SU860343A2 - Aperture corrector - Google Patents

Description

(54) APPTURE CORRECTOR

The invention relates to television technology and can be used to correct aperture distortion. According to the main author. St. 612421 an aperture corrector / containing N correction channels, each of which contains integrators, the first inputs of each of which receive an input signal (and in the first channel directly, and in subsequent channels through a series-connected phase invertor and a key), and an adjustable amplifier common to all channels adder, to the inputs of which the outputs of adjustable amplifiers of each correction channel are connected, as well as in each correction channel, besides the first one, are Walsh ring oscillators, whose outputs are connected with the key control inputs, and each of the N correction channels — to the commutator, whose information inputs are connected to the outputs of the correction channel integrators, the second switch input of each correction channel is connected to the first output of the common Walsh function ring generator, the second output of which is connected to the second input of each key., and the switch output of each correction channel is connected to the output of the corresponding adjustable amplifier l. However, the known aperture corrector has an insufficient signal-to-noise ratio at the output. The purpose of the invention is to increase the signal-to-noise ratio at the output of the device. To achieve the goal in an aperture corrector containing N correction channels, each of which contains integrators, the first inputs of each of which are fed into the input signal, and in the first channel directly, and in subsequent channels through a series-connected phase inverter and a key, and a special amplifier, as well as in each correction channel, except the first, the Walsh function ring generators, the outputs of which are connected to the key control inputs, in each of the N correction channels the switch, whose information inputs are connected They are connected to the outputs of the integrators of the co-channel, the second input of the switch of each correction channel is connected to the first output of the common ring oscillator of the Va gia function, the second output of which is connected to the second input of each key, and the switch output of each correction channel is connected to the input of the corresponding regulator The adder common to all channels is made in the form of N summing blocks, (NI) key blocks, N integrators and a terminating switch, and the output of the first adjustable amplifier is connected to the first input for each of the N summing blocks, the output of each of which is connected to the first input of the corresponding integrator, the output of the adjustable amplifier from the second to the Nth is connected respectively to the first input of each of (N-1) included blocks, the input from the second through (N + 1 ) -th of each of which is connected to the corresponding output of the corresponding ring generator of Walsh functions, the outputs from the first to the N-th of each of (N-1) key blocks are connected to the corresponding inputs of the summing blocks from the first to the N-th, respectively, the first output is terminally a switch connected to the second input of each of the N integrators, the output of each of which is connected to a corresponding input terminal switch, wherein (M + 1) th input switch terminal connected to the output of the ring oscillator (N-1) th Walsh functions

In turn, the key unit contains a phase inverter and N keys, while the phase inverter input is connected to the first input of a Kanedo of N keys, the phase inverter output is connected to the second input of each of the N keys, the phase inverter input is the first input of the key block, and the input from the second key on (MN-1) th key block there is the third input of each of the N keys. The drawing shows a structural electrical diagram of the aperture corrector,

Aperture corrector contains the first integrator 1, the N-th integrator 2, phase inverters З-б, keys 7-10 (М + -1) -th integrator 11, 2 N-th integrator 12, (N- -N-vl) -th integrator 13, Nth integrator 14, ring generator 15 (K-1) -th Walsh function, ring generator 16 (M-2) -th Walsh function, ring generator 17 of the first Walsh function, first switch 18, second switch 19, Nth switch 20, first amplifier 21 with adjustable gain, second amplifier 22 with adjustable gain, Nth amplifier 23 with adjustable gain, first th adder 24, Nth adder 25, first additional phase inverter 26, keys 27 and 28, (N-1) -th additional phase inverter 29, keys 30 and 31, first additional integrator 32 Nth additional integrator 33, end switch 34 .

Aperture corrector works as follows.

The corrected television video signal is fed to the inputs of integrators 1 and 2, phase inverters 3-6 and the first inputs of keys 7-10. At the outputs of phase inverters there is a video signal of opposite polarity which is fed to the second inputs of keys 7-10. The operation of all the keys is controlled from ring oscillators 16 and 17, synchronized with a ring generator 15 (N-1) of the Walsh function. Each of the generators 15-17 produces at its outputs a bipolar, defined sequence of pulses. Integrators 1, 2, 11, 12, 13 and 14 integrate the input signals. The voltages from the output of each of the integrators are fed to the corresponding input of the corresponding switch 18–20. Each switch sequentially polls SIGNB1LY from its inputs with the frequency of clock pulses. The phase of the generated Walsh functions and the sequence of the poll of the integrators are selected so that at the time of the poll of the K-th integrator () KozviMyTaTopOM in the K-th integrator, the () component of the Walsh spectrum is formed, where (2J-1-P) is Walsh generated function: natural number, or 1.

After finishing the survey of the K-th integrator, it is zeroed, and then again for the N cycles it integrates the voltage from its input. The signals from the switch outputs are amplified by amplifiers 21-23 with adjustable gain factors. These coefficients are set for each amplifier individually in accordance with a predetermined degree of aperture correction. The signals from the outputs of the amplifiers 21 - 23 are received respectively at the inputs of the adders 24 and 25, additional phase inverters 26 and 29 and the first inputs of the keys 27, 28, 30 and 31.

Inverted polarity signals from the output of each of the phase inverters 26 and 29 are fed to the second inputs of the corresponding keys 27, 28, 30 and 31. The signals from the outputs of the keys 27, 28, 30, 31 are fed to the corresponding inputs of the adders 24 and 25 ,. the output voltage of each of which is fed to the input of the corresponding integrator 32 and 33. The voltages from the output of one of the integrators 32 and 33 are fed to the separate inputs of the terminal switch 34, which sequentially polls the signals from its inputs with a clock frequency. As a result, a corrected video image of the television image occurs at the output of the switch 34.

Due to double averaging corrected by various combinations of video Walsh functions

Claims (2)

Claim 1. Aperture corrector for ed. St. No. 612421, characterized in that, in order to increase the signal-to-noise ratio, the adder common to all channels is made up of N summing blocks, (N-1) key blocks, N integrators and a terminal switch, while the output of the first 15 adjustable amplifier connected to the first input of each of the N summing blocks, the output of each of which is connected to the first input of the corresponding integrator, the output of the adjustable amplifier from the second to the Nth connected respectively to the first input of each of the (N-1) key blocks, the input from second by (And + 1) each of which is connected to the corresponding output of the corresponding Walsh function ring generator, the outputs from the first to the Nth of each of the (N-1) key blocks are connected to the corresponding inputs of the summing blocks from the first to the Nth respectively, the first output of the terminal switch is connected to the second the input of each of the N integrators, the output of each of which is connected to the corresponding input of the terminal switch, and the (AND + 1) -th input of the terminal switch is connected to the output of the ring generator of the (N-1) -th Walsh function. I 2. The corrector pop. 1, characterized in that the key unit contains a phase inverter and N keys, wherein the input of the phase inverter is connected to the first input of each of the N keys, the output of the phase inverter is connected to the second input of each of the N keys, the input of the phase inverter being the first input of the key block, and the input from the second to the (N + O-th key block is the third input of each of the N keys.