SU1443006A1 - Digital-controlled resistor - Google Patents

Abstract

The invention relates to analog modeling of hybrid modeling and is intended for the automated input of pairs of meters to hybrid modeling devices and for the communication of digital devices with control objects. The aim of the invention is to increase the speed of conductivity. The digital conductivity contains multiplying digital-to-analog converter I, the first 2 and second 5 operational amplifiers, the scale resistors 3,6,7, 8 and 10, the external data terminals 4 and 9. The goal is achieved through the introduction of the nth resistor. new connections between the constituent elements of conductivity. I il.

Description

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ABOUT)

The invention relates to analog computing of hybrid modeling and digital control, and is intended for the automated input of parameters into hybrid modeling devices and for the connection of digital devices with control objects.

The purpose of the invention is povyshenys. speed.

The drawing is a diagram of a digital controlled resistor,

The digitally controlled resistor contains a multiplying digital-to-analog converter (D / A) I, the first operational amplifier (OU) 2, the first large-scale resistor 3, the first data output 4, the second op-amp 5, the second & and the fifth scale resistor 10,

The digital resistor operates as follows.

Suppose that a voltage source with an external resistance is connected to the first and the output pins, so that voltage V appears on pin 4. Then, since the voltage between the inputs of the OU 5 is zero, the voltage on the scale resistor 8 is equal to also V. Denote the resistors with the letter R with the index corresponding to the designation of the resistor 5 and write the current through the scale resistor 8 as. Since the OU has an infinitely large input resistance, the same current flows through the scale resistor 7 and, therefore, the output of the OU 5 voltage (R., - fRg) / R. Since the transfer resistance of the DAC 1 R -Rg / N, where 2% where Ri. - resistance of resistors R-2R-matrix multiplying DAC 1; n is the digital code size, then the output of the OU 2 is the voltage V, - (V / Nc) Vc-. This voltage is the input voltage for a current source controlled by a voltage made at the op-amp 5, the output

the current of which is the input conduction current: I -V2 / B (the positive direction of the current is indicated by the arrow). - Considering that for the operability of the controlled current source, the following equalities must be fulfilled

.i4-R ") /

 get

/ () V, whence equivalent

conductivity

 (K7 + K8) R, o (RT + R5

square typical

, ".

R.-10 kOhm,

For

 ohm ohm get 0

0 ,,.

Since for op amp 2 the feedback depth is p. () 0.5. . . i, then the limiting frequency of this cascade has the value f 1 MHz.

Claims (1)

Invention Formula A digitally controlled resistor containing first and second operational amplifiers connected in series to the first and second large-scale resistors, the common output of which is connected to the non-inverting input of the second operational amplifier and is the first 7 data output of the digital-controlled resistor, the free outputs are connected to the outputs of the first and the second operational amplifiers, connected in series by the third and fourth large-scale resistors, the general output of which and the free output of the third scalers About the resistor: Yucheny respectively to the inverting input and the output of the second operative amplifier, and for multiplying digital-to-analog converter, the current output of which is connected to the inverting input of the first operational amplifier, and the digital input is the control input of the digital-controlled resistor, the second information output and the non-inverting input of the first operational amplifier is connected to the zero potential bus, which also means that, for the purpose of neither speed, it introduces the fifth scale a resistor that is connected between the inverting input and the output of the first operational amplifier, the analog input of the intelligent digital-to-analog converter and the free output of the fourth large-scale resistor are connected respectively to the output of the second operational amplifier and to the zero potential bus.