SU780228A1 - Video signal gamma-corrector - Google Patents

Description

(54) GAMMA-KO & VIDEO RECTOR

one

The invention relates to radio engineering and can be used, in particular, in television. .

A video signal gamma corrector 5 is known, which contains linear and non-linear parallel channels with a common load resistor and a balance resistor connected between the common power supply and the positive pole 10 of the power supply, and the non-linear channel consists of a pnp transistor, whose emitter connected to a current generator and anodes of N diodes, with the cathode of each of the diodes connected through an appropriate resistor to an appropriate source of voltage, and the collector of the transistor connected to one end of the common load full-time, and the resistor che. 20, the collector resistor is with the positive pole of the power source, and the linear channel consists of a pneumatic-type transistor emitter of which is connected to one end of the feedback resistor, and the collector to the other end of the common load resistor and through the collector resistor - with the positive pole of the power source AND .30

However, due to the fact that, in a known gamma-corrector, video signals with constant levels from linear and non-linear kangshov, having unequal temperature stability, are summed on a common load, the value of the total (output) signal is unstable.

The aim of the invention is to increase the temperature stability of the gamma-corrector.

To do this, a composite emitter follower, made on a pn transistor, and a reference voltage generator, made on a pnp transistor, are introduced into a well-known gamma corrector, and the output of the composite emitter repeater is connected to the base transistors nonlinear channels, and the base of the transistor of the voltage generator is connected to the midpoint of the resistor. The balancer, the emitter of the voltage generator transistor is connected to the other end of the feedback resistor, and the collector is connected to the common power line.

The drawing shows, in principle, an electrical circuit of the proposal of a 4ma-corrector.

The gamma corrector contains linear and non-linear channels 1 and 2 with a common load resistor 3 and a balance resistor 4 connected between the common power bus and the positive pole 5 of the power supply. Nonlinear channel 2 consists of a transistor type b pn, the emitter of which is connected to the current generator 7 and the anodes of N diodes 8, and the cathode of each of the diodes 8 is connected through a corresponding resistor 9 to the corresponding Reference voltage source 10. The collector of the transistor 6 is connected to one end of the resistor 3 and through the collector resistor 11 to the pole 5 of the power supply.

Line channel 1 consists of a transistor; 12 of type pn, the emitter of which is connected to one end of the feedback feedback resistor 13, and the collector to the other end of resistor 3 and through the collector resistor 14 with pole 5 of the power supply, a reference voltage generator, made on transistor 15 such as ppr, the base is connected to the midpoint of the balance resistor 4, the aigitter is connected to the other end of the resistor 13 OS, and the collector is connected to the common power rail. Gaglma-corrector also contains a composite emitter follower 16, performed on transistors 17, 18 of the pp type. The output of the composite emitter follower 16 is connected to the bases of transistors 12 and 6 of linear and nonlinear channels 1 and 2.

Gamma corrector works as follows.

The input of the composite emitter detector 16 is a video signal, containing the constant component. From its output, the video signal is simultaneously supplied to the linear and non-linear channels 1 and 2. In the linear K, analogue 1, the video signal is amplified by the transistor 12 and allocated to the collector resistor 14.

The linear channel transmission ratio 1 depends on how. from the ratio of resistor 14 to resistor 13 6c, and from the current flowing through the transistor 12. With a constant current flowing through the resistor 13, when the temperature of the surroundings of the medium changes, the transmission coefficient of the linear channel 1 is stable both in constant and alternating currents. In the non-linear channel .2, the video signal is amplified by the transistor 6 and allocated to the collector resistor 11. The diodes 8, the resistors 9 and the sources 10 receive a non-linear feedback function. The change in the steepness of the amplitude characteristic, as well as the transmission coefficient of the nonlinear channel 2, occurs abruptly at points corresponding to the moments of unlocking the diodes 8 video signals from resistors 14 and 11

summed up on a common load resistor 3 .. Moving the slider of a resistor 3, which is the output of the device, you can get any intermediate values of the amplitude response of the gamma corrector and, thus, choose the most optimal mode of the gamma corrector for a particular form of video signal.

It is known that with an increase in the ambient temperature, the potential barrier of semiconductor diodes or pn junction transistors for each degree of increase in temperature: the tour decreases by an average of. The 2.2 mV mask. Thus, the potential value at the output of the composite emitter follower 16 decreases by 4.4, mB, while the emitter potential of transistor 12 decreases by 2 | 2 mV and the emitter potential of transistor 15 also decreases by 2, 2 mV. In this case, the voltage drop across the resistor 13 remains unchanged, and the transmission coefficient of the linear channel 1 remains unchanged. At the same time, the emitter potential of transistor 6 drops by 2.2 mV, and the potential barrier of diodes 8 decreases by 2.2 mV, and the current flowing through each diode 8 and resistor 9 remains unchanged. Thus, the amplitude slope of the characteristic of nonlinear channel 2 remains unchanged. The current generator 7 provides the DC mode of the transistor 6, independent of the effects of temperature. Thus, on the resistor 11, the video signal is allocated stable over a wide temperature range.

Claims (1)

Invention Formula A video gamma corrector containing linear and non-linear parallel channels with a common pull-up resistor and a balance resistor connected between the common power supply bus and the positive pole of the power supply, the non-linear channel consisting of a pnp emitter type transistor connected to a current generator and with anodes of diodes L, the cathode of each of the diodes is connected through an appropriate resistor with a corresponding source of voltage, and the collector of the transistor is connected to one end of the common load resis the torus and through the collector resistor - with the positive pole of the power source, and the linear channel consists of a pnp transistor, the emitter of which is connected to one end of the feedback resistor, and the collector to the other end of the common load resistor and through the collector resistor with a positive source of power supply, characterized in that. In order to increase the temperature stability of the gamma-corrector, a composite emitter-termination repeater introduced on pnp transistors and a reference voltage generator, made on an pp-type transistor, are introduced, the output of the composite emitter-follower is connected to the bases linear and non-linear channel transistors, and the base of the transistor of the reference voltage generator is connected to the midpoint of the balance resistor, the emitter of the transistor of the reference voltage generator is connected to the other end of the feedback resistor, and the call Vector - with a common power bus. Sources of information taken into account in the examination .one. US patent 4015079, cl. 358-164, published. 1977t prototype).