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REPORT OUTLOOK
| Market Size | CAGR | Dominating Region |
|---|---|---|
| USD 3.01 billion by 2030 | 6% | Asia Pacific |
| by Type | by Application |
|---|---|
|
|
SCOPE OF THE REPORT
Market Overview
The global automotive piezoelectric sensor market size is projected to grow from USD 2.0 billion in 2023 to USD 3.01 billion by 2030, exhibiting a CAGR of 6% during the forecast period.
An automobile piezoelectric sensor is a specialized device that transforms mechanical stress or vibrations into electrical impulses. The word “piezoelectric” refers to a material’s capacity to develop an electric charge in response to mechanical stress. Examples include ceramics and crystals. In the automobile industry, these sensors are critical in monitoring the different dynamic elements of a vehicle’s performance. These sensors are frequently used to identify and measure vibrations, pressure, and acceleration, giving useful information for a variety of automotive applications. Piezoelectric sensors, for example, are employed in engine control systems to monitor combustion vibrations, allowing exact timing changes to optimize engine performance and fuel economy. They also find use in safety systems, such as airbag deployment, where the sensors can detect abrupt acceleration changes suggestive of a crash. Automotive piezoelectric sensors, with their capacity to transform mechanical forces into electrical impulses, are flexible instruments for monitoring and managing numerous elements of vehicle dynamics. Their dependability, reactivity, and capacity to survive extreme automotive conditions make them vital components in modern automobiles, contributing to increased performance, safety, and overall efficiency.
Automotive piezoelectric sensors are important because of their capacity to monitor and optimize different elements of vehicle performance, safety, and efficiency. These sensors are required to capture and transform mechanical events like as vibrations, pressure, and acceleration into electrical signals that may be used by a vehicle’s control systems. This information is critical for a variety of automotive applications, including engine management, where piezoelectric sensors aid optimize combustion processes for increased fuel economy and performance. These sensors are essential in safety systems, as if as airbags, since they detect quick changes in acceleration and signal the necessity for prompt deployment to lessen the effect of a crash. Furthermore, piezoelectric sensors help to develop suspension systems, tire monitoring, and overall vehicle dynamics, improving ride comfort and handling qualities. Their dependability and reactivity make them essential for real-time data collecting, allowing the installation of intelligent systems that adapt to changing driving circumstances. Overall, automotive piezoelectric sensors are important because they play a critical role in the efficiency, safety, and performance of modern vehicles, assisting manufacturers in meeting stringent standards and providing drivers with a smoother, safer, and more enjoyable driving experience. Automotive piezoelectric sensors have a wide range of applications and are expanding as technology develops. These sensors are essential for the development of smart and efficient vehicle systems. One important part of its scope is its ability to improve fuel economy and reduce pollution by allowing precise control of combustion processes in internal combustion engines. As the automotive industry shifts to electric cars, piezoelectric sensors play an important role in battery management systems, assuring maximum performance and lifetime. Furthermore, the increased emphasis on vehicle safety has broadened the application of piezoelectric sensors, which are critical components in advanced driver-assistance systems (ADAS). These sensors aid in the detection of vibrations and quick acceleration changes, enabling functions like as collision warning, lane-keeping assistance, and adaptive cruise control.
| ATTRIBUTE | DETAILS |
| Study period | 2020-2030 |
| Base year | 2022 |
| Estimated year | 2023 |
| Forecasted year | 2023-2030 |
| Historical period | 2019-2021 |
| Unit | Value (USD Billion) (Thousand Units) |
| Segmentation | By Type, Application and Region |
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By Type |
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By Application |
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| Â
 By Region  |
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Automotive Piezoelectric Sensor Market Segmentation Analysis
The global automotive piezoelectric sensor market is bifurcated three segments, by type, application and region. By type, the market is bifurcated into piezoelectric accelerometers, piezoelectric pressure sensor, piezoelectric force sensors, others. By application, the market is bifurcated truck, car, motorcycle, others and region.
