SU433587A1 - DEVICE OF PROTECTION OF IONIC CONVERTER - Google Patents

Description

one

A device for protection of ion converters is known, comprising a valve current sensor, the output of which is connected to one of the inputs of the coincidence circuit.

In order to increase reliability, the output of the test pulse generator is connected to another input of the coincidence circuit.

The device is designed to control the operation of the valves in controlled and uncontrolled, reversible and non-reversible converters and signals the occurrence of emergency conditions (reverse ignition, high forward current, misfire, breakthrough of the valve, inverter tipping over).

The drawing is a schematic diagram of the device.

It consists of reverse ignition sensors, a high direct current, the presence of a voltage on the anode of an RV valve that exceeds the ignition voltage, the presence of an anode current and the presence of a grid pulse, as well as a logic circuit.

The reverse ignition sensor IT is a closed magnetic circuit with windings: primary Wi, magnetization Wz and secondary Ws. The primary winding of the sensor is the anode wire of the valve.

The currents in the primary winding and the winding of the biasing during normal operation of the valve is directed according to, the bias current

It is chosen in such a way that the core is in a saturated state with the flow of both a direct current and a normal deionization current in the anode circuit. Due to this, during normal operation, the valve voltage on the secondary winding is practically absent.

In the case of reverse ignition, a current flows through the primary winding of the sensor, reversing the core, which leads to the appearance of emf in the windings located on it.

The emf induced in the secondary winding is a signal for a reverse ignition in the valve. This signal

formed with an RC circuit and limited in magnitude with a Zener diode CT.

The high forward current 2T sensor is similar and differs from the reverse ignition sensor in magnitude and direction of bias.

In order to reduce the size of the high current sensor and the power consumed by its bias winding, this sensor is connected through a CT current transformer connected to the anode circuit of the valve.

To demagnetize a current transformer, voltage pulses from a GI pulse generator are applied to its secondary winding.

(made, for example, according to the circuit of a valve switch), also used in the inverter tilting signaling circuit.

The sensor for the presence of voltage ST at the anode of the valve RV, exceeding the ignition voltage, is similar to the current sensor and differs from it by the magnitude of the magnetization (is chosen so that the sensor works with the voltage anode - cathode of the valve 25-30) allows, using the sensor in combination with the 1TP trigger, to receive at the trigger output a signal indicating the presence of a voltage valve at the anode that exceeds the ignition voltage. The signal circuits are potentially unrelated to the valve power circuit. Direct control of the voltage of the anode - cathode fan allows the use of an alarm device, regardless of the nature of the load on the converter.

The reverse ignition and high forward current signals are directly supplied from the respective sensors.

The valve breakout signal is given when the anode current of the valve appears in the absence of a grid pulse.

The ignition skip signal is applied if the anode current of the valve does not occur after psdachi control pulse to the grid when the voltage of the anode - cathode of the valve is higher than the ignition voltage.

The inverter tilting signal is applied at the same time to the circuit AND signal from the anode current sensor TT and the control pulse from the generator GI in the area where during normal operation of the converter the anode current should not exist.

Subject invention

An ion converter protection device containing a valve current sensor, the output of which is connected to one of the inputs of the coincidence circuit, characterized in that, to increase reliability, the output of the control pulse generator is connected to another input of the coincidence circuit.

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