Report Code: CMI18670

Category: Technology

Report Snapshot

CAGR: 78.11%
1523.11M
2021
2898.11M
2022
77,975M
2030

Source: CMI

Study Period: 2024-2033
Fastest Growing Market: Asia-Pacific
Largest Market: Europe

Major Players

  • LairdTech
  • Pentair Thermal Management
  • Alcatel-Lucent
  • Others

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Reports Description

According to Custom Market Insights (CMI), The Global 5G Devices Thermal Management Technology Market size was estimated at USD 1523.11 million in 2021 and is expected to reach USD 2898.11 million in 2022 and is expected to hit around USD 77,975 million by 2030, poised to grow at a compound annual growth rate (CAGR) of 78.11% from 2022 to 2030.

The fifth generation of mobile networks, or 5G, represents a considerable advancement over the current 4G LTE networks. To fulfill the rapidly expanding data and connection demands of today’s advanced, densely populated society, 5G is being developed. It delivers three significant advancements. To begin with, it offers larger channels to hasten data downloads and uploads. Additionally, it lowers latency, which enhances response times.

Additionally, it links many more devices simultaneously, enabling additional sensors and intelligent gadgets. Multiple, multi-element antennas are necessary for 5G. Forced air and liquid cooling are the methods for controlling the temperature of antennas. Active cooling systems using fans or pumps can be more complicated to maintain than passive cooling systems, despite being effective at removing heat. Moreover, all 5G devices include radio units, active antennas, and other parts that can fit more of them in a smaller amount of space. Due to the high-power component configuration, more energy must be used, which increases heat production. Components may burn out due to the increasing heat, which would seriously affect the entire network.

Additionally, overheating devices may cause performance degradation or failure, leading to network problems, outages, and downtime. Making sure that 5G devices have effective heat dissipation is crucial since this problem might greatly impact users’ personal and professional lives. To avoid performance deterioration and device failure, 5G technology must properly disperse heat, whether for 5G antenna thermal or smartphone thermal management.

The methods used to monitor and control the excessive heat produced by electronic components and circuits are known as thermal management technologies. It entails using different substrates in electrical devices for effective heat dissipation. Adhesive and non-adhesive materials, including thermal cushions, gap fillers, phase change materials (PCMs), and oil, are some of the frequently utilized thermal management materials. When installing and calibrating different conduction, convection, sophisticated, and hybrid cooling systems for consumer gadgets, servers, and data centers. They are widely used in various sectors, including automotive, military, aerospace, and telecommunications, and help minimize malfunctions and lengthen the operating life of the equipment.

Thermal control is difficult, despite its ability to deliver improved efficiency and output power. In reality, the heat produced without an effective thermal framework might stress a GaN device and reduce its RF performance. For instance, the gain, output power, and efficiency of a thermally constrained GaN device may be decreased. Additional heat stress may eventually result in reliability problems.

Growth Factors

All 5G networks aim to be reliable, and thermal interface materials perform well. Materials with good thermal performance are needed to increase heat transfer capabilities and qualities and ensure that they can meet ever-increasing reliability standards. Effective temperature management is crucial to maintain the dependability of 5G technology and increase component lifespans. This can be more difficult because of the increased component power needed compared to 3G and 4G. Various aspects drive the market for thermal management technologies in 5G devices.

The market is anticipated to be driven by the rising need for heat dissipation in 5G gadgets: 

Power densities have significantly increased due to developments in the electronics sector, which has sped up the creation of smaller, more intelligent goods. Shortly, industry development is anticipated to be driven by the growing need for sophisticated heat dissipation solutions in these smaller items. The old electronic and electrical business has embraced technology in recent years, and now customer wants and requirements are what guide product development.

The sector met the need by innovating, offering systems with more power, and attending to consumer preferences. Over the past several years, chip-cooling technologies have changed to handle the rise in heat flow. Manufacturers are developing advanced cooling systems based on multi-phase heat transfer technologies. Technologies like jet impingement mechanisms, cold plates, and heat vapor chambers have completely changed the way these systems operate in the future.

