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In recent years, smart home technology is constantly developing and growing, among which smart home lens as an important part, with its high cost performance and high performance, has become a new choice for home security and monitoring. This article will introduce the types of smart home lenses and how they can meet People's Daily needs.   The main types of smart home lenses are: gun type, hemispherical, spherical, shaking head machine, card machine and hidden camera. These different types of camera structures and infrared light configurations are different and suitable for different application scenarios. For example, gun cameras are suitable for outdoor or high places for security monitoring; Hemispherical cameras are suitable for indoor installation, used to monitor home or office access; Shake head machine and card machine can be horizontal, vertical rotation and zoom monitoring, suitable for use in a large space; The concealed camera has good concealment and can be monitored without being detected.   Smart home lenses typically have high-definition picture quality, night vision, and storage capabilities. High-definition picture quality can provide clear images, easy for the monitor to observe the scene; Night vision can provide bright images at night, which is easy for monitors to monitor at night; The storage function can store the surveillance video locally or in the cloud, which is easy for the monitor to view at any time.   Smart home lenses can also be monitored remotely from a phone or computer. The monitor can view the surveillance video in real time through the mobile phone or computer, and can remotely control it through the mobile phone or computer, such as adjusting the Angle and focal length of the camera.   The application scenarios of smart home lenses are very wide, such as home security monitoring, office monitoring, shop monitoring, factory monitoring and so on. In the home security monitoring, the smart home lens can help the family owner to monitor the access of the family and prevent the occurrence of theft; In office monitoring, smart home lens can help business managers monitor the work of employees and improve work efficiency; In the store monitoring, the smart home lens can help the business monitor the operation of the store and prevent the occurrence of theft; In factory monitoring, smart home lenses can help factory managers monitor production and improve production efficiency.   In short, as an important part of smart home technology, smart home lens has become a new choice for home security and monitoring with its high cost performance and high performance. With the continuous development and growth of smart home technology, the application scenarios of smart home lenses will be more extensive, bringing more convenience and security to people's lives.

Wintop Automotive Lens Linked to Weed Detecting Camera Lens       Although the application scenarios of weed surveillance cameras (such as those on agricultural drones or ground robots) and automobile optical lenses are different, there is a certain overlap in technical requirements and functional directions: 1. Common needs for environmental adaptability Weed surveillance camera requirements: It is necessary to adapt to a variety of outdoor environments (strong light, shadow, soil, water vapor), and has higher requirements for durability, waterproof and dustproof. Similarity: Both require high dynamic range (HDR) and excellent anti-reflection properties to cope with complex light conditions. 2. Demand for high resolution and intelligence Weed surveillance camera: The combination of high-resolution imaging and AI algorithms can identify crops and weeds and optimize agricultural production efficiency. Relevance point: Similar to the object detection function of ADAS, weed monitoring also needs to accurately identify targets (weeds, crops) and support real-time imaging and data processing. 3. The combination of miniaturization and lightweight design Weed monitoring equipment: Drone-mounted lenses need to reduce weight and energy consumption as much as possible, thus prolonging flight time. Relevance: In order to adapt to the narrow installation space, car lenses also need modularity and miniaturization design, and technology accumulation can be shared. 4. Cross-border application of intelligent processing technology Common features of weed surveillance lens and in-vehicle lens: Both need real-time image analysis and algorithm support. The deep learning technology in car lenses can be used for reference in agricultural scenes, such as fast image processing through edge computation.   The correlation between weed surveillance camera lens and automobile optical lens can be explained in depth from three aspects: technical requirements, application scenarios and future development trends:   1. Generality of technical requirements High Resolution and Fine Imaging Capabilities Weed monitoring requirements: High-resolution lenses enable accurate identification of crops and weeds, such as distinguishing color, texture and morphology differences through AI algorithms, providing accurate data to guide precision farming operations. Car lens correlation: In ADAS and automatic driving, in-vehicle lenses need to identify multiple targets (vehicles, pedestrians, road signs), and the resolution requirements range from high definition (1080p) to 4K and above, which is highly consistent with the target recognition technology required by weed monitoring. Environmental adaptability Weed monitoring requirements: Farmland environment usually has complex conditions of strong light, reflection, dust and water vapor. The lens should be waterproof, dustproof, glare-proof and adaptable to wide temperature area. Car lens correlation: In-vehicle lenses also need to work in extreme environments, such as rain and snow weather, high temperature (near the engine) or low temperature (cold areas). The two have direct technical commonalities in material selection, coating technology (such as anti-ultraviolet and anti-reflection) and sealing design. Miniaturization and Lightweight Weed monitoring requirements: Drones and robots usually have strict weight and size restrictions, and the lens needs to be small and light enough while maintaining high performance. Car lens correlation: Automotive lenses also need to adapt to limited installation space and cannot affect the weight of the whole vehicle. Modern in-vehicle lens modularity and aspherical design technologies can be directly applied to agricultural lenses. Multispectral and Near Infrared Technology Weed monitoring requirements: In agricultural scenes, infrared imaging is used to monitor plant health, and near infrared spectroscopy helps identify plant water content and growth status, distinguishing crops from weeds. Car lens correlation: In-vehicle lenses have been widely used in night vision systems with near-infrared technology and have the ability of multi-spectral expansion, which lays a foundation for infrared and multi-spectral imaging technology of agricultural lenses.     