Antennas for Systems and Devices: Technologies and Global Markets
- January 2017
- 234 pages
- BCC Research
Use this report to:
- Gain information about internet of things (IOT) and its impact on the prospects of antennas.
- Learn about various concepts and terminologies related to antennas.
- Gain an insight about global navigation satellite system (GNSS).
- Receive information about worldwide interoperability for microwave access (WIMAX).
- The global antenna market will grow from $16.8 billion in 2016 to $22.5 billion by 2021, with a compound annual growth rate (CAGR) of 6.0% for the period of 2016-2021.
- The smart antenna dominated the market and will grow from $4.7 billion in 2016 to $7.6 billion by 2021, rising at a CAGR of 10.1%.
- The patch, miniature, embedded and other low power market is expected to increase from nearly $3.8 billion in 2016 to $4.2 billion by 2021 with a CAGR of 2.1%.
The motif behind antenna market evolution in the next five years is likely to be the Internet of Things (IoT). IoT is not a new construct. It is a smart encapsulation of a series of technological developments associated with machine-to-machine communications. It spawns cellular and non-cellular waveforms. Consequently, stakeholders have been speculating that the next billion cellular subscribers are more likely to be machines with sensors and antennas. Contribution of noncellular waveforms is likely to be in order of several multiples to that of cellular waveforms. This report adequately captures the smart re-branding practiced by antenna vendors to associate themselves with IoT.
Smart antennas continue to provide the bulk of the technological impetus that will leave a lasting impact on the antenna industry. As the industry waits for 5G, antenna vendors are busy perfecting the adoption of smart antenna constructs across power values, operating distances and frequency ranges.
At the heart of all these exciting developments is the uncomplicated antenna – an integral component of the radio. The operating principle of antennas is very simple: conversion between electrical energy and radiation. The simplicity of this principle has relegated antennas to the periphery of the active and innovative telecommunications research domain. For close to a century after antennas were invented, antenna technology was in the slow lane of evolution while other components such as basebands, modems, codecs and processors among others witnessed frantic development that led to superior performance.
The evolution of cellular telephony with quantum increases in data transfer carrying abilities with every progressive generation has injected acceleration in antenna innovation, as evidenced by the cresting of patent activity around 2014. Cellular mobile devices forced the industry to concentrate on form factor and power management apart from performance. These considerations amplified the research thrust on antennas as they had to conform to the limitations regarding form factor and power management. Wireless sensors are a progression of this approach wherein power management and form factor attain greater criticality.
As has been observed with the earlier reports, market dynamic of antennas does not depend on technology underpinnings alone. Antennas are staggering in the diversity of frequencies served, material employed, forms assumed, power managed and range covered. End applications play a defining role in finalizing antenna specifications and pricing. The vast device-base that employs antennas has resulted in an extremely fragmented market with literally thousands of vendors. Purposeful innovation requires capital and those with deep pockets are often in the custody of the end-device makers themselves. It is not surprising to witness original equipment manufacturers (OEMs) engaged actively in antenna research and development. The health of the antenna market is the closest to being a microcosm for the global economic health. It is noteworthy that smart antennas are imparting independence to the antenna market dynamic, and loosening the grip of end application dynamic on the prospects of the antenna market.
The multiplicity of influencing factors and the disorganized nature of players involved make it challenging to render a snapshot of the antenna market. This report attempts to capture the essence of this simple but diversely employed component.
STUDY GOALS AND OBJECTIVES
This study’s goals and objectives include the following activities regarding antennas:
- Forecast the market size in terms of dollars and unit sales.
- Classify the market size by key classification criteria in terms of dollars and unit sales.
- Classify the market size by antenna technology in terms of dollars and unit sales.
- Classify the market size by material in terms of dollars and unit sales.
- Classify the market size by end application in terms of dollars and unit sales.
- Classify the market size by geographical regions in terms of dollars and unit sales.
- Classify the market size in individual end applications by antenna technology in terms of dollars and unit sales.
- Classify the market size in individual end applications by material in terms of dollars and unit sales.
- Classify the market size in individual end applications by geographical regions in terms of dollars and unit sales.
- Highlight the roles played by major stakeholders and players.
- Provide an overview of the activities of influential companies.
- Examine crucial, innovative breakthroughs by means of a detailed patent analysis.
