OCI™-D Airborne VIS-NIR Hyperspectral Imager

OCI™(“All Seeing Eye”) with the extended wavelength range OCI™-D, covers full VIS-NIR wavelength range 475-975 nm. OCI-D2000 as a snapshot hyperspectral imager fundamentally eliminates artifacts caused by motions during flight. These innovations significantly reduce the requirements on UAV system, so that integration is almost effortless for many UAV/ROVs. Offering up to 40 bands with 500 x250 pixels and 12-15 nm resolution with video rate speed, the OCI-D2000 is truly a unique hyperspectral imager.

Included with BaySpec’s SpecGrabber™ for camera control and data acquisition, and CubeCreator™ for hyperspectral data processing. Ideal for precision agriculture, environmental conservancy, geological surveys, ecosystem studies, and more.

 

Key Specs
Model OCI-D2000
Wavelength Range 475-975 nm
Operation Mode Snapshot
Weight ~ 1.4 lb. (540 g) (including standard lenses)
Data Interface USB 3.0 (up to 50 fps)
Ready to fly solution provided with UAV and imager gimbal

 

 

 

For more information contact sales@bayspec.com or +1(408)512-5928.

FBG Interrogation Analyzer

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Devices interrogate multiple wavelengths for precise FBG sensor-system strain or temperature measurements. They are now widely deployed in coal mine safety systems, oil and gas down-hole drilling, electrical power grid-monitoring systems, fire prevention systems, power plant monitoring systems, wind turbine monitoring, defense and homeland security systems, structural health monitoring systems, and many other applications.

The WaveCapture™ Series employ a highly efficient Volume Phase Grating (VPG®) as the spectral dispersion element, and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurements. A fiber optic input is provided based on customer’s preference. Both the raw data and the processed data are available to the host.

FBGA-IRS Analyzer

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Devices interrogate multiple wavelengths for precise FBG sensor-system strain or temperature measurements. They are now widely deployed in coal mine safety systems, oil and gas down-hole drilling, electrical power grid-monitoring systems, fire prevention systems, power plant monitoring systems, wind turbine monitoring, defense and homeland security systems, structural health monitoring systems, and many other applications.

The WaveCapture™ Series employ a highly efficient Volume Phase Grating (VPG®) as the spectral dispersion element, and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurements. A fiber optic input is provided based on customer’s preference. Both the raw data and the processed data are available to the host.

FBGA Systems

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The device covers a wide wavelength range and provides simultaneous measurements at very fast response rates with excellent wavelength resolution.  High reliability is achieved through a rugged mechanical design with no moving parts.  Periodic calibration is not required.  High speed input/output (I/O) is achieved through the use of USB 2.0 communication interface.

The WaveCapture™ FBGA system’s core spectral engine employs a highly efficient volume phase grating (VPG®) as the spectral dispersion element and an ultra-sensitive InGaAs array detector as the detection element, allowing high-speed parallel processing and continuous spectral measurement.

Optical Channel Performance Monitors (OCPM, OCM, OPM)

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The device covers C- and L-band wavelength ranges and provides simultaneous measurement of up to 160 channels spaced 50 GHz apart. High reliability (GR-63/1209/1221 qualified) is achieved through a rugged mechanical design with no moving parts. Periodic calibration is not required. Input/output (I/O) is provided through a dual port RAM interface accessed through ADD/DAT bus direct connection or serial (RS232 or USB) communications.

The OCPM Wideband employs a highly efficient volume phase grating (VPG®) as the spectral dispersion element and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurement. As an input, the device uses a tapped signal from the main data transmission link through a single mode fiber, then collimates it with a micro lens. The signal is spectrally dispersed with the VPG®, and the diffracted field is focused onto an InGaAs array detector. The control electronics read out the processed digital signal to extract required information. Both the raw data and the processed data are available to the host through the chosen interface.

Optical Channel Performance Monitors (OCPM, OCM, OPM) – CWDM

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CWDM covers the full 18 channel ITU-T G.695 standard. CWDM technology uses fixed 20 nm spacing between the wavelengths, from 1310nm to 1610nm. High reliability (GR-1209/1221 qualified) is achieved through a rugged mechanical design with no moving parts. Periodic calibration is not required. Input/output (I/O) is provided through a dual port RAM interface accessed through ADD/DAT bus direct connection or serial (RS232 or USB) communications.

The OCPM CWDM employs a highly efficient volume phase grating (VPG®) as the spectral dispersion element and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurement. As an input, the device uses a tapped signal from the main data transmission link through a single mode fiber, then collimates it with a micro lens. The signal is spectrally dispersed with the VPG®, and the diffracted field is focused onto an InGaAs array detector. The control electronics read out the processed digital signal to extract required information. Both the raw data and the processed data are available to the host through the chosen interface.