2. Linkages of application scenarios Real-time monitoring and image processing Weed monitoring camera: It is necessary to capture real-time images and combine AI algorithms to complete weed recognition and distribution mapping, which has technical similarities with in-vehicle ADAS camera real-time scene analysis (such as lane departure warning). For example, edge computation technology commonly used in in-vehicle lenses can transplant the processing power of real-time monitoring data to agricultural equipment, enabling drones or ground robots to operate efficiently. Object detection and environment awareness In farmland, weed monitoring cameras need to adapt to changes in different topography and vegetation density, and quickly sense the location and coverage of target plants. Car lenses need to deal with road environment (e.g. curves, slopes) and dynamic targets (pedestrians, vehicles), both of which rely on visual algorithms to optimize the scene quality captured by the lens. Long distance and wide angle requirements Weed monitoring: Drones need to accurately monitor crops at a long distance (several meters to tens of meters) through high-resolution lenses. Use a wide-angle lens to cover a large area of farmland while ensuring clear imaging of the center and edge. Car lens: Panoramic camera and rearview lens head also have wide-angle characteristics, and wide-angle lens technology can be directly used for reference in both.     3. Future trends Technology convergence Collaborative development of AI algorithms: In weed monitoring and automatic driving, the combination of AI technology and optical lenses is the core driving force. In the future, a universal lens can be developed to support both agricultural target recognition and in-vehicle ADAS systems. Multispectral imaging system: The demand for multi-spectrum in the agricultural field overlaps with the demand for infrared technology in in-vehicle night vision systems, reducing research and development and production costs by sharing core technologies. Modularity lens design The modularity lens can be adapted to different devices (such as drones and cars), and can quickly switch between scenes by replacing a few components. For example, a basic lens module can use ordinary spectra when monitoring farmland, and add a night vision expansion module to the in-vehicle system. Material and process optimization Popularization of aspherical lenses: Aspherical lenses have been widely used in automobiles, which can significantly reduce weight and improve imaging quality. They can be directly applied to agricultural lenses in the future. Coating technology upgrade: Anti-fog and anti-glare coating in car lenses can improve the applicability of agricultural lenses in morning dew and strong sunlight.  

With the continuous progress of science and technology, the optical lens industry has made remarkable development in the direction of high performance, miniaturization and intelligence. According to market research data, the global optical lens market size is about 22.5 billion US dollars in 2023, and is expected to exceed 34 billion US dollars in 2028, with a compound annual growth rate (CAGR) of 8.5% [Source: Market research agency data]. Optical lenses are widely used in the fields of smart phones, security monitoring, autonomous driving and smart home, and the continued growth of these high-demand areas is driving the rapid expansion of the optical lens market. This paper will deeply discuss the main technical development direction and future trend of optical lenses.   First, the high performance of optical lenses The improvement of optical lens performance is the key to the core competitiveness of the optical industry. In the consumer electronics and automotive sectors, the demand for high resolution, high light transmission and low light performance of lenses is increasing. According to statistics, the average resolution of the global smartphone camera in 2023 reached 64 MP, and the on-board camera of high-end models reached about 150 MP, reflecting the continuous growth of the market demand for high-resolution optical lenses [Source: Smartphone and Automotive Market analysis].   High resolution and large aperture design: In terms of high resolution camera technology, with the popularity of sensors above 1 inch, lens design needs to have higher resolution and large aperture to match sensor performance. For example, in security cameras, large aperture designs (such as f/1.8 and lower) can improve light absorption at night and improve imaging in low light. Anti-glare and multi-layer coating technology: The latest anti-glare and multi-layer coating technologies, such as VIKUITI® coating, can reduce glare by up to 95% and improve contrast. This is crucial in the field of in-car cameras and outdoor surveillance, enabling the lens to provide clear images in high-light reflective environments. Second, lens miniaturization and lightweight With the increasing demand for portable devices and unmanned equipment, miniaturization and lightweight have become an important development direction for optical lenses. According to statistics, the global micro optical lens market is expected to reach 8 billion US dollars in 2025, with an annual growth rate of nearly 10% [Source: Micro lens Market Analysis]. Smart phones, drones, robots and other devices on the lens size and weight requirements are increasing year by year, prompting the design of optical lenses tend to miniaturize.   