SU922779A1 - Operational unit - Google Patents

Description

(54) OPERATIONAL UNIT

 .I;

The invention relates to an amplifier technique and can be used in analog computers.

..PfeBecTeH operational unit containing an operational amplifier, operator two-terminal 11.. However, the known operating unit is characterized by low work accuracy.

Closest to the present invention is an operational unit comprising an operational amplifier, operator bipolar networks, an additional operational amplifier, large-scale resistors, and compensating operator bipolar networks 23.

This operational block is also characterized by a low accuracy of work due to the presence of a fundamental error in the execution of a given mathematical operation.

The purpose of the invention is to improve the accuracy of work due to compensation (financial error.

Claims (2)

The goal is achieved by the fact that in the operational unit containing the operational amplifier, the operator two-poles, one output of each of which is connected to the inverting input of the operational amplifier, the other output of each of the operator two-poles is connected to the operating unit, the output amplifier and the inverting input of the operational amplifier are connected bipolar feedback loop, the output of the operational amplifier is the code of the operational unit, the additional operational amplifier, the first and second compensate the operator two-terminal, the first and second scaling resistors, non-inverting. and the inverting inputs of the additional opamp, respectively, through the first and second compensating. Operator two-poles are connected to a zero-potential bus, the non-inverting input of the additional operational amplifier is connected to the inverting input of the operating amplifier, the first large-scale resistor is connected between the non-inverting input and the output of the additional operational amplifier, between the inverting input and the output of which is connected a second large-scale resistor. The drawing shows a functional diagram of the proposed operational unit, the circuit contains two-terminal operating circuits, ..., 1, operational amplifier 2, operator bipolar feedback 3, first and second compensating operator bipolar 4 n 5, first and second resistors 6 and 7 , additional operational amplifier 8, zero potential bus .9, inputs 10, ..., ,, ,, .., 1О and output of the 11th operational unit. The operating unit operates as follows. . The signals with the corresponding inputs 10, ..., 10.; ,, .., 1О. through the operator two-terminal 1, ..., ... IH are fed to the input of the operational amplifier 2, amplified and fed to the output 11. The required mathematical dependence is realized by an appropriate choice of the operator two-terminal 1, ..., 1, ..., 1PI of the operator two-terminal 3 feedbacks. In the proposed operating unit. Significantly reduced the error in the implementation of mathematical dependence. Error compensation is made by selecting the appropriate conductivity value of the second compensating two-port 5, which should be equal to Vo, (P) ax.lP), (i; where the conductivity of the second. Compensating two-pole 5; Ulr) is the operator two-terminal operator from the two-terminal operator 1, .. ., ..., 1p, including both the operator two-terminal feedback 3 and the first compensating operational two-terminal 4 G141 - the number of all operator bipolar systems. At the same time, the relative fundamental modeling error is. nKbulP) is the output voltage 11; - the gain of the operational amplifier 2; Yip) conductivity of the operator two-pole feedback 3i X11 the input voltage of the operating unit is WlP) .p, u.,. (B) Compared with the known device, the proposed operating unit has a significant decrease in the basic error of the required mathematical dependence, which means higher nausea work. Claims of the invention An operation unit comprising an operational amplifier, operator bipolar networks, one output of each of which is connected to the inverting input of the operational amplifier, another output of each operator bipolar network is the input of the operating unit, between the output and the inverting input of the operational amplifier, the operator bipolar feedback connection is connected, the output of the operational amplifier is the output of the operational unit, an additional operational amplifier, the first and second compensating op Rotor two-poles, the first and second large-scale resistors, characterized in that, in order to increase the accuracy of operation, the non-inverting and inverting inputs of the additional operational amplifier are respectively connected through the first and second compensating operator two-terminals to the zero potential bus, the non-inverting input of the additional operational amplifier is connected to the inverting the input of the operational amplifier, the first large-scale resistor is connected between the inverting input and the output of the auxiliary Discount amplifier inverting input and the output of which is connected a second scaling resistor. Sources of information taken into account in the examination 1. B. Ya. Kogan. Electronic models - devices and their use for studies of automatic control systems. Fizmatgiz 1963, p. 49-5Q, fig. 23. 2. Urmaev A.S., Basics of Modeling by AVM. Science, 1974, p. 23-23, (prototype).