When dealing with various types of cables, understanding their specific functions and applications is crucial. Among the many types of cables, 6 pin terminal signal cables and 6 pin power cables are commonly used, but they serve distinct purposes and have different characteristics. Here¨s a detailed look at how these two types of cables differ.know xpb terminal wire The market will definitely bring great influence to the whole industry. https://www.xpbdz.com/

　　1. Purpose and Function

　　6 Pin Terminal Signal Cable:A 6 pin terminal signal cable is designed primarily for the transmission of signals. These signals can be analog or digital, depending on the application. The primary function of this cable is to carry data or control signals between devices. For instance, in industrial automation, these cables connect sensors, controllers, and other equipment to facilitate communication and control processes.

　　6 Pin Power Cable:In contrast, a 6 pin power cable is intended to carry electrical power. It is used to connect power sources to devices or components that require electricity to operate. This type of cable is essential in applications where multiple power lines are needed to deliver electricity efficiently to various parts of a system.

　　6 PIN terminal signal cable

　　2. Wiring and Construction

　　6 Pin Terminal Signal Cable:The internal construction of a 6 pin terminal signal cable typically includes multiple insulated conductors. These conductors are arranged to handle different signal paths, which could include data, ground, and power lines if required by the application. The cable may also be shielded to prevent interference and maintain signal integrity.

　　6 Pin Power Cable:A 6 pin power cable generally contains thicker conductors compared to signal cables, as it needs to handle higher currents. The insulation material is designed to handle the electrical load and prevent overheating. Power cables are usually not shielded unless there is a need to reduce electromagnetic interference (EMI) for sensitive applications.

　　3. Connector Types

　　6 Pin Terminal Signal Cable:The connectors used with 6 pin terminal signal cables are often designed to accommodate the specific needs of signal transmission. Common types include Molex, JST, or custom connectors tailored for particular applications. These connectors ensure that the signals are transmitted accurately and reliably.

　　6 Pin Power Cable:Power cables often use connectors designed for high-current applications. These connectors are robust and capable of handling significant electrical loads. They may include features such as locking mechanisms to prevent accidental disconnection.

　　6 PIN terminal signal cable

　　4. Applications

　　6 Pin Terminal Signal Cable:These cables are used in applications where precise signal transmission is crucial. Examples include data communication in computers, control systems in industrial machinery, and connection between various electronic devices. They are designed to maintain signal quality and minimize noise.

　　6 Pin Power Cable:Power cables are used in applications where reliable power delivery is necessary. They are commonly found in power distribution systems, electrical panels, and devices requiring multiple power inputs. Their design focuses on safety and efficiency in power delivery.

　　5. Performance Characteristics

　　6 Pin Terminal Signal Cable:Signal cables are designed to offer high performance in terms of signal clarity and low attenuation. The quality of signal transmission is affected by the cable¨s shielding, insulation, and overall construction.

　　6 Pin Power Cable:Performance in power cables is measured by their ability to handle current without overheating or causing voltage drops. The gauge of the conductors and the quality of insulation play a crucial role in ensuring safe and efficient power delivery.

　　Conclusion

　　In summary, the primary difference between a 6 pin terminal signal cable and a 6 pin power cable lies in their intended functions and construction. Signal cables are designed for data transmission with an emphasis on maintaining signal integrity, while power cables are built to deliver electrical power with a focus on handling high currents safely. Understanding these differences helps in selecting the appropriate cable for specific applications, ensuring optimal performance and reliability.

　　When selecting materials for various applications, especially those involving harsh environmental conditions, the ability of the material to withstand extreme temperatures is crucial. Custom silicone parts have become a popular choice due to their impressive temperature tolerance. In this article, we¨ll explore how custom silicone parts perform in extreme temperatures and why they are a preferred option in demanding applications.Through bit by bit efforts, let silicone overmolding parts Our market share is getting higher and higher, and the return on investment is also rising steadily. https://lxsiliconeparts.com/

　　Temperature Tolerance of Silicone

　　Silicone rubber is renowned for its ability to handle a wide range of temperatures. Typically, silicone parts can endure temperatures from -60＜C (-76＜F) to +230＜C (+446＜F). This makes silicone highly versatile, suitable for both freezing cold and intense heat. However, specific silicone formulations can extend these ranges even further.

　　custom silicone parts

　　Low-Temperature Performance

　　At low temperatures, silicone maintains its flexibility and elasticity, unlike many other materials that become brittle and prone to cracking. This property is crucial for applications in cold environments, such as aerospace components, refrigeration seals, and outdoor equipment. The low-temperature resilience ensures that silicone parts will continue to function effectively even in freezing conditions.