Miniature lenses and modular design: Miniaturization and modular design help optical lenses to be more easily integrated into smart devices, such as in the latest smartphone camera modules, micro-lenses are stacked and arranged to achieve integrated imaging functions of telephoto, wide Angle and ultra-wide Angle in a limited space. Lightweight materials and low power design: In micro devices such as wearables, the weight and power consumption of optical lenses become important factors affecting the user experience. The lightweight aspherical lens and low-power lens control chip design can reduce battery consumption by more than 10% and extend the battery life of the device. Third, intelligent and automated functions In recent years, optical lenses have continuously integrated AI and automation technology in the field of image processing, so that the lens has intelligent perception, object recognition and adaptive scene functions. According to the data, the AI-driven optical lens market is expected to reach $5 billion by 2028, with an annual growth rate of more than 12% [Source: AI Optical Lens Market Analysis]. This enhancement of intelligent capabilities is particularly applicable to areas such as autonomous driving, smart home and security monitoring. Autofocus and face recognition technology: Many of the latest optical lenses are equipped with machine learning-based autofocus and face recognition capabilities with an accuracy of more than 98%. In security and intelligent access control, the lens can automatically track moving objects and identify them, greatly improving security efficiency. Depth perception and 3D modeling: Lenses equipped with 3D TOF (Time of Flight) sensors can capture depth information in real time, playing a key role in robot visual navigation, unmanned ranging, 3D modeling and other fields. For example, current depth-sensing technology can identify object distances with millimeter-level accuracy, helping autonomous driving systems detect obstacles more precisely. Fourth, future trend: multi-function integration and low-cost manufacturing Multifunctional integration and low-cost manufacturing are the future development focus of optical lenses. Through innovative manufacturing techniques and the application of new materials, the cost of optical lenses is falling, while the functional integration is constantly improving. Market data shows that the annual growth rate of multi-function lenses is expected to reach 13% between 2023 and 2028, especially in the field of driverless and smart home [Source: Multi-function Lenses Market Research].   Multi-sensor integration: With the rise of emerging technologies such as 5G and the Internet of Things, multi-sensor integrated lenses are gradually becoming popular. In drones, robotics and other applications, lenses that integrate infrared, thermal, optical imaging and other functions can more efficiently acquire environmental information. Such lenses could also help autonomous vehicles better identify pedestrians, vehicles and other road information. Optical plastics and liquid lenses: The application of liquid lenses and optical plastic materials is reducing the manufacturing cost of optical lenses by about 20%. The liquid lens uses an electric field to control the focal length, which is fast and small, making it suitable for smartphones and small monitoring devices. Conclusion The future development direction of optical lenses will be deeply explored around high performance, intelligence and multi-function integration. Under the current global trend of increasing demand for smart devices and automation technology, the market potential for optical lenses is huge. The optical lens industry will continue to benefit from technological advancements and market expansion to provide better imaging solutions for future areas such as autonomous driving, smart home and smart security.  

On October 18, 2024, Shenzhen Yunding Optical Technology Co., Ltd. is honored to announce that we welcome German customers to visit our company. As a leading automotive lens manufacturer, we adhere to the concept of providing high-quality products and excellent services to global customers, and look forward to deepening cooperation with German customers to create a better future together. Yunding Optical Technology Co., Ltd., established in 2006, focuses on the research and development, manufacturing and sales of optical equipment. We are committed to promoting innovation in optical technology and constantly seeking breakthroughs in high-quality and high-precision products. With advanced technology and professional team, we have successfully developed a series of market-recognized lens products. As one of the world's leading centres for optical technology, Germany has long been praised by the industry for its innovative capabilities and excellent quality. We are convinced that cooperation with German customers will bring great opportunities and growth potential for both parties. We look forward to sharing our latest research results and product lines with German customers and exploring cooperation opportunities for future projects with them. Yunding Optical Technology Co., Ltd. attaches great importance to the customer's experience and needs. We will wholeheartedly provide German customers with personalized solutions and professional technical support. Our team consists of passionate and experienced professionals who will go all out to meet our customers' expectations and requirements. We firmly believe that through mutual cooperation and communication, we are able to bring innovative, high-performance optical products to our German customers. The products of Yunding Optical Technology Co., Ltd. are: Automotive monitoring camera lenses, Car DVR lenses, vehicleADAS/CMS/OMS lenses, security surveillance cctv lenses, intelligence home devices lenses, low distortion sports camera lenses, face recognition lenses and wide angle fisheye lenses etc. We hope that more and more partners will join us and cooperate with us.  

