SU1250960A1 - Versions of scale indicator - Google Patents

Abstract

This invention relates to electrical measuring technology. The purpose of the invention, the improvement of the display quality, is achieved by indicating a monitored signal and a setpoint signal on one scale. To do this, 7.2–7 are added to the device. Additional setpoint voltage sources, 8.1–8. P pulse shapers, AND 10.1-10P elements and OR 9 element. The device also contains a power source 1, a shaper 2 of the supply voltage, clock generator 4, voltage converter 5, device input 6, sources 7.1–7. Voltage setpoints, additional outputs 11.1–11. It is also envisaged to incorporate into the device of the imaging unit 12 voltage pulses of the input signal. The functional diagram of the scale indicator according to claim 2 is provided in the specification. 2 s., 1 s. P. f-ly, 2 ill. & (L № а-п

Description

one

This invention relates to electrical measuring technology.

The purpose of the invention is to improve the quality of the display by indicating the monitored signal and the setpoint signals on one scale,

FIG. 1 shows a block diagram of the proposed device, a variant, in FIG. 2 - the same, the second option.

The scale indicator in the first embodiment contains a power source 1, which is connected to the first electrode of the optoelectronic scale through the driver 2 of the supply voltage. - to common bus, voltage converter 5 to pulse duration, the first input of which is connected to input 6 of the device, the second input to the first output of generator 4, the third input to source 7.1 of the setting voltage, in addition input inputs - to additional sources 1.2-1. п, setpoint voltage, auxiliary outputs - to the inputs of pulse shapers 8, and the main output - to the first inputs of the OR 9 element and And 10 elements, the second inputs of the AND 1 elements are connected to the outputs the corresponding drivers 8, and the outputs with additional outputs 11 of the device, the remaining inputs of the element OR 9 are connected to the outputs of the drivers 8, the output of the element OR 9 is connected to the second control input of the driver 2, the first control input of which is connected to the second output of the generator torus 4. Furthermore, between the primary output transducer 5 and the first inputs of OR elements 9 and 10 and can be switched pulse generator I2 of the input voltage signal

Converter 5 can be performed on the main and p-auxiliary comparators, the first inputs of which are connected to the first, third and additional inputs of the converter 5, the second inputs to the output of the sawtooth generator, the input of which is connected to the second input of the converter 5, and the outputs of the main and auxiliary comparators are connected, respectively, with the main and auxiliary outputs

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rotator 5. Shaper 2 can be performed on a voltage connected in series with a voltage multiplier and a key element.

5 The bar indicator according to the second variant contains the power source 1, the output of which through the driver. 2 of the supply voltage is connected to the first electrode of the optoelectronic switch, as used by the light emitting neuristor (BLU) 3, the third electrode of which is connected through a resistor 4 to the common bus of the device, and through the shaper 5 counting pulses to the fourth input of the voltage converter 6 to duration pulse, the second electrode 3SIN 3 is connected to the output of the clock generator 7 and to the second input of the converter 6, the auxiliary outputs of the converter 6 are connected to the inputs of the formers of 8 pulses, the main output is pre the generator 6 is connected to the first inputs of the element OR 9 and the elements AND 10, the remaining inputs of the element OR 9 are connected to the outputs of the drivers 8, the output of the element OR 9 is connected to the control input of the generator 2 and connected to the outputs of the drivers 8, input II device is connected to the first input of the converter 6, the source 12.1 of the setpoint voltage is connected to the third input of the converter 6, the additional inputs of which are connected to additional sources 12.2-12. The setpoint voltage, the outputs of the elements And 10 connect Our additional outputs are 13 devices. In addition, between the main output of the converter 6 and the first inputs of the OR 9 and I 10 elements, the driver 14 of the input voltage pulse can be switched on.

Converter 6 can be connected to the main and n auxiliary analog-to-digital converters (ADC), the signal inputs of which are connected to the first, third and additional inputs of the converter 6, the synchronization inputs to the second input of the converter 6, and the output outputs are connected to the inputs of the preliminary -. installation of the main and auxiliary counters and trigger, the S input of which is connected to the second input

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converter 6, R-input with the output of pbrenos of the main counter, and direct output with the main output of converter 6, the transfer outputs of auxiliary meters are connected to the auxiliary outputs of converter 6. Shaper 2 can be performed on a voltage multiplier,

Bar indicator in the first embodiment works as follows.

When the clock pulse arrives from the first output of the clock generator 4 to the second input of the converter 5, the main and n auxiliary outputs of the last begin to form the main and n auxiliary time intervals, proportional to the input signal and n setpoint signals, respectively. At the end of each of the auxiliary time intervals in the former 8.1.8.2, ..., 8.p, voltage settings pulses are generated with durations that ensure the luminance of one indicator element CIN 3, which forms a light marker that identifies the setpoint signal. A voltage pulse with a duration equal to the main time interval and n voltage setting pulses with delays relative to the sync pulse equal to each of the n auxiliary time intervals is replaced in the OR element 9. The output signal from the OR 9 element is used to increase the supply voltage of the BLUE 3 , moreover, if the second control input of the driver 2 of the supply voltage of one of the signals in the OR element 9 of the signals in the multiplier stage of the driver 2 is changed, the input voltage changes It is supplied from the power source 1 to the value of kE (k is the multiplication factor). Pulses are transmitted to the first control input of the imager 2 from the second output of the generator 4, the frequency of which f is determined by the delay times of the neuristor pulse from the cell to the cell. Based on the number of cells (bit size) m SIN 3, the period of the clock pulses T from the first output of generator A should be equal to

T, - TP.

