įig 7: Pattern String Editor used to edit the jitter patterns and the number of sequence sweeps. Users have the ability to load their own patterns in this component.įig 6: The strings of an implemented compliance jitter pattern in the Compliance Test Patterns Component. The component also allows users to edit these patterns by adding different bytes and the number of times each sequence is repeated as shown in Fig. The default patterns implemented in the component are the CJTPAT, CRPAT, and CSPAT as shown in Fig. The Compliance Test Patterns component can be used to create standard compliance jitter patterns for testing tolerances of different photonic devices. 5 illustrates the transmission and reflection spectra of the FBG sensor when changing temperature between 10 and 50 degrees Celsius.įig 4: Schematic layout used for temperature sensing of FBG Sensor component.įig 5: Transmission and reflection spectral characteristic of the FBG Sensor component used to sense temperature variation. 4 shows the schematic diagram used to sense the temperature variation of an FBG Sensor component. The component can also be used for synthesizing measured data of an FBG in the field to find its physical parameters. The FBG Sensor allows users to design the fiber Bragg grating (FBG), according to the actual physical parameters provided by the vendor, to perform temperature, stress and strain sensing. įig 3: Locations of the vibrations in a 100m SMF. The Phi-OTDR interrogator analyzes the collected Rayleigh backreflected signal of the SMF and displays the frequency of the vibration(s) and location of each vibration as shown in figures 2 and 3.įig 1: Project layout concept of an optical vibration sensor using Phi-OTDR.įig 2: Calculated vibration frequencies in a 100m SMF. 1 illustrates a project layout of the Phi-OTDR and Phi-OTDR Interrogator used to measure three vibrations (100Hz, 400Hz, and 600Hz) located at different positions (20m, 40m, and 60m) of a 100m single mode fiber (SMF). These components can be used to sense multiple vibrations and interrogate measured the Rayleigh back-reflected signal of a fiber experiencing single or multiple vibrations at different locations. The Phi-OTDR and Phi-OTDR Interrogator components are added to OptiSystem 16.0 Sensors Library.
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