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5G Semiconductors: Fabricating the Future of Communications
5G Semiconductors: Fabricating the Future of Communications
Top Trends, Growth Strategies, and Strategic Analysis of the Current 5G Semiconductor Ecosystem
RELEASE DATE
15-Nov-2022
15-Nov-2022
REGION
Global
Global
Research Code: K841-01-00-00-00
SKU: TM00711-GL-MR_27065
$2,450.00
In stock
SKU
TM00711-GL-MR_27065
Description
This research service focuses on key semiconductor types enabling 5G connectivity in devices and network infrastructure. The key components included are Modem ICs/SoC, RFICs, power amplifiers (PA), filters, low noise amplifiers (LNAs), beamformer ICs, switches, and envelope trackers, among others. End-user applications include smartphones, network infrastructure (including small cells), fixed wireless access/customer premise equipment (FWA/CPE), and other emerging 5G areas in automotive, industrial, laptops, tablets, mining, medical, and AR/VR.
With various new and emerging 5G use cases, the study highlights the changing customer landscape. Top driving include the rapid increase in the adoption of compound semiconductors, accelerating 5G deployments, growing demand for 5G capable devices, and development in advanced chip fabrication and packaging technologies. The study also highlights key restraints, such as the ongoing geopolitical tensions, supply-chain disruptions, the venturing of end-user industries into chip design and manufacturing, and the need to strike a balance between price, technology, and capacity.
Research Highlights
- Market drivers and restraints
- The current global state of 5G
- Global semiconductor initiatives and implications on the 5G semiconductor landscape.
- The importance of RF chips in enabling 5G and discussion on the manufacturing and process technology for the same
- Analysis of the 5G semiconductor packaging technology
- The growth of compound semiconductor technology for 5G applications
- Comparative analysis of various semiconductor materials for 5G, such as GaN, InP, Si, and GaAs
- Analysis of key industry trends for 5G semiconductors, such as antenna in the package, active antenna technology, thermal management solutions, SiGe BiCMOS, 3D GaN, and Silicon-as-a-service business model
- Competitive analysis of key vendors offering Modem ICs and RFICs
- Vendor segregation based on end-user applications served and components offered
- Top growth opportunities for market stakeholders
Author: Navdeep Saboo
Table of Contents
Why Is It Increasingly Difficult to Grow?
The Strategic Imperative 8™
The Impact of the Top 3 Strategic Imperatives on the Fifth-generation (5G) Semiconductor Industry
Growth Opportunities Fuel the Growth Pipeline Engine™
Scope of Analysis
5G Semiconductors: Key End Users and Application Areas
Scope of Analysis
Scope of Analysis (continued)
Scope of Analysis (continued)
The Need for 5G Chipsets
5G Semiconductor Manufacturing Value Chain
Key Competitors in 5G Semiconductors Market
Growth Metrics
5G Semiconductors: Key Metrics by End User and Components
5G Semiconductors: Market Analysis
5G Semiconductors: Market Analysis (continued)
Growth Drivers
Growth Driver Analysis
Growth Driver Analysis (continued)
Growth Driver Analysis (continued)
Growth Driver Analysis (continued)
Growth Restraints
Growth Restraint Analysis
Growth Restraint Analysis (continued)
Growth Restraint Analysis (continued)
5G Deployments: State of Affairs, 2022
5G Deployments: State of Affairs, 2022 (continued)
Global 5G Adoption, 2021 and 2025
Market Analysis by Region
Global Semiconductor-focused Initiatives
Semiconductor Initiatives and Impact on the 5G Semiconductor Landscape
4G to 5G: A Paradigm Shift in Mobile Communication
Antenna in Package (AiP) for 5G
Evolution of RF FEM, Antenna, and Packaging Technology in Smartphones with Network Generations
AASs for mmWave Implementations
ETs for 5G RF PAs
Manufacturing Process Technology for Key 5G Semiconductors
Material Technology Trends for 5G Semiconductors