Optical Channel Performance Monitors (OCPM, OCM, OPM) – Thin

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The device covers C- and L- band wavelength ranges and provides simultaneous measurement of up to 160 channels spaced 50 GHz apart. High reliability (GR-1209/1221 qualified) is achieved through a rugged mechanical design with no moving parts.  Periodic calibration is not required.  Input/output (I/O) is provided through a dual port RAM interface accessed through ADD/DAT bus direct connection or serial (RS232 or USB) communications.

The OCPM Thin employs a highly efficient volume phase grating (VPG®) as the spectral dispersion element and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurement. As an input, the device uses a tapped signal from the main data transmission link through a single mode fiber, then collimates it with a micro lens. The signal is spectrally dispersed with the VPG®, and the diffracted field is focused onto an InGaAs array detector. The control electronics read out the processed digital signal to extract required information. Both the raw data and the processed data are available to the host through the chosen interface.

Optical Channel Performance Monitors (OCPM, OCM, OPM) – Wideband

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The device covers S-, C- and L- band wavelength ranges and provides simultaneous measurement at CWDM and DWDM wavelengths. High reliability (GR-1209/1221 qualified) is achieved through a rugged mechanical design with no moving parts.  Periodic calibration is not required.  Input/output (I/O) is provided through a dual port RAM interface accessed through ADD/DAT bus direct connection or serial (RS232 or USB) communications.

The OCPM Wideband employs a highly efficient volume phase grating (VPG®) as the spectral dispersion element and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurement. As an input, the device uses a tapped signal from the main data transmission link through a single mode fiber, then collimates it with a micro lens. The signal is spectrally dispersed with the VPG®, and the diffracted field is focused onto an InGaAs array detector. The control electronics read out the processed digital signal to extract required information. Both the raw data and the processed data are available to the host through the chosen interface.

Optical Spectrum Analyzer – C/L band

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The device covers C and/or L band wavelength ranges and provides simultaneous measurements of up to 160 channels spaced 50 GHz apart. High reliability (GR-1209/1221 qualified) is achieved through a rugged mechanical design with no moving parts. Periodic calibration is not required. Input/output (I/O) is provided through a dual port RAM interface accessed through ADD/DAT bus direct connection or serial (RS232 or USB) communications.

The IntelliGuard™ OSA employs a highly efficient volume phase grating (VPG®) as the spectral dispersion element and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurement. As an input, the device uses a tapped signal from the main data transmission link through a single mode fiber, then collimates it with a micro lens. The signal is spectrally dispersed with the VPG®, and the diffracted field is focused onto an InGaAs array detector. The control electronics read out the processed digital signal to extract required information. Both the raw data and the processed data are available to the host through the chosen interface.

Optical Spectrum Analyzer – CWDM

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CWDM combines up to 18 wavelengths into a single fiber. CWDM technology uses ITU standard 20 nm spacing between the wavelengths, from 1310 nm to 1610 nm. High reliability (GR-1209/1221 qualified) is achieved through a rugged mechanical design with no moving parts. Periodic calibration is not required. Input/output (I/O) is provided through a dual port RAM interface accessed through ADD/DAT bus direct connection or serial (RS232 or USB) communications.

The CWDM OSA employs a highly efficient volume phase grating (VPG®) as the spectral dispersion element and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurement. As an input, the device uses a tapped signal from the main data transmission link through a single mode fiber, then collimates it with a micro lens. The signal is spectrally dispersed with the VPG®, and the diffracted field is focused onto an InGaAs array detector. The control electronics read out the processed digital signal to extract required information. Both the raw data and the processed data are available to the host through the chosen interface.

Optical Spectrum Analyzer – Wideband

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The device covers S-, C- and L-band wavelength ranges and provides simultaneous measurements at CWDM and DWDM wavelengths. High reliability (GR-1209/1221 qualified) is achieved through a rugged mechanical design with no moving parts. Periodic calibration is not required. Input/output (I/O) is provided through a dual port RAM interface accessed through ADD/DAT bus direct connection or serial (RS232 or USB) communications.

The WOSA Series employs a highly efficient volume phase grating (VPG®) as the spectral dispersion element and an ultra-sensitive InGaAs array detector, thereby providing high-speed parallel processing and continuous spectral measurement. As an input, the device uses a tapped signal from the main data transmission link through a single mode fiber, then collimates it with a micro lens. The signal is spectrally dispersed with the VPG®, and the diffracted field is focused onto an InGaAs array detector. The control electronics read out the processed digital signal to extract required information. Both the raw data and the processed data are available to the host through the chosen interface.