In the modern defense sector, laser technology has become a core force in enhancing system operational effectiveness and ensuring informational superiority. Whether for vehicle-mounted alert illumination, ship-based long-range interdiction designation, ground-based fixed-point applications, or adaptation to the complex environments of airborne and spaceborne platforms, increasingly stringent demands are placed on the power, stability, and environmental adaptability of laser modules. Upholding the mission of "Illuminating the Future, Originating from Lasers," Lumispot Laser has deeply cultivated the defense-grade laser field. Its independently developed illumination and designation modules, leveraging full-chain in-house R&D capabilities, defense-grade reliability, and customization capacity, have become the partner of choice for numerous defense enterprises.
Whether for night-time border patrols, equipment maneuvers, or long-range target designation, Lumispot Laser's illumination and designation modules, with their characteristics of "high power, broad compatibility, and strong stability," provide all-weather, all-scenario illumination solutions.
Application scenario 1: Fixed long-distance important target supplementary lighting
Application scenario 2: Security backlight/night infrared fill light
Application scenario 3: Anti drone system drone supplementary lighting
Application scenario 4: Supplementary lighting for aerospace grade orbital equipment
Application scenario 5: Long distance laser pointer
I. Core Value: Addressing Three Major Pain Points in Defense Illumination
1. Pain Point 1: "Failure" in Complex Environments
Extreme temperature ranges (storage from -55°C to 70°C, operation from -40°C to 60°C) and the intense vibration and shock inherent to vehicle, ship, and aircraft platforms often lead to power interruptions and optical attenuation in traditional illumination equipment. Lumispot Laser's illumination and designation modules employ defense-grade or aerospace-grade components and optimized designs tailored for different application scenarios. They currently achieve stable operation in extreme temperatures from -50°C to 65°C (some wavelength-specific products can be customized for operation up to 120°C). Furthermore, the company has successfully delivered products for four aerospace-grade projects, ensuring stable output even in harsh environments.
Regarding vibration and shock resistance, the modules utilize special structural designs and optical component curing processes to effectively absorb and disperse vibrational energy. This ensures that in high-vibration, high-shock environments such as those on vehicles, ships, and aircraft, issues like poor electrical contact due to vibration or displacement of optical components are prevented, thereby avoiding power interruptions and optical attenuation. The modules consistently provide reliable illumination for defense operations.
2. Pain Point 2: "Difficulty in Adapting" to Diverse Requirements
Different defense scenarios have significant variations in requirements for power, range, and beam pattern: close-range alert needs wide beam coverage, while long-range reconnaissance requires a narrow, focused beam. Through platform-based design of light sources, drive circuits, and lenses, Lumispot Laser can rapidly provide a full power range from 25W to 400W. Lens divergence angles are adjustable from a fixed 0.07° to a variable 30°, with a maximum effective range of 8000m. Customization is available for rectangular beam patterns and homogenized beam patterns (homogenization up to 90%).
Additionally, to meet the interface and mounting requirements of different equipment, Lumispot Laser has developed various standardized and customized mechanical interface modules. This ensures seamless integration of the modules with diverse vehicle-mounted, airborne, shipborne, and individual soldier platforms. Their modular design also supports rapid replacement and upgrades, significantly shortening equipment modification cycles and reducing maintenance costs. This truly achieves the flexible response capability of "one module for multiple scenarios, one solution for one requirement," with customer demand response speed 30% faster than the industry average.
3. Pain Point 3: "Chokepoint" in Core Supply Chain Materials
Defense equipment has extremely stringent requirements for domestic production rates. Lumispot Laser has successfully achieved full-chain independent R&D and production from "components → modules → finished products." Currently, all products have realized platform-based and serialized development. The company has accumulated extensive experience with fully domestically-sourced design solutions and can provide complete fully domestically-sourced solutions for all product models.
Regarding core materials, Lumispot Laser has established long-term, stable cooperative relationships with high-quality domestic suppliers, ensuring supply stability and quality reliability from the source. Through strict supplier screening and evaluation mechanisms, along with continuous quality monitoring and improvement measures, Lumispot Laser effectively avoids production disruptions or product quality issues caused by "chokepoints" in core supply chain materials. Simultaneously, the company has increased R&D investment in domestic core materials, continuously improving their performance and reliability, providing strong support for the domestic upgrade of defense equipment.
