SU879768A1 - Code-to-voltage converter - Google Patents

Description

one

The invention relates to automation, remote control and computing.

A known code converter is used, which contains voltage sources, switches and a resistor matrix D.2. However, it can only convert binary codes.

A code-to-voltage converter is known, containing n voltage sources, a n-1 first switch, zero and single switches, and an R-2R resistor array, the bit inputs of which are connected to. the outputs of the single and zero keys, the inputs of the zero keys are connected to the common bus, the inputs of the first two single keys of the first tetrad are connected to the first like poles of the first two voltage sources, the inputs of the first two single keys of the other n-1 tetrads are connected to the front switches of the first switches, the first inputs which are connected to the opposite poles of the p-1 series-connected second voltage sources, the second pole of the first voltage source is connected to the common bus C 2.

The disadvantage of this device is limited functionality, since the considered device can convert only binary binary code of the form 8-4-2-1 into voltage.

The aim of the invention is to extend the functionality of a code-voltage converter.

ten

The goal is achieved by the fact that in the code-voltage converter containing n voltage sources, the n-1 first switch has zero and unit switches and a resistor

5 matrix R-2R, the bit inputs of which are connected to the outputs of the single and zero keys, the inputs of the zero keys are connected to the common bus, the inputs of the first two single keys of the first

20 tetrads are connected to the first poles of the same name of the first two voltage sources, the inputs of the first two single keys of the other n-1 tetrads are connected to the outputs of the first switches, the first inputs of which are connected to the opposite poles of n-1 successively connected second voltage sources, the second pole of the first voltage source is connected to a common bus, one first combo is entered

a mutator in the first tetrad and n second switches and n voltage dividers in each tetrad, and in the first tetrad the first input of the first switch is connected to its output and to the inputs of the first two single keys, the second input of the first switch in each tetrad is connected to the inputs third and fourth unit keys and to the output of the second switch, the first input of which is connected to the first input of the first switch and the input of a voltage divider, the output of which is connected to the second input of the second switch, the third input of which Inonii yield following the first switch, more significant .tetrady.

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

The converter contains an R-2R 1 p-tetrad resistor matrix, zero 2 and single 3 keys, first voltage source 4, second voltage sources 5, voltage dividers 6, first switches 7, second switches 8.

The device works as follows. It is predetermined which of the three types of codes will be fed to the converter. When a binary-decimal code of the type 8-4-2 arrives at the input, in each tetrade the first 7 and second 8 switches switch to position I. The single keys 3 of all four bits of the i-th tetrad of the resistor matrix receive voltage. And UQ / 1 ,, where OQ is the output voltage of the first voltage source 4.

For a binary-decimal code of type 4.-2-2-1, the first switch b remains in position I, and the second switch 8 switches to position II. In this case, the unit keys 3 of the two low-order bits of the ith tetrad of the resistor matrix 1 are supplied with voltage 0 :; i0 / 1,6,. and for single keys 3 two high-order bits - voltage and 1) / 2-1.6 1, i.e. the division factor of the dividers 6 is equal to two.

When a binary code converter arrives at the input, the switch 7 switches to position II and the switch 8 to the position I I I. In this case, the voltage of the first voltage source (io) is applied to all the unit keys 3 of the converter.

Upon arrival of the converter, the code-voltage of the t-bit number N () is zero 2. and the unit 3 keys of all bits are switched according to the value of the number N, If the number j of the number N is one, then the unit The 3rd key of the jth digit of the one-matrix matrix 1 is closed, and the zero one

the j-toro key is open and open. If in the J-TOM of the discharge of the number N the zero is written, then the zero 2 key of the J-Toro discharge of the resistor matrix is closed, and the single 3 key of the j-th bit is open. In this case, the output voltage of the converter is generated.

N.U CH / 2 max number that can be converted to voltage

10 proposed by the device, for a binary code is NMCJKC, for a binary-decimal code N „., -.

Thus, the inventive device allows converting into a voltage a binary code of the form 8-4-2-1 and a binary-decimal code of the type 4-2-2-1,

Claims (2)

1. USSR author's certificate No. 480187, cl. H 03 K 13/02, 07/14/72. 2. USSR author's certificate No. 370718, cl. H 03 K 13/04, 07/08/71 5 (prototype) .I