世界各国のリアルタイムなデータ・インテリジェンスで皆様をお手伝い

マイクロコントローラとシングルボードコンピュータ 2016-2026年:用途、技術、関連企業、市場

Microcontrollers and Single-Board Computers 2016-2026

Applications, Technologies, Players, Markets

 

出版社 出版年月価格 ページ数図表数
IDTechEx
アイディーテックエックス
2016年6月お問い合わせください 137 65

サマリー

この調査レポートは、マイクロコントローラとシングルボードコンピュータの技術や関連企業を調査し、2026年までの市場動向を解説しています。

Description

A microcontroller is a tiny primitive programmable computer on a single IC. The related newer single board computer features system-on-a-chip, high-level I/O, graphics processing unit, video and connectivity. This report explains what is possible with them, costs, future evolution and widening applications. Forecasts are given for the electric vehicle, wearable technology and other markets involved and for the devices. AppleTV, smart cards, home & office, IoT and much more are shown driving rapid market growth. Lucid infographics analyse products, players and technology choices.

 



目次

Table of Contents

1. INTRODUCTION
1.1. Supercomputers and cloud computing
1.2. Laptop/desktop/server computers
1.3. System on a Chip (SoC)
1.4. Microcontroller units (MCUs)
1.5. Components
1.6. Anatomy of a generic device
1.7. Compute power
1.8. How are microcontrollers used?
1.9. Capabilities/limitations
1.10. Beyond microcontrollers

2. APPLICATIONS
2.1. Smart cards
2.2. Home and office
2.3. Automotive
2.3.1. Automotive: Spansion today
2.3.2. Autonomous vehicles tomorrow
2.4. DC-DC converter with MCU
2.5. Education
2.6. Wearable technologies
2.7. Internet of Things (IoT)
2.7.1. IoT: Key enabling technology
2.8. RFMod'sBeanIoT
2.9. Touch screen controllers
2.10. Motor control: BLDC
2.11. Motor control for traction: BLDC
2.12. Toy quadcopter
2.13. Motor control for traction: BLDC
2.14. Motor control: brushed DC
2.15. Motor control: stepper motors
2.16. Rotary joint
2.17. Sensor fusion
2.18. Artificial intelligence: deep learning
2.19. Quadcopters and other multirotors
2.20. 3D printers
2.21. Microwave ovens
2.22. Washing machines

3. TECHNOLOGIES
3.1. Core MCU technologies
3.2. MCU manufacturing processes
3.3. Optimising power consumption
3.4. Low power battery backup
3.5. MCU architectures
3.6. MCU components:
3.6.1. Memory
3.6.2. IO
3.7. MCU co-processors:
3.7.1. DSPs
3.7.2. FPGAs
3.7.3. PLDs and CPLDs
3.8. MCU software:
3.8.1. Operating systems
3.8.2. Programming languages
3.9. Case study: Texas Instruments
3.10. Adjacent technologies
3.11. Sensors
3.11.1. Inertial measurement units (IMUs)
3.11.2. Global Positioning System (GPS)
3.11.3. Depth cameras
3.12. Communications
3.13. Actuators
3.14. Artificial Intelligence

4. PLAYERS
4.1. MCU and Single-board computer vendors
4.1.1. Renesas Electronics
4.1.2. NXP+Freescale
4.1.3. Microchip+Atmel
4.1.4. Atmel
4.1.5. ST Microelectronics
4.1.6. Infineon Technologies
4.1.7. Texas Instruments (TI)
4.1.8. Cypress/Spansion
4.1.9. Samsung
4.1.10. Intel
4.1.11. Digispark
4.1.12. Arduino/Genuino
4.1.13. Apple
4.1.14. Google
4.1.15. Amazon
4.1.16. Raspberry Pi Foundation
4.1.17. Beagleboard
4.2. Some more MCU prototyping boards
4.3. And many more SBCs

5. TRENDS
5.1. MCU architectures
5.2. Consolidation on the ARM architecture
5.3. Open source hardware
5.4. Moore's Law
5.5. Prices equilibrating
5.6. Trends

6. MARKETS
6.1. MCU value chains
6.2. MCU players by total company revenue ($ billion)
6.3. Geographical breakdown
6.4. MCU market share by revenue ($ billion)
6.5. Proportionof revenue from MCUs
6.6. Cumulative genuine Arduino sales
6.7. Car forecast
6.8. Wearable technologies forecast
6.9. Internet of Things forecast
6.10. Microcontroller forecast
6.11. Raspberry Pi by geography
6.12. SBC installed bases
6.13. SBC market
6.14. Declining desktop PC sales
6.15. Single-board computer market forecast
6.16. Single-board computer forecast

 

 

ページTOPに戻る

あなたが最近チェックしたレポート一覧

  • 最近チェックしたレポートはありません。

お問合は、お電話またはWEBから承ります。お見積もりの作成もお気軽にご相談ください。

webからのお問合せはこちらのフォームから承ります

このレポートへのお問合せ

03-3582-2531

電話お問合せもお気軽に

<無料>メルマガに登録する

 

 

ページTOPに戻る