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375nm Laser Diode, 150mW Output Power, SMA905 Connector Fiber Output

  • 375nm laser diode main product image
  • 375 nm laser diode dimensions
  • schematic diagram of 375 nm laser diode

sku / item#: RLS / 375NM-150MW-105UM
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Key Features
  • 375 nm Center Wavelength
  • 150 mW Output Power
  • 105 µm Core SMA905 Detachable Fiber Connector Output
  • Multimode Emission Spectra
  • Offered by WaveSpectrum Laser, a Laser Lab Source Marketplace Seller
  • Sold & Supported in North America by: LaserDiodeSource.com, part of the
    Laser Lab Source Marketplace Group

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MODEL RLS / 375NM-150MW-105UM
PRICE $4650.00
Optical Specifications
  • Output Wavelength: 375 nm (±10 nm)
  • Output Power: 150 mW (ex-fiber)
  • Spectral Width (FWHM): 2.0 nm (typ)
  • Output Emission Spectra: Multimode
Fiber Connector Specifications
  • 105µm Core SMA905 Output Connector
Electrical Specifications
  • Threshold Current: 200 mA (typ)
  • Operating Current: 390 mA (typ)
  • Operating Voltage: 5.0 V (typ)
  • TEC Current: 6 A
  • TEC Voltage: 9.8V
  • Thermistor: 10kΩ at 25ºC

Product Overview:

150mW, 375nm Laser Diode Overview

These high power 375nm laser diodes are offered in a detachable fiber enabled high heat load package. Features include a 150 micron core SMA905 output connector. The 14-pin HHL package includes an internal 10K thermistor and TE cooler for stable wavelength and long operating lifetime at high output power levels. These devices are used extensively in flourescence, spectroscopic and other R&D applications requiring high power stability and wavelength stability.

These high stability fiber coupled laser diodes are designed and manufactured to meet the most demanding R&D and industrial applications. Proprietary design, packaging, and fiber coupling processes produce laser diodes with very high stability and low noise. Each laser diode is subject to extensive testing and burn-in before shipment to ensure the highest possible levels of quality and long term reliability.

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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