Airbag Control Unit Sensor Market Analysis, Key Players, Industry Segments & Forecast 2022 to 2032

The global Airbag Control Unit Sensor Market is expected to increase at a 6.7% CAGR between 2022 and 2032, from US$ 590.3 million in 2022 to US$ 1,127.6 million. The spike is due to the increase in road fatalities.

The airbag control/sensor unit aids in the detection of collisions. Activate the airbags to protect a passenger in the event of a collision. Before activating the appropriate restraint frameworks, the airbag control unit detects and evaluates the severity of an accident. The device receives data from up to six crash sensors. This includes speed sensors as well as a rotational speed sensor.

These readings are used to assess and investigate signals from other sensors. The crash signals are then communicated to the airbag control unit and a new additional system, which activates the hazard and interior lights, shuts off the fuel pump, and stops the engine. Restraint systems are further improved to be the most effective based on the type of accident.

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Global Airbag Control Unit/Sensor: Market Dynamics

The factors such as a rise in the number of traffic fatalities rates are accelerating demand for safety measures leads to the growth of Airbag control unit/sensor market. Moreover, safety regulation implied by government and rise in life expectancy leads to an increase in airbags control unit/sensor market.

Macroeconomic factors such as an increase in disposable income lead to investing people toward more of safety features in the vehicles result in the overall growth of the airbag control unit/sensor market. In addition to it increasing consumer awareness towards safety equipment leads to the growth of Airbag control unit/sensor market.

Further Airbag control unit on two-wheelers may provide an opportunity for the market leaders to grow in the future.

The airbag control unit/sensor is high quality, reliable and is of low cost and also comply with automotive functional safety standards. An Airbag Control Unit is for commercial vehicles needs to meet all the diverse market and customer prerequisites around the world.

Market Competition

Some of the key participants present in the global Airbag Control Unit Sensor market include AUTOLIV, ZF Friedrichshafen AG, Ashimor, Takata Corporation, KSS, Toyoda Gosei Co. Ltd., Hyundai Mobis, Nihon Plast Co. Ltd., and Jinheng, among others.

Attributed to the presence of such high number of participants, the market is highly competitive. While global players such as AUTOLIV, ZF Friedrichshafen AG, Ashimor, and Takata Corporation account for a considerable market size, several regional level players are also operating across key growth regions, particularly in the North America.

To accomplish these particular necessities in a commercial way, the SPEED idea i.e. Safety Platform for Efficient and Economical Design officially utilized widely for airbag control units in passenger vehicles has been adapted to the particular commercial vehicles requirements.

The electrical arc segment made between both pins activates a propellant which is comprised of sodium azide that begins to consume and radiate nitrogen gas, and the gas begins to fill the airbag.

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Key Segments Profiled In The Airbag Control Unit Sensor Industry Survey

Airbag Control Unit Sensor Market by Sensor Type:

Mass Type Airbag Control Unit Sensor

Roller Type Airbag Control Unit Sensor

Airbag Control Unit Sensor Market by Airbag Type:

Driver Airbag Control Unit Sensor

Passenger Airbag Control Unit Sensor

Knee Airbag Control Unit Sensor

Curtain Airbag Control Unit Sensor

Side Airbag Control Unit Sensor

Roll-over Airbags Control Unit Sensor

External Airbags Control Unit Sensor

Seatbelt Airbags Control Unit Sensor

Medical Airbags Control Unit Sensor

Airbag Control Unit Sensor Market by Vehicle Type:

Airbag Control Unit Sensors for Passenger Cars

Commercial Vehicle/Light commercial vehicle

Heavy Commercial Vehicles

Compact

Mid-sized

Premium

Luxury

Airbag Control Unit Sensor Market by Region:

North America Airbag Control Unit Sensor Market

Latin America Airbag Control Unit Sensor Market

Europe Airbag Control Unit Sensor Market

Asia Pacific Airbag Control Unit Sensor Market

Middle East & Africa Airbag Control Unit Sensor Market

Automotive Wiring Harness Market Set to Soar to USD 119.31 Billion by 2033 with 8% CAGR

The global Automotive Wiring Harness Market is expected to reach a staggering value of USD 119.31 Billion by 2033, according to Future Market Insight. This projection reflects a CAGR of 8%, highlighting substantial growth compared to the projected value of USD 55.26 billion in 2023.

The automotive industry is experiencing a remarkable trend towards vehicle electrification, driven by the urgent need for improved fuel efficiency and reduced emissions. As electric and hybrid vehicles become more prevalent, the demand for sophisticated wiring systems and harnesses increases. These wiring systems and harnesses connect various components such as batteries, motors, inverters, and charging infrastructure. The rising demand results from the need for efficient and reliable connections in these vehicles.

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The global automotive industry is undergoing a remarkable transformation with the increasing adoption of electric vehicles. As the demand for cleaner and greener transportation solutions rises, so does the need for high-voltage wiring harnesses. These harnesses efficiently transmit power between the battery, motor, and electronic components. The surge in electric vehicle adoption drives the automotive wiring harness market.

A growing concern for road safety has increased the demand for advanced vehicle safety features. Examples of these features include Advanced Driver Assistance Systems (ADAS), collision avoidance systems, lane departure warnings, and adaptive cruise control. To support these technologies, robust and intricate wiring harnesses are essential. Wiring harnesses facilitate the seamless integration of sensors, cameras, and control units.

The integration of advanced infotainment systems, telematics, and connectivity features in modern vehicles demands sophisticated wiring systems. These wiring harnesses enable the smooth transfer of data and seamless communication between diverse vehicle components. As consumer demand for connected cars continues to soar, the need for state-of-the-art wiring harnesses becomes increasingly pronounced.

Nowadays, vehicles are equipped with electronic systems, infotainment features, navigation systems, and connectivity options. The demand for seamless integration and functionality increases the need for efficient and reliable wiring harnesses. Wiring harnesses are critical in transmitting data and power effectively throughout the vehicle. As in-car connectivity and advanced infotainment systems continue to evolve, the demand for advanced wiring harnesses is expected to rise further.

Governments worldwide implement stringent regulations for vehicle safety, fuel efficiency, and emission standards. These regulations require specific safety features and technologies in vehicles, leading to the need for additional wiring harnesses. Automotive manufacturers strive to comply with these regulations. Safety features like airbags, anti-lock braking systems (ABS), and electronic stability control (ESC) rely heavily on robust wiring harnesses for their optimal functionality. As a result, the demand for automotive wiring harnesses intensifies.

The aftermarket segment presents substantial growth prospects for the automotive wiring harness market. As vehicles age, the need for wiring harness replacement and repair becomes increasingly prevalent. This creates significant opportunities for manufacturers and suppliers operating in the market. Moreover, the proliferation of electric vehicle charging stations necessitates the usage of wiring harnesses to support power transmission and facilitate seamless connectivity.

Key Takeaways from the Automotive Wiring Harness Market

The automotive wiring harness industry in the United Kingdom is anticipated to rise sizably, exhibiting a CAGR of 7.6% through 2033.

The United States held a 17.8% share of the global automotive wiring harness industry in 2022.

With a CAGR of 7.8% over the forecast period, India is predicted to develop rapidly in the automotive wiring harness industry.

In 2022, Japan had a 5.2% share of the automotive wiring harness industry globally.

The automotive wiring harness industry in China is expected to flourish speedily, registering a CAGR of 8.2% over the forecast period.

Germany accounted for 4.7% of the global automotive wiring harness industry in 2022.

