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　　Rolex surface cover is broken (how to deal with it)

　　Rolex watch is a very delicate and elegant watch, but sometimes it is inevitable that the cover will break. The surface cover may be broken due to accidental collision or long-term wearing, but don’t worry, I will share some solutions below to help you deal with the problem of Rolex surface cover breaking.

　　Step 1: Check the degree of sheet breakage.

　　First of all, you need to carefully check the extent of the cracks. If it is only slightly damaged, you can try to repair it yourself. However, if the rupture is too serious, it is recommended to send the watch to a professional repair shop for repair.

　　Step 2: Prepare the repair tool.

　　Before repairing the broken surface, you need to prepare some necessary tools, such as tiny screwdriver, glue, watch repair tools, etc. Ensure that the tools are complete, so that the repair work can be carried out smoothly.

　　Step 3: Fine repair

　　Next, you can start the fine repair work. First, carefully remove the cover and cover with a screwdriver. Then, use glue to bond the broken part to ensure firm bonding. Finally, reinstall the cover to ensure that each component is in place.

　　Step 4: Maintenance.

　　After repairing the broken surface cover, it is necessary to carry out maintenance work to ensure the normal operation of the watch. Clean the surface regularly, keep the luster of the watch, and avoid cracking again. In addition, check the operation of the table regularly to find and solve problems in time.

　　conclusion

　　Generally speaking, the rupture of Rolex watches is not a big problem. As long as you have some experience and patience in repairing watches, you can easily solve it. Through the above steps, I believe you can successfully repair the broken Rolex watch and make your watch glow with new life. I hope this article is helpful to you. Thank you for reading!

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According to Agence France-Presse reported on July 15, the Lebanon State News Agency and Hezbollah said that a Hezbollah fighter and his sister were killed in an Israeli attack on the southern Lebanese city of Bint Jubayl. The Israeli military said the target of the attack was an arms depot.

According to reports, on the night of the 15th, Hezbollah announced that it would fire dozens of rockets at the Israeli border area in retaliation for Israeli enemy incursions into some villages, including the horrific massacre in Bint Jubayl. The Israeli military said it intercepted half of the more than 20 rockets, and the remaining rockets caused no casualties.

Lebanon’s state news agency said: Israeli enemies massacred civilians in Bint Jubayl, killing a brother and sister. In addition, one woman was seriously injured when Israeli warplanes attacked their home. Hezbollah later announced the death of one fighter in the area.

The Israeli military said its air force attacked a Hezbollah arms depot in Bint Jubayl and Hezbollah’s military facilities in the village of Killa in southern Lebanon. (Compiled from Lu Longjun)

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　　What are the handling skills for Rolex watches to stop illegally?

　　Rolex watch is a world-famous luxury brand, which is deeply loved by people. However, sometimes we may encounter the situation that Rolex watches stop secretly, which brings troubles to our daily wear. So, what should we do when Rolex watches stop illegally? This article will introduce some skills to deal with the illegal stop of Rolex watches, hoping to help you.

　　Step 1 check the battery

　　If a Rolex watch stops secretly, first check whether the battery of the watch has been exhausted. Battery exhaustion is a common reason why watches stop running. You can open the back cover of the watch and check the condition of the battery to confirm whether it is necessary to replace the battery. If the battery has been used up, replacing the new battery in time can solve the problem of stealing the watch.

　　Step 2 clean the movement

　　The movement of Rolex watch is the core component of the watch. If dust or dirt accumulates inside the movement, it may cause the watch to run poorly or even stop secretly. Therefore, cleaning the movement regularly is an important step to keep the watch running normally. You can send your watch to a professional repair shop for cleaning, or you can carefully clean the movement yourself.

　　Step 3 adjust the time

　　Sometimes a Rolex watch stops secretly, which may be caused by inaccurate time. You can try to adjust the watch time to the exact time to see if you can solve the problem of stealing the watch. If the watch still stops after the time adjustment, it may be that there is a problem with the internal parts of the watch and it needs to be sent to the repair shop for maintenance.

　　tag

　　Generally speaking, when Rolex watches stop illegally, we can first check the battery, clean the movement and adjust the time. If the above methods can’t solve the problem, it is recommended to send it to a professional repair shop for maintenance in time. I hope that the skills introduced in this article to deal with the illegal stop of Rolex watches will be helpful to everyone, so that everyone can better maintain and maintain their Rolex watches.

