SU970234A1 - Stroboscopic compensating converter of electric signals - Google Patents

Description

The invention relates to electrical engineering and can be used to build repetitive waveform recorders. ' Known stroboscopic meter of parameters of repetitive signals containing a gated block comparison, a strobe generator, digital-to-analog Converter and block auto-shift [1J.

The disadvantage of this device is the limited functionality. ''

Closest to the proposed γ in technical essence is a stroboscopic compensation converter of electrical signals containing a master oscillator, the output of which is connected to the synchronous input; the source of the signal under study, the output connected to the signal input of the gated block of comparison, the gating input of which is connected with the output of the strobe generator, and. output - with the input of the control unit, the code output of which is connected to the code input of the first digital-to-analog converter, the code input of the unit connected to the input, indication, and the adjustable delay unit and • coincidence unit, the first input of which is connected to the output of the comparison unit, and the second an input through an adjustable delay unit, with the second * output of a strobe pulse generator [2]. .

The disadvantage of this device is. Limited functionality.

The purpose of the invention is the expansion of functionality. The goal is achieved due to the fact that the stroboscopic compensation converter of electrical signals containing a master oscillator, the output of which is connected to the synchronization input of the source of the studied signal, the output connected to the signal input of the gated block of comparison, the gate input of which is connected with the output of the strobe generator (pulses, and the output - with the control input, the code input of which is connected to the _ code input of the first digital-to-digital • converter, the code input connected to the input The display window is equipped with a clock generatorSrom, a code converter in the time _: _ time interval, a digital counting ... block programmable with a memory block, a second digital-to-analog converter and a functional conversion block, the first input of which is connected to the signal output of the first digital-to-analog converter, the output is with a compensating 5 input of the gated comparison unit, and the second input is (ί the signal output of the second digital-to-analog converter, the code input of which is connected to the output of the There is a memory block connected to the output of the digital conversion block, the input of which is connected to the second output of the control unit and the output is with the code input of the code converter 15 into the time interval, the control input of which is connected to the output of the master oscillator, the output is with the generator input -pulses, and the input, with the output of the clock-jq th generator.

The drawing shows a structural diagram of a device.

The apparatus consists of a master oscillator 1, the analyzed source 2 .--, th signal block gated Cf. ^ί neniya 3, 4 gating pulse generator, the control unit 5, a first digital-to-analog converter 6, display unit 7, the code converter 8 during the time interval shift clock generator 9, digital conversion unit 10, programmable storage unit 11, the second digital-to-analog Converter.

(.CAP) 12 and block 13 functional conversion 35.

The device operates as follows.

The signal of the master oscillator 1 synchronizes the source 2 of the studied signal, from the output of which the signal is fed to the input of the gated comparison unit 3. At the moment of arrival of the strobe pulses of the generator 4 to the block 3, the studied signal and the compensation signal generated by the functional converter unit 13 by the controlled signals from the outputs of the first and second DACs bi 12 are compared. The comparison result signal is input to the control unit 5, which controls the operation of the first DAC 6 in such a way that, when the constant signal from the output of the second DAC 12 is balanced, the block 3 is balanced at the point of the input signal, determined by the moment of arrival of the gating pulse. Ia 'equilibration process control unit 5 outputs the pulse to the next state kotoryy'ustanavlivaet 60 digital scaler unit 10 and the digital code on its output varies * unit. As a result of this, the time interval of the strobe-im shift, 65 pulses, generated by the transducer 8 after receiving a pulse from the master oscillator G. is increased by a unit of discreteness. Then, the balancing process occurs at the next point of the input signal. The discreteness of the formation of the time interval is determined by the frequency of the clock generator 9. The output code of the digital conversion unit is supplied to the input of the programmable storage unit 11, which controls the operation of the second DAC 12, since the signal corresponding to the one set in the transformed time scale is written to the programmable storage unit 11, then the output signal of the functional conversion unit 13 is a function of two signals coming from the outputs of the DAC b and 12. The form of this function is defined it shows the dependence of the readings on the digital scoreboard, block 7 indication on the values of the input investigated and the given signals.

