At present it’s the era of IOT and this era has been a little integrated with all the functions bundled in a single chip. Analytics think that in future globally we will be connected by 20+ billion IOT devices through internet. IOT, Cloud services, users and things using internet to enable latest new use cases and new business startups models across multiple applications and markets. Totally there would be new ecosystem development to take place. The rising interest from clients for simpler and better shopping knowledge would drive the utilization of IoT in the retail application as it would help clients to decrease checkout times, encourage less demanding installment systems, and empower a similar cost analysis, of all the real end-utilize applications, car and transportation held the biggest share of the IOT chip showcase. The development of the car and transportation application was principally determined by the advancement of clever transportation frameworks and high potential for the development of associated autos. Cameras, Wi-Fi, batteries, touch sensors, baseband processors and memory chips these segments have made dazzling advances to stay aware of customer request to have sleeker, all the more capable gadgets consistently.
The IoT Chip Market is expected to be around US$ 27 Billion by 2027 at a CAGR of 13.2% in the given forecast period.
The major driving factors of IoT Chip Market are as follows:
The restraining factors of IoT Chip Market are as follows:
The IoT Chip Market is segmented on the lines of its hardware, end use applications and regional. Based on hardware segmentation it covers processor, sensor, connectivity IC, memory device, logic device. Based on end use application it covers wearable devices, healthcare, consumer electronics, building automation, industrial, automotive & transportation, bfsi, agriculture, retail, oil & gas, others. The IoT Chip Market on geographic segmentation covers various regions such as North America, Europe, Asia Pacific, Latin America, Middle East and Africa. Each geographic market is further segmented to provide market revenue for select countries such as the U.S., Canada, U.K. Germany, China, Japan, India, Brazil, and GCC countries.
This report provides:
1) An overview of the global market for IoT Chip Market and related technologies.
2) Analyses of global market trends, with data from 2019, estimates for 2020 and 2021, and projections of compound annual growth rates (CAGRs) through 2027.
3) Identifications of new market opportunities and targeted promotional plans for IoT Chip Market.
4) Discussion of research and development, and the demand for new products and new applications.
5) Comprehensive company profiles of major players in the industry.
REPORT SCOPE:
The scope of the report includes a detailed study of global and regional markets on IoT Chip Market with the reasons given for variations in the growth of the industry in certain regions.
The report covers detailed competitive outlook including the market share and company profiles of the key participants operating in the global market. Key players profiled in the report include Qualcomm Incorporated (U.S.), Texas Instruments Incorporated (U.S.), NXP Semiconductors N.V. (Netherlands), Intel Corporation (U.S.), Microchip Technology Inc. (U.S.), MediaTek Inc. (Taiwan), STMicroelectronics N.V. (Switzerland), Renesas Electronics Corporation (Japan), Huawei Technologies Co., Ltd. (China), NVIDIA Corporation (U.S.), Advanced Micro Devices, Inc. (U.S.), and Cypress Semiconductor Corporation (U.S.), Samsung Electronics Co., Ltd. (South Korea).Company profile includes assign such as company summary, financial summary, business strategy and planning, SWOT analysis and current developments.
The Top Companies Report is intended to provide our buyers with a snapshot of the industry’s most influential players.