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Moscow, July 15 (Reporter Jiang Youlin) According to information from the Russian Ministry of Defense on the 15th, Russia’s spring conscription work has ended this year. A total of 150,000 people have been recruited and sent to the Russian armed forces and other military formations.

The Russian Ministry of Defense posted a message on social media that day that Russia’s various conscription committees started work on April 1, and the dispatch of conscripts began on April 15.

In order to ensure military transportation, 15 Russian armed forces aircraft flights, 14 military echelons, 172 civil aviation flights, multiple passenger trains and military road transport vehicles participated in this conscription work.

As a rule, Russia recruits soldiers once every year in spring and autumn. About 1.47 million people will be recruited into the army in the spring of 2023, and 130,000 people will be recruited into the army in the fall of 2023.

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Geneva, July 16 (Reporter Chen Binjie) The World Trade Organization’s side event on China’s trade policy review was held in Geneva, Switzerland on the 16th. The theme of the event is to understand China’s economic and trade policies from the central and local government levels, and aims to help WTO members understand China’s economic and trade policies.

Experts and scholars from the China Academy of Macroeconomics, University of International Business and Economics, Wuhan University, Southwest University of Political Science and Law, and representatives of foreign-funded enterprises in China introduced the policies, measures and practical experiences adopted by China to achieve high-quality development and high-level opening up at the meeting, and interacted with more than 100 participants from the WTO Secretariat, WTO members, international organizations and news media.

In response to WTO members ‘concerns about China’s macroeconomic and domestic reform measures, experts attending the meeting objectively analyzed China’s macroeconomic performance and prospects, and elaborated in depth on China’s introduction in developing new productive forces, building a unified national market, and promoting the development and growth of the private economy. New measures. In order to introduce in depth China’s local practice of further expanding opening up, experts and business representatives attending the meeting introduced in detail the opening up measures adopted by the national comprehensive pilot demonstration of expanding opening up of the service industry based on specific cases and the achievements made in optimizing the business environment and facilitating foreign-funded enterprises to operate in China. Achievements. Officials of the WTO Secretariat and representatives of WTO members expressed great interest in the topics introduced at the meeting, and still had heated discussions with experts at the meeting site after the meeting.

This side event is the first time that China has held such an event on the eve of the trade policy review. Li Chenggang, China’s Permanent Representative to the WTO, said in his speech that China’s hosting of supporting side events on the eve of the review is a specific motion to implement the WTO reform on strengthening the trade policy review mechanism. Trade policy review is not only an important way for the WTO to supervise trade policies and enhance the transparency of member policies, but also an important platform for enhancing understanding and building trust, which is crucial to the effective operation of the WTO.

In his speech, Alexander Keck, Director of the Trade Policy Review Department of the WTO Secretariat, highly praised China’s positive and open attitude in the preparations for this trade policy review, fully affirmed that China’s hosting of side events will help WTO members gain a deeper understanding of China’s economic and trade policies, increase trust and dispel doubts. It praised China as the first WTO member to actively implement the results of the reform of the trade policy review mechanism. It has played an important role in promoting WTO members to participate in trade policy reviews and in-depth interactive exchanges.

Trade policy review is one of the three major functions of the WTO alongside rule negotiation and dispute resolution. Members raise questions and express concerns about trade policies to each other. It is an important transparency mechanism for members to understand each other’s direction of economic and trade policies and the implementation of commitments. According to the review rules, the top four members in the world in terms of trade volume are reviewed every two years.

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United Nations, May 21: Fu Cong, Permanent Representative of China to the United Nations, delivered a speech at the Security Council open debate on the protection of civilians in armed conflict on the 21st, emphasizing that the elimination of armed conflict is the greatest protection for civilians.

Fu Cong said that saving lives in armed conflicts is certainly a noble goal, but it must be noted that as long as the conflict does not subside, civilian lives will be threatened at any time. At the same time, we must not forget that the primary responsibility of the Security Council is to maintain international peace and security. The Gaza conflict, which has lasted for more than seven months, has caused unprecedented civilian casualties and humanitarian disasters, and the lives of the millions of people currently gathering for refuge in Rafah are at risk. The Security Council should make promoting an immediate and comprehensive ceasefire a top priority. To this end, further action should be taken to urge Israel to immediately stop collective punishment of the Palestinian people and stop advancing its military offensive against Rafah, so as to give the people hope for survival.

Fu Cong said that international humanitarian law is the bottom line that must be jointly observed. The Security Council should continue to safeguard the authority of international humanitarian law and ensure its universal and uniform application. Double standards and selective application of humanitarian law are unacceptable and are tantamount to condoning more illegal activities in disguise.