The demand for high-power and efficient devices has made more heat generation, and their dissipation is needed. Hence, the 5g thermal management technology market is expected to increase.

IoT device proliferation and edge computing use are on the rise: 

Large amounts of data may be processed near the data source owned by edge computing. Edge computing enables real-time analysis with quicker reaction times while enhancing overall performance and dependability. Edge computing also aids in lowering worries about security and privacy. These gadgets are producing an ever-increasing amount of data.

The demand for faster data speeds is anticipated to rise with the demand for edge computing and the volume of data generated by IoT devices. 5G technologies will make unmatched data rates possible, enhancing real-time data processing capabilities and the entire user experience. With millisecond reaction times for devices, 5G connectivity is predicted to be 1000 times quicker than 4G. The high-power generating devices will have heat problems that need to be altered. The ongoing demand and the need for high-speed devices are expected to gain traction in the 5G thermal management technology market during the forecast period.

Global 5G Devices Thermal Management Technology Market 2023 – 2032 (Component)

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5G devices thermal management technology market segmentation.

5G devices thermal management technology Market, a segment based on Product

According to Product, the category of thermal interface materials is predicted to expand at the highest CAGR and have a monopoly position in the future. To improve heat conduction across the interfaces between the heat source and the heat sink, thermal interface materials (TIMs) are frequently utilized in electronic packaging. To cover the gaps and uneven holes on the surface of the electronic components, thermal interface materials have typically been employed in all heat dissipation modules. More crucial concerns with the quest for high-power performance in electronic devices include material dependability and the decrease of interface thermal resistance, in addition to the pursuit of thermal conductivity of thermal interface materials.

The thermal gel is expected to grow significantly in the 5G devices thermal management technology market during the forecast period. Therm gels are revolutionizing systems that can stably handle large amounts of mobile data processing and transfer. It streamlines manufacturing, rapidly releases heat, and withstands adverse climatic conditions. Higher data speeds require base station antennas with greater computing power. Manufacturers may protect against these higher power densities without affecting performance using thermal materials and gels.

5G devices thermal management technology Market, a segment based on Component

According to Component, the hardware sector is in the lead and is anticipated to contribute most to the market for 5G devices thermal management technology. The market for hardware products has benefited significantly from the increased usage of heat removal methods in high-volume commodity systems. The market for electronic applications is expanding, and a significant part of hardware devices have reached maturity. Industrialists are increasingly concerned with facilities’ energy usage, carbon footprints, and operational efficiency.

Report Scope

Feature of the Report Details
Market Size in 2021 USD 1523.11 million
Projected Market Size in 2030 USD 77,975 million
CAGR Growth Rate 78.11% CAGR (2022-2030)
Base Year 2023
Forecast Period 2024-2033
Prominent Players LairdTech, Pentair Thermal Management, Alcatel-Lucent, Honeywell International Inc., Aavid Thermalloy LLC., Vertiv Co., Momentive Performance Materials, Laird PLC, Henkel AG & Co. KGaA, European Thermodynamics Ltd., Master Bond Inc., Thermal Management Technologies, Heatex, Advanced Cooling Technologies Inc., Delta Electronics Inc., Dau Thermal Solutions Inc., and Others
Key Segment By Product, Component, and Region
Report Coverage Revenue Estimation and Forecast, Company Profile, Competitive Landscape, Growth Factors, and Recent Trends
Regional Scope North America, Europe, Asia Pacific, Middle East & Africa, and South & Central America
Buying Options Request tailored purchasing options to fulfill your requirements for research.

Regional Insights

During the projected period, North America is expected to maintain its prominent position in the market for 5G devices thermal management technology.