The automotive piezoelectric sensor market includes a wide range of sensor types, such as piezoelectric accelerometers, piezoelectric pressure sensors, piezoelectric force sensors, and more. Piezoelectric accelerometers are used to detect and monitor acceleration forces, making them useful in applications such as vehicle dynamics analysis, accident testing, and inertial navigation. These sensors collect useful data on acceleration variations, which aids in the development of advanced driver assistance systems (ADAS) and improves overall vehicle safety. Piezoelectric pressure sensors, on the other hand, are designed expressly to detect pressure fluctuations. They are used in automotive systems such as fuel injection, engine combustion analysis, and tire pressure monitoring (TPMS). These sensors are critical in improving engine performance and maintaining adequate tire inflation, which improves fuel efficiency and overall vehicle safety. Piezoelectric force sensors measure and quantify forces on a surface. In the automobile industry, these sensors are employed in applications such as brake systems, where they assist monitor and optimize braking forces. Additionally, force sensors may be used in a variety of vehicle testing scenarios to provide insights into structural integrity and material performance.
The automotive piezoelectric sensor market is segmented by application, with separate emphasis areas serving to certain vehicle types. Piezoelectric sensors are critical in the truck market for monitoring and improving heavy-duty vehicle dynamics. These sensors are used in applications like as load balancing, suspension systems, and engine performance analysis, all of which help to improve truck efficiency, safety, and performance. Piezoelectric sensors are widely used in the automotive industry for a variety of tasks. They are critical to the development of advanced driver assistance systems (ADAS), which include features such as collision detection, lane-keeping aid, and adaptive cruise control. Piezoelectric sensors in automobiles also contribute to engine control systems, tire pressure monitoring, and other safety systems, which improve both vehicle performance and occupant safety. Motorcycles benefit from the use of piezoelectric sensors as well, particularly in engine management and dynamic stability control. These sensors detect acceleration, vibrations, and pressure changes to ensure maximum performance and response in a variety of riding scenarios. The “others” category includes a wide range of vehicles or applications that do not fall directly into the truck, automobile, or motorbike categories. This might include specialist cars, off-road vehicles, or developing modes of transportation that use piezoelectric sensors for specific tasks.
Automotive Piezoelectric Sensor Market Dynamics
Driver
The growing emphasis on fuel efficiency and rigorous pollution standards is driving the market for improved engine control systems.
The automobile sector is experiencing an important shift, prompted by growing concerns about environmental sustainability and governmental initiatives to cut car emissions. As governments throughout the world set tighter fuel economy and pollution rules, manufacturers are forced to deploy innovative technologies to satisfy these demands. Piezoelectric sensors play an important role in optimizing combustion within the engine, resulting in increased fuel economy and lower pollutants. Piezoelectric sensors are used in fuel injection systems, where their particular features allow for exact control of the injection process. These sensors monitor pressure changes in the combustion chamber with high accuracy, allowing for real-time modifications to fuel injection timing and amount. Piezoelectric sensors contribute to more efficient and cleaner fuel combustion by offering finely tuned control over the combustion process. Piezoelectric sensors optimize combustion, which leads in many fuel efficiency improvements. For starters, it improves the engine’s overall efficiency by converting a larger proportion of the energy in the fuel into productive work. Second, by allowing for more regulated and uniform combustion, the sensors aid to reducing unburned fuel and particulate matter emissions, thereby fulfilling severe environmental standard. Moreover, the use of piezoelectric sensors in fuel injection systems allows for dynamic modifications based on driving circumstances, engine load, and other variables. This versatility guarantees that the engine performs at peak efficiency throughout a wide range of conditions, improving fuel economy and lowering pollutants.
Restraint
The production and integration of high-quality piezoelectric sensors can be expensive.
The high cost of producing and integrating high-quality piezoelectric sensors is a substantial barrier to their general implementation in the automobile sector. While these sensors have sophisticated functionality and accurate capabilities, their creation requires complicated manufacturing procedures and the usage of specific materials, which adds to the total cost. In the automobile industry, where cost-effectiveness is crucial, the expenditure associated with piezoelectric sensors becomes a limiting issue. The intricacy of manufacturing piezoelectric sensors, which frequently requires deposition of piezoelectric materials on substrates and assembly of sophisticated components, raises production costs. Furthermore, the necessity for high accuracy and dependability in automotive applications demands stringent quality control methods, which drive up production costs even further. To integrate piezoelectric sensors into automobiles, interoperability with current systems is required, which may necessitate extra engineering and adaption work. Retrofitting older automobiles with these sensors may potentially involve additional expenses. As a result, the total expense of incorporating piezoelectric sensors into automotive applications may outweigh the apparent benefits, making it difficult for manufacturers to justify broad adoption.
Opportunities
The increasing integration of Advanced Driver Assistance Systems (ADAS) in modern vehicles represents a pivotal opportunity for the application of piezoelectric sensors.