Fu Cong said that attention should be paid to responding to the outstanding challenges brought by the proliferation of small arms and light weapons and the development of autonomous weapon systems. China calls for strengthening global governance of the arms trade, combating the illegal transfer of small arms and light weapons, and calls on all countries not to provide weapons to non-state entities. The risks of artificial intelligence and autonomous weapon systems as means of warfare are rising and deserve great attention. Countries should adhere to the principles of putting people first and intelligence for good to ensure that artificial intelligence is always under human control. China supports the formulation of a legally binding international instrument around lethal autonomous weapon systems.

Fu Cong said that improving the governance capabilities of countries involved in conflicts is the fundamental solution. When dealing with conflict situations, the international community should take systematic measures to support countries parties to conflicts in effectively enhancing their national defense, public security and counter-terrorism capabilities. At the same time, it is necessary to help the countries concerned accelerate development and gradually resolve the deep-seated causes of conflicts. China is willing to continue to work with the international community to make unremitting efforts to eliminate the scourge of war as soon as possible and ensure the happiness and tranquility of the people.

　　In modern industrial automation, precision measurement, and numerous technological fields, sensors play a pivotal role as the core components for information acquisition. Among them, inductive sensors and capacitive sensors are two commonly used sensor types, each possessing unique advantages and applicable scenarios. This article conducts an in-depth comparison of inductive sensors and capacitive sensors from multiple dimensions, including working principles, performance characteristics, and application fields, aiming to provide valuable references for research and applications in related fields.understand Inductive Proximity Snesor In order to better serve customers and reflect the core competitiveness of products. https://www.hfyakexi.com/

　　I. Working Principles

　　Inductive sensors operate based on the principle of electromagnetic induction. They utilize changes in the self-inductance or mutual inductance coefficients of coils caused by measured physical quantities (such as displacement, pressure, flow rate, and vibration) to convert these non-electrical quantities into changes in voltage or current for output. When the current in the coil changes, it generates a changing magnetic field around it, and this changing magnetic field produces an induced electromotive force in nearby conductors. Inductive sensors leverage this mechanism to convert the measured non-electrical quantities into changes in inductance, which are then converted into electrical signals by a measurement circuit for output.

　　Capacitive sensors use capacitors as sensing elements to detect changes in measured physical or mechanical quantities by measuring changes in the capacitance value of the capacitor. When the distance between two conductors or the medium changes, the capacitance of the capacitor changes accordingly. Capacitive sensors monitor this change in capacitance to detect parameters such as object position, displacement, and pressure.

　　II. Performance Characteristics

　　1.Measurement Range: Inductive sensors have a relatively large measurement range, typically reaching several meters or even tens of meters. In contrast, the measurement range of capacitive sensors is relatively small, generally ranging from a few millimeters to a few tens of millimeters.

　　2.Sensitivity: Inductive sensors exhibit high sensitivity, capable of detecting minute displacements or velocity changes. In comparison, capacitive sensors require larger displacements or pressure changes to trigger detection.

　　3.Anti-interference Ability: Inductive sensors have strong inhibition against electromagnetic and radio frequency interference, demonstrating robust anti-interference capabilities. In contrast, capacitive sensors are susceptible to these interferences, exhibiting weaker anti-interference abilities.

　　4.Measurement Accuracy: Inductive sensors offer high measurement accuracy, reaching micrometer or even nanometer levels. In contrast, the measurement accuracy of capacitive sensors is relatively lower, typically at the millimeter level.

　　5.Response Speed: Inductive sensors have fast response speeds, reaching microsecond or even nanosecond levels. In contrast, the response speed of capacitive sensors is slower, generally in the millisecond range.

　　III. Application Fields

　　Inductive sensors, due to their no-moving-contact design, high reliability, long lifespan, high sensitivity, good linearity, and other characteristics, are widely used in industries such as textiles, chemical fibers, machine tools, machinery, and metallurgy for parameters measurement and control, including chain wheel tooth speed detection, chain conveyor speed and distance detection, displacement, vibration, strain, and more.

　　Capacitive sensors, with their simple structure, high temperature resistance, radiation resistance, high resolution, and good dynamic response characteristics, are widely applied in fields such as healthcare, environmental monitoring, and food processing for parameters measurement, including pressure, displacement, humidity, liquid level, and more.

