DD146731A5 - ELECTRONIC COUNTER FOR IMPULSE MEASUREMENTS - Google Patents

Abstract

The invention relates to a universally applicable electronic counter which is suitable for measuring the characteristic values (frequency, period, pulse duration, pulse number) of pulses and pulse series or for comparison measurement of the characteristic values (eg frequency ratio, time delay, pulse period) of two simultaneously occurring pulse trains , The counter has two measurement channels, one input amplifier per measurement channel, a signal gate, a measurement counter chain, a measurement value memory, a display, a clock generator, an automatic measurement range switch and a signal gate control unit, as well as an operation selector switch. The waveform is prescribed within the device by means of selectors controlled by the mode switch and a timing gate.

Description

216359 -

Electronic counter for. pulse measurements

Application of the invention:

The invention relates to an electronic counter for pulse measurements which is suitable for measuring the characteristic values (for example frequency, period, pulse duration, pulse number) of pulses or for comparison measurement of the characteristic values (for example frequency ratio, time delay, pulse period) of two simultaneously occurring pulse trains is.

Characteristic of the known technical solutions;

A known counter has two measuring channels, and in each measuring channel, an input amplifier, a signal gate, an output unit composed of a measuring counter chain, a measured value memory and a display, a stepper, a frequency divider, a time gate, a clock generator, a unit with a

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The signal flow inside the device is dictated by the signal selection gate circuits driven by the operation control circuits.

Gauges of known type are generally designed to solve a single, at most of two tasks, such as frequency measurement and period measurement. Generally applicable measuring devices are only produced by a few companies. As such a generally applicable measuring device is called the general counter of the company Hewlett-Packard. In this device, the appropriate measuring position can be selected by means of two operating switches. Sin not negligible disadvantage of this device is that special expertise is required for its operation, or during operation · the device description and instructions must be constantly studied. In practice, however, there is generally the requirement that such a meter is characterized by a simple operability, that it requires only minor expertise, and that it can be used simultaneously for multiple purposes. The ease of use and the multi-purpose readiness have been achieved by the fact that in the base unit a corresponding Zv / eck corresponding insert is inserted, whereby the corresponding measuring system is made. However, such a solution is, as far as the achievable reliability and Y / economy in manufacturing, less favorable than a switchable device.

In Meßgerätebau there are known to be two basic types of equipment. In one type, a switchover of several operating modes or measuring ranges is possible, the other type includes special devices with multiple interchangeable inserts. ,

Object of the invention:

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With, the present invention aims to inexpensively produce a meter with a few, easy-to-use switching elements, which is also suitable for solving several measurement tasks, and can be operated without special expertise.

Explanation of the essence of the invention;

The invention is based on the object by means of known switching elements and with the aid of an inner gate system, another time gate and connected to the output of the operation selector switch Betriebssteuer Bchaltung, which operates the gate system to build a two-channel electronic general meter, which can be used easily and without special expertise leaves,. and at the same time numerous composite measurement options allowed. If the said circuit arrangement is supplemented with three circuits and one envelope generator, it should also be suitable for the solution of further tasks, without the operability being disturbed. The recognition of this task is the basis of the invention. ;

In the invention of an electronic general counter for measuring the characteristic values of pulses and pulse trains or to compare the characteristic fourth of two simultaneously occurring pulse trains assume that has two measuring channels, in each a measuring channel has an input amplifier and a signal gate, one of a trace memory and a display having _r together quantitative sat output unit, an encoder, a frequency divider, a time gate, a clock generator, a block with automatic Meßbereichumschalter and a Signaltorsteuerungseinheit, an operation control circuit, and a mode selector switch.

The essence of the invention is that the input of the first measuring channel via the non-inverting input amplifier is always connected to the first signal input of a two signal inputs and two control inputs designed first and second, and designed with three signal inputs and three control inputs third gate circuit, wherein the Output of the first gate circuit to the signal input of the signal gate, the output of the second gate circuit to the third signal input of the third gate circuit and to the first signal input of the two signal inputs, a control input and two outputs provided with stepper. The output of the signal gate is on the one hand to the second signal input of the first gate circuit and the other at the first signal input of a two signal inputs and two control inputs designed gate, whose output is supplied via a frequency divider to the second signal input of the third gate circuit. The output of the third gate circuit is coupled via the assembly with an automatic measuring range selector and a Signalaltsteuerblock to the first control input of the signal gate and to the second signal input of the encoder. The input of the second Hess channel is via the inverting input amplifier on the one hand to the second signal input of the second gate and the other at the first signal input provided with two signal inputs and two control inputs fifth gate Signal input of the fourth gate circuit and the output of the fifth gate circuit connected to the signal input of the timing gate, and the output of the signal gate is connected to the signal input of the control stage provided with a signal input and two control inputs, wherein the first control input of the output stage of the first output of the encoder, the second output of the encoder is connected to its second control input

