RF Antennas for Amateur Radio Enthusiasts: Exploring the Art of Communication

Amateur radio, sometimes known as ham radio, is a thriving pastime that uses the power of radio waves to link individuals all over the world. The radio frequency (RF) antenna is crucial to this goal, as it impacts communication quality, range, and reliability. Understanding and selecting the proper RF antenna is a science as well as an art for amateur radio enthusiasts. This article looks into the world of RF antennas, discussing their various varieties, applications, and recommendations for enthusiasts looking for the best performance.

Understanding RF antennas

An RF antenna is a device that sends and receives radio waves, converting electrical impulses to electromagnetic energy and vice versa. Antennas are the means by which ham radio operators communicate across a variety of frequency bands, ranging from HF (high frequency) to UHF (ultra-high frequency). The type of antenna used has a considerable impact on signal strength, clarity, and the capacity to reach distant connections.

Types of RF Antenna

Amateur radio enthusiasts can select from a variety of RF antennas, each tailored to a specific application and operating environment. Here are some of the most common types:

1. Dipole antennas.

The dipole is one of the most basic and commonly used antennas. It consists of two conductive parts, is resonant at a given frequency, and provides outstanding performance despite its simplicity. Dipole antennas are suitable for novices because to their simplicity of construction and efficacy across all HF bands.

2. Vertical antennas.

Vertical antennas are popular due to their omnidirectional emission pattern, which enables communication in all directions. They are tiny and ideal for small places. Ground-mounted verticals frequently require a radial system to improve performance, making them suitable for both local and long-distance (DX) communications.

3. Yagi-Uda antennas.

Yagi antennas are directional antennas with high gain that are especially effective in the VHF and UHF bands. They include a driving element, reflectors, and directors. Yagi antennas are frequently used for point-to-point communication, such as satellite work or linking to far repeaters.

4. Loop antennas.

Loop antennas, both magnetic and full-wave, are valued for their small size and low noise levels. Magnetic loops are particularly effective for HF bands in metropolitan environments with limited space, as they excel at eliminating interference from local noise sources.

5. Log-periodic antennas.

Log-periodic antennas are versatile, providing wideband coverage and steady gain. They are frequently used for HF and VHF bands, and are perfect for hobbyists that operate over numerous frequencies without changing antennas.

6. Beam antennas

Beam antennas, such as Yagi and quad antennas, guide RF energy in a specified direction, resulting in increased gain and less interference. These antennas are ideal for DXing and contesting, but they demand room and careful installation.

7. Wire antennas

Wire antennas, such as end-fed or long-wire antennas, are practical and affordable options. They are extremely adaptable, making them ideal for mobile operations, field days, and emergency communications.

Factors to Consider When Selecting an Antenna

Several things must be considered while selecting the appropriate RF antenna:

Frequency Band: Make sure the antenna is designed for the frequency band you want to operate in.

room Availability: Some antennas, such as dipoles, require a large amount of room, but others, such as verticals or loops, are more compact.

Decide whether your primary purpose is local communication, DXing, or contesting.

Budget: High-gain antennas can be costly, but wire antennas provide good performance for a modest price.

Portable or field operations benefit from antennas that are lightweight and simple to construct.

Build Your Own Antenna.

Many amateur radio operators love the challenge and satisfaction of building their own antennas. DIY antenna projects are inexpensive and allow for flexibility to meet unique requirements. Popular homemade antennas include:

Wire Dipoles: Easy to build and extremely effective.

Magnetic loops are compact and appropriate for urban situations.

PVC Vertical Antennas are lightweight and portable for outdoor application.

To ensure optimal tuning and resonance when building an antenna, you will need basic tools like a soldering iron, wire cutters, and an antenna analyzer.

Optimizing Antenna Performance

Consider the following tips to optimize the performance of your RF antenna:

Install the antenna as high as feasible and away from obstructions to optimum efficiency.

