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Scientific Cameras

Deep Cooled UV/Vis/NIR

TE and cryogenically cooled CCD and EMCCD scientific cameras for ultra sensitivity from 200 nm to 1100 nm

HORIBA Scientific offers a complete line of spectroscopic multi-channel detectors for scientific research. For spectral detection from UV to near-IR, two dimensional CCDs and indium gallium arsenide linear arrays offer a faster acquisition option over single point detectors with relatively high sensitivity. Coupled with HORIBA’s range of aberration corrected, flat field imaging spectrographs, custom spectroscopy packages can be assembled for a variety of applications.

SegmentScientific
Manufacturing CompanyHORIBA Scientific

CCDs

Quantum Efficiency by type of CCD

*OE- open electrode, FIUV- front illuminated UV enhanced, FIVS- front illuminated visible, BIUV- back illuminated UV enhanced, BIVS- back illuminated visible, BIDD- back illuminated deep depletion

Selection of all HORIBA Spectroscopy CCD’s

 

Cooling Type* Peak QE Array Dimension Pixel Size
Syncerity
Syncerity Spectroscopy Camera
TE -60°C OE 58% 1024 x 256 26µm x 26µm
TE -50°C BI UV-VIS 78% 2048 x 70 14µm x 14µm
SynapsePlus

High Speed CCD

TE -80°C
-95°C with optional external cooling
OE 56% 1024 x 256 26µm x 26µm
FIVS 47% 2048 x 512 13.5µm x 13.5µm
FIUV 48% 2048 x 512 13.5µm x 13.5µm
BIVS 95% 1024 x 256
2048 x 512
26µm x 26µm
13.5µm x 13.5µm
BIUV 75% 1024 x 256
2048 x 512
26µm x 26µm
13.5µm x 13.5µm
BIDD <90% 1024 x 256 26µm x 26µm
Synapse CCD
TE -75°C
-95°C with optional external cooling
FIVS 56% 512 x 512 24µm x 24µm
BIVS 95% 512 x 512 24µm x 24µm
BIUV 75% 512 x 512 24µm x 24µm
Symphony II CCD
LN2-133°C OE 58% 1024 x 256 26µm x 26µm
FIVS 56% 1024 x 256
2048 x 512
26µm x 26µm
13µm x 13µm
FIUV 58% 1024 x 256
2048 x 512
26µm x 26µm
13µm x 13µm
BIVS 95% 1024 x 256
2048 x 512
26µm x 26µm
13µm x 13µm
BIUV 75% 1024 x 256
2048 x 512
26µm x 26µm
13µm x 13µm
BIDD 95% 1024 x 256 26µm x 26µm
scrollable

*OE- open electrode, FIUV- front illuminated UV enhanced, FIVS- front illuminated visible, BIUV- back illuminated UV enhanced, BIVS- back illuminated visible, BIDD- back illuminated deep depletion

UV-VIS-NIR EMCCDs

Quantum Efficiency by type of EMCCD

*FIUV- front illuminated UV enhanced, FIVS- front illuminated visible, BIUV- back illuminated UV enhanced, BIVS- back illuminated visible, BIDD- back illuminated deep depletion

Selection of Synapse EMCCDs

Cooling Type* Peak QE Array Dimension Pixel Size
Synapse EMCCD
TE -60°C
-75°C with optional external cooling
FIVS 49% 1600 x 200
1600 x 400
16µm x 16µm
FIUV 49% 1600 x 200
1600 x 400
16µm x 16µm
BIVS 95% 1600 x 200
1600 x 400
16µm x 16µm
BIUV 95% 1600 x 200
1600 x 400
16µm x 16µm
BIDD 92% 1600 x 200 16µm x 16µm
scrollable

 

*OE- open electrode, FIUV- front illuminated UV enhanced, FIVS- front illuminated visible, BIUV- back illuminated UV enhanced, BIVS- back illuminated visible, BIDD- back illuminated deep depletion

Near-IR InGaAs linear arrays

Quantum Efficiency by Type of InGaAs

Cooling Wavelength Array Dimension Element Size
Synapse InGaAs
TE -60°C
-75°C with optional
external coolingView Spec Sheet

 

800-1650 nm 512 x 1
512 x 1
1024 x 1
25µm x 500µm
50µm x 500µm
25µm x 500µm
1050-2100 nm 512 x 1
512 x 1
1024 x 1
25µm x 250µm
50µm x 250µm
25µm x 250µm
Symphony II InGaAs
LN2-103°C

View Spec Sheet

800-1600 nm 512 x 1
512 x 1
1024 x 1
25µm x 500µm
50µm x 500µm
25µm x 500µm
1000-2050 nm 512 x 1
512 x 1
1024 x 1
25µm x 250µm
50µm x 250µm
25µm x 250µm

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