Power Supply Control System for Lamp-Pumped Lasers

Flashlamp-Pumped Laser Power Supply Control System Product Introduction

1. Product Overview
The flashlamp-pumped laser power supply control system is an integrated driving control platform independently developed by RealLight, specially matched with the HQF series high-energy xenon flashlamp-pumped solid-state lasers. The complete unit integrates a main control unit, two grades of thyristor pulsed xenon lamp power supplies (1000W / 2000W), an industrial touch HMI, and a water cooling monitoring module.
This system is compatible with all HQF Q-switched and MOPA picosecond lasers, as well as optical accessories including articulated arms and delivery fibers. One unified control system covers equipment integration demands across spectral analysis, radar sensing, biomedicine, laser ultrasonic measurement and other industries, serving as a standardized supporting control solution for high-energy flashlamp-pumped lasers.

2. Overall Structure & Core Functional Features
2.1 Intuitive Industrial Touchscreen Operation
Equipped with an industrial touch screen, the system visually displays all laser parameters, operating status and fault alarms. Users can store and recall parameter presets with one click, eliminating complicated operations and lowering thresholds for equipment commissioning and clinical/experimental use. English is set as the default interface language, with a reserved multi-language framework for customized overseas export requirements.

2.2 Comprehensive Multi-Layer Safety Protection
Independent emergency stop switch and laser enable switch are installed, supported by dual hardware & software interlock protection logic. Real-time monitoring of cooling water flow and temperature automatically cuts off laser emission under abnormal flow or overheating to prevent damage to xenon lamps and laser crystals. Customizable optical shutter interlock and real-time pulse energy monitoring are available upon request to meet strict safety standards for aesthetic medical and scientific research applications.

2.3 Dual Trigger Modes for Automated Timing Synchronization
Both internal and external trigger modes are built-in, paired with RS232 serial remote communication interface. It can connect with upper computers, spectral acquisition equipment, radar timing modules and automated production line control systems to realize synchronous laser pulsing and remote parameter adjustment, ideal for automated testing equipment such as LIBS and particle image velocimetry systems.

2.4 Highly Integrated Modular Design for Easy Transport & Maintenance
The power supply, control circuit and cooling monitoring components are integrated into a compact cabinet for convenient handling and transportation. All functional units adopt modular layout with independent fault alarm prompts, simplifying troubleshooting and part replacement to reduce long-term maintenance costs.

3. Full Technical Parameter Description
Two standard power platforms are available: SCR-1kW-220V and SCR-2kW-220V, both adopting thyristor power topology with air cooling.
SCR-1kW: Rated power 1000W, input 220V±10% AC, 50/60Hz, rated current 10A
SCR-2kW: Rated power 2000W, input 220V±10% AC, 50/60Hz, rated current 16A
Custom 110V input voltage version is available on demand.
Unified standard configurations: local touchscreen control, RS232 remote communication, internal & external trigger support. Operating environment: temperature 15~30℃, relative humidity ＜60℃; storage temperature range -20℃~60℃.

Notes for Use
If stored below 0℃, drain all water inside the cooling pipeline to avoid freezing and cracking;
Keep the workplace clean to prevent dust and smoke from accumulating inside the cabinet, which may impair heat dissipation and circuit lifespan;
All data listed in the table are typical values tested at 25℃ ambient temperature; final specifications shall be subject to the factory test report.

4. Main Application Fields
4.1 Spectroscopic Research: Driving control for Laser-Induced Breakdown Spectroscopy (LIBS) and laser-induced fluorescence experiments
4.2 Industrial Precision Measurement: Laser ultrasonic testing, particle image velocimetry, LiDAR ranging equipment
4.3 Biomedical Equipment: Supporting power control unit for picosecond aesthetic lasers, 2940nm Er:YAG dental therapeutic lasers and minimally invasive surgical laser systems

5. Product Summary
Tailor-made for the full range of RealLight HQF high-energy xenon flashlamp-pumped lasers, this flashlamp-pumped laser power supply control system offers optional 1kW and 2kW power grades. It integrates touchscreen HMI, full safety monitoring, dual trigger remote control and real-time water cooling status detection. The highly integrated, easy-maintenance design supports multi-language UI and customized 110V input, satisfying domestic medical/research equipment manufacturers and overseas export markets. Equipped with complete safety interlocks and standard communication interfaces, it seamlessly connects with all optical accessories and automated systems, delivering a stable, reliable all-in-one supporting control solution for high-energy flashlamp-pumped solid-state lasers.