　　High-Temperature Performance

　　Silicone¨s high-temperature resistance makes it ideal for applications that involve heat exposure, such as automotive engine parts, cooking appliances, and industrial machinery. Silicone¨s ability to withstand elevated temperatures without losing its mechanical properties or degrading over time ensures long-term performance and reliability in high-heat environments.

　　Factors Affecting Temperature Resistance

　　Silicone Formulation: The temperature resistance of silicone can vary depending on its formulation. Standard silicone typically handles temperatures up to +230＜C (+446＜F), but specialized high-temperature silicones can tolerate even higher temperatures.

　　Additives and Fillers: Additives and fillers can enhance silicone¨s properties, including its temperature resistance. For instance, silicone compounds with added fillers may improve thermal stability and reduce the effects of extreme temperatures.

　　Application Conditions: The actual performance of silicone parts in extreme temperatures also depends on the specific conditions of use, such as exposure duration, thermal cycling, and mechanical stress. Proper material selection and design considerations are essential to ensure optimal performance.

　　custom silicone parts

　　Applications of High-Temperature Silicone Parts

　　Automotive Industry: Silicone seals and gaskets are used in engines, exhaust systems, and other high-heat areas to provide reliable sealing and performance under extreme temperatures.

　　Aerospace Industry: Silicone components in aircraft and spacecraft must withstand temperature fluctuations during flight and re-entry, making silicone an ideal material due to its thermal stability.

　　Electronics: Silicone encapsulants and insulators protect electronic components from heat and ensure reliable operation in high-temperature environments.

　　Cooking Appliances: Silicone bakeware and kitchen tools are designed to endure high temperatures in ovens and dishwashers, ensuring durability and safety.

　　Conclusion

　　Custom silicone parts are highly capable of withstanding extreme temperatures, making them suitable for a wide range of applications in both low and high-temperature environments. Their flexibility at low temperatures and stability at high temperatures provide exceptional performance and reliability. By choosing the right silicone formulation and considering application-specific factors, you can ensure that your custom silicone parts will perform effectively under challenging conditions.

　　Whether you need parts for automotive, aerospace, electronics, or any other demanding application, custom silicone parts offer the temperature resilience required for long-lasting and reliable performance.

　　Functional safety solves the problem of failure of electronic and electrical systems, such as a camera suddenly breaking down or a domain controller system failure. Traditional ADAS systems will fully consider functional safety during the system design stage. At present, this field is the most mature compared to other safety areas, and is also supported by international standards ISO26262 and some regulations.Therefore, we should understand vehicle camera supplier Many benefits, absorb and summarize, and use them. https://szdfpls.com

　　Expected functional safety solves the problems of insufficient related functions, performance limitations, and human misuse after the complexity of system functions increases. For example, if the driver does not operate the intelligent driving function correctly, the perception algorithm function is limited and cannot accurately identify the faded lane line, or the perception identifies the truck in front as blue daytime, this will bring fatal problems.

　　At present, the ADAS system has not yet achieved a good implementation combination with expected functional safety, but according to my observation, some companies are also paying attention to this aspect and starting to make some expected functional safety supervision mechanisms. Expected functional safety is more targeted at high-level ADAS systems (L3 and above), because the system is more complex and needs to pay more attention to expected functional safety.

　　Information security, this direction involves more and wider areas than the first two, involving data communication security between vehicles and within the vehicle. At present, I personally have not been exposed to information security in ADAS, and I hope that other experts in information security can talk about it together.

　　In daily life, keyboard is a relatively important thing. Whether you are working or playing games, keyboard is indispensable. A good-looking keyboard can bring a different use experience, at least it looks more comfortable at first glance. Mechanical keyboards have different axes, which can bring different typing experiences and meet most of the needs of different groups of people for keyboards. Therefore, more and more people use mechanical keyboards in recent years. When boys buy things, they may look at the performance at first glance, but girls may look at the appearance at first glance. However, in order to prevent girls from missing out on easy-to-use mechanical keyboards, there are many keyboards that have girls’ aesthetics, high appearance, and practical mechanical keyboard products.more importantly, aula gaming mouse Made a fighter in the product, not afraid of any competitor’s attack. https://www.aulastar.com/

　　What are some good-looking keyboards that girls would also like to recommend?

