SU1372339A1 - Digit-controlled resistor - Google Patents

Abstract

The invention relates to the field of hybrid modeling and is intended for automated input of parameters to hybrid modeling devices. The purpose of the invention is to simplify and expand the application area by obtaining a linear dependence of the resistance of the digital-to-control resistor on the control code. The digital-controlled resistor contains the first operational amplifier 1, the multiplying digital-to-analog converter 2, the second operational amplifier 3, the first 4, the second 5 , the third 6 and fourth 7 scale resistors, external pins 8 and 9. The goal is achieved due to the fact that the DI resistor consists of the first operational amplifier, in the reverse circuit in which communication is enabled multiplying digital to analog converter, and a second operational amplifier, which is assembled on the basis of a current source controlled by voltage. Both stages are connected in such a way that the device as a whole performs the function of a resistor, the resistance of which linearly depends on the code applied to the digital inputs of the digital-analog converter. 1 il. S (l

Description

The invention relates to analog computing and hybrid modeling and is intended for the automated input of parameters j into hybrid modeling devices. The purpose of the invention is to simplify and expand the scope by obtaining a linear dependence of the resistance of the digital-controlled resistor 10 on the control code.

The drawing shows a functional diagram of a digital-controlled resistor.

The digital-controlled resistor contains 15 the first operational amplifier 1, multiplying the digital-to-analog converter 2, the second operational amplifier 3, the first 4, the second 5, the third 6, and the fourth 7 large-scale resistors, external information outputs 8 and 9.

The resistor works as follows,

Suppose that a voltage source is connected to the digital control resistor 25 between terminals 8 and 9, as a result of which a voltage U appears at the non-inverting input of the operational amplifier 3. Then, since the voltage between the inputs of the operational amplifier 3 is 30, zero will flow through the scale resistor 4 current equal to P / N ₄ where R ₄ - resistor 4. the same current will prote- Katyas 35 and through the exit multiplying digital to analog converter 2, causing its analog input, and hence the output of the operational amplifier 1 apryazhenie equal to

U / R ₄ · R _o / N, where R _o / N is the transmission coefficient of the multiplying digital-to-analog converter 2 from the analog input to its current output, depending on the code N on the digital input of digital-to-analog 45 converter 2, since the voltage between the inputs of the operational amplifier 1 is equal to zero, and its non-inverting input is connected to the bus of zero potential, then the voltage at its inverting input is also equal to zero. Therefore, the voltage between the terminals of the resistors 6 and 4 connected to the operational amplifier 1 is equal to U / R ₄ R _o / N = 55 = U _at . However, as you know, operational amplifier 3 with resistors

4–7 form a well-known circuit of a controlled current source, the output current of which is equal (for = R ₆ = R, = = - -Π- 'To the relation to terminal 9 this current has a positive direction). Therefore, the circuit has the properties of a digitally controlled resistor with a dependence of resistance on a control code of the form Η_, _κβ = (RVR ₀ ) 'N.

Claims (1)

Claim A digital-controlled resistor containing the first and second operational amplifiers, multiplying the digital-to-analog converter, the analog input of which is connected to the output of the first operational amplifier, and the digital input is the control input of the resistor, the first and second scale resistors connected in series, the common output of which is connected to the inverting input of the second operational amplifier , and the free output of the second large-scale resistor to ~ its output, and the third and fourth large-scale resins connected in series side, the common output of which is connected to the non-inverting input of the second operational amplifier, and the free output of the third large-scale resistor is connected to the output of the first operational amplifier, one of the other information outputs of the digital-controlled resistor is connected to the zero potential bus, characterized in that, in order to simplify and expand the area applications by obtaining a linear dependence of the resistance of the digital-controlled resistor on the control code, in it the inverting input of the first operational amplifier is connected with current output multiplying digital to analog converter and the free terminal of the first scaling resistor, while its inverting input is connected to zero potential bus, the free terminal of the fourth scaling resistor connected to the output of the second operational amplifier non-inverting input of which is the other outer terminal information tsifroupravlyaemogo resistor.