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全球微控制器 (MCU) - 市场份额分析、行业趋势与统计、成长预测（2024 - 2029 年）

Global Microcontroller (MCU) - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)

出版日期: 2024年02月15日 | 出版商:

Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3个工作天内

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简介目录

2024年全球微控制器市场规模预计为314.5亿美元，预计到2029年将达到518.1亿美元，在预测期内（2024-2029年）CAGR为10.5%。

在工业 4.0 和互联技术的推动下，产业场景不断发展。製造商不断将新的远端功能整合到他们的产品中，用于即时监控的供应链组件和微控制器有助于轻鬆地将紧凑型控制单元连接到系统。

主要亮点

微控制器是指控制多种週边设备和嵌入式系统的紧凑计算单元，包括家用电器、机动车辆、机器人、工业设备和其他设备。该单元包括处理单元、输入/输出（I/O）连接埠、片上储存、无线通讯模组和几个其他整合模组，可引入这些模组来实现客製化功能。
越来越多地使用感测器来捕获资料以监控各种製程元件，这是微控制器的基本驱动力之一。微控制器针对特定用途进行定制，收集的资料经过处理并与流程链的其他方面共享。例如，公司期待整合雷达、光达和摄像头，以实现自动驾驶汽车和机器人的完整环境感知。这些感测器在专用于收集、处理和传输资料的微控制器的帮助下进行操作和连接。
此外，所需的传输速度和处理的资料量为属于不同架构规模的不同类型的微控制器腾出了空间。根据应用的需要，市场主要使用 8 位元、16 位元和 32 位元微控制器。本公司遵循晶圆直径 200 毫米等半导体製造标准，为业界提供客製化的即用型解决方案。
COVID-19 大流行见证了在家工作电子设备的使用增加，这将半导体製造单位的重点转移到生产更多设备。这使得人们的注意力从其他依赖微控制器和半导体晶片的重要产业（例如汽车和工业自动化）转移。该行业正在迅速分配供应链资源，以重振受影响的行业。这个过程应该持续到 2022 年和 2023 年中期，见证全球微控制器的美好前景。

微控制器MCU市场趋势

汽车应用推动 MCU 产业发展

在汽车行业引入新时代技术鼓励了半导体和微控制器的参与。根据 IEEE Explore 的数据，汽车中平均使用超过 50 个微控制器单元 (MCU)。互联技术、人工智慧、自动驾驶和其他物联网服务的包含为 MCU 的部署创造了巨大的需求。
MCU 可以根据架构的多功能性和功能根据任何要求进行配置。输入/输出 (I/O) 连接埠、微处理器、连接选项、技术平台、操作范围、功耗和其他差异化因素增加了汽车中 MCU 的可自订性和使用灵活性。每个 MCU 都有专门的用途。
随着燃油价格飙升和气候变化，汽车製造商正在电子控制单元 (ECU)（微控制器的形式）的帮助下，透过即时监控车辆的燃油效率来优化燃油消耗。 ECU 是现代车辆的中央控制单元，负责监控各种车辆功能，如加油、资讯娱乐、远端功能、自动驾驶功能、停车辅助和电子驾驶辅助（如车道维持辅助、停车辅助功能等）。，和别的。因此，ECU 需要高度可靠和强大的硬体来运行相容的平台和软体，以实现所需的关键功能。
自动驾驶车辆和感知器驱动的安全功能（例如自动煞车辅助、防撞系统等）是未来汽车的驱动因素，其中包含 MCU。装有与每个功能相关的感测器的 MCU 提供本地运算，然后进行临时资料储存并传输到主控制单元或远端伺服器。
具有汽车感知器的 MCU 还需要更强大、更可靠的质量，以确保在各种环境限制下获得准确的结果和操作。例如，2022 年 4 月，本田选择瑞萨电子的 R-Car 和 RH850 用于 Honda SENSING 360 全方位安全和驾驶员辅助系统。 40 nm 製程 MCU 为先进汽车应用提供了良好的嵌入式安全性、低功耗和高可扩展性。