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Operation control circuit whose first control signal output at the second control input of the signal gate, while their second control signal output at the first control input of the third gate circuit and its third control signal output at zv / eiten control input of the first gate circuit

 The fourth control signal output of the operation control circuit is connected to the first control input of the first gate circuit, to the second control input of the third gate circuit and to the first control input of the fourth gate circuit. The fifth control signal output of the operation control circuit is located at the first control output of the fifth gate, the sixth control signal output at the second control input of the fourth gate, the first control input of the second gate and the third control input of the third gate, the seventh control signal output at the second control input zv / eiten gate and second control input of the fifth gate and the eighth control signal output at the control input of the encoder.

The circuit arrangement according to the invention is advantageously designed so that the input of the first measuring channel once via a first circuit to ground and once via a Umhüllgenerator and a second circuit at the input of the second measuring channel, wherein the output of the frequency divider via a third circuit to the input of zv / eiten measuring channel is connected, and each of the three circuits each having a control input, which control inputs are connected in series with the ninth, tenth and eleventh control signal output of the operation control circuit.

Exemplary embodiment:

The circuit arrangement according to the invention will be explained in more detail in the context of an embodiment with reference to the accompanying drawings and the table. Show it:

Pig. 1: the block diagram of the electronic general meter according to the invention and

Table 1: the positions of the operating selector switches and

the relationships between the at the control signal outputs of the operation control circuit. occurring control signals.

As can be seen from the block diagram of the counter according to the invention (see Pig. 1), the counter has two measuring channels. The input of the first measuring channel I is connected via the non-inverting input amplifier 1 designed as an input stage on the one hand to the first gate circuit 6, on the other hand to the second gate circuit 4 to the gate circuit 12. The gates 6 and 4 are each equipped with two, the gate 12 with three signal inputs. The input of the second measuring channel II is coupled via the non-inverting amplifier 2 on the one hand to the second signal input of the gate circuit 4 and on the other hand to the first signal input of the fifth gate 14, wherein at the second signal input of the gate 14, the output of the clock generator. The output of the gate 14 is connected via the time gate 5 to the second signal input of the gate circuit 6. The output of the gate circuit 6 is connected via the signal gate 7 to the output stage 8, which includes a Meßzählkette, a measured value memory and an indicator. The output of the gate 4 is connected to the control input of the time gate 5, to the second signal input of the encoder 9 and to the third signal input of the gate 12, wherein the time gate 5 can pass through the gate 14 of its signal input signals only when, if his control input no control signal is present. The output of the time gate 5 is not only connected to the second signal input of the gate 6, but also to the first signal.

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naleingang the fourth gate 20 connected. The output of the gate circuit 20 is connected via the frequency divider 11, which is constructed as a fixed-ratio counting chain, to the second signal input of the gate circuit 12 and via the circuit 10 to the input II. The output of the clock generator 3 is further connected to the second signal input of the gate circuit 20. The output of the gate 12 is connected to the input of the equipped with an automatic Hessbereichsumschalter and a Signalaltorblock unit whose output at a control input of the signal gate 7 and the first signal input of the encoder. 9 lies.

The output stage 8 is controlled via the two outputs of the encoder 9. The circuit 17 pulls the input I to the zero potential of the input amplifier. The signal from input I passes through the envelope generator and the circuit 18 to the input II. The operation of the gate circuits 4, 6, 12, 14 and 20 and the circuits 17, 18 and 10 is dependent on the position of the operation selector switch 16 by the operation control circuit 15 prescribed. At the control signal outputs P, T, E, f, K, t, B, H, C, D, G of the operation control circuit 15, the control signals according to Table 1 occur. The control signal occurring at the control output F controls the signal gate 7 so that * in the presence of the control signal, the signal gate 7 only pass the pulses when this is allowed by the automatic Meßbereichsumschalter and Signalaltorsteuerblock 13. In the absence of a control signal, the signal gate 7 can pass all signals. The signal occurring at the second control signal output T reaches the first control input of the gate circuit 12 and serves to authorize the associated first signal input. The second control signal input is supplied to the control signal occurring at the fourth control signal output f, which authorizes the zv / eiten signal input of the gate circuit 12.

