highpowerlasermodule – Page 2 – High Power Blue, Green, Red, Infrared Laser Modules

Industrial Line Alignment Work with 445nm Blue Line Laser Module

When high precision line indication work is in serious need in those of industrial precise machinery processing works, it is not simply relying on manual line drawing or printing work, but making an even better job with a high energy density beam emitted tool of a 445nm blue line laser module. Owing to its special use of a qualified optic lens and import 445nm semiconductor blue laser diode inside a highly durable housing tube, only if it gets constant electric power source supply and proper installation onto those of industrial device or device, this direct diode emission made blue laser line generator is able to project highly fine, straight and bright blue reference line, and providing a precise linear reference for industrial production and improving processing and measurement accuracy.
The basic use of an import 445nm blue laser diode enables wide range output power of 50mW to 100mW and high power up to 150mW to 500mW, thus 445nm blue line laser module is always designed with good thermal emitting system. It gets basic use of a metal heat sink cooling system and APC, ACC driving circuit board inside its durable anodized aluminum alloy housing tube. In practical precise line positioning works, it always gets excellent thermal conductivity and ultra stable blue line projection under multiple working environments, including wide range operating temperature, humidity and other mechanical moving or calibration as well. In process of long period lasting blue line projection work, blue laser line generator is able to maintain its stable performance and long serving lifetime in proper use.
According to quite easy screw of adjustable focus optic lens, 445nm Gaussian beam blue line laser module enables high speed blue laser light source concentration, and converts into increasing accuracy and fineness blue reference line at a long extending distances. In addition, according to its special design of 16mm, 18.9mm and 26mm diameter metal housing tube design, this ultra compact structure made laser line generator always enables quite easy installation and integration into various industrial equipment and makes sure of easy reaching, good direction and quick response blue line indication onto any vertical or horizontal surface immediately.
Applications in industrial fields:
Material Processing: 445nm blue laser line generator can be used for laser marking and cutting, marking and cutting on a variety of materials, including wood, acrylic, and leather. Its precise linear output enables fine pattern processing and high-precision cutting edges.
Alignment and Positioning: highly straight and bright blue alignment laser lines are commonly used in industrial production for equipment installation and commissioning, as well as for alignment and positioning during processing. For example, in woodworking machinery, stone processing machinery, and packaging machinery, they provide precise marking lines for material cutting, ensuring accurate cutting positions and improving production efficiency and product quality.
Laser Measurement: 445nm blue line laser module can be used as reference laser lines to measure object dimensions or distances. In conjunction with relevant measuring instruments, they can accurately measure parameters such as length, width, and height. They can also be used to measure geometric tolerances such as straightness and flatness. 3D Scanning and Modeling: In 3D scanning, a single cross-section of a target object can be captured at once, providing data support for robot positioning and component 3D model reconstruction, helping to quickly and accurately acquire three-dimensional information about the object.
Machine Vision: This alignment laser can be used as a light source in machine vision systems to help identify features such as edges and contours, assisting robots in precise grasping and sorting operations, or detecting product defects and dimensional deviations.

Industrial Machinery Processing Used 445nm Blue Line Laser Module

In those of industrial machinery processing work fields, the usual use of a 445nm blue line laser module is always operating as an accessory part for precision positioning and auxiliary alignment tool. It applies advanced semiconductor blue laser diode and a qualified optic lens inside a highly durable housing tube, which enables easy carrying, operation and clear line indication onto multiple working surfaces. Not seriously relying on manual line drawing work or professional skills, this laser line generator should only be selected with correct output power and optic lens fan angle. Within quite long extending distance and long operating period, it is able to provide operators clear, quick and easy reaching blue line indication onto multiple raw material surfaces conveniently.

When 445nm blue line laser module gets constant electric power source supply, owing to its ultra compact size and durable structure design, it is widely used in machining processes on lathes, milling machines, grinders, boring machines, and other equipment. It is used to mark machining reference lines, locate workpiece edges or contours, calibrate tool paths, and ensure machining accuracy. It applies an import 445nm blue laser diode within 50mW to 100mW and high power range of 150mW to 500mW, owing to its intense blue laser light emission directly from a laser diode, not as bright as a 473nm blue DPSS laser system, however, this blue laser line generator is able to be made with ultra compact size structure, and still maintaining ultra stable and clear blue line indication in long time work.

