SU327601A1 - INTEREST TIME-PULSE CONVERTER - Google Patents

Description

This invention relates to the field of avgomati, kii and computer technology.

Iroceic time pulse pulsers are known to contain a Wiravleli block, voltage comparison blocks, a linear voltage generator, a counting emulsion generator, a match block, a collector block, a frequency divider, a key, a digital pulse counter, and pulse number counters.

Odiako, these converters are structurally complex and due to the consumption of significant power dissipated in the measuring circuit, conditions are created for additional error due to a change in the parameter being transformed when the power to be re-scattered is exceeded.

In order to improve the accuracy of the transformer, the proposed converter contains an additional pulse counter, the outputs of comparison blocks through matching blocks are connected to counters, whose code outputs are connected to the inputs of matching blocks, other inputs of blocks match to the code outputs of the additional counter, and outputs through collecting blocks digital meter and frequency divider.

The converter contains divider 1 pair, generator 2 linearly measured voltage, blocks 3 and 4 Comparable folders, measured RC or RL circuit 5, blocks 6 and 7 of electronic circuit, generator 8 counting emulsions, key 9, block 10 control , counter 11 of the number of pulses proportional to the parameter being detected, block 12 coincidence, total counter 13 imuls, block 14

a match, a counter 15 for the number of imulses proportional to the nominal value of the parameter being determined, a collecting block 16, a digital pulse counter 17 of pulses, a collecting block 18, a frequency divider 19 and a switch 20 for switching the operation mode.

The proposed Converter works as follows.

During the transformation, the deviation of the constant voltage and from the nominal value

Lfn these voltages are supplied, respectively, to comparison units 3} 4, to the other inputs of which linearly varying voltage is applied from the generator 2j triggered by the signal of unit 10 uiravlein.

At the same time, the block 6 6 coincidences are opened, through which counting pulses pass from the generator 5 to the counters 11 and / 5. At the moment of equality of the linearly varying voltage, m Ux and t / j, blocks 5 and neither, and the counter 11 records the number of pulses proportional to the actual value of the voltage Uy, and the counter 15 - the number of pulses proportional to the nominal direction. Similarly, numbers are obtained that are prolortional to the actual and nominal values of the C /. Parameters. To obtain the corresponding time intervals, switch 20 is switched to a position opposite to that shown in the diagram, as a result, linearly varying voltage from generator 2 through a divider / voltage is supplied to one of the inputs of the comparison unit 3, and to another input of the same unit from the midpoint of the measuring RC and RL circuit 5, connected to the output of the generator 2. The measuring circuit for converting the resistance Rx consists of a resistance and a capacitor With a calibrated capacitance, while converting the capacitance capacitance and calibrated solids, and, when converting inductance L, from inductance and calibrated resistance RO. If these conditions are met, the time interval from the moment the generator 2 starts up until the time of the comparison unit 3 is triggered is proportional to the actual value of the CL parameter to be converted. The change in the same nominal value of the transformed / СЬ parameter within each limit is carried out, as in the case of voltage conversion, by changing the voltage f / H. Thus, regardless of the type of the value being converted, the number in the counter // is recorded as a number that is proportional to its actual value, and in the counter 15 - the number L / C proportional to its nominal value. In the second cycle, from the control unit 10, a signal is sent to one of the inputs of the key 9, while the reference pulses from the generator 8 are fed to the total counter 13 pulses. The output pulses of the trigger bits of the counters 11 and 15 of the number of pulses proportional to the parameter and its nominal value control the potential inrul of the blocks 12 and 14 of the co-ownership. The output signals of the total counter 13 pulses arrive at the pulse inputs of the blocks 12 and 14 of the match. When these signals coincide, the collection unit 16 receives signals to the digital pulse counter 17 and, through the collection circuit 18, signals are sent to the frequency divider 19 with the division factor Ld. The total frequency of the pulses at the outputs of the blocks 12 and 14 coincidence is determined by the state of the trigger of the counters 11 and 15. The triggers of the most significant binary bits of the counters 11 and 15 control the coincidence circuits. on which signals from the trigger of the youngest bit of the total counter of 13 pulses are put. The total frequency from the output of the collection unit 18 is equal to: f, T-O / VO where G0 is the period of the counting pulses; iVo is the number capacity of the counters 11, 13 and 15, and the total frequency from the output of collection unit 16 is: f.- When the frequency of the number of pulses of the total frequency / w arrives at divider 19 equal to the division factor Ld, the divider overflow pulse enters control unit 10, which closes key 9, while the number of counted pulses in a digital counter 77 pulses is determined by the dependence: N LD, where Gf is the time interval proportional to the actual value of the parameter being determined; Gn is the time interval proportional to the nominal value of the parameter being determined. The control unit 10, depending on the alternation of the signals at the outputs of the blocks 3 and 4 of the voltage comparison, determines the sign of the deviation. Choosing 10 (k-1, 2, 3 ... depending on the required accuracy), we get the number of pulses L equal to the deviation of the measured parameter from the nominal value in percent, tenths of percent. Invention The percent time is. an impulse converter containing a control unit, a comparison unit, a linearly varying voltage generator, a counting pulse generator, a match block, a gathering unit, a frequency divider, a key, a digital pulse counter, pulse number counters, conversion accuracy, it contains an additional pulse counter, by which the outputs of the comparison blocks are connected via counters to the counters whose code outputs are connected to the inputs of the matches, other inputs of the coincidence blocks are connected to the code outputs of the add-on reader, and the outputs through the collector blocks to the digital counter and to the frequency divider.