Grounding: Proper grounding is essential for both safety and performance, especially with vertical antennas.

Tuning: Use an antenna analyzer to fine-tune the antenna to the appropriate frequency.

Cable Quality: High-quality coaxial cables reduce signal loss.

Regularly inspect and maintain the antenna to ensure its durability and dependability.

Advanced Antenna Systems

For experienced ham radio operators, experimenting with innovative antenna configurations can improve communication capability. This includes:

Phased arrays use numerous antennas to create directional patterns.

Rotators enable directional antennas to be focused at specified places.

Remote Antenna Tuners automatically change impedance for maximum performance throughout

Conclusion

Amateur radio is built around RF antennas, which allow enthusiasts to communicate with people all over the world. Whether you're a novice experimenting with a basic dipole or a seasoned operator fine-tuning a Yagi array, the world of RF antennas provides limitless chances for learning and invention. By grasping the fundamentals, experimenting with different designs, and maximizing performance, amateur radio operators can maximize the potential of their communication systems, enriching the ham radio experience for themselves and their communities.

Seamless Motion: Unveiling the Power of Rotary and RF Rotary Joints

The global rotary and RF (Radio Frequency) rotary joints market is projected to experience steady growth over the forecast period of 2022-2028, with an estimated compound annual growth rate (CAGR) of approximately 4%. The market was valued at around USD 700 million in 2022 and is expected to reach approximately USD 880 million by 2028.

What Are Rotary and RF Rotary Joints?

Rotary joints are mechanical devices that allow the transmission of fluids and electrical signals between stationary and rotating structures. They are essential components in various applications, including industrial machinery, aerospace systems, and telecommunications. RF rotary joints, specifically, enable the transfer of RF signals while maintaining rotation, making them critical in applications involving antennas and radar systems.

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Market Dynamics and Growth Drivers

Several factors are driving the growth of the rotary and RF rotary joints market:

Increasing Demand for Automation: The growing trend towards automation in various industries, including manufacturing and aerospace, is boosting the demand for rotary joints. These joints facilitate smooth rotation and reliable signal transmission, essential for automated systems.

Expansion of Telecommunication Networks: The expansion of telecommunication infrastructure, particularly the deployment of 5G networks, is driving the need for RF rotary joints. These components are vital for ensuring effective signal transmission in mobile and wireless communication systems.

Aerospace and Defense Applications: The aerospace and defense sectors are significant consumers of rotary and RF rotary joints, as they are used in various applications, including radar systems, satellite communications, and military vehicles. The increasing investments in defense technologies are expected to bolster market growth.

Growth of Robotics and IoT: The rising adoption of robotics and the Internet of Things (IoT) across industries is driving the demand for rotary joints. As robotic systems require efficient rotational movement and connectivity, the need for reliable rotary joints is increasing.

Regional Analysis

North America: North America is a prominent market for rotary and RF rotary joints, driven by advanced aerospace and defense sectors. The region's focus on technological innovation and the presence of key players in the market contribute to its growth.

Europe: Europe is witnessing steady growth in the rotary joints market, primarily due to the increasing demand for automation and advanced manufacturing processes. Countries such as Germany and the U.K. are leading in terms of technological advancements in this sector.

Asia-Pacific: The Asia-Pacific region is expected to witness significant growth in the rotary and RF rotary joints market, fueled by the expansion of industrial automation and telecommunications. Countries like China and India are emerging as key players in the manufacturing and telecommunications sectors.

Latin America and Middle East & Africa: These regions are experiencing gradual growth in the rotary joints market, driven by investments in infrastructure development and the increasing adoption of automation in various industries.

Competitive Landscape

The rotary and RF rotary joints market is competitive, with several key players offering a range of products to meet growing demand:

Moog Inc.: A leading manufacturer of rotary joints and RF rotary joints, known for its innovative designs and high-quality products.

Dover Corporation: Provides a variety of rotary joint solutions for industrial applications, focusing on performance and reliability.