Recently, a customer from South Korea visited our company's factory in Huangmei County, Hubei Province, China. This inspection activity aims to promote friendly exchanges and cooperation between Chinese and Korean companies and further expand the scope of business cooperation. Huangmei County is one of the important industrial bases in China, and it enjoys a high reputation nationwide for its advantageous geographical location and good industrial environment. Korean customers are deeply interested in our company's factory capacity and technical strength, and hope to establish closer cooperation with local enterprises. During the inspection, the customer gained an in-depth understanding of the production process and advanced equipment. The person in charge of the factory introduced the company's development history, technical advantages and product quality management system to the customer in detail. The two sides conducted business negotiations and had in-depth discussions on potential cooperation projects. In the next step, our company will actively promote cooperation and exchanges with overseas customers, strengthen technological innovation and industrial upgrading, and promote in-depth cooperation between China and South Korea in the industrial field to jointly embrace a brighter future.

Global market research and consultancy Precedence Research has released a report titled "Automotive Camera Market Size Estimated to Reach $23.55 billion by 2032". According to the report, vendors can take the following steps to address this market growth opportunity: 1. Increase capacity: Suppliers can invest in expanding production facilities and improving production efficiency to meet growing demand. Increasing capacity ensures that suppliers can deliver enough camera lenses in a timely manner to meet the needs of automakers. 2. Technology R & D and Innovation: With the continuous advancement of automotive technology, automotive cameras need to have higher resolution, faster response speed and better image quality. Suppliers can increase their investment in technology R & D and innovation to provide more advanced and fully functional camera products. For example, developing cameras with wider field of view, better low-light performance and more advanced features. 3. Establish partnerships: Suppliers can actively establish partnerships with automakers, system integrators, and other relevant partners. These partnerships can cover aspects such as product customization, technical support, and supply chain cooperation to ensure that suppliers remain competitive in the market competition. 4. Provide a full range of technical support and services: As cameras play an increasingly important role in automobiles, suppliers need to provide a full range of technical support and services. This includes customized solutions for customer needs, technical training and after-sales support, etc., to ensure that customers can make the most of and use the camera products they offer.

  Wintop Optics, a leading lenses manufacturer in the field of optical imaging, has gradually introduced the Japan Panasonic UA3P-300, German Trioptics MTF machine and Swedish Hexagon 3D Coordinate Measuring Machine to enhance the lens quality and performance of Wintop Optics Lens Manufacturer's optical lenses in the fields of vehicle cameras, smart home cameras and robot monitoring etc. This move not only demonstrates Wintop Optics Lens Factory's strict control of product quality, but also reflects its continuous pursuit of technological innovation and market competitiveness.   1. The importance of optical lens quality inspection With the continuous advancement of technology, car cameras, smart home cameras and robot monitoring systems are playing an increasingly important role in modern life. One of the core components of these devices is the optical imaging lens. The imaging quality of the optical lens directly affects the monitoring effect and user experience of the device. Therefore, ensuring the high quality and high yield of the optical lens is the key to improving the overall system performance. Optical lenses may have various defects during the design and manufacturing process, such as surface roughness, wavefront aberration, distortion, etc. These defects can significantly reduce the image quality, resulting in image blurring, distortion and other problems. Therefore, strict quality inspection of optical lenses is a necessary step to ensure their performance and reliability.   2. General process of optical imaging lens quality inspection procedures The quality inspection process for an m12 lens typically involves the following steps: Initial inspection: Check the appearance and basic dimensions of the lens to ensure that it meets the design requirements. Surface quality inspection: Use high-precision measuring equipment to detect the roughness and shape of the lens surface. Optical performance testing: Evaluate the imaging performance of the lens through methods such as modulation transfer function (MTF) testing. Environmental adaptability testing: Simulate testing under different environmental conditions to ensure that the lens can operate stably in various environments. Final inspection: a comprehensive evaluation of the lens's performance indicators to ensure that it meets the requirements of the final application. The implementation of an optical quality inspection scheme can ensure the consistency and performance reliability of the camera lens, thus improving the overall quality and performance of imaging systems such as car camera lens(CMS/DVR/AVM/RVS/ADAS/DMS/OMS), smart home camera lens, and robot lens etc.   3. Quality inspection equipment introduced by Wintop Optics and its function Ensure high-precision measurement In the manufacturing process of optical imaging lenses, accuracy is of paramount importance. With its ultra-high-precision 3D measurement capabilities, the Panasonic UA3P-300 is able to detect tiny defects on the surface of the optical lens, such as the accuracy of aspherical and free-form surfaces, ensuring that the surface quality and shape of the lens meet the design requirements. This helps Wintop Optics detect and correct problems in a timely manner during the production process, thus improving the consistency and reliability of the final product.   Improve image quality The imaging quality of an optical lens is a key metric for measuring its performance. Trioptics Europe-wide MTF machines evaluate the imaging performance of a lens by measuring the modulation transfer function (MTF). The MTF test reflects the imaging clarity and contrast of the camera lens at different spatial frequencies, which is essential to ensure that devices such as in-vehicle cameras and smart home cameras can provide clear images in a variety of lighting conditions.   Optimize the production process Hexagon 3D coordinate measuring machines can not only detect the dimensional and geometric accuracy of optical lenses, but also precisely inspect workpieces in the production process. This comprehensive inspection capability helps Wintop Optics optimize production processes, reduce manufacturing errors and increase production efficiency. By precisely controlling every step of the production process, Wintop Optics can ensure that every optical lens meets high standards.   Enhance product competitiveness With the increasing demand for high-quality optical imaging lenses, Wintop Optics has significantly increased the market competitiveness of its products by introducing these advanced quality inspection equipment. High-quality optical lenses not only enhance the performance of end-point products, but also enhance consumer trust and loyalty to the Wintop Optics brand. This will help Wintop Optics to gain an advantage in the fierce market competition. Support R & D innovation In addition to quality control during the production process, these quality inspection devices also provide strong support to Wintop Optics' R & D team. By accurately measuring and analyzing the performance of m12 lenses / AA lenses, the R & D team is able to better understand the limitations of existing designs and explore new design concepts and technologies. This will drive Wintop Optics' continued innovation and advancement in the field of optical imaging.   In summary, these advanced quality inspection equipment introduced by Wintop Optics not only enhances the production quality of its optical imaging lenses, but also provides a solid foundation for it to compete in the market. By continuously optimizing product quality and production processes, Wintop Optics will be able to better meet market demand and promote the development of optical imaging technology.  

