SU1061291A1 - System for automatic change-over to stand-by facilities for television communication lines and tolerance checking device - Google Patents

Abstract

1. A system for automatically backing up television lines containing the first and second signal receivers, a sync pulse selector, two detectors, the output of each of which is connected to a corresponding threshold unit, as well as two accumulators, characterized in that communication lines with the highest signal-to-noise ratio, a clock pulse generator, two switches, two attenuators, a compensation detector, a low-pass filter, a weighting filter, a gated meter, two additional detectors, a tolerance control device, four blocks of coincidence, a trigger and two control signal drivers with the first outputs of the first and. The second signal receivers are connected to the first and second inputs, respectively, of the first switch, the second outputs of the first and second receivers signal through attenuators are connected to the first and second inputs, respectively, of the second switch, the output of which is connected through a serially connected low-pass filter and weighting filter to the clock selector and the first input of the calibrated meter, the second input of which is connected to the first output of the clock pulse selector, and the output to the first input of the first and Secondly, the coincidence blocks, the second output of the clock selector through serially connected compensation detector and the tolerance control device is connected to the first input of the third and fourth coincidence blocks, the first output of the clock generator Q is connected to the third input of the second switch, and, the second input of the third block of matches, the second output of the clock pulse generator is connected to the fourth input of the second switch, to the second input of the second and second input The Fourth matching blocks, the third clock pulse generator output is connected to third inputs of all blocks-. matches, the output of the first and second ft blocks of matches is connected respectively to the input of the first and second detectors, the output of the third and fourth blocks of matches is connected via the first and second additional detectors respectively to the first inputs of the first and first inputs of the second adders, the other inputs of which are connected to the output ij of the corresponding threshold blocks, and the outputs, respectively, to the first and second inputs of the trigger, the first and second outputs of which are connected respectively via the first and second forms Control signal telephones with the third and fourth b5 soda of the first switch. 2. The system according to claim 1, characterized in that

Description

the clock pulse contains an amplifier-limiter on two transistors of different types of conductivity, the base of the first transistor is connected to an input circuit made of two series-connected resistors, the input capacitor and the base of the first transistor are connected to the junction point, the first resistor is connected to the common bus connected to the power bus, the collector of the first transistor is connected to the base of the second transistor and through a third resistor with a correction circuit made in the form of a parallel connection The fourth resistor and the correction capacitor, the fourth resistor is connected to the common bus, the emitter of the first transistor is connected through the fifth and sixth resistors connected in series to the DJHHe, the power supply and through the amplitude-frequency characteristic correction capacitor to the common bus, collector; the second resistor through the resistor negative feedback is connected to the point of connection of the fifth and sixth resistors and through the filter capacitor to the common bus, the emitter of the second transistor is connected to the voltage divider, The seventh and the eighth resistors are connected in series to the junction of these resistors, the seventh resistor is connected to the common bus and the eighth to the power bus, the input capacitor being the input of the sync pulse selector, the collector of the second transistor the sync pulse selector output, and the collector the first transistor is a gating output of the clock pulse selector.

3. The system of claim 1, wherein the compensation detector comprises a low-pass filter connected in series, the first peak detector and an adder to the second input of which is connected the input of the low-pass filter via the second peak detector, the input of the low-pass filter being the compensation input detector and the output of the adder is the output of the compensation detector.

4. A tolerance control device containing an emitter follower, in the emitter circuit of which a voltage divider is included, made in the form of series-connected first and second resistors, the second resistor being connected to the power bus, as well as a comparator, in order to provide a comparison the ratio of two voltages, acting as an alternating sequence with a prescribed adjustable threshold value, while ensuring the independence of the comparison result from the voltage levels, The crawling circuit is made in the form of a third resistor and a capacitor connected in series, the third resistor is connected to the emitter of the emitter follower, the capacitor is connected to the common bus, and the connection point of the third resistor and capacitor is connected to the first input of the comparator, the second input of which is connected through the fourth resistor with the middle input of the first resistor, made variable, while the emitter follower input is the input of the tolerance control device, and the comparator output is in output tolerance control device.

The invention relates to radio engineering, specifically to the transmission of television signals over communication lines, and can be used to automatically select a signal with a lower noise level (interference) from several signals of the same program, passing through different lines or along different trunks of one communication line. .