The usual use of a qualified glass coated lens enables highly fine blue line indication from a 445nm blue line laser module. It gets different blue line length within 0.5 meter to 6 meters, and low linearity error of less than 0.1mm per meter. It is equipped with adjustable focus optic lens, only after quite easy roast of laser beam aperture part, it enables freely adjusted blue reference line fineness and enables a micron-level reference for machining, reducing errors associated with manual visual alignment. It is particularly suitable for machining and positioning precision components such as gears, bearings, and precision molds.

Being made with durable anodized aluminum alloy housing tube, 445nm Gaussian beam blue line laser module obtains strong environmental adaptability, and provides high visibility on a variety of surfaces, including metal, plastic, and ceramics. The blue laser line remains clearly visible even in bright sunlight, oil, and dusty environments. Its interference immunity surpasses that of red or infrared lasers, preventing processing errors caused by blurred vision. Equipped with an APC/ACC driver circuit, blue laser line generator also provides stable output power, maintaining consistent laser line brightness and shape despite voltage fluctuations (100-240V) and temperature changes (-10°C to 60°C). Furthermore, its metal housing and enhanced heat dissipation design ensure it withstands mechanical vibration and long-term continuous operation (with a lifespan of over 10,000 hours).

Compared to traditional pre-processing methods such as scribing and proofing, the blue alignment laser line instantly projects positioning lines without contacting the workpiece, reducing auxiliary time. This allows for rapid workpiece alignment in batch processing, improving material changeover and processing efficiency. The optical design allows for adjustable laser line length (from a few centimeters to several meters) and angle, adapting to workpiece sizes (such as large plates and small precision parts) and processing scenarios (such as flat cutting and curved surface grinding). Owing to its ultra compact structure design, this blue laser line generator can be quickly secured to machine tool guideways, spindles, or worktables using brackets, magnets, or flanges, facilitating coordinated commissioning with processing equipment.

Textile Machinery Industry Used 405nm Violet Cross Line Laser Module

Whenever 405nm violet cross line laser module gets connects with an AC/DC adapter, not any longer spending extra time on prior cross line drawing or printing work, it just enables long time lasting violet laser beam and violet cross line projection from beam aperture. It gets no serious relying on manual labor force input and no serious limitation by work distance or operating lighting occasion etc. Being made with short wavelength of 405nm violet laser diode and a qualified glass coated lens inside a durable housing tube, it projects clear, straight and perpendicular crosshairs with high positioning accuracy, keeping errors within a narrow range and meeting the high-precision processing requirements of textile machinery.
The shorter 405nm wavelength has good absorption characteristics on some textile materials, and the purple light has high contrast on most textile fabrics, making it easy for workers to clearly see the crosshairs, even on darker colors or intricately textured fabrics. It applies a qualified import 405nm violet laser diode within 50mW to 100mW and high power up to 150mW to 500mW as its beam emitting source. Owing to its special use of a metal heat sink cooling system inside different dimension anodized aluminum alloy housing tube, typically 405nm violet cross laser alignment exhibits excellent power stability, enabling long-term continuous operation. The metal housing aids heat dissipation, maintaining laser output stability over extended periods of use and ensuring continuity and consistency during the textile processing process.
Available with different fan angles of 10, 15 and 110 degree and low laser beam divergence, this 405nm violet cross line laser module produces narrow and bright violet cross lines with high beam straightness, providing precise positioning references for various processing operations in textile machinery, helping to improve textile processing accuracy and quality. It makes precise cross line positioning and marking, which can reduce manual adjustment and calibration time, allowing workers to operate more quickly and accurately, thereby improving overall textile production efficiency and reducing production costs. Within the lowest production cost and high work efficiency, this violet cross laser alignment tool can ensure precision in cutting, sewing, and printing processes, reduces defective products caused by inaccurate positioning, and improves textile quality and consistency, helping companies enhance their product competitiveness.
Applications:
Cutting Positioning: When cutting fabric, the violet crosshairs projected by the 405nm violet cross line laser module serve as a cutting reference line, helping workers cut more accurately, ensuring accurate cut sizes, reducing fabric waste, and improving cutting efficiency and quality.
Sewing Alignment: During the sewing process, it can be used to guide fabric feeding and placement, ensuring that patterns and seams on the fabric are sewn according to preset positions. This ensures straightness and pattern alignment, improving the quality of garments and other textiles.
Printing Calibration: During textile printing, violet alignment laser helps calibrate the relative position of the printing plate and fabric, ensuring that the printed pattern is accurately printed in the designated location on the fabric, improving printing accuracy and consistency.