  Introduction of Electronic Rearview Mirror Lens with Heating Function Technology  The heating function technology of electronic rearview mirror camera lens is primarily used to maintain lens clarity in adverse weather conditions, such as rain, snow, or fog, thereby improving the driver's visibility. This technology is usually implemented by integrating a heating element into the camera lens, which can quickly remove moisture or snow adhered to the lens.   Market Demand for Electronic Rearview Mirror Lenses with Heating Function  Traditional car rearview mirror camera lens have limitations in size and angle, affecting safety. Nowadays, electronic rearview mirror lenses, due to their compact size and wide angle, are gradually replacing traditional mirrors in the market. However, weather conditions like rain and snow have always posed obstacles to visibility. Electronic rearview mirror lenses with heating functions can accelerate the evaporation of rainwater and the melting of snow, making them increasingly popular in the market. With growing consumer demands for car safety and comfort, the market demand for electronic rearview mirror systems (CMS Lens) continues to rise. Especially in the field of new energy vehicles, electronic rearview mirrors not only provide a broader field of view and reduce blind spots but also maintain good operation in night or adverse weather conditions through infrared sensing functions and enhanced image contrast technologies.   Wintop Optics Innovates with Heated Electronic Rearview Mirror Lenses Responding to market demands, Wintop Optics Lens Manufacturing has successfully launched the high-performance CMS Lens YT-7605 electronic rearview mirror lens after professional research and development and technical accumulation. This car camera lens integrates an advanced heating function that can quickly remove moisture and snow from the lens surface under extreme weather conditions, ensuring clear visibility for drivers and significantly enhancing driving safety. With its excellent optical performance and innovative technology, it meets the automotive industry's high standards for safety and reliability.   Focal Length: 3.14mm, providing a wide field of view suitable for capturing panoramic rear views of vehicles in electronic rearview mirror systems. Aperture: F/NO.1.4, the large aperture design ensures clear image quality even in low-light environments. FOV: Compatible with multiple CMOS sensors, offering high compatibility and flexibility. ISX031 sensor：Dfov 120 degree，Hfov 106 degree, and a vertical angle of 59 degrees. OX03C10 sensor：Dfov 124 degree，Hfov 106 degree, and a vertical angle of 66 degrees. Environmental Tolerance: Operates in temperatures ranging from -40°C to +85°C, ensuring stable operation under extreme climatic conditions. It has an IP69k rating for dust and water protection, suitable for various harsh environments. Quality Certification: Certified to TS16949, complying with the highest quality standards of the automotive industry. Working Principle: 1.FPC is electrified. 2.The heating ring is electrified and generates heat. 3.The thermistor senses the temperature and controls the power supply to the heating ring according to the temperature. 4.The temperature is transferred to the car camera lens, causing rainwater on the surface to evaporate or snow to melt.   Development Prospects As a new direction in the development of automotive intelligence, electronic rearview mirror camera lens have broad development prospects. With technological progress and cost reduction, electronic rearview mirror camera lens have great potential in improving automotive safety and driving experience. It is expected that electronic rearview mirror camera lens will integrate more intelligent auxiliary functions in the future, such as blind spot detection, lane departure warning, and traffic sign recognition, to share data and interact with the vehicle's autonomous driving system and the Internet of Vehicles, providing more accurate information and intelligent driving assistance.   Furthermore, with the release and implementation of the "Performance and Installation Requirements for Indirect Vision Devices of Motor Vehicles" (GB 15084－2022), electronic rearview mirrors have been officially recognized in China's policies and regulations, which will promote the industrialization process of electronic rearview mirror lens and open a period of rapid market development. It is expected that the market size of electronic rearview mirror lens will reach a trillion level, becoming an important part of the development of automotive intelligence.   Conclusion  The YT-7605 electronic rearview mirror lens, with its advanced technical parameters and strict quality standards, represents the professional level and innovative ability of Wintop Optics in the field of optical lens manufacturing. It is an important driving force for the development of automotive intelligence and safety. Wintop Optics lens manufacturing is committed to making the YT-7605 lens a benchmark product in the field of automotive safety, providing innovative and reliable optical solutions for the global automotive industry.    

