Multi-channel Spectroscopy Detectors
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.
Spectroscopy EMCCD Camera
EMCCD Camera | EMCCD Sensor | Active pixels | Pixel-size | Output node well capacity (e-) | Register Well Depth | Non-linearity | Dark Current @ -60°C |
---|---|---|---|---|---|---|---|
Synapse EM | Front-illuminated, Back-illuminated, Scientific Grade 1 |
1600 × 200 1600 × 400 |
16 μm × 16 μm | 300,000 (high sensitivity) 1,300,000 (Electron Multiplying) |
450,000 (high sensitivity) 800,000 (Electron Multiplying) |
< 0.75% | <0.0025(FI) <0.015(BI) |
Scientific CCD Camera
Spectroscopy CCD Camera | CCD format | Pixel size | Typical Readout Noise | Max-Readout Noise | Pixel Well Capacity | Register Well Capacity | Typical Dark Current |
---|---|---|---|---|---|---|---|
Synapse BIUV | 512x512, back-illuminated, UV-coated, Scientific Grade 1 |
24 µm x 24 µm | 20 kHz: 3.5 e-rms 1 MHz: 15 e-rms |
20 kHz: 6 e-rms 1 MHz: 20 e-rms |
300 ke- (min) 350 ke-(typical) |
1000 ke- | 0.004 e-/pixel/s |
Synapse BIVS | 512x512, back-illuminated, Scientific Grade 1 |
24 µm x 24 µm | 20 kHz: 5 e-rms 1 MHz: 20 e-rms |
20 kHz: 8 e-rms 1 MHz: 25 e-rms |
300 ke- (min) 350 ke-(typical) |
1000 ke- | 0.004 e-/pixel/s |
Synapse FIVS | 512x512, front-illuminated, Scientific Grade 1 |
24 µm x 24 µm | 20 kHz: 3.5 e-rms 1 MHz: 20 e-rms |
20 kHz: 6 e-rms 1 MHz: 25 e-rms |
300 ke- (min) 350 ke-(typical) |
1000 ke- | 0.002 e-/pixel/s |
Spectroscopy CCD Camera | CCD Format | Pixel size | Typical Readout Noise | Max-Readout Noise | Pixel Well Capacity | Register Well Capacity | Dark Current |
---|---|---|---|---|---|---|---|
Symphony II BIDD | 1024 x 256, back-illuminated, deep-depletion, Scientific Grade 1 |
26 µm x 26 µm | 20 kHz: 4 e-rms 1 MHz: 20 e-rms |
20 kHz: 6 e-rms 1 MHz: 20 e-rms |
400 ke- (min) 700 ke-(typical) |
1000 ke- | 2 e-/pixel/h (typical) |
Symphony II BIUV | 1024 x 256, back-illuminated, UV-coated, Scientific Grade 1 |
26 µm x 26 µm | 20 kHz: 5 e-rms 1 MHz: 20 e-rms |
20 kHz: 8 e-rms 1 MHz: 20 e-rms |
300 ke- (min) 500 ke-(typical) |
1000 ke- | 1 e-/pixel/h (typical) |
Symphony II BIUV | 2048 x 512, back-illuminated, UV-coated, Scientific Grade 1 |
13.5 µm x 13.5 µm | 20 kHz: 3 e-rms 1 MHz: 13 e-rms |
20 kHz: 4 e-rms 1 MHz: 15 e-rms |
150 ke- (min) 250 ke-(typical) |
1000 ke- | 0.5 e-/pixel/h (typical) |
Symphony II BIVS | 1024 x 256, back-illuminated, Scientific Grade 1 |
26 µm x 26 µm | 20 kHz: 5 e-rms 1 MHz: 20 e-rms |
20 kHz: 8 e-rms 1 MHz: 20 e-rms |
300 ke- (min) 500 ke-(typical) |
1000 ke- | 1 e-/pixel/h (typical) |
Symphony II BIVS | 2048 x 512, back-illuminated, Scientific Grade 1 |
13.5 µm x 13.5 µm | 20 kHz: 3 e-rms 1 MHz: 13 e-rms |
20 kHz: 4 e-rms 1 MHz: 15 e-rms |
150 ke- (min) 250 ke-(typical) |
1000 ke- | 0.5 e-/pixel/h (typical) |
Symphony II FIOE | 1024 x 256, front-illuminated open electrode, Scientific Grade 1 |
26 µm x 26 µm | 20 kHz: 3.4 e-rms 1 MHz: 12 e-rms |
20 kHz: 5 e-rms 1 MHz: 15 e-rms |
200 ke- (min) 450 ke-(typical) |
1000 ke- | 0.5 e-/pixel/h (typical) |
Symphony II FIUV | 1024 x 256, front-illuminated open electrode, UV-coated, Scientific Grade 1 |
26 µm x 26 µm | 20 kHz: 3.4 e-rms 1 MHz: 15 e-rms |
20 kHz: 5 e-rms 1 MHz: 20 e-rms |
350 ke- (min) 500 ke-(typical) |
1000 ke- | 0.3 e-/pixel/h (typical) |
Symphony II FIUV | 2048 x 512, front-illuminated open electrode, UV-coated, Scientific Grade 1 |
