SU1166141A1 - Operational amplifier - Google Patents

Abstract

1. OPERATIONAL AMPLIFIER, containing a primary differential amplifier with a paraphase output, the first output of which is the first output of an operational amplifier, characterized in that, in order to improve operation accuracy by providing a high degree of isolation of inputs and outputs, an additional a differential amplifier with a paraphase output, and the inverting input of the main differential amplifier with a paraphase output is the first input of the operational amplifier, the inverting input and the first Exit additional differential amplifier having paraphase output are respectively the second input and second output of the operational amplifier and the inverting input and the second output of the main differential amplifier having paraphase output coupled and connected to the noninverting input and the second output of the additional differential amplifier having paraphase output. 2. An amplifier according to claim 1, characterized in that, in order to provide protection against leakage currents, the main and additional differential amplifiers with a paraphase output are enclosed in a protective screen, which is placed in the main screen, isolated from the protective screen and connected to the bus zero potential, and the non-inverting inputs of the main and additional differential amplifiers with a paraphase output are connected to a protective screen.

Description

The invention relates to an amplifying technique and can be used in analog computing machines, as well as in code-controlled; AP-resistance and wire resistance sensors. The operational amplifier is known, which contains a modulator, an isolation transformer, and a demodulator. However, the character of the amplifier is of low accuracy. - The closest to the proposed is an operational amplifier containing a differential amplifier with a paraphase output, between the inverting input and the first output of which is connected the first large-scale resistor, and between the inverting input and the second output is connected the second large-scale resistor to the inverting and non-inverting inputs of the differential amplifier with the first and second input large-scale resistors 2 are connected by a paraphase terminal. A disadvantage of the known operational use of the power unit is also the low accuracy of the work caused by the effective coupling of the input and output circuits. The circuit of the invention is an increase in the accuracy of the work due to the high degree of isolation of the inputs and and outputs, as well as ensuring protection from currents leakage For this purpose, an operational amplifier containing a main differential amplifier with a paraphase output, the first one whose output is. The first output of the operational amplifier, the additional differential input para-phase amplifier, with the inverting input of the main differential amplifier with the paraphase output being the first input of the operational amplifier, the inverting input and the first output of the additional differential amplifier with the paraphase output being the second input and the second output of the operational amplifier, and the non-inverting input and the second output of the main differential amplifier with a paraffz output connect s and connected to the noninverting .The inputs and the second output of the additional differential amplifier having paraphase output. 1 12 The main and additional differential amplifiers with a parafaea output are enclosed in a protective screen, which is placed in the main screen, isolated from the protective screen and connected to the zero potential bus, and the non-inverting inputs of the main and additional differential amplifiers with a paraphase output are connected to the protective screen. The drawing shows a functional diagram of the proposed operational amplifier. The drawing shows the main and additional differential amplifiers with paraphase "output 1 and 2, the first and second inputs 3 and 4 and the first and second outputs 5 and 6 of the operational amplifier, protective screen 7, main screen 8, zero potential bus 9, common bus 10 The operational amplifier works in the following way. . The signals from the first and second inputs 3 and 4 are amplified and fed to the first and second outputs 5 and 6. The combined non-inverting inputs and the second outputs of the main and additional differential amplifiers 1 and 2 and connected to the protective screen 7 form a common bus of the operational amplifier, the potential of which equal to the potentials of the first and second inputs 3 and 4. The resistance between the first input 3 and the first output 5 is: 35 BS, the input resistance of the MAIN differential amplifier is. 1, the gain of the main differential amplifier 1. The resistance between the second input 4 and the second output 6 is equal to; K., (2). 46 g pre-output differential differential differential amplifier 2, the gain of the additional differential amplifier 2, the resistance between the first input 3 and the second output 6 is equal to: up to $ 6 exi T7 where U is the voltage between the first output, 5 and the total

3P

bus 10 and the second output 6 and the common bus 10. The resistance between the second input A and the first output 5 is equal to:

R4i-RftxiKjTi - ()

When choosing the primary and secondary differential amplifiers 1 and 2 with a para-fen output such that their input impedances are approximately 10 ohms, and their gains are approximately .16, the ratio of voltages in expression 1. four

neither x (3) and (4) will be equal to one. Then the resistance values in expressions (1),. (2), (3) and (4) will be equal to 10 ohms. This will indicate sufficient isolation of inputs and outputs.

Thus, in comparison with the known device, the proposed operational amplifier has a higher accuracy of operation, due to a significant degree of isolation of inputs and outputs.

Claims (2)

1. OPERATIONAL AMPLIFIER, containing the main differential amplifier with a paraphase output, the first output of which is the first output of the operational amplifier, which means that, in order to improve accuracy in operation by providing a high degree of isolation of inputs and outputs, it is introduced add-on. a differential differential amplifier with a paraphase output, the inverting input of the main differential amplifier with a paraphase output being the first input of the operational amplifier, the inverting input and the first output of the additional differential amplifier with a paraphase output are, respectively, the second input and second output of the operational amplifier, and the non-inverting input and second the output of the main differential amplifier with a paraphase output is connected and connected to a non-inverting input and a second output differential amplifier with paraphase output. s 2. The amplifier according to claim 1, with the exception that in order to ensure protection against leakage currents, the main and additional differential amplifiers with a paraphase output are enclosed in a protective shield, which is placed in the main screen, isolated from the protective screen and connected to the zero potential bus, and the non-inverting inputs of the main and additional differential amplifiers with a paraphase output are connected to the protective screen. 1,116 * 6