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At the output of the driver 2, voltage pulses of amplitude E or k-E are thus generated. At the same time, the BLU 3 operates in the single-pulse 5-voltage supply voltage mode, in which each pulse of the power corresponds to the neurist impulse of the next BLUE cell.

Since BLUE 3 is launched by

10 is the same pulse as the converter 5, then on the pupil formed by the indicator elements BLU 3, the input signal is displayed in the form of a column, and in the form of markers are setpoint signals, with the length of the column being proportional to

the input signal, and the distance from the origin to each of the labels is proportional to the values of each of the voltage settings.

20 Thus, when applying a voltage of magnitude k-E to the first electrode of the BLIN 3, the corresponding indicator elements are highlighted, with the readings required for reading

25, while decreasing the amplitude of the pulses to the value E, the brightness of their pulses decreases to insignificant, which creates the possibility of displaying the input signal on one SYN

JQ and setpoint signals.

This mode of operation of the rock indicator appears to be possible because SIN 3 is able to work in broadband. . The range of power supply voltage varies from one to several tens of volts, and when using electroluminescent capacitors as indicator elements, their brightness may vary by several orders of magnitude with relatively small. change of voltage on them, which is due to the strong dependence of the brightness L on the voltage U according to the law L and -, where (i 4-25.

45 Elements And 10.1, 10.2, ..., 10. and serve to generate signals that exceed the settings. When any setpoint is exceeded, the corresponding element AND is triggered, since

50 at this time, a high level signal is present at both of its inputs, and a pulse with a pulse voltage of the setpoint appears at the output.

55 The bar indicator for the second in the option works in the same way as described, with the only difference being that

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time intervals for the CIN 3 feedback, the converter 6 formed by the shaper 5 counting pulses, in the mentioned time intervals, the scattering delay times of the neuristor impulse due to the technological scatter of the parameters of the CIN 3 elements is taken into account INS 3.

At the output of the supply voltage generator 2, in contrast to the first variant (where pulses of E and k E are formed), a pulse signal with a constant level equal to E and pulses of amplitude E- (k-I) are formed,

Incorporating the devices in the first and second versions of the formers 12 and 14, respectively, allows to induce the input signals not in the form of light columns, but in the form of light marks, the distance to which from the beginning of the measurement is proportional to the values of these input signals.

Claims (3)

Invention Formula 1, A digital indicator containing an o-photoelectric scale, the first electrode of which is connected to a power source through a power supply driver, a voltage-to-pulse converter whose first input is connected to the indicator input, a second input to the first output of the clock generator, and a third input - to the source of the setpoint voltage, which is due to the fact that, in order to improve the quality of the display, for the indication of the monitored signal and the setpoint signals on one scale, additional sources were introduced into it April voltage setpoint, pulse shapers n, n AND gates, an OR, and as optoelectronic light emitting neuristor scale applied, the second electrode is connected to. the first output of the clock generator and the third to the common bus, additional sources of voltage settings are connected to the additional inputs of the specified converter, basically the output of which is connected to the first inputs of the AND elements and the OR element, and p auxiliary outputs are connected to the second inputs of the AND elements through the pulse formers, the outputs of the pulse formers are connected to the inputs of the OR element,. the output of which is connected to the second control 0 the input of the supply voltage driver, the first control input of this driver is connected to the second output of the clock generator, the outputs of the elements AND form the additional outputs of the device. 2. A dial indicator containing an optoelectronic scale, the first electrode of which is connected to a power source through a power supply driver, the voltage to pulse converter, the first input of which is connected to the indicator input, the second input to the output 5 clock generator, the third input - to the voltage source of the setting, which is characterized by the fact that, in order to increase the quality of the display for. the account of the indication of the monitored signal and the setpoint signals on one scale, n-1 additional sources of voltage setpoint, n pulse shapers, n elements AND, OR element, shaper counting 5 pulses and a resistor, with a light emitting neuristor being used as an optoelectronic scale, the second electrode of which is connected to the output of the clock generator, the third 0 the electrode is connected through the shaper of counting pulses to the fourth input of the indicated converter, and through a resistor to the common bus, additional voltage sources 5 settings are connected to the corresponding additional inputs of the specified converter, the main output of which is connected to the first inputs of the elements AND of the OR element, and n auxiliary outputs to the second inputs of the elements And through the pulse shapers, the outputs of the driver of the pulses are connected to the inputs of the OR element, the output of which connected to 5 of the control input of the driver of the supply voltage, the outputs of the elements And form n additional outputs of the device. 3. The indicator PP. 1 and 2, by the output of the converter, by the fact that the input driver — the first first inputs of the element signal, connected between the AND bases and the OR element; Compiled by C, Rybin Editor M.Kelemesh Tehred M.Hodanich Order 4404/40 Circulation 728 Subscription VNIIGSh of the USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 fazl Proof-reader I.Erdeyi