The control signal output E activates the second control input of the gate circuit 6, while the first control input is actuated by the control signal occurring at the control signal output f. The control signal f also actuates the first control input of the gate circuit 20. The first signal input of the gate circuit 14 is supplied by the control signal K occurring at the control signal via the first control input of the same gate circuit 14. The control signal occurring at the sixth control signal output t is supplied to the first control input of the gate circuit 4, the third control input of the gate circuit 12 and the second control input of the gate circuit 20. The control signal occurring at the seventh control signal output B reaches the second control input of the gate 4 and the second control input of the gate 14. About the control signal output C of the circuit 17 via the control signal output D of the circuit 18 and the control signal output G of the circuit 10 is actuated. The control signal output H removed control signal controls the encoder 9, so that in the presence of the control signal, the blocking of the signal gate 7, in the absence of the same but the blocking of the time gate 5 sets the encoder in motion. From the step generator 9, two temporally successive control signals are supplied to the output stage 8 via its outputs, with the aid of which the rewriting of the measured values into the heat value memory and then the deletion of the measuring counter chain is triggered. The contents of the I.Istradespeicher is made visible with the help of the display, the gate circuits 4, .6 14> 20 are each. Two, each provided with two inputs UUD circuits and located at the outputs of these AND circuits OR circuits composed with two inputs each. The gate circuit 12 is composed of three AND circuits and an OR circuit having three inputs at their outputs.

The counter according to the invention is for measuring the frequency, the frequency of pulse packets, ^{s of} the frequency ratio, the pulse period, the two-channel pulse duration (duration between signal crossings on both channels), the period time ratio, the duration of a negative half period, the duration of a positive half period, delaying a periodic signal, counting pulse counts, measuring wide time intervals, measuring the duration of a negative pulse, and measuring the duration of a positive pulse. During the measurements, the input of channel I, for comparison and ratio measurements, the inputs of channels I and II are used, except measurements of the duration of the positive half period, the duration of a positive pulse and the number of pulses at which the input of channel II is used. In these three cases, a control signal is removed at the control signal output C.

At the control signal output D of the operation control circuit 15, a signal is obtained exclusively during the frequency measurement of pulse packets, wherein the Umhüllgenerator 19 generates the envelope signal of the pulse packet, and controls the second channel, the time gate 5 such that the signal of the clock generator 3, the time gate 5 only then can happen, even if the pulse packet can happen. During the exposure period of the pulse packet, no clock signal can pass through the time gate 5. At the control signal output D, a control signal is always present when the internal generator - that is, the clock generator 3 - is used, and always when not the frequency ratio, the period ratio, the pulse count or the long-term duration is measured. At the control signal output f, a signal always occurs when the frequency is measured, that is, in the case of frequency measurement, frequency measurement of pulse packets, or measurement of the frequency ratio. At the control signal output T, the signal is only in the measurement of

Period, the two-channel period and the period ratio available. At the control signal output t occurs only during the measurement of the duration of the negative half cycle, the duration of the positive half cycle, the periodic signal delay time, the pulse count, the long term duration, the duration of a negative pulse or the duration of a positive pulse a signal. The control signal appears at the control signal output K only in the measurement of the pulse train arriving from an external source, that is, during the measurement of the frequency ratio, the period ratio and the pulse number or the long-term duration. At the control signal output E there is always a signal _a i when measuring any temporal process, that is, at every interval between the measurement of the period and the measurement of the duration of the positive pulse. At the control signal output P, a signal occurs only when a measurement is performed on a pulse train, that is, in the frequency measurement and the measurement of the period ratio or in the measurement of the two-channel duration. At the control signal output G, a signal is to be obtained only during the measurement of the long-term duration. At the control signal output H, the signal appears on pulse trains during the measurement, but this signal remains off when the two-channel duration or the duration of the positive pulse in pulse counting is measured.

