SU440756A1 - DC sensor - Google Patents

Description

one

The invention relates to electrical engineering, namely, to sensors of direct current with electroplating, separation of input and output circuits.

DC sensors are known that contain a successively connected modulator, an AC amplifier with an independent power source, an output transformer, and two galvanically connected demodulators with filters, one of which is connected to the modulator input through a resistor, and the other output Connected load. However, the known sensors have low bandwidth and are complex.

The bandwidth of such sensors, because the delay of the output signal in the negative feedback circuit as compared to the input signal causes an overload of the AC amplifier, is limited by the maximum frequency of the signal that can be transmitted without distorting the shape, and significantly less than the bandwidth. time constant of the smoothing filter. Such sensors are complex, since the galvanic separation of the input and output circuits is achieved by using an independent power source, an AC amplifier and a demodulator with a filter in the negative feedback circuit.

In order to expand the bandwidth and simplify the device in the proposed DC sensor, the output transformer is provided with an additional winding connected via a resistor in parallel with the input of the AC amplifier, while the modulator transformer is connected to the amplifier through a series-connected resistor having a common point with a resistor in the circuit additional winding.

The drawing is given a functional diagram of the proposed sensor. The proposed sensor contains a current

Shunt 1, modulator 2 with a transformer 3 at the output and a series-connected AC amplifier 4, output transformer 5, demodulator 6 and a smoothing filter 7. Output transformer 5 is equipped

an additional winding 8 connected through a resistor 9 parallel to the input of the amplifier 4, and the secondary winding 10 of the transformer 3 is connected to the amplifier 4 through a series-connected resistor II, having a common

point with a resistor 9 in the additional winding circuit 8.

Voltage f / i proportional to load current / nd from shunt I is applied to modulator 2 and converted to a variable signal

current, which is galvanically separated from

sensor input circuits by a transformer 3 and amplified by an AC amplifier 4.

Negative feedback is applied to the AC voltage at the modulation frequency. The summation of the negative feedback signal removed from the auxiliary winding 8 of the output transformer 5 and the modulated input signal removed from the winding 10 of the transformer 3 is performed by resistors 9 and 11 and at the input of the AC amplifier 4.

The t / out signal rectified by the demodulator 6 and smoothed by the filter 7 is fed to the output of the sensor for connecting the load.

Since negative feedback is applied to the AC voltage at the modulation frequency, the inertia of the smoothing filter does not affect the operation of the AC amplifier. The proposed sensor is an aperiodic link with a bandwidth determined by the time constant of the smoothing filter.

(Subject invention

A DC sensor containing a modulator with an output transformer and an AC amplifier connected in series, an output transformer, a demodulator and a filter, which, in order to simplify and extend the bandwidth, the output transformer is provided with an additional winding connected in parallel with a resistor to the input of the amplifier, wherein the modulator transformer is connected to the amplifier through a series-connected resistor having a common point resistor in the auxiliary winding circuit.

3 8

five

6b