For example, if an algebraic summation function is implemented, the difference between the instantaneous value of the signal under investigation and the value of the given signal for a given time coordinate will be displayed on the scoreboard, if the multiplication function is implemented, then their ratio will be displayed. The implementation of more complex functions using the block 13 functional transformation allows you to get the measured value in any given non-linear coordinate system, for example a logarithmic, as well as get a direct readout of the energy, correlation or spectral characteristics of the investigated input signal.

The device allows you to expand the functionality. At the same time, the informational content of the measurement result is increased, the acquisition of readouts in the required form, the ability to simultaneously perform operations with two independent values is ensured.

• The device allows to increase the speed and simplify the process ’registration of deviations of the shape of the investigated signal from the given shape, and also provides the ability to correct the measurement result.

Claims (1)

a block / second digital-to-analog converter and a functional conversion unit, the first input of which is connected to the signal output of the first digital-analog converter, the output to the compensating input of the gated comparison unit, and the second input - all digital output converter of the second digital-analog converter, the code input of which connected to the output of the programmable storage unit, the input of the digital conversion unit connected to the output, the input of which is connected to the second output of the control unit and the output to the code stroke transducer of code in the time interval, the control input coupled to vyhodsm oscillator output - to the input of oscillator strobe pulses and vhod.- yield clock. The drawing shows a block diagram of the device. The device consists of a master oscillator 1, a source 2 of the signal under study, a gated block 3, a generator 4 of its gating pulses, a control block 5, a first digital-to-analog converter of the display block 7, a code converter 8 in the integral clock shift interval 9, a digital conversion unit 10, a programmable storage unit 11, a second D / A converter (ACAD) 12, and a functional conversion unit 13. The device works as follows. The signal of the master oscillator 1 synchronizes the source 2 of the signal under study, from the output of which the signal arrives at the input of the gated comparison unit 3. At the moments when the strobe-pulses of the generator 4 arrive at block 3, the signal under investigation is compared with the compensation signal generated by the functional transducer block 13 controlled by the signals from the outputs of the first and second DAC 6 and 12. The comparison result signal is fed to the input of control block 5 which controls the operation of the first DAC 6 in such a way that, at a constant signal from the output of the second D / A converter 12, block 3 is balanced at the point of the input signal determined by the arrival time of the strobe pulse. The balancing process unit 5 of the control unit generates an ampulse that sets the digital conversion unit 10 to the next state, and the digital code at its output changes the Tia unit. As a result, the time interval of the gate-pulse shift by the transducer 8 after the arrival of a pulse from the master oscillator G is increased by one discreteness. Then the balancing process occurs at the next point of the input signal. The discreteness of the formation of the time interval is determined by the frequency of the clock generator 9. The output code of the digital conversion unit is fed to the input of the programmable storage unit 11, which controls the operation of the second DAC 12, because the program corresponding to the specified value is recorded in the programmable storage unit 11 transformed "over time, then the output signal of the functional conversion unit 13 is a function of two signals from the D / A outputs 6 and 12. The type of this function is defined There is a dependence of the readings on the digital scoreboard, the display unit 7 on the values of the input test and specified signals. For example, if the algebraic sum function is implemented, then the difference between the instantaneous value of the signal under investigation and the value of the specified signal for a given time coordinate will be displayed on the board, if the multiplication function is realized, then their ratio will be displayed. The implementation of more complex functions using the functional conversion unit 13 allows to obtain a sample of the measured value in any given nonlinear coordinate system, such as a logarithmic one, and also to obtain a direct reading of the energy, correlation, or spectral characteristics of the input signal under study. The device allows you to extend the functionality. At the same time, the information content of the measurement result is enhanced, it is possible to obtain a reference in the required form, the ability to simultaneously perform operations with two independent values. The device allows to increase the speed and simplify the process of registering the deviation of the waveform of the signal under investigation from the specified waveform, and also provides the possibility of correcting the measurement result. The claims of the Stroboscopic compensation transducer of electrical signals, comprising a master oscillator, the output of which is connected to the synchronization input of the source of the signal under investigation, an output