RU2004117367A - METHOD FOR CONTROLLING A HYBRID SWITCHING DEVICE AND A HYBRID SWITCHING DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (6)

1. A control method for a hybrid switching apparatus comprising an electromechanical switch with a control system and a semiconductor switch connected in series with it based on a fully controlled device, for example, a transistor or a lockable thyristor, also with a control system, which consists in generating on and off signals for the electromechanical switch and opening, holding and closing signals for a semiconductor switch, characterized in that the holding signal l for a semiconductor switch is formed by a device for which the voltage at the load is used as the supply voltage. 2. The control method according to claim 1, characterized in that before the formation of the switching signal for the electromechanical switch, the health of the semiconductor switch is controlled and the switching signal for the electromechanical switch is formed only with a working semiconductor switch. 3. The hybrid switching apparatus for implementing the control method according to claim 1, comprising an electromechanical switch with a drive and a control system, a semiconductor switch with a control system, which includes opening, holding and closing blocks and a load current sensor, while the electromechanical switch and the semiconductor the switch is connected in series with each other, opening and closing blocks of the control system of the semiconductor switch pins for supply voltage connected to the auxiliary power supply network, the output terminals of the load current sensor are connected to the input terminals of the drive, as well as to the first input terminals of the opening, holding and closing blocks, the output terminals of the opening, holding and closing blocks are connected to the input terminals of the semiconductor switch, characterized in that an additional voltage sensor has been introduced at the load, while its input terminals are connected to the load, and its output terminals are connected to the terminals for supplying voltage the retaining unit. 4. The hybrid switching apparatus according to claim 3, characterized in that the second stop switch of the semiconductor switch is connected in parallel with the terminals for supplying a supply voltage to the holding unit. 5. The hybrid switching apparatus according to claim 3, characterized in that the output terminals of the voltage sensor are connected to the second input terminals of the opening unit. 6. The hybrid switching apparatus according to claim 3, characterized in that an additional monitoring relay is introduced, wherein the input terminals of the monitoring relay are connected to the semiconductor switch, the output terminals of which are connected to the input terminals of the control system of the electromechanical switch.