Competitive Landscape in the Automotive Wiring Harness Market

Key players are actively engaged in various strategies to maintain their market position and meet the evolving demands of the automotive industry. These strategies include product innovation, research and development, partnerships and collaborations, mergers and acquisitions, and geographic expansion. Companies are focusing on developing advanced wiring harness solutions that offer higher efficiency, increased durability, and improved performance. Additionally, they are investing in technologies such as electrification and autonomous driving to cater to the growing demand for electric vehicles and advanced driver-assistance systems. 

Key Companies Profiled In The Automotive Wiring Harness Market

LEONI Group

Samvardhana Motherson Group

Sumitomo Electric

Yazaki Group

Fujikura Ltd.

Lear Corporation

Furukawa Electric Co. Ltd

YURA Tech Corporation

Nexans

Key Segments Profiled In The Automotive Wiring Harness Market

By Product Type:

Chassis & Safety

Conventional Chassis

Semi-Forward Chassis

Full Forward Chassis

Body

Roof

Door & Window

Facia

Seat

Interior

HVAC

Engine

Sensors

By Vehicle Type:

Passenger Cars

Compact

Mid-Sized

SUV

Luxury

Light Commercial Vehicles

Heavy Commercial Vehicles

Electric Vehicles

BEV

PHEV

By Sales Channel:

First Fit

Replacement

By Region:

North America

Latin America

Europe

Asia Pacific

Middle East and Africa (MEA)

Recent Developments by Key Players

In July 2022, Sumitomo Wiring Systems Ltd celebrated the opening of a state-of-the-art manufacturing plant dedicated to producing automotive wiring harness products. The facility is located within the Royal Group Phnom Penh Special Economic Zone in Cambodia.

In May 2022, Marelli introduced its new Wireless Distributed Battery Management System. It enables a significant reduction in wiring harness by 90%. This innovative system enhances the flexibility, efficiency, and reliability of electric vehicles while also offering cost savings.

Driving Growth: Automotive Semiconductor Market Set to Reach $115.6 Billion by 2033

The demand for automotive semiconductor market is predicted to grow at a consistent growth rate of 7%. It is projected that the worldwide automotive semiconductor market is likely to be worth approximately US$ 58,770.1 million in the year 2023 and is expected to increase to a value of US$ 115,609.68 million by the year 2033.

Innovations in the automotive sector are proceeding at a breakneck pace.

When an error occurs in the vehicle, such as with the accelerator, the anti-lock brake interface, or the lights, a semiconductor is used to control the fail-safe system, manage the electrical control unit’s functions, and implement automotive fault tolerant systems, which alert the microcontrollers and safety systems installed in all vehicles. By way of illustration, consider the situation in which a vehicle loses traction on icy roads; this would call attention to the system’s ability to tolerate and recover from failure.

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When the driver applies the brakes, the anti-lock braking system is activated because the sensors and semiconductor devices have detected an incident. As a result, semiconductors play a crucial role in the automotive sector, and the industry’s rapid expansion is anticipated to boost the automotive semiconductor market’s growth over the forecast period.

Demand for improved vehicle safety features continues to rise.

As the number of traffic accidents grows, so does the need for safety features like parking aids, collision avoidance systems, lane departure warnings, traction control, electronic stability control, tire pressure monitors, airbags, and telematics. Numerous ADAS technologies rely heavily on automotive semiconductors, which improve the systems’ functionality and enable them to detect and classify objects in the path of the vehicle, alerting the driver to changes in the environment and the state of the road as necessary.

Furthermore, these systems can use semiconductors and associated components to automatically apply the brakes or bring the vehicle to a stop, depending on the road conditions. In recent years, there has been a dramatic rise in the number of people losing their lives in traffic accidents, making it one of the leading causes of death worldwide.

According to a 2021 report by the World Health Organization, for instance, nearly 1.3 million people worldwide lose their lives in traffic-related incidents annually. Teenagers also have a higher rate of fatal road traffic injuries. Due to these causes, there has been an uptick in interest in car safety features. Businesses in the auto industry are working to address consumers’ concerns by designing and releasing new products with enhanced safety functions. For instance, HELLA (a company that makes advanced lighting and electronics components) is expected to begin mass producing their newest 77 GHz radar system soon.

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Key Takeaways

The automotive semiconductor market is expected to experience significant growth in the coming years due to increased demand for electric and hybrid vehicles.

Advancements in ADAS technology are driving the demand for semiconductors that enable these features.

The development of autonomous vehicles is driving the need for more advanced semiconductor technology, such as LiDAR, radar, and camera systems.

The rise of connected car technology is driving demand for advanced semiconductor components that can support features like telematics, infotainment, and vehicle-to-vehicle communication.

The adoption of Industry 4.0 technology is driving demand for more advanced semiconductor technology that can support IoT and AI systems.

The United States is currently the largest market for automotive semiconductors due to its robust automotive industry and investment in emerging technologies.

The Asia-Pacific region is expected to experience significant growth in the automotive semiconductor market due to its growing automotive industry and increasing demand for electric and hybrid vehicles.

Competitive Landscape

The competitive landscape in the automotive semiconductor market is highly fragmented and characterized by intense competition among key players. There are several global players, including NXP Semiconductors N.V., Infineon Technologies AG, and Texas Instruments Incorporated, who are investing heavily in research and development to improve the performance and functionality of their semiconductor products. These companies are also expanding their product portfolios through strategic partnerships, mergers and acquisitions, and collaborations with other companies in the value chain.

The automotive semiconductor market is seeing increased competition from new entrants and startups that are developing innovative semiconductor products to cater to the evolving needs of the automotive industry. These companies are leveraging emerging technologies like IoT, AI, and cloud computing to develop cutting-edge semiconductor solutions that enhance the functionality and performance of automobiles.

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Key Segments

Automotive Semiconductor Market by Component:

Micro Components (Processors)

Memory Devices

Logic

Optical & Sensors

Analog ICs

Discrete Devices

Automotive Semiconductor Market by Vehicle Type:

Automotive Semiconductors for Passenger Vehicles

Automotive Semiconductors for Light Commercial Vehicles

Automotive Semiconductors for Heavy Commercial Vehicles

Automotive Semiconductor Market by Application:

Body

Safety

Telematics & Infotainment

Power Trains

Chassis

Safety First: The Airbag Control Unit Sensor Market

The airbag control unit sensor market is witnessing significant growth as automotive manufacturers prioritize safety features to enhance occupant protection and comply with stringent safety regulations. Airbag control unit sensors play a crucial role in detecting vehicle collisions and deploying airbags in a timely and precise manner to mitigate the risk of injury during accidents. With the increasing focus on vehicle safety and the growing demand for advanced driver assistance systems (ADAS), the adoption of airbag control unit sensors is expected to rise steadily in the automotive industry.

Advancements in sensor technology, including microelectromechanical systems (MEMS), accelerometers, and gyroscopes, are driving innovation in the airbag control unit sensor market, enabling manufacturers to develop sensors with improved sensitivity, reliability, and response time. These advancements have led to the development of multi-axis sensors and intelligent sensor fusion algorithms that enhance the accuracy and performance of airbag deployment systems, reducing false activations and optimizing occupant protection. Moreover, the integration of connectivity features and data analytics capabilities is enabling real-time monitoring and predictive maintenance of airbag control unit sensors, ensuring their reliability and functionality over the vehicle's lifespan.

