SU255662A1 - - Google Patents

Description

This invention relates to the field of computing. Integrators are known to have a dynamometer sensor, a pulse generator, a coding converter, a trigger, a switch, and electronic meters.

However, in the process of working with known devices, it is necessary to preliminarily measure the signal value corresponding to the zero load of the sensor and taking into account the level of the initial sensor installation and the offset of the coding converter characteristic, and then take this value into account when calculating the measurement result. This operation is a known inconvenience when working with an integrator.

The proposed device to simplify its And increase the speed of calculations contains a logical device made in the form of two separation circuits connected to one of two series-connected coincidence circuits, with the inputs of a logic device connected to the main and auxiliary registers of one of the electronic counters connected to the encoder to the converter, and the output of the logic device is connected with one pz of the trigger inputs.

a block diagram of a logic device. A torque sensor / (see Fig. 1) is connected to a coding converter 2, which is made, for example, according to a compensation scheme with uniformly-stepwise conversion in the feedback circuit. Pulse power coding transducer receives from generator 3, and its output is connected to switch 4, having two

position 5} 1 6; The position of the auxiliary register 7 is connected with the position 5, and the position of the main register 8 of the electronic meter of the measurement result is connected with the position 6. A logical device 9 is connected with the auxiliary and main registers, and its output is connected from the inputs of the trigger 10; the second input of this trigger is connected with the output of the electronic counter //, the input of which is connected to the output of the generator 3. The output of the trigger 10 is connected with reset 12 of the main register 8.

The device has two electromechanical

counter 13 and 14 connected to the outputs

electronic meters.

Logical device 9 (see Fig. 2) is a combination of two separation circuits 15 and 1 with coincidence circuit 17, included respectively in each bit of the main and auxiliary registers 8 and 7 (see fig. 1) and one coincidence circuit 18

with the output of each circuit 17 matches, and the number of inputs is equal to the number of bits of the auxiliary register 7 (see Fig. 1). Inputs 19 and 20 of the separation circuits 15 and 16 are connected to the direct and inverse outputs of one bit of the main register, and inputs 21-22 are connected to the corresponding outputs of the same bit of the auxiliary register. The measurement process takes place in two stages. At first, the sensor / is not loaded, and a pulse code proportional to the initial state of the sensor / is removed from the output of the coding converter 2. The possible offset of the coding converter characteristic (care zero) is also taken into account in this code. On this measurement ethane, the non-switch 4 is set to position 5, and the code from the output of the coding converter enters the auxiliary register 7, where it is stored and stored. After that, the switch 4 is switched to position 6, and the sensor 1 is loaded with the measured load. In this case, the code, which is proportional to the load, enters the main register 8 of the electronic totalizer. At the moment of equality of the number recorded in the auxiliary register, with the h-islom dialed in the main register, an impulse appears at the output of the logic unit 9, which enters the input of the trigger 10 and transfers it from one state to another. The flip-flop trigger 10 is fed to the reset circuit 12 and is used to reset the number dialed in the main reg-string 5.

Subsequently, until the end of the cycle, the main register 8 is used to sum the pulses arriving at its input without resetting. The trigger 10 is reset to its initial state at the end of the cycle by a pulse taken from the electronic counter 11, which produces one pulse per cycle. The processes described are cyclically repeated. As a result, the counter 14 records the number of cycles during the experiment, and the counter 13 registers a number proportional to the total value of the corrected measured value.

Subject invention

An integrator comprising a dynamometer sensor, a pulse generator, an encoding converter, a trigger, a switch and electronic meters, characterized in that, in order to simplify the device and increase the speed of the calculations, it contains a logic device made in the form of two separation circuits connected to one of two series-connected coincidence circuits, with the inputs of a logic device connected to the main and auxiliary registers of one of the electronic meters connected through a switch s to a coding converter, and logic unit output is connected to one input of the flip-flop.

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