The greatest market share is anticipated for the North American area, ascribed to rising investments in technical solutions, widespread use of thermal management technology, and low operating costs. This region is home to some of the leading companies in thermal management technology, including Parker-Hannifin Corp, Advanced Cooling Technologies Inc., Honeywell International Inc., and Gentherm Inc. This region is predicted to continue to grow in the future. Due to customers’ enthusiasm for new and modern technologies, this area has a higher adoption rate of new technology than other regions.

The worldwide 5G thermal management technology market will grow due to the demand for new devices using 5G technology.

Asia-Pacific is expected to grow with the highest CAGR during the forecast period. The anticipation around 5G has diminished due to the appalling 5G implementation in growing Southeast Asian economies. Instead, consumers are now more interested in practical smartphone features like battery life, storage, processing speed, and camera quality. Moreover, due to the existence of several electronics manufacturers there and the growing usage of heat dissipation solutions to enhance heat dissipation in next-generation electronics, the Asia Pacific is expected to become a significant revenue-generating region over the course of the projection period.

Due to its compliance with severe EU rules and guidelines on using thermal interface materials in various electronic products, Europe is predicted to develop substantially throughout the projected period. Eco-friendly heat management systems are expected to be more widely used across various applications due to the rising environmental consciousness among the local populace. The area is home to various cutting-edge electronic designing and R&D facilities in nations like Germany and the UK, which is expected to accelerate the region’s adoption of these technologies.

Global 5G Devices Thermal Management Technology Market 2023 – 2032 (By Million)

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Key Players

  • LairdTech
  • Pentair Thermal Management
  • Alcatel-Lucent
  • Honeywell International Inc.
  • Aavid Thermalloy LLC.
  • Vertiv Co.
  • Momentive Performance Materials
  • Laird PLC
  • Henkel AG & Co. KGaA
  • European Thermodynamics Ltd.
  • Master Bond Inc.
  • Thermal Management Technologies
  • Heatex
  • Advanced Cooling Technologies Inc.
  • Delta Electronics Inc.
  • Dau Thermal Solutions Inc.

Recent Development

  • Solstice E-Cooling, developed by Honeywell International Inc., is a two-phase liquid cooling method to cool electronic applications while minimizing environmental effects. Additionally, it is a dielectric solution that protects equipment from fluid damage by acting as an electrical insulator.

Segments covered in the report

By Product

  • Thermal interface materials
  • Thermal gels
  • Coatings
  • Others

Component

  • Hardware
  • Software
  • Interface
  • Substrates

On the basis of Geography

North America

  • U.S.
  • Canada
  • Mexico
  • Rest of North America

Europe

  • Germany
  • France
  • U.K.
  • Italy
  • Spain
  • Rest of Europe

Asia Pacific

  • China
  • Japan
  • India
  • New Zealand
  • Australia
  • South Korea
  • Rest of Asia Pacific

The Middle East & Africa

  • Saudi Arabia
  • UAE
  • Egypt
  • Kuwait
  • South Africa
  • Rest of the Middle East & Africa

