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PCBasic can produce almost all types of automotive PCBs. The automotive PCB made by PCBasic has successfully won unanimous praise from customers. Our products are considered better than our competitors because we always focus on developing technology. PCBasic fully understands all types of PCB components in the automotive industry. Our automotive PCBs have passed professional qualification certification, so you can trust them to be durable and reliable automotive PCBs. The price of PCBasic is also competitive, essential for you to conduct your business smoothly and increase profits.
No matter what type of automotive PCB you are looking for, we can provide it for you. You can enjoy the shortest delivery time and the fastest delivery speed. Click https://www.pcbasic.com/ to get our automotive PCB quotation for free. Quality is crucial for automotive PCBs.
The automotive PCBs provided by PCBasic have the following advantages:
From 2018 to 2024, the global automotive PCB market is expected to exceed US$14 billion. It is estimated that from 2020 to 2025, the compound annual growth rate of the automotive PCB market is about 6%.
From 2018 to 2024, the global automotive PCB market is expected to exceed US$14 billion.
It is estimated that from 2020 to 2025, the compound annual growth rate of the automotive PCB market is about 6%.
Single-sided PCBs accounted for the largest share of the automotive PCB market in 2018. Its widespread use in electronic products, such as automotive lighting systems, wiper systems, and electronic throttle modules, may promote the growth of the automotive PCB market. Countries such as China, Taiwan, and South Korea are the largest single-sided PCB manufacturers in Asia. It is expected that in the next few years, there will be considerable growth in multilayer and flexible automotive PCBs.
The continuous improvement of the applicability of rigid-flex PCBs, the popularization of in-vehicle infotainment systems, the arrival of new energy vehicles, and the increasing potential of ADAS are expected to contribute to the growth of the global automotive PCB market. Luxury cars are equipped with advanced electronic systems, providing users with better safety, comfort, and convenience. Therefore, it is expected that light luxury vehicles will occupy an important share of the global automotive PCB market during the forecast period.
The main factors driving the growth of the automotive PCB market are the increase in the number of automobile production and sales and the incorporation of advanced safety technologies. On the other hand are the mandatory requirements of government agencies; the demand for convenience and comfort systems and the market growth apply to hybrid electric vehicles and battery electric vehicles.
In April 2019, Tripod Technology signed a $64.8 million contract to build additional production lines at the Xiantao production base in Hubei, China. The new plant will supply cars to the country's automakers and the international market to capture the growing demand for car production. Therefore, it is expected that after 2020, the demand for automotive PCBs will grow at a significant rate.
In February 2020, Lumax Industries expanded its joint venture with Japan's Stanley Electric. The company will provide a full range of current and future Stanley Electric products to the Indian automotive industry. Automotive PCB is the core component of Lumax's automotive lighting system. Lumax's focus is to expand the product line with Stanley Electric and provide a wide range of advanced electronic component products. The joint venture company will soon expand its product line to heating, ventilation, and air conditioning panels (HVAC). Therefore, the demand for automotive PCB may further develop. The product will be localized and manufactured at the new electronics factory in Bawal, Haryana. , Is currently in discussions with Japanese OEMs.
The increase in sales of electric vehicles drives the growth of the automotive PCB market.
People are increasingly concerned about global car emissions and government initiatives to increase sales of electric vehicles. As a result, the sales of electric vehicles will grow at a higher compound annual growth rate. For example, the Norwegian government has reduced some tax rates and is also investing heavily in infrastructure. These measures promote the sales of electric vehicles and make the area an ecologically driven area by 2025.
With the increasing adoption of advanced driver assistance systems (ADAS) technology in electric vehicles, the demand for the automotive PCB market has gradually increased. It is expected that in the next few years, the use of automotive PCBs in ADAS systems will become more and more widespread. Therefore, suppliers in the global automotive PCB market hope to cater to the growing trend of installing ADAS in automobiles in the next few years. In addition, the growth of in-vehicle infotainment (IVI) system installation is expected to drive demand for flexible PCBs.
Digitization of PCB design simulation is becoming the central concept of the global automotive PCB market. It can ensure adequate prototype preparation before actual integration into the simulation of the design process. In addition, the electrification of engine mechanisms and propulsion technology is expected further to promote the development of the automotive PCB market.
The increasing demand for instrument panel switches, stereo and audio components, digital screens and display systems, vehicle radar systems, navigation systems, and vehicle diagnostics has also provided an impetus for the automotive PCB market. The internal component market was the largest market segment in the automotive PCB market in 2018. With the increasing emphasis on safety regulations and enhanced driving experience, automakers actively invest in advanced automotive PCBs. The Asia-Pacific region is the most critical automotive PCB market in 2018 and may continue to maintain its leading position during the forecast period.
The field of engine control components is the second largest contributor to the automotive PCB market. The rise in ECU usage is bound to increase the usage of processors and semiconductors, which will indirectly affect the growth of the automotive PCB market. Powertrain components have been widely adopted in hybrid and all-electric vehicles, which has increased the demand for automotive PCBs. In addition, more and more fuel emission regulations are pushing OEMs and Tier 1 suppliers to focus on the electrification of powertrain components.