A known system for automatically backing up a television communication line, comprising the first

the second signal receiver, four, clock pulse selector, two blocks. ka 3 holders and two adders, outputs i of the first two selectors of sync pulses, are connected to the first inputs of adders via the corresponding delay blocks, and outputs of two other selectors of sync pulses are connected to the second inputs of sum jg tori, outputs of adders through

The detector and threshold unit connected in series are connected to the corresponding inputs of the unit ,, logic l.

The device is known to allow

control, containing an emitter follower, in the emitter circuit of which a voltage divider is connected, made in the form of serially connected first and second resistors, the second resistor being connected to the power bus, as well as a comparator whose input is connected to the output of the emitter follower 2 ..

The disadvantage of the system for automatic backup of the television lines is that it detects a malfunction of the communication line only in the event of a signal loss, but is not suitable for detecting the malfunction of the communication lines, such as degrading the signal quality, such as signal / lum.

The disadvantage of the tolerance control device is the impossibility of comparing the ratio of two voltages, coming in the form of an alternating sequence of pulses with a predetermined adjustable threshold value and ensuring that the result of the comparison is independent of. stress levels.

The purpose of the invention is to ensure the selection of a television communication link with the highest signal-to-noise ratio in the system for automatic reservation of television communication lines and to provide a comparison of the Ratio of two voltages arriving as an alternating sequence with a predetermined adjustable threshold value while ensuring the independence of the comparison result from levels zheny, in the device admission control.

To do this, a system for automatic backup of television lines containing the first and second signal receivers, a clock selector, two detectors, the output of each of which is connected to the corresponding threshold unit, as well as two adders, a clock generator, two switches, two attenuators, compensation detector, filter ,,. Frequency Weighting Filter. gated meter, two additional, armed detectors, device; preset control, four blocks of matches, a trigger and two control signal drivers, with the first outputs of the first and second signal receivers connected to the first and second inputs of the first switch, respectively, the second outputs of the first and second signal receivers are connected to the first and second inputs through the attenuators respectively, the second switch, the output of which | through series connected

the low-pass filter and the weighing filter are connected to the input of the clock selector and to the first input of the gated meter, the second input of which is connected to the first output of the clock selector, and the output to the first input of the first and second blocks of coincidence, the second output of the clock selector through sequentially jQ compensated detector and tolerance control device connected to the first input of the third and fourth blocks of coincidence, the first output of the clock generator, pulses connected to the second input of the second switch, with the second input of the first and second inputs of the third coincidence block, the second output of the clock generator connected to the fourth input of the second 0 switch, with the second input of the second and second inputs of the fourth match block, the third output of the clock generator connected to the third inputs of all blocks Sov5 drops, the output of the first and second blocks of coincidence is connected respectively with the input of the first and-input. The second detectors, the output of the third and fourth blocks of coincidences Q are connected respectively through the first and second additional detectors to the first input of the first and first inputs of the second adders, the other inputs of which are connected to the outputs of the corresponding threshold blocks, and the outputs respectively to the first and second inputs trigger, the first and second outputs of which are connected respectively via the first and second control signal generator c., the third and fourth inputs of the first switch. .l

In this case, the clock pulse selector contains an amplifier-limiting switch on two transistors of different types of conductivity, the base of the first transistor is connected to an input circuit made of two series-connected resistors, the Q input point of which is connected to the input capacitor and the base of the first transistor, the first resistor is connected to the O1 common bus , the second resistor is connected to the power bus, the collector of the first transistor is connected to the base of the second transistor and through the third resistor with a correction circuit made in the form of parallel o connect the fourth resistor and the correction capacitor, with the fourth 0 resistor connected to the common bus,

the emitter of the first transistor is connected (whose via connected in series fifth and sixth resistors to the power bus and through the capacitor of the correction of the schlitduh-frequency response to the common bus, the collector of the second transistor is connected to the fifth and sixth resistors and through the filter capacitor - to the common bus, the emitter of the second transistor is connected to the voltage divider, made in the form of series-connected seventh and eighth resistors, to the junction point of these two stories, the seventh resistor is coupled to the common bus, and the eighth - a power bus input capacitor is input to clock selector, the collector of the second transistor is the output of the selector: clock, and the collector of the first transistor - siyhroimpulsov strobe output selector.

The compensating detector comprises a low-pass filter connected in series, a first peak detector and an adder, to the second input of which a lowpass filter input is connected via a second peak detector, the input of the lowpass filter being the input of the compensation detector, and the output of the adder is the output of the compensation detector.

