SU920743A1 - Device for measuring random process voltage amplitude - Google Patents

Description

I

The invention relates to sagisgistic measuring environments and is intended for the use of electrical measuring equipment.

: There are known devices for measuring the range of stresses of a random form, which are based on the gishmash definition of the range through the difference between the maximum and minimum peak values measured with a given probability 1.

The closest in technical essence to the proposed is a device containing a series connected analog-digital converter and an address pulse counter, the outputs of which are connected to the corresponding inputs of the decoder. The outputs of the descriptor are connected to the inputs of the corresponding coincidence circuits, the other inputs of which are combined and connected to the control input of the analog-to-wise converter, the input counter of the total number of extremes, the input of the delay element and the output (4 blocks for allocating the gutted position of the extremes. Output of the delay element connected to the control input of the address pulse counter, and the outputs of the coincidence circuits are connected to the input of the corresponding channel counter 21.

In the known device, the launch of the analog-to-digital converter (ADC) does not occur at the time of the extremum, but

10 later, when the moment of inflection has already passed, which leads to an error in determining the span due to the delay of the signal in the extremum extraction unit and the neglect of this delay 15 of the signal.

The purpose of the invention is to improve the measurement accuracy.

Claims (2)

The goal is achieved in that the device for measuring the amplitude of the voltage 30. The Research Institute of the random process, a sample size setting block and two digital discriminators are introduced, with the input of the delay element connected to the device input. and the output to the information input of the analog-digital converter, the output of which is connected to the information inputs of digital discriminators, the outputs of which are connected to the input of the pulse counter, the second output of the extremum temporary position extractor is connected to the control input of the first digital discriminator, and the third output to the control input of the second digital discriminator and the input of the block for specifying the sample size, the output of which is connected to the inhibiting input of the analog-digital generator. Digital discriminators contain two pulse counters, a trigger, a time selector and a pulse shaper, and the information inputs of the counters and the time selector are connected to the information input of the digital discriminator, the control input of which is connected to the first trigger input, the second input is connected to the output of the first counter, and the output is connected to the control input of the variable selector, the output of which is the output of the digital discriminator and the input of the pulse former, the output of which is connected to control input of the second pulse counter, the bit outputs of which are connected to the bit inputs of the first pulse counter. FIG. 1 V shows a block diagram of the device; in fig. 2 is a block diagram of the digital discriminator of FIG. 3 is a block diagram for setting the sample size. The device contains an input 1, a delay element 2, an analog-digital converter (ADC) 3, digital discriminators 4 and 5, a block for allocating a temporary position of extrema, an impulse counter 7 for a sample volume setting unit 8. The digital discriminator includes pulse counters 9 and 10, trigger 11, time selector 12 and shaper 13 pulses, Black 8 specifying the sample size includes a self-return button, trigger 1 time selector 15, and a frequency divider 16. The device operates as follows. Implementing a random process x (t through delay element 3 enters the information input of the ADP. In addition, at E4, the implementation arrives at block 6. This block produces short pulses at times corresponding to the current (local) extrema. At the control the ADC input from block 6 is faded by pulses corresponding to all current extretlums (maxima and minima). To the control input of the first digital discriminator 4 from block 6, pulses are received corresponding to the positions of the maxima, and the equal input of the second discriminator 5 is the pulses corresponding only to the minima. In this case, the ADC triggers every time with the arrival of pulses from block 6, if there is a resolution on the inhibiting input of the ADC coming from the output of block 8 of the sample size, you have ADC - processes the signal in the form of a time pulse code containing a pulse zT with the same follow-up period, the number of which is proportional to the value of the implementation voltage at the input at the time of launch. Digital codes from the output of the ADC arrive at the information inputs of digital discriminators 4 and 5. Both discriminators are exactly the same for their design and operation. The discriminator works as follows. Before the arrival of the first code on the nHcJTOBOu discriminator from counter 9, the number A is entered, which is equal to the coefficient of recalculation of counters 