Global Microelectromechanical Systems Microphones Market Research Report 2024-Competitive Analysis, Status and Outlook by Type, Downstream Industry, and Geography, Forecast to 2030
MEMS (Micro-Electro-Mechanical System) is a micro-electro-mechanical system. By integrating micro-sensors, micro-actuators, micro-power supplies, mechanical structures, signal processing, control circuits, high-performance electronic integrated devices, interfaces, communications and other subsystems into On a micron or even nanoscale device, the miniaturization, intelligence, low cost, low energy consumption, easy integration and high reliability of electronic products can be achieved. A MEMS (Micro Electro Mechanical System) microphone is an acoustic sensor that uses MEMS technology to convert an acoustic signal into an electrical signal. Simply put, a capacitor is integrated on a micro-silicon chip, which can be manufactured by surface mount technology, can withstand high reflow temperature, is easy to integrate with CMOS technology and other audio circuits, and has improved noise cancellation performance and good Excellent RF and EMI suppression performance. The full potential of MEMS microphones has yet to be tapped, but products using this technology have demonstrated many advantages in a variety of applications, especially in mid-to-high-end mobile phone applications.
Market Overview:The latest research study on the global Microelectromechanical Systems Microphones market finds that the global Microelectromechanical Systems Microphones market reached a value of USD 1182.33 million in 2023. It’s expected that the market will achieve USD 1796.83 million by 2029, exhibiting a CAGR of 7.22% during the forecast period.
Impact of the COVID-19 Epidemic on the Microelectronic Mechanical Systems Microphone Industry
The Joint Prevention and Control Mechanism of the State Council held a press conference on February 23, 2023, to introduce the situation of consolidating major achievements in epidemic prevention and control, announcing that my country has achieved a major and decisive victory in epidemic prevention and control and will continue to improve various Category B and B management measures. For more than three years, our country has always insisted on optimizing and adjusting prevention and control policies and measures in accordance with the times and circumstances, and efficiently coordinated epidemic prevention and control and economic and social development. It has successfully avoided the widespread spread of virus strains with strong pathogenicity and high fatality rates, and effectively The life safety and health of the people are protected. Thanks to the concerted efforts of the entire Party and people of all ethnic groups in the country to fight against the epidemic, our country has achieved a major and decisive victory in epidemic prevention and control. Currently, the global epidemic is still spreading, and the new coronavirus continues to mutate. The industry should focus on protecting health and preventing severe illness, compact the quartet responsibility, keep an eye on key links, continue to improve various measures of Class B and B management, and further improve the normalized prevention and control and emergency response capabilities.
The COVID-19 epidemic has affected the supply chain of the semiconductor industry and has had a dual impact on the MEMS microphone industry. On the one hand, changes in daily life such as remote working and travel restrictions have promoted the application of specific technologies in work and personal life. These applications include a variety of wearable devices, communication and telecommunications equipment, health management devices, and even telemedicine. This will once again drive the growth of sensor and MEMS microphone products that are rich in applications. On the other hand, for newly developed products and applications, due to the impact of the new crown epidemic on product development and supply chain, it will have an adverse impact on market introduction, creating additional obstacles for product commercialization. It can be seen that the impact of the new crown epidemic on the MEMS microphone industry is two-fold, which not only promotes the growth of product sales, but also adversely affects the development of new products and the supply chain.
The overall development trend of the industry
A microphone is an energy conversion device that converts sound signals into electrical signals. In the process of sound recording, editing, and transmission, sound pickup is the first link in the entire audio production. The quality of sound depends first on the quality of sound pickup, and the quality and efficiency of sound pickup mainly depends on the microphone. Therefore, the technological development of microphones plays a major role in improving audio quality. With the continuous pursuit of user experience and the innovation of various functions in consumer audio electronic equipment, as well as the trend-leading trend of popular products such as Apple AirPods, the industry’s performance requirements for MEMS microphones continue to increase. For example, directional noise reduction and far-field speech recognition functions require MEMS microphones with good consistency (sensitivity, phase, frequency response) and high signal-to-noise ratio (above 68dB); The following applications also put forward requirements, so MEMS microphones need to have a higher acoustic overload point (above 130dB) and better low-frequency response (15~20Hz to keep flat), in order to avoid distortion of the output signal, so as to ensure the noise reduction system normal work.
