SU191690A1 - PHOTOCOMPENSATION MEASURING DEVICE WITH NEGATIVE FEEDBACK - Google Patents

Description

The photocompensation measuring devices with negative feedback are known, which contain a galvanometer, a photoelectrocontic converter of the angle of rotation of the movable part of the galvanometer into an electrical signal, an amplifier — a direct current and an output device.

The proposed device differs from the known ones in that parallel to the measuring frame of the galvanometer the input of the AC amplifier is connected, and the output of this amplifier and the output of the photoelectric optic converter are connected to a summing stage connected to the input of the DC amplifier. This allows the device to become more resistant to mechanical interference.

The drawing shows a block-and-block diagram of the device.

The device contains a magnetoelectric galvanometer with a movable frame 1 and a photoelectroontic converter of the angle of deflection of the frame of the galvanometer into an electrical signal consisting of an illuminator 2, a condenser 3, fixed mirrors 4, lens 5, a mirror 6 fixed on frame 1, differential photoresistance 7, power sources 5 and 9. In parallel with the frame, the input of the amplifier 10 is of a constant current with a low level of internal noise.

The output of the bridge circuit formed by the differential photoresistance 7 and the sources 5 and P is connected to the input of the DC summing stage 12, and the input 13 of the cascade is connected to the output of the AC amplifier.

The input signal is applied to the terminals 14 and simultaneously to the frame I and the input of the AC amplifier 10. At the same time, the frame is affected by mechanical interference X1. In most cases, mechanical interference is the occasional tremors and shocks of the base of the galvanometer and cause the output voltage of the UMI-AC noise at the output of the bridge circuit. The noise voltage of the AC amplifier Ush1 brought to the input is small, since there is no mechanical noise on the AC amplifier. act, and the own noise amplifier

are small. If, where / C is the gain of the AC amplifier, then when the whole circuit is covered by feedback through the resistance 15, the noise brought to the input will be determined mainly by the value of / 7 and 2, which can be made sufficiently small. In this case, the magnitude of the output current and the readings of the output recorder will depend little on the effect of mechanical interference.

Boron is highly resistant to mechanical noise and high speed. At the same time, it maintains a high zero stability inherent in conventional photogalvanometric amplifiers.

Subject invention

A photocompensation measuring device with negative feedback, containing, its galvanometer, photoelectro-optical converter of the angle of rotation of the movable part of the galvanometer into an electric signal, a direct current amplifier and output device, characterized in that, in order to increase resistance to mechanical interference, parallel to the measuring The input of the AC amplifier is connected to the frame of the galvanometer, and the output of this amplifier and the output of the photoelectric converter are connected to It has a cascade connected to the input of a DC amplifier.