　　IV. Conclusion

　　Inductive sensors and capacitive sensors exhibit significant differences in working principles, performance characteristics, and application fields. Inductive sensors, based on the principle of electromagnetic induction, offer a large measurement range, high sensitivity, strong anti-interference ability, high measurement accuracy, and fast response speeds, making them suitable for precision measurement and control in fields such as industrial automation, robotics, and aerospace. In contrast, capacitive sensors, based on the principle of capacitance change, feature a simple structure, high temperature resistance, radiation resistance, and high resolution, and are widely used in parameter measurement in fields such as healthcare, environmental monitoring, and food processing.

　　When selecting sensors, it is essential to choose the appropriate sensor type based on specific application requirements and environmental conditions. By deeply understanding the differences and characteristics of inductive sensors and capacitive sensors, we can provide more robust support for research and applications in related fields. With continuous technological advancements and expanding application fields, inductive sensors and capacitive sensors will continue to play important roles in industrial automation and precision measurement, contributing to the development of these industries.

　　In today¨s era of rapid technological advancement, smart manufacturing has become a key direction for industrial transformation and upgrading. As an essential component of smart manufacturing, sensor technology plays a critical role and is regarded as the ＾cornerstone of smart manufacturing.￣ This article will delve into the significance of sensor technology and analyze its specific applications and roles within smart manufacturing.So, I believe Laser Distance Sensor In the future, it will be promising to create a miracle belonging to the industry. https://www.hfyakexi.com/

　　The Close Relationship Between Smart Manufacturing and Sensor Technology

　　Smart manufacturing is a new production method that integrates knowledge engineering, manufacturing software systems, robotic vision, and robotic control to model the skills of technicians and expert knowledge, allowing intelligent machines to conduct small-batch production without human intervention. The development of this concept marks a new intelligent era in industrial manufacturing. Sensor technology, as a pillar of information technology, is a critical technology indispensable for realizing smart manufacturing.

　　A sensor is a device or apparatus that can sense a specified measured quantity and convert it into a usable output signal according to certain rules. These measured quantities can be physical, chemical, or biological, and the output signals are usually electrical. Sensors use physical, chemical, or biological effects to convert detected information into electrical signals, laying the foundation for information acquisition, transmission, and processing.

　　Applications of Sensor Technology in Smart Manufacturing

　　Data Collection and Monitoring

　　Sensor technology is the core of data collection and monitoring in the smart manufacturing process. By installing various sensors on production equipment, processes, and products, critical parameters such as temperature, pressure, displacement, and speed in the production process can be collected in real-time, allowing precise monitoring of the production process. This data provides a basis for production management and decision-making, as well as a foundation for subsequent data analysis and optimization.

　　Fault Diagnosis and Prediction

　　Intelligent sensors not only have data collection capabilities but also possess logical judgment and data processing capabilities. Through built-in algorithms and models, sensors can analyze and calculate the collected data, enabling timely diagnosis and prediction of equipment faults. For instance, in the manufacturing industry, engine performance evaluation, fault diagnosis, and life prediction systems based on smart sensing technology can monitor engine operating conditions in real-time, detect potential faults in advance, and take appropriate preventive and maintenance measures.

　　Smart Control and Optimization

　　Sensor technology can also be combined with automated control systems to achieve intelligent control and optimization of production processes. By collecting and analyzing production data in real-time, sensors can adjust production parameters and optimize process flows, enhancing production efficiency and product quality. For example, in smart factories, sensors can monitor the operation of production lines in real-time and adjust the production rhythm and resource allocation according to actual demand, realizing intelligent and adaptive production processes.

　　Internet of Things and Smart Connectivity

　　With the continuous development of the Internet of Things (IoT) technology, the application of sensors in smart manufacturing has also become more widespread. By integrating sensors with IoT technology, device interconnectivity and data sharing can be achieved. This improves the transparency and traceability of the production process and provides strong support for the digital transformation of smart manufacturing. For example, IoT-based smart logistics systems, which use RFID technology, can track and locate goods in real-time by reading information from sensor tags, enhancing logistics efficiency and accuracy.

　　Core Technologies and Future Trends

　　The ability of sensor technology to achieve these functions is supported by core technologies such as sensor materials, MEMS chips, drivers, and application software. MEMS chips, in particular, are an important carrier for intelligent sensors due to their small size, lightweight, low power consumption, and high reliability. In recent years, with the continuous development of MEMS technology, the performance of intelligent sensors has also significantly improved, providing more reliable and efficient technical support for smart manufacturing.

