SU944065A1 - Device for control of group of m-phase current inverters - Google Patents

Description

(54) DEVICE FOR CONTROLLING A GROUP OF m-PHASE CURRENT INVERTERS

one

The invention relates to electrical engineering and is intended to control a venous transducer for transferring energy from an MHD generator to a pneumatic network with a higher frequency link.

A device for controlling an inverter current is known, consisting of a master oscillator (multivibrator), a logic distributor (converter), and control driver drivers 1.

However, it is unsuitable for controlling a group of inverters, each of which is connected to a corresponding frame of an MHD generator.

The closest in technical essence to the invention is a single-channel phase control device based on a vertical control principle. One channel of the system provides high symmetry of control impulses, the vertical principle ensures good dynamic properties. The device contains a generator

a linearly varying and control signal, connected through an adder to a null organ, the output of which is connected to a distributor (it consists of a counter and a decoder), the outputs, the impedance distributor, are connected to the inputs of a generator of rectangular-step voltage, the output of the latter is connected to the input of the adder 2},

JJ However, this device is designed to control the output parameter of the converter converter. In the considered system, adjustment of the input parameter is required - the amplification of the input currents, the adjustment of the output parameter is entrusted to the dp control device by the direct frequency converter.

The purpose of the invention is to expand the functionality of the device.

Claims (2)

This goal is achieved by the fact that in a device for controlling a group of ltl-phase autonomous current inverters containing a generator of linearly varying voltage, connected through an adder, a zero-organ and a counter with ixipoM, the output of the counter through a generator 11r of a motorized stage connected to the input of the adder, a clock generator, a frequency divider, a half-full counter and an additional decoder, an inverter control angle mismatch sensor and an inverter input current difference sensor are input. The generator is associated with an additional counter and a frequency divider, the output of which is connected to the generator input of a linearly varying voltage and to the installation inputs of an additional pin counter whose outputs are connected to the Additional placard, and the date- The mismatch between the control angles of the inverters and the sensor of the difference between the input currents of the inverters are connected to the inputs of the adder. FIG. 1 shows a block diagram of the device; in fig. 2 - timing charts, illustrating the characteristic operation mode of the device. The clock generator 1 is a frequency divider 2, the generator is a linearly varying voltage 3, the adder 4, and zero body 5 is connected to the counter. 6, whose bitwise outputs are connected to the deflector 7 and the generator of alternating-step voltage 8 connected to the input of the adder 4. Other inputs of the adder 4 are connected to the sensor for matching the control angles of the inverters 9 and the difference sensor of the input currents of the inverters 10 The input of the additional counter 11 is zag zap with the clock generator 1, the setting inputs of all the bits with the output of frequency divider 2, and the outputs are bitwise connected to the additional decider 12. The control and sensors of the first inverter are formed at the output of fratora 12, second inverter - the output of the decoder 7. When combining the plurality of inverters each subsequent must be provided with elements 3-10 circuit (Figure 1.). FIG. 2 shows: 13 — pulses of the clock generator 1 (the order of supplying these pulses is indicated at the valve of the first inverter); 14 is the voltage at the output of the generator of a linearly varying voltage 3; 15 - voltage at the output of the sensor mismatch of the control angles of the inverters; 16 — totalizer voltage of linearly varying generators and of direct-step voltage; 17 —the output voltage of the generator of the direct-step voltage generator 8; 18 - impulses at the input of the counter b (the order of the supply of these pulses to the valves of the second inverter is indicated). The principle of operation of the device is as follows. The device provides the shift of the control pulses of two inverters by the error angle at which the input currents of the inverters are equal. The diagrams (Fig. 2) correspond to the steady state mode of operation of the inverters, when the input currents are equal and the signal at the output of the sensor 10 is absent. The impulses of the clock generator 1 are fed to an additional counter 11 and are distributed to the nejv gateways of the inverter in a cyclic order, (pulses 13). Frequency divider 2 divides the frequency by six times, which corresponds to the pulsation of the input current of a three-phase bridge inverter, chosen as an example. Once a period of the output frequency of the inverters, the generator of the linearly varying voltage 3 is started, and at the same time the counter 11 is installed, which ensures the synchronization of the order of operation of the inverter valves. The error sensor signal of the control angles of the inverters 9 (voltage 15) is equal to the value of voltage 14 offset from zero by an angle of 1p, which is ensured by the appropriate selection of the transmitter's transmission coefficient 9. Therefore, in the absence of a difference in the input currents of the inverters, the angle remains. For this, the total voltage 15 is cyclically repeated with the frequency of the inverter control, which is achieved by appropriate selection of the steps of the generator-stage voltage 8 and the switching of the steps at each actuation of the zero-organ 5. At each actuation of the zero-organ 5 a control pulse is generated on the valves of the second inverter, the number of the operating valve is unambiguously related to the magnitude of the generator level 8. When a difference in the input currents is detected, the signal of the sensor 10 is fed to the adder 4 and the response time nulorgana 5 varies. The error angle Y changes until the current difference between the two inverters is reduced to zero. Thus, the invention makes it possible to meet the requirements in the system for transmitting energy from an MHD generator, in particular to achieve equalization of the currents of individual inverters. This solves the problem of creating veins of typical transducers for MHD generators based on transducers with a higher frequency link. In such converters, the problem of summing up the power of individual frames of an MHD generator, which has not been efficiently solved by now, is effectively solved. Due to this, it is possible to create valve converters for MHD generator O1B with high technical and economic indicators. The economic effect of the introduction of the device is determined by the total calculation of the cost of the MHD power plant and is due to the significant fuel savings in the conversion of thermal energy into electrical energy based on MHD generators. Apparatus of the Invention A device for controlling a group of ID-phase current inverters, comprising a generator of linearly varying voltages, coupled through an adder, a zero organ and a counter to a decoder, and a httptttt rator connected to the outputs of the counter and the input of the adder, characterized by so that, in order to expand the functionality, it is equipped with a clock generator, a frequency depot, an additional counter, an additional decoder, a mismatch sensor of the control angles Inverter input current difference sensors, the clock generator is connected to an additional counter and a frequency divider, the output of which is connected to the generator input of a linearly varying voltage and the installation inputs of an additional counter whose outputs are connected to an additional decoder, the error sensor of the inverter control angles and the sensor The differences in the input currents of the inverter are connected to the inputs of the adder, and the outputs of the decoders are intended to be connected to current inverters. Sources of information taken into account in the examination 1. Autonomous inverters. Ed. G. V. Chaly. Chisinau, Shtiintsa, 1974, p. 292. 2. USSR author's certificate number 547963, cl. H O2 P 12/16, 1975. if t f a ill II I B c i / a I II i te fizl