Global Automotive Current Sensors Market 2024-2030

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    AUTOMOTIVE CURRENT SENSORS MARKET

     

    KEY FINDINGS

    1. Electric vehicles require current sensors to monitor the flow of electricity to and from the battery. These current sensors need to be highly accurate and reliable to ensure the safe and efficient operation of the electric vehicle.
    2. Autonomous vehicles need to be able to monitor and control the flow of electricity to their various components, such as the electric motors, brakes, and steering system. This requires current sensors with high accuracy and reliability.
    3. Current sensors are used in a variety of advanced features and safety systems in vehicles, such as electric power steering, anti-lock braking systems, traction control systems, and adaptive cruise control. The increasing demand for these features is driving the demand for current sensors.
    4. EVs require more current sensors than traditional vehicles due to the complex nature of their electrical systems. For example, EVs need current sensors to monitor the flow of electricity to and from the battery, the electric motors, and the on-board charger.
    5. Autonomous vehicles require sophisticated current sensors to monitor and control the flow of electricity to their various components, such as the electric motors, brakes, and steering system. This is driving the demand for high-performance current sensors with high accuracy and reliability.
    6. Current sensors are used to monitor and optimize the performance of various engine and powertrain components, which can help to improve fuel economy and reduce emissions. This is driving the demand for current sensors in both gasoline and diesel vehicles.
    7. Technological advancements are leading to the development of new and innovative current sensor technologies with improved performance and reliability. This is making current sensors more attractive to automotive manufacturers.
    8. The demand for vehicles is growing rapidly in emerging markets such as China, India, and Brazil. This is driving the demand for current sensors in these markets.
    9. The demand for vehicles is growing rapidly in emerging markets such as China, India, and Brazil. This is driving the demand for current sensors in these markets.
    10. Other sensor technologies, such as Hall effect sensors and magnetoresistive sensors, are also being used for current sensing in vehicles. These technologies can be more cost-effective than current sensors, but they may not offer the same level of performance and reliability.
    11. The ongoing trade tensions between the United States and China are also impacting the global automotive current sensors market. These trade tensions have led to increased tariffs on current sensors imported from China.

     

    AUTOMOTIVE CURRENT SENSORS MARKET OVERVIEW

    There is a palpable upsurge in the demand for current sensors driven by the burgeoning consumer appetite for advanced vehicle features and enhanced safety systems. Current sensors play a pivotal role in supporting a myriad of these advanced functions, including electric power steering, anti-lock braking systems, traction control systems, and adaptive cruise control, reflecting the expanding need for current sensors.

     

    EVs are increasingly relying on current sensors, far more so than traditional vehicles, owing to the intricate electrical systems inherent to EVs. For instance, current sensors are instrumental in monitoring the intricate flow of electricity to and from critical components such as the battery, electric motors, and the on-board charger in EVs.

     

    The pursuit of autonomous vehicles is bolstering the demand for advanced current sensors. These sensors are essential in monitoring and regulating the flow of electricity to a range of components within autonomous vehicles, including electric motors, brakes, and the steering system. This is pivotal for ensuring the safe and dependable operation of autonomous vehicles.

     

    Current sensors are harnessed to oversee and optimize the performance of various engine and powertrain components, thereby enhancing fuel efficiency and curbing emissions. This dual focus on fuel economy and emissions reduction is propelling the demand for current sensors, encompassing both gasoline and diesel vehicles.

     

    INTRODUCTION TO AUTOMOTIVE CURRENT SENSORS MARKET

    Current Sensor is a gadget that uses a magnetic field to detect and create a proportional output to measure the current flowing through a wire. Electrical currents of both types are supported. Without disrupting a circuit, we may measure current passively with the help of current sensors Around the conductor who’s current we’d like to measure, they’re positioned.

     

    The magnetic field produced by the current flowing through your conductor induces a proportional current or voltage in the wire that is within the current sensor. The sensor then outputs a certain voltage or current that a meter connected to the sensor can read and translate into the amount of current flowing through the conductor.

