CS207404B1 - Connection for the control of the static convertors with vertical control - Google Patents

Description

Wiring for control of static converters with vertical control. A voltage regulator with a voltage polarity converter is connected to at least one comparator pair and a synchronization voltage source is connected so that a voltage regulator is connected to the second odd comparator input via a voltage polarity converter and a voltage regulator is connected to the first even comparator input.

Each pair of comparators has a separate source of synchronization voltage or the source is connected both to the second input of the even comparator and to the first odd input. Suitable for multi-phase wiring of controlled drives,

207 404/207 404 Int. Cl. 'H 02 P 13/14

207 404

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a wiring for controlling static inverters with vertical valve control, comprising comparators to which voltage regulators with voltage polarity converters and a synchronizing voltage source are connected.

There are known circuits using comparators, one of which is connected with control voltage and the other input of this comparator with corresponding synchronization pulses. The inputs of all comparators are connected in parallel to the output of the same regulator, while each comparator has its own source of synchronization pulses. Therefore, for each non-synchronous output pulse of the comparator, there must be a separate synchronization signal, increasing the number of components, the cost of the device, and its reliability.

In principle, the invention provides a static converter control circuit in which at least one comparator pair is connected to a voltage regulator with a voltage polarity converter and a source of synchronization voltage such that a voltage regulator is connected to the other input of the odd comparator. through a voltage polarity converter. A voltage regulator is connected to the first input of the even comparator. The sync voltage source is connected to the first odd comparator input and the second even comparator input. Each pair of comparators has a separate sync voltage source, or the sync voltage source is connected to the second even comparator input parallel to the voltage regulator and to the first odd comparator input parallel to the voltage polarity converter.

An example of a wiring according to the invention is further described by means of the drawings, in which FIG. 1 shows the wiring for controlling the static converters, FIG. 2 shows the voltage waveforms on the comparator inputs and outputs, and FIG.

Comparators K are arranged in pairs of odd K1 ... Kn-1 and even K2 ... Kn.

Each of these pairs has its own synchronization voltage source S1. The voltage regulator R is connected via the voltage polarity converter B to the second inputs of the odd comparators Kl ... Knl. The voltage regulator R is connected directly to the first inputs of the even comparators K2 .., Kn. The sources of synchronization voltage S1, Sn are connected to the first inputs of odd comparators K1 ... Kn-1 and to the second inputs of even comparators K2 .. »Kn.

This connection can be restored as shown in Fig. 3. The first inputs of odd comparators Kl ... Kn-1 are connected in parallel to the voltage polarity converter B by a synchronization voltage source S1, Sn, which is simultaneously connected in parallel to the second input of even comparators K2 ... Kn parallel to voltage regulator R,

The output voltage ul of the voltage regulator R is applied to the first inputs of the even comparators K2, K4 .. .Kn, while to the second inputs of the odd comparators K1, K3. »Kn-1 is applied to the voltage u2 of the same absolute value as voltage ul but opposite polarity voltage polarity converters B, On comparator inputs K1, K2 .. .Kn to which the control voltages ul and u2 are not connected, ie, on the first inputs of odd comparators K1, K3 ... Kn-1 and on the second inputs of even comparators K2, K4 ... Kn are supplied from the synchronization voltage source S1, 32, SN with the respective pair of comparators K1-K2, K3-K4 ... Kn-1-Kn. It is when using opamps as comparators

207 404, the first input is an inverting input, the second input is a non-inverting input, and vice versa.

The time course of the steady state control voltage u1, u2, the triangular synchronization voltage and the output pulses u5 and u6 of one pair of comparators is shown in Fig. 2.

FIG. 3 shows a variation of the circuit according to the invention. The difference from the circuit shown in FIG. 1 is that the first input of comparator K1 is optionally supplied via resistors in parallel to the synchronization voltage of source S1 by a control voltage u2 from the polarity converter B and to the second input of comparator K2 the control voltage ul from the control voltage source R, the remaining inputs being connected to a common potential.

Replacing the control voltage u1 and u2 at the respective inputs of each comparator pair and thus naturally also applying a synchronization voltage to those inputs of the comparator pairs to which the control voltages u1 and u2 are not connected is obvious and does not depart from the scope of the invention.

Further processing of the output pulses ug and ue of the comparators is known, is not the essence of the invention and is therefore not described.

Use of the invention is suitable for multiphase wiring of controlled drives.

Claims (1)

Wiring for the control of static inverters with vertical valve control, consisting of comparators to which voltage regulators are connected by voltage polarity converters and synchronization voltage sources, characterized in that at least one pair of comparators (K1, K2, .. Kn-1, Kn) are connected both voltage regulator (R) with voltage polarity converter (B) and second source of synchronization voltage (Sl, ... Sn) so that the second input of odd comparator (Kl, ... Kn-l) is connected voltage regulator ( R), through the voltage polarity converter (B), to the first input of the even comparator (K2, ... Kn) is connected voltage regulator (R), the source of synchronization voltage (Sl ... Sn) is connected to the first input of odd comparator ( K1, ... Kn-1) and the second input of the even comparator (K2, ... Kn), each pair of comparators (K1, K2, ... Kn-1, Kn) having a separate sync voltage source (S1, K1). ..Sn), or the source of the synchronization voltage (S1, .. Sn) is connected first to the second input of the even comparator (K2, ... Kn) parallel to the voltage regulator (R) and to the first input of the odd comparator (K1, ... Kn-1) parallel to the voltage polarity converter (B) _o