Marché mondial des MEMS et des capteurs – Tendances et prévisions de l’industrie jusqu’en 2029

Analyse et perspectives du marché

Les capteurs sont des appareils ou des machines utilisés pour détecter la présence de tout objet physique à proximité et envoyer des informations à ce sujet à l'extrémité réceptrice. L'appareil est principalement utilisé avec d'autres appareils électroniques. Toute quantité physique, telle que la pression, la force, la contrainte, la lumière, etc., peut être identifiée et convertie en un signal électrique souhaité. Ceux-ci sont classés en capteurs analogiques et numériques. D'autres incluent les capteurs de température, à ultrasons, de pression et de proximité. Ils consomment moins d'énergie et sont très performants. Les données sont collectées dans l'environnement à l'aide de capteurs pour l'Internet des objets.

Les progrès technologiques dans l'industrie des semi-conducteurs ont augmenté la fabrication de capteurs basés sur des applications et sur la technologie MEMS pour divers facteurs tels que l'infrastructure de réseau intelligent, les appareils électroménagers intelligents et autres. Cela a été rendu possible car la population est de plus en plus encline à utiliser les plateformes numériques, les services Internet et les services en ligne pour ses besoins quotidiens. La popularité croissante des appareils basés sur l'IoT dans les semi-conducteurs augmente la demande d'électronique grand public intelligente et d'appareils portables. On s'attend à ce que le marché mondial des MEMS et des capteurs connaisse un boom à l'avenir.

Actuellement, l'importance des dispositifs MEMS a considérablement augmenté, tout comme la croissance des capteurs inertiels, des capteurs à ultrasons et des services basés sur la taille des emballages à travers le monde. En outre, la demande croissante de MEMS et de capteurs dans divers secteurs a alimenté l'essor du marché. Data Bridge Market Research analyse que le marché mondial des MEMS et des capteurs connaîtra une croissance de 9,1 % au cours de la période de prévision de 2022 à 2029.

Définition du marché

Les MEMS sont des systèmes intégrés de dispositifs et de structures mécaniques et électromécaniques fabriqués à l'aide de techniques de microfabrication. Un dispositif MEMS est constitué de propriétés tridimensionnelles qui détectent et manipulent toute propriété physique ou chimique. Les composants de base utilisant des microcapteurs, des microactionneurs et d'autres microstructures sont fabriqués sur un seul substrat de silicium. Les composants de base des dispositifs MEMS comprennent des microcapteurs et des microactionneurs, qui convertissent une forme d'énergie en une autre. Un dispositif MEMS peut avoir des composants statiques ou mobiles dont la dimension physique varie de moins d'un micron à plusieurs millimètres.

Global MEMS and Sensors Market Dynamics

Drivers

• Growing demand for automotive sensors for security

The world has steadily shifted its preference from conventional vehicles to electric vehicles. In vehicles, sensors and MEMS-based devices are essential parts of the electronic control system in automobiles. Modern cars, such as hybrid electric vehicles and Plug-in Hybrid vehicles (PHEV), make thousands of decisions based on the data provided by various sensors that are interfaced with the vehicle's on-board computer system. The sensors are used for security purposes in automobiles as they can operate in harsh and rough conditions involving extreme temperatures, vibrations, and exposure to environmental contaminants.

• Rising demand for sensors in consumer electronics

The COVID-19 pandemic positively affected the consumer electronics market in 2020. The growth was driven by a lack of entertainment opportunities outside the home and the increasing number of employees working from home. Consumer electronics involves a lot of devices ranging from entertainment to recreation to communication.

Consumers are rapidly adopting new and emerging products such as wearables, voice-activated smart speakers, video game consoles, and automotive electronics. Sensors are used extensively in consumer electronics for monitoring, measuring, data logging, and control. Various applications in consumer electronics, such as television remote control systems, use infrared sensors to change the device-related settings.

• Increasing use of (micro-electro-mechanical-system) MEMS gyroscopes

MEMS gyroscopes have been used in many applications, including consumer, automotive, industrial, and military. MEMS gyroscopes have enabled exciting applications in portable devices, including optical image stabilization for cameras, dead reckoning, and GPS assistance. The advent of MEMS technology has controlled the development of miniaturized, low-cost, low-power sensors for various applications.

In recent years, there have been continuous improvements in semiconductors, passives, and interconnects to enable high-precision data acquisition and processing. MEMS sensors are accepted widely due to the demand for sensors that can tolerate more than 175 degrees. MEMS gyroscopes are used due to their high-temperature tolerance, smaller sizes, and low-cost maintenance.