II. Delivery Cases: Batch Deliveries Demonstrating Reliable Capabilities (Partial Representative Platforms)
1. 808nm-25W Illuminator Module
Output Power: ≥25W
Lens Divergence Angle: 0.4°-30° continuous zoom
Maximum Effective Range: ≤3000m
Module Weight: <2kg
Module Power Consumption: <75W
Cooling Method: Conduction/Air Cooling
Fully Domestic Supply Chain Solution Available
2. 808nm-50W Illuminator Module
Output Power: ≥50W
Lens Divergence Angle: 0.4°-30° continuous zoom lens
Maximum Effective Range: ≤5000m
Module Weight: ≤2.5kg
Module Power Consumption: ≤150W
Cooling Method: Conduction/Air Cooling
Fully Domestic Supply Chain Solution Available
3. 808nm-40W Illuminator Module
Output Power: ≥40W
Lens Divergence Angle: ≤0.4° fixed focus
Maximum Effective Range: ≥3000m
Module Weight: ≤2.5kg
Module Power Consumption: ≤130W
Cooling Method: Conduction/Air Cooling
Fully Domestic Supply Chain Solution Available
4. 808nm-80W Illuminator Module
Output Power: ≥80W
Lens Divergence Angle: ≤0.15° fixed focus
Maximum Effective Range: ≥5000m
Module Weight: ≤2.5kg
Module Power Consumption: <250W
Cooling Method: Air Cooling
Fully Domestic Supply Chain Solution Available
5. 808nm-80-120W Illuminator Module
Output Power: 80-120W
Lens Divergence Angle: 0.1°--0.2° continuous zoom; 0.076°-7.5° continuous zoom
Maximum Effective Range: >5000m
Module Weight: <3kg
Module Power Consumption: ≤300W
Cooling Method: Air Cooling
Fully Domestic Supply Chain Solution Available
6. 808nm-400W Illuminator Module
Output Power: ≥400W
Lens Divergence Angle: Optionally configurable with 0.4°--30° continuous zoom lens; Optionally configurable with 0.07°-0.7° continuous zoom lens.
Maximum Effective Range: ≥8000m
Module Weight: <4.5kg
Module Power Consumption: <1600W
Cooling Method: Water Cooling
Fully Domestic Supply Chain Solution Available
7. 808nm Laser Designator Module
Beam Divergence: 0.9mrad ±0.2mrad
Maximum Effective Range: >10000m
Module Weight: <0.7kg
Module Power Consumption: <60W
Cooling Method: Conduction/Air Cooling
III. Technical Highlights: Excellence in the Details
1. Speckle Suppression Technology: Achieves low cost without adding extra optoelectronic components, affecting overall electro-optical efficiency, or altering beam quality. By reducing laser speckle contrast, this technology effectively eliminates granular noise in imaging, enhancing image clarity and signal-to-noise ratio. Particularly in long-range target identification scenarios, it improves fine feature discernibility, providing more stable optical quality assurance for defense imaging applications such as night reconnaissance and security surveillance.
2. Beam Homogenization Technology: Homogenization degree can reach up to 90% or higher. By improving beam uniformity, it significantly enhances the spatial uniformity of illumination, effectively eliminating common issues like "hot spots" and dark areas in traditional laser illumination. This reduces the standard deviation of light intensity distribution on the imaging target surface to below 10%. In long-range imaging, it mitigates problems of local overexposure or underexposure of targets caused by uneven beam distribution, improves the utilization of dynamic range in photoelectric detectors, and reduces the complexity of image post-processing algorithms. This provides higher quality optical input for tasks such as UAV identification and night reconnaissance.
3. High-Power Lightweight Thermal Management Technology: Supports 24/7 continuous operation with stable module temperatures without requiring additional cooling equipment. Leveraging Lumispot's technical expertise in defense-grade laser sources and combined with customer application scenarios, it accurately identifies thermal and temperature control challenges for the light source. Utilizing methods like finite element analysis, multiple thermal management and temperature control platforms have been constructed, providing a stable and reliable working environment for products. This effectively enhances product environmental adaptability and reliability.
IV. Lumispot Laser: More Than Products, A "Strategic Partner" in Defense Lasers
The ability to create highly reliable products stems from Lumispot Laser's "Three Pillars of Confidence":
● System Certification Backing: Possesses special industry qualifications. Products are strictly designed and developed adhering to relevant product systems, with each model undergoing performance, functional, and reliability testing.
● Full-Chain R&D Capability: Achieves independent R&D and production from semiconductor lasers and optical lenses to control systems, ensuring full-process control. This builds a complete technological chain covering core components to system integration, reducing customization cycles to two-thirds of the industry average.
● Clear Vision and Roadmap: Aiming to "become a global leader in the field of laser-based special information applications," the company continuously invests in R&D for aerospace-grade and high-power laser technologies, driving the constant iteration of defense laser technologies.
Post time: Dec-11-2025