SU855716A1 - Device for transmitting and registering data on transient processes - Google Patents

Description

(54) DEVICE FOR TRANSFERRING AND REGISTRATION OF DATA ON TRANSITION PROCESSES

Claims (2)

The invention relates to telemetry and can be used in multichannel systems with redundant redundant measurement information. Known devices. containing registers, adder, operative and buffer memory, filling ribs, AND, OR elements (1. The disadvantage of such devices is low speed and low data compression ratio. The closest to the invention in technical sense is a device for transmitting and recording data on transients, containing an analog-digital converter, a voltage comparison block, a digital buffer memory block, a voltage summation block, in addition, an adder, the outputs of which are connected to the inputs of the comparison circuit the first and second elements are NAND, an OR element, the output of which is connected to the inputs of the transmission and data recording unit and the operative memory block, the filling counter, the outputs of which through the elements AND are connected to the input of the comparison unit 2. The disadvantage of this device is low efficiency on unloading transmission channels and registers of transients, measured in the study of the dynamic properties of oscillating systems, which leads to an overestimation of the requirements for the speed of transmission and recording devices, an increase in specific the value of the information received. The purpose of the invention is to increase the capacity of the device during the transfer and registration of transition processes occurring in the dynamic systems described by fractional transfer functions. The goal is achieved by the fact that a device for transmitting and recording data on transient processes, containing an analog-to-digital converter, a voltage comparison unit, a digital buffer memory unit, a voltage summation unit, a current substantial count register, a previous significant count register, entered linear voltage generator, keys, analog memory block, synchronization block, essential count counter, clock counter, dynamic parameter calculation block and hour characteristics, block selection mode, data transfer unit switching element, information input of which is connected to the input of the device, the first output is connected to the first input of the voltage comparison unit, the second with the combined first input of the analog memory block and the input of the analog-digital converter The output of which is connected to the first input of the register of the current existing reference. First of all, the output of which is connected to the first input of the generator of a linearly varying voltage. second output with input of the register of the preceding existing reference; the first output of which is connected to the second input of the generator of linearly varying voltage, the second output is connected to the combined first input of the digital buffer memory and the input of the counter of essential counts, the output of which is The output of which is connected to the second input of the digital buffer memory, the output of which is connected to the input of the selector mode selection block, the first output and the second input of which are connected to the calculation block No dynamic parameters and frequency characteristics, the second output of the coupling mode selection block is connected to the input of the transmission unit, the output of which is connected to the output of the device, the output of the linearly varying voltage is connected to the first input of the voltage addition unit, the second input of which is connected to the output the analog memory block, the output of the voltage summation block is connected to the information input of the second key, the first control input of which is connected to the input of the device, the output is connected to the second input of the compare block Voltage is the output of which is connected to the third input of the generator of linearly varying voltage, the second input of the analog memory block, the second input of the switching element, the first input of the synchronization unit, the first and second inputs of which are connected to the inputs of the device, the second input is combined with the control The main input of the read mode selector unit, the outputs of the synchronization unit, are connected to the synchronizing input of the switching element of the analog-digital converter, the current essential count register, the register preceding Essential counting, the control input of the second key, to the input of the clock counter, to the combined clock input of the substantial count counter, and the control input of the first key, the output of the sync pulse counter to the second input of the current significant count register. FIG. 1 shows a structural diagram of the device being offered; in fig. 2 illustrates an example of a measurable transient process and the principle of its transformation. The device contains a switching element 1, an analog-digital converter 2, a register 3 of the current essential count, a register 4 of the preceding essential count, a voltage comparison block 5, a generator of 6 lm low-modified voltage, a second key 7, a block 8 of analog memory, a block 9 summing voltage unit, synchronization unit 10, digital (buffer) memory unit 11, counter 12. essential samples, the first key 13, the counter 14 clock pulses, unit 15 for calculating danamic parameters and frequency characteristics, unit 16 for selecting the read mode, unit 17 for transmitting data. FIG. 2 illustrates an example of a measurable transient and the principle of its conversion in units 1, 2, 5 - 10 of the device, where denoted: H (f) is the measured transient; H (f,} is the