Industrial Stabilized Device of 405nm Violet Laser Diode Module

What is an efficient job to make clear and accurate dot indication at a longer work distance than formal hand reaching? It is not able to rely on a simple laser pointer or manual dot projecting work at all, but making even better job with a highly intense beam emitted tool of a 405nm violet laser diode module. It is widely used for a lot of industrial precise machinery processing work fields. The 405nm wavelength falls within the near ultraviolet range, with higher photon energy, allowing for focussing into a smaller spot size. It is suitable for high-precision inspection and micromachining. On condition that ultra compact structure made 405nm violet dot laser makes proper installation or integration with other industrial device or equipment, it enables easy reaching, highly precise and clear violet reference dot projection at a long extending distance constantly.
The real use of a 405nm violet laser diode module applies an import import 405nm violet laser diode within 50mW to 100mW and high power range of 150mW to 500mW as its beam emitting source, which is in need to make long time lasting dot projection work as expected. It applies an inner metal heat sink cooling system and APC, ACC driving circuit board inside a durable anodized aluminum alloy housing tube. Besides the adoption of a qualified laser diode, it is also coupled with high performance driving circuit board, which offers strong anti-interference performance, excellent consistency, and a long service life of more than 10,000 hours in use. When violet dot laser module is working together with other industrial device or instrument, it can work continuously within 8 to 10 hours per day, and still maintains ultra high laser beam stability of up to 85% in continuous use.
Typically 405nm violet laser diode module is made with ultra compact size tube, available with 16mm, 18.9mm and 26mm diameter for different output power range. It gets featured advantages of ultra-small footprint and high compatibility, which are easily integrated into various industrial equipment, convenient to use, and do not occupy excessive space. According to real work distance, 405nm violet laser alignment enables correct use of output power and equipped operating voltage DC power supply, it is suitable for high precision industrial dot measuring application fields greatly. The short wavelength excels in industrial applications requiring high precision, such as semiconductor photolithography, enabling high-precision line exposure and uniform exposure, meeting the high-precision requirements of microelectronic component manufacturing.
In addition, the practical use of a glass coated lens 405nm violet laser diode module is compatible with special materials. It offer excellent dot marking and curing performance for certain materials, such as some plastics, resins, and photosensitive resins, making them difficult to replace with other wavelengths. It also gets unique interaction with biomolecules and biomarkers, making it widely used in biomedical testing instruments. It can excite fluorescent markers, enabling the detection and imaging of biological tissues and molecules, playing a vital role in the R&D and production of medical devices.
Application in industrial precise machinery processing works:
Material Processing and Marking: 405nm violet laser diode module can be used for laser marking on some plastics, resins, and other materials, accurately engraving patterns, text, and other markings on their surfaces. It can also be used for photocuring. The 405nm wavelength can rapidly cure certain photosensitive resins, finding applications in 3D printing and UV ink curing.
Semiconductor and Electronics Manufacturing: 405nm violet alignment lasers play a key role in laser direct imaging (LDI) equipment used in industrial PCB production. Their high power output enables submicron exposure accuracy, enabling precise engraving of complex circuit patterns, improving the yield rate of PCB production, and shortening exposure time. Measurement and Control: It can be used in laser tool setters. For example, the HPS-LCA100 high-precision laser tool setter utilizes a 405nm violet laser diode module. Its shorter wavelength enables higher measurement accuracy and improved anti-interference capabilities, enabling stable, rapid, and precise tool measurement under the complex working conditions of CNC machining centers.
Biomedical Testing: The 405nm wavelength resonates with absorption wavelengths of substances such as DNA and RNA, and also matches the excitation wavelengths of various biomarkers. Violet alignment laser is commonly used in fluorescent dye excitation, cell imaging, flow cytometry, and Raman spectroscopy, helping researchers observe and analyze biological tissue samples.

