SU489087A1 - Multichannel automatic calibration device - Google Patents

Description

About the output of the adder, the output of the logic element OR is connected to the second input of the second additional logic element I. The drawing shows a block diagram of ycTpoiV 5 It contains a controlled oscillator 1 of the reference frequency, logic elements I. 2-4, block 5 of the reference voltage, adder 6, counter 7, OR8 logic element, reset unit 9, multichannel converter 10, number of pulses (analog), channel address block 11, converter 12 pulse duration I number of pulses. The converter pulse duration number of pulses 12 is formed by a logic element AND 2 and a controllable reference frequency generator 1. The first input of the logic element AND 2 is connected to a voltage-pulse duration converter installed at the output of the control gearbox and control unit. The output of the logic element AND 4 forms the output of the 1-channel automatic calibration device and is connected to the input of the output multichannel converter 1 O the number of the yrtbcoB code (the analog / type of conversion in which is selected depending on the specific requirements for the type of output information. The device works as follows. When polling the first channel KP on the Input of which the reference voltage is turned on, the pulse, the duration of which is proportional to this voltage, opens the logical element II. closes the logical element AND 3, since its input also receives a signal from the first output of the channel address block, so the pulses, the number of which corresponds to the pulse voltage of the reference voltage from the controlled oscillator | 0 of the reference frequency, flow through the logical elements AND 2 and 3 V counter 7. If the number of pulses does not match the pre-set code in the reference voltage code block 5, in the adder 6 the output value will change which will change the frequency of the pulses of the controlled oscillator 1 reference Oh frequency. Changing the frequency of the on-frequency generator pulses This occurs in such a way as to compensate for the parameter drift of the voltage-pulse duration converter. Let, for example, at a controlled point, the parameters of a voltage converter change from a change in temperature — the duration of the pulses,

that after counting, the code in meter 7 will be greater than the code set in the block of reference voltage code 5. This difference between the codes will reduce the output voltage of the adder 6, which will reduce the frequency of the controlled reference frequency generator. When polling the next channel on the CP, the impulse at the input of the logic element And 2, corresponding in duration to the measured voltage, will be filled with a lower frequency. A decrease in the frequency of the controlled oscillator 1 of the reference frequency is proportional to the changes that occur in the converter voltage pulses. T & multi-channel converter number of pulses & code (analog) 10 nociyit number of pulses, corresponding to normal temperature conditions on KP. The number of pulses corresponding to the measured voltages on each channel enters the multichannel converter the number of pulses - code 1O when polling the following channels, since the code of each channel enters the logical element OR 8, which opens the logical element AND 4. After polling the last channel reset circuit 9 starts, which resets counter 7 to its original position. With a new cycle of polling the channels, the process of adjusting the frequency of the controlled reference oscillator frequency is repeated. The subject of the invention is a multichannel automatic calibration device with a sequential polling of channels, comprising a unit of reference voltage, the outputs of which are & with one group of inputs of the adder, the other group of inputs of which is connected to the corresponding outputs of the counter, and the current element I, to one of the inputs of which the output of the voltage converter is connected is the impulse duration, which is identical to that of the device simplification circuit and increase its reliability, it contains a controlled reference frequency generator, two additional AND logic elements, an OR logic element, a reset unit and a channel address block, the first output of which is connected to one of the inputs of the first additional tional AND gate, the other outputs are coupled to respective inputs of OR logic gate, and the final output is also connected via a reset unit oo

KIM of the counter inputs, with another input which is connected to the output of the first additional logical element I, with another input of which the first input of the second additional logical element I is connected to the output of the logical element AND,

at the input of which Kf.ixon is connected to a controlled generator of the reference column, the input of which is connected to the output of the adder, the output of the logical element MLN of the connection 4

-with the second input of the second replenish GRLNO-i

logical element I.

R

  "I t