     

    infographic: Automotive Current Sensors Market, Automotive Current Sensors Market Size, Automotive Current Sensors Market Trends, Automotive Current Sensors Market Forecast, Automotive Current Sensors Market Risks, Automotive Current Sensors Market Report, Automotive Current Sensors Market Share

     

    Sensors in various situations must be resistant to large supply transients, which makes the design of sensor power supplies much more difficult. An operational temperature range of typically between -40°C and +125°C is needed in most cases A careful selection of materials and components is required for this. There must be no drift in the magnetic field sensors, and there must be no drift in the magnetic circuit across the operational flux range.

     

    Closed-loop current sensors with high self-heating are practically removed as a result of these changes. Mechanical configuration is another factor to consider. Outside of any electronic enclosures, sensors may be placed in the open air in a variety of applications Here, sensors must be watertight (IP65 or above).

     

    AUTOMOTIVE CURRENT SENSORS MARKET DEVELOPMENTS AND INNOVATIONS

     

    S No Overview of Development Development Detailing Region of Development Possible Future Outcomes
    1 TDK Corporation releases latest technology of automotive sensors TDK Corporation released the CUR 4000 sensor, which expanded its Micronas Hall-effect sensor portfolio. This sensor is developed for highly precise current measurements in automotive & industrial applications, which provides non-intrusive, galvanic isolated contactless current sensing. All these features would contribute to the future of high-voltage systems of hybrid and electric vehicles (xEV). USA This would enhance better Technologies and production
    2 Melexis launches High end Electric current sensor for Premium Automotive Melexis unveiled the MLX91216 XHF extra high-field current sensor. This launch expanded the ease and precision of its distinct IMC-Hall technology into high-current measurement for increasing automotive applications. USA This would enhance better Technologies and production

     

    To know more about Global Automotive Sensors Market, read our report

     

    AUTOMOTIVE CURRENT SENSORS MARKET DYNAMICS

     

    SI no Timeline Company  Mergers
    1 November 2021 Spark Connected The in-cabin smartphone charging company has partnered with self-driving taxi company AutoX to bring wirelessly powered sensors to the Chinese autonomous driving tech company.

     

    BMS has been using current sensing for a long time to safeguard batteries from misuse and to trigger safety shutdowns when overcurrent is detected. The criteria for current sensing, on the other hand, are getting increasingly strict. Batteries with a high energy density, such as Lithium Iron Phosphate (LFP) or Lithium-titanate (LTO), have a very constant output voltage over a wide range of capacities, necessitating that their State of Charge (SoC), Health (SoH), and Functions (SoF) be determined by coulomb counting.

     

    Expected rise in demand for Hall Effect technology in present sensors. In addition to linearity and high accuracy, Hall effect technology has a broad bandwidth. Since the advent of hall-based technology, there has been a rise in the need for current coreless sensors. Because of this, producers benefit from a smaller bill of materials (BOM), smaller design size, and more penetration into other vertical sectors.

     

    As the automotive and transportation industries develop, the Automotive Sensors Market has been increasingly popular in recent years. As a result, this product’s demand has skyrocketed in the last several years. Sensor-based and AI-driven vehicles have opened up a significant industry development prospect. Because of the wide range of products available, they may be used in a wide range of industries and fields. Additionally, the affordability of these goods has contributed to their widespread acceptance throughout the globe. Automobile sensors are increasingly being used in a wide range of vehicles, including passenger automobiles and trucks.

     

    China, Japan, and South Korea are anticipated to have a large demand for these sensors due to their growing usage in automotive, building automation, and industrial industries. China, Japan, and South Korea are just a few of the nations that make up the Asia Pacific area for the automobile sector. It’s the growing adoption of isolated current sensors in hybrid and electric vehicles in the automotive sector that’s fuelling demand for current sensors in the area.

     

    infographic: Automotive Current Sensors Market, Automotive Current Sensors Market Size, Automotive Current Sensors Market Trends, Automotive Current Sensors Market Forecast, Automotive Current Sensors Market Risks, Automotive Current Sensors Market Report, Automotive Current Sensors Market Share

     

    AUTOMOTIVE CURRENT SENSORS MARKET SEGMENTATION

     

    The Global Automotive Current Sensors Market can be segmented into following categories for further analysis.

