High-end Accelerometer Market Outlook - 2030
High-end accelerometers are devices that can detect acceleration, vibration, tilt, and shock. They are used in a variety of settings, including industrial platform stabilizing systems. High-end accelerometers are generally used to calculate the amount and direction of acceleration in high-end applications. These systems are powered by piezoelectric, capacitive, and geophone technologies, which have lowered size and cost. Accelerometers offer a wide range of applications in industry and science.
Inertial navigation systems for aircraft and missiles use highly sensitive accelerometers. Accelerometers measure vibration in rotating equipment. They are also used for machinery health monitoring to report vibration and variations in time of shafts at bearings of rotating equipment such as turbines, pumps, fans, rollers, compressors, or bearing faults, which, if not addressed promptly, can result in costly repairs. They are found in tablet computers and digital cameras, and they keep images on screens upright. Accelerometers aid in the stabilization of unmanned aerial vehicles. All these factors are assisting the growth of high-end accelerometer market share globally.
The global high-end accelerometer market is segmented on the basis of type, axis type, application and region. Based on type, the market is divided into piezoelectric, piezo resistance and capacitive. On the basis of Axis type, the market is divided into one axis, two axis, three axis. In terms of application, the high-end accelerometer market is categorized into automotive applications, tactical applications, navigational applications, industrial application. Geographically, the market is analyzed across several regions such as North America, Europe, Asia-Pacific, and Latin America, Middle East & Africa (LAMEA).
Key players operating in the global high-end accelerometer industry include Physical Logic AG, Innalabs Limited, TE Connectivity, Sensonor AS, Bosch Sensortec GmbH, Tronics Microsystems, Thales SA, Analog Devices Inc., Honeywell International Inc., STMicroelectronics NV. These companies have adopted several strategies such as product launches, partnerships, collaborations, mergers & acquisitions, and joint ventures to strengthen their foothold in the global high-end accelerometer market.
Market Scope and Structure Analysis
COVID-19 Impact Analysis
The COVID-19 pandemic has slowed the growth of several sectors, including automobiles, oil and gas, and others. It has three major effects on the global economy: directly impacting production and demand, causing supply chain and market disruption, and having a financial impact on businesses and financial markets.
The COVID-19 outbreak has posed a significant strategic threat to electronics and manufacturing companies in recent months. The electronics and semiconductor manufacturing industries have been harmed by disruptions in raw material supply, temporary shutdown of manufacturing units, inadequate finance, and weak consumer demand. All these factors are limiting the growth of high-end accelerometer market size globally.
Top Impacting Factors
The rise in use of MEMS technology has helped to expand the application base for high-end accelerometers by reducing the size and power consumption of these devices without sacrificing performance. High-end accelerometers are also increasingly being employed in high-speed train and driverless vehicle navigation systems. These devices are commonly used to conduct shock and vibration tests to assess the performance of automobiles under stress.
The bias stability range, i.e., the amount of drift the sensor has from its output rate's mean value, high-end accelerometers for automotive applications is greater than that of industrial grade applications, and the working range varies depending on the intended end-applications. For accident prevention systems, for instance, the working range might be as high as 40g. During high-speed processes like cutting or milling, the higher vibration levels of automated machinery in high-end industrial applications are likely to harm crucial materials and diminish precision. In such instances, greater machine control necessitates greater stability. As a result, high-end accelerometers are widely used in these applications.
New Product Launches to Flourish the Market
In December 2020, TDK Corporation, a Japanese multinational electronics company that manufactures electronic materials, announced the InvenSense IAM-20680HP high-performance automotive monolithic 6-axis MotionTracking sensor platform, which includes the IAM-20680HP IMU MEMS sensor and the DK-20680HP developer kit for non-safety relevant vehicle applications.
The IAM-20680HP from InvenSense combines a 3-axis gyroscope with a 3-axis accelerometer in a tiny 3 x 3 x 0.75mm (16-pin LGA) device that is AEC-Q100 Grade 2 automotive approved. Molex, a US global connectivity and electronics solutions supplier, unveiled the first device in a new family of automotive active noise-canceling (ANC) sensors, an accelerometer-based road noise-canceling (RNC) sensor. These sensors will be crucial in decreasing low-frequency sounds that cause driver tiredness while combating undesirable road, wind, and HVAC car noise.
Surge in Usage in Navigation and Guidance Systems
High-sensitivity accelerometers are required for next-generation navigation and guidance systems, which will include tight coupling to existing GPS engines, pressure sensors, and platform stability for space applications. The motive for developing a MEMS-based inertial accelerometer for navigational applications stems from the desire to create a compact, low-cost, lightweight, and highly sensitive alternative to existing macro-scale solutions. The successful manufacture of a low-cost, high-sensitivity MEMS accelerometer leads to new consumer and military applications that are not possible with present technologies. High-end accelerometers, for instance, are used in personal portable navigators for military and consumer purposes, as well as GPS-denied navigation applications, such as in valleys, metropolitan areas, and within structures and caverns.
Key Benefits of the Report
- This study presents the analytical depiction of the high-end accelerometer market forecast along with the current trends and future estimations to determine the imminent investment pockets.
- The report presents information related to key drivers, restraints, and opportunities along with detailed analysis of the high-end accelerometer market share.
- The current market is quantitatively analyzed to highlight high-end accelerometer market growth scenario.
- Porter’s five forces analysis illustrates the potency of buyers & suppliers in the market.
- The report provides a detailed high-end accelerometer market analysis based on competitive intensity and how the competition will take shape in coming years
Questions Answered in High-end Accelerometer Market Research Report
- What are the leading market players active in the high-end accelerometer market opportunity?
- What are the current trends that will influence the market in the next few years?
- What are the driving factors, restraints, and opportunities in the high-end accelerometer market trends?
- What are the projections for the future would help in taking further strategic steps?
- Upcoming report specific FAQs examples:
- What is high-end accelerometer?
- What does high-end accelerometer allow organizations to achieve?
- Which technologies combine to make high-end accelerometer a critical organizational asset?
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- Which niches should companies associated with recent improvements establish a presence in?
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High-end Accelerometer Market Report Highlights
| Aspects | Details |
 By Type |
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 By Axis Type |
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 By Application |
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 By Region |
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 Key Market Players | Bosch GmbH, Safran Colibrys, Analog Devices Inc., Tronics Microsystems (EPCOS), Secret SA, Physical Logic Ltd, Thales Group, Innalabs Limited, Honeywell International Inc., Sensonor AS |
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