This region accounts for approximately 60% of the world's population and is the world's major developing economy. Due to construction, transportation, industrialization, etc., economies such as China and India have grown faster. This has led to an increase in demand for cars in the Asia-Pacific region. In addition, some countries in the area require active and passive safety features for vehicles, promoting the growth of the automotive PCB market in the Asia-Pacific region. The regional government tried to provide subsidies to buyers of electric cars to increase the purchase rate of electric vehicles. For example, the Japanese government offers a one-time subsidy for buyers when buying electric cars to abolish the country's use of internal combustion engine vehicles by 2050.
For example, owners of a 30-kilowatt-hour Nissan Leaf can receive a subsidy of approximately US$3,000. The maximum allowance is capped at $7,700, depending on the mileage of the vehicle. In addition, consumers who purchase zero-emission electric vehicles can reduce vehicle taxes by 50% each year.
Because of the impact of COVID-19, major Japanese automotive suppliers must close the market in early 2020. When the effects of COVID-19 begins to diminish, the global automotive PCB market situation will further deteriorate. Because of this uncertainty, major Japanese automakers have decided to start to get rid of their dependence on China.
Due to low labor and logistics costs, automobile production in China, Japan, South Korea, and Taiwan has maintained steady growth. The improvement of production capacity, the rise of digitization, and the continuous investment in the automotive industry have promoted the development of the automotive PCB industry in the region. Sales of electric and hybrid vehicles in the United States and Canada continue to increase, making North America the second-largest geographic region in the global automotive PCB market. The growing demand for electric vehicles in Germany, the United Kingdom, and France are one of the main reasons for the growth of the automotive PCB market in Europe.
Brazil is the leading region in the automotive PCB market in Latin America. However, the political turmoil in Venezuela, the shrinking Brazilian economy, and natural disasters are likely to affect the growth of the automotive PCB market in Latin America. In addition, as suppliers expand their footprint, the automotive PCB market in the MEA region is experiencing considerable growth.
The automotive PCB market is fragmented, with several participants occupying an essential share of the market. Some well-known companies in the automotive PCB market include Infineon, Samsung, Amitron, CMK, etc. These companies invest a lot of money in research and development to innovate products and technologies.
It used to be very difficult to find an American car equipped with any computer technology. These computers require complex automotive PCBs to operate. But today, no car can be operated without an onboard computer. The international automobile market has been developing in a complicated direction. More and more onboard computers are beginning to get involved in core system functions, generating service alerts or enabling security functions.
Since there are many different types of electronic systems in today's cars, the types of automotive PCBs required vary greatly. The same vehicle may require flexible PCBs, rigid PCBs, and rigid-flex PCBs for different technologies. As people demand more accessories and functions for automobiles powered by electronic components, various automotive PCBs continue to grow.
Automotive PCB manufacturers need to provide a variety of PCB options. Now, systems and operations that use PCBs to improve efficiency and safety include rear LED lights, driving lights, transmission control devices, and comfort control units. You can also find automotive PCBs for management engines, entertainment systems, digital displays, radars, GPS, power relay timing systems, rearview mirror control, etc.
Automotive PCB manufacturers need to provide various types of PCBs. Still, manufacturers who manufacture, assemble and transport printed circuit boards for the automotive industry must also offer automotive PCBs that are durable and corrosion-resistant. Support a longer life cycle. This means that high-temperature automotive PCBs that allow rapid heat dissipation are critical.
So, what are the types of these special automotive PCBs? Let's take a look.
To meet the strict requirements for space, weight, and cost, the automotive industry uses different PCBs. The structure of these automotive PCBs and the types of materials or substrates used to differ. There are several types of automotive PCB:
This is a traditional PCB, which is not flexible and is usually manufactured using FR4. Application programs include display monitor and reverse cam screen;
These PCBs are made of flexible plastic substrates. The advantage of these boards is that they can be twisted and bent and are widely used. Especially in places with limited space or irregular shapes, including the connection of displays, control panels, and light switches;
They are a combination of the above two types of PCBs, so they have the advantages of both. Rigid-flex PCB is used in lighting system;
The increasing use of high-power and high-brightness LEDs requires automotive PCBs (usually made of metal substrates such as aluminum) with excellent heat dissipation. This type of PCB is used for car indicators, headlights, and brake lights;
The abbreviation for HDI (High Density Interconnect), which means a PCB with high density electrical connections per unit area. These automotive PCBs have more airy spaces and lines, smaller vias and capture pads, and higher connection pad density. HDI PCB is widely used in infotainment systems to help improve wiring quality and reduce the weight and size of the solution.
Focusing on the autonomous driving and electric vehicle industries, you will find that the automotive PCB combines all the delicate sensors and components required for the stable operation of the car.
Think of the automotive PCB as the chassis of a car. Then the engine, sensors, axles, and wheels will all form electronic components on the PCB. For automotive PCBs, reliability is of the utmost importance. The automotive PCB needs to survive extreme environmental conditions and vibration, and its performance cannot be frustrating. Most importantly, automotive PCB manufacturers must pass ISO/TS 16949 certification based on the ISO 9001 automotive standard in the long run. Heat resistance and long life make automotive PCBs utterly different from other printed circuit boards.
The car has grown into a complex collection of systems and software, even if manned. With the ambition to let the vehicle take over driving, the brains of these decision-making vehicles must have the highest quality. Therefore, automotive pcb suppliers and assembly companies will become key contributors, such as Advanced Circuits.
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