These sensors, noted for their accuracy and reactivity, play an important role in improving different areas of ADAS, making a substantial contribution to overall vehicle safety and driving experience.
Collision detection systems are an important use for piezoelectric sensors in ADAS. These sensors can reliably measure changes in acceleration and deceleration, giving real-time data that is critical for spotting possible accidents. Vehicles equipped with ADAS may quickly assess the danger of a collision and initiate preventative steps to lessen its effect by using the high sensitivity and responsiveness of piezoelectric sensors. This includes triggering automated emergency braking systems and pre-tensioning seat belts, which improve occupant safety. Lane departure warning systems, another essential component of ADAS, benefit from the use of piezoelectric sensors. These sensors can be carefully positioned to detect slight changes in vehicle position inside lanes. In the event of an unintentional lane departure, piezoelectric sensors can detect the deviation and send alerts, such as steering wheel vibrations or audio warnings, to help the driver keep good lane discipline. This improves not just safety, but also the prevention of accidents caused by unintended lane drift.
Automotive Piezoelectric Sensor Market Trends
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The increased use of ADAS in automobiles is pushing up demand for piezoelectric sensors. These sensors play an important part in applications including collision detection, lane-keeping assistance, and adaptive cruise control, all of which contribute to improved vehicle safety.
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Automotive manufacturers are continually seeking to increase fuel economy and minimize pollutants. Piezoelectric sensors, particularly in applications such as engine control systems, help to optimize combustion processes, resulting in higher fuel economy.
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The growth of electric and hybrid cars opens up new prospects for piezoelectric sensors, especially in battery management systems. These sensors assist monitor and regulate battery performance, adding to the efficiency and lifetime of electric powertrains.
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As autonomous driving technology progresses, the requirement for high-performance sensors grows. Piezoelectric sensors may find use in sophisticated sensor arrays that monitor road conditions and provide important data to autonomous car systems.
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Automotive producers are increasingly prioritizing sensor technologies that are lightweight and small. Piezoelectric sensors, noted for their small size and adaptability, are consistent with the industry’s drive toward increasingly compact and integrated sensor solutions.
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Piezoelectric sensors are used to measure vehicle vibrations in real time. This information may be utilized for predictive maintenance, which helps to spot possible problems in components like as engines or suspensions before they cause catastrophic breakdowns.
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Ongoing material science research and innovation contribute to the development of novel piezoelectric materials with higher sensitivity and durability, hence improving the capabilities and uses of these sensors in automotive environments.
Competitive Landscape
The competitive landscape of the Automotive Piezoelectric Sensor Market was dynamic, with several prominent companies competing to provide innovative and advanced Automotive Piezoelectric Sensor.
- APC International Ltd.
- Ceramtec GmbH
- CTS Corporation
- DJB Instruments
- Dytran Instruments
- Honeywell
- Kavlico Corporation
- Kistler Group
- Kyocera Corporation
- Kyowa Electronic Instruments
- Meggitt Sensing Systems
- Metrix Instrument
- Murata Manufacturing Co., Ltd.
- Omni Instruments
- PCB Piezotronics
- PI Ceramic GmbH
- Piezo Systems
- RION
- TDK Corporation
- TE Connectivity
Recent Developments:
November 14, 2023 — we present our next generation of piezoceramic flow sensors for ultrasonic water meters with its new 2 MHz water coupled sensors. The high-precision sensors are suitable for use in ultrasonic water and heat meters and ensure reliable operation at high pressure and over a wide temperature range from -40oC to 130°C.
December 14, 2023 – Sensata Technologies announced that multiple major automotive brake system manufacturers for integration within their next generation Electromechanical Brake (EMB) systems have chosen its innovative Brake Force Sensor. The Brake Force Sensor will be used to directly measure the applied clamping force within the foundation brake, enabling closed-loop control of calipers and drums for passenger cars.
Regional Analysis
The Asia-Pacific region has been the dominant force in the automotive piezoelectric sensor industry.
Asia-Pacific, notably China, Japan, South Korea, and India, has a major proportion of the automotive piezoelectric sensor market. Asia-Pacific is home to some of the world’s major automotive production hubs. Countries such as China and Japan are important vehicle makers in both home and international markets. The widespread presence of automobile production facilities generates strong demand for a variety of vehicle components, including piezoelectric sensors.