Good Linear Quality 405nm Violet Laser Line Generator Review

In process of highly precise and clear line indication at a longer work distance than formal hand reaching, it would be a much better solution to operate an intense and powerful violet laser light source emitted tool of a 445nm violet laser line generator. Being made with an import 405nm violet laser diode and a qualified glass coated lens inside a highly durable metal housing tube, this direct diode emission made violet line laser can be working well with increasing accuracy and brightness violet line indication at long extending distance stably. It can be used in industrial production, laser measurement, photolithography manufacturing, and other field, which also gets featured advantages of excellent linearity, high stability, and strong adjustability.

The usual use of a 405nm violet laser line generator applies an import 405nm violet laser diode as its beam emitting source, available with wide range output power of 50mW to 100mW and high power up to 150mW to 500mW. In various long term lasted precise line positioning work fields, it is a key issue to maintain its stable line projection in continuous use. It applies an inner metal heat sink cooling system and APC, ACC driving circuit board inside a durable anodized aluminum alloy housing tube, which protects violet line laser module from overheating and over current impact in continuous work and assures long serving lifetime of more than 8,000 hours in proper use.
The genuine line alignment work is required with high level of accuracy and high fineness onto different working surfaces. This 405nm violet laser line generator applies a qualified glass coated lens within 10 to 110 degree fan angle, and adjustable focus optic lens design. Only if it gets constant power source supply, it can provide precise linear positioning for various processing and measurement equipment, reducing manual positioning errors and improving product accuracy and consistency. In industrial production, violet line laser module can quickly help workers determine processing positions, reduce debugging time, and speed up production processes, making it particularly suitable for large-scale assembly line production. After proper adjustment of both of violet laser line fineness and line emitting direction, it can be suitable for a variety of industrial scenarios and scientific research experiments, with high versatility.
Main Applications
Industrial Production: 405nm violet laser line generator is commonly used in material cutting, woodworking machinery, packaging machinery, and stone processing machinery, which serves as an auxiliary marking and positioning tool, helping workers perform operations more accurately, improving production efficiency and product quality.
Laser Measurement: When measuring object size or distance, it provides a reference laser line, facilitating accurate data acquisition and improving measurement accuracy.
Scientific Research and Optical Experiments: It can be used as a light source or reference line in optical lens and spectrometer experiments, providing a stable light source and precise reference.
Microscope Automation: 405nm violet line laser module can assist in precise operations under the microscope, helping researchers observe and manipulate samples more accurately. Structured light applications: Used in 3D scanning and machine vision to create specific light patterns that can cover the cross-section of a target object in one go, facilitating the acquisition of 3D information, enabling robot positioning, and 3D model reconstruction of components.
Photolithography: Its short wavelength allows it to be focused into a small spot, making violet alignment laser suitable for wafer detail processing and texture etching in semiconductor manufacturing, as well as micro- and nano-machining of biomedical materials.