Smiths Group plc: Offers RF rotary joints for telecommunications and defense applications, emphasizing advanced technology and design.

Schneider Electric: Known for its automation solutions, including rotary joints, catering to various industrial applications.

Rotary Joint Division of Deublin Company: Specializes in custom rotary joint solutions for diverse industries, including aerospace and manufacturing.

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Challenges and Opportunities

While the rotary and RF rotary joints market presents growth opportunities, challenges such as the high cost of advanced rotary joint systems and the need for regular maintenance can hinder market expansion. Additionally, the complexity of some applications may require specialized solutions, limiting accessibility for smaller players.

However, advancements in materials and technology, such as the development of more compact and efficient rotary joints, present opportunities for market growth. The increasing focus on sustainability and energy efficiency is also driving demand for innovative solutions in this sector.

Conclusion

The global rotary and RF rotary joints market is set to grow steadily over the forecast period, driven by rising demand for automation, advancements in telecommunications, and increasing applications in aerospace and defense. As industries continue to evolve, the need for reliable and efficient rotary joints will remain crucial, offering significant opportunities for growth and innovation in this sector. The ongoing advancements in technology and the expansion of industrial applications will further shape the future of the rotary and RF rotary joints market.

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WPC ETA CERTIFICATION FOR RFID ANTENNA

In the ever-evolving landscape of technology, Radio Frequency Identification (RFID) plays a crucial role in various industries, from retail to healthcare. As the adoption of RFID systems grows, so does the need for compliance with regulatory standards, particularly in India. One of the key certifications required for RFID antennas is the Equipment Type Approval (ETA) from the Wireless Planning and Coordination (WPC) wing of the Ministry of Communications. This blog delves into the significance of WPC ETA certification, the process involved, and the essential documentation needed.

What is an RFID Reader?

An RFID reader is a device that uses radio waves to communicate with RFID tags, which are small electronic devices that contain data. RFID readers can be handheld or fixed and serve the purpose of reading information from RFID tags attached to various objects. The data extracted from these tags can include inventory details, tracking information, and more.

Types of RFID Readers

Handheld Readers: Portable devices that can easily scan RFID tags in various locations.

Fixed Readers: Installed at specific locations, such as doorways or conveyor belts, to continuously read tags as they pass by.

Mobile Readers: Combining features of both handheld and fixed readers, often used in logistics and inventory management.

Importance of Having an ETA Certificate for RFID Antenna

The WPC ETA certification is essential for ensuring that RFID antennas operate within the designated frequency bands and comply with technical standards. Here are several reasons why having an WPC ETA certificate is crucial:

Regulatory Compliance: The ETA certification ensures that the RFID equipment meets Indian regulatory standards, which is mandatory for legal operation within the country.

Quality Assurance: Obtaining the ETA certification signifies that the RFID antenna has undergone rigorous testing to ensure it performs reliably and efficiently.

Market Access: Many organizations require ETA certification before they purchase RFID equipment, making it a prerequisite for market access in India.

User Safety: The certification process includes assessments to ensure that the devices do not cause interference with other critical communication systems, thus safeguarding users.

Enhanced Credibility: Companies with ETA-certified products are often perceived as more credible and trustworthy by consumers and business partners.

Fundamental Criteria for Obtaining WPC ETA Approval and Import License

To obtain WPC ETA approval for an RFID antenna, applicants must meet several fundamental criteria:

Technical Specifications: The equipment must comply with the technical specifications outlined by the WPC, which include frequency range, power output, and operational efficiency.

Documentation: Applicants must submit detailed documentation, including product specifications, design schematics, and safety compliance certificates.

Testing: The RFID antenna must undergo specific tests to measure performance and compliance with Indian standards. This includes RF tests conducted in accredited laboratories.

Manufacturer Information: Information about the manufacturer, including their production processes and quality control measures, must be provided to ensure reliability and consistency.

Application Fee: Payment of the required fees for processing the ETA application is necessary.