• Growing applications of MEMS sensors in defense and military

Sensors for defense and military applications require proven and reliable technologies. Sensors are a critical part of technologies as these provide solutions to the defense ecosystem, including monitoring and execution.

The various systems, including drones, spacecraft, missiles, military vehicles, ships, marine systems, satellites, and rockets, need sensors because these systems are used to collect data from space. Different types of sensors, such as active, smart, intelligent, camera, infrared, and nano sensors are used in military applications. Active sensors provide sensing solutions in high-performance military control and measurement applications.

Opportunities

• Growing demand for smart grid infrastructure

Smart grid infrastructure needs sensors to monitor the power line temperature and weather conditions. Sensors monitoring electrical parameters over an entire electricity network infrastructure play a fundamental role in protecting the smart grid and improving the network's energy efficiency. Smart grids include protection devices for sensing electrical faults ranging from classic analogue electro-mechanics relays to modern intelligent electronic devices. Protection systems are essential in maintaining smart grids' power quality and reliability.

Smart grid infrastructure is characterized by high penetration of renewable energy sources available. It mainly focuses on duration indices such as the System Average Interruption Duration Index (SAIDI) or frequency indexes such as the System Average Interruption Frequency Index (SAIFI).

• Developments in environmental based sensors

Versatile environmental-based sensors for environmental condition monitoring are being adopted globally. Increasing developments in environmental-based sensors such as gas, temperature, and smoke sensors have artificial intelligence-based interfaces, which have led to the protection of environmental conditions. On an industrial scale, the technology has many benefits, such as continuous monitoring of chemical releases, and it will help reduce them to protect environmental resources.

Numerous environment-based sensors such as biosensors are being introduced into the market to monitor harmful environmental substances. Various companies are taking initiatives to manufacture and develop environment-based sensors

• Rise In investments for R&D of MEMS sensors

MEMS sensors have come a long way since they were first developed in 1971. It is a chip-based technology with sensors composed of a suspended mass between a pair of capacitive plates. Their sizes have drastically reduced while their efficiency has increased exponentially. However, they still have a long way to go as the demand for ultra-thin and flexible displays is increasing. Citing this, major corporations are spending heavily researching the future potential of MEMS sensors and developing them to turn them into reality.

MEMS sensors are used and operated in extreme temperatures. They are mostly used due to their shock and vibration resistance properties. Hence, to overcome many limitations such as precision factors and increase accuracy in measurement, a lot of R&D is being initiated to enhance this technology further to reduce the sensors' cost.

Covid-19 Impact on Global MEMS and Sensors Market

The COVID-19 pandemic positively affected the consumer electronics market in 2020. The growth was driven by a lack of entertainment opportunities outside the home and the increasing number of employees working from home. Consumer electronics involves a lot of devices ranging from entertainment to recreation to communication.

Consumers are rapidly adopting new and emerging products such as wearables, voice-activated smart speakers, video game consoles, and automotive electronics. Sensors are used extensively in consumer electronics for monitoring, measuring, data logging, and control. Various applications in consumer electronics, such as television remote control systems use infrared sensors to change the device-related settings.

Sensors in consumer electronics and household appliances include pressure, proximity, motion, temperature, flow and level, acoustic, touch, and image sensors. In addition, sensors have drastically changed as their sizes have decreased and their efficiency has increased multiple folds. A connected home has become a reality where a single gesture can control an entire house.

Recent Development

• In May 2022, Analog Devices Inc. and Synopsys collaborated to accelerate power system design. The collaboration provided model options for DC/DC ICs and µModule regulators. The partnership will help develop electronic system innovation and meet customers' design targets. This collaboration will help the companies to increase their customer base
• In May 2022, Honeywell International Inc. announced the expansion of its in-building communication portfolio. The expansion will help the company to develop the safety spectrum and will be able to provide scalable solutions. This will help the company to target new customers

Global MEMS and Sensors Market Scope

Global MEMS and sensors market is segmented on the basis of the type, material, packaging size, fabrication process, actuator type and end user. The growth amongst these segments will help you analyse meagre growth segments in the industries and provide the users with a valuable market overview and market insights to help them make strategic decisions for identifying core market applications.

By Type

• Inertial Sensor
• Ultrasonic Sensor
• Position Sensor
• Motion Sensor
• Microphone
• Bio/Chemical Sensor
• Optical Sensor
• Environmental Sensor

On the basis of the type, the global MEMS and sensors market is segmented into inertial sensors, ultrasonic sensors, position sensors, motion sensor, microphone, bio/chemical sensor, optical sensor and environmental sensor.