#AirbagControlUnitSensor #VehicleSafety #AutomotiveIndustry #SafetyRegulations #ADAS #SensorTechnology #MEMS #Accelerometers #Gyroscopes #DriverSafety #OccupantProtection #CollisionDetection #SafetyStandards #TechnologyInnovation #ConnectedCars

The Global Automotive Wiring Harness Market Is Estimated To Witness High Growth Owing To Rising Automotive Production

The automotive wiring harness is a complex network of cables and connectors that transmit signals or power various electronic components in a vehicle. It is a vital component in automobiles as it connects different electronic control units and sensors together, enabling them to communicate with each other. Wiring harnesses are used in engine management systems, airbags, power windows, infotainment systems, and emissions control units among others. With growing vehicular electrification and integration of advanced driver-assistance systems, wiring harnesses are becoming increasingly complex with more wires and varied materials. The global automotive wiring harness market is estimated to be valued at US$ 54.2 Bn in 2023 and is expected to exhibit a CAGR of 8.6% over the forecast period 2023 to 2030, as highlighted in a new report published by Coherent Market Insights. Market Dynamics: Rising automotive production is a key driver for growth of the automotive wiring harness market. According to the International Organization of Motor Vehicle Manufacturers, global vehicle production increased from around 88.8 million units in 2016 to over 90 million units in 2018. Developing economies such as India and China are leading this growth in automotive production. As wiring harnesses are considered a basic necessity in vehicles, their demand rises in tandem with growing vehicle production trends worldwide. The increasing use of electric and hybrid vehicles is also fueling demand for advanced wiring harnesses. Electric vehicles (EVs) have significantly complex wiring architectures as compared to conventional vehicles due to additional components such as high-voltage batteries and electric powertrain systems. Wiring harnesses for EVs need thicker, heavier gauge wires to carry higher currents. They also demand protective casings, grommets and boots to insulate live circuits. This has opened lucrative opportunities for wiring harness manufacturers to develop cutting-edge products tailored for EVs and hybrid vehicles. SWOT Analysis Strength: The automotive wiring harness market is well established with advancements in technology and manufacturing capabilities. Standardization of components allows for mass production and economies of scale. Favorable government regulations towards eco-friendly vehicles also promote the adoption of advanced wiring systems. Weakness: Frequent changes in vehicle technology and design pose challenges related to retrofitting and upgrading existing wiring systems. High manufacturing costs and complex quality checks increase the prices of premium and customized harnesses. Opportunity: Growing electric vehicle sales open up opportunities to design smarter and more efficient wiring systems optimized for low voltage circuits. Rising demand for autonomous and connected vehicles motivates innovations in data transfer capabilities and cybersecurity features. Threats: Stiff competition from local manufacturers increases pricing pressures. Fluctuations in raw material costs can impact profit margins. Disruptions due to trade conflicts or public health crises hamper automotive production schedules. Key Takeaways The Global Automotive Wiring Harness Market Share is expected to witness high on account of increasing vehicle production worldwide as well as technological advancements in connectivity and electrification. The global automotive wiring harness market is estimated to be valued at US$ 54.2 Bn in 2023 and is expected to exhibit a CAGR of 8.6% over the forecast period 2023 to 2030.

Regional analysis: Asia Pacific has emerged as both the largest producer and consumer of automobiles globally. China, India, Japan, and South Korea are viewed as dominant automotive manufacturing centers as well as high growth national markets. With ongoing industrialization and rising incomes, vehicle ownership in the region is expected to steadily rise. Key players: Key players operating in the automotive wiring harness market are Yazaki Corporation, Sumitomo Electric Industries, Delphi Automotive, Lear Corporation, Furukawa Electric, THB Group, Leoni AG, Samvardhana Motherson, Nexans, and PKC Group. These companies have extensive regional networks and collaborate with automakers to innovate wiring systems and upgrade connectivity features.

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Automotive Wiring Harness Market, Automotive Wiring Harness Market Analysis, Automotive Wiring Harness Market Size, Automotive Wiring Harness Market Demand, Automotive Wiring Harness Market Growth

Automotive Airbag Electronic Control Unit (ECU) Market| Analysis, Growth and Forecast, 2024 – 2028

Originally published on Technavio:Automotive Airbag Electronic Control Unit (ECU) Market Analysis APAC, Europe, North America, South America, Middle East and Africa - US, China, Japan, South Korea, Germany - Size and Forecast 2024-2028

The automotive airbag electronic control unit (ECU) market has experienced substantial growth owing to the increasing focus on vehicle safety and the stringent regulatory standards imposed globally. The airbag ECU is a pivotal component in a vehicle's safety system, responsible for deploying airbags in the event of a collision. As safety concerns become paramount for both consumers and regulatory bodies, automakers are investing significantly in advanced airbag ECUs to enhance occupant protection and comply with evolving safety regulations.

A primary driver of the market's growth is the rising awareness and demand for enhanced vehicle safety features. Governments and safety organizations worldwide are mandating the inclusion of airbag systems to mitigate the impact of accidents and reduce the likelihood of severe injuries. This has prompted automotive manufacturers to prioritize the integration of sophisticated airbag ECUs capable of deploying airbags in a highly responsive and adaptive manner based on real-time collision parameters.

The evolution of smart and connected vehicles has further propelled advancements in airbag ECU technology. Integration with advanced driver assistance systems (ADAS) and connectivity solutions enables airbag ECUs to leverage real-time data from various sensors and communication modules. This connectivity allows for more precise and context-aware airbag deployments, taking into consideration factors such as collision severity, occupant position, and even information from surrounding vehicles through V2X communication.

In response to industry trends and consumer demands, automotive airbag ECUs are undergoing continuous innovation. Manufacturers are increasingly focused on developing lightweight and compact designs without compromising safety standards. This push towards miniaturization involves leveraging advanced materials and manufacturing techniques to create more efficient and space-saving airbag ECUs.

Despite the positive trajectory, challenges persist in the automotive airbag ECU market. The cost associated with implementing advanced ECU technologies remains a concern for automakers, particularly for vehicles in lower market segments. Standardizing safety regulations across different regions also poses challenges, requiring collaboration between international regulatory bodies to create consistent guidelines for airbag system implementations.

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Looking ahead, the automotive airbag ECU market is expected to witness further evolution as the automotive industry continues to embrace electric and autonomous technologies. Continued research and development efforts will likely focus on improving sensor technologies, artificial intelligence algorithms, and machine learning applications to enhance the precision and responsiveness of airbag deployment systems. The market's future growth will hinge on the industry's ability to balance safety advancements with cost-effectiveness and global regulatory alignment.

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All New Honda CR-V Raih Predikat Tingkat Keselamatan Tertinggi dari ASEAN NCAP