9 and 1О (they are identical in volume). Then, the impulse from block 6, extremes, leading the ADC signal, goes to the control input of the discriminator. It closes trigger 11. The digital time impulse code, which then enters the discriminator's information input, follows both counters. As in counter 9. If the number A was entered before, the very first impulse causes its overflow, passage to the trigger and opening it. The trigger generates a voltage across the time selector, which passes all pulses from the ADC code to the output of the digital discriminator. The counter 10 simply remembers the number of pulses of the C code received by it. After the end of the input code, the driver of 13 pulses, due to its connection with the trigger output, enters a 9 in the counter (A – C). When the second C code is received, the trigger 11 is closed again at the input 5 of the discriminator by the pre-controlling impulse. The second code is recorded in the counter 10, which is previously reset to zero, and compared with the number (A-Cf) in the counter 9, If C, C, then counter 9 overflows, the trigger opens upon overflow, and the time selector passes a portion of pulses to the discriminator’s output that exceeds the number C. After the second code ends, the number (A – C) is recorded in counter 9, If Cr, C, then counter 9 overflow does not occur dit, the state of the trigger does not change, the newly entered number A – C is saved to the new cycle in counter 9. Thus, writing to the 1O counter occurs with each new code with ACG / G and overwriting the 9th counter (A-Cj ) from counter 10 occurs only when (C | 7 C. The output of qi (| level discriminator) during the entire measurement time passes the number of pulses, which is proportional to unit 4 for the average maximum and for unit 5, the average minimum. Counter 7, during the measurement time, fixes the total amount of pulses, which is proportional to the magnitude of the voltage of the random process under investigation. The duration of measurements is combined with a block 8 sample volume setting. The conversion factor of the 16 frequency divider is determined by proceeding from the liver to a given measurement accuracy. With the push of a button, the trigger, the first impulse from the block of 6 extrema, comes to a working state, producing a permitting voltage at the input of the ADC. When the frequency divider overflows, the trigger returns to its original state. The operation of the ADC and the whole circuit is stopped. For a new cycle: measurement, you must press the button again. Due to the introduction of the delay element 2, the error caused by the delay of the pulse generated by the unit 6 is eliminated. The application of the proposed device improves the accuracy of measurements The use of discriminators in the qi device (||) of the discriminator helps to simplify the measurement technique, since the scale and the corresponding probability are not determined after measuring the distribution law 43 of the signal under investigation, but directly during the experiment, automatically stopping it when it reaches a given sample size, which You can set, changed scale factor of the frequency divider. Claim 1. Measurement device. the amplitudes of the random process voltages, containing a pulse counter, a delay element, an analog-to-digital converter, the control input of which is connected to the first output of the allocation unit: the temporary position of the extrema, the input of which is the input of the device, characterized in that measurement accuracy, it contains a block for setting the sample size and / two digital discriminators, the input of the delay element is connected to the input of the device, and the output is connected to the information input of the analog-digital converter, Which is connected to the information inputs of digital discriminators, the outputs of which are connected to the input of the pulse counter, the second output of the block for allocating the temporal position of the extrema to the control input A of the first digital discriminator, and the third output from the controlling input of the second digital discriminator and the input of the block dan of the sample size, the output of which is connected to the inhibiting input of the analog-digital converter. 2. The device according to claim 1, characterized in that the discriminators contain two pulse counters, a trigger, a time selector and a pulse shaper, and the information inputs of the counters and the time selector are connected to the information input of the digital discriminator whose control & connected to the first trigger input, the second input of which is connected to the output of the first counter, and the output connected to the control input of the time selector, the output of which is the output of the digital discriminator, and the driver input mpulsov whose output is connected to the control to the second conductive vhods l pulse counter The discharge outlets are connected to inputs of the first discharge dnym pulse counter. 79207438 Sources of information, 2. Mkrsky G.Ya. Apparaturae was taken into account when examining the characteristics of random processes1. Copyright certificate of the USSR, M., Energie, 1972, p. 433 (proMg 326306. cl., G06 a 15/36. 1973. type). L FIG. 2 U $