Certification of Equipment Type Approval (ETA) for the WPC Process

The WPC process for obtaining ETA certification consists of several key steps:

Application Submission: Manufacturers or importers must submit an application to the WPC, accompanied by the required documentation and fees.

Preliminary Assessment: The WPC conducts a preliminary review of the application to check for completeness and adherence to guidelines.

Technical Evaluation: The application undergoes a technical evaluation, where the submitted documents are assessed for compliance with regulatory standards.

Testing: The RFID antenna must be tested in a recognized laboratory to ensure it meets the technical criteria set by the WPC. The results of these tests are crucial for approval.

Issuance of ETA: Once all criteria are satisfied, the WPC issues the Equipment Type Approval certificate, allowing the manufacturer or importer to legally operate or sell the RFID antennas in India.

What Does the RF Test Report Entail and How Can it be Obtained for WPC (ETA) Certification?

The RF test report is a crucial component of the WPC ETA certification process. Here’s what it entails:

Key Components of the RF Test Report

Frequency Range: The report includes measurements of the operating frequency range of the RFID antenna.

Power Output: It details the maximum power output of the device and ensures it adheres to the permissible limits set by the WPC.

Radiation Pattern: The report assesses the radiation pattern of the antenna to ensure effective communication and minimal interference.

Return Loss and VSWR: These parameters help evaluate the efficiency of the antenna, ensuring minimal signal loss.

Compliance with Standards: The report confirms that the antenna meets the relevant standards set by the WPC.

How to Obtain an RF Test Report

Select an Accredited Laboratory: Choose a laboratory recognized by the WPC for conducting RF tests on RFID equipment.

Prepare the Equipment: Ensure that the RFID antenna is ready for testing and meets all necessary preconditions.

Submit Testing Application: Submit an application to the laboratory, detailing the specifications and requirements for testing.

Conduct Tests: The laboratory will conduct the necessary tests and generate the RF test report based on the results.

Review and Submit: Review the RF test report to ensure all data is accurate, then submit it as part of the ETA application to the WPC.

Conclusion

In conclusion, the WPC ETA certification for RFID antennas is not just a regulatory requirement but a vital aspect of ensuring quality, safety, and reliability in RFID technology. By understanding the certification process, the importance of an ETA certificate, and the necessary steps to obtain it, manufacturers and importers can navigate the complexities of compliance more effectively. As RFID technology continues to expand, adherence to standards will be critical for success in the competitive Indian market.

Precision Farming Market Size, Trends, and Business Outlook 2024 - 2030

The global precision farming market size was valued at USD 10.50 billion in 2023 and is expected to grow at a compound annual growth rate (CAGR) of 12.8% from 2024 to 2030. 

The growth of precision farming is attributed to the burgeoning proliferation of the Internet of Things (IoT) along with the use of advanced analytics by farmers. Advanced analytics is a part of data science that uses numerous tools and methods to forecast data and ensure that the crop and soil receive adequate nurturing. This helps farmers to plan their actions accordingly.

For a deep understanding of different farming aspects such as irrigation and plowing, numerous technologies such as IoT, GPS, and remote sensing application control are used. IoT helps farmers address various challenges involved in the proper monitoring of crops. It provides real-time data about environment temperature and water content in the soil through sensors placed on the farm, which assists farmers in making improved decisions about harvesting times, crop market rate, and soil management. This is one of the key factors contributing to the growth of the market for precision farming.