13.5 µm x 13.5 µm | 20 kHz: 2 e-rms 1 MHz: 13 e-rms |
20 kHz: 4 e-rms 1 MHz: 15 e-rms |
150 ke- (min) 250 ke-(typical) |
1000 ke- | 0.5 e-/pixel/h (typical) |
Symphony II FIVS | 2048 x 512, front-illuminated open electrode, UV-coated, Scientific Grade 1 |
13.5 µm x 13.5 µm | 20 kHz: 2 e-rms 1 MHz: 13 e-rms |
20 kHz: 4 e-rms 1 MHz: 15 e-rms |
150 ke- (min) 250 ke-(typical) |
1000 ke- | 0.5 e-/pixel/h (typical) |
Symphony II FIVS | 1024 x 256, front-illuminated open electrode, UV-coated, Scientific Grade 1 |
26 µm x 26 µm | 20 kHz: 3.4 e-rms 1 MHz: 15 e-rms |
20 kHz: 5 e-rms 1 MHz: 20 e-rms |
350 ke- (min) 500 ke-(typical) |
1000 ke- | 0.3 e-/pixel/h (typical) |
Linear InGaAs Array Scientific CCD Camera
Linear InGaAs to 1700 nm
Linear InGaAs Array | IGA format | Element size | Array-size | Readout Noise | Full Well Capacity | Dark Current | Gain (normal) |
---|---|---|---|---|---|---|---|
Synapse Linear InGaAs Array | 512 x 1 | 25 μm x 500 μm | 12.8 mm | High Gain: 0.5 – 0.7 ke- rms Low Gain: 5-7 ke- rms |
High Gain: 5 Me- Low Gain:130 Me |
32 ke-/p/s (@-60°C) 11 ke-/p/s (@-75°C) |
High Gain: 58 e-/count Low Gain:1545 e-/count |
Synapse Linear InGaAs Array | 512 x 1 | 50 μm x 500 μm | 25.6 mm | High Gain: 0.5 – 0.7 ke- rms Low Gain: 5-7 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
56 ke-/p/s (@-60°C) 18 ke-/p/s (@-75°C) |
High Gain: 58 e-/count Low Gain:1545 e-/count |
Synapse Linear InGaAs Array | 1024 x 1 | 25 μm x 500 μm | 25.6 mm | High Gain: 0.5 – 0.7 ke- rms Low Gain: 5-7 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
45 ke-/p/s (@-60°C) 15 ke-/p/s (@-75°C) |
High Gain: 58 e-/count Low Gain:1545 e-/count |
Symphony II Linear InGaAs Array | 512 x 1 | 25 μm x 500 μm | 12.8 mm | High Gain: 0.5 – 0.8 ke- rms Low Gain: 5-8 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
3 ke-/p/s (@-103°C) | High Gain: 58 e-/count Low Gain:1545 e-/count |
Symphony II Linear InGaAs Array | 512 x 1 | 50 µm x 500 µm | 25.6 mm | High Gain: 0.5 – 0.8 ke- rms Low Gain: 5-8 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
7 ke-/p/s (@-103°C) | High Gain: 58 e-/count Low Gain:1545 e-/count |
Symphony II Linear InGaAs Array | 1024 x 1 | 25 µm x 500 µm | 25.6 mm | High Gain: 0.5 – 0.8 ke- rms Low Gain: 5-8 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
4 ke-/p/s (@-103°C) | High Gain: 58 e-/count Low Gain:1545 e-/count |
Linear extended InGaAs to 2200 nm
Linear InGaAs Array | IGA format | Element size | Array-size | Readout Noise | Full Well Capacity | Dark Current | Gain (normal) |
---|---|---|---|---|---|---|---|
Synapse Linear InGaAs Array | 512 x 1 | 25 μm x 500 μm | 12.8 mm | High Gain: 0.5 – 0.7 ke- rms Low Gain: 5-7 ke- rms |
High Gain: 5 Me- Low Gain:130 Me |
10 Me-/p/s (@-60°C) 3 Me-/p/s (@-75°C) |
High Gain: 58 e-/count Low Gain:1545 e-/count |
Synapse Linear InGaAs Array | 512 x 1 | 50 μm x 500 μm | 25.6 mm | High Gain: 0.5 – 0.7 ke- rms Low Gain: 5-7 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
16 Me-/p/s (@-60°C) 5 Me-/p/s (@-75°C) |
High Gain: 58 e-/count Low Gain:1545 e-/count |
Synapse Linear InGaAs Array | 1024 x 1 | 25 μm x 500 μm | 25.6 mm | High Gain: 0.5 – 0.7 ke- rms Low Gain: 5-7 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
14 Me-/p/s (@-60°C) 5 Me-/p/s (@-75°C) |
High Gain: 58 e-/count Low Gain:1545 e-/count |
