SU949510A1 - Stroboscopic converter of electric signals - Google Patents

Description

The invention relates to a measurement technique and can be used in the development of wideband oscillographic devices.

A stroboscopic converter is known that contains a strobe pulse generator, a mixer, an expander, an analog-to-digital converter (ADC), a recording unit, a voltage comparator, one of the inputs of which is connected to the input of the sawtooth generator, and the other with the output of the step voltage generator 1.

A disadvantage of this device is the low reliability of the displayed signal.

It is also known a device containing a mixer, the input of which is connected to the input signal bus and is connected to the first input of the comparator through serially connected synchronizer and sawtooth generator, the gate input of the mixer is connected to the output of the strobe pulse generator, and the output is connected to the signal input of the oscillographic indicator (2) .

A disadvantage of this device is the low reliability of the displayed signal.

The aim of the invention is to increase the reliability of the display.

Claims (2)

The goal is achieved by the fact that the device containing the mixer, the input of which is connected to the input signal bus and connected in series to the synchronizer and sawtooth generator, is connected to the first input of the comparator, the gate input of the mixer is connected to the output of the strobe pulse generator, and the output is connected to the signal input oscillographic indicator, a digital-to-analog converter, a counter, an adder, a memory register, a code sensor, and a digital-to-analog converter output are entered En with the sweep input of the oscillographic indicator and the second input of the comparator, the output of which is connected to the input of the strobe pulse generator and with the clock inputs of the counter and memory register, the outputs of which are connected to the corresponding inputs of the digital-analogue converter and the counter, the installation input of which is connected to the installation input of the memory register and with the signal output of the code sensor, the code outputs of which are connected to the first inputs of the adder, the second inputs of which are connected to the outputs of the counter, and the output You are connected to the memory register inputs, the cytiMaTopa transfer terminal is connected to the counting, input / counter. Figure 1 presents the block diagram of the stroboscopic converter of electrical signals; 2, a timing diagram describing the operation. The stroboscopic converter of electrical signals contains a mixer 1, the input of which is connected to the bus 2 of the input signal and connected in series to the synchronizer 3 and the generator 4 of the sawtooth voltage is connected to the first input of the comparator 5, the gate input of the mixer 1, is connected to the output of the generator 6 of strobe pulses, and the output is connected with the signal input of the oscillographic indicator 7, the output of the digital-analogue transform of the body 8 is connected to the input of the sweep of the oscillographic indicator 7 and a comparator with the second input 5, the output of which is connected to the input of the strobe pulse generator 6 and to the synchronizing inputs of the counter 9 and memory register 10, whose outputs are connected to the corresponding inputs of the counter 9 and the converter 8, the set input of the counter 9 is connected to the setup input of the register 10 and the signal output sensor 11, the code outputs of which are connected to the first inputs of the adder 12, the second inputs of which are connected to the outputs of the counter 9, and the outputs are connected to the inputs of the memory register, the transfer output of the adder 12 is connected to the counting input of the counter and 9. The electrical signals stroboscopic converter operates as follows -generators. The synchronization pulses from the output of the synchronizer 3, which synchronizes the operation of the stroboscopic converter with the signal under study, are fed to the input of the sawtooth generator 4, the slew rate of which determines the read pitch. A linearly rising voltage from the output of the generator 4 is fed to the first input of the voltage comparator 5. The triggering time of the comparator 5 is determined by the output voltage of the converter 8, and therefore the binary code recorded in the memory register 10. The output signal of the comparator 5 starts a generator of 6 strobe pulses, producing short strobe pulses that enable the diodes of the mixer 1, as a result of which an extended pulse appears at the output of the latter, the amplitude of which is proportional to the instantaneous value of the signal. The signals from the outputs of the mixer 1 and the converter 8 are fed to the indicator 7, which converts the expanded pulse in proportion to its amplitude constant voltage used to deflect the beam vertically, whose position on the time axis of the cathode ray tube is appropriately determined by the voltage of the DAC 8. Thus, by changing the memory register code 10, it is possible to read the points of the signal under study. The read sequence depends on the binary code supplied from the output of the sensor 11 to the adder 12. Consider, for example, the case when 1024 points are used to represent the signal, i.e. the digital-to-analog converter has 10 binary bits, and its maximum output voltage is equal to the amplitude of the linearly varying voltage of generator 4, and let the output code of sensor 11 correspond to 256. At the moment the device is turned on, sensor 11 produces a pulse setting counter 9 and memory register 10 in the zero state, the output of the adder 12 generates a code corresponding to 256, which is written to counter 9 and register 10 on the trigger edge of the comparator 5. Since at the initial moment the register 10 was set flax in the zero state, then a pulse appears at the output of the comparator 5 simultaneously with the beginning of the saw of the sawtooth generator 4, as a result of which at tp (Fig. 2) the register corresponding to 256 is written to the register 10 and the counter 9, and The adder 12 sets the code 512. The next operation of the comparator 5 will occur at time t (FIG. 2), while the output codes of register 10 and adder 12 will be equal to 512 and 768 respectively. Since the converter 8 and adder 12 have the same number of bits, at time t (figure 2) at the output of the adder 12 appears the transfer pulse, which arrives at the counting input of counter 9, increasing its code by one. Therefore, the resulting code at the output of the adder 12 at time t (figure 2) will be equal to 1 (point a in figure 2). Writing it to the register 10 will occur at the time tg (Fig. 2), and as a result, the next actuation time of the comparator 5 will be shifted relative to the sync pulse H4, the signal reading step. Similarly, the points f,, t, (Fig. 2) relative to the points (3, e / w (Fig. 2) will shift in time to the read step. At moment t (Fig. 2), a transfer pulse appears at the output of adder 12 , increasing the counter code 9 by one, as a result of which a code corresponding to point 3 (Fig. 2) is set at the output of adder 12, which is written to register 10 at time tr-. Thus, changes in the proposed device can significantly improve the correspondence of moments measurements of instantaneous values of the position of these moments on the indicator 7 by increasing voltage accuracy of the indicator 7 applied to the sweep input, i.e., to increase the accuracy of the displayed information. Invention A stroboscopic converter of electrical signals containing a mixer whose input is connected to the input signal bus and through sequentially connected synchronizer and sawtooth generator The gate of the mixer is connected to the first input of the comparator and connected to the output of the strobe pulse generator, and the output is connected to the signal input of the oscillographic indicator An ora that is characterized by the fact that, in order to increase the reliability of the display, a digital-to-analog converter, a counter, an adder, a memory register, a code sensor are entered into it, and the output of the digital-to-analog converter is connected to the sweep input of the oscilloscope indicator and the second comparator input whose output with the input of the strobe pulse generator and with the synchronizing inputs of the counter and the memory register, the outputs of which are connected to the corresponding inputs of the digital-to-analog converter and the counter, the setting the input of which is connected to the setup input of the memory register and the signal output of the code sensor, the code outputs of which are connected to the first inputs of the adder, the second inputs of which are connected to the outputs of the counter, and the outputs are connected to the inputs of the memory register, the transfer output of the adder . Sources of information taken into account in the examination, 1. The author's certificate of the USSR 658479, cl. G 01 R 13 / 02.12.05.79. 2. USSR author's certificate number 261561, cl. G 01 R 13 / 02,10.12.70 (prototype).