Latin America

  • Brazil
  • Argentina
  • Rest of Latin America

Table of Contents

  • Chapter 1. Preface
    • 1.1 Report Description and Scope
    • 1.2 Research scope
    • 1.3 Research methodology
      • 1.3.1 Market Research Type
      • 1.3.2 Market research methodology
  • Chapter 2. Executive Summary
    • 2.1 Global 5G Devices Thermal Management Technology Market, (2022 – 2030) (USD XXMillion)
    • 2.2 Global 5G Devices Thermal Management Technology Market : snapshot
  • Chapter 3. Global 5G Devices Thermal Management Technology Market – Industry Analysis
    • 3.1 5G Devices Thermal Management Technology Market: Market Dynamics
    • 3.2 Market Drivers
      • 3.2.1 The Market Is Anticipated To Be Driven By The Rising Need For Heat Dissipation In
      • 3.2.2 Iot Device Proliferation And Edge Computing Use Are On The Rise
    • 3.3 Market Restraints
    • 3.4 Market Opportunities
    • 3.5 Market Challenges
    • 3.6 Porter’s Five Forces Analysis
    • 3.7 Market Attractiveness Analysis
      • 3.7.1 Market attractiveness analysis By Product
      • 3.7.2 Market attractiveness analysis By Component
  • Chapter 4. Global 5G Devices Thermal Management Technology Market- Competitive Landscape
    • 4.1 Company market share analysis
      • 4.1.1 Global 5G Devices Thermal Management Technology Market: company market share, 2021
    • 4.2 Strategic development
      • 4.2.1 Acquisitions & mergers
      • 4.2.2 New Product launches
      • 4.2.3 Agreements, partnerships, cullaborations, and joint ventures
      • 4.2.4 Research and development and Regional expansion
    • 4.3 Price trend analysis
  • Chapter 5. Global 5G Devices Thermal Management Technology Market – Product Analysis
    • 5.1 Global 5G Devices Thermal Management Technology Market overview: By Product
      • 5.1.1 Global 5G Devices Thermal Management Technology Market share, By Product, 2021 and 2030
    • 5.2 Thermal interface materials,
      • 5.2.1 Global 5G Devices Thermal Management Technology Market by Thermal interface materials,, 2022 – 2030 (USD XXMillion)
    • 5.3 Thermal gels
      • 5.3.1 Global 5G Devices Thermal Management Technology Market by Thermal gels, 2022 – 2030 (USD XXMillion)
    • 5.4 Coatings
      • 5.4.1 Global 5G Devices Thermal Management Technology Market by Coatings, 2022 – 2030 (USD XXMillion)
  • Chapter 6. Global 5G Devices Thermal Management Technology Market – Component Analysis
    • 6.1 Global 5G Devices Thermal Management Technology Market overview: By Component
      • 6.1.1 Global 5G Devices Thermal Management Technology Market share, By Component, 2021 and 2030
    • 6.2 Hardware
      • 6.2.1 Global 5G Devices Thermal Management Technology Market by Hardware, 2022 – 2030 (USD XXMillion)
    • 6.3 Software
      • 6.3.1 Global 5G Devices Thermal Management Technology Market by Software, 2022 – 2030 (USD XXMillion)
    • 6.4 Interface
      • 6.4.1 Global 5G Devices Thermal Management Technology Market by Interface, 2022 – 2030 (USD XXMillion)
    • 6.5 Substrates
      • 6.5.1 Global 5G Devices Thermal Management Technology Market by Substrates, 2022 – 2030 (USD XXMillion)
  • Chapter 7. 5G Devices Thermal Management Technology Market – Regional Analysis
    • 7.1 Global 5G Devices Thermal Management Technology Market Regional Overview
    • 7.2 Global 5G Devices Thermal Management Technology Market Share, by Region, 2021 & 2030 (USD XXMillion)
    • 7.3. North America
      • 7.3.1 North America 5G Devices Thermal Management Technology Market, 2022 – 2030 (USD XXMillion)
        • 7.3.1.1 North America 5G Devices Thermal Management Technology Market, by Country, 2022 – 2030 (USD XXMillion)
    • 7.4 North America 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030
      • 7.4.1 North America 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030 (USD XXMillion)
    • 7.5 North America 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030
      • 7.5.1 North America 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030 (USD XXMillion)
    • 7.6. Europe
      • 7.6.1 Europe 5G Devices Thermal Management Technology Market, 2022 – 2030 (USD XXMillion)
        • 7.6.1.1 Europe 5G Devices Thermal Management Technology Market, by Country, 2022 – 2030 (USD XXMillion)
    • 7.7 Europe 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030
      • 7.7.1 Europe 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030 (USD XXMillion)
    • 7.8 Europe 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030
      • 7.8.1 Europe 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030 (USD XXMillion)
    • 7.9. Asia Pacific
      • 7.9.1 Asia Pacific 5G Devices Thermal Management Technology Market, 2022 – 2030 (USD XXMillion)
