CS271152B1 - Device for optical fibre's loss measuring during its drawing - Google Patents

Abstract

It solves the compensation of temperature instability of the detector photodiode and unidirectional amplifiers which join the photodiode. It consists of the detector photodiode (4), which is placed against the openings of the modulation disc (2). The openings are created over the circumference of the disc (2). The photodiode (4) is connected via the absorber (5) to the first input of the measuring sample amplifier (9), which is connected by its output to the first input of the differential amplifier (12). The photodiode (4) is also connected to the calibrating sample amplifier (10), whose output is connected to the second input of the differential amplifier (12), whose output is connected to the output terminal (15) and, via the A/D converter (13), to the display unit (14), while a calibrating light-emitting diode (3) is placed by the detector photodiode (4). The light-emitting diode (3) is connected to the third output of the synthesizer (11), whose second output is connected to the second input of the measuring sample amplifier (9), whose first output is connected to the second input of the calibrating sample amplifier (10). The fourth output of the synthesizer (11) is connected to the drive (6) of the modulation disc (2) and its input is connected via the amplifier (6) to the synchronizing photodiode (8), which is placed against the openings of the modulation disc (2), on whose opposite side the illuminating light-emitting diode (7) is placed.<IMAGE>

Description

The present invention relates to an apparatus for measuring attenuation of an optical fiber as it is drawn.

The prior art devices are based on a simple A / D converter and are not able to compensate for the thermal instability of the detection diode and its related DC amplifiers.

The disadvantage of the existing solutions is primarily the instability of the detection photodiode and the related DC amplifiers, whose temperature changes during the process of pulling out one optical preform, which lasts for several hours, significantly impair the measured results. As a result, only gross changes in the attenuation of the produced fiber can be registered and the data obtained are for informational purposes only.

The above-mentioned drawbacks eliminate the optical fiber attenuation measuring device according to the invention, which is characterized in that the detection photodiode placed against the holes of the modulating disk formed around its periphery is connected via the attenuator to the first input of the measuring sampling amplifier connected by its output to the first input of the differential amplifier and to the first input of the calibration sampling amplifier, the output of which is connected to the second input of the differential amplifier, the output of which is connected via the A / D converter to the display unit and calibration LED, connected to the third output of the frequency control panel, the second output of which is connected to the second input of the measuring sampling amplifier and the first output to the second input of the calibration sampling amplifier, output on a drive wheel and the modulation input of frequency synthesizer is connected through an amplifier to synchronization photodiode positioned opposite the openings of the modulation wheel, on the opposite side of the illuminant LED.

An advantage of the device according to the invention lies in the fact that long-term fluctuations of the sensing photodiode and the related DC amplifiers are also excluded in this way. The use of a reference channel that captures the brightness of the calibration LED on the sampling amplifier at the moment of the optical fiber eclipse by the modulation disc ensures that thermal instability of the entire sensing chain is avoided. Another advantage of this device is the possibility of indicating the brightness of the fiber on the panel display, by means of an A / D converter, without the presence of a superior microcomputer.

An exemplary embodiment of the device according to the invention is shown in the accompanying drawing, representing a schematic sketch of the mechanical part of the device and a block diagram of a measuring device.

The light emerging from the end of the optical fiber 6 is modulated by a modulating disk 6 in which openings are formed at the periphery and which is controlled by the drive 6. The modulated light is sensed by a detection photodiode ‘, the output of which is connected via the attenuator 5 to the input of the sampling amplifier 60 and further to the input of the calibration sampling amplifier 60. The output of the calibration sampling amplifier 10 is applied to the first input of the differential amplifier 62, to the second input of which the output of the measurement sampling amplifier 6 is connected. The output of the differential amplifier 12 is connected to the output terminal 22 and to the A / 0 converter 83, the output of which is coupled to the input of the display unit 14. The control panel 11 is controlled by a signal of the synchronization photodiode 13, illuminated by the LED 6 and connected to the amplifier 86. The frequency control panel 11 controls the sampling time of both the sampling amplifiers 9 and 10, the flashing of the calibration LED 6 and the motor 6. The attenuator 6 is placed in front of the measuring sampling amplifier 6 to increase the measurement dynamics.

Claims (1)

Apparatus for measuring attenuation of an optical fiber as it is drawn, comprising a detection photodiode for sensing the optical fiber light, an attenuator and an amplifier, characterized in that the detection photodiode (4) positioned against the apertures of the modulation disc (2) is formed is connected via the attenuator (5) to the first input of the measuring sampling amplifier (9) connected to its output to the first input of the differential amplifier (12) and to the first input of the calibration sampling amplifier (10) connected to the second input of a differential amplifier (12), the output of which is connected both via an A / D converter (13) to the display unit (14) and also to an output terminal (15), and the detection photodiode (4) is equipped with a calibration LED (3) connected to a third output of the frequency exchange (11), the second output of which is connected to the second input of the meter The first output to the second input of the calibration sampling amplifier (10), the fourth output to the drive (6) of the modulation disk (2) and the input of the frequency exchange (11) are connected via the amplifier (16) to the sync photodiode (0). ), located opposite the openings of the modulating disk (2), on the opposite side of which there is an illuminating LEO diode (7).