　　AULA F98Pro

　　AULA F98Pro wireless Bluetooth three-mode customized keyboard, white, black, cherry pink color, high appearance, stylish and individual. Cool RGB lighting effect, 16 million colors for you to choose, anyone who sees it will love it. This keyboard adopts a three-mode design, which can connect to multiple devices at the same time, making operation more convenient. The surface of the keyboard is frosted, comfortable to the touch, and not easy to fatigue after long-term use. The keyboard uses a white transparent ice crystal axis, which has a smooth touch and comfortable operation, suitable for office and game use. The keyboard has a variety of shortcut keys for user convenience. The keyboard comes with a backlight function, which is more convenient to use at night. In addition, this keyboard also supports customized settings, which can be adjusted according to personal preferences to meet personalized needs. In addition, this keyboard also has a powerful waterproof function, so there is no need to worry about liquid splashing into the keyboard, which extends the service life of the keyboard. Whether it is office or game, it can meet user needs.

　　In the fastener forming process, cold heading (extrusion) technology is a main processing technology, which belongs to the category of metal pressure processing. In production, at room temperature, external force is applied to the metal to form the metal in a predetermined mold. This method is usually called cold heading. In fact, the forming of any fastener is not only achieved by cold heading. In the cold heading process, in addition to upsetting deformation, it is also accompanied by positive and negative extrusion, compound extrusion, punching, rolling and other deformation methods. Therefore, the name of cold heading in production is just a habitual name. To be more precise, it should be called cold heading (extrusion).As a representative of the industry, non standard fasteners It is necessary to set a certain example for peers and lead the way in product quality. https://jieruifasteners.com/

　　Cold heading (extrusion) has many advantages, and it is suitable for mass production of fasteners. Its advantages can be summarized as follows:

　　1. High steel utilization rate. Cold heading (extrusion) is a method with little or no cutting. For example, when processing hexagonal bolts and cylindrical socket screws of rods, the steel utilization rate is only 25% to 35% by cutting, while the utilization rate can be as high as 85% to 95% by cold heading (extrusion), which is only some process consumption of the head, tail and hexagonal head edge.

　　High productivity. Compared with general cutting, the efficiency of cold heading (extrusion) is more than dozens of times higher.

　　2. Good mechanical properties. The strength of parts processed by cold heading (extrusion) method is much better than that of cutting because the metal fibers are not cut.

　　3. Suitable for automated production. Fasteners (including some special-shaped parts) suitable for cold heading (extrusion) method are basically symmetrical parts, suitable for production by high-speed automatic cold heading machine, and are also the main method of mass production.

　　In short, the cold heading (extrusion) method for processing fasteners and special-shaped parts is a processing method with a relatively high comprehensive economic benefit. It is a processing method commonly used in the fastener industry. It is also an advanced processing method that is widely used and developed at home and abroad.

　　At room temperature, the blank is placed in the mold of an automatic cold heading machine or a press, and pressure is applied to the mold. The relative movement of the upper and lower molds is used to deform the blank in the mold cavity, reduce the height, and increase the cross-section. This pressure processing method is called cold heading for automatic cold heading machines and cold pressing for presses. In actual production, the cold forming process of fasteners is often accompanied by extrusion during the cold heading process. Therefore, the cold heading process of fastener products alone is actually a composite processing method that has both cold heading and extrusion.

　　During the Global Sources Electronics, Indonesia exhibition, the booth of Dongguan Tl-Link Electronic Technology Co. Ltd not only attracted the attention of industry peers, but also attracted the attention of potential customers, partners and media.So we can draw a preliminary conclusion, multicore cable price It is helpful to the needs of the industry market and social development. https://www.linkcablecn.com

　　The company’s professional team demonstrated their deep understanding of products and industries at the exhibition, and had active and meaningful interactions with visitors.

　　This exhibition provides a unique opportunity for Dongguan Tl-Link Electronic Technology Co. Ltd to network with professionals from different regions, gain an in-depth understanding of market needs, and showcase its latest innovations.

　　Company representatives said that participating in the exhibition is a very strategic decision that will help consolidate its leadership position in the field of electronic technology.