In addition, a tolerance control device containing an emitter follower, in the emitter circuit of which a voltage divider is included, made in the form of serially connected first and second resistors, the second resistor connected to the power bus, and a comparator, a smoothing circuit in the form of series-connected third resistor and capacitor, while the third resistor is connected to the emitter emitter follower / capacitor connected to the common bus, and the connection point of the third resistor The capacitor is connected to the first input of the comparator, the second input of which is connected via the fourth resistor to the middle input of the first resistor, which is variable, the input of the emitter follower is the input of the device, the tolerance control, and the output of the comparator is the output of the tolerance device control

FIG. 1 shows a structural electrical system of cistekil for automatic reservation of television communication lines / in FIG. 2, timing diagrams explaining the principles of the proposed system MU / in FIG. 3 is a schematic diagram of the clock pulse selector; in fig. 4 is a structural electrical circuit of the compensation detector; in fig. 5 - principle

scheme of tolerance control device.

A system for automatically backing up television lines contains two receivers 1 and 2

signal, first switch 3, two attenuators 4 and 5, second switch 6, low pass filter 7, weighing filter 8, selector 9 sync pulses, compensation detector 10, tolerance control device 11, gated meter 12, four blocks 13–16 coincidences, two detectors 17 and 18, two additional detectors 19 and

5 20, two adders 21 and 22, two off-high .23 and 24 blocks, a trigger 25, two control signals 26 and 27, and a clock pulse generator 28.

The clock pulse selector contains input circuit 29, charge-discharge circuit 30, correction circuit 31, voltage divider 32, first transistor 33, second transistor 34, input capacitor 35, first

5 36, second 37, third 38, fourth 39, fifth 40 and sixth 41 resistors, correction capacitor 42, conden: Amplitude-hour correction current collector 43 and filter capacitor 44, negative feedback resistor 45, seventh 46 and eighth 47 resistors, limiting amplifier 4 8.

5 The compensation detector contains a low-pass filter 49, a first peak detector 50, a second peak detector 51, and an adder 52. The tolerance control device contains an emitter follower 53,

0 consisting of a transistor 54 and a voltage divider made of two resistors 55 and 56, a smoothing circuit 57 consisting of a third resistor 58 and a capacitor 59,

5 is a comparator 60 and a fourth resistor 61.

The system for automatically backing up the television lines operates as follows.

0

From the first and. second signal

video inputs through attenuators 4 or 5, providing the necessary levels of video signals, arrive at the first one,

And the second inputs of the second switch 6. Under the action of the control pulses arriving at the third and fourth inputs of the second switch 6c of the outputs of the generator 28, the video signals are alternately switched. As a result, in the code of the second switch 6, an alternating sequence of two video signals is formed, which i

65 is fed to the input of the filter 7 lower frequencies. This filter suppresses all signals and noise (noise) located above the spectrum of the video signal in order to eliminate their influence on the results of measurements of noise levels. From the output of the low-pass filter 7, the signal alternating with a sequence of signals is fed to the input of the weighing filter 8, where the spectrum of the noise (interference) is converted to a form corresponding to the spectral sensitivity of the human eye. Simultaneous conversion of the video signal spectrum does not affect the result of the evaluation of sync and noise levels, because during further processing the video signal is completely suppressed. The video signal sequence converted in this way is fed to the input of the selector 9 clock pulses and to the first input of a gate of my meter 12 levels of clock pulses. In the selector 9 sync. pulses, the image signal and most of the sync pulse levels are limited and the remaining part of the sync pulse levels are amplified with noises superimposed on their tops. As a result, at the signal output of the selector 9, the clock pulses alternate with the sequence of the remaining parts of the sync pulses with noises ( interference), located on their tops, which is fed to the input of the compensation detector 10, where the detection of noise (interference) and the compensation of the existing part of the sync level occur Pulse. An alternating sequence of two DC voltages, proportional to the noise levels in the alternating sequence of video signals, is output from the compensation detector 10 to the input of the tolerance control device 11. The tolerance control device 11 compares the relationship of voltage levels of an alternating sequence with a predetermined threshold value and, if it is exceeded, generates, at the output, rectangular pulses of positive polarity in that time interval of an alternating sequence in which the input voltage is greater ( more noise). From the output of the weighing filter; 8 to the first input of the gated meter 12 levels of clock pulses alternate with a sequence of two video signals; 12 levels of clock pulses. In the gated meter, 12 levels of clock pulses fixes the peaks of clock pulses and gates the back areas of the damping pulses. In this case, an alternating sequence of rectangular pulses of constant duration is obtained with levels equal to the levels of sync pulses in an alternating sequence of video signals. Using the resonant cascade included in the gated meter 12 levels of sync pulses, the first harmonic of these pulses is extracted and a sinusoidal signal (first harmonic of horizontal sync pulses) is detected, which is also contained in the gated sync pulse 12 levels of sync pulses. At the output of the gated meter 12 levels of clock pulses, an alternating sequence of DC voltages is obtained, which is proportional to the levels of clock pulses in a periodic sequence of video signals, which is fed to the first inputs of blocks 15 and 16 matches. The use of a weighting filter, a sync pulse selector, a compensation detector, a tolerance control device, and a gated meter increases the control accuracy by increasing the number of monitored signal parameters — measuring the sync pulse levels and the noise ratio of the two video signals; that does not require the introduction of any measurement signals or pilots in the video signals. This allows the system to be used for automatic backup of television lines with equipment of various television standards and in signal-to-noise ratio measurements measuring during television transmissions. : In the event of a malfunction of the television link, resulting in the trimming of the clock pulses, a command is created to connect to the television link with the normal level of clock pulses, regardless of the noise level. Timing diagrams (Fig. 2) explain the principle of the system for automatically backing up television lines, where From, and Ulj are the noise levels in the first and second video signals at the input of the noise level measurement path, respectively; 11 and, to U sh the levels of clock pulses SOOT13STSTVenno in the first and second video signals at the input of the path for measuring the levels of clock pulses ;. PM and 2 PM are the time intervals in which the system output receives signals from the first or second receiver, respectively; Threshold value of sync pulse level; KdB threshold value of receiver switching on noise.

