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1538.19nm DFB Laser w Integrated InP 10GB/s MZ Modulator, 3.5dBm Output Power, SM Fiber, FC/PC Connector, 12 pin Butterfly package
** Excess Inventory **

$650.00  
sku / item#: RLS/LCM155EW3819-64C33
ships: In-Stock (USA) -- Quantity Available: 1

Key Features
  • 1538.19nm DFB Laser w Integrated InP 10GB/s MZ Modulator, 3.5dBm Output Power
  • Voltage Programmable Output Power Control.
  • 12-Pin Non Standard Butterfly Package with RF Connectors, TE Cooler and Monitor PD
  • Integral Etalon Wavelength Stabilisation to within ± 20pm over life.
  • Product Condition: Brand New, Excess Stock
  • Offered by: Optical Innovations, 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/LCM155EW3819-64C33
PRICE $650.00
General SPECIFICATIONS
  • 1538.19nm DFB Laser w Integrated InP 10GB/s MZ Modulator, 3.5dBm Output Power
  • SM Fiber, FC/PC Connector
  • Modulation voltage: 4v, Extinction Ratio: 13dB

Product Overview:

1538.19nm Nortel LCM155EW3819-64C33 DFB Laser w Integrated InP 10GB/s MZ Modulator w FC/PC Connector:

The LCM155EW-64, containing the Nortel Networks Strained Layer MQW DFB laser chip and the III-V Mach-Zehnder modulator chip, has been designed specifically for use in 10 Gbit/s long distance optical fiber trunk systems. Thermo-electric cooler, a precision NTC thermistor and optical isolator are incorporated, and rear facet monitoring provides wavelength locking to the ITU grid. The module is capable of >80km transmission over Non Dispersion-Shifted Fiber (NDSF) without additional dispersion compensation. This is achieved by the negative chirp characteristic which compensates for 1500ps/nm dispersion. Increased transmission distances are achievable using dispersion shifted fiber with or without dispersion compensation. Optical power control is achieved by applying a D.C. bias voltage to the internal attenuator electrode. This reduces the power into the modulator section without affecting the operating wavelength.

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