The area has been at the forefront of technical breakthroughs in the automobile industry. As cars grow more complex, with the addition of advanced driver assistance systems (ADAS), electric powertrains, and networking capabilities, the need for sensors, notably piezoelectric sensors, has increased dramatically. With an emphasis on sustainable transportation, the Asia-Pacific electric vehicle (EV) industry has grown significantly. Piezoelectric sensors are critical components of EVs, particularly battery management systems and motor control units. The region’s concentration on electric mobility increases the need for these sensors. Countries such as Japan and South Korea have a long history of investing in R&D, which fosters innovation in sensor technology. This has resulted in the creation of high-performance and dependable piezoelectric sensors that match the severe criteria of the automobile sector.
Target Audience for Automotive Piezoelectric Sensor Market
- Automotive Manufacturers
- Suppliers and Distributors
- Research and Development Teams
- Technology Providers
- Automotive Engineers and Designers
- Regulatory Bodies and Standards Organizations
- Investors and Financial Institutions
- Automotive Testing and Certification Services
- Automotive Aftermarket Providers
- Academic and Research Institutions
Segments Covered in the Automotive Piezoelectric Sensor Market Report
Automotive Piezoelectric Sensor Market by Type, 2020-2030, (USD Billion) (Thousand Units)
- Piezoelectric Accelerometers
- Piezoelectric Pressure Sensor
- Piezoelectric Force Sensors
- Others
Automotive Piezoelectric Sensor Market by Application
- Truck
- Car
- Motorcycle
- Others
Automotive Piezoelectric Sensor Market by Region
- North America
- Europe
- Asia Pacific
- South America
- Middle East and Africa
Key Question Answered
- What is the expected growth rate of the Automotive Piezoelectric Sensor Market over the next 7 years?
- Who are the key market participants Automotive Piezoelectric Sensor, and what are their market share?
- What are the end-user industries driving market demand and what is their outlook?
- What are the opportunities for growth in emerging markets such as Asia-Pacific, the Middle East, and Africa?
- How is the economic environment affecting the Automotive Piezoelectric Sensor Market, including factors such as interest rates, inflation, and exchange rates?
- What is the expected impact of government policies and regulations on the Automotive Piezoelectric Sensor Market?
- What is the current and forecasted size and growth rate of the global Automotive Piezoelectric Sensor Market?
- What are the key drivers of growth in the Automotive Piezoelectric Sensor Market?
- Who are the major players in the market and what is their market share?
- What are the distribution channels and supply chain dynamics in the Automotive Piezoelectric Sensor Market?
- What are the technological advancements and innovations in the Automotive Piezoelectric Sensor Market and their impact on product development and growth?
- What are the regulatory considerations and their impact on the market?
- What are the challenges faced by players in the Automotive Piezoelectric Sensor Market and how are they addressing these challenges?
- What are the opportunities for growth and expansion in the Automotive Piezoelectric Sensor Market?
- What are the product offerings and specifications of leading players in the market?
Table of Content
- INTRODUCTION
- MARKET DEFINITION
- MARKET SEGMENTATION
- RESEARCH TIMELINES
- ASSUMPTIONS AND LIMITATIONS
- RESEARCH METHODOLOGY
- DATA MINING
- SECONDARY RESEARCH
- PRIMARY RESEARCH
- SUBJECT-MATTER EXPERTS’ ADVICE
- QUALITY CHECKS
- FINAL REVIEW
- DATA TRIANGULATION
- BOTTOM-UP APPROACH
- TOP-DOWN APPROACH
- RESEARCH FLOW
- DATA SOURCES
- DATA MINING
- EXECUTIVE SUMMARY
- MARKET OVERVIEW
- AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET OUTLOOK
- MARKET DRIVERS
- MARKET RESTRAINTS
- MARKET OPPORTUNITIES
- IMPACT OF COVID-19 ON AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET
- PORTER’S FIVE FORCES MODEL
- THREAT FROM NEW ENTRANTS
- THREAT FROM SUBSTITUTES
- BARGAINING POWER OF SUPPLIERS
- BARGAINING POWER OF CUSTOMERS
- DEGREE OF COMPETITION
- INDUSTRY VALUE CHAIN ANALYSIS
- AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET OUTLOOK
- GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- PIEZOELECTRIC ACCELEROMETERS
- PIEZOELECTRIC PRESSURE SENSOR
- PIEZOELECTRIC FORCE SENSORS
- OTHERS
- GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- TRUCK
- CAR
- MOTORCYCLE
- OTHERS
- GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY REGION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- NORTH AMERICA
- US
- CANADA
- MEXICO
- SOUTH AMERICA
- BRAZIL
- ARGENTINA
- COLOMBIA
- REST OF SOUTH AMERICA
- EUROPE
- GERMANY
- UK
- FRANCE
- ITALY
- SPAIN
- RUSSIA
- REST OF EUROPE
- ASIA PACIFIC
- INDIA
- CHINA
- JAPAN
- SOUTH KOREA
- AUSTRALIA
- SOUTH-EAST ASIA
- REST OF ASIA PACIFIC
- MIDDLE EAST AND AFRICA
- UAE
- SAUDI ARABIA
- SOUTH AFRICA
- REST OF MIDDLE EAST AND AFRICA
- NORTH AMERICA
- COMPANY PROFILES*
(BUSINESS OVERVIEW, COMPANY SNAPSHOT, PRODUCTS OFFERED, RECENT DEVELOPMENTS)
- APC INTERNATIONAL LTD.