Use in the system of the principle of control levels and the development of co-. The control mandates based on the measurement of the levels of sync pulses and noise allow the television link not only to be reserved for malfunctions leading to complete signal loss, but also for malfunctions leading to trimming of sync pulses and an increase in noise level, as well as during fading. signals on the line (fading). As a result, the synchronization stability of the receiving devices is improved and the noise level is reduced, which improves the visual perception of the image.

The system can be used to logically assess the quality of two video signals, and the quality of the signals is assessed by two parameters: the main and additional, and the commands formed on the basis of this check are used to select the best video signal. The second and third inputs of blocks 13–16 coincidences are received by rectangular pulses from the corresponding outputs of the generator 28. The first inputs of blocks 13 and 14 of matches are associated with the output of the tolerance control device 11 at time intervals when the noise ratio in the video signals at the outputs receivers 1 and 2 do not exceed the threshold value, a negative potential is received. And in the time intervals when the noise ratio exceeds the threshold value, positive polarity pulses arrive in the time interval in which the noise level in the alternating video signal sequence is greater.

At the output of the block of coincidence 13, square-shaped pulses of positive polarity appear when there are pulses in the first time interval, and at the output of block 14, the match is in the presence of pulses in the second time interval. These pulses are detected by the respective detectors 19 and 20, and the DC voltages are applied to the first inputs of the adders 21 and 22, respectively. The first inputs of blocks 15 and 16 coincidences connected to the output of the calibrated meter 12 are alternated with a sequence of two voltages proportional to the levels of the clock pulses of the corresponding video signals. The output of the coincidence block 15 contains positive polarity pulses with a level equal to the voltage level in the first time interval of an alternating sequence, and the output of the coincidence block 16 is equal to the voltage level in the second time interval of this intensity. These pulses are detected by the respective detectors 17 and 18, and from their outputs constant voltages equal to the levels of the pulses at the inputs are sent to the corresponding threshold blocks 23 and 24. When this voltage decreases, the input voltage of any threshold block is below the threshold value at its output a constant voltage appears, and through the corresponding adder 21 orch 22 arrives at the corresponding setup input of the trigger 25. The transfer coefficients of the adders 21 and 22 through the second inputs are much higher than the first, therefore the state rigger 25 is completely determined by the voltage at the outputs of threshold blocks 23 and 24. If the levels of sync pulses in the video signals at the outputs of receivers 1 and 2 exceed the minimum allowable value, and hence the voltage at the inputs of threshold blocks 23 and 24 exceed threshold values, then the outputs of these threshold voltage blocks are missing. In this state, the trigger 25 is determined by the voltages at the outputs of the detectors 19 and 20

. Voltages from the shoulders of the trigger 25 are lowered to the control signal formers 26 and 27. When the state of flip-flop 25 changes, the driver that triggers a negative voltage drop is triggered, and at its output it appears for a short time sufficient for the first switch 3 to operate (the redundant communication line, zero or any other switch control potential or constant voltages are generated if a switch with potential control inputs is used.

