SU640454A1 - Arrangement for measuring phase shift in colour television signal - Google Patents

Description

The invention relates to a television-to-ion technique and can be used for television ion measurements during tuning, calibration and testing of television measuring signal generators.

A device for measuring the phase shift in a color television signal is known, which contains an indicator, a band-pass filter connected in series, an amplifier, a voltage phase reference sensor, a phase shifter.

However, this device has n not enough stability and measurement accuracy.

The purpose of the invention is to improve the measurement accuracy.

For this purpose, a device for measuring the phase shift in a color television signal containing an indicator, a series-connected band-pass filter, an amplifier, a voltage phase reference sensor, a phase shifter, a chroma envelope detector, two impregnator, a reference delay line, and a quasimodulator, are inserted from attenuator and four-channel switch, lowercase clock selector, timestamp setter, key, sequentially connected switchboard, amplifier limiting device, delay unit and, a phase detector, a distributor connected via a key to the indicator — and to the input of a bandpass filter through a series-connected lowercase clock pulses, to the first output of which the indicator input is connected, and to the second - the second input of the distributor to the first input of the switch, time variable generator marks and the second pulse shaper, to the output of which the third distributor input is connected And the second input of the switch, to the third input of which the second output of the amplifier is connected through serially connected a chroma envelope detector, a first pulse generator and a four-channel switch, four inputs of which have four attenuator outputs, the output of which is connected to the output of the phase shifter via the reference delay unit, and the output of the phase detector to the output of the limit amplifier.

The drawing shows a structural electrical circuit of the proposed device.

A device for measuring the phase shift in a color television C1 unit contains an indicator 1, a band-pass filter 2 connected in series, an amplifier 3, a sensor 4 directing 1 reference phase, a phase shifter

5, the detector of the chroma envelope signal 6, two formers 7 and 8 pulses, a block 9 of reference delay lines, a quasimodulator 10 consisting of an attenuator 11 and a four-channel switch 12, a selector 13 horizontal sync pulses, a time stamp setter 14, a key 15 connected in series the switch 16, the delimiter 17, the delay block 18, the phase detector 19, the distributor 20 connected via the switch 15 to the i-indicator 1, and to the input of the band-pass filter 2 through a successively connected selector 13 horizontal sync pulses The output of which is connected to the input of indicator 1, and to the second - the second input of the distributor 20 "the first input of the switch 16, the set of 14 timestamps and the second driver 8 pulses, the output of which is connected to the third input of the distributor 20 and the second input of the switch 16 to the third input which is connected to the second output of the amplifier 3 through the chrominance envelope detector 6 connected in series, the first driver 7 pulses and four-channel switch 12, to the four inputs of which four outputs of the attenuator 11 are connected, course of which is connected the output of phase shifter 5 through 9, reference block line delays, and to the output of limiting amplifier 17 connected to the second input of the phase detector 19.

The device works as follows.

The input of the bandpass filter 2 receives a television measuring signal, for example, a signal for measuring nonlinear distortions of color television paths containing a conventional color subcarrier in one line in the form of a three-level and five-step signal, in the other three in the form of sinusoidal oscillations, mounted on a level “Gray. The color component selected by the filter is amplified and supplied to one of the inputs of the switch 16, to the other input of which a voltage is applied from the quasimodulator 10. From the output of amplifier 3, the signal is also sent to sensor 4 of the voltage of the reference phase and detector 6 of the chrominance signal envelope. The voltage of the reference phase is applied to the phase shifter 5 with a gradual change in the phase of the output signal relative to the input in three ranges: "exactly - from 0 to 2 °", "smoothly - from O to 20 ° and" roughly - from O to 200 °. The voltage from the phase shifter 5 is fed to the block 9 of the reference delay lines with the O positions, 0.2 °, 2 °, and then the attenuator 11, the four outputs of which are connected to the four-channel switch 12, this range of the signal at the input of the first channel is 700 mV, the second - 420 mV, the third - 280 mV, the fourth - 140 mV.

