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780nm Laser Diode, 30mW, Single Mode, Fiber-Coupled DIL Package

  • 780nm, 30mW, Laser Diode DIL Fiber Coupled
  • 780nm, 30mW, DIL Laser Diode
  • 780nm DIL Package Fiber Coupled Pin-Out
  • 780nm, 30mW, Laser Diode Coax Fiber Coupled

$750.00  
sku / item#: LDI-780-FP-30-DIL
ships: Request a Quote for Current Ship Date

Key Features
  • 780nm Center Wavelength; up to 40mW CW Optical Output Power
  • 14-Pin DIL; Integrated Monitor Photodiode, Thermistor, and TEC
  • SM Fiber: Corning HI 780; FC/APC Connector
  • Sold and Supported by LaserDiodeSource.com, a division of Laser Lab Source

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MODEL LDI-780-FP-30-DIL
PRICE $750.00
ELECTRICAL-OPTICAL CHARACTERISTICS (Typcial @ T = 25 °C)
  • Wavelength: 780 nm (+/-10nm)
  • Spectral width: 1 nm
  • Slope efficiency: 0.53 mW/mA
  • Refer to datasheet for additional specifications
ELECTRICAL Characteristics at 25°C
  • Threshold current: 30 mA
  • Operating current: 95 mA
  • Operating voltage: 2.1 V
  • Monitoring output current (PD): 0.35 mA
Fiber Specifications
  • Single Mode Fiber: Corning HI 780
  • Fiber Connector: FC/APC (FC/PC also available)
  • Other Fiber and Connector Types Available; Inquire

Product Overview:

780nm Laser Diode, 30mW, Fiber-Coupled Package:

These single mode 780nm laser diodes are AlGaAs quantum well lasers coupled to SMF optical fiber and packaged in a 14-pin DIL package. The CW output power is 30mW. The DIL package includes integrated photodiode, thermoelectric cooler module, and temperature sensor.

These lasers come standard with FC/APC connector; FC/PC is normally also in-stock. Please contact us for information on fiber connector options.

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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