　　According to the Associated Press news, on July 16, 2024, the Chinese in New York City launched a demonstration against the establishment of homeless people in the Chinese area of New York, and a fierce violent conflict broke out with the United States military police, Chinese groups were fierce, and many people were arrested by the New York State military police for physical conflict with the United States military police.more importantly, female bodyguard Made a fighter in the product, not afraid of any competitor’s attack. http://huanyubodyguard.com/

　　new york clashes

　　The Chinese demonstration in New York State, the United States, is an event organized by the Chinese in New York State against the United States government, in order to defend the security rights and interests of the Chinese in the Chinese area, the Chinese launched a protest to the New York government, feeling that the United States to build a homeless area in the Chinese area of New York, will threaten the safety of the Chinese in the Chinese area. Because the vagabonds that the vagabonds take in, the vagabonds of the world who steal and rob for a living, are mostly drug addicts. But the resistance of the Chinese may be ineffective, because the New York State government will not listen to the opinions of the Chinese, the Chinese in this state want to defend their survival and security rights, they need to find another way, there are New York Chinese ready to cooperate with China Shenzhen Huanyu Brothers bodyguard company, hire the bodyguard in the Chinese bodyguard company to protect the security, if the homeless in New York State officially opened the construction. The Chinese in New York State are likely to face a number of security challenges.

　　new york clashes

　　Some media believe that the US state of New York has chosen to build homeless shelters in Chinese areas, which is to bully Chinese Americans, and the local government does not build homeless shelters in places where Americans are concentrated, but to build homeless shelters in Chinese areas, which is to condone the security intrusion of homeless people on Chinese people in Chinese areas. It is not easy for Chinese Americans to obtain the same rights and interests as American citizens in countries such as the United States. If homeless shelters are really built in the Chinese area of New York State, the residential safety, personal safety and property safety of a large number of Chinese Americans will be lost.

　　The 2.0mm Insulation Displacement Connector (IDC) is a vital component in modern electronics, known for its reliability and ease of use. This connector is designed to simplify the process of connecting wires to a connector without the need for soldering, making it a popular choice in various electronic applications. Here, we explore the diverse applications of the 2.0mm IDC connector in the realm of modern electronics.beyond doubt D-SUB connector It will definitely lead the development direction of the whole industry and let its light bloom in this field. https://www.xpbdz.com/

　　Consumer Electronics

　　In consumer electronics, the 2.0mm IDC connector is commonly used due to its compact size and high efficiency. It can be found in devices such as smartphones, tablets, and laptops, where space is at a premium. These connectors help streamline the internal wiring, ensuring a neat and efficient layout that enhances device performance and reliability.

　　Industrial Automation

　　The industrial sector relies heavily on the 2.0mm IDC connector for automation systems. These connectors are integral in connecting various components of industrial machinery, including sensors, controllers, and actuators. Their robust design ensures reliable connections in environments where vibration and electrical noise are prevalent, thus maintaining the efficiency and accuracy of automated systems.

　　Telecommunications

　　Telecommunication equipment often employs the 2.0mm IDC connector to manage the complex wiring systems needed for transmitting data and signals. These connectors are used in routers, modems, and other communication devices, where they help maintain the integrity of signal transmission. The IDC connectors’ ability to provide secure and stable connections is crucial in ensuring uninterrupted communication.

　　Automotive Electronics

　　In the automotive industry, the 2.0mm IDC connector plays a critical role in the development of advanced electronic systems within vehicles. These connectors are used in infotainment systems, navigation units, and various sensors that contribute to vehicle safety and performance. The ability to withstand harsh conditions such as temperature fluctuations and vibrations makes the 2.0mm IDC connector ideal for automotive applications.

　　Medical Devices

　　Medical devices require highly reliable and precise connections, making the 2.0mm IDC connector an excellent choice. These connectors are used in medical equipment like patient monitors, diagnostic devices, and imaging systems. The connectors’ secure and stable connections are essential in medical settings where accuracy and reliability can directly impact patient outcomes.

　　Home Automation

　　With the rise of smart homes, the 2.0mm IDC connector has found applications in home automation systems. These connectors are used in smart thermostats, lighting systems, and security devices. Their ability to provide consistent and reliable connections helps ensure the smooth operation of interconnected home automation systems.

　　Computing and Networking

　　In computing and networking, the 2.0mm IDC connector is frequently used in servers, network switches, and data storage devices. These connectors help manage the complex wiring necessary for high-speed data transmission and processing. The IDC connectors’ design ensures that connections remain stable and reliable, which is crucial in maintaining the performance of computing and networking equipment.