        • 7.9.1.1 Asia Pacific 5G Devices Thermal Management Technology Market, by Country, 2022 – 2030 (USD XXMillion)
    • 7.10 Asia Pacific 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030
      • 7.10.1 Asia Pacific 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030 (USD XXMillion)
    • 7.11 Asia Pacific 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030
      • 7.11.1 Asia Pacific 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030 (USD XXMillion)
    • 7.12. Latin America
      • 7.12.1 Latin America 5G Devices Thermal Management Technology Market, 2022 – 2030 (USD XXMillion)
        • 7.12.1.1 Latin America 5G Devices Thermal Management Technology Market, by Country, 2022 – 2030 (USD XXMillion)
    • 7.13 Latin America 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030
      • 7.13.1 Latin America 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030 (USD XXMillion)
    • 7.14 Latin America 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030
      • 7.14.1 Latin America 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030 (USD XXMillion)
    • 7.15. The Middle-East and Africa
      • 7.15.1 The Middle-East and Africa 5G Devices Thermal Management Technology Market, 2022 – 2030 (USD XXMillion)
        • 7.15.1.1 The Middle-East and Africa 5G Devices Thermal Management Technology Market, by Country, 2022 – 2030 (USD XXMillion)
    • 7.16 The Middle-East and Africa 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030
      • 7.16.1 The Middle-East and Africa 5G Devices Thermal Management Technology Market, by Product, 2022 – 2030 (USD XXMillion)
    • 7.17 The Middle-East and Africa 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030
      • 7.17.1 The Middle-East and Africa 5G Devices Thermal Management Technology Market, by Component, 2022 – 2030 (USD XXMillion)
  • Chapter 8. Company Profiles
    • 8.1 LairdTech
      • 8.1.1 Overview
      • 8.1.2 Financials
      • 8.1.3 Product Portfolio
      • 8.1.4 Business Strategy
      • 8.1.5 Recent Developments
    • 8.2 Pentair Thermal Management
      • 8.2.1 Overview
      • 8.2.2 Financials
      • 8.2.3 Product Portfolio
      • 8.2.4 Business Strategy
      • 8.2.5 Recent Developments
    • 8.3 Alcatel-Lucent
      • 8.3.1 Overview
      • 8.3.2 Financials
      • 8.3.3 Product Portfolio
      • 8.3.4 Business Strategy
      • 8.3.5 Recent Developments
    • 8.4 Honeywell International Inc.
      • 8.4.1 Overview
      • 8.4.2 Financials
      • 8.4.3 Product Portfolio
      • 8.4.4 Business Strategy
      • 8.4.5 Recent Developments
    • 8.5 Aavid Thermalloy LLC.
      • 8.5.1 Overview
      • 8.5.2 Financials
      • 8.5.3 Product Portfolio
      • 8.5.4 Business Strategy
      • 8.5.5 Recent Developments
    • 8.6 Vertiv Co.
      • 8.6.1 Overview
      • 8.6.2 Financials
      • 8.6.3 Product Portfolio
      • 8.6.4 Business Strategy
      • 8.6.5 Recent Developments
    • 8.7 Momentive Performance Materials
      • 8.7.1 Overview
      • 8.7.2 Financials
      • 8.7.3 Product Portfolio
      • 8.7.4 Business Strategy
      • 8.7.5 Recent Developments
    • 8.8 Laird PLC
      • 8.8.1 Overview
      • 8.8.2 Financials
      • 8.8.3 Product Portfolio
      • 8.8.4 Business Strategy
      • 8.8.5 Recent Developments
    • 8.9 Henkel AG & Co. KGaA
      • 8.9.1 Overview
      • 8.9.2 Financials
      • 8.9.3 Product Portfolio
      • 8.9.4 Business Strategy
      • 8.9.5 Recent Developments
    • 8.10 European Thermodynamics Ltd.
      • 8.10.1 Overview
      • 8.10.2 Financials
      • 8.10.3 Product Portfolio
      • 8.10.4 Business Strategy
      • 8.10.5 Recent Developments
    • 8.11 Master Bond Inc.
      • 8.11.1 Overview
      • 8.11.2 Financials
      • 8.11.3 Product Portfolio
      • 8.11.4 Business Strategy
      • 8.11.5 Recent Developments
    • 8.12 Thermal Management Technologies
      • 8.12.1 Overview
      • 8.12.2 Financials
      • 8.12.3 Product Portfolio
      • 8.12.4 Business Strategy
      • 8.12.5 Recent Developments
    • 8.13 Heatex
      • 8.13.1 Overview
      • 8.13.2 Financials
      • 8.13.3 Product Portfolio
      • 8.13.4 Business Strategy
      • 8.13.5 Recent Developments
    • 8.14 Advanced Cooling Technologies Inc.
      • 8.14.1 Overview
      • 8.14.2 Financials
      • 8.14.3 Product Portfolio
      • 8.14.4 Business Strategy
      • 8.14.5 Recent Developments
    • 8.15 Delta Electronics Inc.
      • 8.15.1 Overview
      • 8.15.2 Financials
      • 8.15.3 Product Portfolio
      • 8.15.4 Business Strategy
      • 8.15.5 Recent Developments
    • 8.16 Dau Thermal Solutions Inc.
      • 8.16.1 Overview
      • 8.16.2 Financials
      • 8.16.3 Product Portfolio
      • 8.16.4 Business Strategy
      • 8.16.5 Recent Developments

