SU803876A3 - Device for correcting videosignal of "sekam" colour television system - Google Patents

Abstract

The chrominance signal processing circuit in a Secam colour television system ensures deaccentuation of signals during the line sweep. The circuit also creates during the line return, a stable colour identification voltage at lowimpedance. The circuit has a discriminator (72) with a wide useful working zone. The circuit has an impedance adaptor (74) and an arrangement of switches (71-76) which, during the line return, furnish at the circuits output terminal, in place of the chrominance signal, a low impedance reference signal, from a voltage generator (75). The deaccentuation circuit (R1+73) follows the impedance adaptor (74). The voltage generator consists of a memorising and sampling circuit for reference voltage sampled during transmission intervals at the start of a line.

Description

one

The invention relates to television and can be used in chroma signal processing circuits in the SECAM system for a color television receiver.

A device for correcting the video signal of a color television system SECAM, containing a discriminator connected in series, a first matcher, and a two-way switch fl.

However, the known device has a complex configuration and lack of reliability.

The purpose of the invention is to increase reliability and simplify the correction.

For this purpose, a reference voltage generator, a switch, a first and second resistors, a capacitor, and an adjustable voltage block are inserted into the video signal correction system of the SECLM color-television system, which contains a discriminator and a first matcher connected in series, as well as a two-position switch, and the output of the first matcher is connected to the first terminal of the on-off switch, the second terminal of which is connected to the output of the reference generator

voltage, and the third terminal of a two-position switch connected in series the first and second resistors and a capacitor, the second lining of which is connected to the ground bus, and a switch is connected parallel to the first resistor, and the common point of the first and second resistors is connected to the output of the adjustable voltage unit, at the same time, the fourth terminal of the two-position switch is connected to the corresponding input of the switch.

In addition, the reference voltage generator is made in the form of a quantization switch, a comparison circuit and a second matcher, the quantizing switch consists of the first second and third transistors, the base of the first transistor is the input of identification pulses, the emitter of the first transistor is connected to the ground bus, and the collector through a resistor connected to the bases of the second and third transistors and to the collector of the second transistor, the emitter of which is connected to the emitter of the third transistor and the power source, and the circuit. and it consists of two transistors whose bases are interconnected, and the collector of the first transistor is connected to the second tranz1 EMIC Intermediate location; A collector whose collector is connected to the emitter of the first transistor, the collector of the third transistor of the QV switch is connected to the base of the first transistor of the comparison circuit, and the second speaker consists of two transistors, and the emitter of the first transistor is connected to the base of the second transistor whose collector is connected to ground bus and the emitter through a resistor connected simultaneously to the power source and the collector of the first transistor, and the emitter of the second transistor is the output of the reference voltage generator However, the base is connected to the earth bus through the input current source, the base of the first transistor of the second cohle is connected via a resistor to the collector of the first transistor of the comparison circuit and connected to the ground through a capacitor. FIG. 1 shows the structural electrical circuit of the proposed device; in fig. 2 - electrical schematic diagram of the reference voltage generator. The video signal correction system of the SECAM color television system contains discriminator 1, first match 2, two-position switch 3, reference voltage generator 4, switch 5, adjustable voltage block b, first and second resistors 7 and 8, capacitor 9. Reference voltage generator 4 includes a quantization switch 10, a comparison circuit 11, a second match 12, a storage capacitor 13 and a protective resistor 14. The quantization switch 10 consists of first, second and third transistors 15, 16 and 17 and a resistor 18. The circuit a comparator 11 comprises a first and a second transistor 19 and second 20. The matcher 12 quipped of the first and second transistors 21 and 22, current source 23 and resistor 24. The device operates sleduk Dim manner. The signal of the color subcarrier 1 is demodulated by the discriminator 1, then it goes to the coordinator 2. Its circuit design is such that it can either give out or receive current without changing the output voltage. The signal of the color subcarrier Ug is fed to the input of a two-position switch 3, controlled by a backsampling pulse arriving at the fourth terminal. The reference assignment generator 4 is designed to measure a constant voltage at the output of discriminator 1 during the transmission of red PRCs for the red discriminator or blue FQ signals for the blue discriminator and subsequent memorization of this voltage. This voltage U is a constant voltage corresponding to the voltage received by demodulating the color recognition frequencies Ug, which corresponds to the CRC in the case of the red chroma signal, and Ug, which corresponds to the PQg in the case of the blue signal. The 4 U generator can also receive or output current. At the other input of switch 3, the reverse voltage U comes from generator 4. During the back-off time, the voltage at the output of switch 3 is equal to the reference voltage and 2 of generator 4. During the transmission of the line, the voltage at the output of the two-position switch 3 Un is equal to the voltage at the output of the coordinator 2. The signal of the two-position switch 3 passes correction of the distortions in the chain consisting of resistors 7 and 8 and capacitor 9, the characteristics of which are such that one part of it, resistor 7, It can be performed by the integrated technology on the same chip as the whole scheme. Resistor 7 can be short-circuited by switch 5, controlled by the same pulse of damping the reverse rays as the on-off switch 3. Thus, the reverse damping voltage of the rays is not distorted by the resistor 7, the short-circuited integral circuit, since it is amplified by generator 4 with low internal resistance. Due to the fact that the resistor 7 is short-circuited and the output resistance of the circuit is small, the resistor 8 and the capacitor 9 do not affect the matrix unit (not shown in Fig. 1). The i-g signal during the blanking interval remains clear and undistorted. Outside the blanking interval, i.e. during line transfer, the switch 5 is open and the output resistance of the chrominance signal processing circuit is equal to the resistance of the resistor 7: the predistortion correction is performed normally. Automatic adjustment of the constant level during the transfer of the line with respect to the backfire damping voltage Uj. performed by block 6, containing a resistor and a potentiometer, fed by a constant voltage, which may be, for example, +12 V. The current supplied to the resistor of block 6 and resistor 7 may be positive or negative, depending on the position of the slider