The Need For Effective Thermal Management in 5G Devices
SiGe BiCMOS in 5G RF Applications: Delivering the Best of Both Worlds
Evolution from 5G to 6G: Impact on the Semiconductor Landscape
Key Industries with Potential 5G Applications
5G Semiconductors, End-user Analysis: Smartphones
5G Semiconductors, End-user Analysis: Network Infrastructure
5G Semiconductors, End-user Analysis: FWA/CPE
5G Semiconductors, End-user Analysis: Others
Competitive Environment: 5G Semiconductors
Competitive Analysis
Products and Applications of Vendors
Products and Applications of Vendors
Key Participants in the 5G Semiconductor Value Chain
Top 5 Trends for Sustainability and the Circular Economy
UN Sustainable Development Goals
Key Sustainable Development Goals (SDGs) for 5G Semiconductors
Key SDGs for 5G Semiconductors (continued)
Key SDGs for 5G Semiconductors (continued)
Growth Opportunity 1: Move towards mmWave 5G Poised to Trigger Demand for Field-Programmable Gate Arrays (FPGAs)
Growth Opportunity 1: Move towards mmWave 5G Poised to Trigger Demand for Field-Programmable Gate Arrays (FPGAs) (continued)
Growth Opportunity 2: Better Thermal Management
Growth Opportunity 2: Better Thermal Management (continued)
Growth Opportunity 3: 3D GaN Technology
Growth Opportunity 3: 3D GaN Technology (continued)
Growth Opportunity 4: Advancements in RF Technologies
Growth Opportunity 4: Advancements in RF Technologies (continued)
Growth Opportunity 5: Smart City Initiatives and Varied Enterprise Applications
Growth Opportunity 5: Smart City Initiatives and Varied Enterprise Applications (continued)
Growth Opportunity 6: Strategic Collaborations
Growth Opportunity 6: Strategic Collaborations (continued)
Growth Opportunity 7: Si-as-a-Service Model
Growth Opportunity 7: Si-as-a-Service Model (continued)
List of Exhibits
Legal Disclaimer
This research service focuses on key semiconductor types enabling 5G connectivity in devices and network infrastructure. The key components included are Modem ICs/SoC, RFICs, power amplifiers (PA), filters, low noise amplifiers (LNAs), beamformer ICs, switches, and envelope trackers, among others. End-user applications include smartphones, network infrastructure (including small cells), fixed wireless access/customer premise equipment (FWA/CPE), and other emerging 5G areas in automotive, industrial, laptops, tablets, mining, medical, and AR/VR.
With various new and emerging 5G use cases, the study highlights the changing customer landscape. Top driving include the rapid increase in the adoption of compound semiconductors, accelerating 5G deployments, growing demand for 5G capable devices, and development in advanced chip fabrication and packaging technologies. The study also highlights key restraints, such as the ongoing geopolitical tensions, supply-chain disruptions, the venturing of end-user industries into chip design and manufacturing, and the need to strike a balance between price, technology, and capacity.--BEGIN PROMO--
Research Highlights
- Market drivers and restraints
- The current global state of 5G
- Global semiconductor initiatives and implications on the 5G semiconductor landscape.
- The importance of RF chips in enabling 5G and discussion on the manufacturing and process technology for the same
- Analysis of the 5G semiconductor packaging technology
- The growth of compound semiconductor technology for 5G applications
- Comparative analysis of various semiconductor materials for 5G, such as GaN, InP, Si, and GaAs
- Analysis of key industry trends for 5G semiconductors, such as antenna in the package, active antenna technology, thermal management solutions, SiGe BiCMOS, 3D GaN, and Silicon-as-a-service business model
- Competitive analysis of key vendors offering Modem ICs and RFICs
- Vendor segregation based on end-user applications served and components offered
- Top growth opportunities for market stakeholders
Author: Navdeep Saboo
| Industries | Test and Measurement Instrumentation |
|---|---|
| No Index | No |
| Is Prebook | No |
| Podcast | No |
| WIP Number | K841-01-00-00-00 |