From the present description, it can be seen that thirteen or more measurements can be carried out with the help of the electronic general meter according to the invention, which would otherwise require a plurality of measuring devices, and the change of measuring mode can be achieved by the corresponding adjustment of a single switch or by actuation of the corresponding push-button. possible, whereby the device automatically switches to the required measuring position. The device is characterized by a simple construction, low production costs, multiple applicability and low requirement for components due to its multiple application possibilities.

Claims (1)

claims; Electronic counter for measuring the characteristic values of pulses and pulse series or for comparing two simultaneously occurring pulse series having two measuring channels, each having an input amplifier in a measuring channel and a signal gate, a composite on a measured value memory and a display output unit, a pulse generator, a frequency divider, a time gate, a clock generator, a block with automatic measuring range switch and a Signalaltorsteuerungseinheit, an operation control circuit and an operation selector switch, characterized in that., The input of the first measuring channel (I) via the non-inverting input amplifier (1) always is at the first signal input of a first, designed with two signal inputs and two control inputs second and one with three signal inputs and three control inputs designed third gate circuit (6, 4, 12), wherein the output of the first gate switching to the input of the signal gate (7), the output of the second gate circuit (4) to the third signal input of the third gate circuit (12) and to the first signal input of the two signal inputs, a control input and two outputs (9) and the output of the signal gate (5) for a to the second signal input of the first gate circuit (6) and the other to the first signal input of a two signal inputs and two control inputs provided gate circuit (20) whose output via a frequency divider (11 ) is supplied to the second signal input of the third gate circuit (12), is connected, that the output of the third gate circuit (12) via the assembly with an automatic measuring range switch and a Signalaltorsteuerblock (13) to the first control 21635 input of the signal gate (7) and to the second signal input of the encoder (3) is coupled, that the input of the second measuring channel (II) via the inverting input amplifier (2) on the one hand to the second signal input of the second gate circuit (4) and on the other the first signal input of the provided with two signal inputs and with two control inputs fifth gate circuit (14) that the second signal input of the fifth gate circuit (14) on the clock generator (3) and the second signal input of the fourth gate circuit (20) and the output of the fifth gate circuit ( 14) is connected to the signal input of the time gate (5), that the output of the signal gate (7) is connected to the signal input of the provided with a signal input and two control inputs control stage (8), wherein with the first control input of the output stage (8) of the first output the encoder (9) and with its second control input, the second output of the encoder (9) is connected, and that the Operating switch (16) to the input of an operation control circuit (15) is connected, whose first control signal output (P) at the second control input of the signal gate (7) whose second control signal output (T) at the first control input of the third gate circuit (12) whose third control signal output ( E) at the second control input of the first gate circuit (6), the fourth control signal output (f) at the first control input of the first gate circuit (6), at the second control input of the third gate circuit (12) and at the first control input of the fourth gate circuit whose fifth control signal output (K ) at the first control input of the fifth gate circuit (14), the sixth control signal output (t) at the second control input of the fourth gate circuit (20), at the first control input of the second gate circuit (4), and at the third control input of the third gate circuit (12) whose seventh Control signal output (B) at the second control input of the  · ·. - 13 - 21 6359 second gate circuit (4) and the second control input of the fifth gate circuit (14) and the eighth control signal output (H) at the control input of the encoder (9). Electronic counter according to item 1, characterized in that the input of the first measuring channel (I) via a first circuit (17) to ground and via a Umhüllgenerator (19) and a second circuit (18) at the input of the second measuring channel (II) in that the output of the frequency divider (11) is connected via a third circuit (10) to the input of the second measuring channel (II), the circuits (17, 18 and 10) each having a control input, of which the control input of the first Circuit (17) at the ninth control signal output (6) of the operation control circuit (15), the control input of the second circuit (18) at the tenth output (D) of the operation control circuit (15) and the control input of the third circuit (10) at the eleventh output (G) the operation control circuit (15) is located. Electronic counter according to points 1 and 2, characterized in that the connections between the non-inverting input amplifier (1), the inverting input amplifier (2), the clock generator (3), the time gate "(5), the signal gate (7), the frequency divider (11) and the measuring range switch (13) controlled electronic circuits which are preferably designed as AND circuits with two inputs and their outputs connecting OR circuits. For this purpose / f page. Drawing. •. - 14 -