the potentiometer of block 6, and when the switch 5 is open, it shifts in phase the constant output voltage, i.e. after resistor 7 relative to the voltage Ug caused by the video signal in front of resistor 7.

The reference voltage generator 4 operates as follows.

When transistor 15 receives a quarantine pulse at the base, it becomes conductive, transistor 16 also opens and opens transistor 17, which is connected according to the current mirror principle. The current from the power supply pass through the transistor 17, unlocks the transistors 19 and 20.

Both transistors 19 and 20 are connected in parallel, that is, the emitter of one of them is connected to the collector of the other, and their bases are combined. They form a comparison circuit 11 and allow the voltage at the terminals of the storage capacitor 13 to be maintained at the same voltage level. The CCS voltage level at the input 25 during the quantization process. If during quantization the capacitor 13 has a potential lower and 5, it is charged through the transistor 20. Otherwise, the capacitor 1 is discharged through the comparison circuit 11

By the end of the quantization period, a certain voltage is remembered by the capacitor 13. This voltage is applied to the base of the transistor 21, which, together with the transistor 22, forms the coordinator 12. Transistor 21 is an M-P-N-type transistor and a 22-P-type transistor.

Thus, when the error signal is transmitted through the correlator 12, it decreases by an amount equal to - (if-3, on the transistor 21, and increases by an amount equal to -HJffa on the transistor 22. These two transistors 21 and 22 with identical characteristics, but opposite types are balanced, and the output voltage at the output 26 is identical to the voltage of the storage capacitor 13 supplied to the input of the correlator 12.

A protective resistor 14, connected in series with transistors 19 and 20, limits the maximum current and protects transistors 13 and 20.

The voltage U from generator 4 is memorized during the entire transmission of one line.

Claims (2)

1. The video signal correction device of the color television system SECAM, containing a series-connected discimmer and a pey. a matcher as well as a two-position switch, characterized in that, in order to increase reliability and simplify the correction, a reference voltage generator, a switch, the first and second resistors, a capacitor and an adjustable voltage unit are inserted, the output of the first matcher being connected to the first two-position terminal a switch, the second terminal of which is connected to the output of the reference voltage generator, and the first and second connectors connected in series to the third terminal of the two-position switch Stor and capacitor S the second plate of which is connected to the ground bus and a switch is connected parallel to the first resistor, the common point of the first and second resistor is connected to the output of the variable voltage block, while the fourth terminal of the two-position switch is connected to the corresponding input of the switch. 2. The video signal correction device of the SECAM color television system according to claim 1, characterized by e- so that the reference voltage generator is made in the form of a quantization switch, a comparison circuit and 0 of the second matcher, the quantization switch consists of the first, second and third transistors, the base of the first transistor is the identification pulse input, emit the first transistor is connected to the ground bus, and the collector is connected to the bases of the second and third transistors and the second transistor transistor, the emitter of which is connected to the emitter of the third transistor and the power source, and the comparison circuit consists of two transistors, the bases of which are interconnected, and the collector of the first transistor ra is connected to the emitter 5 of the second transistor, the collector of which is connected to the emitter of the first transistor, the collector of the third transistor of the quantizing switch is connected to the base of the first transistor of the comparison circuit, and the second coordinator consists of two transistors, and the emitter of the first transistor is connected to the base of the second transistor whose collector is connected to ground bus, and the emitter is connected via a resistor to the power source and the collector of the first transistor at the same time, the second transistor's emitter being the output of the switch The reference voltage generator, and the base, through the input current source, are connected to the ground bus, and the base of the first transistor of the second matcher is connected via a resistor to the collector of the first transistor of the comparison circuit and connected to the earth bus through a capacitor. Sources of information taken into account in the examination 1. Novakovsky V.V. Standard color television systems. M., Svy, 1976, p. 74 - 82 (prototype). one L j GNS X N. JI / 7