The switching of the four-channel switch 12 is controlled by the first pulse shaper 7, the input of which is connected to the output of the detector 6 of the chroma envelope. From the output of the first pulse shaper 7 to the quasimodulator 10, control pulses are received, the duration of which is determined by the duration of the corresponding color subcarrier packets of one level, and the corresponding four-channel switch 12 opens for the pulse duration time, for example, the duration of the color subcarrier packet in three rows of order 50 µs, the span of 420 mV, therefore, synchronously with the beginning of the packet following, the second channel of the four-channel switch 12 opens, after 50 µs closed is.

Thus, from the voltage of the reference phase, in the likeness of a measuring chromatic signal, sinusoidal oscillations are formed with four level gradations. Therefore, when the signals are limited in the limiting amplifier 17, spurious phase modulation does not occur, as a result of which the accuracy of the measurements is improved.

The switch 16 and the distributor 20 switch the channels as follows: first channel — first row, second channel — second row, first channel — third row, second channel — fourth row, etc. Delay unit 18 is designed for row duration, m. e. 64 Msec. The signals to the input of the phase detector 19 are received in the following sequence: the first line, to one input-voltage of the measuring signal, to the other, the voltage of the reference phase; the second line is the opposite compared to the first line; the third line is the same as the first line; fourth line — same as second line, etc.

Above the distributor 20 through the key 15, the signal arrives at indicator 1, and due to the key 15 you can select the necessary sequence of signals with regard to their uniform input to the inputs of the phase detector 19, while in both cases one line skips, since at one outlet of the distributor 20 - odd lines, on the other - odd. Line skipping allows the choice of the scan rate and the sync level of the indicator 1 to determine the last mode of operation that is shown, and, for example, the first and third lines are combined, which also improves the measurement accuracy. The key 15 plays a supporting role, for example, to check the asymmetry of the phase detector 19 and so on. Connected to the output of the selector 13 lowercase sync pulses, the time stamp setter 14 outputs short pulses within a line, counting from its beginning on

Such marks: 15, 19; 23, 27, 31, 35, 41, 45, 49, 53, 57 microseconds. In the second driver 8: pulses, the incoming short pulses are expanded to 2 microseconds with a stable extension time. Regardless of which channel of the switch 16 or the distributor 20 is connected to its input circuit, the signal at their outputs appears only at the moment of arrival of the trigger pulses from the second driver 8 pulse. Selection of identical discrete sections in signals with a color subcarrier facilitates the operation of all the following, their switch components 16 increases, the signal / noise ratio increases, since the phase detector 19 and the limiter 17 receive signals with a stable phase shift, eliminates lazarone phase modulation and improved measurement accuracy.

Thus, in the proposed device, the signal-to-noise ratio is increased, the possibility of spurious phase modulation is eliminated, and the accuracy of measurement is improved, which makes it possible to metrologically ensure the existing and developed television measuring signal generators.

FORUMUA AND 3 ABOUT AND

A device for measuring the phase shift in a color television signal, comprising an indicator, a band-pass filter connected in series, an amplifier, a voltage phase reference sensor, a phase shifter.

characterized in that, in order to improve measurement accuracy, a chrominance envelope detector, two formers, a unit of reference delay lines, a quasi-modulator consisting of an attenuator and a four-channel switch, a horizontal sync pulse selector, a time stamp setter, a key, a switch connected in series, a limiting amplifier, a delay unit, a phase detector, a distributor connected via a key to an indicator, and to the input of a band-pass filter through serially connected the lowercase sync pulse selector, to the first output of which the indicator input is connected, and to the second - the second input of the distributor. The first input of the switch, the set of time stamps and the second pulse shaper, to the output of which the third input of the distributor and the second input of the switch are connected, to the third the input of which is connected to the second output of the amplifier through a series-connected detector of the envelope of the chrominance signal, the first waveform generator and four-channel. A switch, to the four inputs of which are connected even D output attenuator to the input of which is connected through a phase shifter output unit delays the reference lines, and to the output of limiting amplifier connected to the second input of the phase detector.

Sources of information taken into account in the examination 1. USSR author's certificate number 373740, cl. H 04N 7/02, 1971.