SU760406A1 - Measuring amplifier - Google Patents

Description

The invention relates to radio engineering.

A measuring amplifier is known, containing two operational amplifiers and a resistive divider connected in parallel to the output of the first operational amplifier, the first and the third, whose taps are connected to the inverting inputs of the first and second operational amplifiers, respectively, the output of the second operational amplifier, at the same time, the non-inverting inputs of the operational amplifiers are symmetrical inputs of the measuring amplifier [1].

However, the known measuring amplifier does not provide the possibility of adjusting the gain · without reducing the common-mode rejection factor.

The purpose of the invention is the provision of the possibility of adjusting the gain without reducing the coefficient of 25 common-mode rejection.

For this purpose, in a measuring amplifier containing two operational amplifiers and connected in parallel

the output of the first operational force 2

For a resistive divider, the first and third taps of which are connected to the inverting inputs of the first and second operational amplifiers, respectively, the output of the second operational amplifier is connected to the second tapping of the resistive divider, while the non-inverting inputs of the operational amplifiers are symmetrical inputs of the measuring amplifier between the first and third resistive taps divider included element e adjustable resistance.

The drawing shows the electrical schematic diagram of the measuring amplifier.

The proposed amplifier contains two operational amplifiers 1 and 2, a resistive divider composed of resistors 3-6, element 7 with adjustable resistance, and an input source 8.

The measuring amplifier works as follows.

With an input voltage from source 8 equal to zero, the inputs of the operational amplifiers 1 and 2, as well as the terminals of the element 7 with adjustable resistance, are equipotential. Current

rez element 7 is zero. Consequently, the currents through the resistors 3 and 6, determined by the value of the common-mode voltage, i.e. The voltages between the power point input of the operational amplifier 1 and the case are equal, which, with equal values of the resistances of the resistors 3 and 6, causes a zero output signal. When the input voltage Lt of the source 8, other than zero, the voltage drop on the element 7 is numerically equal to the input voltage. The value of the current through the element 7, and, consequently, the difference of the current through the resistors 3 and 6, is determined by the set value of the resistance of the element 7. At the output of the measuring amplifier, an amplified voltage of the input signal is issued. Taking "equal to the magnitude of the resistance of the resistors ZB And denoting the resistance value of one of them through K, the resistance value of the element 7 through g, the gain of the measuring amplifier through K, we get

l '.

760406 4

in providing the ability to adjust the gain without reducing the common mode rejection ratio.

five

Claims (1)

Claim Measuring amplifier containing two operational amplifiers and a resistive divider connected in parallel to the output of the first Ιθ operational amplifier, the first and third taps of which are connected to the inverting inputs of the first and second operational amplifiers, respectively, the output of the second operational amplifier, with non-inverting operating inputs amplifiers are symmetrical inputs of the measuring amplifier, characterized by the fact that, in order to provide and adjusting the gain without reducing the common mode rejection factor, an element with adjustable resistance is included between the first and third taps of the resistive divider 25. The common mode suppression factor does not depend on the resistance value of element 7, but is determined by the spread of resistance values of resistors 3 and 6, 4 and 5, which is used by precision resistors. Technical and economic efficiency of the measuring amplifier is thirty