- CERAMTEC GMBH
- CTS CORPORATION
- DJB INSTRUMENTS
- DYTRAN INSTRUMENTS
- HONEYWELL
- KAVLICO CORPORATION
- KISTLER GROUP
- KYOCERA CORPORATION
- KYOWA ELECTRONIC INSTRUMENTS
- MEGGITT SENSING SYSTEMS
- METRIX INSTRUMENT
- MURATA MANUFACTURING CO., LTD.
- OMNI INSTRUMENTS
- PCB PIEZOTRONICS
- PI CERAMIC GMBH
- PIEZO SYSTEMS
- RION
- TDK CORPORATION
- TE CONNECTIVITYÂ Â Â Â Â *THE COMPANY LIST IS INDICATIVE
LIST OF TABLES
TABLE 1 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 2 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 3 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 4 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 5 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY REGION (USD BILLION) 2020-2030
TABLE 6 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY REGION (THOUSAND UNITS) 2020-2030
TABLE 7 NORTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 8 NORTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 9 NORTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 10 NORTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 11 NORTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 12 NORTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 13 US AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 14 US AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 15 US AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 16 US AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 17 CANADA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 18 CANADA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 19 CANADA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 20 CANADA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 21 MEXICO AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 22 MEXICO AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 23 MEXICO AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 24 MEXICO AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 25 SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 26 SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 27 SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 28 SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 29 SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 30 SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 31 BRAZIL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 32 BRAZIL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 33 BRAZIL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 34 BRAZIL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 35 ARGENTINA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 36 ARGENTINA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 37 ARGENTINA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 38 ARGENTINA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 39 COLOMBIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 40 COLOMBIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 41 COLOMBIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 42 COLOMBIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 43 REST OF SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 44 REST OF SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 45 REST OF SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 46 REST OF SOUTH AMERICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 47 ASIA-PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 48 ASIA-PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 49 ASIA-PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 50 ASIA-PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 51 ASIA-PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 52 ASIA-PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 53 INDIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 54 INDIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 55 INDIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 56 INDIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 57 CHINA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 58 CHINA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 59 CHINA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 60 CHINA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 61 JAPAN AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 62 JAPAN AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 63 JAPAN AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 64 JAPAN AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 65 SOUTH KOREA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 66 SOUTH KOREA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 67 SOUTH KOREA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 68 SOUTH KOREA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 69 AUSTRALIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 70 AUSTRALIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 71 AUSTRALIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 72 AUSTRALIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 73 SOUTH-EAST ASIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 74 SOUTH-EAST ASIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 75 SOUTH-EAST ASIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 76 SOUTH-EAST ASIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 77 REST OF ASIA PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 78 REST OF ASIA PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 79 REST OF ASIA PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 80 REST OF ASIA PACIFIC AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 81 EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 82 EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 83 EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 84 EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 85 EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 86 EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 