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1064nm DFB Laser Diode Integrated into Pre-Configured Nanosecond Pulsing Control and Mount Module
- 500mW Pulsed Mode Output Power
- Turn-Key Pulsed Source System

  • 1064nm Laser Diode DFB
  • DFB Laser Diode Features
  • 1064nm laser diode software features

sku / item#: RLS/1064nm-Model 2 / CCS-PULSE
ships: 2 Weeks

Key Features
  • 1064nm Pulsed Mode DFB Source with User Adjustable Pulses from 1 Nanosecond to CW
  • Includes 1064nm DFB Laser Diode Source + Pre-Configured Control Electronics & Mounting Module
  • Optimized for Pulsed Fiber Laser and Frequency Conversion Applications
  • Built-In Pulse Generator ( Flexibility of 3 trigger modes : Internal / External with internal pulse generator / Full external)
  • Up to 4 MHz Repetition Rate
  • USB Interface with Simple to Use GUI and Code Libraries: DLLs, Hexa, LABVIEW VIs, Python
  • Offered by AeroDIODE a Laser Lab Source Marketplace Seller
  • Sold & Supported in North America by: LaserDiodeControl.com, part of the
    Laser Lab Source Marketplace Group

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MODEL RLS/1064nm-Model 2 / CCS-PULSE
PRICE $5395.00
1064nm DFB Laser Diode Optical Output Specifications
  • Adjustable Pulse Width Range: 1 Nanosecond to CW
  • Center Wavelength (@ 25°C) : 1063.5nm (+/-0.5 nm)
  • Pulsed Peak Output Power: 500 mW
  • CW Output Power (typ): 200 mW
  • SMSR (<10ns pulse width): > 25dB
  • Spectral Width (FWHM @ 100ns Pulse Width): 200 kHz (typical)
  • Duty Cycle Range: < 5%
  • Temperature tuning (20-50°C range) : ~0.06 nm / °C
pulsed and CW electronics specifications
  • On-Board Generator Pulse Width Range: 0.5 nanoseconds - 500 nanoseconds
  • External Trigger Pulse Width Range: 0.5 nanoseconds - CW
  • Internal Pulse Generator Adjustment Precision: 10 picoseconds
  • Optical Pulse Jitter: < 25 ps
  • On-Board Pulse Generator Repetition Rate Range: 1Hz - 4MHz (250 MHz w/ HP Option)
  • Output Current Pulsed Mode: 0.00 mA - 1.60 Amps
  • Output Current CW Mode: 0.00 mA - 500.00 mA
  • Output Voltage Maximum: 4.8 Volts
  • Current Noise and Ripple (100Hz to 10 MHz): < 0.03% of Full Scale
  • Current Set-point Resolution @ 500mA: <0.1 mA
  • Current Set-point Resolution @ 1000mA: <0.3 mA
  • Laser diode chip temperature tuning range : 20 - 50 °C
  • TEC Controller Compatible with NTC Thermistors: 1kΩ - 100 kΩ
  • Mounting Socket Base Material: Anodized Aluminum
  • Mounting Socket Technology2: Zero Insertion Force Socket
user INTERFACE , Dimensions and power input
  • Interface: USB
  • OS Compatibility: Windows XP / Windows 7
  • Control Software: Control Software - Windows GUI Included
  • Input Power Supply: 12VDC (220V/110V adapter included)
  • Module Dimensions: 146mm (W) x 130mm (L) x 37mm(H)
  • Libraries: DLLs - Hexa/Linux - Labview - Python
  • Analog Interface (0-3.3V): Peak Power Adjustment
DFB Laser Diode Fiber and Connector
  • Fiber Type: PM, Polarization Maintaining Nufern PM980-HP or equivalent
  • Mode Field Diameter: 6 um
  • Buffer Diameter: 250 um
  • Fiber Length: 1 meter
  • Connector: FC/APC, PM Aligned to Slow Axis

Product Overview:

Pre-Configured 1064nm DFB Source for Ultra-Short Pulses

These pulsed and CW 1064 nm DFB laser source & control modules offer the user a pre-configured, calibrated solution for fast pulse seed and sensing applications. These modules deliver pulse widths as narrow as 1 to 3 nanoseconds (limitation of a DFB source). The butterfly packaged laser diode has been impedance matched to the pulse current PCB in the mounting socket to ensure clean pulse performance with almost no ring or overshoot. To achieve the shortest possible pulses, the customer has the option to request that the butterfly package be soldered into the mounting socket. These modules are designed primarily for pulsed fiber laser, direct frequency conversion and spectroscopy applications which require a narrow spectral bandwidth and high peak power.

Integrated 1064nm DFB Laser Diode Source

The integrated 1064nm laser diode source is a fiber coupled DFB laser. The distributed feedback grating, DFB, located in the laser cavity provides the wavelength stabilization. Both the chip in the butterfly package and the package itself were designed and optimized to provide nanosecond and sub-nanosecond pulses. The coupling of the laser light into the fiber is based on proprietary techniques and manufacturing processes that provide high peak output power. The power is very stable over time and over temperature.

Pulsed 1064nm Laser Diode Control Electronics and Butterfly Mounting Module

The control electronics and mounting module for these DFB lasers delivers high stability current pulses which can be generated internally by an on-board pulse generator or on demand from an external TTL signal. The external trigger source can be used to trigger the pulse parameters which are preset in the control module. These control modules offer multiple mechanical, thermal and electronic protection features for the DFB source. They ensure that your laser diode is protected and operated safely. The on-board TEC controller incorporates a fast feedback PID control loop to provide high temperature set-point stability. A user-set temperature limit keeps the source from thermal damage. Additionally, multiple bias current / voltage protection features are designed to keep the source safe from ESD, power outages and reverse voltage. A user controlled current limit clamps the current in both Pulsed and CW mode.

USB and Control Software

The user can set and monitor all of the control parameters of the 1064nm source laser using the USB input and the supplied GUI software. These units ship with the USB cable to connect your PC to the connector on the side panel. A simple to use single page menu graphical user interface allows you to control all of the pulse or CW parameters as well as set current and temperature limits. Other features of these control modules include a daisy chain output, sync output, alarm monitor and back facet monitor output to monitor the DFB laser's power.

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