1064nm Multimode Infrared Laser Diode Used for Material Processing

The operation of 1064nm multimode infrared laser diode can achieve power output power of several watts to kilowatts, and the energy density is sufficient to quickly melt or vaporize most materials. The processing efficiency is much higher than that of low power single mode lasers, which is suitable for mass production fields, such as assembly line parts processing. The spot of multimode output is large and the energy distribution is relatively uniform, which can reduce local impact on the surface of the material and reduce the risk of cracks and deformation. It is especially suitable for the processing of thick materials or brittle materials (such as ceramics).
Compared with high-power single-mode lasers, 1064nm multi-mode infrared laser diodes have a simple structure, low manufacturing cost, and low precision requirements for the optical system (no complex focusing optical path is required). Daily maintenance is convenient and suitable for small and medium-sized processing enterprises. The 1064nm wavelength has a high absorption rate for metals (such as iron, aluminum) and non-metals (such as plastics and glass). There is no need to frequently change the infrared laser source for different materials, and it can be compatible with multi-category processing needs.
The spot size can be adjusted (no high-precision focusing is required) to adapt to workpieces of different sizes (such as large-area plates, small parts), and the surface flatness requirements of the workpiece are low, which is suitable for processing materials with irregular shapes or rough surfaces. In practical dot measuring work, 1064nm multimode laser diode always has strong environmental tolerance, which is less sensitive to vibration and temperature fluctuations than single mode lasers, and can still stably in complex environments such as industrial workshops, reducing processing interruptions caused by environmental interference.
Due to its high power output and specific wavelength characteristics, 1064nm multimode laser diodes are suitable for scenes with relatively moderate precision requirements but high efficiency processing in material processing, mainly including:
Welding and cladding of metal materials: near wavelength 1064nm multimode infrared laser diode is used for welding of medium and thick plates of metals such as stainless steel and aluminum alloys, the high power (several watts to hundreds of watts) of multimode lasers can quickly melt materials, and the wide spot can increase the welding pool area and improve the connection strength. in surface cladding, alloy coatings can be evenly deposited to enhance the wear resistance of materials.
Cutting and engraving of non-metallic materials: For plastics, wood, ceramics, etc., the high absorption rate of 1064nm multimode infrared laser diodes can achieve fast cutting, and the wide spot of multimode characteristics is suitable for large-area engraving (such as plate surface pattern processing), and batch processing can be completed without high-precision focusing.
Stripping of thin films and coatings: used to remove thin films on the surface of electronic components (such as display screens and circuit boards). The uniform energy distribution of 1064nm multimode infrared laser diodes can avoid substrate damage caused by local overheating and achieve large-area efficient stripping.
Material surface modification: by laser annealing the surface of metals or semiconductors, the wide action area of multimode laser diodes can achieve overall surface hardness improvement or stress elimination, which is suitable for surface strengthening of batch parts.