87 GERMANY AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 88 GERMANY AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 89 GERMANY AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 90 GERMANY AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 91 UK AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 92 UK AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 93 UK AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 94 UK AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 95 FRANCE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 96 FRANCE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 97 FRANCE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 98 FRANCE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 99 ITALY AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 100 ITALY AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 101 ITALY AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 102 ITALY AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 103 SPAIN AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 104 SPAIN AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 105 SPAIN AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 106 SPAIN AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 107 RUSSIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 108 RUSSIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 109 RUSSIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 110 RUSSIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 111 REST OF EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 112 REST OF EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 113 REST OF EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 114 REST OF EUROPE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 115 MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 116 MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 117 MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 118 MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 119 MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 120 MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 121 UAE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 122 UAE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 123 UAE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 124 UAE AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 125 SAUDI ARABIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 126 SAUDI ARABIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 127 SAUDI ARABIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 128 SAUDI ARABIA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 129 SOUTH AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 130 SOUTH AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 131 SOUTH AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 132 SOUTH AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 133 REST OF MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 134 REST OF MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 135 REST OF MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 136 REST OF MIDDLE EAST AND AFRICA AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
LIST OF FIGURES
FIGURE 1 MARKET DYNAMICS
FIGURE 2 MARKET SEGMENTATION
FIGURE 3 REPORT TIMELINES: YEARS CONSIDERED
FIGURE 4 DATA TRIANGULATION
FIGURE 5 BOTTOM-UP APPROACH
FIGURE 6 TOP-DOWN APPROACH
FIGURE 7 RESEARCH FLOW
FIGURE 8 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE USD BILLION, 2020-2030
FIGURE 9 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION, USD BILLION, 2020-2030
FIGURE 10 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY REGION, USD BILLION, 2020-2030
FIGURE 11 PORTER’S FIVE FORCES MODEL
FIGURE 12 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY TYPE, USD BILLION 2022
FIGURE 13 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY APPLICATION, USD BILLION 2022
FIGURE 14 GLOBAL AUTOMOTIVE PIEZOELECTRIC SENSOR MARKET BY REGION, USD BILLION 2022
FIGURE 15 MARKET SHARE ANALYSIS
FIGURE 16 APC INTERNATIONAL LTD.: COMPANY SNAPSHOT
FIGURE 17 CERAMTEC GMBH: COMPANY SNAPSHOT
FIGURE 18 CTS CORPORATION: COMPANY SNAPSHOT
FIGURE 19 DJB INSTRUMENTS: COMPANY SNAPSHOT
FIGURE 20 DYTRAN INSTRUMENTS: COMPANY SNAPSHOT
FIGURE 21 HONEYWELL: COMPANY SNAPSHOT
FIGURE 22 KAVLICO CORPORATION: COMPANY SNAPSHOT
FIGURE 23 KISTLER GROUP: COMPANY SNAPSHOT
FIGURE 24 KYOCERA CORPORATION: COMPANY SNAPSHOT
FIGURE 25 KYOWA ELECTRONIC INSTRUMENTS: COMPANY SNAPSHOT
FIGURE 26 MEGGITT SENSING SYSTEMS: COMPANY SNAPSHOT
FIGURE 27 METRIX INSTRUMENT: COMPANY SNAPSHOT
FIGURE 28 MURATA MANUFACTURING CO., LTD.: COMPANY SNAPSHOT
FIGURE 29 OMNI INSTRUMENTS: COMPANY SNAPSHOT
FIGURE 30 PCB PIEZOTRONICS: COMPANY SNAPSHOT
FIGURE 31 PI CERAMIC GMBH: COMPANY SNAPSHOT
FIGURE 32 PIEZO SYSTEMS: COMPANY SNAPSHOT
FIGURE 33 RION: COMPANY SNAPSHOT
FIGURE 34 TDK CORPORATION: COMPANY SNAPSHOT
FIGURE 35 TE CONNECTIVITY: COMPANY SNAPSHOT
FAQ
The global automotive piezoelectric sensor market size is projected to grow from USD 2.0 billion in 2023 to USD 3.01 billion by 2030, exhibiting a CAGR of 6% during the forecast period.
Asia Pacific accounted for the largest market in the automotive piezoelectric sensor market.
APC International Ltd., Ceramtec GmbH, CTS Corporation, DJB Instruments, Dytran Instruments, Honeywell, Kavlico Corporation, Kistler Group, Kyocera Corporation, Kyowa Electronic Instruments, Meggitt Sensing Systems, Metrix Instrument, Murata Manufacturing Co., Ltd., Omni Instruments, PCB Piezotronics, PI Ceramic GmbH, Piezo Systems, RION,TDK Corporation, TE Connectivity.
The integration of piezoelectric sensors, Internet of Things (IoT) technology, and sensor fusion methodologies allows for more extensive and accurate data collecting, enabling additional functionality in smart cars.
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