BALIPORTALNEWS.COM, BANGKOK – All New Honda CR-V berhasil meraih predikat tingkat keselamatan tertinggi dari ASEAN NCAP (New Car Assessment Program for Southeast Asia) pada Senin (21/8/2023). ASEAN NCAP adalah program penilaian untuk mobil-mobil baru yang ada di kawasan Asia Tenggara. Program ini bertujuan untuk mengevaluasi standar keselamatan kendaraan, meningkatkan kesadaran konsumen, dan mendorong pasar untuk kendaraan yang lebih aman di kawasan ASEAN. All New Honda CR-V berhasil meraih rating tingkat keselamatan tertinggi yaitu lima (5) bintang dari program ASEAN NCAP dimana berhasil meraih total skor 87.16 dari 100. All New Honda CR-V berhasil meraih skor 77.07 dari 100 (94.93/120 untuk total skor) dimana mobil ini berhasil melewati serangkaian tes uji tabrak dari bagian depan dan juga samping nya serta pengujian fitur-fitur keselamatannya. All New Honda CR-V berhasil meraih skor 31.45/32 untuk kategori Adult Occupant Protection (AOP) kemudian 45.81/51 untuk Child Occupant Protection (COP), skor 19.50/21 untuk Safety Assist Technologies (SATs) dan 9/05/16 untuk Motorcyclist Safety (MS). Yusak Billy, Sales & Marketing and After Sales Director PT Honda Prospect Motor mengucapkan terima kasih kepada pihak ASEAN NCAP yang telah melakukan pengujian teknologi serta fitur keselamatan produk-produk Honda melalui prosedur dan standar yang sangat ketat. “Pencapaian yang diraih All New CR-V semakin menunjukkan komitmen Honda terhadap keselamatan penggunanya dan mewujudkan visi untuk menciptakan lingkungan yang lebih aman bagi pengemudi maupun seluruh pengguna jalan lainnya,” ujar Yusak Billy. Uji tabrak yang dilakukan merupakan bentuk kolaborasi antara ASEAN NCAP dan juga Japan Automobile Research Institute (JARI). Secara umum, pengujian harus dilakukan setelah produksi massal model dimulai. Uji Frontal Offset Impact dilakukan menggunakan boneka uji tabrak di kursi pengemudi dan penumpang depan serta dua boneka anak pada Child Restraint System (CRS) di kursi belakang. Kecepatan uji tabrakan adalah 64 km/jam ketika menabrak penghalang tabrakan yang menggunakan aluminium yang dapat hancur. Selain itu, dilakukan pula Side Impact Test, dilakukan dengan memasang boneka uji tabrak di kursi pengemudi dan dua boneka anak pada Child Restraint System (CRS) di kursi belakang. MDB (Moving Deformable Barrier) mendekati mobil yang diuji situasional. Kecepatan tes adalah 50 km/jam. Model SUV global dari Honda tersebut telah dilengkapi dengan teknologi Honda SENSING yang merupakan teknologi canggih untuk memandu sistem berkendara. Sistem ini menggunakan new front sensor camera serta milimeter-wave radar yang terletak pada bagian depan mobil untuk memberikan kewaspadaan dalam kondisi berkendara terhadap keadaan disekitar kendaraan seperti mobil, sepeda motor hingga pejalan kaki. Teknologi ini juga memberikan peringatan serta mendukung pengemudi dalam menghindari dalam mengurangi tingkat resiko kecelakaan*. Kedua model SUV Honda tersebut juga dilengkapi dengan berbagai fitur keselamatan tingkat tinggi lainnya seperti; Honda LaneWatch, Multi-angle Rearview Camera, Walk Away Auto Lock, Driver Attention Monitor, 8 Airbags, Hill Descent Control, Front Passenger & Rear Seat Belt Reminder, serta Rear Seat Reminder. Honda CR-V generasi keenam ini pertama kali diperkenalkan di kawasan Asia Tenggara yakni pada bulan Maret 2023 di Thailand. Model ini kemudian diluncurkan di Indonesia pada GIIAS 2023 lalu dimana setelah diluncurkan hingga tanggal 20 Agustus 2023 telah berhasil dipesan oleh konsumen sebanyak 938 unit. Untuk model Honda CR-V sendiri telah berhasil meraih secara beruntun untuk ketiga kalinya dengan rating tingkat keselamatan lima bintang. Model SUV global dari Honda ini yaitu generasi keempat di tahun 2013, generasi kelima di tahun 2017 dan generasi keenam di tahun 2023. Pencapaian Honda di ASEAN NCAP Honda menjadi pabrikan otomotif yang paling banyak mendapatkan penghargaan dari ASEAN NCAP selama sepuluh tahun ini. Sejak tahun 2012 hingga tahun 2023 sudah ada sepuluh model mobil Honda yang telah diuji tingkat keselamatannya oleh ASEAN NCAP yaitu; Honda City, Civic, CR-V, Jazz, HR-V, BR-V, WR-V, Brio, Brio Amaze dan Accord.(bpn) Read the full article

Vehicle Front Airbag Market Area And Industry Forecasts Till, 2023 to 2028: Innovation Market Research

The Vehicle Front Airbag market has undergone a remarkable transformation over the years, revolutionizing the safety landscape of the automotive industry. Front airbags have become an essential feature, significantly reducing the severity of injuries during accidents and saving countless lives. This article explores the evolution of front airbags, their role in enhancing vehicle safety, market trends, and future innovations that promise to redefine road travel safety.

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The concept of airbags dates back to the early 1950s, but it was not until the 1970s that front airbags were introduced in some experimental vehicles. These early airbags were rudimentary and often ineffective, causing injuries themselves due to the high-speed deployment and lack of precise sensors. However, the pioneering work in this area paved the way for further research and development.

The 1980s witnessed significant advancements in airbag technology, and the first commercial front airbags were introduced by Mercedes-Benz and General Motors in 1981. Initially available only in luxury vehicles, these airbags gradually made their way into mainstream cars, improving their design and deployment mechanisms along the way.

Front Airbags: Key Components and Deployment Mechanisms

Modern front airbags are comprised of several key components that work in tandem to ensure optimal safety during a collision. These components include:

a. Crash Sensors: These electronic sensors detect sudden deceleration or impact and relay the information to the airbag control unit.

b. Airbag Control Unit (ACU): The ACU processes information from crash sensors and determines whether the airbags should be deployed. It takes into account factors such as collision severity, occupant size, and seatbelt usage.

c. Airbag Module: The airbag module consists of the airbag itself, folded tightly within the steering wheel for the driver-side airbag and the dashboard for the passenger-side airbag.

d. Inflator: The inflator is a crucial part of the airbag system, responsible for rapidly filling the airbag with gas (typically nitrogen) when a collision triggers its deployment.

e. Cover and Housing: These components protect the airbag module and keep it hidden from view until needed.

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The deployment mechanism of front airbags is designed to happen in a fraction of a second. Once the ACU receives signals of a severe impact, it activates the inflator, which releases the gas to fill the airbag. The inflated airbag then acts as a cushion, absorbing the energy generated during the crash and preventing the vehicle occupants from colliding with hard surfaces within the vehicle.

Improving Front Airbag Safety

As front airbags became more widespread, researchers and manufacturers continued to fine-tune their performance to enhance safety further. Some key improvements include:

a. Dual-Stage Airbags: To cater to varying collision scenarios, dual-stage airbags were introduced. These airbags deploy with different force levels depending on the severity of the impact and the position of the vehicle occupants.

b. Weight Sensing Systems: To mitigate the risk of airbag-related injuries for smaller passengers, weight sensing systems were introduced. These systems detect the weight of the occupant and adjust the airbag's deployment force accordingly.

c. Curtain Airbags: Front airbags mainly protect against front and side-front impacts. Curtain airbags, also known as side-impact airbags, were introduced to protect occupants during side collisions, reducing the risk of head and neck injuries.

d. Knee Airbags: Knee airbags are deployed below the dashboard and steering column, helping to prevent leg injuries by keeping the occupants' lower limbs in place during a collision.

e. Advanced Crash Sensors: Advanced sensor technologies, such as LIDAR and radar, have been integrated into modern airbag systems to improve their accuracy in detecting and responding to potential collisions.