　　In the future, sensor technology will continue to develop toward high performance, high reliability, multifunctionality, and intelligence. On one hand, by continuously optimizing sensor materials and MEMS chip performance, the accuracy and stability of sensors will be improved. On the other hand, by introducing advanced technologies like artificial intelligence and big data, sensors¨ intelligence and adaptability will be enhanced. This will provide more comprehensive and robust technical support for smart manufacturing, driving industrial manufacturing to a higher level.

　　Conclusion: Sensor Technology！The Driving Force of Smart Manufacturing¨s Future

　　In conclusion, as the cornerstone of smart manufacturing, sensor technology plays a crucial role in data collection and monitoring, fault diagnosis and prediction, smart control and optimization, and IoT and smart connectivity. By continuously optimizing core technologies and developing new sensors, sensor technology will provide more efficient, reliable, and intelligent support for smart manufacturing. In the future, as smart manufacturing continues to evolve, sensor technology will keep playing its essential role, pushing industrial manufacturing toward higher levels. As technology professionals and manufacturing practitioners, we should closely follow the development trends of sensor technology, embrace new technologies and applications, and collectively drive the prosperity and growth of smart manufacturing.

　　In today¨s era of rapid technological advancement, smart manufacturing has become a key direction for industrial transformation and upgrading. As an essential component of smart manufacturing, sensor technology plays a critical role and is regarded as the ＾cornerstone of smart manufacturing.￣ This article will delve into the significance of sensor technology and analyze its specific applications and roles within smart manufacturing.With the expanding influence of the industry, Laser Distance Sensor Our business is also constantly spreading, and the development of the market is also gradually advancing. https://www.hfyakexi.com/

　　The Close Relationship Between Smart Manufacturing and Sensor Technology

　　Smart manufacturing is a new production method that integrates knowledge engineering, manufacturing software systems, robotic vision, and robotic control to model the skills of technicians and expert knowledge, allowing intelligent machines to conduct small-batch production without human intervention. The development of this concept marks a new intelligent era in industrial manufacturing. Sensor technology, as a pillar of information technology, is a critical technology indispensable for realizing smart manufacturing.

　　A sensor is a device or apparatus that can sense a specified measured quantity and convert it into a usable output signal according to certain rules. These measured quantities can be physical, chemical, or biological, and the output signals are usually electrical. Sensors use physical, chemical, or biological effects to convert detected information into electrical signals, laying the foundation for information acquisition, transmission, and processing.

　　Applications of Sensor Technology in Smart Manufacturing

　　Data Collection and Monitoring

　　Sensor technology is the core of data collection and monitoring in the smart manufacturing process. By installing various sensors on production equipment, processes, and products, critical parameters such as temperature, pressure, displacement, and speed in the production process can be collected in real-time, allowing precise monitoring of the production process. This data provides a basis for production management and decision-making, as well as a foundation for subsequent data analysis and optimization.

　　Fault Diagnosis and Prediction

　　Intelligent sensors not only have data collection capabilities but also possess logical judgment and data processing capabilities. Through built-in algorithms and models, sensors can analyze and calculate the collected data, enabling timely diagnosis and prediction of equipment faults. For instance, in the manufacturing industry, engine performance evaluation, fault diagnosis, and life prediction systems based on smart sensing technology can monitor engine operating conditions in real-time, detect potential faults in advance, and take appropriate preventive and maintenance measures.

　　Smart Control and Optimization

　　Sensor technology can also be combined with automated control systems to achieve intelligent control and optimization of production processes. By collecting and analyzing production data in real-time, sensors can adjust production parameters and optimize process flows, enhancing production efficiency and product quality. For example, in smart factories, sensors can monitor the operation of production lines in real-time and adjust the production rhythm and resource allocation according to actual demand, realizing intelligent and adaptive production processes.

　　Internet of Things and Smart Connectivity

　　With the continuous development of the Internet of Things (IoT) technology, the application of sensors in smart manufacturing has also become more widespread. By integrating sensors with IoT technology, device interconnectivity and data sharing can be achieved. This improves the transparency and traceability of the production process and provides strong support for the digital transformation of smart manufacturing. For example, IoT-based smart logistics systems, which use RFID technology, can track and locate goods in real-time by reading information from sensor tags, enhancing logistics efficiency and accuracy.

