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市場調查報告書

低功率能源採集MCU的全球市場:2018-2025年 (2018年版)

Global Study - Low Power Energy Harvesting MCU Market, 2018 - 2025 (Edition - 2018)

出版商 M14 Intelligence Research Pvt. Ltd. 商品編碼 912269
出版日期 內容資訊 英文 209 Pages
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低功率能源採集MCU的全球市場:2018-2025年 (2018年版) Global Study - Low Power Energy Harvesting MCU Market, 2018 - 2025 (Edition - 2018)
出版日期: 2018年08月01日內容資訊: 英文 209 Pages
簡介

低功率能源採集微控制器 (MCU) 市場,估計至2025年將超過5億美元。

本報告涵括全球低功率能源採集微控制器 (MCU) 市場,提供變化的能源採集產業動態,市場上競爭加劇,國家等級的能源採集MCU市場估計、預測,低功率能源採集MCU市場估計、預測,消費者取向、產業的電子設備的能源採集技術的滲透,各應用領域市場估計、預測等相關分析。

第1章 調查範圍、調查手法

第2章 產業動態的變化

  • 技術概要
  • 主要的優點、促進因素、課題

第3章 競爭評估

  • 企業簡介
    • STMicroelectronics
    • Cypress Semiconductor Corporation
    • NXP Semiconductors N.V.
    • Texas Instruments
    • Analog Devices
    • Microchip Technology Inc.
    • 富士通
    • Maxim Integrated
    • Silicon Laboratories
    • E-Peas
    • ON Semiconductors
    • Nordic Semiconductors
    • EM Microelectronics
    • ETA Compute
    • Ambiq Micro
    • PLSense
    • LAPIS Semiconductors
    • Ingenic Semiconductor
    • PsiKick
    • Seiko Epson
    • Dracula Technologies
  • 主要材料供應商
  • 近幾年的策略性發展

第4章 能源採集微控制器市場分析、預測

  • 市場估計、預測的前提條件
  • 低功率、超低功率能源採集微控制器市場:各應用領域
    • 穿戴式設備
    • 醫療設備、醫療保健設備
    • 智慧家庭、連網家庭
    • 智慧農業、精密農業
    • 智慧型手機
  • 低功率、超低功率能源採集微控制器的連接性解決方案
    • Bluetooth Low Energy (BLE)
    • 有線乙太網路
    • 使用ZigBee 及 MiWi通訊協定 的IEEE 802.15.4
    • Wi-Fi 通訊
    • Long range communication (LoRa)
  • 低功率、超低功率能源採集微控制器:感測器集線器,感測器網路及安全網路應用
  • 低功率、超低功率能源採集微控制器的地區市場分析
    • 美國
    • 歐洲
    • 日本
    • 中國

第5章 附錄

目錄

Low Power Energy Harvesting MCUs: Analysis on Low and Ultra-low Power MCUs by Applications - Wearable Devices, Medical/Healthcare Devices, Smart & Connected Homes, Precision Agriculture, IoT, Industrial, Wireless Sensor Networks, Sensor Hubs, and Security Networks; for Thermal, Solar, Kinetic, Vibration Energy Harvesting, across U.S., Europe, Japan, and China.

We estimate that low power energy harvesting MCUs market will cross half a billion dollar mark by 2025.

Currently, the low and ultra-low power microcontrollers are being used in all the industries owing to the need to higher battery life for consumer electronics product. However, there are very few instances of the use of energy harvesting technology in consumer electronics industry. By 2025, more than 100 million low power energy harvesting MCUs will be sold in various applications such as wearable devices, medical and healthcare devices, smart homes devices, precision agriculture devices. The growth will be driven with the introduction of 5G connectivity solutions, wireless sensor networks, wireless sensor hubs, security networks, Internet of Things especially in industrial applications.

Energy harvesting (EH) technology scavenges energy from one or more of naturally-occurring sources such as solar, thermal, kinetic, and vibration. The most promising technologies for harvesting energy from these sources are photovoltaic materials (for solar energy) piezoelectric materials (for mechanical energy) and thermoelectric/pyroelectric materials (for thermal energy).

The technology has been used for decades at macro levels however, recently the technology is spreading to more and more application areas particularly in applications such as wearable devices, smart homes, medical devices, smart agriculture, smartphones, and wireless sensor networks, among others. Wearable devices applications is currently a lead markets for the application of energy harvesting. In coming 5 - 7 years, the wireless sensor networks for smart homes, smart agriculture, building and home automation, and IoT will be the fastest growing markets for energy harvesting technology.

