SU972657A1 - Code to current converter - Google Patents

Description

(54) CODE CONVERTER -.TO.TOK

The invention relates to automation and computing and can be used as a programmable source of stabilized current.

A code-to-current converter (FCT) is known, which contains two voltage sources, switches, weight resistors, and i1J diodes.

. The disadvantage of this device is the large errors of the converter associated with the presence of residual voltages on the transistor switches with which the driver resistors are connected.

A code-to-current converter is also known, which contains three voltage sources, GDT discharge current generators, diodes and keys, the control inputs of which are connected to the bus and the input code, and the outputs are connected to the primary inputs of the discharge current converters, the second inputs of which are connected with the first voltage source, 2j.

However, the known converter at high currents and discharges has a low efficiency, since the currents are generated by the discharge generators.

currents regardless of the value of the input code in the corresponding bit.

The aim of the invention is to increase the accuracy and efficiency of PCT.

The goal is achieved by the fact that in the converter the code is a current containing three voltage sources, alternating current generators, diodes and keys, the control inputs of which

10 are connected to the input code buses, and the outputs are connected to the primary inputs of the generators of the discharge currents, the second inputs of which are connected to the first voltage source, the second voltage source 15 is connected to the first inputs of keys, the third voltage source is connected to the second inputs, and The outputs of generators of discharge currents through diodes are connected to the output bus of the device.

The drawing is a schematic diagram of the device.

Claims (1)

The device contains a source of 1 positive voltage, a source 25 2 of negative voltage, a source 3 of a positive reference voltage, n GDT 4., keys 5, isolation diodes b and a total load of -7. Each of the GDT 4 consists of a two-position key 5, an operational amplifier 8, a transistor regulating element 9 of the difference amplifier 10, and a tokozalakitsky resistor 11. The values of the resistances of the driving resistors 11 are binary or binary-decimal. The binary or binary code is converted into current through the control inputs of 12 two-way analog switches 5. The device operates as follows. When a two-position analog switch 5 of the logical unit is applied to the control input, the non-inverting input of the operational amplifier 8 is connected to the output of the source 3 of the reference voltage. As a result, a positive voltage appears in the output of the operational amplifier 8 and a voltage source 3 in the circuit, an adjustable element 9, a resistor 11, a coupling diode 6, a load 7, a chassis bus, a current is generated, which increases until The signal at the output of the amplifier 10 of the difference, which amplifies the voltage drop across the setting resistor 11, will become equal (with accuracy to a very small error signal) to the input voltage, the source 3 of the reference voltage. After that, through the load 7, a constant discharge current, independent of the load resistance value 7. If a logical zero is supplied to the control input 12 of the two-position analog switch 5, the non-inverting input of the operational amplitude 8 is connected to the source 2 of the negative voltage displacement, as a result of which the output of the operational amplifier 8., therefore, a negative voltage is established at the output of the regulating element 9, which leads to a reliable locking of the coupling diode b and the switching off of the corresponding GDT 4 is from load 7. Each of GDT 4 only if there is 1 on control to input 12, which is in the on state, creates through the load 7 a discharge current of high stability that does not depend on the state of the other stable current generators. The proposed functional circuit allows connecting the required number of generators of discharge currents to create a converter code current with a large dynamic conversion range, which ensures high efficiency, accuracy and stability of output currents over the entire range. The invention code converter is a current containing three voltage sources, alternating current generators, diodes and keys, the control inputs of which are connected to the input code buses, and the outputs are connected to the first inputs of the alternating current generators, the second inputs of which are connected to the first voltage source, characterized in that, in order to increase accuracy and efficiency, the second voltage source is connected to the first inputs of the keys, the third voltage source is connected to the second inputs of the keys, and the outputs of the bit generators shackles through the diodes connected to the output device bus. Sources of information taken into account during the examination 1. Devices and. experimental technique, 1979, 3, p. 94. 2, Electronics, Russian translation. J.974, p. 57, p. 5 (prototype}.