CS201798B1 - Connection of the protective circuit of the transistor line scanning - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a transistor decomposition protective circuit.

Transistor line decomposition used in televisions is usually powered by a stabilized power supply. Failure of the stabilizer can increase the supply voltage, which can lead to subsequent failure of exposed components in the line decomposition or high voltage source circuits. This danger is greater the greater the stabilization range is used and the smaller the reserves for increased supply voltage in the line decomposition and high voltage supply circuits. In some televisions, a stabilized thyristor mains power supply is used which adjusts the supply voltage to a substantially lower magnitude than the mains voltage peak, as required by the line-to-transistor collector-emitter cut-off voltage. In this case, if the stabilization circuit fails, the supply voltage can be increased by more than 50%.

It is known to connect a current blocking circuit which monitors the peak current of the terminal transistor and disconnects the drive of the terminal transistor when it exceeds a certain limit. This circuit disconnects when the peak current of the terminal transistor is exceeded for a certain period of time. The actual configuration of the current blocking circuit is demanding since the terminal transistor of the line decomposition is connected to a grounded base and the protective circuit has multiple transistors.

The purpose of the transistor line breakdown protection circuit according to the invention is to eliminate the drawbacks of the prior art based on the relative complexity of the circuit blocking circuitry or other wiring of this kind, and to create a simple circuit with reliable function.

Accordingly, the aforesaid drawbacks remedy the reconnection of the transistor line scan protection circuit consisting of an output stage circuit connected to a power supply source, a line scan driver, wherein a transformer may be connected between the line scan driver and the line scan output stage, and moreover, from an excitation pulse generator connected via a decoupling capacitor to a line decay pulse exciter. SUMMARY OF THE INVENTION The invention is based on the fact that a voltage blocking circuit of the row decay driver is connected between the supply voltage source and the row scanner.

The line breakdown exciter voltage interlock circuit consists of a voltage resistor consisting of two resistors connected to a power supply and an excitation short circuit switch, such as a transistor whose collector is connected to the line breakdown exciter transistor base, with a common voltage divider point coupled with base of transistor of short circuit switch.

A reference voltage-dependent resistor is connected between the common point of the voltage divider and the base of the transistor forming the short-circuit switch.

The first resistor of the voltage divider consists of a reference, voltage-dependent resistor.

An advantage of the transistor line scan protection circuitry of the present invention is that the line scan driver voltage interlock circuit provides protection against increased voltage from the current block circuit by early response to an increase in supply voltage rather than the subsequent peak current in the terminal transistor, such as blocking circuit.

Another advantage of the line decay driver voltage blocking circuit is that the output stage excitation is interrupted over the overload current circuit as opposed to the overload current circuit.

The circuit-breaker protection circuit of the present invention will be described in greater detail below in the exemplary embodiment by means of the drawings, wherein the reference voltage-dependent resistor is represented by a Zenner diode.

The final stage 2 of the line decomposition is. connected to a power supply source 1, wherein the line decay driver 6 is connected via a decoupling capacitor 4 to the excitation pulse generator 3. A discharge resistor 5 of the decoupling capacitors 4 is connected to the base of the line scanner 6. The line scanner 6 is connected to the output stage 2 of the line scanner via a transformer.

Claims (4)

1. Transistor line decay protection circuit, comprising an output stage circuit connected to a power supply, a line decoder, wherein a transformer may be connected between the line decoder and the line decay end stage and an excitation pulse generator connected via a decoupling capacitor to A line scanner, characterized in that a voltage blocker circuit (8) of the line scanner (6) is connected between the supply voltage source (1) and the line scanner (6). 2. The transistor line scan protection circuit according to claim 1, wherein the line block circuit (8) of the line scan driver (6) consists of a voltage divider consisting of two baffles 7. Between the supply voltage source 1 and the line scan driver base 6 a voltage blocking circuit 8 of the line breakdown exciter 6 constituted by a voltage divider acting as a voltage comparator and consisting of a first resistor 81 and a second resistor 83. The first resistor 81 may be a reference voltage-dependent resistor, the second resistor 83 may be adjustable. From the common point 82 of these resistors 81, 83, a reference voltage-dependent resistor 85 is provided, which in this case is represented by a Zenner diode connected on the basis of a short-circuit switch 84, the collector of which is connected on the basis of a line decay driver 6. When the transistor line decomposition protection circuit operates, the output stage is 2 line decomposition powered by the voltage source 1 supply voltage, taking from the generator 3, the excitation pulses pass the excitation pulses through a decoupling condenser 4 based on the line decay driver 6. By opening this transistor, a pulse exciter transformer 7 is generated at the line decoder transformer 7 which closes the line decomposition output stage 2 during the return run. The energy stored in the line scan driver transformer 7 then drives the line scan output stage 2 in the active line run, i.e., keeps it in descending state. By increasing the supply voltage of the supply voltage source 1 when the voltage from the voltage divider exceeds the Zenner voltage of the voltage-dependent resistor 85, the transistor of the switch 84 opens the excitation short circuit, which shorts the excitation excitation of the line decay driver 6. backflows in the final decomposition stage 2, as well as the excitation of the current in the final decomposition stage 2. This prevents excessive voltage build-up in the final stage 2 of the line decomposition as well as in the high-voltage source. OF THE INVENTION a pore (81, 83) connected to a power supply (1) and further from an excitation short circuit switch (84), for example a transistor whose collector is connected to the base transistor exciter transistor base (6), (81, 83) is coupled to the transistor base of the excitation short circuit switch (84). 3. The transistor line decomposition circuit according to claim 2, characterized in that a reference voltage-dependent resistor (85) is connected between the common point (82) of the voltage divider resistors (81, 83) and the transistor base of the excitation short-circuit switch (84). . 4. The transistor row degradation protective circuit of claim 2, wherein the first voltage divider resistor (81) is voltage dependent.