List Of Figures

Figures No 1 to 21

List Of Tables

Tables No 1 to 52

Report Methodology

In order to get the most precise estimates and forecasts possible, Custom Market Insights applies a detailed and adaptive research methodology centered on reducing deviations. For segregating and assessing quantitative aspects of the market, the company uses a combination of top-down and bottom-up approaches. Furthermore, data triangulation, which examines the market from three different aspects, is a recurring theme in all of our research reports. The following are critical components of the methodology used in all of our studies:

Preliminary Data Mining

On a broad scale, raw market information is retrieved and compiled. Data is constantly screened to make sure that only substantiated and verified sources are taken into account. Furthermore, data is mined from a plethora of reports in our archive and also a number of reputed & reliable paid databases. To gain a detailed understanding of the business, it is necessary to know the entire product life cycle and to facilitate this, we gather data from different suppliers, distributors, and buyers.

Surveys, technological conferences, and trade magazines are used to identify technical issues and trends. Technical data is also gathered from the standpoint of intellectual property, with a focus on freedom of movement and white space. The dynamics of the industry in terms of drivers, restraints, and valuation trends are also gathered. As a result, the content created contains a diverse range of original data, which is then cross-validated and verified with published sources.

Statistical Model

Simulation models are used to generate our business estimates and forecasts. For each study, a one-of-a-kind model is created. Data gathered for market dynamics, the digital landscape, development services, and valuation patterns are fed into the prototype and analyzed concurrently. These factors are compared, and their effect over the projected timeline is quantified using correlation, regression, and statistical modeling. Market forecasting is accomplished through the use of a combination of economic techniques, technical analysis, industry experience, and domain knowledge.

Short-term forecasting is typically done with econometric models, while long-term forecasting is done with technological market models. These are based on a synthesis of the technological environment, legal frameworks, economic outlook, and business regulations. Bottom-up market evaluation is favored, with crucial regional markets reviewed as distinct entities and data integration to acquire worldwide estimates. This is essential for gaining a thorough knowledge of the industry and ensuring that errors are kept to a minimum.