Gather more insights about the market drivers, restrains and growth of the Precision Farming Market

Precision Farming Market Report Highlights

• Increasing government support for adopting modern agricultural techniques and the growing need for efficiently monitoring the health of crops are expected to drive market growth

• The cloud-based software model is anticipated to gain a significant share of the market over the projected period as it reduces energy consumption and provides storage for a large amount of data while facilitating cost saving

• Innovations in GPS mapping and related farming applications are enabling farmers to operate more efficiently and increase their profit margin

• Demand for drones is expected to grow in the agriculture field as they are increasingly used to monitor irrigation systems

• Yield monitoring is expected to continue leading the application segment in terms of revenue share. It is widely used in soil monitoring since it detects soil qualities that may be used to increase yields

• The digital revolution in the agricultural sector, along with government financial incentives to farms, is likely to drive demand for precision farming in Europe in the forthcoming years

• Asia Pacific is expected to showcase the fastest growth owing to the availability of the largest agricultural land, which provides growth opportunities in countries such as China, India, Australia, and Japan

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• The global artificial intelligence in agriculture market size was valued at USD 1.91 billion in 2023 and is projected to grow at a compound annual growth rate (CAGR) of 25.5% from 2024 to 2030.

• The global industrial wireless sensor network market size was valued at USD 5.19 billion in 2023 and is projected to grow at a compound annual growth rate (CAGR) of % from 2024 to 2030.

Precision Farming Market Segmentation

Grand View Research has segmented the global precision farming market report based on offering, application, and region.

Offering Outlook (Revenue, USD Million; 2017 - 2030)

• Hardware

o Automation & Control Systems

o Drones

o Application Control Devices

o Guidance System

o GPS

o GIS

o Remote Sensing

o Handheld

o Satellite Sensing

o Driverless Tractors

o Mobile Devices

o VRT

o Map-based

o Sensor-based

o Wireless Modules

o Bluetooth Technology

o Wi-Fi Technology

o Zigbee Technology

o RF Technology

o Sensing Devices

o Soil Sensor

o Nutrient Sensor

o Moisture Sensor

o Temperature Sensor

o Water Sensors

o Climate Sensors

o Others

o Antennas & Access Points

• Software

o Web-based

o Cloud-based

• Services

o System Integration & Consulting

o Maintenance & Support

o Managed Types

o Data Types

o Analytics Types

o Farm Operation Types

o Assisted Professional Types

o Supply Chain Management Types

o Climate Information Types

Application Outlook (Revenue, USD Million; 2017 - 2030)

• Yield Monitoring

o On-Farm

o Off-Farm

• Field Mapping

• Crop Scouting

• Weather Tracking & Forecasting

• Irrigation Management

• Inventory Management

• Farm Labor Management

Regional Outlook (Revenue, USD Billion, 2017 - 2030)

• North America

o U.S.

o Canada

o Mexico

• Europe

o U.K.

o Germany

o France

o Russia

o Italy

• Asia Pacific

o China

o Japan

o India

o Australia

o Singapore

• South America

o Brazil

• Middle East and Africa (MEA)

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Global Uhf Connector Market Trends and Future Dynamics 2024 - 2031

The global UHF connector market is a significant component of the telecommunications and electronics industries, facilitating reliable connections for a wide range of applications. This article provides a comprehensive overview of the market, including trends, drivers, challenges, and future prospects.

Overview of the UHF Connector Market

The global UHF connector market is poised for growth, driven by advancements in telecommunications, broadcasting, and aerospace industries. By addressing challenges and leveraging opportunities, stakeholders can thrive in this dynamic market.

UHF connectors are a type of radio frequency (RF) connector designed for high-frequency applications. They are widely used in various sectors, including telecommunications, broadcasting, aerospace, and military, due to their durability and performance in challenging environments.

Key Features of UHF Connectors

Robust Design: UHF connectors are known for their rugged construction, making them suitable for harsh conditions.

Wide Frequency Range: They typically operate within the frequency range of 300 MHz to 1 GHz, making them versatile for many applications.

Easy Installation: These connectors are designed for quick and straightforward installation, often featuring screw-on or bayonet locking mechanisms.

Market Dynamics

Drivers of Market Growth

Increasing Demand for Telecommunications: The expansion of mobile networks and the growth of 5G technology are driving the demand for reliable connectors in telecommunications infrastructure.

