RU72086U1 - FIBER OPTICAL SOVA PROTECTION SYSTEM - Google Patents

Abstract

Fiber-optic security system containing a serially connected power supply unit, an optical emitter, characterized in that a serially connected input unit, a distribution sensitive element, a spatial filter, an optical radiation receiving unit, a processing unit, the output of the optical emitter are connected to the input of the input unit.

Description

The utility model relates to non-destructive testing, to the technology of security systems - perimeter security.

Currently, about a dozen different types and designs of fiber optic pressure sensors are proposed, but none of them can be given unconditional preference.

The system is based on recording external influences on a multimode optical cable on the practical use of interference phenomena in an optical cable.

This security system is based on the fact that optical radiation creates a sequence of weakly coherent optical pulses in a fiber optic cable. A fiber optic cable is a sensitive element of the system, which, as part of the detector, responds to movement, vibration, and deformation along its entire length. Carry out mechanical contact of the cable with the fence or protected surface. Due to the high mechanical strength of the optical cable, its small size, high resistance to vibration and mechanical shock, widespread use of fiber optic cable both indoors and outdoors, or around the perimeter. As a sensor, a multimode optical fiber of the "gradient" type is used, containing a core and a sheath.

Functional diagram of the device of figure 1 contains:

Power supply 1, optical emitter 2, input unit 3, distribution sensitive element (optical sensor cable) 4, spatial filter 5, optical radiation receiving unit 6, processing unit 7.

Fiber optic security system operates as follows. Using an input unit 3, an optical emitter creates a sequence of weakly coherent optical pulses in a fiber optic cable 4. An LED is used as an optical emitter for short cable lengths. For lengths over 70 m - a semiconductor laser. Infrared radiation propagates through the sensor optical cable and is recorded by the optical radiation receiving unit 6. At the input of this unit, a spatial filter 5 is installed to effectively receive the change in the speckle pattern and converting the optical signal into electrical. The processing unit compares the received signal with a reference, which corresponds to the undisturbed state of the sensor. And it detects displacements, vibrations or deformations of the cable that occur when you touch it, giving an alarm.

The device is industrially applicable and incorporates blocks made according to standard technologies.

Claims (1)

Fiber-optic security system containing a serially connected power supply unit, an optical emitter, characterized in that a serially connected input unit, a distribution sensitive element, a spatial filter, an optical radiation receiving unit, a processing unit, the output of the optical emitter are connected to the input of the input unit.