SU387519A1 - VOLTAGE-CODE CONVERTER - Google Patents

Description

one

The invention relates to analog-to-digital conversion and can be used in digital measuring devices.

A known voltage converter contains a zero-voltage connected through a switch to a source of voltage to be converted, a source of sample voltages connected to another input of a null-organ whose output is connected to a register, a control device.

However, in prior art converters are dominated by the error resulting from the displacement of the null-organ characteristic. In order to reduce this error, in addition to coding the measured voltage, periodically, the coding of the input voltage O of the device is input.

The resulting numerical equivalent resulting from this encoding, the corresponding device threshold}, is subtracted from the numerical equivalent of the voltage being measured. Thereby, an increase in the accuracy of the device is achieved. However, the coding time of the measured voltage is increased, since this process includes three steps: conversion to the code of the measured voltage, conversion to the code of the Ob voltage, subtraction.

In addition, in the known device, there is an additional methodological error arising from the subtraction of two voltages, measured with an error of ± 1 unit of lower order. Finally, in the known device there are many additional equipment (a register for storing a voltage code O in, an adder for subtracting codes, matching elements). The invention is an increase in speed and accuracy and a reduction in equipment.

To do this, an adjustable thermo-dependent voltage source is introduced into the converter, the output of which is connected to the input of a zero-organ connected to the output of the source of the reference voltages.

The invention is explained in the drawing, which shows the structural diagram of the proposed device.

The converter contains a zero-organ /, switch 2, a source of 3 exemplary voltages (code-voltage converter), a register 4, a control device 5, an adjustable thermo-dependent voltage source 6.

One input of the zero-organ 1 is connected to the output of a commutator 2, and the second input is connected to the outputs of a source 3 of exemplary voltages and an adjustable thermally dependent voltage source 6. The input of the switch 2 is connected to the output of the source of the measured voltage Ux. The control unit 5 is connected by command 5 buses with a zero-organ /, switch 2 and register 4, which controls the source of 3 exemplary voltages. The device works as follows. The zero-organ / compares the measured voltage applied to one of its inputs from switch 2 with a set of sample voltages supplied from a source of 5 sample voltages (voltage converter). Depending on the results of the comparison 15 in the register 4, which controls the source 3 of the Exemplary voltage, a code is set that corresponds to the measured voltage Ux. The control unit 5 controls the operation of the individual units. After 20th of the end of the coding process, a code equivalent to the measured voltage is read from the register. At the input of the zero-organ / connected to the source 3 of the reference voltage, an adjustable thermo-dependent source 6, a voltage, is connected. In this case, the currents of these two sources are subtracted, and the difference between the two voltages — the model and the controlled thermal-dependent one — is formed at the input organ of the zero-body. Before the device starts working, its input is supplied with a voltage f / x equal to O in (calibration mode). This voltage is coded, and by adjusting the thermo-dependent voltage, a zero code is obtained at the output. As a result, threshold compensation is achieved. When the temperature changes, the voltage of the regulated thermo-dependent source changes according to the same law as the threshold voltage. Subject of the Invention A voltage-code converter containing a null-organ connected through a switch to a source of voltage being converted, a source of exemplary voltages connected to another input of a null-organ whose output is connected to a register, a control device characterized in that The goal is to increase the speed and accuracy and reduce the amount of equipment, it introduces an adjustable temperature-dependent voltage source, the output of which is connected to the input of a zero-body connected to the output of the model stitches.

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