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Market Trends in the Vehicle Front Airbag Industry

The Vehicle Front Airbag market has seen remarkable growth over the past few decades, driven primarily by increasing awareness of vehicle safety and stringent safety regulations imposed by governments worldwide. Several key trends have shaped the front airbag market:

a. Mandates and Regulations: Governments around the world have implemented stringent safety regulations, making airbags mandatory in all new vehicles. These regulations have significantly boosted the adoption of front airbags across different automotive segments.

b. Growing Demand for Advanced Safety Features: Consumers are increasingly prioritizing safety features when purchasing vehicles. Front airbags, being one of the most fundamental safety components, have seen a surge in demand as a result.

c. Integration of Artificial Intelligence: AI-driven safety systems are becoming more prevalent in modern vehicles. AI is used to analyze real-time data from various sensors, enabling smarter and faster airbag deployment decisions.

d. Lightweight Airbags: Manufacturers are exploring materials and designs that create lightweight airbags without compromising safety. These advancements not only improve fuel efficiency but also enhance the overall performance of airbag systems.

e. Collaboration with OEMs: Airbag manufacturers are collaborating closely with original equipment manufacturers (OEMs) to develop tailor-made airbag solutions for specific vehicle models, optimizing safety and performance.

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Future Innovations Redefining Front Airbags

The future of the Vehicle Front Airbag market looks promising, with ongoing research and development focused on cutting-edge innovations. Some of the potential advancements include:

a. External Airbags: Researchers are exploring the concept of external airbags, which would be deployed on the vehicle's exterior during a collision. These airbags could act as an additional cushion, absorbing the impact and reducing damage to the vehicle's structure and occupants.

b. Active Airbags: Active airbags could adapt their shape and position based on real-time data from external sensors, providing customized protection depending on the specific crash scenario.

c. Pedestrian Airbags: Pedestrian safety is also a major concern, and researchers are working on airbag systems that deploy on the vehicle's hood or bumper to reduce the severity of injuries in collisions involving pedestrians.

d. Deployable Seatbelt Airbags: Integrating airbags into seatbelts could offer enhanced protection by distributing the impact forces more effectively across the occupant's body during a crash.

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The Vehicle Front Airbag market has come a long way since its inception, saving countless lives and significantly reducing the severity of injuries during accidents. Through continuous innovation, collaboration with OEMs, and adherence to safety regulations, the industry has succeeded in making front airbags a standard safety feature in all modern vehicles.

Looking ahead, the market shows no signs of slowing down, with cutting-edge technologies and AI-driven advancements promising to redefine road travel safety. As technology continues to evolve, we can expect front airbags to become even more sophisticated, offering an even higher level of protection for vehicle occupants and pedestrians alike. With the collective efforts of researchers, manufacturers, and regulatory bodies, the future of the Vehicle Front Airbag market shines bright with the promise of safer roads for everyone.

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"Driving into the Future with the Tata Tigor EV: A Sustainable and Stylish Choice"

Electric vehicles are the future of the automobile industry. As more and more countries shift towards sustainable energy sources, the demand for electric vehicles is increasing at an unprecedented rate. 

Tata Motors, one of India's leading automobile manufacturers, has been a pioneer in the electric vehicle segment. The Tata Tigor EV is one such offering that has been making waves in the Indian automobile market.

The Tata Tigor EV is an all-electric compact sedan that was launched in India in 2018. The car is based on the company's popular Tata Tigor model, but with an electric powertrain. 

The Tata Tigor EV is an all-electric version of the popular Tata Tigor subcompact sedan. The Tigor EV is powered by a 21.5 kWh battery pack and a 72V three-phase AC induction motor that produces 40 bhp and 105 Nm of peak torque. 

The car offers a driving range of up to 306 kilometers on a single charge, making it one of the most affordable and practical electric vehicles in the Indian market.

The Tata Tigor EV is powered by a 26 kWh lithium-ion battery pack that delivers a claimed range of 213 km on a single charge. 

The Tigor EV is a zero-emission vehicle, which means that it does not emit any pollutants during operation. 

In this article, we will take a comprehensive look at the Tata Tigor EV, including its features, specifications, and performance.

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The Specifications of Tata Tigor are -  

Exterior Design

The Tata Tigor EV looks similar to the regular Tigor model from the outside, but with a few distinct design changes. The front grille has been replaced with a sleeker unit, and the car also gets LED headlamps and DRLs. The side profile is unchanged, but the rear gets a redesigned bumper and a distinctive "EV" badge.

The car is available in three color options : Daytona Grey, Magnetic Red, and Signature Teal Blue. The car's overall design is sleek and modern, making it an attractive choice for buyers looking for an electric vehicle.

Interior Design

The Tata Tigor EV's interior is similar to the regular Tigor model, with a few subtle differences. 

The car gets a new digital instrument cluster that displays information such as battery level, driving range, and energy consumption. The dashboard also gets a 7-inch touchscreen infotainment system with Apple CarPlay and Android Auto connectivity.

The Tigor EV is a five-seater sedan that offers ample legroom and headroom for all passengers. The seats are comfortable and supportive, and the cabin is well-insulated, ensuring a quiet and comfortable ride. 

The car also gets automatic climate control, which helps maintain a comfortable temperature inside the cabin.

Safety Features

The Tata Tigor EV comes loaded with safety features, making it one of the safest cars in its segment. The car gets dual front airbags, ABS with EBD, and rear parking sensors as standard across all variants. The higher variants also get a rearview camera and front fog lamps.

The car's body structure is built using high-strength steel, which provides excellent crash protection to passengers in case of an accident. The Tigor EV has also undergone rigorous testing to ensure its safety, including crash tests and other simulations.

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Battery and Range

The Tata Tigor EV is powered by a 26 kWh lithium-ion battery pack that delivers a claimed range of 213 km on a single charge. The car can be charged using a standard 15A socket or a 3.3 kW AC charger. 

The car's battery can be fully charged in 8 hours using a 15A socket, while a 3.3 kW AC charger can charge the car's battery up to 80% in just 6 hours.

The Tigor EV also supports fast charging, which can charge the battery up to 80% in just 90 minutes using a DC fast charger. The car's battery is placed under the floor, which provides a lower center of gravity and better stability while driving.

Performance and Driving Experience

The Tata Tigor EV is powered by a 21.5 kWh battery pack that is capable of delivering a range of up to 306 kilometers on a single charge. 

The battery can be charged up to 80% in just 90 minutes using a DC fast charger, while a standard AC charger takes around 8 hours to fully charge the battery.

The car is equipped with a 72V three-phase AC induction motor that produces 40 bhp and 105 Nm of peak torque. The motor is mated to a single-speed automatic transmission that delivers smooth and seamless acceleration.

The Tigor EV offers a comfortable and refined driving experience, with a suspension setup that is tuned for Indian roads. 

The car's electric powertrain is silent and responsive, and it can accelerate from 0-60 km/h in just 5.7 seconds. The car has a top speed of 80 km/h, which is adequate for city driving.

Safety and Security

The Tata Tigor EV comes loaded with safety features like dual airbags, ABS with EBD, rear parking sensors, and a rearview camera. The car also gets a host of security features like central locking, an engine immobilizer, and a speed-sensing auto door lock.

Verdict

The Tata Tigor EV is a practical and affordable electric vehicle that offers a driving range of up to 306 kilometers on a single charge. The car looks stylish and modern, and the cabin is spacious and comfortable. 

The electric powertrain is silent and responsive, and the car delivers a comfortable and refined driving experience. 

Overall, the Tata Tigor EV is a great option for those looking for a practical and affordable electric vehicle in the Indian market.

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Automotive Sensors Market Size, Share, Trends, Growth

The "Automotive Sensors Market Size" 2021 Research report presents an in-depth analysis of the Automotive Sensors Market size, growth, share, segments, manufacturers, and forecast, competition landscape and growth opportunity. This report also focuses on key trends, market drivers, challenges, standardization, deployment models, future road-map, revenue and 2028 forecast. Moreover, this research report categorizes the global Automotive Sensors Market by companies, region, type and end-user industry.