The IoT Chip Market has been segmented as below: (Accordingly)
By Hardware Analysis:
By End Use Application Analysis:
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1 INTRODUCTION
1.1 Key Take Aways
1.2 Report Description
1.3 Markets Covered
1.4 Stakeholders
1.5 Research Methodology
1.5.1 Market Size
1.5.2 Market Share
1.5.3 Key Data Points From Secondary Sources
1.5.4 Key Data Points From Primary Sources
2 Research Methodology
2.1 Introduction
2.1.1 Secondary Data
2.1.1.1 Key Data From Secondary Sources
2.1.2 Primary Data
2.1.2.1 Key Data From Primary Sources
2.1.2.2 Key Industry Insights
2.1.2.3 Breakdown of Primaries
2.2 Demand-Side Analysis for the IoT Chip Market
2.2.1 Demand-Side Analysis
2.2.1.1 Chip Demand Driven By Internet of Things (IoT)
2.2.2 Supply-Side Analysis
2.3 Market Size Estimation
2.3.1 Bottom-Up Approach
2.3.2 Top-Down Approach
2.4 Market Breakdown and Data Triangulation
2.5 Research Assumptions
3 Executive Summary
4 Premium Insights
4.1 Attractive Opportunities in the IoT Chip Market
4.2 IoT Chip Market, By End-Use Application and Country
4.3 Life Cycle Analysis, By Region
4.4 IoT Chip Market, By Geography
5 Market Overview
5.1 Introduction
5.2 Market Segmentation
5.2.1 By Hardware
5.2.2 By End-Use Application
5.2.3 By Geography
5.3 Market Evolution of Internet of Things
5.4 Market Dynamics
5.4.1 Drivers
5.4.1.1 Increasing Demand for Application-Specific MCUs and Flexible Soc-Type Designs Owing to Growth of IoT
5.4.1.2 IPV6 Provides Better Security Solution Than IPV4 and ITS Adoption Leads to the Availability of More IP Address Space for the IoT Market
5.4.1.3 Growing Market of Connected and Wearable Devices
5.4.1.4 Growth of Low-Cost Smart Wireless Sensor Networks
5.4.1.5 Increasing IoT Investments
5.4.2 Restraints
5.4.2.1 Increasing Concerns Regarding Privacy and Security of Data
5.4.3 Opportunities
5.4.3.1 Government Funding to Promote IoT
5.4.3.2 Opportunities for Cross-Sector Collaborations
5.4.4 Challenges
5.4.4.1 Lack of Common Protocols and Communication Standards Across Platforms
5.4.4.2 High Power Consumption By Connected Devices
6 Industry Trends
6.1 Introduction
6.2 Value Chain Analysis
6.3 Porter’s Five Forces Analysis
6.3.1 Intensity of Competitive Rivalry
6.3.2 Threat of Substitutes
6.3.3 Bargaining Power of Buyers
6.3.4 Bargaining Power of Suppliers
6.3.5 Threat of New Entrants
7 IoT Chip Market, By Hardware
7.1 Introduction
7.2 Processor
7.2.1 Microcontroller (MCU)
7.2.2 Application Processor (AP)
7.2.3 Digital Signal Processor (DSP)
7.3 Sensor
7.3.1 Accelerometer
7.3.2 Inertial Measurement Unit (IMU)
7.3.3 Heart Rate Sensor
7.3.4 Pressure Sensor
7.3.5 Temperature Sensor
7.3.6 Blood Glucose Sensor
7.3.7 Blood Oxygen Sensor
7.3.8 Electrocardiogram (ECG) Sensor
7.3.9 Humidity Sensor
7.3.10 Image Sensor
7.3.11 Ambient Light Sensor
7.3.12 Flow Sensor
7.3.13 Level Sensor
7.3.14 Chemical and Gas Sensor
7.3.15 Motion and Position Sensor
7.4 Connectivity IC
7.4.1 ANT+
7.4.2 Bluetooth
7.4.3 Bluetooth Smart/Bluetooth Low Energy (BLE)
7.4.4 Zigbee
7.4.5 Wireless Fidelity (Wi-Fi)
7.4.6 Ethernet
7.4.7 Near-Field Communication (NFC)
7.4.8 Enocean
7.4.9 Cellular Network
7.4.10 Wireless Highway Addressable Remote Transducer (WHART)