     

    Automotive Current Sensors Market By Vehicle Infrastructure Type

    • Light Commercial vehicle
    • Heavy Commercial Vehicle
    • Passenger Vehicles
    • Military Modernised Vehicles

     

    Automotive Current Sensors Market By Application

    • Residential Application
    • Commercial Application
    • Industrial Application
    • Military Application
    • High-Capacity User Application
    • Off the Road Vehicles

     

    Automotive Current Sensors Market By Class of Propulsion

    • Electric Vehicle
    • Hybrid Vehicle
    • Fossil Fuel Vehicle
    • Specialized Fuel Vehicle
    • Gas Based Vehicle

     

    Automotive Current Sensors Market By Material of Construction

    • Ceramic
    • Semi Metallic
    • Low Metallic NAO
    • Non-Asbestos Organic ( NAO )

     

    Automotive Current Sensors Market By Regional Classification

    • Asia Pacific Region – APAC
    • Middle East and Gulf Region
    • Africa Region
    • North America Region
    • Europe Region
    • Latin America and Caribbean Region

     

    AUTOMOTIVE CURRENT SENSORS MARKET RECENT TECHNOLOGICAL TRENDS

     

    SI no Timeline Company Developments
    1 November 2021 LEM A leader in electrical measurement solutions has announced its new introduction of a unique new high bandwidth(1MHz) open loop sensor capable of current sensing in any harsh environment.
    2 October 2021 Infineon  Infineon Technologies AG has launched its first automotive current sensor XENSIV TLE4972 for stable current measurements.
    3 June 2021 Melexis  Melexis reveals the Automotive 200-2000A Current sensors for automotive power-conversion applications.
    4 March 2021 LEM LEM has launched the new CDSR, a new leakage current sensor for Electric Vehicle Charging Stations.
    5 May 2020 KOHSHIN The new product of HP-PN series with rated current of 50A-600A has been launched by KOHSHIN.

     

    With the electrification of mobility and the transformation towards renewable energies, batteries are becoming an essential part of high availability and reliability systems such as energy grid storage and e-mobility vehicles. Representing a major share of the system cost; battery efficiency, energy density, and lifetime requirements are ever-increasing, pushing for constant innovation in the battery technologies.

     

    There has been recent development being integrated within the current sensor technologies, which incudes the Shunt based and Magnetic Based Current sensors. They detect the voltage drop across a precision resistor to estimate the current flowing through a shunt. There are certain drawbacks to using this resistive measure at high and low currents. It is possible that at low current levels, the output voltage clamping of the sensor interfaces will cause an overestimation of the currents.

     

    Magnetic based sensors are based upon latest integrations wherein, There’s no need for power dissipation because magnetic current sensors are contactless. Parameter adjustments and a combination of readout measurements can be used to compensate for sensor offsets caused by an imbalanced measuring bridge as well as temperature and stress effects.

     

    Functional safety requirements are increasing in several industries including automotive and high-density energy storage. The use of both technologies, shunt and magnetic, is becoming more and more popular. Furthermore, it strengthens the system’s variety, therefore minimising common flaws and hidden defects that are not visible to the naked eye.

     

    infographic: Automotive Current Sensors Market, Automotive Current Sensors Market Size, Automotive Current Sensors Market Trends, Automotive Current Sensors Market Forecast, Automotive Current Sensors Market Risks, Automotive Current Sensors Market Report, Automotive Current Sensors Market Share

     

     

    AUTOMOTIVE CURRENT SENSORS MARKET TRENDS

    New companies are entering the automotive current sensors market with innovative products and technologies. This is increasing competition in the market and driving down prices.

     

    Current sensors are used in a variety of advanced features and safety systems in vehicles, such as electric power steering, anti-lock braking systems (ABS), traction control systems (TCS), and electronic stability control (ESC). The increasing demand for these features is driving the demand for current sensors.

     

    New materials and technologies are being developed to improve the performance and reliability of current sensors. For example, gallium nitride (GaN) is a promising new material for current sensors, as it offers higher accuracy and reliability than traditional materials.