Market growth refers to the increase in size of a market over time, usually measured in terms of the value of goods and services sold. Market growth can be driven by a number of factors, including population growth, economic growth, rising consumer spending, and technological innovations. Understanding market growth trends is important for businesses as it can help inform strategic decisions about product development, marketing, and expansion.

The market is projected to grow from USD 10.10 billion in 2021 to USD 15.6 billion by 2028 at a CAGR of 6.38% during the 2021-2028 period.

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Market Growth Drivers:

Modern vehicle restraint systems utilize side airbag pressure sensors to satisfy passenger car safety requirements. The pressure sensor is integrated into the vehicle's side doors and sends digital crash signals to the central airbag unit. Furthermore, the air pressure sensor improves engine efficiency by effectively controlling spark advances in gasoline and diesel engines. Hence, the market is expected to develop due to the rising use of pressure sensors in the engine and the vehicle's safety system. The autonomous abilities of commercially available vehicles are anticipated to develop rapidly over the next several years due to increasingly stringent regulations and safety tests (in particular, emergency brake assist) and growing awareness regarding vehicle safety. For instance, in developed countries, functions like cruise control and lane-keep assist are mandatory on all vehicles, and regulations for blind-spot monitoring, particularly in Europe.

Points Covered in The Report:

The points that are discussed within the report are the major market players that are involved in the market such as manufacturers, raw material suppliers, equipment suppliers, end users, traders, distributors and etc.

The complete profile of the companies is mentioned. And the market size, capacity, production, price, revenue, cost, gross, gross margin, sales volume, sales revenue, consumption, growth rate, import, export, supply, future strategies, and the technological developments that they are making are also included within the report.

The market growth factors of the market are discussed in detail wherein the different end users of the market are explained in detail.

Who are the Major Automotive Sensors Market Vendors?

Robert Bosch GmbH (Gerlingen, Germany)

Infineon Technologies AG (Neubiberg, Germany)

STMicroelectronics (Geneva, Switzerland)

Continental AG (Hanover, Germany)

Denso Corporation (Kariya, Japan)

NXP Semiconductors (Eindhoven, Netherlands)

Texas Instruments Incorporated (Dallas, U.S.)

Allegro Microsystems, LLC (New Hampshire, U.S.)

CTS Corporation (Illinois, U.S.)

Elmos Semiconductor (Dortmund, Germany)

Sensata Technologies (Attleboro, Massachusetts, U.S.)

The Changan Hunter is a utility vehicle used for countless tasks worldwide. It was introduced by the Changan automobile as a midsize pickup truck for transporting goods.

Automotive Electronics Market Worth USD 249.653 Billion in 2023 Grows at 4.6% CAGR

The Automotive Electronics Market is anticipated to reach USD 249.653 Billion in 2023 and then increase at a CAGR of 4.6% to USD 391.43 Billion between 2023 and 2033. The automotive electronics demand to increase due to the increased integration and implementation of modern safety systems, including automated airbags, parking assistance systems, emergency braking, and lane departure warning to reduce traffic accidents.

In-vehicle passenger safety features such as alcohol ignition interlocks, emergency call systems, and accident data recorder systems are being quickly implemented, and they are anticipated to propel market expansion for automotive electronics over the projection period.

The Role of IoT and AI in the Evolution of Automobile

The growth of IoT and AI has changed how car functionalities operate, according to market trends for automotive electronics. It has improved the ride assistance systems and boosted driver communication with the vehicle during the last year. The rise of the automotive electronics business is fueled by the inclusion of cameras and sensors in automobiles, which aid drivers in parking their cars or using other nearby features. 

The Increasing Need for In-Vehicle Safety Technology

Automobile electronic components are necessary because car safety regulations are becoming more stringent in different parts of the world, and consumers are becoming more aware of car safety features.

Airbags are standard equipment on all but the most affordable models of vehicles. In contrast, the most expensive models have cutting-edge safety technologies like autonomous emergency braking and sleep recognition. This should present a profitable automotive electronics market opportunity.

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A Sharp Rise in Vehicles Embracing Automated Driving

Artificial intelligence has improved autos thanks to its development. These self-driving cars recognize danger and gauge the tension of the driver. Radars and other sensors are used by self-driving autonomous vehicles to sense their environment. Advanced control systems use sensory data to determine the best routes to take, obstacles, and pertinent signage. 

Insights into Regional Developments

The automotive electronics market in Europe is witnessing significant growth. Europe is experiencing a market boom due to the increasing concern for safety and security in the automotive industry. This region benefits from reputable automakers like Volkswagen, Skoda, Audi, BMW, and Daimler.

The ADAS industry has thrived due to regulations implemented by the European Union to reduce traffic accidents and promote vehicle safety equipment. These factors are collectively surging the market growth of automotive electronics.

The automotive electronics business in Asia-Pacific is experiencing substantial growth. Through their robust electronic component manufacturing activity, nations like Taiwan, South Korea, Malaysia, and Thailand have made a substantial contribution to the automotive electronics industry. China and Japan are the primary automotive electronics suppliers in the Asia-Pacific region.

With few automotive electronics manufacturers, local providers have a great opportunity to meet domestic demand and attract investors. India has shown impressive growth in the automotive electronics industry, while China has the leading market share.

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Key Takeaways

During the forecast period, Chinese automotive electronics business to expand at a CAGR of 5.5%. From 2023 to 2033, the United Kingdom automotive electronics industry to register at a 3.3% CAGR. Through 2033, the Indian automotive electronics market to record a CAGR of 6%. Between 2023 and 2033, the United States might increase its market share by 21.8%. Germany may control 7.6% of the automotive electronics industry between 2023 and 2033. Between 2023 and 2033, Japan's share of the automotive electronics industry might reach 8.3%. From 2023 to 2033, Australia to hold a 0.2% share of the automotive electronics industry. The body electronics segment to acquire a substantial market share of 22.4% in the type category between 2023 and 2033. The passenger cars sector to grab a significant market share of 68.9% in the vehicle type category between 2023 and 2033.

Competitive Landscape

Major automotive electronics manufacturers spend much on research and development to diversify their product lines, propelling the automotive electronics market even higher.

The automotive electronics manufacturers are engaging in various strategic measures to extend their worldwide footprint. These measures include important industry changes such as new product releases, contractual agreements, mergers and acquisitions, higher investments, and collaboration with other organizations.

Driving Growth: Automotive Semiconductor Market Set to Reach $115.6 Billion by 2033

The demand for automotive semiconductor market is predicted to grow at a consistent growth rate of 7%. It is projected that the worldwide automotive semiconductor market is likely to be worth approximately US$ 58,770.1 million in the year 2023 and is expected to increase to a value of US$ 115,609.68 million by the year 2033.

Innovations in the automotive sector are proceeding at a breakneck pace.

When an error occurs in the vehicle, such as with the accelerator, the anti-lock brake interface, or the lights, a semiconductor is used to control the fail-safe system, manage the electrical control unit’s functions, and implement automotive fault tolerant systems, which alert the microcontrollers and safety systems installed in all vehicles. By way of illustration, consider the situation in which a vehicle loses traction on icy roads; this would call attention to the system’s ability to tolerate and recover from failure.

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When the driver applies the brakes, the anti-lock braking system is activated because the sensors and semiconductor devices have detected an incident. As a result, semiconductors play a crucial role in the automotive sector, and the industry’s rapid expansion is anticipated to boost the automotive semiconductor market’s growth over the forecast period.