  At Wintop Optics Lens Manufacturer, we are not only committed to creating excellent optical lens products, but also value cultural exchanges with customers around the world. Today, we are honored to share with you Dragon Boat Festival, a unique and rich traditional festival in China. The Dragon Boat Festival is one of the traditional festivals in China. It is celebrated on the fifth day of the fifth lunar month every year. This festival originated in ancient China and has a history of over 2000 years. It is not only a commemoration of the ancient Chinese poet Qu Yuan, but also a pursuit of health, harmony, and unity. On this day, we express our yearning for a better life and respect for nature through traditional customs such as Boat racing, eating Zongzi, hanging wormwood and calamus, and wearing sachets. At Wintop Optics Lens Manufacturer, we are deeply inspired by the spirit of the Dragon Boat Festival and integrate these values into our development outlook: 1. Innovation and Progress: Just as Qu Yuan used his poetry to promote cultural progress, we constantly pursue innovation and are committed to developing new technologies and optical lenses to meet the ever-changing market demands. 2. Team spirit: the Dragon Boat race reflects the importance of team cooperation. We believe that only unity can promote the development of the enterprise, just as the Dragon Boat members work together to win. 3. Respect for the environment: The custom of hanging wormwood and calamus on the Dragon Boat Festival reminds us of the importance of protecting the environment. We are committed to using environmentally friendly lenses materials and lenses production processes to reduce their impact on the environment. 4. Health and well-being: Zongzi and sachets, the traditional food of the Dragon Boat Festival, are related to health and well-being. We value the health and well-being of our employees and create a positive work environment. 5. Cultural diversity: The celebration of the Dragon Boat Festival shows the rich cultural diversity of China. We respect and celebrate employees and customers from different cultural backgrounds, which makes our team more diverse and inclusive.   At Wintop Optics Lens Supplier, we believe that by integrating traditional values with modern corporate spirit, we can create a more prosperous and sustainable future. We look forward to celebrating this holiday with you and working together to create brilliance in the future. Wish you a happy Dragon Boat Festival. May your life and career be as energetic as the Dragon Boat Race!

  In the packaging process of the camera lens module, it is usually necessary to go through multiple assemblies. However the accumulation of errors in each assembly can lead to more and more product problems. Traditional threaded combination lenses cannot adjust for these errors, and the final result may cause the captured image to deviate from the center of the picture, resulting in differences in clarity in different areas.   This article will introduce the new lens assembly technology - AA gluing technology - through the following eight aspects:   1. Introduction to AA Gluing Lens/ AA Bonding Lens Technology 2. The Role of AA Gluing / Bonding in Vehicle Imaging Systems 3. Advantages Over Traditional Bonding Methods 4. The Demands of the Imaging Industry 5. Manufacturing Process 6. AA Lenses Cases 7. Future Trends and Outlook 8. Conclusion     1. Introduction to AA Gluing / AA Bonding Technology   AA process (Active Alignment) is a high-precision technology for camera lens module assembly. It adjusts the Lens alignment to 6 freedom degrees through Tip-Tilt Head, and adjusts the Lens position in 6 directions according to the chart to obtain high-precision optical axis alignment. This technology is mainly used to determine the relative position of each component during the assembly process to ensure the clearest center of the camera picture and improve the uniformity of the resolution of the corners of the image, so as to improve product consistency. In the realm of automotive imaging, precision is paramount. Wintop Optics, a leading innovator in the field, has embraced Active Alignment (AA) bonding technology to redefine the standards of optical precision. AA technology, at its core, is an advanced optical bonding process that ensures lenses are aligned with micron-level accuracy. 2.The Role of AA Gluing / Bonding in Vehicle Imaging Systems The application of lens AA bonding technology is particularly significant in vehicle imaging systems. It plays a crucial role in enhancing the performance of automotive cameras, especially under dynamic conditions. The technology ensures that each lens is perfectly aligned, contributing to the stability and reliability of the imaging system, which is essential for features like driver assistance systems and in-cabin monitoring camera.   3. Advantages Over Traditional Bonding Methods The AA gluing structure offers several advantages over traditional lens bonding methods. It provides higher precision and reliability, which translates to better image quality and system performance. The technology also allows for faster production times and reduced manufacturing costs due to its automated and precise nature. 4.Meeting the Demands of the Industry The automotive industry is rapidly evolving with the advent of autonomous driving and Advanced Driver Assistance Systems(ADAS). A. High-precision imaging: Autonomous driving and ADAS systems rely on accurate image data to make quick decisions. AA gluing lens technology meets the high-precision imaging needs of autonomous driving by precisely aligning lens elements to ensure image clarity and accuracy. B. Dynamic environment adaptability: Vehicles encounter various dynamic changing environments during driving. AA gluing lens technology can ensure that the lens maintains stability under high-speed movement and vibration conditions, thus providing continuous and reliable image data. C. Reliability and durability: ADAS systems need to work stably in a variety of climates and environmental conditions. Because of its high reliability and durability, AA glue structures lens can ensure long-term stable operation of imaging systems and reduce maintenance costs. D. Fast response time: For autonomous driving systems, fast response is essential. AA gluing lens technology enables fast image capture and processing, helping the system respond in a timely manner.   