ILX Lightwave LDC3926 Controller

Product Overview
The ILX Lightwave LDC3926 Laser Diode Controller is a high-performance and reliable instrument for controlling laser diodes with precision and stability. Designed for research, development, and industrial applications, this controller combines current and temperature control in a compact and user-friendly design. Its advanced features make it an ideal choice for applications requiring precise laser diode operation.

Key Specifications

• Model: LDC3926
• Control Modes: Independent and simultaneous current and temperature control
• Current Range: 0 – 2 Amps (model-dependent)
• Temperature Range: 10°C – 85°C (using compatible TEC modules)
• Current Resolution: 0.01mA
• Temperature Resolution: 0.01°C
• Display: High-resolution LED display for monitoring parameters
• Interfaces: Standard USB, RS-232 for remote control and data logging

Key Features

1. Dual Functionality: Integrated current and temperature controller for comprehensive laser diode management.
2. Precision Control: High-resolution adjustments for current and temperature, ensuring optimal diode performance.
3. Safety Features: Built-in protection against overcurrent, overvoltage, and thermal runaway.
4. User-Friendly Interface: Intuitive front panel controls and digital display for real-time monitoring.
5. Remote Operation: Interfaces for PC control and automation in experimental setups.
6. Modular Design: Compatible with a wide range of laser diodes and temperature controllers.

Applications

• Research and Development: Ideal for optical experiments requiring laser diode stability and control.
• Telecommunications: Testing and operation of laser diodes for optical communication systems.
• Medical Devices: Supports laser diodes used in medical and diagnostic equipment.
• Manufacturing: Precision control for laser-based industrial processes.
• Semiconductor Testing: Enables stable operation of laser diodes in semiconductor testing environments.

Why Choose This Product?
The ILX Lightwave LDC3926 delivers unmatched precision and reliability in laser diode control. Its robust design, safety features, and ease of use make it an indispensable tool for laser-based research, testing, and industrial applications.