Growth in Broadcasting and Media: As broadcasting services expand globally, the need for UHF connectors in antennas and transmission equipment is rising.

Advancements in Aerospace and Defense: The aerospace and military sectors require high-performance connectors for communication and navigation systems, boosting market demand.

Challenges Facing the Market

Market Competition: The UHF connector market is competitive, with numerous players offering similar products, which can lead to price pressures.

Technological Changes: Rapid advancements in connector technology can render older UHF connectors less desirable, requiring manufacturers to innovate continuously.

Economic Fluctuations: Economic downturns can impact investment in telecommunications and infrastructure projects, affecting demand for UHF connectors.

Regional Analysis

North America

North America holds a prominent share of the UHF connector market, driven by advanced telecommunications infrastructure and a strong presence of key manufacturers. The United States is a major contributor, with significant investments in 5G and IoT technologies.

Europe

Europe is experiencing steady growth in the UHF connector market, particularly in the aerospace, automotive, and telecommunications sectors. Countries like Germany and the UK are leading in technological advancements and demand for reliable RF connections.

Asia-Pacific

The Asia-Pacific region is expected to witness the highest growth in the UHF connector market, driven by rapid industrialization, urbanization, and increased investment in telecommunications infrastructure. Countries like China and India are key players in this growth.

Competitive Landscape

Key Players

Amphenol Corporation: A leading manufacturer of interconnect products, including UHF connectors for various applications.

TE Connectivity: Known for its innovative connectivity solutions, TE Connectivity offers a wide range of UHF connectors designed for high performance.

Hirschmann Automation and Control GmbH: A prominent player in the market, providing robust UHF connectors suitable for industrial applications.

Market Strategies

Product Innovation: Companies are focusing on R&D to develop advanced UHF connectors that offer improved performance and reliability.

Strategic Partnerships: Collaborations with telecommunications companies and infrastructure providers help enhance market reach and product offerings.

Geographic Expansion: Targeting emerging markets in Asia and Africa to capitalize on the growing demand for telecommunications and broadcasting solutions.

Future Outlook

The global UHF connector market is projected to experience steady growth over the next decade. As industries increasingly rely on high-frequency connectivity solutions, the demand for UHF connectors will likely continue to rise.

Trends to Watch

5G Deployment: The rollout of 5G networks will drive demand for advanced UHF connectors capable of supporting higher frequencies and data rates.

Miniaturization: The trend towards smaller, more compact electronic devices will influence the design and development of UHF connectors.

Sustainability Initiatives: Growing emphasis on eco-friendly manufacturing practices may lead to innovations in materials used for UHF connectors.

Conclusion

The global UHF connector market is poised for growth, driven by advancements in telecommunications, broadcasting, and aerospace industries. By addressing challenges and leveraging opportunities, stakeholders can thrive in this dynamic market. The future of UHF connectors will be characterized by innovation, sustainability, and a commitment to meeting the demands of high-frequency applications across diverse sectors.

Millimeter Wave Technology Market - Forecast(2024 - 2030)

Millimeter Wave Technology Market Overview

Millimeter Wave Technology Market is analysed to grow at a CAGR of 18.9% during the forecast 2021-2026 to reach $2.56 billion by 2026. Millimeter radio waves also known as Millimeter band which is electromagnetic waves with wavelength between 1 and 10 Millimeters. They have respective frequencies ranging from 30-300 GHz with respect to the applications. The Millimeter wave technology is applied mainly in Radio Detection and Ranging (RADAR) systems. The increasing demand of higher data transmission technologies and product miniaturization to offer high bandwidth tend to significantly drive the Millimeter wave technology market during the forecast period. Moreover, with the increasing trend of multi-input multi-output (MIMO) communications, MMW is been offering interest in understanding the capabilities of low-complexity approaches such as beamforming that require only a single RF chain in MMW systems. This application further helps in spatial processing for sensing and integrating information pertaining to a location in space which tends to uplift its market growth in the Aerospace sector. However, for most Millimeter wavebands, rain attenuation leads to a few dB of additional path loss within the distance range of 1 km which degrades the signal caused by the electromagnetic interference. Consequently, MMW technology is extensively utilized in various services such as radio broadcaster, remote sensing, automotive radars, wireless sensing, imaging and others which is analysed to create huge market growth across the globe.

