SU1195414A1 - D.c.amplifier - Google Patents

Abstract

The invention relates to a measurement technique and can be used in devices for voltage amplification in a wide range of hours. The purpose of the invention is to increase the stability with coverage of the DC amplifier by feedback. Modulator 1 receives an input signal and a signal that does not cut down the frequency of the oscillating pulses from the pulses 7. The modulated signal is fed to the AC amplifier 2 and then to the demodulator 3 and the analog storage device 4. The modulator 1 and the demodulator 3 work cycles the output voltage The analog storage device 4 is proportional to the input voltage of the amplifier, and during non-working cycles it is proportional to the input voltage of the amplifier at the end of the previous operating cycle. Dp of decreasing the phase shift between the output of the analog storage device 4 and the input of the LF pin 6 is a frequency-dependent phase-shifting circuit 5. I Il. ICh

Description

The invention relates to measuring technique and can be used in devices for voltage amplification in a wide frequency range. 5

The purpose of the invention is to increase the stability in the coverage of the DC amplifier feedback.

The drawing shows a structural electrical circuit of a DC amplifier.

The DC amplifier contains a modulator 1, an AC amplifier 2, a demodulator 3, an analog storage device 4, a frequency-dependent phase-shifting circuit 5, a low-pass filter (LPF) 6 and a square-wave generator 7.

DC amplifier ²⁰ melts rabo- follows.

The input signal is supplied to modulator 1 and modulates in amplitude the signal of the carrier frequency of the generator 7 25 rectangular pulses. The modulated signal is amplified by the AC amplifier 2 and demodulated by the demodulator 3. At the output of the demodulator 3, the signal has the form of a sequence of pulses, the duration of which is equal to the duration of the rectangular pulses of the generator of 7 rectangular pulses, and the amplitude is proportional to the amplitude of the input voltage ₃₅ during the operating cycles of the modulator 1 and demodulator 3. In idle cycles, the output signal of demodulator 3 is equal to zero. As a result of the inclusion of an analog storage device 4 after the demodulator 3 40, its output voltage in working cycles is also proportional to the input voltage of the amplifier, and during idle cycles it is constantly 45 and proportional to the input voltage of the amplifier at the end of the previous working cycle. As a result, the output signal of the analog storage device 4 contains significantly less pulsation of harmonics of different frequencies than the output signal of the demodulator 3 "The analog storage device introduces a phase shift the greater, the smaller the ratio of the frequency of the signal generator 7 rectangular pulses to the frequency of the input signal. As a result, with. the coverage of the DC amplifier with feedback to stabilize its gain may affect the stability of the DC amplifier. To reduce the phase shift, a frequency-dependent phase-shifting circuit 5 is introduced into the DC amplifier. A low-pass filter 6 provides the final filtering of the output signal from the harmonic components and the carrier frequency signal.

Claims (1)

Claims A direct current amplifier, contents are connected in series by a modulator, an alternating current amplifier, a demodulator and an analog storage device, the control inputs of a modulator, a demodulator and an analog storage device being connected to the output of a rectangular pulse generator, as well as a low-pass filter, the output of which is the output of a direct current amplifier, characterized in that,> in order to increase stability when the DC amplifier is covered by feedback, I remember between the analog output frequency-dependent phase-shifting circuit is introduced and a low-pass filter input.