- Most suitable option for CSU-W1 illumination uniformity
- Uniform and efficient illumination of the entire wide field of view
- Upgrade your CSU-W1 on site
- Compatible with super-resolution, CSU-W1 SoRa
Principles of illumination uniformity
The Gaussian beam emitted from the fiber is converted into parallel light by a collimator lens (1).
The parallel light is split int o multiple square light beams by the 1st square microlens array (2).
The separated light beams pass through the 2nd square microlens array (3) and a F ourier lens (4), then the beams are superimposed (5).
At this time, the ob tained brightness can be made uniform by superimposing different brightness distributions. The laser can also be used more efficiently by superimposing the light so that it matches the FOV of CSU-W1.
Product specification
| Product specifications | ||||
|---|---|---|---|---|
| Name | Uniformizer | |||
| Loadable model | CSU-W1(1 camera model, 2 camera model, Split view model) CSU-W1 SoRa(1 camera model, 2 camera model, Split view model) |
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| Excitation wavelength | 405nm ~ 647nm | |||
| Laser introduction | This option cannot be configured with NIR port(685nm ~ 785nm). | |||
| External light path | This option cannot be configured with External light path. | |||
| External dimensions | Main unit : 510(W)×540(L)×252(H)mm Option unit : 416(W)×71(L)×144.5(H)mm(excl. cover and mounting screws) |
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| Weight | Main unit : 28kg Option unit : 4.83kg |
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Brochure : Download
Overview : Confocal scanner unit CSU-W1
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