REASONS FOR DOING THE STUDY This report is fourth in its series. Its predecessor, IFT073C was released in Sep. 2014. The reasons for covering this market remain largely the same. The simplicity of antennas makes them adaptable. Their adaptability has spawned a multitude of use-cases across verticals and applications. Subsequently, antennas have had to attain a formidable diversity in terms of operating technology. Antennas are available in different shapes and sizes, and support a large range of power operations.
This diversity is unmatched among other radio components. The diversity in technologies, end applications, and materials also make antennas a challenging market to cover and forecast. While most market studies cover specific aspects of the antenna market based on technology employed or end application catered, it is important to present a unified, comprehensive picture covering all mainstream antenna technologies and markets. This report achieves this objective. This report also highlights the role played by innovation through a comprehensive patent analysis and brings out the close correlation between OEMs employing antennas and antenna research and technology. This report quantifies the market for smart antennas—considered as the single most important innovation of the decade. It also places in context the role played by wireless sensors in shaping the antenna market.
Finally, this report examines the antenna market under the following key parameters:
- Antenna technologies.
- End applications.
- Regional dynamics.
- Key markets within countries.
- Changes in average selling prices (ASPs).
SCOPE OF THE REPORT
This report presents the forecasts for antennas for 2016 through 2021 on a volume and value basis. Sales values are presented in U.S. dollars, while shipment volumes are presented in million units. These forecasts are further broken down by antenna technology, antenna material, end application and geographical region.
The report covers the following antenna technologies:
- Flat panel/short-range antenna.
- Patch, miniature, embedded and other low power antenna.
- Fractal antenna.
- Medium gain antenna.
- High gain reflector antenna.
- Smart antenna. Breakdown of materials includes:
- Others. Breakdown by end applications includes:
- Television (TV)/radio infrastructure and user equipment.
- Satellite communication infrastructure (barring terrestrial and marine components).
- Mobile phones.
- Wireless telecommunications infrastructure.
- Computing applications.
- Medical applications.
- Defense and Surveillance applications.
- Residential/industrial/commercial premises and user devices. The regional breakdown focuses on the following geographical areas:
- The Americas.
- Europe, the Middle East and Africa (EMEA).
- Asia-Pacific (APAC).
The Executive Summary chapter provides a snapshot of the dollar sales and shipment volumes for the overall antenna market. The Global Markets for Antennas: Breakdown by Technologies, Material, and End applications chapter introduces the antenna with key concepts central to understanding its functioning. It also introduces IoT and explains its impact on the prospects of antennas. It then analyzes the different classification criteria: technologies, materials, geographical regions and verticals. In conclusion, it provides a snapshot of the end-user application sector classification.
The End application-Specific Analysis chapter breaks down the antenna market for each of the end applications along antenna technologies, antenna materials, and geographical regions. The chapter will thus provide the reader with an in-depth view of the dynamics of individual end applications vis-à-vis antenna prospects. The Major Participants in the Antenna Industry chapter identifies the major categories of stakeholders involved in the development and commercialization of antenna technology.
The U.S. Patent Analysis chapter covers innovations that impact antenna systems. Patents are categorized by applications and technology as well as on the basis of allocation by year, assignee countries and assignee organizations.
The report will be of value to the following industry players:
- Original equipment manufacturers (OEMs) and contract manufacturers of antenna systems and components in identifying the size and regional distribution of the antenna market.
- OEMs of products that embed antennas in understanding the technology and material pricing trends for antennas in their sector.
- Service providers and network designers in knowing the prospects of specific antennas in their domain.
- Semiconductor device makers.
- Wireless chipset makers.
- End users and distributors.
- Academic and research institutions.
- Financial institutions.
Both primary and secondary research methodologies were used in preparing this report. BCC Research presents an analysis across the global market for antennas based on reported revenue dollars and units shipped, at the manufacturer level. We also analyzed data gathered from various research sources via the Internet. Interviews were conducted with well-placed industry sources.
The following sources have been referenced:
- Primary research, including interviews with experts from companies operating in the handset and waveform domains.
- Published industry data.
- Shipment reports of unlisted companies.
- 10-K reports.
Shalini Ramamurthy has an extensive experience in analyzing and evaluating advanced information technology including telecommunications and optical networks. She holds a Bachelor of Engineering degree in Electronics and Telecommunications from Kumaraguru College of Technology in Coimbatore, India, as well as a Master of Science degree in Telecommunications and Software Engineering from the Illinois Institute of Technology in Chicago.