LASER COMPONENTS AND SYSTEMS
OEM laser Solutions in Multiple Application Area
Lumispot Tech offers a variety of conduction-cooled laser diode arrays. These stacked arrays can be accurately fixed on each diode bar with a fast-axis collimation (FAC) lens. With the FAC mounted, the fast-axis divergence is reduced to a low level. These stacked arrays can be constructed with 1-20 diode bars of 100W QCW to 300W QCW power.
High-power, quick-cooling QCW (Quasi-Continuous Wave) laser with horizontal stacks, with 808nm wavelength and 1800W-3600W output power, designed for applications in laser pumping, material processing, and medical treatments.
The Laser diode mini-bar Stack is Integrated with half-size diode bars, allowing the stack arrays to emit high-density optical power up to 6000W, with a wavelength of 808nm, which can be used in laser pumping, illumination, research, and detection areas.
With Customizable Bars from 1 to 30, the output power of the arc-shaped laser diode array can reach up to 7200W. This product features a compact size, high power density, high electro-optical efficiency, stable performance, and long life, which can be used in lighting, scientific research, inspection, and pumping sources.
The long pulse laser diode vertical stacks are an ideal choice for hair removal areas, use high-density laser bar stacking technology, which can consist of up to 16 diode bars of 50W to 100W CW power. Our products in this series are available in a choice of 500w to 1600w peak output power with bar counts ranging from 8-16.
The Annular QCW Laser Diode Stack is designed for pumping rod-shaped gain media, featuring an arrangement of annular semiconductor laser arrays and a heat sink. This configuration forms a complete, circular pump, significantly enhancing pump density and uniformity. Such a design is pivotal for applications requiring high precision and efficiency in laser pumping.
The QCW Diode Pumping Laser is a new type of solid-state laser using solid laser materials as the active medium. Known as the second generation of lasers, it utilizes the quasi-continuous mode of semiconductor lasers to pump the laser medium with a fixed wavelength, offering high efficiency, longevity, excellent beam quality, stability, compactness, and miniaturization. This laser has unique applications in high-tech fields such as space communication, micro/nano processing, atmospheric research, environmental science, medical devices, and optical image processing.
The Continuous Wave (CW) Diode Pumping Laser is an innovative solid-state laser using solid laser materials as the working substance. It operates in a continuous mode, employing semiconductor lasers to pump the laser medium at a fixed wavelength, replacing traditional krypton or xenon lamps. This second-generation laser is characterized by its efficiency, long lifespan, superior beam quality, stability, compact and miniature design. It has unique application prospects in scientific research, space communication, optical image processing, and processing high-reflection materials like gems and diamonds.
By doubling the frequency of the light output from a neodymium- or ytterbium-based 1064-nm laser, our G2-A laser can produce green light at 532 nm. This technique is essential for creating green lasers, which are commonly used in applications ranging from laser pointers to sophisticated scientific and industrial instruments, and also be popular in the Laser Diamond Cutting Area.
The Fiber Coupled Green Module is a semiconductor laser with fiber-coupled output, noted for its compact size, lightweight, high power density, stable performance, and long lifespan. This laser is integral for applications in laser dazzling, fluorescence excitation, spectral analysis, photoelectric detection, and laser display, serving as a crucial component in various systems.
C2 Stage Fiber coupled diode laser - diode laser devices that couple the resulting light into an optical fiber, have a wavelength of 790nm to 976nm and output power of 15W to 30W, and characteristics of efficient transmission heat dissipation, compact structure, good air impermeability, and long operating life. Fiber-coupled devices can be easily combined with other fiber components and applied in pump source and illumination fields.
C3 Stage Fiber coupled diode laser - diode laser devices that couple the resulting light into an optical fiber, have a wavelength of 790nm to 976nm and output power of 25W to 45W, and characteristics of efficient transmission heat dissipation, compact structure, good air impermeability, and long operating life. Fiber-coupled devices can be easily combined with other fiber components and applied in pump source and illumination fields.
C6 Stage Fiber coupled diode laser-diode laser devices that couple the resulting light into an optical fiber, have wavelength of 790nm to 976nm and output power of 50W to 9W. C6 Fiber Coupled Laser has the advantages of efficient conduction and heat dissipation, good air tightness, compact structure, and long life, which can be used in pump source and illumination.
The LC18 series of semiconductor lasers are available in center wavelengths from 790nm to 976nm and spectral widths from 1-5nm, all of which can be selected as needed. Compared with C2 and C3 series, the power of LC18 class fiber-coupled diode lasers will be higher, from 150W to 370W, configured with 0.22NA fiber. the working voltage of LC18 series products is less than 33V, and the electro-optical conversion efficiency can basically reach more than 46%. The whole series of platform products are subject to environmental stress screening and related reliability tests in accordance with the requirements of national military standards. The products are small in size, light in weight, and easy to install and use. While meeting the specific requirements of scientific research and military industry, they save more space for downstream industrial customers to miniaturize their products.