Symphony II Linear InGaAs Array | 512 x 1 | 25 μm x 500 μm | 12.8 mm | High Gain: 0.5 – 0.8 ke- rms Low Gain: 5-8 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
2 Me-/p/s (@-103°C) | High Gain: 58 e-/count Low Gain:1545 e-/count |
Symphony II Linear InGaAs Array | 512 x 1 | 50 µm x 500 µm | 25.6 mm | High Gain: 0.5 – 0.8 ke- rms Low Gain: 5-8 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
2 Me-/p/s (@-103°C) | High Gain: 58 e-/count Low Gain:1545 e-/count |
Symphony II Linear InGaAs Array | 1024 x 1 | 25 µm x 500 µm | 25.6 mm | High Gain: 0.5 – 0.8 ke- rms Low Gain: 5-8 ke- rms |
High Gain: 5 Me- Low Gain:130 Me- |
2 Me-/p/s (@-103°C) | High Gain: 58 e-/count Low Gain:1545 e-/count |
High Speed Scientific CCD Camera
High Speed Scientific CCD Camera | Sensor | Active pixels | Pixel-size | Image area | Pixel-well depth (e-) | Register-well depth (e-) | Non-linearity |
---|---|---|---|---|---|---|---|
SynapsePlus OE | Front-Illuminated Open Electrode, Scientific Grade 1 | 1024 x 256 | 26 μm x 26 μm | 26.6 mm x 6.7 mm, 100% fill factor | 450,000 | 1,000,000 | < 0.40% |
SynapsePlus FVIS | Front-Illuminated Visible, Scientific Grade 1 | 2048 x 512 | 13.5 μm x 13.5 μm | 27.6 mm x 6.9 mm, 100% fill factor | 250,000 | 1,000,000 | < 0.40% |
SynapsePlus BIDD | Back-Illuminated Deep Depletion, Scientific Grade 1 | 2048 x 512 | 13.5 μm x 13.5 μm | 27.6 mm x 6.9 mm, 100% fill factor | 250,000 | 1,000,000 | < 0.40% |
SynapsePlus BIUV | Back-Illuminated UVcoated,Scientific Grade 1 | 2048 x 512 | 13.5 μm x 13.5 μm | 27.6 mm x 6.9 mm, 100% fill factor | 250,000 | 1,000,000 | < 0.40% |
SynapsePlus BIUV | Back-Illuminated UVcoated,Scientific Grade 1 | 1024 x 256 | 26 μm x 26 μm | 26.6 mm x 6.7 mm, 100% fill factor | 500,000 | 1,000,000 | < 0.40% |
SynapsePlus BIVS | Back-Illuminated (BIVS),Scientific Grade 1 | 1024 x 256 | 26 μm x 26 μm | 26.6 mm x 6.7 mm, 100% fill factor | 500,000 | 1,000,000 | < 0.40% |
SynapsePlus BIVS | Back-Illuminated (BIVS),Scientific Grade 1 | 2048 x 512 | 13.5 μm x 13.5 μm | 27.6 mm x 6.9 mm, 100% fill factor | 250,000 | 1,000,000 | < 0.40% |
SynapsePlus FIUV | Front-Illuminated UV-coated, Scientific Grade 1 | 2048 x 512 | 13.5 μm x 13.5 μm | 27.6 mm x 6.9 mm, 100% fill factor | 250,000 | 1,000,000 | < 0.40% |
Scientific Deep-cooled Camera
Scientific Deep-cooled Camera | Sensor Format | Quantum efficiency @ 20°C | Pixel-size | Image area | Single pixel well capacity | Serial register full well capacity | Maximum spectral rate |
---|---|---|---|---|---|---|---|
Syncerity™ | 1024 × 256 | 27% at 250nm 31% at 300nm 42% at 550nm
58% at 750nm 55% at 800nm 12% at 1,000nm |
26 μm × 26 μm | 26.6mm × 6.7mm | 200,000 e¯/pixel (min) | 1,000,000 e¯/pixel(typical output) | 27Hz at 45 kHz scan rate 278Hz at 1 MHz scan rate |
Syncerity™ BI UV-Vis | 2048 × 70 | 63% at 245 nm; 64% at 300 nm; 68% at 400 nm
76% at 500 nm; 77% at 700 nm; 64% at 800 nm |
14 μm × 14 μm | 28.7 mm × 0.98 mm | 50000 e¯/pixel (min); 60000 e¯/pixel (typical) | 250 000 e¯/pixel (min)
500 000 e¯/pixel (typical output) |
20 Hz at 45 kHz scan rate 189 Hz at 500 kHz scan rate |
*Pictures shown above are for reference only. Actual product may differ slightly.
**Some products may not be available in all countries. Please contact us for further information and clarification. |
Don't have what you are looking for?
Search Here. Alternatively, please contact us for more information.
|