Demand for improved vehicle safety features continues to rise.

As the number of traffic accidents grows, so does the need for safety features like parking aids, collision avoidance systems, lane departure warnings, traction control, electronic stability control, tire pressure monitors, airbags, and telematics. Numerous ADAS technologies rely heavily on automotive semiconductors, which improve the systems’ functionality and enable them to detect and classify objects in the path of the vehicle, alerting the driver to changes in the environment and the state of the road as necessary.

Furthermore, these systems can use semiconductors and associated components to automatically apply the brakes or bring the vehicle to a stop, depending on the road conditions. In recent years, there has been a dramatic rise in the number of people losing their lives in traffic accidents, making it one of the leading causes of death worldwide.

According to a 2021 report by the World Health Organization, for instance, nearly 1.3 million people worldwide lose their lives in traffic-related incidents annually. Teenagers also have a higher rate of fatal road traffic injuries. Due to these causes, there has been an uptick in interest in car safety features. Businesses in the auto industry are working to address consumers’ concerns by designing and releasing new products with enhanced safety functions. For instance, HELLA (a company that makes advanced lighting and electronics components) is expected to begin mass producing their newest 77 GHz radar system soon.

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Key Takeaways

The automotive semiconductor market is expected to experience significant growth in the coming years due to increased demand for electric and hybrid vehicles.

Advancements in ADAS technology are driving the demand for semiconductors that enable these features.

The development of autonomous vehicles is driving the need for more advanced semiconductor technology, such as LiDAR, radar, and camera systems.

The rise of connected car technology is driving demand for advanced semiconductor components that can support features like telematics, infotainment, and vehicle-to-vehicle communication.

The adoption of Industry 4.0 technology is driving demand for more advanced semiconductor technology that can support IoT and AI systems.

The United States is currently the largest market for automotive semiconductors due to its robust automotive industry and investment in emerging technologies.

The Asia-Pacific region is expected to experience significant growth in the automotive semiconductor market due to its growing automotive industry and increasing demand for electric and hybrid vehicles.

Competitive Landscape

The competitive landscape in the automotive semiconductor market is highly fragmented and characterized by intense competition among key players. There are several global players, including NXP Semiconductors N.V., Infineon Technologies AG, and Texas Instruments Incorporated, who are investing heavily in research and development to improve the performance and functionality of their semiconductor products. These companies are also expanding their product portfolios through strategic partnerships, mergers and acquisitions, and collaborations with other companies in the value chain.

The automotive semiconductor market is seeing increased competition from new entrants and startups that are developing innovative semiconductor products to cater to the evolving needs of the automotive industry. These companies are leveraging emerging technologies like IoT, AI, and cloud computing to develop cutting-edge semiconductor solutions that enhance the functionality and performance of automobiles.

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Key Segments

Automotive Semiconductor Market by Component:

Micro Components (Processors)

Memory Devices

Logic

Optical & Sensors

Analog ICs

Discrete Devices

Automotive Semiconductor Market by Vehicle Type:

Automotive Semiconductors for Passenger Vehicles

Automotive Semiconductors for Light Commercial Vehicles

Automotive Semiconductors for Heavy Commercial Vehicles

Automotive Semiconductor Market by Application:

Body

Safety

Telematics & Infotainment

Power Trains

Chassis

Automotive MEMS Sensor Market Analysis by Size, Share, Growth, Trends up to 2032

The global automotive MEMS sensor market size is anticipated to create lucrative growth opportunities over the forecast period by registering a total CAGR of 15% from 2022 to 2032. The global market garnered a market value of US$ 2.41 Billion in 2022 and is expected to surpass a valuation of US$ 9.75 Billion by 2032.

The spread of technologically advanced cars around the world is responsible for the market's expansion. The micro-electro-mechanical systems (MEMS) sensors used in automobiles are computer systems that effectively manage and regulate all of the vehicle's mechanical, electrical, and electronic components.

The use of MEMS inertial sensors has unlocked a number of desirable characteristics that are now among the most prevalent in modern autos. Several uses have gained popularity because they are now commonplace in autos. These systems combine nanoscale nanotechnology with NEMS (nanoelectromechanical systems). Some apps contain the most cutting-edge capabilities, which are typically available in high-end versions but which will eventually become mainstream.

On the basis of features like crash detecting for airbag management, vehicle dynamic control, rollover detection, antitheft systems, electronic parking brake systems, car navigation systems, and others, automotive MEMS sensors can be divided into different categories.

Additionally, the main components of automotive MEMS sensors are a microprocessor/central unit for data processing and a number of micro sensors for interacting with the surroundings. Silicon, polymers, and metals including gold, nickel, aluminum, copper, tungsten, chromium, titanium, platinum, etc. are often used materials for the construction of automobile MEMS sensor systems and semiconductor devices.

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Key Takeaways

The increasing demand for technologically advanced vehicles all over the world is one of the primary factors driving the automotive MEMS sensor market. In addition to that, government regulations regarding safety features to reduce the usage of fuel as well as the increasing demand for vehicles with better mileage by the general public are some of the major factors boosting the adoption of automotive MEMS sensors in the automotive industry.

Attributing to the steady growth of alternative vehicle choices, such as technologically advanced hybrid vehicles or pure electric cars, in various regions has contributed significantly to the automotive MEMS sensor market due to the high complexities of these automobiles over conventionally used vehicles.

The ease of driving, security concerns, driver safety, and the demand for vehicles that require low maintenance are also some of the factors driving the automotive MEMS sensor market. Furthermore, an automotive MEMS sensor system usually comprises mechanical and electronic components working in tandem with each other. The perfect integration of these components is a major challenge, which can, in turn, hinder the growth of the automotive MEMS sensor market.

 Competitive Landscape

Some of the prominent players in the global automotive MEMS sensor market are focusing on mergers and acquisitions in order to cater to the demands of consumers. Attributed to the presence of a such high number of participants, the market is highly competitive. Other key market players are focusing on offering semiconductor chips that are revolutionizing navigation in cars.

Key Companies Profiled

Robert Bosch GmbH

InvenSense Inc.

General Electric Company

Analog Devices, Inc.

Panasonic Corporation

Hitachi, Ltd.

Sensata Technologies Inc.

Infineon Technologies AG

Harman International

Top 5 Emerging Trends in Embedded Systems 2023

Embedded systems are evolving as businesses are pressured to innovate more quickly than ever. Its applications spread across various industries like automobiles, healthcare, household appliances, interactive kiosks, and other end-user devices. The market size of embedded systems was worth more than USD 140 billion in 2022 and is estimated to witness a sharp growth of USD 250 billion by the year 2032 according to the industry statistics of Global Market Insights (GMI).

With the inception of IoT and IIoT, embedded systems have become the catalyst for a rapidly expanding world of smart and intelligent network ecosystems. The popularity of embedded system technology can be attributed to its broad diversity in functions and flexibility and its recent evolution in performing functions faster, more productive, and cheaper.      

The development of microcontrollers set the path for the emergence of the embedded system sector, which is advancing rapidly to enable better machine control and monitoring. Embedded system devices are typically powered by software integrated with hardware, such as systems on a chip (SoC), field-programmable gate arrays (FPGA), an IC specifically designed to be programmed by embedded developers for specific functions, and other firmware variations.

There are some emerging trends in embedded systems that would alter the way technology is used in the future. For a better understanding, let's dig in a little deeper.

