SU1550629A1 - Optical signal power meter in fibre-optical transmission systems - Google Patents

Abstract

The invention relates to radio engineering and can be used in optical testers and optical power meters in fiber optic transmission systems. The purpose of the invention is to improve the accuracy of measurements in a wide range of temperatures. To achieve the goal, an additional TFC 4, two switches 5, 7, and an analog storage unit 6 are introduced into the meter containing the photodetector 1, the DC amplifier 2, the measuring unit 3, and the offset voltage, stored in block 6 continues to affect the input of the TFC 2 and compensates for the components due to the dark current of the photodetector 1 and its own shift of the TFT 2, thereby increasing the accuracy. 1 il.

Description

The invention relates to radio engineering and can be used in optical testers and optical power meters in fiber-optic 5 transmission systems.

The purpose of the invention is to increase the accuracy of measurements in a wide range of temperatures.

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

The optical signal power meter in fiber-optic transmission systems includes a photodetector 1, 15 DC amplifier 2, a measuring unit 3, an additional DC amplifier 4, the first key 5, the analog memory unit 6, the second key 7. 20

The meter works as follows.

The normal state of the key 5 is closed, the key 7 is open, while the additional constant current amplifier (DCT) 4 amplifies the bias voltage from the output of the UPT 2, the analog storage unit (ACU) 6 monitors the output voltage of the additional UPT 4, thus, the UPT Zo 2 is covered by deep negative direct current feedback, and the bias voltage at the output of UPT 2, due to its intrinsic bias and the dark current of photodetector 1, is minimal. In measurement mode, simultaneously, the key 5 is opened, and the key 7 is closed, while the optical signal through the key 7 is fed to the optical input of the photodetector 1, is converted into an electrical signal proportional to the power of the measured optical signal, the electric signal is amplified by UPT 2 having a normalized gain and is measured by measuring unit 3, which is a pointer cue digital DC voltmeter, calibrated in units of power.

At the same time, the bias voltage amplified by the additional UPT 4 stored in the AZU 6 continues to affect the input of the UPT 2 and compensates for the components caused by the dark current of the photodetector 1 and the intrinsic bias of the UPT 2, due to which an increase in accuracy is achieved.

Claims (1)

Claim An optical signal power meter in fiber-optic transmission systems, comprising a photodetector in series, a DC amplifier and a measuring unit, characterized in that, in order to improve the measurement accuracy in a wide temperature range, the first key is inserted, the output of which is connected to the photodetector, and the input is the input of the meter, an additional DC amplifier, a second key and an analog storage unit, the output of which is connected to the second input of the amplifier, are connected in series A DC output is connected to the input of the DC amplifier Doponitelnye.