SU518856A1 - Device for separate control of a reversible valve converter with parallel-connected non-phase-feeding bridges - Google Patents

Description

transformers as a result of shunting series-connected thyristors with resistors to equalize the reverse voltages. In addition, the use of the device under consideration for units with parallel with the coupling of non-phase-powered bridges is impossible because; that even with the closed valve of all the gates of these bridges, it is hardly possible to simultaneously indicate the presence of voltages exceeding a certain predetermined threshold on all the gates of these bridges in the whole range of e. c. with. nag ruzki. This is due to the fact that the value of a predetermined threshold should not be less than the voltage on the open valve shoulder, which is determined by the voltage drop on the anode dividers and the inductance of the busbars and, at the moments of switching the valves, reaches relatively large values - 30 - 40 V . Moreover, such devices are unreliable when powering the supply voltage. The purpose of the invention is to increase the reliability of the converter when switching bridges and to reduce the dead time during current reversal. The proposed device is distinguished by the fact that it is equipped with triggers and third logical keys AND for the number of sensors, as well as logical keys NOT and OR one for parallel connected bridges of the same direction, with the outputs of the sensors of the same direction connected to the inputs of the OR key and , the outputs of the keys OR are connected to the logical switching unit, the second inputs of the third keys AND are connected to the output of the key NOT, whose input is connected to the output of the first key I. The first inputs of the triggers are connected to And third key strokes, second inputs of flip-flops soy dineny with the first key and outputs and RYhody flops are connected to inputs of the first switch and connected in parallel washes Aiyroro direction. On the h (ftezhe shows a structural diagram of the device, where DN-VA, DN-VK, DN-NA, DN-NK - sensors of the simultaneous presence of voltage on all the shoulders of the anode and cathode groups of the Forward and Back bridges; 1В, 2В, 1Н, 2Н - parallel connected bridges Forward and Back; Tr-transformer; D-motor; LPU - logical switching device; Tr1-Tr4-trigger,; 1-1-1 - I-6 - first logical switches I; I-1B, And -2V, I-1H, I-2H - the second high-key keys AND; OR-1, OR-2 - logically .e keys OR; NOT-1, NOT-2-logical NOT; NLZ-B, NLZ-N- nonlinear (asymmetrical) delay lines; ФСУ1В, ФСУ-1Н, FSU-2B, FSU-2H-phase-shifting devices; FI-Yu, FI-2V, FI-1H, FI-2H-pulse shapers. The device works as follows. Suppose that a logical switching device is in a state where The key I-1 is open, the key I-2, ..., is locked. The pulses of the FSU-1B phase-shifting device through the CL-JCh-1B arrive at the start of the FI1B pulse generator, and the pulses of the Phas-2B phase shifter through the I-2 B key - to start the pulse former PI-2V. At the same time, bridges IB, .2V (direction Forward) are open, and in the load circuit flows t OK. There are no enabling signals at the output of the voltage sensors DN-VA, DN-VK, and the logical switching device retains its state. If the load current decreases to zero and all thyristors of any group (for example, cathode)) of parallel-connected 1B, 2B bridges are closed, the resulting enable signal from the voltage sensor DN-VK through the switch OR-1 will set the logic switch to in which the time delay closes the key I-1. At the same time, the control pulses of the PA from bridges 1B, 2B are removed. At the same time, the signal from the output of the voltage sensor DN-VK through the key I-3 sets the trigger Tr1 to the position at which the enabling signal to one of the inputs of the key I-2 is applied. However, to open this key, the Tr2 signal from the voltage sensor DN-VA must also be set to the same position on the locked state of all anode valves of the bridge IB, 2B. If until the current was reduced to zero, the converter worked in the inverter the mode, then after the MD is removed by the DN-VC signal, some of the anodic group thyristors, especially when the power supply voltage drops, will be kept open by leakage currents through the locked shoulders of the cathode group bridges. Since the trigger Tr2 does not permit the opening of the key I-2, then Y, the 1H, 2H bridges are not served, as a result of which the possibility of an accident is excluded. Only after locking all the anode gates of the bridges 1B, 2B and, consequently, all the gates of these bridges, the trigger Tr2 switches to the initial position, and a enable signal appears at the other key input. To the third input ..., echo with a delay in time, defined by a non-linear line, draw it: .k,. On the other entries of the key

FT-2 there are resolving signals on the absence of UI-1B, UI-2B. As a result, the key I-2 will open, the pulses of Phasosavi1-ai:) 1 of their FSU-1H, FSU-2H devices through the c-, corresponding I-1H, and I-2H keys are sent to start the FI-1N pulse shapers -2N, and on the bridges 1H, 2H on. control pulses go out. Switching to work with bridges 1B, 2B occurs as described.

Claims (1)

Invention Formula A device for separate control of a reversible valve converter with parallel-connected non-phase-out. A bridges containing sensors for the presence of voltages of a separate anodic and cathodic valve groups of parallel-connected bridges in each direction, a logical switching unit whose inputs are connected to the outputs of these sensors, the first logical switches AND whose inputs through a non-linear delay line are connected to the outputs of a logical junction the block, the second logical switches AND, the inputs of which are connected to the outputs of the first keys AND and the outputs of the phase-shifting blocks of the bridges, and the outputs - to the inputs of the control drivers their bridge impulses, characterized in that, in order to increase the reliability of operation when switching bridges and reduce the dead time, it is equipped with triggers and third logical keys AND for the number of sensors and also logical keys NOT and OR, one for parallel bridges of the same direction , the outputs of the sensors of one direction are connected to the inputs of the OR key and to the first inputs of the third keys AND, the outputs of the keys OR are connected to the logical switching unit, the second inputs of the third keys AND are connected to the output of the cells No, the input of which is connected to the output of the first key AND, the first inputs of the triggers are connected to the outputs of the third key AND, the second inputs of the triggers are connected to the output of the first key AND, and the outputs of the triggers are connected to the inputs of the first key AND connected in parallel bridges of a different direction.