Report Coverage

The report: “Millimeter Wave Technology Industry Outlook – Forecast (2021-2026)”, by IndustryARC covers an in-depth analysis of the following segments of the Millimeter Wave Technology Market.

By Product Type: Scanner Systems (Active Systems, Passive Systems), Radar and Satellite Communications Systems (Perimeter Surveillance Radar Systems, Application-Specific Radar Systems and Satellite Communication Systems), Telecommunication Equipment (Small-Cell Equipment, Macrocell Equipment) and Others.

By Frequency Band: 24 GHz to 57 GHz, 57 GHz to 86 GHz, 86 GHz to 300 GHz and Others.

By License Type: Light Licensed, Unlicensed and Fully Licensed.

By Component: Antennas & Transceiver Components, Frequency Sources, Communication & Networking, Imaging Components, RF & Radio Components, Sensors & Controls, Power & Battery Components, Interface Components and Others.

By End-Use Industry: Mobile & Telecommunication, Consumer Electronics, Automotive, Healthcare, Industrial, Aerospace & Défense and Others.

By Geography: North America(U.S., Canada and Mexico); Europe(U.K., Germany, Italy, France, Spain, Russia, Rest of Europe); APAC (China, Japan, South Korea, India, Australia, Rest of APAC); South America(Brazil, Argentina, Rest of Americas); RoW (Middle East & Africa).

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Key Takeaways

Increasing demand of Broadband and high mobile speeds across the globe is analysed to significantly drive the Millimeter Wave Technology Market during the forecast period 2021-2026.

Antennas & Transceiver Components are analysed to hold significant share in 2020 owing to its increasing adoption in the automotive sector for AEB (automatic emergency braking) applications.

Mobile & Telecommunication sector is expected to hold the highest market share in the forecast period among other end-use industries owing to the increasing demand for wireless communications technologies and its huge adoption in different smartphones.

Asia-Pacific is analysed to hold the highest share in 2020 owing to the extensive application of Millimeter wave technology in telecommunications and mobile applications and increasing production of smartphones in this region.

Millimeter Wave Technology Market Segment Analysis - By Component

By Component, the Millimeter Wave Technology Market Report is segmented into Antennas & Transceiver Components, Frequency Sources, Communication & Networking, Imaging Components, RF & Radio Components, Sensors & Controls, Power & Battery Components, Interface Components and Others. Antennas & Transceiver components is analysed to hold highest share 21.56% in 2020 owing to its increasing adoption in automotive sector. Millimeter wave technology has profoundly impacted the evolution of the radar sensors and has offered significant capabilities and efficiency improvements. The automotive industry is expected to benefit from this development. The increasing AEB (automatic emergency braking) applications in the 77 GHz radar system is one such indicator which tend to bring major opportunities for its market growth during the forecast period. With the recent focus on safety, such as the release of new federal guidance for automated vehicles, such as Automated Vehicles 3.0 by the National Highway Traffic Safety Administration (NHTSA), the market potential has been extended for use in the mid-end cars which tend to bring significant growth in its demand during the forecast period.

