SU610242A1 - Arrangement for switching parallel-operating electrochemical current sources - Google Patents

Description

(54) DEVICE FOR COMMUTATION IN PARALLEL

Claims (2)

WORKING ELECTROCHEMICAL CURRENT SOURCES Each auxiliary thyristor is connected by one power electrode to the connection point of the corresponding source and the switching thyristor, and the other power electrode to the common point of current sources through the switching capacitor and the indicated source | The switch of polarity of its connection. The device diagram is depicted on the other side of the device. The device contains parallel-connected electroplating current sources 1, connected through switching thyristors 2 to the power cells. 3 and. 4, the load 5, auxiliary thyristors 6, the cathodes of which are connected between each other and through the polarity switch of the connection 7 are connected to one plate of the switching capacitor 8, the second plate of which is connected to the common power terminal 4 of the current source through the current limiting resistor 9 1. The switch 7 of the polarity of the capacitor connection contains auxiliary relays 10 and 1 connected via diodes 12 and 13 parallel to the capacitor, and the switching relay 14, the winding of which is connected to oh klemg Doi-4 and through the relay contact groups 10 and 11 - with the power terminal 3. The device operates as follows. In the initial state, all included thyristors 2 and auxiliary thyristors b are turned off, the capacitor is discharged, the windings of the switching relay 14 and the auxiliary relays 10 and 11 are de-energized. By supplying trigger pulses to the control electrodes of the thyristors 2, electrochemical sources of current 1 are connected to the power terminal 3 and to the load 5. If it is necessary to disconnect from the power terminal. 3, a source, an appropriate auxiliary thyristor is supplied to the control electrode by a triggering pulse, the thyristor is opened, and a circuit is created for current flow from the positive output current source through the open auxiliary thyristor, relay contacts 14 and the current limiting resistor 9 To the negative terminal of the disconnectable-source, herewith, due to the drop in the current-voltage characteristic, the voltage at the disconnected source decreases, and the more, the lower the nominal voltage. 9 and the larger capacitor capacitance. The parameters of the latter are chosen so that when on. The auxiliary thyristor on the switchable current source was under voltage, sufficient to reliably close the corresponding switching thyristor formed when this locking voltage difference between the power terminal 3 and the positive terminal of the current source being distinguished. As the capacitor charges, the voltage on it increases. When it reaches a certain value, an auxiliary relay 10 is switched on, the circuit of which through diode 12 is connected parallel to the condenser. Switching on relay 10 triggers the switching relay 14 through the circuit: power terminal 3, normally closed relay contacts AND, normally open external contacts of relay 10, strong terminal 4, Relay 14 self-blocked with its normally open contact, on |; common parallel to the normally open pejle contact 10. Switching the contact groups of the relay 14 causes a break in the depi through which the charge current of the capacitor flows, resulting in an auxiliary thyristor and at the same time a positively charged capacitor plate It is connected to the negative power terminal 4, and negatively charged to the cathodes of the auxiliary thyristors, and the device is again ready for the next trips. The operation voltage of the relay 1O and 1I is chosen so that it corresponds to the end of the charge of the capacitor. In this case, the contact groups of the relay 14 commute minor currents in the system with the load currents of the current sources. The described device does not need additional galvanically separated voltage sources; one switching capacitor ensures that current sources are disconnected except for the latter. In addition, when the current sources are disconnected, there are no switching overvoltages on the power terminals of the power plant. The use of the device for - switching parallel electrochemical power sources allows improving the reliability of power plants based on them and reducing their weight and dimensions. Apparatus of the invention for switching in parallel operating electrochemical power sources, comprising thyristors / switching capacitors and auxiliary thyristors connected in series with each source, characterized in that, in order to simplify, reduce its weight and dimensions, a switching polarity switch is introduced into it each auxiliary thyristor is connected by a single power electrode to the point of connection of the corresponding source and including About the thyristor, and another power electrode, to the common point of the current sources through the "switching capacitor and the indicated switch of polarity of its connection. Sources of information taken into account in the examination: 1, US Patent No. 3496450, cl. 233-15, 1969. 2. Electrical industry, ser. Conversion Technique, 1976, no. 4 (75), p.12, -0kunev V.A. and others. High-speed thyristor switch.