Selects sync pulses as follows.

In the steady state between the clock pulses, the capacitor 44 is charged to such an extent that the transistor 33 is closed, and the transistor 34 is also closed. The transistor 33 opens with a positive clock pulse arriving at its base and switches to the gain mode. When a collector current flows through a resistor 40, a voltage is released which opens the transistor 34, which goes into a gain mode. This closes the common negative feedback loop, which includes resistors 39, 40 and 45,. the capacitor 44 and the transistors 33 and 34. Due to the currents of both transistors, the capacitor 44 begins to discharge in an exponential law, according to the same law the voltages on resistors 39 and 40 and the current of transistor 33 decrease. and the voltage across the resistor 45, between the resistor 40 and the common wire, includes a resistor-capacitor circuit consisting of a capacitor 42 and a resistor 41. When the collector current of the transistor 33 flows, the qalop 42 begins to charge and the voltage increases across it to the law. The constant time of the correction chain is chosen such that the full correction of the clock pulse is selected. After the sync pulse is finished, both transistors are closed, capacitor 42 is discharged through resistor 41, and capacitor 44 is recharged through resistor 38, which is used as a current source. The time constant of the charging circuit is chosen such that the change in voltage across the capacitor 44 during the horizontal sync pulse is small,.

The inclusion of a charge-discharge circuit in a common negative feedback loop ensures the preservation of information transmitted on the flat tops of the clock pulses, while maintaining the stability of the levels

sync pulses. This allows IP

Use this selector not only as a normal selector to separate the clock from the video signal, but also in television sets with information transmission superimposed on the tops of the clock pulses. The compensation detector works as follows.

Pulses with noises or useful information at the top are fed to the inputs of the second peak detector 51 and low-pass filter 49. The filter parameters are chosen so as to receive at its output a quasi-fiber-shaped pulse with a level equal to the level of the pulses at the input. In this case, the best suppression of noise and signals is ensured. From the output of the filter 49. lower frequencies, the pulses are fed to the input of the first peak detector 50, the output of which produces a constant voltage equal to ypOBrito of the pulses at the input. The second peak 5 detector 51 detects pulses

with noises or signals superimposed on their tops. Therefore, at its output a constant voltage equal to the sum of two voltages of scientific research institutes is obtained: a voltage equal to the level of the pulses at the input, and a voltage proportional to either the root-mean-square value of the noise or the amplitude value sinusoidal

AC signals, From the outputs of the peak voltage detectors, go to the corresponding inputs of the adder 52, made on the basis of a differential amplifier, at the output of which: the horn6 component of the pulses is compensated, Using peak detectors

; in the compensation detector, it excludes: the influence of the switching signal on the 25 output signal; in addition, the detector practically does not need to be tuned, and the addition of the detected signals allows a significant expansion of the operating band in the lower frequency range. This makes it possible to broaden the scope of application of the compensation detector.

The device tolerance control works as follows

 The input to the emitter follower 53 receives a signal in the form of an alternating sequence of two voltages. This signal is released at the emitter-repeater load (resistors 55 and 5b). From the full load, the signal went: to a smoothing circuit consisting of resistor 58 and capacitor 59. The time constant of this circuit should be significantly longer than the voltage repetition period. . Therefore, the capacitor 59 is separated by a voltage equal to the medium 1 to the arithmetic value of the input signal, which is fed to the first input of the compiler 60. The second input of this comparator, through the fourth resistor b1, receives a signal in the form of an alternating sequence of two voltages from the emitter load portion of the second follower. This signal. less than the input level and shifted to the area of negative voltages, which is necessary to set the response threshold from,

0 at the level of comparable voltage. This threshold is set with the variable resistor 55, the threshold voltage ratio, expressed in decibels,

5 is determined by the formula:

I- -OoPrf-2. °. bi

RL - resistance value

the resistor 55 between the middle output and the output connected to the emitter of the transistor 54,

55 BS At a voltage / powder ratio value, the potential difference at the inputs of the comparator does not change sign and therefore the voltage at its output does not change. With a voltage ratio greater than the threshold value, the difference in the potentials at the inputs of the comparator changes sign, and rectangular impulses are formed at its output.

positive polarity in the time interval in which the input voltage is greater in absolute value.