980nm Infrared Laser Diode Module Used for Medical Fields

Different from any other visible laser devices, the adoption of a 980nm infrared laser diode module belongs to a near infrared laser devices. It emits invisible and intense infrared laser beam directly from an import 980nm semiconductor IR laser diode, which is mainly used in minimally invasive treatment, diagnostic assistance and precision surgery in the medical field due to its infrared tissue penetration and precise energy focusing ability. Being made with constant power source supply and built in thermal emitting system, this direct diode emission made 980nm infrared dot laser gets good heat dissipation, long time lasting and high stability infrared reference dot projection onto multiple working surfaces constantly.
How can near infrared laser work in medical fields? Comparing with any other visible laser devices, 980nm infrared laser diode module gets even strong laser light penetration ability than those of visible laser devices. Near infrared laser light source is less affected by the scattering and absorption of biological tissues (such as skin and muscles). It can penetrate several millimeters to several centimeters of deep tissues, which is suitable for deep lesion treatment or imaging. At the same time, cooperated with the a qualified glass coated lens and low laser beam divergence of less than 1.5mard fan angle, 980nm infrared dot laser enables high concentration infrared laser light source emission, and converts into ultra clear and precise infrared reference dot at a long extending distance.
In order to achieve even more precise and clearer infrared dot projection at longer distance, this 980nm infrared laser diode module also gets special use of adjustable focus optic lens design. Highly powerful and concentrated infrared laser light and IR dot can accurately act on the target tissue (such as micro-vessels, tumor cells), reducing damage to surrounding healthy tissues. Whatever output power it is selected, owing to its special adoption of APC, ACC driving circuit board, 980nm infrared dot laser is also working well with constant output power emission, and the most reliable infrared dot indication, without effect by overheating and over current impact as well. In addition, it can greatly avoid tissue burns caused by abnormal power. At the same time, infrared laser light is invisible to the naked eye and needs to be positioned with red light indication to ensure accurate positioning of the target area during operation.
Main application in the medical field
Minimally invasive treatment:
Treatment of vascular diseases: In the treatment of varicose veins, hemangiomas, etc., 980nm laser diode module can be efficiently absorbed by hemoglobin in the blood, and the blood vessel wall can be contracted and closed through the photothermal effect to achieve minimally invasive ablation, which is less traumatic and recovers faster than traditional surgery.
Otorhinolaryngology treatment: It is used for minimally invasive surgeries such as tonsil hypertrophy and nasal polyps. The infrared dot light spot can accurately act on the diseased tissue, reduce damage to the surrounding healthy mucosa, and reduce the risk of postoperative complications.
Research and application of photothermal therapy:
In basic research and clinical treatment of tumors, with the help of nano-drug delivery systems (such as gold nanoparticles), 980nm infrared alignment lasers can penetrate deep tissues, accurately heat the tumor site through photothermal conversion, achieve local high temperature killing of cancer cells, and reduce the impact on normal tissues.
Diagnosis and imaging assistance:
As a near-infrared light source to assist biological imaging, for example, in intraoperative navigation, by stimulating tumor-specific fluorescent probes, 980nm IR dot laser can help doctors identify tiny tumor lesions or tumor boundaries, and improve the accuracy of surgical resection.
Physical therapy and rehabilitation:
In the physical therapy of chronic pain and inflammation, low-power 980nm infrared alignment lasers can penetrate subcutaneous tissues, promote local blood circulation and tissue repair, and relieve symptoms such as muscle strain and joint inflammation.

808nm Infrared Crosshair Laser Module For Industrial Alignment and Positioning

Whenever advanced 808nm infrared laser diode tech and a qualified glass coated lens with different fan angles are applied for industrial grade laser device production, it is manufacturing into a professional cross line measuring tool of a 808nm infrared crosshair laser module. It emits intense and powerful infrared laser light source directly from an import 808nm infrared laser diode. Compared with traditional tools such as tape measures and squares, infrared cross laser alignment tool does not need to touch the workpiece and can complete positioning within seconds. They are especially suitable for mass production scenarios, which can significantly reduce auxiliary working hours and improve overall production efficiency.
The usual use of a 808nm infrared cross line laser module applies a qualified glass coated lens and adjustable focus optic lens design. The linear quality and verticality errors of the laser cross lines are extremely small, usually up to 0.1mm per meter level, and are not effected by ambient light (not under direct strong light), avoiding subjective errors and wear errors of manual visual positioning or mechanical contact positioning, and the accuracy remains stable for long-term use. When infrared cross laser alignment applies durable anodized aluminum alloy housing tube, it can achieves industrial grade module standard, which has the ability to resist vibration and electromagnetic interference, and can work continuously and stably in industrial environments with dust, oil pollution, and temperature fluctuations. The infrared light characteristics enable them to be clearly displayed in dark workshop environments (visibility can be enhanced with infrared receiving equipment or fluorescent plates).
Although 808nm infrared crosshair laser module applies an import 808nm infrared laser diode within 5mW to 500mW as its beam emitting source, however, it still adopts quite compact size tube diameter of 16mm, 18.9mm and 26mm. It gets various installation methods, for instance, which can be fixed on equipment racks, robotic arms or mounting bracket etc. According to quite easy screw of beam aperture part, this infrared laser alignment enables highly intense and powerful infrared laser light source concentration, and efficient conversion into increasing accuracy infrared cross line projection at greater distance. After proper adjustment of cross line projecting direction and thickness, it can be adopted to different work pieces and equipment of different sizes. It is easy to operate and install, without professional training, and operators can use it through simple debugging.
In industrial alignment and positioning, the 808nm infrared cross line laser module provides accurate spatial positioning reference for various industrial processing, assembly, detection and other links by emitting clear and stable infrared cross reference lines. It gets a lot of helpful applications as below:
• Mechanical processing: In the clamping of work pieces on lathes, milling machines and other equipment, the infrared cross line can quickly align the center axis or processing reference surface of the work piece to ensure the position accuracy of operations such as cutting and drilling, and reduce the scrap rate caused by positioning deviation.
• Sheet metal and welding: When splicing sheet metal parts, the cross-line emitted from a infrared cross laser can intuitively mark the vertical or horizontal alignment line of the splicing edge to avoid the error of manual marking; during welding, the weld position can be accurately located to ensure the consistency of the welding trajectory.
• Stone/wood cutting: On stone, wood and other plate cutting equipment, the infrared alignment laser can pre-mark the starting point and direction of the cutting path. The operator does not need to measure repeatedly and can directly cut according to the line, which greatly improves the cutting efficiency and dimensional accuracy.
• Assembly line assembly: In assembly line assembly of electronic products, automotive parts, etc., the infrared cross line source can be used as alignment marks for component installation to ensure precise docking of components in vertical and horizontal directions, and improve assembly speed and consistency.