     

    Current sensors are becoming increasingly smaller and lighter, thanks to advances in manufacturing technology. This is important for automotive applications, where space and weight are at a premium.

     

    In engine and powertrain management systems, current sensors are expected to be used to monitor the performance of various engine and powertrain components, such as the alternator, starter motor, and fuel injectors. This information can be used to optimize the performance of the engine and powertrain, which can help to improve fuel economy and reduce emissions.

     

    Government regulations and incentives play a significant role in the global automotive current sensors market. These regulations and incentives can impact the demand for current sensors, the cost of current sensors, and the development of new current sensor technologies.

     

    The European Union’s CO2 emission standards: The European Union has set ambitious CO2 emission standards for new vehicles. These standards are driving the development of more efficient vehicles, which require more current sensors.

     

    The United States’ fuel economy standards: The United States has also set ambitious fuel economy standards for new vehicles. These standards are also driving the development of more efficient vehicles, which require more current sensors.

     

    The Chinese government’s subsidies for electric vehicles: The Chinese government offers subsidies for the purchase of electric vehicles. This is driving the adoption of electric vehicles in China, which require more current sensors than traditional vehicles.

     

    The Japanese government’s subsidies for research and development: The Japanese government offers subsidies for research and development in the automotive sector. This is driving the development of new automotive technologies, such as new current sensor technologies.

     

    AUTOMOTIVE CURRENT SENSORS MARKET NEW PRODUCT LAUNCH

     

    Melexis, a leading global microelectronics engineering firm, has unveiled next-generation current sensors for automotive power-conversion applications. Increased resolution, 3.3V or 5V operation, and integrated over-current detection circuitry are among the benefits they provide.

     

    The MLX91219 is a hall current sensor in the traditional sense. Currents in the range of 200A to beyond 2000A can be measured using a ferromagnetic C-core. The MLX91218 is a current sensor from IMC-Hall®.

     

    Currents in the range of 200A to 2000A can be measured using a flexible U-shield for crosstalk immunity. Both sensors have a signal-to-noise ratio (SNR) that is roughly 2 times higher than previous generations.

     

    The MLX91218 and MLX91219 provide over-current detection (OCD) circuitry that is generally implemented off-chip using an external window comparator, simplifying system design, saving board space, and lowering the bill of materials. During the first product configuration, the over-current threshold is established internally.

     

    The SOIC8 packaged goods contain an extra pin that allows an external voltage divider to be used to set the threshold voltage with more precision. With 2us and 10us reaction times, two indicator pins reveal the overcurrent state in reference to internal and external thresholds.

     

    Both sensor types provide a configurable analogue output that may be set to a fixed value or a ratiometric value that varies with the supplied voltage.

     

    Continental AG launches a new automotive current sensor with improved accuracy and reliability. The new sensor is designed for use in a variety of automotive applications, including electric vehicles, hybrid vehicles, and autonomous vehicles.

     

    TDK Corporation launches a new automotive current sensor with a built-in microcontroller. The new sensor is designed to simplify the design and integration of current sensing systems in automotive applications.

     

    Infineon Technologies launches a new automotive current sensor based on gallium nitride (GaN) technology. The new sensor offers a number of advantages over traditional current sensors, including improved accuracy, reliability, and efficiency.

     

    Allegro MicroSystems launches a new automotive current sensor with a bandwidth of 300 kHz. The new sensor is designed for high-speed current sensing applications, such as motor control and inverters.

     

    Melexis launches new automotive current sensors with a range of 200A to 2000A. The new sensor is designed for high-current sensing applications, such as battery management systems and electric vehicle inverters.

     

    AUTOMOTIVE CURRENT SENSORS MARKET COMPETITIVE LANDSCAPE

    For automobiles, sensors are used for controlling motor drive, direct current conversion control of motor regenerative current and detecting charged and discharged current of batteries of electric automobiles and hybrid cars, which play a very important role as core parts of control.

     

    Since current sensors for automotive applications need to guarantee high reliability, there has been continued usage of high-reliability parts, and rigorously manage traceability and in-process inspections.

