Hamamatsu Photonics: Difference between revisions
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== Image intensifiers == | == Image intensifiers == | ||
Hamamatsu mostly manufactures intensifier tubes for scientific purposes, but also image intensifiers for use in night vision devices. Gen2+ and Gen3<ref>https://www.hamamatsu.com/eu/en/product/optical-sensors/image-sensor/image-intensifier.html</ref>. Hamamatsu currently develops two image intensifiers with power supplies included, the V6833P and the V7090P with a -G option for the 6833 for Autogating.<ref>https://www.hamamatsu.com/content/dam/hamamatsu-photonics/sites/documents/99_SALES_LIBRARY/etd/V6833P_V7090P_TII1060E.pdf</ref> | Hamamatsu mostly manufactures intensifier tubes for scientific purposes, but also image intensifiers for use in night vision devices. Gen2+ and Gen3<ref>https://www.hamamatsu.com/eu/en/product/optical-sensors/image-sensor/image-intensifier.html</ref>. Hamamatsu currently develops two image intensifiers with power supplies included, the V6833P and the V7090P with a -G option for the 6833 for Autogating.<ref>https://www.hamamatsu.com/content/dam/hamamatsu-photonics/sites/documents/99_SALES_LIBRARY/etd/V6833P_V7090P_TII1060E.pdf</ref> | ||
[[File:V6833P Image Intensifier Tube.png|thumb|V6833P Image Intensifier Tube]] | [[File:V6833P Image Intensifier Tube.png|thumb|V6833P Image Intensifier Tube]] | ||
Revision as of 12:18, 5 May 2023
Hamamatsu Photonics K.K. is a Japanese manufacturer of optical sensors, electric light sources, and other optical devices and their applied instruments for scientific, technical and medical use.
Image intensifiers
Hamamatsu mostly manufactures intensifier tubes for scientific purposes, but also image intensifiers for use in night vision devices. Gen2+ and Gen3[1]. Hamamatsu currently develops two image intensifiers with power supplies included, the V6833P and the V7090P with a -G option for the 6833 for Autogating.[2]
V6833P(-G)
| Parameter | V6833P/V6388P-G/V7090P | Unit |
|---|---|---|
| Input Voltage | +2 to +3 | V |
| Max. Input Voltage | +3.5 | V |
| Max. Input Current | 35 | V |
| Spectral Response | 370 to 920 | nm |
| Wavelength of Peak Response | 600 to 750 | nm |
| Photocathode Material | GaAs | -- |
| Photocathode Minimum Effective Diameter | 17.5 | mm |
| Input Window Material | Boroscilicate Glass | -- |
| Input Window Thickness | 5.5 | mm |
| Input Window Index of Refraction (@588nm) | 1.49 | -- |
| Stages of MCP | 1 | -- |
| Phosphor Screen Material | P43 | -- |
| Phosphor Screen Minimum Effective Diameter | 17.5 | mm |
| Output Window Material | V6833P/P-G: Inverting Concave Fiber Optic Plate
V7090: Strait Concave Fiber Optic Plate |
-- |
| Case Material | POM | -- |
| Weight | V6833: Approx 80
V7090: Approx 85 |
g |
| Photocathode Sensitivity (Typical) | Luminous: 1500 | uA/lm |
| Radiant: 170 | mA/W | |
| Quantum Efficiency: 30 | % | |
| Luminous Gain (Typical) | 4.0 x 10^4 | (lm/m^2)/lx |
| EBI (Typical) | 1.0 x 10^-11 | lm/cm^2 |
| Limiting Resolution (Typical) | 64 | Lp/mm |
V7090P
| Parameter | V6833P/V6388P-G/V7090P | Unit |
|---|---|---|
| Input Voltage | +2 to +3 | V |
| Max. Input Voltage | +3.5 | V |
| Max. Input Current | 35 | V |
| Spectral Response | 370 to 920 | nm |
| Wavelength of Peak Response | 600 to 750 | nm |
| Photocathode Material | GaAs | -- |
| Photocathode Minimum Effective Diameter | 17.5 | mm |
| Input Window Material | Boroscilicate Glass | -- |
| Input Window Thickness | 5.5 | mm |
| Input Window Index of Refraction (@588nm) | 1.49 | -- |
| Stages of MCP | 1 | -- |
| Phosphor Screen Material | P43 | -- |
| Phosphor Screen Minimum Effective Diameter | 17.5 | mm |
| Output Window Material | V6833P/P-G: Inverting Concave Fiber Optic Plate
V7090: Strait Concave Fiber Optic Plate |
-- |
| Case Material | POM | -- |
| Weight | V6833: Approx 80
V7090: Approx 85 |
g |
| Photocathode Sensitivity (Typical) | Luminous: 1500 | uA/lm |
| Radiant: 170 | mA/W | |
| Quantum Efficiency: 30 | % | |
| Luminous Gain (Typical) | 4.0 x 10^4 | (lm/m^2)/lx |
| EBI (Typical) | 1.0 x 10^-11 | lm/cm^2 |
| Limiting Resolution (Typical) | 64 | Lp/mm |