亚太地区将成为市场成长最快的地区

亚太地区已成为半导体製造和半导体设备的重要中心。该地区是一些最着名的电子和汽车製造公司的所在地。因此，该领域透过微控制器的各种应用（如汽车、工业自动化、製药、消费性电子、机器人和其他最终用户产业）做出了重大贡献。
中国是最大的製造大国之一，在许多行业运营的製造单位数量方面占据主导地位。随着中美贸易战的爆发，中国最近致力于推动国内微控制器製造。因此，本土厂商紧接着汽车电动化等大规模政策，对MCU产生较高需求，带动国产MCU製造。
亚太地区由主要合约半导体製造商组成，例如台积电 (TSMC)。台积电生产的微控制器占全球重要市场参与者（如恩智浦半导体、德州仪器、意法半导体等）销售量的70% 以上。其他地区製造商包括富士康、联发科、高通等，为该地区的增长做出了重大贡献。
该地区的公司正在寻求不断的创新和升级，以跟上全球微控制器的工业发展。例如，日本半导体製造商瑞萨电子宣布，到 2023 年，对製造能力的投资将增加 50% 以上。该公司将专注于生产更多高端微控制器以及汽车和电子产品的其他重要组件。瑞萨电子的目标是透过在晶片代工厂采购更多的外包生产线，每月生产 40,000 片 200 毫米晶圆。

微控制器MCU行业概况

由于产品的广泛可用性，微控制器的广泛应用加剧了主要市场参与者之间的激烈竞争。主要供应商都在产品不断演变的过程中，采取不同的策略来占领市场。玩家们期待与其他品牌进行策略合作并共同开发产品，以提出解决问题的解决方案。

2022 年 5 月 - NXP Semiconductors 的多协定 i。 MX RT 交叉微控制器具有用于网路的整合时间敏感开关，统一了工业物联网通讯。恩智浦半导体宣布推出新的 i. MX RT1180 交叉微控制器。它是首款整合 Gb 时间敏感网路 (TSN) 交换机的微控制器，可实现工业即时和时间敏感通信，支援多种通讯协定。它旨在弥合现有工业和工业 4.0 系统之间的差距。 i.MX RT1180 提供所需的连接，支援多种协定。为了实现这一目标，需要在工厂的所有边缘建立统一且安全的工业物联网通讯环境。
2022 年 4 月 - 国际半导体供应商意法半导体正在为电子应用产业的客户提供服务。全球企业级无线连接解决方案一站式供应商 Seong Ji Industrial 宣布推出 SeongJi 的 LSM 模组系列，该系列采用 ST 的 STM32WL，适用于 sub-GHz LPWAN。该解决方案标誌着世界上第一个 Sigfox 和 LoRa 系统单晶片 (SoC)。 LSM100A、LSM110A 和 LSM200A 模组由 STM32WL 提供支持，兼具低功耗、小尺寸和成本效益，可优化 sub-GHz 无线连接，满足广泛的工业和消费应用需求。此模组支援 Sigfox 和 LoRa LPWAN 技术。

额外的好处：

Excel 格式的市场估算 (ME) 表
3 个月的分析师支持

公司简介
- Cypress Semiconductor Corporation
- Infineon Technologies AG
- Microchip Technology Inc.
- NXP Semiconductors
- Renesas Electronics Corporation
- STMicroelectronics
- Texas Instruments Incorporated
- Toshiba Electronic Devices & Storage Corporation
- Intel Corporation
- Zilog, Inc.
- Analog Devices, Inc.
- Broadcom Inc.
- ON Semiconductor

第 8 章：投资分析

第 9 章：市场的未来

简介目录

Product Code: 90626

The Global Microcontroller Market size is estimated at USD 31.45 billion in 2024, and is expected to reach USD 51.81 billion by 2029, growing at a CAGR of 10.5% during the forecast period (2024-2029).

The industry scenario is constantly evolving, driven by Industry 4.0 and connected tech. Manufacturers are continually integrating new remote features to their products, and supply chain components for real-time monitoring and microcontrollers facilitate the ease of attaching compact control units to the systems.

