SU983970A1 - Device for control of pulse converter - Google Patents

Description

one

The invention relates to electrical engineering, and more specifically to pulse converters.

A device for controlling a pulsed converter is known, which contains a master oscillator and channels for generating control pulses by switching on the switching of the pulsed interrupter. On one channel, the interrupter is switched on intermittently, and on Q to the other, it is periodically turned off. At the same time, the control pulses are synchronized with the master oscillator of the autonomous type tl

A disadvantage of this device is (s) the presence of current pulsias in the supply network and the deterioration of its harmonic composition.

The closest in technical essence is a device for controlling a 20 pulse converter, consisting of successively connected uncontrolled rectifier, filter and pulse disconnecting device, containing a pulsed interrupter control pulse shaping unit consisting of two channels of control pulse opening and closing the pulse breaker G2 ..

A disadvantage of the known converter is associated with the possibility of high-frequency modulation of the supply network current and load.

The purpose of the invention is to reduce the pulsations of the current in the network and in the load.

Delivered del is achieved by the fact that the device for controlling a pulse converter is equipped with two blocks of time delay and two blocks of synchronization, one of which consists of three sensors zero linear voltage and the first element OR, the other from three sensors zero phase voltage and the second of the OR element, with the sensors. voltage) through the first element OR and the first input of the corresponding time delay block connected to the channel generating the control pulses of the opening of the pulse interrupter, dates The zero phase voltage switches through the second OR element and the first input of the corresponding block of time delays are connected to the generation channel of the pulses of the control of the pulse interrupter closure, and the second inputs of the time delay blocks are assigned to the control signal. On fng. 1 shows the principles of the schemes j of the device; in fig. 2 prvvdp, synchronization of the pulse converter with the mains; in fig. 3 - pulse diagram of the device. The device contained a diode top gel 1, connected to the input terminals to the mains A, B, C of alternating current, and output gates through the filter 2 and a pulse voltage 3 to the DC load 4, which is shunted by a diode 5. Imt pulse the interrupter 3 is made according to any of the known circuits and has channels 6 and / control for generating control geuls, respectively, of the opening and closing of the pin. Channel 6 contains sensors 8 1O zero voltage, the outputs of which are combined with the help of the element OR 11 connected to the temporary supply unit 12. Sensor inputs 8-10 are connected to line voltages of the AC mains. Kakal 7 contains voltage sensors 13–15 zero, the outputs of which are combined using the OR element 16, connected to the time delay unit 17. Sensors 13–15 are connected to phase voltages. The control inputs of the 12 A and 17 A blocks of the time delay 12 and 17 are connected to the channel 18 for controlling the duration of the on-pulse immersion state, i.e., the width of its output pulses. The device works as follows. The AC supply voltage A, B, C is first rectified on the top of 1, the output of which has a pulsating voltage (Fig. 2), and these pulsations are then smoothed by a filter 2. Further conversion is carried out by a pulse interrupter 3, which is turned on synchronously with the supplying alternating voltage, as shown in FIG. 2. With such synchronization, there is the smallest ripple of the load current and, most importantly, the smallest modulation of the current of the supply network. The reason for this is that in order to increase the smoothing ability of filter 2, it is necessary to consume energy pulses from its output just at the moment of its highest supply, i.e., at the maxima of the temporary voltage pulsations, as shown in the voltage diagram, realizing this principle (Fig. 2), the circuit of the device for controlling the transducer 3 (Fig. 1) and the diagram of its operation (Fig. 3). Channel 6 of the control system generates a signal to turn on the chopper 3. This is done using pulses from the Sensor Outputs 8–10, which they produce at times O, AO, 90, 150, 21O, 270, 330 e, hail, i.e., moments of equality to zero of the corresponding linear voltage network. These pulses are combined by the element OR 11 and then pass through the time delay in block 12, and this delay can be controlled within OH-T / 2, where T is the period of operation of the pulse predragatel 3. Similarly, pulses are formed in channel 7 based on phase network voltage. Elements 12 and 17 of the delay are arranged so that at zero signal 18, element 12 realizes the maximum delay equal to T / 2, and element 17 - the minimum equal to 0. As the signal 18 increases, we have: - “- (i- °) v (° - fj. As a result, the pulse interrupter 3 generates a rectangular voltage pulse with a duration within O - T, the axis of symmetry of the OO which coincides with the maximum voltage of the voltage. The technical and economic efficiency of the proposed device is determined by the synchronization supply network interrupter improved smoothing of the ripple of the primary current, eliminating the interfering reciprocal influence of the supply mains frequencies and preprocessing the body, simplifying the control system. claims Device for controlling a pulse converter consisting of a series-connected unmanaged luminous filter, filter and pulse transmitter containing a pulse control pulse shaping unit of a pulse chopper consisting of two channels of the control pulse opening and closing pulse generator, of about 5 hours The aim is that, in order to reduce the ripple of the current in the network and the load, it is equipped with two blocks of time delay and two synchronization blocks, one of which consists of three sensors, 10 zero linear voltages and the first element OR, and the other of three sensors zero. phase voltages and the second element OR, the linear voltage zero sensors through the first I / 1I element and 15 the first input of the corresponding time delay block are connected to the pulse-opening opening control channel of the pulse interrupter, zero phase sensors Apr. through the second element 20 IL. And the first input of the corresponding block of time delay is connected to ka.

The generation of control pulses is generated by the closure of the pulse interrupter, and the second inputs of the time delay blocks are used to connect the control signal.

Sources of information taken into account in the examination

1.Zaitsev A.P., Podlnna V.A., et al. Relein system for automatic control of the current of traction electric motors with a constant switching frequency

and variable structure. - Sat. Electrical industry, ser. T govoy and hoisting electrical equipment, 1975, vol. 2/35, p. 5-6, fig. 1-2.

2. Modern tasks of conversion technology. - Collection of theses and reports. Kiev, Institute of Electrical Engineering, USSR Academy of Sciences, 1975, V. 5, p. 34-44, fig. five.

.Z

  L t l t. k k k b. k, .. ik-JLk k k Lk fc

JJ J

Claims (1)

Claim Apparatus for controlling the pulse converter, consisting of serially connected uncontrolled rectifier, filter and pulse pro- chopper ⁵ comprising a chopper unit for forming control pulses of pulse consisting of two pulse generating control opening and closing of the channel impulse interrupter about 5 kicks the m- In order to reduce ripple current in the network and the load, it is equipped with two time * delay units and two. synchronization units, one of which consists of three sensors 10 zeros of linear voltages and the first OR element, the other of three zero phase voltage sensors and a second OR element, and zero voltage line sensors through the first OR element 15 and the first input of the corresponding time delay unit are connected to the pulse generation channel for controlling the opening of the pulse chopper, sensors zero phase voltages through the second OR element 20 and the first input of the corresponding time delay unit are connected to ka. 983970 to the final pulse generation, the closing control of the pulse breakers, and the second inputs of the time delay blocks are designed to connect a control signal.