WO2019147166A1 - Method of manufacturing a digital-to-analog converter - Google Patents

Abstract

The invention relates to digital-to-analog converters and can be used in devices for converting a digital code into an analog voltage. The technical result of the invention is a reduction in the number of nominal resistance values used to implement a digital-to-analog converter having an array of binary weighted resistors, achieved in that a method of manufacturing a digital-to-analog converter is claimed which involves the integration of a resistor array consisting of any of a group of parallel resistors having the resistances R - 1, 2·R - 2, 4·R - 3 and 8·R - 4, one of the contacts of said resistors being configured for connection to switches 7-17, while the other contacts are joined by a bus, said method being characterized in that series resistors having the resistances 1/2·R·2^N-1 - 5, where N corresponds to the capacity of the digital-to-analog converter, are mounted between the groups of parallel resistors, parallel resistors having the resistances R - 1, 2·R - 2 and 4·R - 3 are mounted in a resistor group that corresponds to the lowest order of a digital code, wherein the resistor having the resistance 4·R - 3 is connected through a resistance having a nominal value of 4·R - 3 to earth, groups of resistors of a higher order are configured such as to correspond to the lowest values of the digital code, and an output voltage terminal is connected to the output of a resistor corresponding to the highest order of the digital code.

Description

 METHOD OF MANUFACTURING A DIGITAL-ANALOG CONVERTER

DESCRIPTION OF THE INVENTION

The invention relates to digital-to-analog converters and can be used in devices converting a digital code into an analog voltage. [Н03М 1/66]

The types of digital-to-analog converters (D / A) are known [Fedorkov B. G., Taurus V. A. DAC and ADC microcircuits: functioning, parameters, application. - M .: Energoatomizdat, 1990. - 320 pp.], Built on resistive matrices of various types, and on the basis of frequency-to-voltage conversion, which are used to control the output voltage level of a digital-to-analog converter.

The disadvantages of the known DACs include the technological complexity and high cost of manufacturing precision resistive matrices, and the second type of DACs are the lack of accuracy and linearity of the conversion characteristic. It is known that precision resistive matrices can be made only by thin-film technology, which includes the functional adjustment of the resistances of resistors, and not by semiconductor technology, which determines these drawbacks.

 The closest in technical essence is a DIGITAL-ANALOG CONVERTER with BINARY-RECOVERABLE RESISTANCE [http://ulfek.ru/skhemotekhnika/719-skhemotekhnika-tsifro-analogovykh-preobrazovatelej.html,

01.05.2017], consisting of a set of keys, one for each digit of the digital code, a matrix of binary-weighted resistors, which consists of parallel resistors with resistances R, 2-R, ..., R-2 ^N_1 , to the same contacts of which are connected the reference voltage source, and to other keys, made with the possibility of switching the output operational amplifier with the reference voltage circuit through an appropriate resistor or with grounding, while the operational amplifier is made with a resistor in the feedback circuit.

The main technical problem of the prototype is the use of a matrix of binary-weighted resistors from parallel resistors with resistances R, 2-R, R-2 ^N \ THAT necessitates the use of resistors with N nominal resistances for a resistive matrix and significantly complicates the technical implementation of the well-known digital-analog converter.

The objective of the invention is to eliminate the disadvantages of the prototype.

The technical result of the invention is to reduce the number of denominations of resistance used for the implementation of a digital-to-analog converter with a matrix of binary-weighted resistors.

This technical result is achieved due to the fact that the claimed method of manufacturing a digital-to-analog converter, characterized by the embedding of a resistive matrix consisting of any of the groups of parallel resistors with resistances R - 1, 2-R - 2, 4-R - 3 and 8 R - 4 , one of which contacts is configured to connect the keys 7 - 17, and other combined bus, characterized in that between the groups of parallel resistors mounted serial resistor> 2-R-2 ^{N 1} - 5, where N corresponds to the bit digital-analogous a new converter, in the group of resistors corresponding to the low-order digits of the digital code, install parallel resistors with resistances R - 1, 2-R - 2 and 4-R -3, while the resistor 4-R - 3 through a resistance of 4-R - 3 is connected to ground, groups of resistors of higher nominal are performed corresponding to lower values of the digital code, and an output voltage terminal is connected to the output of the resistor corresponding to the high-order digit of the digital code.