instantaneous value of the transition of the process to the j-th cycle; H is the value of the i -th significant counting of the transient process; is the number of intervals ut between the clock pulses placed on the interval of time between two significant counts and H, with numbers i and i-1, respectively; dV is half of the corridor (tolerance on accuracy); U-Xt) is the linearly varying voltage at the output of the adder 9; and | | - constant voltage at the output of block 8 of analog memory; M, (tT) linearly varying voltage at the output of the generator 6 at the moment of time t, the angle of inclination of which is relative to the horizontal axis of time is equal to j; Tj - tangent angle of pr my; y is, a priori, the adjusted average value of the transformation coefficient of the oscillating system, the transients in which are measured. The proposed device works as follows. The operation of the device starts from the moment of the start of the first data storage at the start of the operation pulse, which determines the initial state of all internal circuits of the synchronization unit 10 and the beginning of generation of their clock pulses coordinating the operation of the device in the future. When the first clock pulse is fed to the input of the switching element 1, the device input is connected to the analog-to-digital converter 2. The current value of the transient process H (-1 (h) is converted to the digital code HQ and stored temporarily in the first half of the register bits of the current Significant Count. At the same time the second part of the bits of the register 3 records the value of the contents of the clock counter 14. When the second clock pulse is applied to the input of the switching element 2, the device input is connected to the analog-to-digital converter to the counselor 2. The current value of the transition process H (t L, converted by the converter 2 to the digital code N., enters the first half of the register 3 of the current sample, and the code there in the first half of the register 3 of the current BN: At the same time, in the second part of the register 3 the value of K comes from the counter output of 14 clock pulses (equal to the number of intervals between significant HQ and H process readings). When the third clock pulse passes, the switching element I disconnects the input of the device from converter 2 and connects it to the th entry unit 5 comparing voltages. The current value of the measured process H (-L :) is then compared with the linearly varying voltage supplied to the second input of the voltage comparison unit 5. The codes of two process samples, recorded in registers 3 and 4 (in this case), are fed to the first and second inputs of the generator 5 of a linearly varying voltage and. (t) with an adjustable slope, the direct Tangent T l of the angle j of the slope of the generated voltage id (g) with respect to the time axis is determined by the values,, ut. .-At the time t- with the arrival of the third clock pulse, through the switching element 1, the first input of the comparison unit 5 receives an instantaneous measured transient, and the second input of the comparison unit 5 receives the instantaneous value of the linear-varying voltage U | (t) from the output of the key circuit 7 (when applied to its control input of a strobe pulse). In this case, the linearly varying voltage is the sum i (t) Uj (t, Tj) + of two voltages, the linear-varying voltage and (t. T;) coming from the output of the generator 6, and the voltage U coming from the output of the analog memory block. The voltage is the instantaneous value of the last telemetry reading (process H (t) stored in the analog memory block. Voltage summation occurs in the adder 9, from where the voltage Uj, (t) goes through the key 7 to the comparison block 5 Next, the operation of the device is determined by one of the two modes of operation of comparison unit 5. The first mode of operation of block 5 is used when there is a priori information about the value of K and is a one-time comparison of the current value of the transition process H (t. () U (tj) wiring voltage. In the case of an output, H (t) for ± Od installed near the U line, (t), a control pulse is generated at the input of the comparison unit. The second mode of operation of the unit 5 is used when there is an a priori information about the value of Rf, and consists in a twofold comparison, the instantaneous value of H (t) as in the previous mode, with a linearly varying voltage U2 (t) at time t, arriving at the second input of block 5, and with the value K, arriving in seconds) in key circuit 7, to the second input of block 5. The first mode is a special case in orogo mode. If in the second mode the current value of the measured process H (t /), for example, H (t), is within the corridor set aside from the direct: U, (tj) + dB, then in the case of the output of block 5 there is no control signal, An analog memory block 8 stores the value H of the last significant transient reference, and the switching element 1 connects the device input to the input of the voltage comparison unit 5. If H (t.