The use of a smoothing circuit and a variable resistor in the tolerance control device makes it possible to compare the ratio of the bi-voltages entering the H.1 input of the tolerance control device in the form of an alternating sequence with a predetermined adjustable threshold value, min intermediate stage of voltage formation proportional to this ratio the result of the comparison is independent of the levels of incoming voltages.

.2

Time

Claims (4)

SYSTEM FOR AUTOMATIC) RESERVATION OF TELEVISION LINES • COMMUNICATIONS AND DEVICE FOR PRE-CONTROL. (57) 1. A system for automatically backing up television communication lines, comprising the first and second signal receivers, a clock selector, two detectors, the output of each of which is connected to the corresponding threshold unit, as well as two adders, characterized in that, in order to provide a choice television communication line with the highest signal-to-noise ratio, a clock generator, two switches, two attenuators, a compensation detector, a low-pass filter, a weighing filter, a gated meter, two additional ADDITIONAL detector tolerance control apparatus, four coincidence unit, and two trigger generator control signal, wherein the first outputs of the first and 'second signal receivers are connected to first and second inputs respectively of the first switch, the second outputs of the first and second signal receivers through attenyua? the tori are connected to the first and second inputs of the second switch, respectively, whose output is connected through a series-connected low-pass filter and a weighing filter to the input of the clock selector and to the first input of the gated meter, the second input of which is connected to the first output of the clock selector, and the output to the first the input of the first and second coincidence blocks, the second output of the clock selector through a series-connected compensation detector and tolerance control device n with the first input of the third and fourth coincidence blocks, with the first output of the clock generator connected to the third input of the second switch, with the second input ~ the first and second input of the third coincidence blocks, the second output of the clock generator connected to the fourth input of the second switch , with the second input, the second and second input of the fourth coincidence blocks, the third output of the clock generator is connected to the third inputs of all coincidence blocks, the output of the first and second coincidence blocks is connected to responsibly to the input and the first input of the second detector, the third and fourth output matching blocks connected respectively via first and second additional detectors with the first input of the first and second adders of the first input, the other inputs of which are connected to the outputs! the corresponding threshold blocks, and the outputs, respectively, to the first and second inputs of the trigger, the first and second outputs of which are connected respectively through the first and second drivers of the control signal to the third and fourth inputs of the first switch. 2. The system by π. 1, characterized in that the reference SU ,,,, 1061291 clock pulse contains a limiting amplifier on two transistors of different types of conductivity, the base of the first transistor connected to an input circuit made of two series-connected resistors, to the connection point of which an input capacitor is connected and the base of the first transistor, the first resistor is connected to the common bus, the second resistor is connected to the power bus, the collector of the first transistor is connected to the base of the second transistor and through the third resistor with a correction circuit, connected in the form of a fourth resistor and a correction capacitor connected in parallel, with the fourth resistor connected to a common bus, the emitter of the first transistor connected via series-connected fifth and sixth resistors to the power bus and through the correction capacitor of the amplitude-frequency characteristic to the common bus, the collector of the second resistor through | negative feedback resistor (the connection is connected to the connection point of the fifth and sixth resistors and through; the filter capacitor to the common bus, the emitter of the second transistor is connected to a voltage divider made in the form of the seventh and eighth resistors connected in series to the connection point of these resistors, the seventh resistor connected to the common bus and the eighth to the power bus, while the input capacitor is the input of the clock selector, the collector of the second transistor is the output of the clock selector, and the collector of the first transistor is the gate output of the clock selector. 3. Pop system. 1, characterized in that the compensation detector comprises a low-pass filter connected in series, a first peak detector and an adder; to the second input of which the input of the low-pass filter is connected through the second peak detector, the input of the low-pass filter being the input of the compensation detector, and the output of the adder is the output of the compensation detector. 4. A tolerance control device comprising an emitter follower, in the emitter circuit of which is included a voltage divider made in the form of series-connected first and second resistors, the second resistor connected to the power bus and a comparator, characterized in that, in order to provide comparison the relations of two voltages arriving in the form of an alternating sequence with a given adjustable threshold value, while ensuring the independence of the comparison result from voltage levels, introduced ivayuschaya circuit designed as a series-connected capacitor and a third resistor, said third resistor connected to the emitter of emitter-follower, a capacitor connected to the common bus, 'a third point of connection and the resistor is connected to a capacitor per-! the input of the comparator, the second input ^{1 of} which through the fourth resistor is connected to the middle input of the first resistor, made variable, while the input of the emitter follower is the input of the tolerance control device, and the output of the comparator is the output of the tolerance control device.