SU1077047A1 - Parallel code/voltage converter - Google Patents

Abstract

PARALLEL CODE VOLTAGE CONVERTER, containing with an operational amplifier, a reference voltage source, the first output of which is connected to the first digital controlled resistance, the control inputs of which are connected to the corresponding buses of the code being converted, the second output to the first resistor output, characterized by In order to increase the accuracy of the conversion, the second output of the resistor is connected to the common bus, the first output is connected to the output bus and non-inverting input of the operational amplifier, for prison to its inverting input and the second output of the reference voltage source. «W 1 of

Description

The invention relates to a conversion technique and can be used in systems containing digital and analog devices for communicating between them.

Converters of the basic code to voltage converters are known, containing a set of weighted resistors with code keys included in the circuit of each of the resistors, a reference voltage source and an operational operational amplifier included in the current summation scheme L1J.

The closest in technical essence to the proposed one is a parallel code ^ d to voltage converter containing an operational amplifier, a reference voltage source, the first output of which is connected to the first output of digital controlled resistance, the control inputs of which are connected to 20 corresponding buses of the converted code, the second output to first withdrawal of register £ 2].

A disadvantage of the known devices is the error caused by a zero offset at the output of the operational amplifier.

The purpose of the invention is. improving the accuracy of the conversion by reducing the error introduced by the offset of 30 zero at the output of the operational amplifier.

This goal is achieved by the fact that in the parallel code-to-voltage converter, containing 35 operational amplifiers, a reference voltage source, the first output of which is connected to the first output of the digital controlled resistance, the control inputs of which are connected to the corresponding buses of the code to be converted, the second output to the first output resistor, the second terminal of the resistor is connected to the device’s common bus, the first terminal is connected to the device’s output bus and the non-inverting input of the operational amplifier., the output of which connected to its inverting input and the second output of the reference voltage source.

The drawing shows a diagram of the proposed converter of parallel code to voltage.

The reference voltage source 1 is connected by the first output to the first output of digital controlled resistance 2, which includes code keys 3 controlled by the converted code, the second output of digital controlled resistance 2 is connected to the first output of resistor 4, 60 whose second output is connected to the common bus and the first - p is the output bus and the non-inverting input 5 of the operational amplifier 6, the output 7 of which is connected to its inverting input 8 and the second output of the reference voltage source 1.

Higher accuracy of the code-to-voltage conversion is achieved by reducing the influence of a zero offset at the output of the operational amplifier on the value of the converter output voltage. Thus, the output voltage value and _{BL (X} is defined dialed code. (R _g quantity of digital controlled resistance and voltage U _n voltage divider formed by a digital controlled *! Resistance and resistor dH) and _p and _rm + _h and u = --- - R --—--— β ill ^and EXIT R _e 4 (? _H R ₆ 4R _H (3) (4) where U _cT is the voltage of the reference voltage source;

% - output voltage of the operational amplifier.

Voltage. is determined by the formula (2) where U _CM is the zero bias voltage at the output of the operational amplifier.

After substituting (2) in (1), we get oy ⁼ R _e + R _H, from which it follows (W, n ⁺ - ^and cm) M * ₆

The conversion error is determined by the value of U _CM R _H / R _g , whereas in the prototype circuit - by the value of W ^ (R _0C + + К ₈ ) / ^ в ^ е! * ^R oc ^{is the} resistance of the feedback resistor !.

In the case of R _H = R _OC , which corresponds to the same output voltage of the compared converters, the conversion error of the proposed converter is less than the error of the known one, since

V _H i ^R _B '(5) and when the code keys are open, it is equal to zero (in the prototype the error is equal to the zero bias voltage at the output of the operational amplifier).

The proposed converter differs from the known higher conversion accuracy, and this accuracy is achieved without complicating the converter circuit, without additional costs and increasing power consumption and dimensions.

ВНИИПИ Order 772/53 Circulation 862 Subscribed

Branch of PPP 'Patent' ¹ ', Uzhgorod, st. Project, 4

Claims (1)

A PARALLEL CODE VOLTAGE CONVERTER, comprising an operational amplifier, a reference voltage source, the first output of which is connected to the first output of the digital controlled resistance, the control inputs of which are connected to the corresponding buses of the converted code, the second output to the first output of the resistor, characterized in that, in order to increase conversion accuracy, the second terminal of the resistor is connected to a common bus, the first terminal is connected to the output bus and the non-inverting input of the operational amplifier, the output of which is connected chen to its inverting input and the second output of the reference voltage source. $