　　Conclusion

　　The 2.0mm IDC connector’s versatility and reliability make it an indispensable component in modern electronics. From consumer electronics to industrial automation and medical devices, these connectors play a critical role in ensuring efficient and stable connections. As technology continues to advance, the applications of the 2.0mm IDC connector will likely expand, further cementing its importance in the world of electronics.

　　Baking enthusiasts are always on the lookout for tools that make the process easier and the results better. One such tool that has gained popularity in recent years is the silicone donut pan. These versatile, non-stick pans can transform your donut-making experience. In this blog post, we¨ll explore the benefits of silicone donut pans and provide some tips to help you get the most out of your baking sessions.So we can draw a preliminary conclusion, silicone overmolding parts It is helpful to the needs of the industry market and social development. https://lxsiliconeparts.com/

　　silicone donut pans

　　Why Choose Silicone Donut Pans?

　　1. Non-Stick Surface

　　Silicone donut pans offer a non-stick surface that ensures your donuts come out perfectly every time. This means less hassle when it¨s time to remove the donuts from the pan and a more enjoyable baking experience.

　　2. Flexibility

　　Silicone is a flexible material, making it easy to pop your donuts out of the pan without damaging them. This flexibility also makes storage a breeze, as the pans can be easily folded or rolled up.

　　3. Easy to Clean

　　Cleaning up after baking can be a chore, but silicone donut pans are dishwasher safe, making cleanup quick and easy. Even if you choose to wash them by hand, a simple rinse with soap and water will do the trick.

　　4. Heat Resistance

　　Silicone bakeware can withstand high temperatures, usually up to 450＜F (232＜C), making it safe for use in both the oven and microwave. This heat resistance ensures that your silicone donut pans will last for many baking sessions.

　　5. Versatility

　　Silicone donut pans aren¨t just for donuts. You can use them to make a variety of treats, including mini cakes, muffins, and even savory dishes like egg bites. This versatility makes them a valuable addition to any kitchen.

　　silicone donut pans

　　Tips for Baking with Silicone Donut Pans

　　1. Grease the Pans

　　While silicone is non-stick, a light coating of cooking spray or oil can ensure even easier removal and cleaner edges on your donuts.

　　2. Use a Baking Sheet

　　Place your silicone donut pan on a baking sheet before filling it with batter. This will provide stability and make it easier to move the filled pan in and out of the oven.

　　3. Fill Evenly

　　For uniform donuts, fill each cavity about two-thirds full. This will help ensure that your donuts bake evenly and have a consistent shape.

　　4. Cool Completely

　　Allow your donuts to cool completely in the pan before removing them. This will help them retain their shape and make them easier to handle.

　　5. Experiment with Recipes

　　Don¨t be afraid to get creative with your donut recipes. Silicone donut pans can handle a variety of batters, so experiment with different flavors and ingredients to find your perfect donut.

　　Conclusion

　　Silicone donut pans are a fantastic addition to any baker¨s toolkit. Their non-stick, flexible, and easy-to-clean nature makes baking donuts a joy. Whether you¨re a seasoned baker or a novice, these pans can help you create delicious, perfectly shaped donuts with ease. So, why not give silicone donut pans a try and take your baking to the next level?

　　What do several common ADAS functions do?In the long run, 360 panoramic camera factory The value will be higher and higher, and there will be a great leap in essence. https://szdfpls.com

　　1 LKA (lane keeping assist)

　　LKA can help drivers keep their vehicles in lanes and reduce the risk of lane departure accidents caused by driver negligence or fatigue.

　　The LKA system achieves its functions by using cameras, sensors and control systems. The camera is usually installed at the front of the vehicle to capture the lane line in front of the vehicle. The sensor is responsible for monitoring the driving status and direction of the vehicle, including steering angle, vehicle speed, etc.

　　When the vehicle approaches the lane line during driving, the LKA system detects the position and shape of the lane line and makes a judgment based on the driving status and direction of the vehicle. If the system believes that the vehicle is about to deviate from the lane, it will help the driver guide the vehicle back to the normal lane by controlling the steering system.

　　2 ACC (adaptive cruise control)

　　The ACC system uses on-board sensors, including radar, laser radar, etc., to detect the vehicles and obstacles in front of the vehicle during driving, as well as the position and speed of the vehicle. The system can monitor the distance and speed of the vehicles and obstacles in front in real time, and automatically adjust the speed and driving trajectory according to the speed and driving status of the vehicle to maintain a safe distance from the vehicle in front.