1. AUTOMOBILES

With the rise of hybrid electric vehicles (HEV) and electric vehicles (EV), embedded systems are clearly the ways and means of achieving multiple objectives in the automotive segment ranging from infotainment systems, fuel management, engine control unit, car-area-network, and safety systems. It is the heart of a vehicle’s electronic system because of its versatility and flexibility. Today, an average car has 25 to 35 microcontrollers, while some premium cars have 60 to 70.

An automobile on the road has computer-controlled electronic systems, and the most commonly used embedded systems in a vehicle include Airbags, adaptive cruise control, drive-by-wire, anti-lock braking system, black box, telematics, satellite radio, traction control, automatic parking, emission control, in-vehicle entertainment systems, night vision, heads up display, tyre pressure monitor, back up collision sensors, navigational systems, and climate control. Traffic management and prediction systems are being developed for large cities which are supported by M2M or V2V communication networks that make ad-hoc networks, gather data from multiple sources, and combine to take decisions for car users and traffic managers. The real-time management of this system is possible only by having seamless embedded software development services for computing and communication.

2.  AUTOMATION

From manufacturing to the automobile industry, automation is transforming many different sectors of the economy. Automation aims to speed up production and other operations while lowering the possibility of human error and increasing operator safety. Embedded systems are employed extensively for automation purposes, as they allow devices to be compact, agile, and quick-moving.  The majority of embedded systems used in automation applications use single-level cell (SLC) flash memory to survive the shock, vibration, and severe temperatures seen in manufacturing environments.

The embedded OPC-UA technology has made it possible for industrial equipment to interact in a standard, scalable, and secure format, making it one of the major enablers for smart manufacturing. In order to monitor and control HMIs, vision, PLCs, and motion solutions, efficient embedded software development services use machine learning, artificial intelligence, and data analytics. They also provide recommendations for improving performance, enhanced embedded system logic, control, and scalability.

3.  HEALTHCARE

Electronic medical devices with the convergence of embedded systems, biotech, nanotech, and sensor technologies are making breathtaking transformations in healthcare delivery and establishing new healthcare paradigms.  Bio-medical devices such as home monitoring and diagnostic devices, telemetry, and diagnostic imaging applications solve a wide variety of analytical problems including medicine, surgery, and drug discovery.

It's interesting how wireless communication and sensors came together to develop the BAN, or body area network, which is used to track vital signs like blood pressure, temperature, and oxygen levels.  A clip device attached to the headband can be used to detect sleep disturbances as well. These tiny, powerful chips and processors have the ability to link to a network-based diagnostic process and monitor the patient's health.

4.  ARTIFICIAL INTELLIGENCE

Artificial intelligence (AI) and its practical application are steadily gaining momentum as more embedded designs have constantly been developed for the advancement of the economy. AI influences a wide industrial spectrum ranging from health care, retail, e-commerce, autonomous driving, manufacturing, supply chain, and banking.

For instance, a smart factory with IoT and AI can significantly boost productivity by monitoring the operation in real-time and allowing AI to make decisions that can prevent operational failures.  Embedded software development solutions are anticipated to enhance the AI potential as the cost of AI hardware continues to decline.

5.  IOT SECURITY

The Internet of Things (IoT) and digital embedded security are no more an option but a necessity as it is very critical for more transactions happening over embedded devices as front ends. Due to the rapid increase of digital users and remote working environment post-pandemic, cyber security is under greater threat than before. Implementing IoT security solutions along with embedded devices like AI and Robots helps to make decisions on data and their safety to avoid vulnerabilities. IoT security solutions will also protect confidential data from the hands of cyber-attacks efficiently and protect the applications from malicious hackers and ransomware.

Conclusion

Regardless of the global economic turbulence, there would be continued investments in developing more innovative and efficient solutions in the embedded domain to cater to the above-mentioned trends. In order to succeed in the embedded market, companies need to constantly develop and innovate new ideas, and approaches that can provide efficient, quick, low-power, cost-effective solutions to consumers. The coming years tend to surprise us with the most advanced innovations in embedded system technology.

Are you looking for a technological partner to build your embedded software? You can count on Team TA to provide you with expert process guidance and assistance.

ADAS Recalibration Services Market Expectations and Growth Trends Highlighted Until 2029

Implementation of Advanced Driver Assistance Systems (ADAS) in vehicles is becoming increasingly popular. Examples of prevalent ADAS includes lane departure warning, pedestrian detection, traffic sign recognition, collision avoidance, and lane centering. These systems rely on the proper functioning of cameras, radars, and sensors which requires calibration.

ADAS Recalibration Services is necessary for all of the instances post windshield replacement, collision repair, airbag deployment, suspension repair, front end alignment, change in tires or ride height, replacement of a faulty camera, replacement of the vehicle’s Engine Control Module or Powertrain Control Module, or Engine Control Unit. Often vehicle with forward facing video camera will require ADAS recalibration services post windscreen replacement as default requirement owing to the technology being housed in windscreen mounted hardware.

ADAS Recalibration Services Market: Dynamics

Prevalence of safety standards and government initiatives related to automotive industry stimulate the demand for different types of ADAS in vehicles. Electrification of vehicles is also likely to encourage the installations of ADAS in the coming years. Automakers have begun implementation of smart and advanced safety features such as ADAS even in the low and mid-range vehicles as well.

With installation of ADAS in vehicles, calibration is then considered as an essential service, as improper calibration of sensors may result in faulty functioning of the ADAS. Owing to the above mentioned factors, the demand for ADAS Recalibration Services is expected to witness healthy growth in the coming years.

High cost of installation of ADAS in vehicles is one of the predominant challenges for the ADAS market. Vehicles fitted with advanced driver assistance systems (ADAS) cost relatively higher than conventional vehicles.

Subsequently, significant number of consumers while purchasing a vehicle opt for conventional vehicle. This in turn is expected to be one of the key factor restraining the growth of customer base for ADAS and subsequently hinders the demand for ADAS Recalibration Services.

ADAS Recalibration Services Market: Segmentation

basis of Calibration type

Static ADAS Recalibration Services

Dynamic ADAS Recalibration Services

basis of Vehicle type

Passenger Car ADAS Recalibration Services

Light Commercial Vehicles ADAS Recalibration Services

Heavy Commercial Vehicles ADAS Recalibration Services

basis of Service Provider

Authorized Service Station

Franchised Service Station

Independent Service Station

ADAS Recalibration Services Market: Regional Outlook

ADAS is one of the newest technology in the automotive industry which is likely to go mainstream in the upcoming years. However, the installation rates of such system will vary across the regions owing to high initial cost and regulations pertaining to its implementation. ADAS Recalibration Services market directly depends on the penetration of ADAS in the vehicle fleet.

Owing to stringent norms concerning passenger safety in the developed nations including U.S. and Germany, the installation rate of ADAS in the vehicle is maximum. This in turn makes North America and Europe region a prominent market for ADAS Recalibration Services.

Middle East & Africa region is expected to be among the leading markets in growth perspective owing to increasing production of commercial vehicles in GCC countries particularly in UAE and passenger vehicles in Northern African countries.

ADAS Recalibration Services Market: Key Players

Examples of some of the market participants identified across the value chain of the global ADAS Recalibration Services market include:

City Auto Glass, Inc.

Safelite Group

Correct Calibration Services

O’Brien Glass Industries Limited

ADAS Leicester Limited

Calibration Services USA

Dynamic Calibration Systems, LLC

Crystal Glass

West Texas Windshields

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Key Questions Answered in This Report.

What will the Market growth rate in Future?

What are the key factors driving the global Market?

Who are the key manufacturers in Market space?

What are the opportunities and threats faced by the vendors in the global industry?

What are sales, revenue, and price analysis by regions of industry?