Multiple Use of Long Wavelength 808nm Infrared Laser Diode Module

Based on advanced 808nm infrared laser diode and a qualified glass coated lens, it is forming into a professional dot measuring tool of a 808nm infrared laser diode module. It is available with stable wavelength and narrow spectrum. When it gets easy connects with an external electric power source and makes proper installation onto night version machine or device, it is usually used to collimate and focus the IR laser, marking the infrared laser dot rounder and smaller, improving the IR laser beam quality, and reducing the energy loss of the laser during transmission.
Being made with an inner metal heat sink cooling system and intelligent feedback controlled driving circuit board inside a durable anodized aluminum alloy housing tube, this 808nm infrared laser diode module can ensure the stability of the output power, and high stability infrared reference dot projection. Whatever output power it is selected, in process of long time lasting IR dot measuring works, it gets no effect by increasing temperature and serious electric current impact as well. Within constant IR laser beam and IR dot projection within 8 to 10 hours per day, it gets reduced possibility of tube burning out or damage, and maintains ultra long serving lifetime of more than 8,000 hours in proper use.
Inside the durable anodized aluminum alloy housing tube, longer wavelength 808nm infrared laser diode module applies a qualified glass coated lens and glass window in front of laser beam aperture. In order to assure its long time lasting IR dot projection, it also passes up to 24 hours beam stability and aging preventing test before its flowing into laser market. Whenever it generates high photoelectric ability and high density infrared laser light source, this infrared dot laser also converts into increasing brightness and accuracy infrared dot projection at longer distance of 25 meters. Owing to its ultra compact structure design, small size design and light weight, being used as an accessory part, this 808nm infrared dot laser is easy to integrate into various devices, such as laser hair removal devices, laser communication equipment, photoelectric detection instrument etc.
Together with a laser alignment mounting bracket, either designed with 16mm or 26mm metal housing tube, this 808nm infrared laser diode module is convenient for users to install onto different device or platforms, which can achieve fast and accurate positioning and fixation. It can be applied to multiple fields as below, with many advantages and high practicality.
Medical beauty: commonly used in laser hair removal, its wavelength can be absorbed by melanin in hair follicles, converted into heat energy to destroy hair follicles, and achieve lasting hair removal effect. 808nm infrared alignment laser can also be used for skin treatment, such as promoting collagen proliferation, improving acne scars, spots and other skin problems.
Security monitoring: It can be used as an infrared lighting source to provide auxiliary lighting for surveillance cameras at night or in low light environments, because it emits invisible light, which is not easy to be detected, and can achieve hidden monitoring.
LiDAR: As the light source of LiDAR, 808nm infrared laser light source is used to detect the distance, position and shape of the target object, and can be used in fields such as autonomous driving and robot navigation.
Gesture recognition and three-dimensional sensing: In consumer electronics, it can be used for gesture recognition systems to achieve human-computer interaction. It can also be used for three-dimensional sensing to provide light sources for 3D face recognition, virtual reality and augmented reality devices to help obtain three-dimensional information of objects.
Industrial positioning and indication: In the fields of construction, geological survey, etc., 808nm infrared dot laser can provide accurate positioning to help engineers and technicians perform precise work. It can also be used for long-distance target marking in special fields.

