SU510811A1 - Device for measuring parameters of a radio and television transmitting station - Google Patents

Description

one

The invention relates to television and can be used on radio and television transmission stations and repeaters.

A device for measuring parameters of a radio and television transmitting station, comprising a two-band video detector, a carrier signal detector, a discriminator, and an additional peak detector, is known, with the outputs of a dual band video detector, a carrier signal detector and an additional niche detector connected to the first switch, a medium, and a discriminator. the detector, and the output of the first switch through a series-connected pulse Odul top, automatic gain control unit, blanking unit to one of the inputs of the second switch, to the second input of which the output of the pulse modulator is connected, and the output of the second switch is simultaneously connected to the switch directly and through parallel connected color separation unit and phase inverter, and switch output - to the fixation unit, to the second input of which the output of the sync selector is connected via the fixing pulse former. however, the fixation pulse shaper: Wed; the interrupt pulse driver is connected to the second inputs of the quenching terminal and the pulse modulator, and the output of the latching unit is connected to the limiter.

However, the known device does not completely measure the parameters of the input signals.

In order to measure additional parameters of input signals in the proposed device, the output of the limiter is simultaneously connected to one of the inputs of the compensating voltage generator and to one of the inputs of the additional switch directly through the quad and delgtsl, and the output of the additional switch through the serially connected digital indicator, coincidence unit, to the second inputs of which are connected to the outputs of the program block, the adder and the memory block are connected to the tolerance indicator block; One of the inputs of the additional switch is connected to the resident Bideodetector, the second input of which is connected to the second input and the second non-switch, and the third input of the additional switch is connected to one of the outputs of the program block, the other input of which is simultaneously connected to the input of the additional switch of the compensating voltage compensator ) the first switch and the second switch.

The drawing shows the 6jioK-cxei ia of the proposed device.

An apparatus for measuring the transmission parameters radiotelevnzpopnoy stantspi comprises dvuhpolosiy video detector 1 doiolpitelny switch 2, 3 and sinhroselektor locking pulse generator 4 coupled to the second input of the carrier signal remaining audio detector 5, the discriminator 6, the peak detector 7, the additional peak detector 8. The outputs of video detector Bi 1, the detector 5 of the sound carrier signals and the peak detectors 7 and 8 are connected via a first switch 9 to a pulse modulator 10, the control input of which is connected to the shaper of the latching pulses through the shaper of 11 pulses of the interrupt.

The output of the pulse modulator is connected directly and through the automatic gain control unit 12 (AGC) and the 13th block unit to the inputs of the second switch 14, the output of which is connected to the inputs of the switch 15 directly, as well as through the color synchronization unit 16 and the phase inverter 17. Switch output 15 through a fixation circuit 18 is connected to a limiter 19, the output of which and the second input of the switch are interconnected via a compensating voltage driver 20, while the output of the limiter 19 is connected partially and through the series-connected quad 21 and divider 22 to the inputs of the additional switch 23, the output of the latter is connected via a digital indicator 24, a coincidence circuit 25, an adder 26 and a memory block 27 with a tolerance indicator 28.

The operation of the coincidence circuit, the compensating voltage driver, as well as all switches and switches, is controlled by program block 29.

The device works as follows.

The high-frequency signal through input 30 is fed to a dual-band superdetector 1. The output signal of dual-band video detector 1 is fed through a sync selector 2, which separates the full sync signal and its individual components of the line and field frequencies, and then to the fixation pulse shaper 4, the location of which can correspond to the transmission of vertices horizontal sync pulses or the transfer of the rear platforms of horizontal damping pulses, depending on the type of the measured parameter.

The sound signals through the input 31 are fed to the detector 5 of the carrier of the sound signals, a constant voltage is formed at its output with a square proportional to the peak power of the sound signal transmitter.

The high-frequency signal from the sound channel of the measuring demodulator of the transmitting station is fed through input 32 to the discriminator 6, which separates the sound of the audio track, the span of which is proportional to the maximal carrier frequency deviation. Next, the signal arrives at the peak detector 7, a constant voltage proportional to the maximum deviapia of the carrier frequency of the audio signal transmitter is generated at the output of the latter.

The sonic sounding signals are fed through the input 33 to the additional peak detector 8, and a constant voltage appears proportional to the quasi-peak range of the pointing signals.

To synchronize the operation of the meter in the mode of measuring the parameters of the input signals, the video signals through the input 34 are fed to the switch 2.

The signals from the outputs of the two-way video detector 1, the detector 5 of the carrier of audio signals, the peak detectors 7, 8 through the switch 9 successively arrive at the input of the pulse modulator 10.

The modulator is compensated by signals from the output of the driver 11 pulses and interrupts triggered by the signals from the driver 4 pulsation switches.

From the output of block 12, the AGC signal is fed to the block 13, which is controlled by signals from the output of the driver 11 interrupt pulses.

The video signal from the block 13 is added to the second switch 14, it also receives a signal from the output of the pulse modulator and the video signal from the input 34 of the meter. Depending on the measured parameters, each of the inputs of the switch 14 is sequentially connected in time to its output.

When measuring the power of the image signal transmitter, the video signal is fed through the switch 14 directly to the input and then to the output of the switch 15. When measuring the modal depth, the video signal from the blanking unit 13 through the switch 14 is fed to the input of the switch 15, where it is limited in spectrum to align the signals chromaticity.

