SU682996A1 - D-c amplifier - Google Patents

Description

one

The invention relates to amplifiers and can be used in electrical measuring technology in the presence of a significant difference in the potentials between the input and output circuits of a measuring device.

A stand-alone current amplifier with galvanic separation of input and output circuits is known, which contains a frequency-pulse modulator made on series-connected matching amplifier, an integrator on an operational amplifier, the inverting input of which is connected to one of the ends of the current-supply resistor, and a one-oscillator whose output connected to one of the ends of the input winding of the isolation transformer, and the demodulator, 1.

The accuracy of such an amplifier is determined by the stability of the ratio of the volt-second square of the feedback pulse of the voltage converter to the frequency Qi to the area of the pulse at the input of the demodulator Q2. The stability of Qi / Qg is ensured by separately forming each of these volt-second squares with two different nodes, which complicates this amplifier.

The aim of the invention is to simplify the amplifier.

To do this, in a DC amplifier with galvanic separation of input and output circuits, containing a frequency-pulse modulator, performed on series-connected matching amplifier, integrator on an operational amplifier, the inverting input of which is connected to one end of the current-supply resistor, and a single-oscillator, the output of which

connected to one of the ends of the input winding of the isolation transformer, and a demodulator; an additional winding is inserted into the separation transformer, identical to the output one and included according to

it, one end of which is connected via a diode to the second end of the current supply resistor, the other end to the common strip of the modulator, and the output winding is connected to the input of the demodulator through another diode.

The drawing shows a structural electrical circuit of the proposed amplifier.

DC amplifier with galvanic separation of input and output

The circuit contains a frequency-pulse modulator 1, made on series-connected matching amplifier 2, integrator 3, consisting of a resistor 4, a capacitor 5 and an operational amplifier 6,

the inverting input of which is connected to one of the ends of the current-setting resistor 7, and the one-vibrator 8, the output of which is connected to one of the ends of the input winding 9 of the isolation transformer 10, and the demodulator I. The separation transformer contains an additional winding 12, identical to the output winding 13 and included according to her. One end of the winding 12 is connected via a diode 14 to the second end of the current-carrying resistor 7, and the other end to the common bus of the modulator. The output winding 13 via another diode 15 is connected to the input of the demodulator 11.

The amplifier works as follows.

The input signal is amplified to the required level by the matching amplifier 2 and fed to the input of the integrator 3. When the linearly varying voltage at the output of the operational amplifier 6 reaches the response threshold of the one-oscillator 8, the latter issues a voltage impulse to the input winding 9 of the transformer 10. From the winding 12, a voltage pulse through a diode 14 separating one polarity of the signal and a resistor 7 is applied to the inverting input of the operational amplifier 6 and discharges the capacitor 5. The voltage at the output of the operational amplifier drops to the minimum value. Next, the capacitor 5 starts to charge again with the current determined by the voltage at the output of the matching amplifier 2 and the value of the resistor 4. The voltage at the output of the operational amplifier 6 increases linearly until the triggering of the one-vibrator 8 and the whole process repeats cyclically at a frequency proportional to the input voltage voltage and inversely proportional to the volt-second pulse area at the output of the diode 14. From the output winding 13 of the transformer 10, voltage pulses are fed through the diode 15 to the input of the demodulator 11, which can be used lowpass filter .where is isolated from the pulse sequence constant component is proportional to frequency and pulse voltsekundnoy feet of the diode 15 output.

The windings 12 and 13 of transformer 10 are identical, therefore the voltage-second pulse areas at the outputs of these windings, as well as at the outputs of diodes 14 and 15, are equal in the wide range of volt-second pulse from the single-oscillator 8 to the winding 9 of transformer 10.

Thus, the ratio of the volt-second areas of pulses to the input of the demodulator and to the inverting input of the operational amplifier 6, respectively, QI and Qa is constant and the expression for the conversion function is

YajnTi,

where K, is the coefficient determined by the passive elements of the device.

To 0.

Claims (1)

Invention Formula A DC amplifier with galvanic separation of input and output circuits, containing a frequency-pulse modulator, performed on series-connected matching amplifier, an integrator on an operational amplifier, the inverting input of which is connected to one of the ends of the current-supply resistor, and a single-oscillator whose output is connected with one of the ends of the input winding of the isolation transformer, and a demodulator, characterized in that, in order to simplify the amplifier, an additional winding is introduced into the separation transformer, identical to the output and included according to it, one end of which is connected via a diode to the second end of the current-carrying resistor, the other end is connected to the common busbar of the modulator, and the output winding is connected via the other diode to the input of the demodulator. Sources of information taken into account in the examination 1. US patent No. 3921088, cl. 330-10, published. 1975.