7.4.11 Global Navigation Satellite System (GNSS) Module
7.4.12 Thread
7.4.13 Z-Wave
7.4.14 ISA100
7.5 Memory Device
7.5.1 Static Random-Access Memory (SRAM)
7.5.2 Dynamic Random-Access Memory (DRAM)
7.6 Logic Device
7.6.1 Field-Programmable Gate Array (FPGA)
8 Market, By End-Use Application
8.1 Introduction
8.2 Wearable Devices
8.2.1 Products Covered Under Wearable Devices Application
8.2.1.1 Activity Monitors
8.2.1.2 Smartwatches
8.2.1.3 Smart Glasses
8.2.1.4 Wearable Cameras
8.3 Healthcare
8.3.1 Products Covered Under Healthcare Application
8.3.1.1 Fitness and Heart Rate Monitor
8.3.1.2 Blood Pressure Monitor
8.3.1.3 Blood Glucose Meter
8.3.1.4 Continuous Glucose Monitor
8.3.1.5 Pulse Oximeter
8.3.1.6 Automated External Defibrillator
8.3.1.7 Programmable Syringe Pump
8.3.1.8 Wearable Injector
8.3.1.9 Multi-Parameter Monitor
8.4 Consumer Electronics
8.4.1 Products Covered Under Consumer Electronics Application
8.4.1.1 Refrigerator
8.4.1.2 Hi-Res Television
8.4.1.3 Washing Machine
8.4.1.4 Other Products
8.5 Building Automation
8.5.1 Products Covered Under Building Automation Application
8.5.1.1 Occupancy Sensors
8.5.1.2 Daylight Sensors
8.5.1.3 Smart Thermostats
8.5.1.4 IP Cameras
8.5.1.5 Smart Meters
8.5.1.6 Smart Locks
8.5.1.7 Smoke Detectors
8.5.1.8 Lighting Control Actuators
8.5.1.9 Gateways
8.6 Industrial
8.6.1 Products Covered Under Industrial Application
8.6.1.1 Industrial Motes
8.6.1.2 Self-Learning Industrial Robots
8.7 Automotive and Transportation
8.7.1 Products Covered Under Automotive and Transportation Application
8.7.1.1 Connected Cars
8.7.1.2 Intelligent Transportation Systems (ITS)
8.8 Banking, Financial Services, and Insurance (BFSI)
8.8.1 Products Covered Under BFSI Application
8.8.1.1 Mobile Point of Sale (Mpos)
8.8.1.2 Kiosks
8.9 Agriculture
8.9.1 Products Covered Under Agriculture Application
8.9.1.1 Wireless Sensors for Agriculture Application
8.10 Retail
8.10.1 Products Covered Under Retail Application
8.10.1.1 Smart Beacons
8.11 Oil and Gas
8.11.1 Products Covered Under Oil Ang Gas Application
8.11.1.1 Wireless Sensors for Oil and Gas
8.12 Others
9 IoT Chip Market, By Geography
9.1 Introduction
9.2 North America
9.2.1 U.S.
9.2.2 Canada
9.2.3 Mexico
9.3 Europe
9.3.1 U.K.
9.3.2 Germany
9.3.3 France
9.3.4 Rest of Europe
9.4 Asia-Pacific
9.4.1 China
9.4.2 Japan
9.4.3 South Korea
9.4.4 Rest of APAC
9.5 RoW
9.5.1 MEA (Middle East and Africa)
9.5.2 Latin America
10 Competitive Landscape
10.1 Overview
10.2 Market Ranking Analysis 2016: IoT Chip Market
10.3 Competitive Situations and Trends
10.3.1 New Product Launches and Developments
10.3.2 Partnerships, Collaborations, and Joint Ventures
10.3.3 Acquisitions
11 Company Profiles
11.1 Introduction
11.2 Huawei Technologies Co., Ltd.
11.3 Qualcomm Incorporated
11.4 NXP Semiconductors N.V.
11.5 Renesas Electronics Corporation
11.6 Nvidia Corporation
11.7 Mediatek Inc.
11.8 Microchip Technology Inc.
11.9 Intel Corporation
11.10 Stmicroelectronics N.V.
11.11 Samsung Electronics Co., Ltd.
11.12 Texas Instruments Incorporated
11.13 Advanced Micro Devices, Inc.
11.14 Cypress Semiconductor Corporation
The IoT Chip Market has been segmented as below: (Accordingly)
By Hardware Analysis:
By End Use Application Analysis:
By Regional Analysis
