XINLAND LASER CO.,LTD |
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Hot Selling 1450nm-1920nm Fiber Laser Diode Butterfly Package High Quality Laser Light Diode
Product Details:
Type: Fiber Coupled Laser Diode
Wavelength: 1450-1920nm
Fiber Type: MMF
Fiber Core: 105um
Package Type: 2-Pin/9-Pin/14-Pin
Connector: FC
Product Specifications:
Wavelength | Output Power | Fiber Type | Fiber Core | Package | Connector | PD | TEC |
1450nm | 2W | MMF | 105um | 2-Pin | FC | × | × |
2W | MMF | 105um | 9-Pin | FC | √ | √ | |
1470nm | 800mW | MMF | 105um | 14-Pin | FC | √ | √ |
1/2.5W | MMF | 105um | 2-Pin | FC | × | × | |
2W | MMF | 105um | 9-Pin | FC | √ | √ | |
1490nm | 1.5W | MMF | 105um | 9-Pin | FC | √ | √ |
2W | MMF | 105um | 2-Pin | FC | × | × | |
1530nm | 2W | MMF | 105um | 2-Pin | FC | × | × |
2W | MMF | 105um | 9-Pin | FC | √ | √ | |
1550nm | 2W | MMF | 105um | 9-Pin | FC | √ | √ |
2.5W | MMF | 105um | 2-Pin | FC | × | × | |
1720nm | 800mW | MMF | 105um | 9-Pin | FC | √ | √ |
1W | MMF | 105um | 2-Pin | FC | × | × | |
1900nm | 500mW | MMF | 105um | 2-Pin | FC | × | × |
500mW | MMF | 105um | 9-Pin | FC | √ | √ | |
1920nm | 500mW | MMF | 105um | 2-Pin | FC | × | × |
500mW | MMF | 105um | 9-Pin | FC | √ | √ |
Note before purchase:
Choose the right fiber length according to your own requirements.
The default product does not have a driver board, so if you need a
driver board, please contact customer service in advance.
Multimode & Single mode:
1.The core size of single mode fiber is mostly 3-9μm, wide
transmission band frequency, large capacity, small modal
dispersion,long transmission distance.
2.Most of the multimode fiber cores are 105 μm,The transmission
distance is small,the mode dispersion is large, and the generated
light is dispersive.
OPERATING NOTES
◆Avoid eye and skin exposure to direct radiation during operation.
◆ Do not bend the fiber wire excessively to avoid the core
breaking.
◆When the optical fiber module is not in use, please install the
dust cover at the optical fiber connector.
◆Do not place heavy objects on the optical fiber, and do not pull
the optical fiber excessively to avoid damage to the optical fiber.