SU955413A1 - Multi-channel discrete phase-shifting device - Google Patents

Description

(54) MULTICHANNEL DISCRETE PHASE SHIFTING DEVICE

Claims (2)

The invention relates to a converter technique and can be used in devices for controlling the phase of control pulses of multichannel thyristor converters. Multichannel phase-shifting devices are known that contain a controlled oscillator, clock generators, counters, logic elements AND, and control pulse drivers I. The disadvantage of this device is the low stability due to the instability of the elements of the generator of synchronizing impulses. Most closely related to the technical device of the invention, the means and results achieved are a multichannel discrete phase-shifting device containing a constant-frequency pulse generator, a control unit register, clock generators common to two channels connected to the first inputs of the counters, low-order outputs which are connected. the first inputs of the comparators, the second inputs of which are connected to the register of the control unit, are twice the number of channels, the coincidence elements, the first inputs of the KOTOE JX are connected to the outputs of the corresponding channel comparators, the second inputs are connected to high voltage counters, and the outputs of the matching elements are through the elements OR connected to the inputs of the channel formers of control pulses 2. A disadvantage of the known device is the low accuracy of operation, due to the instability of the parameters of its elements Comrade The purpose of the invention is to improve the accuracy of the device. The goal is achieved by the fact that the device is equipped with a pulse distributor, the input of which is connected to a constant-frequency pulse generator, and the output is connected to the inputs of synchronizing pulse shapers, with the second inputs of counters and the third inputs of the comparators. Each of the synchronizing pulse shapers is made on the basis of a limiter amplifier connected to its input, the output of which is connected to one input of series-connected main and additional reversible counters, the outputs of the additional counter are connected to the first group of inputs of the element I, the amplifier of the limiter and . Both of the meters are connected to the output of the pulse distributor, the output of the element I is connected to the input of the corresponding -channel counter. Figures 1 and 2 show, respectively, the principal electrical circuits of the phase shifter and the sync pulse generator. A multichannel discrete phase-shifting device contains a generator of 1 constant frequency pulses connected to a distributor of 2 pulses, shapers of 3 synchronizing pulses according to the number of channels whose outputs are connected to the first inputs of the counters 4 low-level outputs of which are connected to the first inputs of the comparators 5, the second inputs of which connected to register 6 of the control unit. The output of the distributor 2 pulses are connected to the inputs of the formers 3, with the second inputs of the counters 4 and with the third inputs of the comparators. The outputs of the comparators 5 are connected to the first inputs of the corresponding coincidence elements 7, the outputs of which through the elements OR 8 are connected to the inputs of the control pulse formers 9. The second inputs of the coincidence elements 7 are pairwise connected to the outputs of the bits of the respective counters 4. Each of the drivers of the 3 synchronizing pulses (figure 2) contains the limiting amplifier 10, the direct and inverse outputs of which are connected to the control inputs the main reversible counter 11 and the additional reversible counter 12. The outputs of the counter 11 are connected to the inputs of the counter 12, the outputs of which are connected to the inputs of the element 13 of the co-fall. The inputs of the counters 11 and 12, the amplifier-limiter 10 and the coincidence element 13 are connected to the outputs of the distributor 2 pulses. The output of the coincidence element 13 is the output of the synchronizers 3 synchronizing pulses. The multichannel direct phase-shifting device operates as follows. The pulses of the generator 1, whose frequency is 2 times higher than the frequency of the phase voltages of the tyrnstorny converter, arrive at the distributor 2, which forms the required number of sequences of pulses shifted between themselves in time. The voltage voltages of the thyristor converter are fed to the first inputs of the formers 3, to the other inputs of which the pulse sequences come from the distributor 2. The formers 3 form synchronizing pulses in-phase with the sequence of pulses of the distributor 2 that once during the phase T phase voltage at the moment of phase transition the voltages from minus to the plus are fed through zero to the first inputs of counters 4 for setting these counters to zero. Counters 4 are counting pulses from the distributor 2 ,. this uses a sequence of pulses that are not in-phase with the pulses used to form the synchronizing pulses, which eliminates the coincidence of the counting and zero points of the counters 4. Twice during the period T of the phase voltage, the codes of the younger ones coincide. counter bits 4 and control register code 6, the value of which determines the instant of coincidence. After the next pulse of the pulse sequence from the distributor 2 arrives at the third inputs of the comparators 5, the comparators 5, in the presence of the specified codes, generate coincidence pulses, which through the coincidence elements 7, at the input of which there is an enable signal from the high bit of counter 4, arrive at elements 8 and further shapers 9 whose output signals are device output signals. The accuracy of the device operation is: It is made in the following way. The trigger level of the amplifier of the limiter 10 may shift due to the instability of the analog elements, which entails a displacement in time of voltage drops at the output of block 10, but at the same time the offset of the reverse, and to one side from the moment the phase voltage passes through zero from minus to plus sec high accuracy is equal to the offset of the differential in the other direction with respect to the moment of the phase voltage crossing zero from plus to minus. For this reason, as a result of direct and inverse counting in block 11, a number is formed that is proportional to the offset of the voltage drop of block 10 in relation to the phase voltage crossing through zero. Carried out the rever; a massive count of a quarter of this number in block 12 from the moment of the positive differential of the output voltage of block 10, at the moment the code vanishes in block 12, we obtain at the output of element 13 a pulse that coincides with the zero of the phase voltage. Claim 1. Multi-channel discrete phase-shifting device for controlling a multiphase thyristor converter containing a constant-frequency pulse generator, a control unit register, clock generators common to two channels connected to the first inputs of the counters, the lower bits of which are connected to the first inputs of the comparator whose second inputs are connected to the control unit register, doubling the number of channels, the coincidence elements, the first inputs that are connected The outputs of the corresponding channel comparators, the second inputs are connected to the outputs of the higher bits of the counters, and the outputs of the matching elements through the OR elements are connected to the inputs of the channel driver for control pulses, characterized by TeMj, which is equipped with a pulse distributor whose input connected to a constant-frequency pulse generator, and the output connected to the inputs of synchronizing drivers, to their pulses, to the second inputs of counters, and to the third inputs of the comparators. 2. A device according to Claim 1, characterized in that each of the synchronizing pulse drivers is made on the basis of a limiting amplifier connected to its input, the output of which is connected to one of the inputs of the main and auxiliary connected in series reversible counters, the outputs of the additional counter are connected to the first group of inputs of the element And, the second group of inputs of the element And, the amplifier-limiter and both account ticks connected to the output of the pulse distributor, the output of the element I, is connected to the input of the corresponding channel counter. Information sources, taken into account in the examination 1. USSR author's certificate 550755, cl. H 02 R 13/16, 1973. 2. USSR author's certificate on application 2774549 / 24-07, cl. H 02 R 13/16, 1979. Hlh