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1550nm Laser Diode, 1.5W Output Power

  • 1550nm Laser Diode with 1W Output Power

sku / item#: FB-M1550-1500HF
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Key Features
  • Peak Wavelength: 1550nm
  • CW Optical Output Power Up to 1.5 Watts
  • Integrated TEC cooler and thermistor
  • FC/PC coupled fiber
  • Sold and Supported by LaserDiodeSource.com, a division of Laser Lab Source

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MODEL FB-M1550-1500HF
PRICE $2818.00
Optical and Electrical
  • Peak Wavelength: 1550 (±30 nm)
  • CW Optical Output Power (Pop): 1.5 Watts
  • Operation Current (Iop): < 6.5 Amps
  • Operation Voltage (Vld): 1.4 ±0.1 V
  • Threshold Current (Ith): <0.6 Amps
  • Spectrum Half-Width (FWHM): < 10 nm
  • Operation Modes: CW, QCW, Pulsed (>5ns)
  • Wavelength Temperature Coefficient ∆λ/∆T 4±0.5 A/degree
Optical Fiber
  • Fiber diameter: 200 µm
  • Coating diameter: 220 µm
  • Outer diameter: 3 mm
  • Numerical Aperture: 0.22
  • Fiber Length: 1 meter
  • Optical Connector Type: FC
Photo Diode Monitor
  • PD Monitor Current: 1-1000 µA
  • PD Reverse Voltage Max: 9 V
integrated thermoelectic cooler
  • Maximum Current: 5 Amps
  • Maximum Operation Voltage: 3.8 Volts
  • Thermistor Resistance: 10 kOhm
  • Operation Temperature Range: -20 to +40 degree
  • Guaranteed Life Time: 1 year

Product Overview:

1550nm Laser Diode, 1.5W Output Power Overview:

These Fabry-Perot laser diodes are multimode 1550nm, 1500mW (CW) lasers in an HHL high heat load fiber-pigtailed package. An integrated TE / thermoelectric cooler efficiently dissipates heat from the hermetically sealed package, and a standard 10K thermistor temperature sensor is used as the feedback control sensor for your temperature controller.

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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