SU752691A1 - Self-contained voltage onverter - Google Patents

Description

(54) AUTONOMOUS VOLTAGE INVERTER. The invention of overhead engineering for hepatic technology, namely, autonomous voltage inverters, and can be used, for example, in installations of a recirculated electric drive, in particular, a multi-motor electrophony, an autonomous voltage inverter containing two thyristor and diode bridges, as well as common node of forced commutation of power thyristors; connectable to them with the help of junction switches | JLJ. An autonomous voltage inverter containing thyristor and diode bridges is also known, in the dc circuits of which the anodic and cathodic switching nodes are included, which ensure the locking of power T1pistors J. The autonomous 2 voltage inverter with a node is the closest to the invention switching, having two drossel in the circuit of direct current, as well as associated switching thyristors and capacitors 3. However, when used in autonomous such a switching node, the curve of the output current of the inverter has an irregular shape, which leads to a decrease in efficiency, especially at an increased output frequency. In addition, for supplying, for example, two loads, two such inverters are required, which complicates the circuit of the converter plant as a matter of fact. The purpose of the invention is to increase efficiency and simplify. The goal is achieved by the fact that in an autonomous voltage inverter, which connects a bridge-powered vaeristors, a reverse-diode bridge, the alternating current leads of which are connected to the output terminals, and the direct current terminals are connected to the input terminals, and the anodic and cathodic forced switching nodes power tirzhtor, reception anode switching node consists of an anode group of the switching drossel connected to the positive input terminal and connected to the common point of the thyristors of the anode group, and formed by the switching capacitor In the opposite direction, the switching tirissing sequential powering is connected by a connection between the positive input terminal and the intermediate output winding of the switching throttle, and the cathode switching node also contains the switching tristor and double-wound choke, in the cathode switching node, the torsioner, the tristor and the two-winding choke, in the cathode switching node, the tsistor, the torsistor and the two-winding choke, switching throttle form a serial depot, which is connected in parallel to the aforementioned switching capacitor, secondary the coil of the same droplet is connected to the negative input terminal and is connected to the common tossing thyristors of the cathode group, the common commutating point of the thyristor JI of the primary winding of the switching droselsel of the cathode switching node is connected to the negative input terminal through an additional thyrio connected in the direction The windings of both commutating chokes, located in the direct current circuits, are protected by each additional thyristor. In order to simplify and reduce the cost, an autonomous voltage inverter has been introduced at least one additional three-phase and diode bridge, which are connected in parallel to the main one. Moreover, with a decrease in switching overvoltages, in the circuits. The anodic and cathodic thyristor groups between the corresponding choke and the common point of the thyritor are connected to additional split thyristors, each bridged by symmetric voltage limiters, to the terminals of the current circuit of the thyristor bridge, an additional symmetrical voltage limiter is also connected, and the pair the switching capacitor is connected in series with a chain formed by a current-limiting resistor and a symmetric limit of the circuit, for supplying, for example, two loads but to use a switching node, common for two inverter bridges. The drawing shows a basic diagram of the inverter. The inverter contains a common switching node 1, as well as bridges 2 and 3 of reverse diodes and 4 and 5 power thyristors, in the anode node. A: commutation-choke 6, shunted by reverse thyristor 7, is connected with the common point of the power thyristor-bridge group of the bridge through the separator thyrerator 8, and the delayed symmetric HiHbiM voltage limiter 9. In the automatic switching node, the secondary winding of the Drossel Yu is also spun by the reverse thyristor 11 and is connected to the common point of the cathodes of the power thyristors through separating thyristor 12, which is shunted by the limiter 13. The switching thyristor 14 and the capacitor 15 are connected to the winding of the springs 6, and the capacitor is shunted by the restraint 13. and limiter 17. The switching thyristor 18 is connected to the primary winding of the throttles 10, which, in turn, is connected via the thyristor 19 to the negative input terminal. i DCs of the thyristor monitors The stations are bounded by a limiter 20. The autonomous voltage inverter operates as follows. Switching nodes are used for interrupt-. Neither the current of the power supply, and the operating time of the THIS nodes at least by order of maximum output frequency of the inverter. The frequency of the output voltage for each of the bridges is independently determined by selecting the appropriate number of pulses entering the load circuit during the period of the output voltage curve. When unlocking the thyristor 19 condensate-. The torus 15 is charged first to double, the voltage of the power source is 2 V, however, due to the action of the limiting circuit 16 ,, 17, the voltage on the capacitor is set at 1, Then, when unlocked, the thyristor current of the anode group, and recharging the capacitor 15 to a voltage specified by selecting the moment of unlocking the thyristor7. When unlocking THpHCTdJja 18, the current of the cathode group thyristors is switched and recharging the capacitor 15 to the voltage specified by choosing the moment of unlocking the thyristor 11, Isho The same voltage on the capacitor is again restored when the thyristor 19 is unlocked. Thus, limiting the voltage growth on the capacitor 15 to 1H improves the efficiency, and using at least two inverter bridges to simplify the converter when applied to it, for example RH / motor drive. Symmetric voltage limiters ALLOW

reduce the value of re1 | aprIs by 1.5 times.

Claims (3)

Invention Formula 1, A standalone voltage inverter containing a bridge of power thyristors, a bridge of reverse diodes, recurrent current terminals about which are connected to the output pins, and DC terminals to input pins, and anode and cathode nodes of forced switching and power thyristors, and the anode node switching co-t5 toit from connected to a positive input terminal and connected to a common point T1fistors of the anodic group of the switching throttle, and formed by the switching spreader and switched on in the reverse direction of the switch1 a firing thyristor of a sequential chain connected between the positive input terminal and the intermediate winding of switching commutators, and the cathode-25 switching node also contains a switching thyristor and a double-wound choke, which is similar to that of the cathode, and the cathode, which is similar to that of the cathode, which is also cathode efficient, and it has a cathode and a two-winding choke, which is suitable for the efficiency of the cathode and a two-winding choke, which is similar to the cathode efficiency of the cathode and a two-winding choke, which is similar to that of the cathode, and the cathode is a cathode choke that is similar to the efficiency of the cathode and a two-winding choke, which is similar to the cathode efficiency of the cathode. switching commutating thyristor, CH1NY in the opposite direction, and the primary winding of commutating throttle obra; The secondary circuit connected to the negative input terminal and connected to the common point of the thyristor of the cathode group, the common point of the switching thyristor and the primary winding of the switching dipole-40, is connected to a series circuit connected in parallel with the mentioned switching capacitor. The cathode switching node villages are connected to a negative input terminal through an additional thyristor connected in the forward direction, and the windings of both commutating chokes located in the DC circuits are shunted by an additional reverse thyristor 2. The POP.1 inverter, which is also distinguished by the fact that, in order to simplify and reduce the cost, at least one additional thyristor and diode bridge, which are connected in parallel with the main bridge, is entered into it. 3. The inverter according to Claims 1 and 2, about tl and - reading. That, in order to reduce switching overvoltages, in the anodic to cathodic groups of the thyristors between the corresponding choke and the common thyristor point includes additional separation thyristors, each clamped by symmetrical voltage limiters, an additional symmetric voltage limiter is also connected to the DC terminals of the drawing bridge, and a parallel circuit formed by a current-limiting resistor and a symmetric voltage limiter is connected to the switching capacitor. Sources of information taken into account in the examination 1. US patent No. 3775662, CL H 02 M 7/48, published. 27. And, 73. 2.UK patent number 12 9494 kl.N O2M 5/52. 3. USSR Author's Certificate No. 264257, kgf. H 02 M 7/515 / / H O2 M 5 / -257, 12.24.68.