SU987793A1 - Dc amplifier - Google Patents

Description

The invention relates to amplifier technology and can be used in M-DM amplifiers for amplifying DC signals from sources with a high internal resistance.

M-DM type DC amplifiers are known, including a modulator, an AC voltage amplifier, a demodulator, and a control voltage generator Ll.

The disadvantage of this DC amplifier is the low transmission accuracy of the input signal due to the small value of the input resistance of the modulator.

Closest to the proposed amplifier comprising a modulator, an AC voltage amplifier, a demodulator, a low-pass filter and a source of control voltage, the output of which is connected to the control inputs of the modulator and demodulator C.

A disadvantage of the known DC amplifier is the low accuracy of the front and signal from a source with high internal resistance, due to the loss of the signal at the internal resistance of the source due to the small input resistance of the modulator and the AC voltage amplifier.

The purpose of the invention is to improve the accuracy of the input signal transmission.

The goal is achieved by the fact that a DC amplifier containing an input source having first and second output terminals, as well as sequentially. the connected modulator, the first and second inputs, the ac voltage amplifier, the demodulator and the low pass filter, the first output 20 on the input source terminal is connected to the first input. A motor whose second input is connected to the common bus and the source of which is connected to the control inputs of the modulator and demodulator, an operational amplifier is introduced, the inverting input of which is connected to the first input of the modulator and through the first feedback block to the output an operational amplifier which, through the second feedback unit, is connected to the second output terminal of the input source, which through serially connected first control key, memory element, inverter and second control key with It is connected to a common bus, the connection point of the inverter and the second controllable key is connected to the non-inerting input of the operating force, l, and the control inputs of the first and second control keys are connected to the second input of the control voltage source. The drawing shows the structural electrical circuit of the proposed amplifier. The proposed amplifier contains an input signal source 1, a modulator 2, an alternating voltage amplifier 3, demodulator A, a low-pass filter 5, a control voltage source 6, the first 7 and second 8 feedback blocks, the operative ion amplifier 9, the first 10 and second 11 controlled keys, memory element 12, inverter 13, first k and second 15 output terminals of the input source and first 1b and second 17 inputs of the modulator 2. The DC amplifier operates as follows. At some point in time, the controllable switches 10 and 11 are closed by a signal from the second output of the source 6 of the control voltage. In this case, the voltage at the connection point of the second output terminal 15 of the input source 1 and the second feedback unit 8 with a sufficiently large absolute value of the nominal gain of the operational amplifier 9 and the transmission coefficient of the second feedback unit 8, is close to one. opposite to the sign of you. the voltage of the source 1 of the input signal. This voltage during the closure interval of the controllable switches 10 and 11 is applied to Elena there ;. The modulator 2 and the alternating voltage amplifier 3 are disconnected from the input source 1 at this time, since the control signal at the first output of the control voltage source 6 is absent. After opening the controllable switches 10 and 11, the non-inverting input of the operational amplifier 9 receives the previously memorized memory element 12 and inverted by inverter 13 equal to the magnitude and sign of the source output voltage, and 1 input signal, the first output terminal 14 of which through the modulator 2 is connected to the input of the variable voltage amplifier 3, demodulated by the demodulator t, and filtered by the low pass filter 5. The connection of the input resistances of the closed modulator 2 and the alternating voltage amplifier 3 to the inverting output of the operational amplifier 9 does not cause a decrease in the voltage on the inverting input of the operational amplifier 9 due to the voltage drop on the internal resistance of the input source 1 of the input signal, since the decrease the voltage on the inverting input of the operational amplifier 9 is compensated by an increase in the input voltage of the second feedback unit 8, which, relative to the first input 16 of the modulator 2 operates in series with the input source 1 voltage. The property of stabilizing the voltage at the input of the modulator 2, when its input resistance changes and the output resistance of the input source changes, is most fully realized in the proposed DC amplifier with a small transfer ratio of the output voltage of the operational amplifier 9 by the first feedback unit 7 to the inverting input of the operating amplifier 9. In particular, when performing the first feedback block 7, for example, in the form of a resistor, it is sufficient that the resistance value of this resistor is and much more than the internal resistance of the input source. The advantage of the proposed DC amplifier is the increased accuracy of signal transmission.

Claims (1)

Claim A DC amplifier comprising an input signal source having first and second output terminals, as well as a series-connected modulator having first and second inputs, an AC amplifier, a demodulator and a low-pass filter, wherein the first output terminal of the input signal source is connected to the first input of the modulator the second input of which is connected to a common bus, as well as a control voltage source, the first output of which is connected to the control inputs of the modulator and demodulator, characterized in that o, in order to increase the accuracy of the transmission input signal entered operational amplifier, the inverting input <coupled to a first input of the modulator and in a first block ¹ ob- inverse connection with the operational amplifier output which, via a second feedback block 5 is connected to the second output terminal the input signal source, which is connected in series through the first controlled key, the memory element, the inverter and the second controlled key W. to the common bus, while the connection point of the inverter and the second control emogo key is connected to the noninverting input of the operational amplifier, and · is the control inputs of the first and second control keys are connected to the second input of the control voltage source.