SU577543A1 - Logarithmic amplifier - Google Patents

Description

Isobregennoe pushes to the field of amplifying technology and can be used on aaial-1 new computers. .

Known logarithmic amplifier containing amplifying blocks, logarithm 1IIY element, thermo-dependent resistor 1.

The closest to the invention is a logarithmic amplifier containing a logarithmic element and a thermocompensation element, the inputs of which are connected through a current-carrying resistor to the output of the amplification unit, the output l (1 salient element is connected to the inverting input of the amplifying unit and through the isolating resistor to the input of the logarithmic amplifier, output the amplifying unit through a main resistor connected to the inverting input of the large-scale amplifier, to the inverting input of which is connected The output of the element of thermal compensation is switched on, the zero level-2 setting block is connected to the non-inverting input of the amplifying battery. Both of these devices have relatively low accuracy.

The purpose of the creaturein is to improve the accuracy of operation in a wide range of values of the output (-th signal.

Gain. 1 is a le.M that in the proposed 1L log G1Lbmiches. ;; th amplifier is inserted a sensing resistor connected between the non-inverting input and the output of the table amplifier.

The drawing is a structural diagram of a logarithmic amplifier.

It includes an isolating resistor 1, an amplifying unit 2, a logarithm element 3, a current limiting resistor 4, a zero level setting unit 5, a thermocouple element 6, a large-scale amplifier 7, a compensating resistor 8, a masking tab resistor 9. The input of the logarithmic amplifier is indicated by 10 , and the output is the number II.

The principle of operation of the object is to vary the voltage drop across the logarithmic element 3, proportional to the logarithm of the current flowing through it, defined by the opening resistor 1 and the input voltage. A logarithmic voltage of positive polarity is connected to the input of the logarithmic amplifier 0 through the decoupling resistor 1 ". This voltage creates an additional bias on the inverting input of the amplifying unit 2, which is amplified by it, fed through a current-carrying resistor 4 to the input of the logarithm element 3, and a cnriia, Ta feedback voltage appears at the input of the gel unit 2, opposite to the opposite sign input. It is subtracted from the input so that the potential at the input of the amplifier unit 2 turns out to be again equal to the initial one set in advance by the zero level setting unit 5. But at the same time, the voltage at the connection point of the logarithmic element 3 and the current-limiting resistor 4 will be changed by an amount proportional to the logarithm of the flowing additional current and, therefore, the input voltage.

In the event of the appearance of a surge in negative input voltage, the passage of the signal is similar to that described above, and the logarithmization is also performed by the logarithm element 3, having bilateral conduction.

Prologized input voltage is applied through a thermal compensation element to the non-inverting input of a scale amplifier 7, which translates the logarithm coefficient from the parametric characteristic of the logarithmic element to the required one in accordance with the conditions of the object.

Moreover, the switching on of the compensating resistor 8 between the non-inverting input and the output of the scale amplifier 7 ensures the current flow through the temperature compensation element 6 when the output voltage of the main amplifier 7 changes, so that the current through the temperature compensation element 6 is always close or equal to the setting one, and the compensation effect of the temperature compensation element 6 constant for any values of input and output voltages and is determined by the choice of the resistance value of the compensating resistor 8.

This provides compensation for the voltage drop on the logarithmic element 3 n of the temperature compensation element b and eliminating their influence on the linearity of the logarithm when the input and output voltages of the logarithmic amplifier change, which significantly widens the dynamic range of the exact logarithm. n jKHMo of this, ensuring close initial operation of the logarithmic element 3 n of the element of thermal compensation 6 significantly reduces the temperature drift of the output voltage of the logarithmic amplifier, especially when used in 9Lcm; GG in 3 and b of the same type of transistors.

Claims (2)

Invention Formula A logarithmic amplifier containing a logarithmic element and an element of the master. the compensated inputs of which are connected; TOKOorpaHHMHTejibiJbifl resistor to the junction box, the output of the logarithm. electr / ieisra is connected to the inverting input of the amplifying unit and through the unloading resistor to the input of the logarithmic amplifier; , to the non-inverting input of which the output of the element of thermal compensation is connected, to the non-inverting input of the amplifying block a zero level setting unit is connected, o It is distinguished by the fact that, in order to increase the accuracy of work in a wide range of input signal values, a compensating resistor is inserted into it, which is connected between the non-inverting input and output of the large-scale amplifier. Sources of information taken into account in the examination: I. US Patent No. 3700918, cl. 307-230,1972: 2. V. L. Shilov. Linear integrated circuits in electronic equipment, “Soviet Radio, 1974, p. 160-162, rns. 4. 33. .. -011