RU2020122171A - Inverting Output Stage Distortion Correcting Amplifier - Google Patents

Claims (4)

1. An amplifier without common feedback, containing a preamplifier 11, which is a voltage-controlled current source, the inverting input of which is connected to a common wire, and the non-inverting input is connected to a resistor 12, its other output is connected through a voltage source of the input signal 13 to a common wire , the output of the preamplifier 11 is connected to the inverting input of the final amplifier 9, which has an active input resistance without a reactive component, the non-inverting input of the final amplifier 9 is connected to a common wire, and its output is connected to its inverting input through a resistor 10 and to a common wire through a load 4 , characterized in that between the non-inverting input of the pre-amplifier 11 and its output, a coupling resistor 14 is introduced, with a resistance equal to the fraction reduced by the resistance of the resistor 12, in the numerator of which is the product of the resistance of the resistor 12 reduced by unit by the voltage conversion slope into the current of the pre-amplifier 11, and the denominator is the sum of the reverse resistance of the resistor 10 and the reverse input resistance of the inverting input of the final amplifier 9. 2. The amplifier according to claim 1, in which the pre-amplifier 11 is made in the form of an amplifier 15, which is a voltage source controlled by voltage, with its first output connected to its output by a resistor-input voltage-to-current converter 16, the second output of which serves as the output of the completed pre-amplifier 11, and its inverting and non-inverting inputs are, respectively, the inverting and non-inverting inputs of the amplifier 15, the resistance of the coupling resistor 14 is, minus the resistance of the resistor 12, a fraction, in the numerator of which is the product of the voltage gain of the amplifier 15 reduced by one by the ratio of the resistance resistor 12 to the resistance of resistor 16, and the denominator is the sum of the reverse resistance of resistor 10, the reverse resistance of resistor 16 and the reverse input resistance of the inverting input of the terminal amplifier 9. 3. The amplifier according to claim 2, in which the amplifier 15 is based on an operational amplifier 17, a voltage source controlled by voltage with differential inputs, with a resistor 19 inserted between its output and the inverting input, to which the input resistor 18 is connected, the other output of which serves as an inverting input of the executed amplifier 15, and its output and non-inverting input are, respectively, the output and non-inverting input of the amplifier 17, the ratio of the resistance of the resistor 19 to the resistance of the resistor 18 is equal to the voltage gain of the completed amplifier 15 reduced by one. 4. The amplifier according to claim 3, in which the inverting input of the terminal amplifier 9 is connected to the second terminal of the resistor 16 through the input resistor 20 and to the inverting input of the operational amplifier 17 through the input resistor 21, the resistance of which is equal to the product of the resistance of the resistor 19 and the ratio of the resistance of the resistor 20 to the resistance of resistor 16, and the resistance of resistor 14 is, minus the resistance of resistor 12, a fraction, in the numerator of which is the product of the resistance of resistor 12 reduced by one, the resistance of resistor 19 and the ratio of the sum of the reverse resistances of resistors 18, 19, 21 to the resistance of resistor 16, and in the denominator - the sum of the reverse resistances of resistors 10, 16 and 20.