SU444204A1 - Functional Integrating Device - Google Patents

Description

one

The invention relates to automation and computer technology and can be used in measurement systems and functional converters.

Functional integrating devices are known that contain current sources that are connected via keys to the input of an integrator connected by the same input via an input switch to the input of the device, and output to a detector zero, a control unit and a reference frequency generator connected through the AND input to the counter.

The proposed device differs from the known ones in that additional MJI circuits are introduced in it: the first inputs of each of which are connected to the main output of the counter, and the second inputs are connected to the corresponding corresponding outputs. counter, and valve, the inputs of which are connected to the corresponding outputs of additional circuits

and the output of the distributor is connected to the control inputs of the current sources and the corresponding keys, and the control input of the input key is connected to the second input of the detector zero and to the first output of the control unit, the second output of which is connected to the control input of the I circuit, and the first and the second inputs of the control unit

connected to the detector zero output and the main counter output.

This made it possible to expand the functionality and increase the accuracy of the conversion.

The drawing shows a block diagram of the device.

The device contains the reference sources of currents that are connected through the corresponding keys 2

with the input of the integrator 3, connected by the same input through the input key 4 to the input of the device, and the output to the detector 5 zero, control unit 6

and the generator 7 of the reference frequency is connected through the circuit, 18 with the counting input. - “Chuck 9 / Besides, the device contains additional circuits“ And 10 and the distributor II. The device works as follows. The control unit 6 generates a probe for measuring start. The input key opens and the keys 2 are closed, and the circuit receives the resolving potential and frequency fo from the generator 7. The reference frequency is fed to the input of the counter 9. The input X of the integrator 3 receives the voltage X and the output voltage of the integrator 3 begins to increase. linear law. The integration lasts for a period of time. Where I. is the capacitance of the counter 9). Through T, the counter 9 is set to the zero position, outputs a signal to the control unit 6 and opens the "E10" circuit. The control unit 6 closes the input key 4, opens one of the keys 2 (for the first section of the approximation) and turns on the detector circuit 5 zero. The integrator 3 is connected to the reference source I of the current Don, which begins to decrease the voltage at the output of the integrator 3. From this moment on, the counter 9 is again filled with pulses of the reference frequency fo. As soon as the number fJ.AT, -f А XojT-п ° Хо1 is recorded in the counter 9 bu., Which corresponds to the end of the first approximation area, one of the schemes, AND 10 (the scheme configured for the number l / g) works and And switch disconnects the current source Jo, and turns on the current source Jo2 which discharges the capacity of the integrator 3 in the second approximation area (from Xj to Xg). Depending on the value of the input value X, a certain number of circuits are triggered. AND II and the distributor II turns on the sources of currents / voltages / Jot 02-.op. As soon as the voltage at the output of the integrator 3 reaches zero, the detector zero 5 is triggered and the AND 8 circuit is closed through the control unit 6. In the counter 9 the number X is written depending on the X value. IMAGE EVOLUTION the keys are connected to the input of the integrator connected via the input key F to the input of the device, the output of the integrator is connected to the detector zero, an output unit and a reference frequency generator connected through the circuit AND to the input a counter, characterized in that, in order to expand the functionality and increase the accuracy of the conversion, additional circuits were entered into it, and the first inputs of which are connected to the main output of the counter, and the second inputs to the corresponding corresponding outputs of the counter, and the distributor whose inputs connected to the corresponding outputs of the additional circuits. And the output of the distributor is connected to the control inputs of the current sources and their corresponding keys, and the control input of the input key is connected to the second in Odom zero detector and to the first output blokv control, the second output of which is connected to the input conductive O control circuit Hi and the first and second input control unit connected to the output of the zero detector output and the main counter.