Some of the variables taken into account for forecasting are as follows:

• Industry drivers and constraints, as well as their current and projected impact

• The raw material case, as well as supply-versus-price trends

• Current volume and projected volume growth through 2030

We allocate weights to these variables and use weighted average analysis to determine the estimated market growth rate.

Primary Validation

This is the final step in our report’s estimating and forecasting process. Extensive primary interviews are carried out, both in-person and over the phone, to validate our findings and the assumptions that led to them.
Leading companies from across the supply chain, including suppliers, technology companies, subject matter experts, and buyers, use techniques like interviewing to ensure a comprehensive and non-biased overview of the business. These interviews are conducted all over the world, with the help of local staff and translators, to overcome language barriers.

Primary interviews not only aid with data validation, but also offer additional important insight into the industry, existing business scenario, and future projections, thereby improving the quality of our reports.

All of our estimates and forecasts are validated through extensive research work with key industry participants (KIPs), which typically include:

• Market leaders

• Suppliers of raw materials

• Suppliers of raw materials

• Buyers.

The following are the primary research objectives:

• To ensure the accuracy and acceptability of our data.

• Gaining an understanding of the current market and future projections.

Data Collection Matrix

Perspective Primary research Secondary research
Supply-side
  • Manufacturers
  • Technology distributors and wholesalers
  • Company reports and publications
  • Government publications
  • Independent investigations
  • Economic and demographic data
Demand-side
  • End-user surveys
  • Consumer surveys
  • Mystery shopping
  • Case studies
  • Reference customers


Market Analysis Matrix

Qualitative analysis Quantitative analysis
  • Industry landscape and trends
  • Market dynamics and key issues
  • Technology landscape
  • Market opportunities
  • Porter’s analysis and PESTEL analysis
  • Competitive landscape and component benchmarking
  • Policy and regulatory scenario
  • Market revenue estimates and forecast up to 2028
  • Market revenue estimates and forecasts up to 2028, by technology
  • Market revenue estimates and forecasts up to 2028, by application
  • Market revenue estimates and forecasts up to 2028, by type
  • Market revenue estimates and forecasts up to 2028, by component
  • Regional market revenue forecasts, by technology
  • Regional market revenue forecasts, by application
  • Regional market revenue forecasts, by type
  • Regional market revenue forecasts, by component

Key Players

  • LairdTech
  • Pentair Thermal Management
  • Alcatel-Lucent
  • Honeywell International Inc.
  • Aavid Thermalloy LLC.
  • Vertiv Co.
  • Momentive Performance Materials
  • Laird PLC
  • Henkel AG & Co. KGaA
  • European Thermodynamics Ltd.
  • Master Bond Inc.
  • Thermal Management Technologies
  • Heatex
  • Advanced Cooling Technologies Inc.
  • Delta Electronics Inc.
  • Dau Thermal Solutions Inc.
  • Others

FAQs

“North America” region will lead the global 5G Devices Thermal Management Technology market during the forecast period 2022 to 2030.

The key factors driving the market are anticipated to be driven by the rising need for heat dissipation in 5G gadgets and IoT device proliferation and edge computing use are on the rise.

The key players operating in the 5G Devices Thermal Management Technology market are LairdTech, Pentair Thermal Management, Alcatel-Lucent, Honeywell International Inc., Aavid Thermalloy LLC., Vertiv Co., Momentive Performance Materials, Laird PLC, Henkel AG & Co. KGaA, European Thermodynamics Ltd., Master Bond Inc., Thermal Management Technologies, Heatex, Advanced Cooling Technologies Inc., Delta Electronics Inc., Dau Thermal Solutions Inc..

The global 5G Devices Thermal Management Technology market is expanding growth with a CAGR of approximately XX% during the forecast period (2022 to 2030).

The global 5G Devices Thermal Management Technology market size was valued at USD xx million in 2021 and it is projected to reach around USD xx million by 2030.

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