


ELECTRICAL-OPTICAL CHARACTERISTICS (TYPCIAL @ T = 25 °C)
- Wavelength: 660 nm
- Optical Output Power: 50 mW
- Spectral width: 0.5 nm
ELECTRICAL SPECIFICATIONS
- Threshold current: 60 mA
- Operating Current: 160 mA
- Operating Voltage: 2.6 V
- Slope efficiency: 0.44 mW/mA
OUTPUT FIBER SPECIFICATIONS
- Nufern 630-HP Fiber; Furcation Tubing ⌀0.9 mm
- FC/APC Connector
- Other Fibers and Connectors Also Available; Inquire
APPLICATIONS
- Biomedicine
- Laser Systems
- Spectroscopy
- Holography
660nm, 50mW, Coaxial Single Mode Fiber-Coupled Laser Diode
Key Features
- Wavelength 660 nm
- 50 mW CW Optical Output Power
- Compact Coaxial Package with Double-Side Bracket
- Gaussian Beam Profile with Single Mode Fiber
- FC/APC Connector
Shipping Information
Shipping rates in the USA:
– All products: $25
– Please contact us for International Shipping Rates
Warranty Information
This product is sold with a full one year warranty. It is warrantied to be free from defects in material and/or workmanship for a period of one year from the date of shipment.
Weight |
1 lbs |
---|---|
Dimensions |
10 × 8 × 6 in |
Top Level LASER DIODE Power Ranges |
1 mW - 500 mW |
Top Level LASER DIODE Sub-Ranges |
600nm - 900nm |
Laser Wavelength |
660 nm |
Laser Output Power |
0.05 W |
Fiber-Coupled Output |
Fiber-Coupled Packages |
Spectral Line Width (nm) |
0.5 |
Mode Structure |
Single-Mode |
Laser Diode Package Type |
Coaxial Fiber-Coupled |
Product Overview
660nm, 40mW, Fabry-Perot Coaxial Fiber-Coupled Laser Diode Overview
LD4B-660-FP-50-COAXB-18-SM04-FA-CW-0.5 is an AlGaInP laser diode coupled to a single-mode optical fiber and packaged into a hermetic TO-case. This compact coaxial laser is mounted in a double-sided bracket to facilitate mounting and heat-sinking.
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- • Wavelength: 660 nm
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- • Cavity type: Fabry-Perot
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- • Optical power: up to 50 mW in CW mode
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- • Fiber: Single-mode
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- • Package types: compact coaxial with double-sided bracket
Proper Handling and Operation of Diode Lasers
Diode lasers 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.