LumiSpot Tech provides Single Emitter Laser Diode with multiple wavelength from 808nm to 1550nm. Among all, this 808nm single emitter,with over 8W peak output power, has small size, low power consumption, high stability, long working-life and compact structure as its special features, which is given the name as LMC-808C-P8-D60-2. This one is capable of forming a uniform square light spot, and is easy to store from - 30℃ to 80 ℃, mainly used in 3 ways: pump source, lightning and vision inspections.
The 1550nm pulsed single-emitter semiconductor laser is a device that utilizes semiconductor materials to generate laser light in a pulsed mode, with a single chip encapsulation. Its 1550nm output wavelength falls within the eye-safe range, making it versatile for various industrial, medical, and communication applications. This technology offers a safe and effective solution for tasks requiring precise light control and distribution.
With 905nm working wavelength and ranging ability up to 1000m, the L905 series modules are the solutions for a multitude of applications. They are ideal for enhancing devices used in outdoor sports, tactical operations, and various professional sectors including aviation, law enforcement, and environmental monitoring.
L1535 Series Laser Rangefinder is fully self-developed based on an eye-safe wavelength of 1535nm erbium-doped glass laser with patent protection with intellectual property production, with a range distance from 3km to 12km. It can be mounted on a variety of platforms. The products have the features of small, light-weight, and high-cost performance.
L1570 rangefinders from Lumispot Tech are based on a fully self-developed 1570nm OPO laser, protected by patents and intellectual property rights, and now meet Class I human eye safety standards. The product is for single pulse rangefinder, cost-effective and can be adapted to a variety of platforms. The main functions are single pulse rangefinder and continuous rangefinder, distance selection, front and rear target display and self-test function.
The Erbium-doped Glass Laser is used in eye-safe rangefinders and is characterized by its reliability and cost-effectiveness. This laser is also known as the 1535nm Eye-safe Erbium Laser because the light in this wavelength range is absorbed in the cornea and crystalline form of the eye and does not reach the more sensitive retina. The need for this DPSS eye-safe laser is critical in the field of laser ranging and radar, where light needs to travel long distances outdoors again, but some products in the past have been prone to damage or blinding hazards to the human eye. The current common bait glass lasers use co-doped Er: Yb phosphate glass as the working material and a semiconductor laser as the pump source, which can excite a 1.5um wavelength laser. This series of products is an ideal choice for the Lidar, Ranging, and Communication field.
Assembled Handheld rangefinders series developed by LumiSpot Tech are efficient, user-friendly, and safe, employing eye-safe wavelengths for harmless operation. These devices offer real-time data display, power monitoring, and data transmission, encapsulating essential functions in one tool. Their ergonomic design supports both single-hand and double-hand usage, providing comfort during use. These rangefinders combine practicality and advanced technology, ensuring a straightforward, reliable measuring solution.
The Distributed Optical Fiber Temperature Sensing Source features a unique optical path design that significantly reduces nonlinear effects, enhancing reliability and stability. It is thoroughly designed for anti-back reflection and operates efficiently across a wide range of temperatures. Its distinctive circuit and software control designs not only effectively protect the pump and seed lasers but also ensure their efficient synchronization with the amplifier, offering rapid response times and excellent stability for precision temperature sensing.
The 1.5um/1kW Mini Pulse Fiber Laser for LiDAR is designed for depth optimization in terms of size, weight, and power consumption, making it one of the industry's most power-efficient and compact LiDAR sources. It's ideal for applications requiring miniaturized laser sources such as airborne remote sensing, laser rangefinders, and ADAS automotive LiDAR.
The 1.5um/3kW Pulse Fiber Laser for LiDAR, a compact and lightweight (<100g) pulsed fiber laser source, offers high peak power, low ASE, and superior beam quality for mid to long-range distance measurement systems. It's designed for easy integration into small optoelectronic systems like individual soldiers, unmanned vehicles, and drones, offering strong environmental adaptability with proven durability under extreme conditions. Aimed at automotive and airborne remote sensing, it meets automotive-grade standards, making it suitable for ADAS LiDAR and remote sensing mapping.
This product is a 1550nm pulsed fiber laser that needs to exhibit characteristics such as narrow pulse width, high monochromaticity, a wide operating temperature range, high operational stability, and abroad frequency tuning range. lt should also have a high electrical-optical conversion efficiency, low ASE noise, and low nonlinear effects. lt is primarily used as a laser radar source for detecting information about spatial target objects, including their distance and reflective properties.
