GENERAL SPECIFICATIONS
- Wavelength: 1480 nm (+/1.5 nm)
- CW Output Power (typ): 120 mW
- Forward current: 1500 mA (typ)
- Forward voltage: 2.7 V
- Fiber: 900 µm, No Connector
- Refer to PDF Data Sheet for Full Specifications
1480nm Laser Diode, 120mW, 900µm Fiber Pigtail, No Connector * Excess Inventory Laser *
Key Features
- Operating Power 120mW, 1480nm
- Low-profile, 14-pin butterfly package
- Device Condition: Brand New In-Box, Excess Stock
Shipping Information
– Shipping in USA: $29.50
– Contact us for International Rates
Manufacturer and Seller:
– Condition: Used, in “like new” condition – tested to ensure it is fully functional
– Manufacturer: Sumitomo
– Offered by: Optical Innovations Corporation
– Orders transacted & fulfilled by: LaserDiodeControl.com, part of the Laser Lab Source Group, the Marketplace for Scientists and Engineers
– Supplier PN: 9000000864
Warranty and Returns Policy:
This product is guaranteed to meet the manufacturer’s specifications as stated on the PDF data sheet attached to this product’s listing page. If the item does not meet the manufacturer’s specifications, or does not arrive in the condition described in this listing it may be returned for a full refund within 90 days of receipt.
1 in stock
Weight |
1 lbs |
---|---|
Dimensions |
10 × 8 × 6 in |
Top Level LASER DIODE Power Ranges |
1 mW - 500 mW |
Top Level LASER DIODE Sub-Ranges |
1200nm - 1600nm |
1310nm to 1690nm Most Popular Wavelengths |
1480 nm |
Laser Wavelength |
1480 nm |
Laser Output Power |
0.12 W |
Fiber-Coupled Output |
Fiber-Coupled Packages |
Cavity Structure |
DFB Lasers |
Mode Structure |
Single-Mode |
Laser Diode Package Type |
Butterfly / DIL |
Excess Stock Lasers |
Excess Stock Lasers |
Product Overview
1480nm, 120mW, Sumitomo Laser Diode
1480nm pump laser diode, with 120mW output through 900µm fiber pigtail. The fiber is approximately 6″ (150mm) in length, with no connector. The laser is excess-stock, new-in-box, and includes datasheet and test data.
Proper Handling and Operation of Laser Diodes:
Laser diodes are highly susceptible to damage from ESD and from temperatures exceeding their specified safe operating range. The user is advised to use care and proper ESD safety practices when handling them to avoid damage to the laser. A properly rated low noise current source, a low thermal resistance mount and a temperature controller should be used for optimal device performance and reliability.