SU1508349A1 - Code-to-voltage converter - Google Patents

Abstract

The invention relates to automation and computing and can be used in the development of control devices for objects remote from the operator and requiring operational control. The invention makes it possible to extend the functionality by providing an additional function of the indicator monitoring of the operability of the converter. The goal is achieved by introducing into each converter converter an indicator LED 4, which simultaneously displays information about the status of each discharge and is a source of reference voltage due to the fact that each LED through the weight resistor 3 is connected to the summing amplifier 7. Also The introduction of a compensation LED 5 allows one to reduce the conversion error caused by the voltage spread across the excited LEDs, as well as to provide temperature stabilization of the LED parameters. 1 il.

Description

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The invention relates to automation and computing technology and can be used in the development of control devices for objects that are remote from the operator and require prompt control.

The aim of the invention is to expand the functionality by providing an additional function of indicator control of the converter operability.

The drawing shows a diagram of the device.

The converter code - voltage contains an input register 1, a group of diodes 2, a group of weight resistors 3 and indication LEDs 4, a compensation LED 5, a photoresistor 6 summing amplifier 7, a feedback resistor 8, an additional variable feedback resistor 9.

The Converter operates as follows.

For simplicity, consider converting a unit-position code to a voltage. With the arrival of a write enable pulse, the input code is stored by register 1 and stored during conversion and use of the output voltage.

Suppose that they gave the code 100 ... 0 to the input. In this case, the first output of register 1 will be the level of the logical unit, as a result of which the corresponding indication LED 4 will emit a luminous flux. At the same time, the input of the summing amplifier 7 and, accordingly, the output of the converter will have a voltage that is set by the first weight resistor of group 3 and a direct voltage drop across the excited LED 4.

Taking into account that the direct voltage drop across the LED in the excited state practically does not depend on the passing current, it, along with the display of information, functions as a source of reference voltage. In this case, the excited LED unambiguously displays the information about the health of the corresponding bit converter.

This scheme provides compensation for the voltage spread across the excited LEDs, which reduces the conversion error. Compensation is carried out as follows.

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When any indicator light 4 is out of operation and replaced with another one with a different Unp from the previous one, where Unp is the direct voltage drop on the excited LED, the error is Ugy) (does not increase, as the current, passage through the compensation LED 5. Suppose Un ,, has increased, then the current through the compensation LED 5 also increases and, consequently, the resistance of the photoresistor 6 in the feedback circuit of the summing amplifier 7 decreases. In this case, the gain will change in the direction of Eggs, but Ugj ,, will remain constant.

The temperature is stabilized in a similar way, because with increasing temperature, the direct voltage drop across the excited Unp LED decreases and, accordingly, the gain factor decreases. Since the compensation LED 5 is connected with each indication LED 4 through a group of diodes 2, the conversion error due to the Unp spread is minimal.

The variation of the indication LEDs is compensated for the double-to-co: roughly - by aligning with parallel connection of two LEDs; Exactly due to a change in the gain factor through optical communication of the compensation LED 5 with the photoresistor 6 adjusting the resistor 9 in the feedback circuit.

When a register 1 is applied to the input at the same time as a permitting pulse of another code, the corresponding indication LED lights up, and the previous one will stop emitting a light stream. At the output of the converter, the voltage determined by the corresponding weight resistor is set.

The operation of the device is valid for any other code.

The increased controllability of the proposed converter is achieved by the functional combination of the display device and the code-to-voltage converter. So, in the event of a failure of the input register or power source for this; the indication LED will immediately respond (no indication when re-.

link to the input code). And at the output of the LED itself, there will be no voltage at the output of the converter due to a fault in the source of the reference voltage. Thus, information about the health of the converter is unambiguously displayed.

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The invention code converter is a voltage containing an input register whose information inputs are an input bus, a group of weight resistors, a summing amplifier, the first input of which is connected to the output of a summing amplifier through a feedback resistor, the second input is a bus

diodes, where n - the number of bits pre-; a compensator LED, a photoresistor and a variable feedback resistor, the outputs of the input register are connected to the anodes of the respective diodes of the group, the cathodes of which are combined and connected to the anode of the compensation LED optically connected to the photoresistor, the first output of which is combined with the first output variable feedback resistor, the second output of which is combined with the output of its movable contact and connected to the output of the summing amplifier, while the second end of the photoresistor combines En with the first conclusions of the weight resistors of the group, the second conclusion of each of which

and the output - output 2 is connected to the anode of the corresponding zero potential, by a bus, characterized in that, with the aim of extending the functionality by providing an additional function of indication control of the operability of the pre-. 25, and the anodes of the indicator illuminator, a group of diodes were introduced into it, respectively, combined with from p diodes, and n the indicator diodes of the group diodes.

indicator LED, LED indicator cathodes and a compensation LED cathode are combined to be a zero potential bus.

the dial, and the anodes of the indicator LEDs, respectively, are combined with the anodes of the diodes of the group.

the indicator LED, the cathodes of the indicator LEDs and the cathode of the compensation LED are combined to be the zero potential bus

Claims (1)

The code converter is a voltage containing an input register, the information inputs of which are an input bus, a group of weight resistors, a unit summing amplifier, the first input of which is connected through a feedback resistor to the output of the summing amplifier, the second input is a zero potential bus, and the output is an output - 20 bus, characterized in that, · with the aim of expanding the functionality by providing an additional function of indicative monitoring of pre-operation. 25 of the educator, a group of η diodes, η indication LEDs, where η is the number of digits of the converter, a compensation LED ', a photoresistor, and a variable feedback resistor are introduced into it, and the outputs of the input register are connected to the anodes of the corresponding diodes of the group, the cathodes of which combined and connected to the anode of a compensation LED optically coupled to a photoresistor, the first terminal of which is combined with the first terminal of a variable feedback resistor, the second terminal of which is combined with its terminal of the contact and connected to the output of the summing amplifier, while the second terminal of the photoresistor is combined with the first terminals of the group weight resistors, the second terminal of each of which is connected to the anode of the corresponding LED, the cathodes of the LEDs and the cathode of the compensation LED are combined and are a zero-potential bus— · tsial, and the anodes of the indicator LEDs are respectively combined with the anodes of the diodes of the group.