Key Highlights

Microcontroller refers to compact computing units that control several peripherals and embedded systems, including home appliances, motor vehicles, robots, industrial equipment, and other devices. The unit comprises a processing unit, Input/Output (I/O) ports, on-chip storage, wireless communication modules, and several other integrative modules, which can be introduced for achieving the custom functionalities.
The increase in the use of sensors for capturing data for monitoring various process elements is one of the fundamental driving forces for microcontrollers. The microcontroller is customized for specific usage, and the collected data is processed and shared with other aspects of the process chain. For instance, companies are looking forward to integrating RADAR, Lidar, and cameras to achieve a complete sense of the environment for autonomous vehicles and robots. These sensors are operated and interfaced with the help of microcontrollers dedicated to collecting, processing, and transferring data.
Furthermore, the required transfer speed and the amount of data processed make room for different types of microcontrollers belonging to different architecture scales. The market majorly uses 8-bit, 16-bit, and 32-bit based microcontrollers depending upon the need of the application. Companies offer customized and ready-to-use solutions for industries, following the semiconductor manufacturing standards of wafer diameter like 200 mm.
The COVID-19 pandemic witnessed an increment in the use of Work-from-Home electronics equipment, which shifted the focus of semiconductor manufacturing units to produce more equipment for the same. This turned the focus from other vital industries relying on microcontrollers and semiconductor chips, like automotive and industrial automation. The industry is rapidly distributing the supply chain allocation for reviving the affected industries. The process should follow through 2022 and mid-2023, witnessing promising prospects for microcontrollers globally.

Microcontroller MCU Market Trends

Automotive Applications to Drive the MCU Industry

Introducing new-age technology in the automotive industry has encouraged the involvement of semiconductors and microcontrollers. According to IEEE Explore, an average of more than 50 Microcontroller Units (MCUs) are used in automobiles. The inclusions of connected tech, AI, autonomous driving, and other IoT services have created enormous demand for the deployment of MCUs.
The MCUs can be configured per any requirement based on the architecture's versatility and functionality. The input/output (I/O) ports, microprocessor, connectivity options, technological platform, range of operation, power consumption, and other differentiating factors add to the customizability and flexibility of use for the MCUs in automobiles. Each MCU serves a dedicated purpose.
In the wake of surging fuel prices and climate change, carmakers are optimizing fuel consumption by monitoring the fuel efficiency of vehicles in real-time with the help of Electronic Control Units (ECUs), which are forms of microcontrollers. An ECU is the central controlling unit in modern vehicles responsible for monitoring various vehicular functions like fueling, infotainment, remote functionality, autonomous driving functions, parking aids, and electronic driving aids (like lane-keep assist, park-assist features, etc.), and others. Hence, ECUs demand highly reliable and robust hardware to run compatible platforms and software to achieve the required crucial functions.
Autonomous vehicles and sensor-driven safety features like automatic brake assist, collision avoidance systems, etc., are the driving factors in the future of automobiles, incorporating MCUs. The MCUs housing sensors related to each function offer local computing followed by temporary data storage and transfer to the master controlling units or remote servers.
MCUs with automobile sensors also demand more robust and reliable quality promising accurate results and operation in various environmental constraints. For instance, in April 2022, Honda opted R-Car and RH850 by Renesas Electronics for use in the Honda SENSING 360 omnidirectional safety and driver assistance system. The 40 nm-process MCU provides good embedded security at low power consumption and high scalability for advanced automotive applications.

Asia Pacific to Exhibit the Fastest Growth in the Market

The Asia Pacific has emerged as a significant hub for semiconductor manufacturing and semiconductor-based devices. The region is home to some of the most prominent electronics and automotive manufacturing companies. Hence, the area contributes significantly through various applications of microcontrollers like automotive, industrial automation, pharmaceutical, consumer electronics, robotics, and other end-user industries.
China is one of the largest manufacturing giants dominating the region in the number of manufacturing units operational for many industries. With the US-China Trade war, China has been lately focussing on motivating domestic manufacturing of microcontrollers. Hence, local manufacturers are following large-scale policies of vehicle electrification and others, creating high demands for MCUs, and boosting domestic MCU manufacturing.
APAC comprises chief contract-based semiconductor manufacturers like Taiwan Semiconductor Manufacturing Company (TSMC). TSMC accounts for manufacturing more than 70% of the global microcontrollers sold by significant market players, like NXP Semiconductors, Texas Instruments, STMicroelectronics, etc. Other regional manufacturers comprise Foxconn, MediaTek, Qualcomm, and others, contributing significantly to the region's growth.
Companies in this region are looking at constant innovation and upgrades to keep up with global microcontrollers' industrial evolution. For instance, Japanese semiconductor manufacturer Renesas Electronics announced a higher investment in manufacturing capacity by more than 50% by 2023. The company will focus on producing more high-end microcontrollers and other vital components for cars and electronics. Renesas aims for 40,000 200mm wafers a month by procuring more lines for outsourced production at chip foundries.

