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655nm, 1.5mW Single Mode Fiber Coupled Coaxial Laser Diode

  • 655nm 2mW laser diode
  • 655nm, 1.5mW, Fiber-Coupled Coaxial Laser Diode Specs
  • 655nm fiber-coupled coaxial laser pinout
  • 660nm Laser Diode 2mW Coaxial Top View

sku / item#: LDS-655-FP-1.5-COAX
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Key Features
  • Center Wavelength 655nm
  • 1.5 mW CW Optical Output Power
  • Fiber-Coupled Coaxial Package
  • Single Mode Fiber with FC/UPC Connector
  • Sold and Supported by LaserDiodeSource.com, a division of Laser Lab Source

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PRICE $295.00
  • Wavelength: 655 nm
  • Spectral Width: 1 nm
  • Wavelength-Temperature Coeff.: 0.19 nm/°C
  • Refer to Datasheet for Additional Specifications
Electrical Specifications
  • Threshold Current: 20 mA
  • Operating Current: 27 mA
  • Operating Voltage: 2.1 V
  • Slope Efficiency: 0.18 mW/mA
  • Monitoring Output Current (PD): 0.2 mA
Optical Fiber Specifications
  • Furcation Tubing ⌀0.9 mm
  • Fiber Connector: FC/UPC
  • Other Fiber and Connector Types Available; Inquire
Optional Polarization Maintaining Fiber
  • PM Fiber Fujikura SM63, PANDA type

Product Overview:

655nm, 1.5mW Single Mode Fiber Coupled Coaxial Laser Diode

These Fabry-Perot laser diodes are InGaAlP based quantum well lasers which are coupled to a single mode optical fiber, and include integrated monitor photodiode. They are offered in a coaxial package with single mode fiber.

Polarization-maintaining fiber is also available, type Fujikura SM63, PANDA type. Please contact us directly for a formal quote or to place an order.

Other fiber and connectors are available; refer to the datasheet for details then contact us for a quote.

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.

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