In addition, wearable devices also have a strong demand for reducing the power consumption of MEMS microphones, because low power consumption can prolong the use time of the device, which is conducive to the realization of the voice wake-up function of the device-Always On, Always Listening (Always on, always listening ”), for this reason, many MEMS microphone manufacturers have successively launched products with multiple modes (working mode, ultra-low power consumption mode, sleep mode). In some automotive-oriented audio applications (such as voice interaction between users and smart cars), higher requirements are placed on the operating temperature range of MEMS microphones, which need to reach -40°-125° (usually the temperature range of consumer products) Working temperature is -40°-85°). The performance requirements of MEMS microphones pose new challenges to the design, manufacture, packaging and testing of MEMS and ASIC chips. Enterprises need to adopt some new principles, new structures, new processes, and new materials (such as piezoelectric materials) to meet new application requirements. of new devices. With the development of artificial intelligence and Internet of Things technology, the application fields of MEMS microphones will continue to expand, and its industry development prospects are good.
Region Overview:Asia-Pacific has the highest growth rate of any region.
Company Overview:Goertek is one of the major players in the MEMS microphone market with a 34.92% share in 2023.
Goertek Co., Ltd. is a technologically innovative enterprise with a global layout. It is mainly engaged in the R&D, manufacturing and sales of sound and light precision components and precision structural parts, intelligent complete machines and high-end equipment. It has established comprehensive competitiveness in many fields. . Adhering to the concept of one-stop service to create greater value for customers, Goertek has been deeply involved in the upstream and downstream of the industrial value chain, and has reached stable, close and long-term strategic partnerships with internationally renowned customers in the field of consumer electronics. From upstream precision components and modules to downstream intelligent hardware, from molds, injection molding, surface treatment, to the independent design and manufacture of high-precision automatic lines, Goertek has created a highly vertically integrated precision machining and intelligent manufacturing platform in the value chain. platform to provide customers with comprehensive services.
Knowles is a leading global provider of advanced micro-acoustics, audio processing and precision device solutions serving the mobile consumer electronics, industrial, defense, aerospace medical and telecommunications markets.
Segmentation Overview:Among the different product types, the analog signal MEMS microphone segment is expected to contribute the largest market share in 2028.
Application Overview:In terms of application, the consumer electronics segment holds the largest share from 2018 to 2022.
Key Companies in the global Microelectromechanical Systems Microphones market covered in Chapter 3:Goertek
Sensitive core shares
Sanico Electronics
Knowles
Yutai technology
St Microelectronics
BSE
TDK-Invensense
AAC
Total electrical sound
Hosiden
Cirrus Logic
Bosch
In Chapter 4 and Chapter 14.2, on the basis of types, the Microelectromechanical Systems Microphones market from 2019 to 2030 is primarily split into:Analog signal MEMS microphone
Digital signal MEMS microphone
In Chapter 5 and Chapter 14.3, on the basis of Downstream Industry, the Microelectromechanical Systems Microphones market from 2019 to 2030 covers:Consumer Electronics
car
medicine
industry
other
Geographically, the detailed analysis of consumption, revenue, market share and growth rate, historic and forecast (2019-2030) of the following regions are covered in Chapter 8 to Chapter 14:North America (United States, Canada)
Europe (Germany, UK, France, Italy, Spain, Russia, Netherlands, Turkey, Switzerland, Sweden)
Asia Pacific (China, Japan, South Korea, Australia, India, Indonesia, Philippines, Malaysia)
Latin America (Brazil, Mexico, Argentina)
Middle East & Africa (Saudi Arabia, UAE, Egypt, South Africa)