SU1018233A1 - Voltage-to-gray code converter - Google Patents

Abstract

A VOLTAGE CONVERTER TO A GREY CODE, containing successively connected conversion stages, each of which is performed on an operational amplifier, whose inverting input is connected to the first output of the first register and through a series-connected second resistor, and the first diode to the output of the downed operational amplifier, to the input of the circuit from the series-connected second and third diodes and through the third resistor to the base of the transistor, the collector of which is connected to the corresponding discharge output and through the solid resistor is connected to the power supply bus. and the emitter is connected to the bus, in order to increase the static accuracy of the converter, in the gyx conversion stage, the circuit output from the series-connected second and third diodes is connected to the junction point of the resistor and the first diode; "Pi through additional conversions, except for the first, introduced into each cascade, the first diode and the resistor are connected to the noninverting input of the operational usi / stem and through an additional second resistor to the common bus terminal The second output of the first resistor kg1 of the cascade of the conversion, except for the first / through an additional second diode, is connected to the output of the operational amplifier of the previous cascade, formation, and the second output of the first resistor of the first cascade of the conversion, the first output The first resistor of each conversion stage is connected via an additional third resistor to the reference voltage bus.

Description

The invention relates to automation and computer technology and can be. Used in telemetry and analog-digital computing complexes. A converter of the voltage into the Gre code is known, containing in each bit two operational amplifiers, four diodes and six precision resistors 1. The disadvantage of this converter is the complexity of the design. Closest to the present invention is a voltage converter in the Gre code, which contains series-connected conversion stages, each of which is performed on an operational amplifier, the inverting input of which is connected to the first output of the resistor and through the series-connected resistor and the first diode to the output of the specified operational amplifier to. entrance; The circuits from the sequentially connected second and third diodes and through the third resistor are connected to the base of the transistor, the collector of which is connected to the corresponding order of the discharge voltage: through the fourth resistor is connected to the power supply bus and the emitter is connected to the common bus t2l. The disadvantages of the known converter are the complexity of the design and the low static accuracy, due to the presence of two operational amplifiers. The aim of the invention is to increase the static accuracy and simplify the design of the converter. This goal is achieved by the fact that a voltage converter into a Gre code, containing serially connected conversion stages, each of which is performed on an operational amplifier, the inverting input of which is connected to the first output of the resistor and through the second connected diode - to the output of the specified operational amplifier, to the input of the circuit of the series-connected second and third diodes and through the third resistor to the base of the transistor, the collector of the mountain is connected to the corresponding his. the discharge output and through the fourth resistor are connected to the power supply bus, and the emitter is connected to the common circuit; in each conversion stage, the output of the circuit from the series-connected second and third diodes is connected to the junction point of the second resistor and the first diode, and additional conversions introduced in each cascade, except for the first one, the first diode and the resistor are connected to the non-inverting input of the operational amplifier and, through an additional second resistor, to the common bus, the second output The first resistor of each conversion stage, except the first, is connected via an additional second diode to the output of the operational amplifier of the previous conversion stage, and the second output of the first resistor of the first conversion stage is connected to the transformable signal bus, the first output of the first resistor of each conversion stage through the third additional The resistor is connected to the voltage reference voltage. The introduction of additional diodes makes it possible to obtain, for amplifiers of all bits, the transfer characteristic of an ideal diode and to switch the output voltage of each discharge, depending on its sign. FIG. 1 shows the general scheme of the proposed converter (the first two bits are shown); in fig. 2diagram, lustryryug.tsa work four-bit transducer. The converter contains an operational amplifier 1, precision resistors 2-4, diodes 5-9, auxiliary resistors 10 and 11, transistor 12, precision resistors 13-17, operational amplifier 18, diodes 19, -21, auxiliary resistors 22 and 23, a transistor 24. The converter operates as follows. The inverting input of amplifier 1 is through resistors 2 and 3. Measured negative voltage U is applied; and a reference positive voltage equal to half the maximum value to be measured. With 1u, (1 Ieu1, diodes 5 and 7 are open, and diode 6 is closed. The voltage at point A is positive and is –2 (U +.) + 2U., And at point B is –2 (Ux + 0.1 -) + + O. The auxiliary resistor 11 is selected such that, with a positive voltage at point A greater than or equal to 20, the transistor 12 opens and the voltage at point a corresponds to the logic zero level. The voltage at the non-inverting input the amplifier 18 is -2 {U - "U, - ,.) S, and since the same voltage is set at the inverting input, the diode 8 is locked, and the amplifier 18 compares two positive voltages U applied to the inverting input through resistor 14 and -2 (and + and 34-) f fed to the non-inverting input through resistor 15. Now, if -2 (U +21) / TO, diodes 20 and 21 are open, the diode 19 is closed and at point A a positive voltage is set to

Claims (1)

VOLTAGE TRANSFORMER To the GRAY CODE, which contains series-connected conversion cascades, each of which is performed on an operational amplifier, whose inverting input is connected to the first output of the first register and through a second resistor connected in series, and the first diode is connected to the output of the specified operational amplifier, to the circuit input from connected second and third diodes and through a third resistor to the base of the transistor, the collector of which is connected to the corresponding discharge output and through the fourth resistor is connected to the bus the power source, and the emitter with a common busbar, which is distinguished by the fact that, in order to increase the static accuracy and simplify the converter, in each cascade of Lreobrazovaniya the circuit output from the second and third diodes connected in series is connected to the connection point of the second resistor and the first diode, and the midpoint of this circuit through additionally introduced into each cascade conversion, in addition to the first, the first diode and resistor is connected to the non-inverting input of the operating antenna / plug and through an additional second resistor to the common bus, Moreover, the second terminal of the first resistor of each conversion stage, except the first, is connected through an additional second diode to the output of the operational amplifier of the previous stage of pre. formation, and the second terminal, of the first resistor of the first conversion stage is connected to the bus of the converted signal, while the first the output of the first resistor of each conversion stage through an additional third resistor is connected to bus 0 of the reference voltage.