OPTICAL MEASUREMENT SYSTEM SOLUTION
OPTICAL METHOD INSERTION LOSS MEASUREMENT SYSTEM
PRODUCT OVERVIEW
OPTICAL METHOD INSSERTION LOSS MEASUREMENT SYSTEM
This is optical method insertion loss measurement system using Synos' Optical Measurement Optics M-Scope type M.
By using a coaxial observation camera system equipped with M-Scope type M, it becomes possible to perform direct image observation of input and output end faces of the measured optical waveguide. While checking the observed core image of the optical waveguide, it is possible to directly introduce the measurement beam into the core and receive the beam emitted from the waveguide for measurement. In this way, insertion loss measurement similar to optical fiber alignment can be performed easily and quickly even when combined with a manual precision positioning stage. Best for manual insertion loss measurement of polymer waveguide module for OPCB substrate.
FEATURE
- Optical method insertion loss measurement using Synos' Compact-type optical measurement optics M-Scope type M6/M20
- Two types of optical magnification for observing the end face of the core are prepared: 6x(M-Scope type M6) and 20x(M-Scope type M20).
- These optics enable position adjustment of irradiation and detection of measurement light by observing the core image directly. These optics supports easy position alignment of measurement not only multi-mode waveguides but alos single-mode waveguides.
- Possible to measure insertion similar to conventional optical fiber alignment method easily.
- Light irradiation:Irradiate the core diameter of connected fiber onto the target sample surface with 1:1 magnification
- Light detection : Detect the light from the area of target sample surface equivalent to the core diameter of connected fiber with 1:1 magnification
- Various types of optical fibers can be used.
- In addition to loss measurement using optical power meter, spectral measurement by combining with optical spectrum analyzer, spectrometer is also available.
- Besides the combination with manual precise position stage, it can construct automatical alignment system with motorized stage system.
APPLICATION
- Insertion loss measurement for polymer optical waveguide module for OPCB substrate etc..
- Observation of output light and output edge condition of polymer optical waveguide module for OPCB substrate etc.
- Analysis of optical transmission characteristics of optical polymer optical waveguide module for OPCB substrate etc.
SYSTEM COMPONENT SELECTION
SYSTEM CONFIGURATION DIAGRAM
COMPONENT SELECTION
- Input side optics selection
- Compact type optical measurement optics
- M-Scope type M6(magnification x6)
- M-Scope type M20(magnification x20)
- Output side optics selection
- Compact type optical measurement optics
- M-Scope type M6(magnification x6)
- M-Scope type M20(magnification x20)
- Detector selection
- for 400~1100nm : High Resolution CMOS Detector ISA071/ISA071GL
- for 950~1700nm : InGaAs High Sensitivity NIR Detector ISA041H2
- for 400~1700nm : InGaAs High Resolution NIR Detector ISA041HRA/ISA041HRVA
- About optical sensor selection, please refer to here.
- Position stage selection
- Manual stage system (incident side, output side, sample adjustment)
- Please contact us for stage configuration and selection.
- System base, system platform
- Accessories, peripherals
- Sample holder (fixture)
- Measurement instruments (optical powermeter, etc.)
- Measurement light source (LD, SLD, ASE light source, etc.)
- Data analysis system (PC, peripherals, data analysis software, etc.)
- Anti-vibration table, shield box, system rack, etc.
- Configuration written above is a standard example, and we can deliver any configuration according to the applications.