PL88310B2 - - Google Patents

Description

The subject of the invention is a system shaping the luminance path characteristics in a SECAM TVC receiver for controlling the electrodes of a color picture tube with R, G, B or -R, -G, -B signals. State of the art. Hitherto known luminance pattern shaping systems have two parallel resonant circuits or bandpass filters connected in the cathode circuits of the luminance terminal amplifiers. The resonant circuits are tuned at 4.02 MHz and 4.67 MHz respectively and change the gain of the final luminance amplifier according to the transmitted frequencies, causing a specific attenuation of the chrominance signal in the luminance path. In the latter case, the operation of the bandpass filter is similar. After quenching, the luminance signal is fed to the control electrodes of the color picture tube. Summary of the invention. The shaping of the luminance path characteristics in the TVC receiver according to the invention is based on the use of the feedback phenomenon occurring in the electrical systems situated at the input of the luminance path before the delay line, where the luminance signal separation does not yet occur. For this purpose, an electrical system was developed, which has at the input of the luminance path connected to a transistor emitter follower, which performs the contrast change, connected by an emitter through a slider of a potentiometric regulated resistor to the primary winding of a bandpass filter inductor, the other end of which is connected to the base of the second emitter transistor. collector connected via compensated delay line with the matrix system and final video amplifiers. Parallel to the primary winding of the inductor of the filter are two capacitors connected in series. The filter secondary circuit has an inductor to which a resistor and a capacitor are connected in parallel. Between the emitter of the second follower transistor and the point of connection of the two capacitors in the primary circuit of the bandpass filter, an electrical terminal is connected, which is a branch of positive, negative, or both, depending on the components used. The terminal block comprises a series branch of resistive elements or a series tuned resonant circuit, or series resonant circuits connected in parallel or in series, which may be tuned or untuned. From the input of the luminance path of the video signal to the input, the frequencies of the chroma signal in the bandpass filter circuit and in the branches of the electric double-terminal circuit are suppressed. The shaped luminance signal is fed from the second follower through the delay line to the matrix array and visual end amplifiers from which to the individual cathodes or kinescope grids. This solution gives many more points of freedom in design and allows designers to more easily shape the amplitude-phase characteristics of the entire path Due to the fact that the incoming overall video signal is subject to a phase shift depending on the frequency, with some frequencies there is a positive feedback, and a negative feedback for other frequencies. The subject matter of the invention is reproduced in the embodiment in the drawing, in which Fig. 1 shows a schematic diagram of the system being part of the luminance path, and Fig. 2 shows the amplitude-phase characteristics of the luminance path. The total video signal is fed through a capacitor to the base of the transistor Ti, which is an emitter follower containing a potentiometric regulated resistor Rlf in the emitter circuit, the spool of which is connected to one end of the winding Lj of the band-pass filter F. C4 with the base of the T3 transistor constituting the second emitter follower, connected by the collector through the LO delay line to the base of the T3 transistor and the matrix system. Two capacitors C2 and C3 connected in series with each other are connected in parallel to the L * winding. The secondary winding Lt of the Fi filter has a capacitor and a resistor connected in parallel to the coil. The D-terminal is connected at one end to the emitter of the transistor T2, and at the other end to the connection point between the capacitors C2 and C3 located in the primary circuit of the filter F. The terminal D has two series resonant circuits connected in parallel, one of which has a tuned L3 winding, damped resistor R4 connected in parallel to the winding L3, to which the capacitor C5 is connected in series. The second resonant circuit of the two-terminal D has an unset winding L4, to which a resistor R5 is connected in parallel and a capacitor C6 in series. Fig. 2, which shows the amplitude-phase characteristics of the luminance path, shows the achieved numerical values at characteristic points in relation to the frequency band corresponding to the value of 1 MHz. PL

Claims (2)

Claims 1. The system shaping the characteristics of the luminance path in the TVC receiver SECAM system having an emitter follower at the input that performs the contrast change and at the output an emitter follower connected through the delay line with the matrix system and vision amplifiers, characterized by the fact that it contains a tuned bandpass filter (F) one end of the winding (L3) to the slider of the resistor (Ri), which is part of the input load of the emitter follower on the transistor (Ti), and the other end of the winding (La), connected through a capacitor (C4) to the base of the transistor (T3) of the second follower emitter, connected by a collector through a delay line (LO) with final vision amplifiers (T3), where between the emitter of the transistor (T2) in the output emitter follower circuit and the connection point of the capacitors (Ca, C3), which includes the primary circuit (L ?, C2 , C3) of the filter (F), there is an electric two-pole (D), made of resonant circuits (L3, R4, C5, L4 R5, C6), which is a branch of the feedback circuit. 2. System according to claim A circuit as claimed in claim 1, characterized in that the electric dipole (D) comprises resistors (R4, Rs) in parallel branches or a series resonant circuit (L3, R4, Cs) or series resonant circuits (L3, R4, C $, L4 R5, C6). ) tuned, connected in parallel or in series, which can be tuned or not tuned 88 310 / y / ~ f (# H *) PL