     

    Koshin Electric Corporation has been imparting new technologies within the automotive requirements, to have better compliance and better standards maintained within the automotive systems of operations. It has recently introduced the Hall Effect Current sensor within the requirements, wherein this minimizes power loss of the target current circuit and has a simple structure with high reliability.

     

    A hall effect current sensor allows non-contact detection of direct and alternating currents, using a hall element, a magnet-electric converting element. This type of sensor have a hall element that is fit inside a gap in the core that surrounds the current bus. This hall element detects the magnetic field generated by the target current (I) and converts it into a voltage.

     

    Continental Automotive has been part of the new technologies of integration within the automotive systems of operations at varied levels of operations. In electric or hybrid cars, Continental’s shunt/magnetic-based current sensor is utilised in high-voltage Battery Management Systems (BMS).

     

    As well as providing information on current and temperature, the Current Sensor Module (CSM) also delivers information to the BMS Electronic Control Unit through a CAN interface.

     

    For high-voltage battery systems, the CSM has a compact design with an integrated bus bar, incorporating galvanic separation of high-voltage and low-voltage pathways. At the system level, it supports up to ASIL D.

     

    AUTOMOTIVE CURRENT SENSORS MARKET COMPANY PROFILE

    • Continental AG
    • Bosch
    • Denso
    • TDK Corporation
    • Infineon Technologies
    • Allegro MicroSystems
    • Melexis
    • Honeywell International
    • ON Semiconductor
    • STMicroelectronics
    • NXP Semiconductors
    • LEM International

     

    THIS AUTOMOTIVE CURRENT SENSORS MARKET REPORT WILL ANSWER THE FOLLOWING QUESTIONS

    1.     What are the key factors driving the growth of the market?
    2.     What are the key challenges facing the market?
    3.     What are the major trends in the market?
    4.     What are the different types of Global Automotive Current Sensors Market?
    5.     What are the major players in the market?
    6.     What are the government policies and regulations supporting the market?
    7.     What are the investment opportunities in the market?
    8.     What is the future outlook for the market?
    9.     What are the different manufacturing processes for the Automotive Current Sensors Market?
    10. What are the key new product launches in the global automotive current sensors market?
    11.     What are the safety considerations for the Automotive Current Sensors Market?
    12.   What is the impact of the electrification of vehicles on the demand for automotive current sensors?
    13.   What are the key challenges that need to be addressed for the wider adoption of automotive current sensors?
    14.   What is the market size of Automotive Current Sensors Market, and how the market is expected to grow from 2024 to 2030?
    15. What is the impact of the increasing demand for electric vehicles on the Global Automotive Current Sensors Market?
    16. What is the impact of the increasing demand for advanced driver assistance systems (ADAS) on the global automotive current sensors market?
    17. What are the factors that are influencing the price of the Global Automotive Current Sensors Market?
    18. How are automotive current sensors used in different vehicle systems?
    Sl no Topic
    1 Market Segmentation
    2 Scope of the report
    3 Abbreviations
    4 Research Methodology
    5 Executive Summary
    6 Introduction
    7 Insights from Industry stakeholders
    8 Cost breakdown of Product by sub-components and average profit margin
    9 Disruptive innovation in the Industry
    10 Technology trends in the Industry
    11 Consumer trends in the industry
    12 Recent Production Milestones
    13 Component Manufacturing in US, EU and China
    14 COVID-19 impact on overall market
    15 COVID-19 impact on Production of components
    16 COVID-19 impact on Point of sale
    17 Market Segmentation, Dynamics and Forecast by Geography, 2024-2030
    18 Market Segmentation, Dynamics and Forecast by Product Type, 2024-2030
    19 Market Segmentation, Dynamics and Forecast by Application, 2024-2030
    20 Market Segmentation, Dynamics and Forecast by End use, 2024-2030
    21 Product installation rate by OEM, 2023
    22 Incline/Decline in Average B-2-B selling price in past 5 years
    23 Competition from substitute products
    24 Gross margin and average profitability of suppliers
    25 New product development in past 12 months
    26 M&A in past 12 months
    27 Growth strategy of leading players
    28 Market share of vendors, 2023
    29 Company Profiles
    30 Unmet needs and opportunity for new suppliers
    31 Conclusion
    32 Appendix
     
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