Microcontroller MCU Industry Overview

With their wide-scale availability of offerings, the wide range of applications of microcontrollers contributes to intense rivalry among the key market players. The major providers are in the process of the constant evolution of products, following different strategies to capture the market. The players are looking forward to strategic collaboration with other brands and joint product developments for coming up with problem-solving solutions.

May 2022 - NXP Semiconductors' Multi-Protocol i. MX RT crossover microcontroller, featuring an integrated time-sensitive switch for networking, unifies Industrial IoT Communication. NXP Semiconductors announced its new i. MX RT1180 crossover microcontroller. It is the first microcontroller with an integrated Gb time-sensitive networking (TSN) switch, allowing both industrial real-time and time-sensitive communications, supporting multiple communications protocols. It aims to bridge the gap between existing industrial and Industry 4.0 systems. The i.MX RT1180 provides the required connectivity, supporting multiple protocols. To accomplish this, driving a unified and safe industrial IoT communication environment at all edges of the plant.
April 2022 - STMicroelectronics, an international semiconductor provider, is serving customers across the electronics applications industry. Seong Ji Industrial, a global one-stop supplier of enterprise-grade wireless connectivity solutions, announced the LSM module series from SeongJi powered by ST's STM32WL for sub-GHz LPWAN. The solution marks the world's first Sigfox and LoRa System-on-Chip (SoC). The LSM100A, LSM110A, and LSM200A modules, powered by STM32WL, combine low power consumption, small size, and cost efficiency to optimize sub-GHz wireless connectivity catering to a broad spectrum of industrial and consumer applications. The modules support both Sigfox and LoRa LPWAN technologies.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumption And Market Definition
1.2 Scope of the study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Bargaining Power Of Suppliers
- 4.2.2 Bargaining Power Of Buyers
- 4.2.3 Threat Of New Entrants
- 4.2.4 Threat Of Substitutes
- 4.2.5 Intensity Of Competitive Rivalry
4.3 Value Chain Analysis
4.4 Assessment of the Impact of Covid-19 on the Market
4.5 Technology Snapshot

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Emergence of Internet of Things (IoT)
- 5.1.2 Increasing digitalization across industries
5.2 Market Challenges/Restraints
- 5.2.1 Disruptions in supply chain
- 5.2.2 Declining prices of microcontrollers in recent years

6 MARKET SEGMENTATION

6.1 Segmentation - By Product
- 6.1.1 8-bit
- 6.1.2 16-bit
- 6.1.3 32-bit
6.2 Segmentation - By Application
- 6.2.1 Aerospace and Defense
- 6.2.2 Consumer Electronics and Home Appliances
- 6.2.3 Automotive
- 6.2.4 Industrial
- 6.2.5 Healthcare
- 6.2.6 Data Processing and Communication
- 6.2.7 Other End-user Industries
6.3 Segmentation - By Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia-Pacific
- 6.3.4 Rest of the World

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 Cypress Semiconductor Corporation
- 7.1.2 Infineon Technologies AG
- 7.1.3 Microchip Technology Inc.
- 7.1.4 NXP Semiconductors
- 7.1.5 Renesas Electronics Corporation
- 7.1.6 STMicroelectronics
- 7.1.7 Texas Instruments Incorporated
- 7.1.8 Toshiba Electronic Devices & Storage Corporation
- 7.1.9 Intel Corporation
- 7.1.10 Zilog, Inc.
- 7.1.11 Analog Devices, Inc.
- 7.1.12 Broadcom Inc.
- 7.1.13 ON Semiconductor