Home  >  Wavelengths 900nm-1190nm  >  OsTech   >  LDX-1064NM-30W

 

Turn-Key 1064nm Laser Diode System with Adjustable Output Power up to 30 Watts

  • 1064nm Laser Diode
  • 1064nm Laser Diode Rear View
  • High Power 1064nm Laser Diode System Connector
  • 1064nm 30W Laser Diode Source System
  • LV software for 1064nm Diode Laser

$8445.00  
sku / item#: LDX-1064NM-30W
ships: Request Current Leadtime

Key Features
  • Includes 1064nm, 30 Watt Laser Diode Module
  • User Adjustable Laser Output Power, Temperature, and All Operating Parameters
  • Peltier-Based Mount, Forced-Air Heat Removal
  • 400 µm. 0.22 NA Fiber Rear Panel Output
  • CW Mode, or QCW < 25 μs - CW
  • RS232 Interface with LabVIEW Drivers; USB Optional
  • Offered by OsTech, a Laser Lab Source Marketplace Seller
  • Sold & Supported in North America by: LaserDiodeControl.com, part of the
    Laser Lab Source Marketplace Group

Price and Delivery Quote

Technical Questions for this Product

ASK AN ENGINEER

Customers Also Considered:

Why do Scientists & Engineers Choose Laser Lab Source?

MODEL LDX-1064NM-30W
PRICE $8445.00
Laser and Fiber Specifications (typical @ 25°C)
  • Laser Center Wavelength: 1064 nm (+/-10 nm)
  • Laser Output Power Range: 0 - 30 Watts (user adjustable)
  • Laser Spectral Line Width (FWHM): 7 nm
  • Laser Fiber Termination: SMA905 (rear panel output)
  • Laser Fiber Numeric Aperture: 0.22
  • Laser Fiber Core Diameter: 400 µm
CONTROL UNIT LASER DIODE PROTECTION FEATURES
  • Soft-Start Current Ramp to Setpoint (User Programmable)
  • Soft-Start Current Ramp Factory Default Set to 300 Milliseconds
  • Factory Pre-Set Maximum Current Limit
  • Factory Pre-Set Upper Temperature Limit
  • ESD and Power Surge Clamp, AC Line Filter
  • Reverse Voltage Transient Clamp
  • Keylock Switch and Safety Interlock
  • Short Circuit when Laser Diode Current Turned OFF
  • Front Panel e-Stop Button Emergency Shut-Down
  • Factory Pre-Set Upper Temperature Limit
  • Open Circuit Detection and Fast Shut-Down
CONTROL UNIT TEMPERATURE CONTROLLER and TEC cooled laser diode mounting plate Specifications
  • Cooling Design: Peltier (TEC) Cooled Laser Diode Mounting Plate
  • Laser Temperature Setpoint: User Adjustable within Factory Pre-Set Range (Upper Limit Pre-Set to Protect Laser)
  • TEC Control Loop Algorithm: Full P.I.D., User-Adjustable Parameters
  • P.I.D. Variables: Factory Pre-Set for Optimum Performance
  • Laser Diode Upper & Lower Temperature Limits: Factory Pre-Set
  • Control Unit Waste Heat Removed by Forced-Air
QCW PULSING MODE and MODULATION specifications
  • QCW Pulse Rise and Fall Time: < 25 μs to CW (< 10 μs on request)
  • QCW Trigger: Internal Function Generator or External Trigger
  • QCW Pulse Modes: Continuous Pulses, Single Pulses, Bursts
  • Pulse Time Base Accuracy: ± 1.0%
  • Modulation Signal: Accepts External Digital (TTL) or Analog
  • Modulation Input Connetor: BNC, Input Impedance 10K ohm
  • Modulation Input Voltage Range: 0 ~ 4 Volts (4V = Max Current)
System Dimensions and Power Requirement
  • 2U Standard Units High, Standard 19 Inch Rack Width
  • Dimensions: 89.0 mm (h) x 482 mm (w) x 260 mm (l)
  • Input Power: Universal 110V ~230 VAC, 50/60Hz
  • Rack Mount Brackets: Included
  • Bench-top Folding Feet: Included
User Interface
  • Front Panel LCD, Full Alphanumeric Display with Key Pad
  • RS232 Standard, LabView Drivers Included
  • USB Optional; Inquire
  • GUI Control Software Included

Product Overview:

Pre-Configured 1064nm, 30 Watt Turn-Key Laser Diode Source Overview

The LDX-1064NM-30W is a high power laser diode source with a pre-configured control system. These instruments are fully integrated turn-key fiber coupled source solutions. An integrated fiber-coupled single bar source is precisely controlled and delivers a high stability output. The current source, laser diode, temperature controller and cooling plate assembly are all integrated into a 19 inch rack-mount enclosure.

This all-inclusive high power systems includes a high power fiber coupled laser module installed and validated in the system. The module includes a thermistor and pilot laser. Controlling the laser is a high power laser diode current source and a 336 Watt cooling system. The cooling system is air-based (no cooling water necessary).

High Power Laser Diode Source Protection

High power laser diode protection features include a factory pre-set current limit, slow start current ramp to the user specified set point, factory pre-set temperature limits and clamping circuitry to protect the laser against power surges. The factory set default maximum current level is set during the calibration process to ensure the laser is not over-driven and damaged. The temperature limits are determined during calibration and are also factory set within a safe operating range to protect the laser against over-heating.

User Set Soft-Start Current Ramp

In addition to the current the temperature limit protection settings, the user has the option of setting the soft-start current ramp time from 300 milliseconds up to 10 seconds. The system is set to a 300 millisecond ramp as the default mode for shipment. This user adjustable current ramp allows you to customize the "power on" sequence of the source for your specific application.

Air-Cooled Thermal Control System

These units have an integrated high power TEC temperature controller with a full P.I.D. control loop to deliver fast and efficient heat removal from the source laser module. The laser diode is mounted on a Peltier / TEC cooled, nickel plated copper mounting plate. The mounting plate offers very high surface finish and flatness for low thermal impedance. The cooled mounting plate for the laser is attached to a fan cooled air duct to remove the waste heat and keep the laser temperature stable.

User Controls

Users have full control of the fiber coupled laser module power through a touch-key front panel menu and LCD display or through the digital interface. You control the high power laser diode amplitude by adjusting the current level or adjusting the laser in automatic power (APC) control mode (Watts of optical power) based on the internal monitor photodiode feedback to the bias current and temperature controller.

These systems can be controlled remotely by the standard RS232 interface, or by the optional USB interface. They ship with LabView drivers and a terminal control software programming suite.

Why do Scientists & Engineers Choose Laser Lab Source?

  • Get DIRECT, Fast Tech-Support from the Product Engineer, No Sales Person in the Middle

  • Get the Lowest Price, Factory Direct, No Mark-Up's, Suppliers Post their Own Price

  • Get a 30 Day Evaluation Period with No Risk Return on Most Products, Check Availability