When measuring the relative content of color synchronization signals in the emitted signal, the switch 15 provides for the transmission of signals from the output of the allocation unit 16 connected to the unit 13 by using a non-switch 14.

When measuring the relative content of sync pulses, the signal from the output of the current 13 is dampened and is limited by spectrum in the phase inverter 17.

From the output of the switch 15, depending on the type of the measured parameter, one or another signal is fed to the fixing circuit 18 and then pa the limiter 19 with an automatically controlled limiting level, which is specified by the compensator voltage compensator 20. At the initial time, the measurements of any of the voltage parameters at both inputs of the limiter 19 are equal, and the measured part is not the output of the limiter. If the voltage is set to less than the magnitude of the measured signal, then the limiter 19 passes only a part of this signal. Thus, from the beginning of the measurement of any parameter until the moment when it is compensated, its voltage becomes equal (with the selected resolution, its ability) to the sweep of the measured signal, at the output of the stopper 19 a sequence of pulses is allocated, the number of which is proportional to the sweep of the measured signal. When measuring the transmitter transmitter's image at the blanking level in the latching circuit 18, the signal is fixed at the level of damping pulses. When measuring the modulation depth in fixation circuit 18, the video signal is locked at the level of the sync pulses, and a series of pulses occurs at the output of the limiter, the number of which is proportional to the signal sweep. When measuring the relative content of 1 sync pulses in the emitted signal in fixation circuit 18, the video signal is fixed at the level of damping pulses, and a series of pulses occurs at the output of the limiter, the number of which is proportional to the amount of sync pulses. The pulses from the output of the limiter 19 pod 1OTS directly and through the series-connected quadr 21 and divider 22 to the additional switch 23, which connects the output of the limiter 19 in the case of measuring linear values (modulation depth, relative content of sync pulses or color synchronization signals) and the output of the divider 22 the case of measuring the power to the input of the digital indicator 24. At the output of the quadrant 21 used in measuring the power, a series of pulses is formed, the number of which is proportional to about the square of the number of pulses applied to its input. The divider 22 has a constant dividing ratio and provides the output of the quad for the digital indicator 24, containing decoding matrices and indicator lamps and connected via a matching circuit 25, the adder 26 and the memory unit 27 with the tolerance indicator 28. The operation of the coincidence circuits 25, as well as the switches 2, 9, 14, the switches 15, 23 and the compensating voltage generator 20 is performed by the program block 29. If the measured parameter is larger than the allowable value, then a pulse occurs at the output of the coincidence circuit 25, which through the adder 26 is fed to the storage unit 27. An indication of the output of the measured pa- rameter and the limits of the minimum tolerance is carried out in the event that at the output of the circuit 25 a pulse does not occur. When measuring the power of the non-transmitting sound signals, the voltage from the output of the detector 5 of the carrier through the switch 7 enters the pulse modulator 10, at the output of which horizontal frequency pulses are generated. The magnitude of these pulses is proportional to the magnitude of the image signal transmitter. When measuring the maximum frequency deviation of the carrier transmitter of sound signals, a constant voltage from the output of the peak detector 7 through a switch 9 is fed to a pulse modulator 10, at the output of which a horizontal frequency pulses are generated, which through the switch 14 and switch 15 are fed to the circuit fixing 18. The measurement of the quasi-peak range of the sound signals arriving at the station input is carried out similarly to the measurement of the maximum deviation. In this case, the signal from the output of the additional peak detector 8 is fed to the input of the pulse modulator 10. When measuring the parameters of the incoming video signal, the latter is fed to the switch 14 directly through the switch 2 to the sync selector 3. The video signal parameters are measured in the same way as the module depth measurement relative to sync pulses and color burst signals. Formula j 3 forbet e and Device for measured parameters of a radio and television transmitting station, containing a two-way video detector, a carrier signal detector, a discriminator and an additional peak detector, with the outputs of a two-way video detector, a carrier signal detector of the sound carriage and an additional chord detector. directly to the first switch, and the output of the scriper through the peak detector, and the output of the first switch through the successive coefficients Enempmpulary unit, automatic gain control unit, quencher unit - to one of the inputs of the second switch, to the second input of which the output of the pulse modulator is connected, and the output of the second switch is simultaneously connected to the switch directly through the parallel-connected color separation signal and phase inverter , and the switch output - to the fixation unit, to the second input of which is connected through the fixing pulse former, the output of the sync selector, while the pulse former Fixed via the interrupt pulse driver, the subcampout to the second inputs of the blanking unit and the pulse modulator, and the output of the fixing unit is connected to a limiter, characterized in that, in order to measure additional parameters of the sigpals arriving at the station, the output of the limiter is simultaneously connected to the formating device inputs compensate one voltage to one of the inputs of the additional switch directly and through a quad and a divider, and the output of the additional switch is serially connected s digital display unit of matching, to the second input

which are connected to the outputs of the program block, from the mmator and the memory block to the tolerance indicator block, while the output of the dual-lane video detector is connected to one of the inputs of the additional switch, to the second input of which is the second switch an input video signal is fed, and to the third input of the additional switch one is connected the outputs of the program block, another input of which is simultaneously connected to the input of an additional switch of the compensating voltage driver, switch of the first switch and V orog switch