 In particular, the keys are made with the possibility of switching parallel resistors with a reference voltage source or with grounding, depending on the value of the corresponding digit of the digital code.

Brief description of the drawings.

1 shows a diagram of a digital-to-analog converter implemented according to the method. The diagram shows: 1 - resistors R, 2 - resistors 2-R, 3 - resistors 4-R, 4 - resistors 8 R, 5 - resistors ¹ L -R-2 ^{N 1} , 6 - ground, 7 - advising key “0” for digit code, 8 - advising key “1” for digit code, 9 - advising key “2” for digit code, 10 - advising key “3” for digit code, 11 - advising key “4 "Digital code discharge, 12 - key advising" 5 "digital code discharge, 13 - key advising" 6 "digital code discharge, 14 - advising key" 14-4 "times number of digital code, 15 - key advising "N-3" digit digital code, 16 - key advising "N-2" digit digital code, 17 - key advising "Nl" digit digital code.

The implementation of the invention

A digital-to-analog converter is created to contain a resistive matrix consisting of groups of parallel resistors with resistances R - 1, 2-R - 2, 4 R - 3 and 8 R - 4, some contacts of which are made with the possibility of connecting keys 7 - 17, while others are combined bus comprising between successive groups of parallel resistors resistor ^y2-R-N 2 ¹ - 5, where N corresponds to the bit digital-to-analog converter, the resistor group corresponding to the LSB in digital code comprises a parallel resistor mi R - 1, 2-R - 2 and 4-R -3, while the resistor 4 R - 3 through a resistance of 4-R - 3 is connected to ground 6, in groups of large resistors correspond to the lowest values of the digital code, the output of the resistor 1 corresponding to the high-order digit of the digital code is connected to the output voltage terminal.

 The keys 7 - 17 are made with the possibility of switching parallel resistors 1 - 4 with a voltage source or with grounding 6, depending on the value of the corresponding digit of the digital code.

Digital to analog converter works as follows.

Let the voltage corresponding to the youngest digit of the digital code is 0.1 V. The operation of the claimed digital-to-analog converter is explained by converting the digital code "1101" into analog voltage. To do this, the keys 7-10 are installed in accordance with the values of the digital code, while the keys 7, 9 and 10 are connected to the bus with the reference voltage, and the key 8 is closed to ground. After that, in the electrical circuit formed by parallel resistors 7, 9 and 10, as well as series resistors 3 and 5, the voltages from the outputs of the keys will be reduced and summed up, and a voltage of 1.3 V. will be generated at the output voltage terminal.

The claimed technical result of the invention is achieved through the use of a resistive matrix in the form of groups of parallel resistors with resistances R - 1, 2 R -2, 4-R- 3 and 8-R - 4, one contact of which is made with the ability to connect keys 7 - 17, and others are connected by a bus containing between the groups of parallel resistors, series resistors% -R 2 ^N'1-5 , where N corresponds to the digit capacity of the digital-to-analog converter, which allows using only 5 resistors for the N-bit digital-to-analog converter face values.

Claims

CLAIM

1. A method of manufacturing a digital-to-analog converter, characterized by embedding a resistive matrix consisting of any of the groups of parallel resistors with resistances R - 1, 2-R - 2, 4 R - 3 and 8-R - 4, some contacts of which are designed to be connected keys 7 - 17, and other combined bus, characterized in that between the groups of parallel resistors mounted serial resistor _^half 2 ^{-R-N 1} - 5, where N corresponds to the bit digital-to-analog converter, a resistor group corresponding Jr. They use digital code bits, install parallel resistors with R - 1, 2 R - 2 and 4-R-3 resistances, while a 4-R - 3 resistor is connected to ground through a 4-R - 3 resistor, the resistor groups of a larger rating perform the corresponding lower values of the digital code, and to the output of the resistor corresponding to the high-order digit of the digital code connect the output voltage terminal.

 2. The method according to claim 1, characterized in that the keys are performed with the possibility of switching parallel resistors with a source of reference voltage or grounding, depending on the value of the corresponding digit of the digital code.