-) falls into the corridor t (f, relative to the direct Uy (t /), then a second comparison cycle occurs. At the same time, a control signal is received from the synchronization unit to the key 7 and a value is supplied to the second input of the unit 5. The value of H (t;) is compared with K "and if it does not fall into the corridor t (5d relative to the horizontal direct K), the control impulse is also not generated at the output of block 5, it is 1 more than the switching element 1 and the block 8 of the analog memory remains the same If the value falls into the K + L corridor, then a control pulse is generated at the input of the S block, erasing the contents in the block B of analog memory, connecting them for a certain time of the device's input to the converter 2 and to the input of the block of analog memory 8. Thus, in block 8 of the analog memory and writing a new value of a significant value of the transient H (tj). The same value H (tJ |), converted by converting 2 into a digital code, goes to register 3 of the current essential sample, converting the previous value to the register of the previous sample. In the case when the current value of the telemetry process H () exceeds the voltage value U, (t.) (For example, H (t), by more than dj, a control signal appears at the output of block 5; which erases the value of U stored in block 8 of the analog memory and then switches the switching element 1 for a certain time by the falling edge of the pulse. During this time, the current process value goes to block 8 of the analog memory and to the input of the converter 2. Thus, In block 8 of the analog memory, a new value of the essential transient H (t) is stored, and the analog-to-digital converter 3 converts the value of H (t) into the digital code N. The need for a second stage of comparison H {t;) with K is eliminated. As a result, significant digital readings N j of the transient process and the corresponding time are equal to 1 2 1 in the digital memory block 11. A total of 1 block of memory 11 is monitored by a counter 12 of the number of essential samples. If the memory block II is filled, the counters 12 produce an overflow signal that opens the first key 13 and read sync pulses are received from the synchronization block to the synchronous input of the buffer memory block 11. Essential readings and the corresponding time information can be read out via the selection unit 16, the reading mode either directly into the output transmission and recording unit, or into the unit 15 for calculating dynamic parameters and frequency characteristics. The read mode and the corresponding switching of AND blocks, 15 and 17, is determined in block 16 of the read mode selection based on a command (sync signal) received in block 16 from the second synchronous input of the device. Thus, the output of the device can be received either directly existing samples with the corresponding temporal information, or dynamic parameters1 of the studied oscillatory system, or frequency characteristics calculated from these parameters. The results of a statistical experiment show that the proposed device allows the performance requirements of the transmission channel and transient regression to be reduced. Apparatus of the Invention A device for transmitting and recording data on transients containing an analogous 8 th digitizer converter, a voltage comparison unit, a unit buffer memory unit, a voltage summing unit, characterized in that, in order to increase the capacity of the device, current reference register, previous significant reference register, oscillator, linear-varying voltage, keys, analog memory block, synchronization block, count counter of essential counts, count synchro pulse puller, dynamic parameters and frequency characteristics calculation unit, read mode selection unit, data transfer unit, switching element, information input of which is connected to device input, first output connected to first input of voltage comparison unit, second output with combined first input of analog block the memory and the input of the analog-digital converter, the output of which is connected to the first input of the current significant reference register, the first output of which is connected to the first input of the general the torus of the linearly varying voltage, the second output with the input of the register of the existing substantial reference, the first output of which is connected to the second input of the generator of the linearly varying voltage, the second output is connected to the combined first input of the digital buffer memory, the output of which is connected to the input of the block the selection of the read selection mode, the first output and the second input of which is connected to the unit for calculating dynamic parameters and frequency characteristics, the second output of the selection mode selection unit is connected to the input of the transmission unit and data, the output of which is connected to the output of the device, the output of the linear-varying voltage is connected to the first input of the voltage summation unit, the second input of which is connected to the output of the analog memory, the output of the voltage summing unit is connected to the information input of the second key, the first control the input of which is connected to the input of the device, the output is connected to the second input of the comparison unit, voltage, the output of which is connected to the third input of the generator of linear-varying voltage, BTopbtM with the analog block memory and, the second input of the switching element, the first input of the synchronization unit, the first and second inputs of which are connected to the device inputs, the second input is combined with the control input of the linking mode selection unit, the outputs of the synchronization unit are connected to the synchronization inputs of the switching analog of the analog-digital converter, the current register a substantial count, a register of a prior substantial count, the control input of the second key, to the input from the clock clock, to the combined clock input the counter of essential counts and the control input of the first key, the output of the clock counter is connected to the second input of the register of the essential count. Sources of information to take into account in the examination 1. US Patent No. 3501750, cl. 340-1724 (1) 1970. 2. USSR author's certificate And 531158, cl. G 06 F 15/00. 1974 (prototep).