Multiple Application Field Used 635nm Red Cross Line Laser Module

Whatever kind of working surface users are in need of ultra clear and long time lasting cross line generation, in multiple industrial and high tech work fields, it would be an efficient job to operate a high energy density beam emitted tool of a 635nm red cross line laser module. It keeps work with low laser beam divergence and high linear quality red vertical and horizontal lines generation at long extending distance. Based on the use of correct output power and optic lens fan angle, and proper installation onto industrial device or equipment, not limited by long distance, high height and other complex working environments etc, this accessory part of a cross laser alignment tool brings users stable output power, long lasting cross line projection and long lifetime for all working occasions effectively.

635nm red cross line laser module

Being made with durable anodized aluminum alloy housing tube, the real use of a 635nm red cross line laser module always bears wide range operating temperature of – 10℃ to 75℃, and storage temperature range of – 40℃ to 85℃. It can always adapt to a variety of different ambient temperature conditions and can also work stably in harsh industrial environments. Even though it applies an import semiconductor laser diode within 5mW to 100mW and 150mW to 500mW output power, however, after its proper design of a metal heat sink cooling system, this red cross laser alignment tool achieves superior nice heat dissipation, and increasing stability two perpendicular red lines generation as long as 10 hours per day.
Configured with different dimension tube for different output power range, the genuine use of a 635nm red cross line laser module is easily installed on various industrial equipment and instruments to provide positioning marking functions for different equipment. Under the same output power, the visual brightness of 635nm red laser is 3 times that of 650nm, and the long distance indication effect is better. It can also be clearly seen at a long work distance, which is suitable for long-distance cross line positioning and use in harsh lighting environments. This glass coated lens made cross laser alignment tool maintains good collimation, low light divergence and high straightness red cross line projection at different work distances. It can provide accurate cross line markings so as to ensure the accuracy of positioning.
Owing to its high stability cross line projection, long serving lifetime and easy integration with industrial device or equipment, this 635nm red cross line laser module can get ideal cross line alignment results for a lot of working occasions as below:
Clothing and textile industry: pure light and straight red cross line laser source can be used for clothing button point light source positioning, cloth cutting machine cloth cutting auxiliary marking, clothing folding laser marking positioning, etc., to help workers perform cutting, sewing and other operations more accurately, and improve the accuracy and efficiency of clothing production.
Woodworking and stone industry: It is suitable for marking and positioning of woodworking machinery such as single-piece longitudinal sawing machines, multi-piece longitudinal sawing machines, etc. Pro red cross laser alignment tool can also be used for stone cutting machines, stone bridge cutting machines, etc., to help operators accurately cut wood and stone, and improve processing accuracy and efficiency.
Tire production industry: It can be installed on radial tire forming machines and bias tire forming machines for positioning during tire production, which can effectively improve tire quality and play a role in quality assurance, increased production, and reduced consumption.
Electronic manufacturing industry: It can be used for electronic SMT positioning and framing, printed circuit board marking and positioning, etc., to help accurately place electronic components, ensure the accuracy of processes such as circuit board welding, and improve the production quality of electronic products.
Building decoration industry: It can be used for positioning in equipment installation and building decoration, such as wall tile paving, door and window installation, etc., to help construction workers quickly find the correct position and ensure the flatness and verticality of the decoration construction.
Entertainment game field: red alignment laser can be used in real-life CS and other laser confrontation games to accurately locate the player’s shooting position and judge whether it hits or not, and give players timely feedback through vibration, sound effects, etc.
Medical field: Red light with a wavelength close to 633nm has a certain therapeutic effect and can be used in photon therapy devices to target inflammatory skin problems, destroy acne-related bacteria, and promote wound healing. Although it is not exactly 635nm, the principle of similar wavelengths is similar. The 635nm red cross line laser module also has potential application value in skin beauty, rehabilitation treatment, etc.