series-connected * rectifier diode 7 and a forming capacitor 8, shunted in series connected by a switching 9 and a discharge 10 transistors, as well as a chain of series-connected diode 11 and a reference capacitor 12, the connection point of which ³ θ forms the output of the driver 6 connected to the input of the comparison node 13 made on a two-base diode 14 connected through the tuning resistor 15 to the source 16 stable voltage.

The base of the discharge transistor 10 of the shaper 6 is connected to the middle terminal of the resistor 4, and the base of the switching transistor 9 and the end of the chain of the diode 7 and the capacitor 8 of the shaper 6 is connected to the output of the synchronization unit 1.

The device operates as follows. ^'45

The sinusoidal voltage of the network is limited to the maximum by the zener diodes of the synchronization unit 1 and is converted into a sequence of alternating trapezoidal pulses of 50 ow. Voltage pulses of negative polarity following the mains frequency are used to charge capacitors 8 and 12 with current flowing through diodes 7 and 11. Voltage pulses of positive polarity! . The components, also following with the frequency of the supply network, are used to control the switching transistor 9. Under the influence of the control current supplied to the base, the switching transistor 9 switches from the collector current cut-off mode to the Saturation mode. In this case, the capacitor 8 is discharged, and the voltage across the capacitor 1'2 remains unchanged, since its discharge is prevented by the diode 11.

At the time when the difference between the constant and sawtooth voltages on the capacitors 8 and 12 reaches the switching threshold of the two-base diode 14, it is turned on, and a control pulse is generated at the output of the comparison unit 13. The phase control of the control pulses relative to the phase of the alternating voltage of the network is achieved by changing the discharge time of the capacitor 8, by changing the resistance of the discharge transistor 10 as a result of changing the magnitude of the base current from the source 2 of the control voltage.

Thus, the invention provides a reduction in overall dimensions of the device.

Claims (1)

The invention relates to electrical engineering and can be used in systems of pulse o- (L control thyristor converters). The aim of the invention is to reduce mass-dimensional performance. The drawing is a schematic diagram of the proposed device. The phase shifter contains a synchronization unit 1, made on two mutually connected zener diodes and connected to the phase voltage of the network, the source 2 of the control voltage, made on the phase-shift capacitor 3, is bridged a resistor, 4 and connected via diode 5 and the output of synchronization unit 1, shaper voltage driver b, generated on series-connected rectifying diode 7 and forming capacitor 8, shunted by series-connected switching transistors and also series of coupled by a separating diode 11 and a reference capacitor 12, the junction point of which forms the output of the imaging unit 6 connected to the input of the comparison unit 13, made on a double base iodine 14, connected via trimmer resistor 15 to source 16 of a stable voltage. . The base of the discharge transistor 10 of the driver 6 is connected to the middle terminal of the resistor 4, and the base of the switching transistor 9 and the end of the chain from the diode 7 and the capacitor 8 of the driver b to the output of the synchronization unit 1. The device works as follows. A sinusoidal mains voltage is limited by the maximum of the zener diodes of the synchronization unit 1 and is converted into a sequence of alternating trapezoidal pulses. Negative polarity voltage pulses that follow the mains frequency are used to charge the capacitors 8 and 12 with current flowing through diodes 7 and 11. Voltage pulses of positive polarity, also the same with the mains frequency, are used to control the switching transistor 9. Under the influence of the control current supplied to the base, the switching transistor 9 switches from the cut-off mode of the collector current to the saturation mode. In this case, the capacitor 8 is discharged, and the voltage on the capacitor 12 remains unchanged, since diode 11 discharges it. At the time when the difference between the constant and sawtooth voltages on the capacitors 8 and 12 reaches the switching threshold of the two-base diode 14 it is turned on, and a control pulse is generated at the output of the comparison unit 13. Regulation of the phase of the control pulses relative to the phase of the alternating voltage of the network is achieved by varying the discharge time of the capacitor 8, changing the resistance of the discharge transistor 10 as a result of changing the magnitude of the base current coming from the source 2 of the controlling voltage. Thus, the invention provides a reduction in weight and dimensions of the device. Formula of the Invention Phase-shifting device containing a synchronization unit connected to a phase voltage, a control voltage source, including an phase-shifting capacitor, a diode and an adjustable resistor, a sawtooth voltage driver, the output of which is connected to the yssfii input of the diode connected to a two-base diode, a diode on a two-base diode. a trimming resistor to a stable voltage source, characterized in that, in order to reduce the weight and size parameters, the synchronization unit is executed on two opposite Zener diodes turned on, driver The sawtooth voltage is made on series-connected heating diode and forming capacitor, clamped by series-connected switching and discharge transistors, as well as a chain of series-connected separation diode and reference capacitor, the connection point of which is the output of a for365659374 world of sawtooth voltage, voltage, and through a diode - to moreover, the output of the synchronization and phase-shifting capacitor of the source is connected to the base of the switching voltage of the controlled voltage, the shunzistor and to the ends of the chain from the formed adjustable resistor, capacitor and rectifier 5, the middle output of which is connected to of the diode of the former, the sawtooth-base of the discharge transistor.