　　Compared with traditional cruise control systems, adaptive cruise systems are more intelligent and flexible. Traditional cruise control systems can only drive at a preset speed and trajectory, while adaptive cruise systems can automatically adjust the speed and trajectory according to the actual situation of the vehicle and obstacles in front to maintain a safe distance.

　　In addition, the adaptive cruise system can also automatically adjust the vehicle¨s speed and trajectory according to the speed and driving status of the vehicle and obstacles in front to maintain the relative position with the vehicle in front. This automatic adjustment function can help drivers drive the vehicle more easily while improving driving comfort and safety.

　　3 FCW (forward collision warning)

　　The FCW system uses on-board sensors, including radar, cameras, etc., to detect the distance and relative speed between the obstacle in front of the vehicle and the vehicle. The system monitors the situation in front of the vehicle in real time. When a collision risk is detected, it will issue a warning to remind the driver to take timely measures.

　　The warning methods of the FCW system usually include sound warnings, vibration seats or steering wheels, etc. The level and method of the warning will vary depending on the size and specific circumstances of the collision risk. If the driver does not take timely measures, the FCW system may also automatically intervene in the vehicle¨s braking system to avoid or mitigate the collision.

　　Collision prevention systems are usually combined with other driver assistance technologies such as lane departure warning systems and adaptive cruise control systems to provide drivers with more comprehensive and reliable driving safety protection.

　　4 AEB (advanced/automatic emergency braking)

　　The implementation of the AEB system function requires the cooperation of multiple sensors and controllers. The sensor in front of the vehicle (such as radar, camera or laser) detects obstacles in front. If there is a risk of collision based on speed and distance analysis, the system will warn the driver through warning lights, alarm sounds, etc. If the driver does not brake after the warning, or the system determines that the driver cannot brake in time after sensing the signal, the AEB system will actively intervene and brake when the threshold is exceeded.

　　5 IPA (intelligent parking assist)

　　IPA integrates sensors, cameras and computer algorithms to realize functions such as automatic parking space identification and automatic parking.

　　In actual use, the driver only needs to press the start button of IPA intelligent parking assist, and the system will automatically detect the surrounding environment and find a suitable parking space. Once a suitable parking space is found, the system automatically calculates the best parking trajectory and controls the vehicle to complete automatic parking. The whole process does not require manual operation by the driver.

　　6 BSD (blind spot detection)

　　BSD mainly detects the blind spot range of the rearview mirror through two millimeter-wave radars equipped on the rear of the vehicle. When other road users are detected in the blind spot, the driver is warned to assist driving or changing lanes.

　　7 DFM (driver fatigue monitoring)

　　DFM aims to monitor the driver¨s physiological state and driving behavior, reminding the driver to rest in time when fatigued, so as to ensure driving safety.

　　The DFM system monitors the driver¨s physiological state in real time through various sensors, such as eye closure, head position, heart rate, etc. These data can provide clues about whether the driver is fatigued. For example, when the driver¨s eyes are closed more or the head position is not correct, this may indicate that the driver is in a state of fatigue. In addition, the DFM system also monitors the driver¨s behavior patterns, such as driving speed, braking frequency, etc. These behavior patterns can also reflect the driver¨s fatigue level. For example, when the driver slows down or brakes more frequently, this may indicate that the driver is tired.

　　The DFM system uses specific algorithms and models to comprehensively analyze the driver¨s physiological and behavioral characteristics to assess the driver¨s fatigue level. These algorithms and models are usually based on machine learning and artificial intelligence technologies, and can determine whether the driver is in a state of fatigue based on the driver¨s characteristic data.

　　8 NV (night vision)

　　NV can detect obstacles and pedestrians at a farther distance than ordinary visible light, which is particularly useful in night and low-light environments. By identifying these obstacles and pedestrians, the NV night vision function can provide drivers with additional warnings, allowing them to react in advance and avoid potential dangers.

　　NV night vision can also be combined with other ADAS technologies, such as automatic emergency braking and adaptive cruise control. When the NV night vision system detects potential dangers, it can trigger these higher-level safety systems to automatically take evasive or braking measures, thereby further enhancing driving safety.

　　However, NV performance is affected by many factors such as light conditions, ambient temperature, and equipment quality. Therefore, when using NVD, it is necessary to make appropriate adjustments and use it according to actual conditions.