Wintop Optics' AA gluing lenses technology meets the high demands of this industry by providing lenses that are not only precise but also adaptable to various environmental conditions and capable of seamless integration with other sensors.   5. Manufacturing Process   The manufacturing process of AA bonding involves meticulous preparation of optical elements, precise alignment, bonding, and curing. 1) Cleaning: Cleaning the surface of the lens and front case to increase the adhesion of the glue. 2) Point UV glue: Through the camera and electronic balance, monitor the width, height, weight of the glue, and whether there are problems such as glue breakage. 3) Active alignment: tilt and level alignment through a 6-axis motion platform with a target map. 4) UV pre-curing: ensure the consistency of UV capabilities around. 5) High temperature baking and curing: After UV curing, the product needs to be cured again by high temperature baking.   6.Success Case Studies AA gluing lens technology not only meets the high-precision and high-reliability requirements of autonomous driving and ADAS for on-board imaging technology, but also plays a key role in improving vehicle safety, adapting to changing environments, and integrating with other sensors. With the continuous advancement of technology, AA gluing technology is expected to play a more important role in the future autonomous driving field. Wintop Optics Lens Manufacturer has several successful case studies showcasing the application of AA gluing technology in automotive imaging products. For instance, YT-7065/YT-7066 is vehicle panoramic / surround view camera lens with AA adhesive structure. The YT-7600/YT-7612 vehicle imaging lenses, used in Driver Monitoring Systems and Occupant Monitoring Systems (DMS/OMS), and the YT-7610/YT-7605, widely applied in vehicle side-view cameras and intelligent assistance driving systems (ADAS), are all examples of AA bonding technology in action.     7.Future Trends and Outlook Looking ahead, the trend in the automotive imaging industry is moving towards even higher levels of precision and integration with emerging technologies like artificial intelligence and machine learning. Wintop Optics is at the forefront of this evolution, continuously exploring ways to integrate AA bonding technology with these advanced systems. 8.Conclusion In conclusion, on-board imaging technology is one of the key factors to improve vehicle safety. Through AA gluing technology, high-quality images can be provided to help the system accurately identify pedestrians, vehicles, traffic signs, etc., thus preventing accidents. AA gluing technology helps to ensure that automotive imaging systems meet relevant regulatory requirements and ensure that vehicles are legally on the road. Wintop Optics' adoption of AA bonding technology underscores its commitment to innovation and excellence in the automotive imaging industry. The company's focus on continuous technological innovation is vital for meeting the evolving market demands. Wintop Optics is dedicated to developing high-performance, high-quality optical imaging lenses that cater to the needs of clients worldwide.  

Wintop Optics, a leader in the field of optical imaging, has been committed to the research, development, manufacturing, and sales of high-performance optical lenses since its establishment in 2006. Our product line extends widely across automotive lenses, security surveillance lenses, and smart home surveillance lenses, providing global customers with exceptional optical solutions.  Historical Development Review 2006: Wintop Optics was officially established and quickly established its professional position in the field of optical imaging. 2009: The company took a significant step towards internationalization, establishing cooperative relationships with renowned international companies such as iRobot and Jabil, marking the international market's high recognition of Wintop Optics' lens quality and services. 2012: Wintop Optics entered its golden period of development, quickly rising to the forefront of the industry with its forward-looking layout and technical accumulation in the automotive lens sector. 2014: To meet the growing market demand, Wintop Optics relocated its assembly factory to Tangxia Town, Dongguan, and expanded the factory area to 12,000 square meters. This strategic relocation provided more space for the company's production capacity. 2016: Wintop Optics obtained ISO9001 and IATF 16949 certifications, which are not only a high recognition of the company's quality management system but also laid a solid foundation for in-depth cooperation with more well-known OEMs. 2019: The company decided to move the factory back to Huangmei, Hubei, and expanded the factory scale, achieving integrated production of lens grinding and lens assembly, which further improved production efficiency and product quality. 2021: Wintop Optics built a new factory building exceeding 9,000 square meters and expanded the lens factory II, increasing the production capacity to 2kk per month. This expansion provided strong support for the company's continuous growth. 2023: Wintop Optics continues to follow market development trends, continuously improving its independent innovation capabilities, and is committed to developing more high-performance, high-quality optical imaging products to meet the needs of global customers. Future Outlook 2028: Wintop Optics plans to expand the global market through strategic cooperation and aims to go public. By leveraging the power of the capital market, it will provide more sufficient support for the company's continuous development and technological innovation. Our Vision The vision of Wintop Optics is to become a global leader in the field of optical imaging. Through continuous technological innovation and excellent customer service, we strive to provide the best optical solutions to customers worldwide. We believe that with our efforts, Wintop Optics will bring more breakthroughs and innovations to the field of optical imaging. Contact Us For more information about Wintop Optics, please visit our official website or contact our customer service team.  

