Emerging Growth Opportunities for Low-Power Integrated Circuits and Radio Frequency (RF) Technologies

Emerging Growth Opportunities for Low-Power Integrated Circuits and Radio Frequency (RF) Technologies

Low-Power Design Advancements Supported by Emerging RF Standards Accelerate Future Growth Potential in Internet of Things (IoT) Applications

RELEASE DATE
22-Nov-2021
REGION
Global
Deliverable Type
Technology Research
Research Code: DA1B-01-00-00-00
SKU: ES01197-GL-TR_25972
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Emerging Growth Opportunities for Low-Power Integrated Circuits and Radio Frequency (RF) Technologies
Published on: 22-Nov-2021 | SKU: ES01197-GL-TR_25972

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Power-efficient electronic devices capable of high-speed communication have become essential in today’s electronics-dominated world. Low-power integrated circuits (IC) and radio frequency (RF) technologies have evolved rapidly following the increase in portable electronics and internet of things (IoT) usage. Circuit design advancements, such as subthreshold and energy harvesting, could lengthen the device life cycle and ensure a “battery-free” future. Various RF technologies, such as Wi-Fi HaLow, LoRa (long range), and 5G, have emerged to cater to the growing demand for hassle-free data communication. Other technologies, such as beamforming, are gaining traction in enabling efficient 5G communication.

This Frost & Sullivan technology and innovation report offers insights into ongoing developments in low-power IC and RF industries. The research scope focuses on emerging design techniques and RF technologies, such as subthreshold and beamforming, opening up new avenues in these industries and playing a critical role in IoT and connected devices deployment. This research also highlights end-market applications that might evolve in the next two to five years.

Key Questions Addressed
• What is the significance of low-power ICs and RF technologies in today’s electronics ecosystem?
• What are the emerging technologies related to low-power ICs and RF?
• What factors drive opportunities for low-power ICs and RF technologies?
• What are the technology capabilities of subthreshold and beamforming?
o     Assessment of industry best practices
o     Intellectual property and funding scenarios
o     Growth opportunities and success factors
• Which companies are innovating in low-power IC and RF segments?
• What key applications are impacted by advancements in low-power ICs and RF technologies?

1.1 Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth

1.2 The Strategic Imperative 8™

1.3 The Impact of the Top Three Strategic Imperatives on Low-Power Integrated Circuits (IC) and Radio Frequency (RF) Industries

1.4 Growth Opportunities Fuel the Growth Pipeline Engine™

2.1 Scope of the Technology and Innovation Research

2.2 Research Methodology

2.3 Research Process and Methodology

2.4 Major Findings

3.1 Significance of Low-Power ICs in Electronics

3.2 Growth Drivers for the Low-Power IC Industry

3.3 Growth Restraints for the Low-Power IC Industry

3.4 Emerging Design Techniques in Low-Power ICs

3.5 Subthreshold Technology Overview and Patent Assessment of DVFS and Subthreshold Technologies

3.6 Active Participation from Leading Semiconductor Companies and Universities Accelerates R&D

3.7 VC Investments and Strategic Collaborations Enable Low-Power IC Growth

3.8 Innovators in Low-Power ICs for IoT Applications

4.1 RF Technologies Critical for High-Speed Communication

4.2 Growth Drivers for the RF Industry

4.3 Growth Restraints for the RF Industry

4.4 Emerging RF Technologies and Standards Support the Communication Ecosystem

4.5 Beamforming Technology Overview and Patent Assessment

4.6 Active Participation from Leading Communication Companies and Start-ups Accelerates R&D

4.7 VC Investments, Mergers and Acquisitions, and Strategic Collaborations Enable RF Technologies Growth

4.8 Innovators in RF Technologies

5.1 End Markets Driving the Demand for Low-Power ICs

5.2 Low-Power ICs Contribute to the Development of Cutting-Edge Medical, Home Automation, and IoT Devices

5.3 Application Segmentation of Low Power RF Technologies

5.4 Sub-1 GHz RF Communication Drives IoT Deployment

5.5 Radar and 5G Communication Play a Pivotal Role in Multiple Applications

6.1 Atmosic Technologies, US

6.2 Wiliot, Israel

6.3 Morse Micro, Australia

6.4 LAPIS Technology, Japan

6.5 Ambiq Micro, US

7.1 Growth Opportunity 1: Advancements in Low-Power ICs Lead to Efficient Battery Management in IoT Devices

7.1 Growth Opportunity 1: Advancements in Low-Power ICs Lead to Efficient Battery Management in IoT Devices (continued)

7.2 Growth Opportunity 2: Advancements in RF Technologies Drive Growth in the Automotive Sector

7.2 Growth Opportunity 2: Advancements in RF Technologies Drive Growth in the Automotive Sector (continued)

7.3 Growth Opportunity 3: Advancements in RF Technologies Boost High-Speed Communication

7.3 Growth Opportunity 3: Advancements in RF Technologies Boost High-Speed Communication (continued)

8.1 Key Contacts

9.1 Your Next Steps

9.2 Why Frost, Why Now?

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Power-efficient electronic devices capable of high-speed communication have become essential in today’s electronics-dominated world. Low-power integrated circuits (IC) and radio frequency (RF) technologies have evolved rapidly following the increase in portable electronics and internet of things (IoT) usage. Circuit design advancements, such as subthreshold and energy harvesting, could lengthen the device life cycle and ensure a “battery-free” future. Various RF technologies, such as Wi-Fi HaLow, LoRa (long range), and 5G, have emerged to cater to the growing demand for hassle-free data communication. Other technologies, such as beamforming, are gaining traction in enabling efficient 5G communication. This Frost & Sullivan technology and innovation report offers insights into ongoing developments in low-power IC and RF industries. The research scope focuses on emerging design techniques and RF technologies, such as subthreshold and beamforming, opening up new avenues in these industries and playing a critical role in IoT and connected devices deployment. This research also highlights end-market applications that might evolve in the next two to five years. Key Questions Addressed • What is the significance of low-power ICs and RF technologies in today’s electronics ecosystem • What are the emerging technologies related to low-power ICs and RF • What factors drive opportunities for low-power ICs and RF technologies • What are the technology capabilities of subthreshold and beamforming o Assessment of industry best practices o Intellectual property and funding scenarios o Growth opportunities and success factors • Which companies are innovating in low-power IC and RF segments • What key applications are impacted by advancements in low-power ICs and RF technologies
More Information
Deliverable Type Technology Research
No Index No
Podcast No
Author Sushrutha Katta Sadashiva
Industries Electronics and Sensors
WIP Number DA1B-01-00-00-00
Keyword 1 Low Power RF ICs Market
Keyword 2 Low-Power Integrated Circuits
Keyword 3 Emerging Technologies
Is Prebook No