The report focuses on the below broader sections of the market:

1. Changing dynamics of the energy harvesting industry

  • Key benefits of low-power MCUs and impact analysis
  • Drivers, challenges, and opportunities in adoption of energy harvesting technology
  • Emerging trends in energy harvesting for sensor hub, sensor network, & security network

2. Increasing competition in the market

  • Energy Harvesting Electronics Market Ecosystem
  • Recent strategic developments and its impact
  • ODMs & competition
  • MCU suppliers & competition
  • Leading material suppliers and competition
  • Company profiles - Energy Harvesting MCUs

3. Energy Harvesting MCUs market estimation and forecasts - country level analysis

4. Low power energy harvesting MCUs market estimation and forecasts

  • Energy Harvesting MCU sales estimation and forecasts
  • Energy Harvesting MCUs sales estimation & Forecast, by Applications- Smart/connected homes, Medical & Healthcare Devices, Wearables, Smart/Precision Agriculture, Smartphones
  • Energy Harvesting MCU Connectivity Solutions- Bluetooth low energy, Wired Ethernet, IEEE 802.15.4 with ZigBee and MiWi protocols, Wi-Fi Communication, Long Range Communication
  • Energy Harvesting MCU Market, for Sensor Hub, Sensor Network, and Security Network Applications
  • Country/ region level vehicle sales analysis for energy harvesting MCUs- Japan, U.S., China, & Europe

5. Penetration of energy harvesting technology in consumer and industrial electronics devices

  • Global and country level energy harvesting technology market penetration in consumer electronics applications

6. Market estimation and forecast

  • Sales demand, Total Available Market (TAM) and Pricing trends of Energy Harvesting Microcontrollers Market for applications including- Smart/Connected Homes, Medical & Healthcare Devices, Wearables, Precision Agriculture, and Smartphones
  • Smart/Connected Homes: Security Devices and Solutions, Smoke Detectors, Thermostats, BTLE Devices, RF Powered Devices, Solar-power Harvesting, Energy Meters, Flow Meters
  • Medical & Healthcare Devices: Pulse Oximeter, Patient Monitoring, Blood Pressure Meters, Glucometers
  • Wearables: Fitness Monitors & Smart Watches
  • Smart/Precision Agriculture
  • Smartphones
  • Sensor Hub, Sensor Network, & Security Network Applications.

Table of Contents

Chapter 1: Scope and Methodology

1. Scope of the Study

2. Methodology

Chapter 2: Changing Industry Dynamics

1. Technology Overview

2. Key Benefits, Drivers, and Challenges

  • 2.1. Benefits of low-power MCUs and impact analysis
  • 2.2. Factors Driving Energy Harvesting Market
    • 2.2.1. The increasing demand for miniaturized, smart and low-energy wireless nodes in IoT industry
    • 2.2.2. Increasing need for green energy
    • 2.2.3. Growing demand for energy harvesting in various applications such as modern electronic systems
  • 2.3. Challenges in Energy Harvesting Market
    • 2.3.1. Optimization of energy consumption in wearables
    • 2.3.2. Initial cost of energy harvesting device
    • 2.3.3. Lack of standardization
  • 2.4. Opportunities in Energy Harvesting Market
    • 2.4.1. IIoT, the potential market for energy harvesting
    • 2.4.2. Ambient energy powered battery less cell phones

Chapter 3: Competition Assessment

1. Company Profiles

  • 1.1. STMicroelectronics
  • 1.2. Cypress Semiconductor Corporation
  • 1.3. NXP Semiconductors N.V.
  • 1.4. Texas Instruments
  • 1.5. Analog Devices
  • 1.6. Microchip Technology Inc.
  • 1.7. Fujitsu Group
  • 1.8. Maxim Integrated
  • 1.9. Silicon Laboratories
  • 1.1. E-Peas
  • 1.11. ON Semiconductors
  • 1.12. Nordic Semiconductors
  • 1.13. EM Microelectronics
  • 1.14. ETA Compute
  • 1.15. Ambiq Micro
  • 1.16. PLSense
  • 1.17. LAPIS Semiconductors
  • 1.18. Ingenic Semiconductor
  • 1.19. PsiKick
  • 1.2. Seiko Epson Corporation
  • 1.21. Dracula Technologies

2. Leading Material Suppliers

3. Recent Strategic Developments

  • 3.1. Merger & Acquisition:
  • 3.2. Partnership & Collaboration:
  • 3.3. Product Launches
  • 3.4. Other Developments (Expansion, Strategic Agreement, Alliance):

Chapter 4: Energy Harvesting Microcontrollers Market Analysis & Forecast

1. Assumptions for Market Estimation & Forecast

2. Low and Ultra-low Power Energy Harvesting Microcontrollers Market, by Applications

  • 2.1. Wearable Devices
  • 2.2. Medical and Healthcare Devices
  • 2.3. Smart and Connected Homes
  • 2.4. Smart and Precision Agriculture
  • 2.5. Smartphone

3. Low and Ultra-low Power Energy Harvesting Microcontrollers Connectivity Solutions

  • 3.1. Bluetooth Low Energy (BLE)
  • 3.2. Wired Ethernet
  • 3.3. IEEE 802.15.4 with ZigBee and MiWi protocols
  • 3.4. Wi-Fi Communication
  • 3.5. Long range communication (LoRa)

4. Low and Ultra-low Power Energy Harvesting Microcontrollers - Sensor Hub, Sensor Network, and Security Network Applications

5. Low and Ultra-low Power Energy Harvesting Microcontrollers Regional Market Analysis

  • 5.1. United States
  • 5.2. Europe
  • 5.3. Japan
  • 5.4. China

Chapter 5: Appendix

1. List of Acronyms

2. Secondary Sources