The development of the Camera Monitor System (CMS), a crucial part of automotive intelligence, has gained rapid momentum globally in recent years. With the continuous advancement of automotive intelligence, camera monitoring system camera lens, as an emerging automotive accessory, is gradually becoming a focal point in the industry. Recently, the official implementation of the "Performance and Installation Requirements for Indirect Vision Devices of Motor Vehicles" has granted legal roadworthiness to electronic rearview mirrors, indicating that this market is on the verge of explosive growth. It is reported that the future market size of electronic rearview mirrors is expected to reach trillions, becoming an important direction for the development of automotive intelligence.   Compared to traditional optical rearview mirrors, electronic rearview mirrors offer advantages such as smaller size, broader vision, and clearer image quality, effectively reducing wind resistance and noise, and enhancing the aerodynamic performance of vehicles. Especially under adverse weather conditions, the infrared sensing function and image enhancement technology of electronic rearview mirrors can ensure clear visual effects, greatly improving driving safety.   Compared to traditional optical rearview mirrors, CMS leverages camera lens to capture real-time images around the vehicle, presenting them on an in-car display for a broader view and enhanced safety. As technology advances and market demand increases, CMS is gradually becoming the new darling of the automotive industry.   The primary advantage of CMS lies in its ability to provide a wider field of vision than traditional mirrors, reducing blind spots, and maintaining clarity even in adverse weather conditions. Moreover, CMS integrates various intelligent functions such as driving records, speed alerts, and rearview visibility, further improving the convenience and comfort of driving. With the ongoing push towards automotive intelligence, the application prospects for CMS are vast.   On the policy front, regions like Europe and Japan have already introduced regulations regarding CMS. China also released a new standard for "Performance and Installation Requirements for Indirect Vision Devices of Motor Vehicles" in December 2022, which is expected to be officially implemented from July 2023. The introduction of these regulations and standards provides a legal basis and technical specifications for the development of CMS, indicating a new round of rapid expansion for the CMS industry.   In terms of cost, CMS mainly consists of external camera modules, controllers, and display modules. As technology progresses and production scales up, costs are gradually decreasing, making the popularization of CMS possible. Currently, the penetration rate of CMS in the domestic front-fitted market in China is increasing year by year. Despite market fluctuations and supply chain issues, the overall trend remains upward.   In this market context, Wintop Optics, as a manufacturer of automotive lenses, has achieved significant success with its YT-7610 CMS rearview mirror camera lens. The YT-7610 lens offers high-definition, wide dynamic range, and excellent night vision performance, providing drivers with clear and stable images, greatly enhancing driving safety and comfort. With its expertise in optical design and manufacturing, Wintop Optics continuously introduces high-quality products that meet market demands, becoming one of the leading suppliers in the CMS industry.   As the CMS industry continues to develop, Wintop Optics will remain committed to technological innovation and product optimization, contributing to the field of automotive intelligence. By offering high-performance CMS rearview mirror lenses, Wintop Optics not only meets market demands but also brings a safer and more convenient driving experience to drivers. In the future, as costs decrease further and technology improves, CMS is expected to become a standard configuration for more vehicle models, and Wintop Optics will continue to leverage its technological and market advantages in this domain.   Against this backdrop, major car manufacturers and component suppliers are increasing their R&D and market layout efforts. Wintop Optics, as a manufacturer of automotive lenses, has successfully developed a range of high-performance electronic rearview mirror lenses based on its profound technical accumulation in optical design and manufacturing. These lenses not only meet the needs of high resolution and wide-angle vision but also adapt to various complex environments, providing drivers with more accurate and reliable visual information.   Industry analysts point out that the rapid development of the electronic rearview mirror industry will drive the upgrade and transformation of related industrial chains. Manufacturers of automotive lenses, such as Wintop Optics, will become an important driving force for industry development with their technological innovation and product quality. In the future, as electronic rearview mirror technology continues to mature and costs decrease, it is expected that more models will include it as a standard configuration, and the market for electronic rearview mirrors will welcome an even broader development prospect.