This product is a 1.5um nanosecond pulse fiber laser developed byLumispot Tech. lt features high peak power, flexible and adjustable repetition frequency, and low power consumption. lt is highly suitable for use in the TOF radar detection field.
This product features an optical path design with a MOPA structure, capable of generating ns-level pulse width and peak power of up to 15 kW, with a repetition frequency ranging from 50 kHz to 360 kHz. It exhibits high electrical-to-optical conversion efficiency, low ASE (Amplified Spontaneous Emission), and nonlinear noise effects, as well as a wide operating temperature range.
This product is a 1064nm nanosecond pulse fiber laser developed by Lumispot, featuring precise and controllable peak power ranging from 0 to 100 watts, flexible adjustable repetition rates, and low power consumption, making it well-suited for applications in the field of OTDR detection.
The 1064nm Nanosecond Pulsed Fiber Laser from Lumispot Tech is a high-powered, efficient laser system designed for precision applications in the TOF LIDAR detection field.
The Seris of the single laser-line light source, which has three main models, 808nm/915nm divided/integrated/single laser-line railway vision inspection laser light illumination, is mainly applied in three-dimensional reconstruction, inspection of railroad, vehicle, road, volume, and industrial inspection of the light source components. The product has the features of a compact design, a wide temperature range for stable operation, and power-adjustable while ensuring the uniformity of the output spot and avoiding the interference of sunlight on the laser effect. The product's center wavelength is 808nm/915nm, power range is 5W-18W. The product offers customization and multiple fan angle sets available. The laser machine is able to work in a wide temperature range of -30℃ to 50℃, which is completely suitable for outdoor environments.
The Seris of multiple laser-line light source, which has 2 main models: Three laser-line illumination and multiple laser-line illuminations, it has the features of a compact design, a wide temperature range for stable operation and power-adjustable, number of grating and fan angle degrees, ensuring the uniformity of the output spot and avoiding the interference of sunlight on the laser effect. This type of product is mainly applied in 3D remodeling, railroad wheel pairs, track, pavement, and industrial inspection.The center wavelength of the laser is 808nm, power range of 5W-15W, with customization and multiple fan angle sets available. The laser machine is able to work in a wide temperature range of -30℃ to 50℃, which is completely suitable for outdoor environments.
The Supplement Lighting of Laser (SLL) system, consisting of a laser, optical system, and main control board, is known for its excellent monochromaticity, compact size, lightweight, uniform light output, and strong environmental adaptability. It's widely used across various industries, including railway, highway, solar energy, lithium battery, defense, and military.
The vision inspection system from Lumispot Tech called WDE010, adopting the semiconductor laser as the light source, has a range of output power from 15W to 50W, multiple wavelengths (808nm/915nm/1064nm). This machine assembles and designs the laser, camera and power supply part in an integrated manner,.The compact structure reduces the physical volume of the machine,and ensures good heat dissipation and stable operation simultaneously. As it is already assembled whole machine model, it means that it will be more convenient to use and the time of field modulation is reduced accordingly. The main features of the product are: free modulation before use, integrated design, wide temperature operation requirements (-40℃ to 60℃), uniform light spot, and can be customized.WDE004 is mainly used in railroad tracks, vehicles, pantographs, tunnels, roadways, logistics and industrial detection behavior.
Lenses come in two types: fixed focal length and variable focal length, each suited to different user environments. Fixed focal lenses have a single, unchangeable field of view, whereas variable focal (zoom) lenses offer flexibility in adjusting the focal length to adapt to varying application environments. This adaptability makes both types of lenses extensively used in industrial automation and machine vision systems, catering to specific requirements based on the operational context.
Lenses come in two types: fixed focal length and variable focal length, each suited to different user environments. Fixed focal lenses have a single, unchangeable field of view, whereas variable focal (zoom) lenses offer flexibility in adjusting the focal length to adapt to varying application environments. This adaptability makes both types of lenses extensively used in industrial automation and machine vision systems, catering to specific requirements based on the operational context.
High-precision fiber gyroscopes commonly use 1550nm wavelength erbium-doped fiber light sources, which have better spectral symmetry and are less affected by environmental temperature changes and pump power fluctuations. Additionally, their lower self-coherence and shorter coherence length effectively reduce the phase error of fiber gyroscopes.
Lumispot offers customized options, with inner diameters of the fiber ring ranging from 13mm to 150mm. Winding methods include 4-pole, 8-pole, and 16-pole, with working wavelengths of 1310nm/1550nm. These are suitable for use in fiber optic gyroscopes, laser surveying, and scientific research domains.