Attenuating Mono Fiber-optic Patch Cords
Attenuating Mono Fiber-optic Patch Cords
Voici une description courte popur vouir ce que ca donne seulement... Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor
…generating
Fiber-optic patch cords with an integrated attenuating filter are ideal for applications where optical power coupled into a fiber is too high, i.e. fiber photometry excitation. Addition of attenuating filter does not affect light distribution inside the optical fiber, only transmission is reduced. Different optical fibers or attenuating factors are possible.
Notes:
- For attenuating patch cords, optical transmission is specified for visible light, and measured at a 465 nm wavelength. Please note that for a 405 nm wavelength (UV), the transmission value is about half of the specification for visible light.
- Other fiber-optic lengths and jackets are available on custom request.
- An attenuating filter can also be integrated to Branching Fiber-optic Patch cords on custom request.
| Comparison Table : Patch cord Optical Fiber Type | ||||
| Fiber-optic Material | Borosilicate | Silica/Silica | Silica/Polymer | Plastic |
| Core | Glass | Glass | Glass | Plastic |
| Cladding | Glass | Glass | Polymer | Polymer |
| Numerical Aperture | 0.66 | 0.22 - 0.37 | 0.48 - 0.57 | 0.50 - 0.63 |
| Flexibility | Poor | Good | Good | Excellent |
| Auto-Fluorescence | Good | Excellent | Good | Poor |
| RECOMMENDED USE : |
||||
| Fiber Photometry | N/A (too fragile) |
Good* | Good* | Not recommended (high AF) |
| Optogenetics LED Source | N/A (too fragile) |
Not recommended (low NA) |
Good | BEST |
| Optogenetics Laser Source | N/A (too fragile) |
BEST | Good | Good |
| Optical Transmission | 1 %, 2 %, 5 %, 10 % @ 465 nm |
| Core (μm) |
Cladding (μm) |
Buffer | NA | Fiber-optic Code* |
| 200 | 220 | 240 | 0.22 | 200/220/XXX-0.22 |
| 200 | 220 | 245 | 0.37 | 200/220/XXX-0.37 |
| 200 | 230 | 500 | 0.48 | 200/230/XXX-0.48 |
| 400 | 430 | 730 | 0.48 | 400/430/XXX-0.48 |
| 400 | 440 | 470 | 0.37 | 400/440/XXX-0.37 |
| 400 | 440 | 480 | 0.22 | 400/440/XXX-0.22 |
| Code | Description | Image | Drawings |
| FCM | FC Connector with Metal Ferrule |  |
|
| SMA | SMA Connector with Metal Ferrule |  |
| Comparison Table : Protective Jacket | |||||||||
| Composition | Code | Description | Color | OD (mm) |
Linear mass (g/m) |
Flexibility | Fiber break protection | Fiber pull protection | Proposed usage |
 |
LWMJ | Stainless monocoil with PVC 2.4 mm | Black | 2.4 | 7.5 | Good |
Good |
Good | Freely-moving animal light delivery with large mice or rat |
 |
PKMJ |
Stainless monocoil with kevlar and PUR 3.0 mm |
Black | 3.0 | 11 | Good |
Excellent |
Excellent | Best compromise between flexibility and robustness |
 |
ARBK | Stainless armor with PVC 3 mm | Black | 3.0 | 15 | Low | Excellent | Excellent | Preferred for maximum robustness |
Jacket availability may vary with optical fibre type
-
Fiber-optic patch cords with an integrated attenuating filter are ideal for applications where optical power coupled into a fiber is too high, i.e. fiber photometry excitation. Addition of attenuating filter does not affect light distribution inside the optical fiber, only transmission is reduced. Different optical fibers or attenuating factors are possible.
Notes:
- For attenuating patch cords, optical transmission is specified for visible light, and measured at a 465 nm wavelength. Please note that for a 405 nm wavelength (UV), the transmission value is about half of the specification for visible light.
- Other fiber-optic lengths and jackets are available on custom request.
- An attenuating filter can also be integrated to Branching Fiber-optic Patch cords on custom request.
Comparison Table : Patch cord Optical Fiber Type Fiber-optic Material Borosilicate Silica/Silica Silica/Polymer Plastic Core Glass Glass Glass Plastic Cladding Glass Glass Polymer Polymer Numerical Aperture 0.66 0.22 - 0.37 0.48 - 0.57 0.50 - 0.63 Flexibility Poor Good Good Excellent Auto-Fluorescence Good Excellent Good Poor RECOMMENDED USE : Fiber Photometry N/A
(too fragile)
Good* Good* Not recommended
(high AF)
Optogenetics LED Source N/A
(too fragile)
Not recommended
(low NA)
Good BEST Optogenetics Laser Source N/A
(too fragile)
BEST Good Good
-
Optical Transmission 1 %, 2 %, 5 %, 10 % @ 465 nm -
*XXX is representative of the jacket code, see the JACKETS CODE tab to choose the best one for your needsCore
(μm)Cladding
(μm)Buffer NA Fiber-optic Code* 200 220 240 0.22 200/220/XXX-0.22 200 220 245 0.37 200/220/XXX-0.37 200 230 500 0.48 200/230/XXX-0.48 400 430 730 0.48 400/430/XXX-0.48 400 440 470 0.37 400/440/XXX-0.37 400 440 480 0.22 400/440/XXX-0.22 -
Comparison Table : Protective Jacket Composition Code Description Color OD
(mm)Linear mass
(g/m)Flexibility Fiber break protection Fiber pull protection Proposed usage LWMJ Stainless monocoil with PVC 2.4 mm Black 2.4 7.5 Good
Good
Good Freely-moving animal light delivery with large mice or rat PKMJ
Stainless monocoil with kevlar and PUR 3.0 mm
Black 3.0 11 Good
Excellent
Excellent Best compromise between flexibility and robustness ARBK Stainless armor with PVC 3 mm Black 3.0 15 Low Excellent Excellent Preferred for maximum robustness
Jacket availability may vary with optical fibre type -
Code Description Image Drawings FCM FC Connector with Metal Ferrule SMA SMA Connector with Metal Ferrule -
Drawing Attenuating Patch Cord