Material

• Polymer
• Metal
• Silicon
• Ceramic

On the basis of the material, the global MEMS and sensors market is segmented into polymer, metal, silicon and ceramic.

Packaging Size

•  Less Than 0.5 MM
•  0.5 MM To 0.9 MM
• More Than 0.9 MM

On the basis of packaging size, the global MEMS and sensors market is segmented into less than 0.5 mm, 0.5 mm to 0.9 mm and more than 0.9 mm.

Fabrication Process

• Deposition
•  Lithography
•  Etching

On the basis of the fabrication process, the global MEMS and sensors market is segmented into deposition, lithography and etching.

Actuator Type

• Optical
• RF
• Microfluidics
• Inkjet Head

On the basis of actuator type, the global MEMS and sensors market is segmented into optical, RF, microfluidics and inkjet head.

End User

• Consumer Electronics
• IT And Telecommunication
•  Automotive
• Aerospace
• Defense
• Medical
• Industrial And Manufacturing
• Smart Grid Infrastructure
• Smart Homes
• Gaming
• Others

On the basis of end user, the global MEMS and sensors market is segmented into consumer electronics, it and telecommunication, automotive, aerospace, defense, medical, industrial and manufacturing, smart grid infrastructure, smart homes, gaming and others.

Global MEMS and Sensors Market Regional Analysis/Insights

The MEMS and sensor market is analysed by type, material, packaging size, fabrication process, actuator type, end user as referenced above.

Les pays couverts par le marché mondial des MEMS et des capteurs sont les États-Unis, le Canada et le Mexique, l'Allemagne, la France, le Royaume-Uni, l'Italie, l'Espagne, les Pays-Bas, la Suisse, la Belgique, l'Autriche et le reste de l'Europe, la Chine, le Japon, la Corée du Sud, l'Inde, l'Australie, Singapour, la Thaïlande, la Malaisie, l'Indonésie, les Philippines et le reste de l'Asie-Pacifique, le Brésil, l'Argentine et le reste de l'Amérique du Sud. Afrique du Sud, Arabie saoudite, Émirats arabes unis, Égypte, Israël et le reste du Moyen-Orient et de l'Afrique.

L'Asie-Pacifique est la région dominante car elle possède les plus grandes industries de MEMS et de capteurs et elle produit également à moindre prix.  

La section pays du rapport fournit également des facteurs d'impact sur les marchés individuels et les changements de réglementation nationale qui ont un impact sur les tendances actuelles et futures du marché. Des points de données tels que les nouvelles ventes, les ventes de remplacement, la démographie des pays, l'épidémiologie des maladies et les tarifs d'importation et d'exportation sont quelques-uns des principaux indicateurs utilisés pour prévoir le scénario de marché pour les différents pays. En outre, la présence et la disponibilité des marques mondiales et les défis auxquels elles sont confrontées en raison de la concurrence importante ou rare des marques locales et nationales et l'impact des canaux de vente sont pris en compte lors de l'analyse prévisionnelle des données nationales.

Analyse du paysage concurrentiel et des parts de marché mondiales des MEMS et des capteurs

Le paysage concurrentiel du marché des MEMS et des capteurs fournit des détails sur le concurrent. Les détails comprennent un aperçu de l'entreprise, les finances de l'entreprise, les revenus générés, le potentiel du marché, les investissements dans la recherche et le développement, les nouvelles initiatives du marché, la présence mondiale, les sites et installations de production, les capacités de production, les forces et les faiblesses de l'entreprise, le lancement du produit, la largeur et l'étendue du produit, la domination des applications. Les points de données ci-dessus fournis ne concernent que l'orientation des entreprises concernant le marché des MEMS et des capteurs.

Certains des principaux acteurs opérant sur le marché des MEMS et des capteurs sont Panasonic Corporation of North America, Murata Manufacturing Co., Ltd, InvenSense, Honeywell International Inc., Infineon Technologies AG, STMicroelectronics, Texas Instruments Incorporated, NXP Semiconductors, Analog Devices, Inc., ROHM CO., LTD., Teledyne Technologies Incorporated., Robert Bosch GmbH., Sensata Technologies, Inc., DENSO CORPORATION., Hitachi, Ltd., Qualcomm Technologies, Inc., Allegro MicroSystems, Inc, MegaChips Corporation., Vishay Intertechnology, Inc entre autres.

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