　　Core Technologies and Future Trends

　　The ability of sensor technology to achieve these functions is supported by core technologies such as sensor materials, MEMS chips, drivers, and application software. MEMS chips, in particular, are an important carrier for intelligent sensors due to their small size, lightweight, low power consumption, and high reliability. In recent years, with the continuous development of MEMS technology, the performance of intelligent sensors has also significantly improved, providing more reliable and efficient technical support for smart manufacturing.

　　In the future, sensor technology will continue to develop toward high performance, high reliability, multifunctionality, and intelligence. On one hand, by continuously optimizing sensor materials and MEMS chip performance, the accuracy and stability of sensors will be improved. On the other hand, by introducing advanced technologies like artificial intelligence and big data, sensors¨ intelligence and adaptability will be enhanced. This will provide more comprehensive and robust technical support for smart manufacturing, driving industrial manufacturing to a higher level.

　　Conclusion: Sensor Technology！The Driving Force of Smart Manufacturing¨s Future

　　In conclusion, as the cornerstone of smart manufacturing, sensor technology plays a crucial role in data collection and monitoring, fault diagnosis and prediction, smart control and optimization, and IoT and smart connectivity. By continuously optimizing core technologies and developing new sensors, sensor technology will provide more efficient, reliable, and intelligent support for smart manufacturing. In the future, as smart manufacturing continues to evolve, sensor technology will keep playing its essential role, pushing industrial manufacturing toward higher levels. As technology professionals and manufacturing practitioners, we should closely follow the development trends of sensor technology, embrace new technologies and applications, and collectively drive the prosperity and growth of smart manufacturing.

　　On October 8, 2023, global leader in CMOS image sensors, Omnivision, announced the launch of the world¨s first automotive CMOS image sensor, OX03H10, based on TheiaCel? technology, featuring 3.0-micron (μm) pixels. This sensor aims to provide unparalleled imaging clarity for surround-view and rear-view cameras, significantly enhancing driving safety under all lighting conditions.more importantly, Ultrasonic Sensor Made a fighter in the product, not afraid of any competitor’s attack. https://www.hfyakexi.com/

　　Product Features

　　The OX03H10 is a high-definition CMOS image sensor with a 1/2.44-inch color resolution of 1920 x 1536 (3 million pixels) and high dynamic range (HDR) capabilities. At a resolution of 1920 x 1536, the OX03H10 supports 60 frames per second (fps) output while maintaining low power consumption. Its 3.0 μm pixels are based on PureCel?Plus-S stacked technology, allowing for the smallest pixel size and highest resolution in a 1/2.44-inch optical format.

　　The TheiaCel? technology combines Omnivision’s lateral overflow integrated capacitor (LOFIC) technology with its proprietary HDR technology, delivering exceptional image quality in any lighting condition.

　　Packaging and Compatibility

　　In terms of packaging, the OX03H10 features a compact a-CSP? package and is pin-to-pin compatible with Omnivision’s OX03F10 automotive image sensor, enabling seamless upgrades. Furthermore, the OX03H10 complies with ASIL C functional safety regulations, incorporates cybersecurity features, and supports MIPI output interfaces.

　　Market Outlook

　　＾The OX03H10 image sensor excels in low-light performance, achieving an impressive 140 dB dynamic range through single exposure, effectively mitigating LED flicker (LFM). This is made possible by our TheiaCel? technology, which leverages the capabilities of LOFIC technology, combined with Omnivision’s proprietary single-exposure DCG? and our renowned separated pixel HDR technology to achieve outstanding image quality under any lighting conditions,￣ said Naresh Shetty, Automotive Product Marketing Manager at Omnivision. ＾We are excited to introduce the OX03H10 camera across all next-generation vehicle categories, enhancing visibility in all aspects of driving and vehicle ownership.￣

　　The OX03H10 is now available for sampling and is expected to enter mass production in the first half of 2025.

　　Industry Position

　　According to Yole Group, Omnivision holds the third position in the global CMOS image sensor market in 2023, with an 11% market share, trailing only Sony (45%) and Samsung (19%). In the global automotive CMOS image sensor market, Omnivision ranks second with a 30% share, just behind ON Semiconductor (33%).

　　Summary

　　The OX03H10 image sensor launched by Omnivision, featuring advanced TheiaCel? technology and exceptional image quality, is set to bring new opportunities and challenges to the automotive camera industry. This sensor not only enhances safety and driving experiences but also solidifies Omnivision’s leading position in technological innovation and market competition. With samples now available and plans for future mass production, the OX03H10 is expected to shine in the automotive market, contributing to the development of smart vehicles.