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Millimeter Wave Technology Market Segment Analysis - By End-Use Industry

By End-Use Industry, the Millimeter Wave Technology Market Report is segmented into Mobile & Telecommunication, Consumer Electronics, Automotive, Healthcare, Industrial, Aerospace & Défense and Others. Mobile & Telecommunication sector is analysed to hold the highest share during the forecast period 2021-2026. The Millimeter waves are considered to be the key enabling technology for successful deployment of 5th generation wireless communication network across the globe which is a major growing factor for its market growth in Mobile & Telecommunication sector. Increasing investment and adoption of 5G technology network is expected to create a huge demand for Millimeter wave technology equipment. The telecommunication industry is going under a radical change with the growing data consumption and limited bandwidth. Moreover, in last few years, the production and sales of smartphones, tablets and other mobile devices has brought a significant growth in the demand for wireless connectivity solutions. For instance, according to Global System for Mobile Communications Association (GSMA) Mobile economy report 2021, there were approximately 5.2 billion unique mobile subscribers in 2020 which was forecasted to reach 5.7 billion by the end of 2025 among which smartphones accounted for 60% of the connections and it is expected that the number would reach approximately six billion in 2026, with an 80% share of smartphones. This tend to bring significant growth in the demand of Millimeter wave technologies for supreme wireless connectivity solutions, further driving its market growth during the forecast period.

Millimeter Wave Technology Market Segment Analysis – By Geography

Asia-Pacific is analysed to be the major region with a share of 35% in 2020 for the Millimeter Wave Technology Market owing to the increasing application of Millimeter wave technology in Mobile & Telecommunication sector. Asia Pacific Millimeter wave technology market is primarily driven by increasing data consumption that has created the demand for efficient wireless backhaul solutions which tend to uplift the demand of telecommunication equipment further driving the market growth in this region. Moreover, with increasing infrastructural investment to set up 5th generation wireless network is analysed to be a driving factor for the growth of Millimeter wave technology in this region during the forecast period. For instance, as per the CISCO VNI, Asia Pacific accounted for 47% of global data traffic in 2021. This tend to create huge demand for the high bandwidth data transmission solutions which further drive the Millimeter wave technology market growth. Moreover, according to India Brand Equity Foundation (IBEF), mobile phone exports in India reached a record of $ 1.5 billion in 2020, of which 98% are expected to be smartphones. This increasing production of smartphones in this region is anticipated to bring huge demand for high broadband and mobile speed technologies which will drive the market growth of Millimeter wave technology in this region.

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Millimeter Wave Technology Market Drivers

Increasing demand of broadband and 5G connectivity solutions will enhance Millimeter wave technology market growth

High broadband speed is a crucial part for a wide range of end-use applications. With the increasing demand of broadband speed improvements which has resulted in increased consumption of high-bandwidth content tend to be a major driving factor for the market growth of Millimeter wave technology during the forecast period. In the next few years, the global average broadband speed is expected to grow from 62.5 Mbps to >130 Mbps owing to several factors such as deployment and adoption of fibre-to-the-home (FTTH), high-speed DSL and cable broadband adoption, as well as overall broadband penetration. These factors have brought growth in the adoption of various Millimeter wave technologies further driving its market growth during the forecast period. According to Organization for Economic Co-operation and Development (OECD), the communication network and service environment would become more complex by 2023, and the 5G technology market would witness immense growth due to the ongoing advancements in 5G network infrastructure. The unique characteristics of Millimeter waves enable near-line-of-sight wireless networks and make point-to-multipoint technology possible, enabling a single transmitter to serve multiple transceivers at various locations. This tend to drive its market growth during the forecast period.

Increasing application of Millimeter wave technology to reduce data traffic will propel the Millimeter Wave Technology Market

With the increasing users of smartphones and adoption of cloud-based services across various end-users, the data traffic issue has been a major factor that disrupts their working efficiency through latency and data crash. Data traffic refers to the amount of data which is transferred between the internet and the hosting account on the web server. With the user moving towards more data intensive content such as video streaming, augmented reality, voice over data, 4K video, increasing number of internet user on smart phone etc. data traffic is expected to rise in future. Growing data traffic creates bandwidth complexities and network congestion. For instance, according to Cisco Internet Annual Reports, 5G connection will generate nearly 3 times more traffic than a 4G connection by 2023 among which IoT devices will account for 50% of all networked devices. With the implementation of Millimeter wave technology, it is easy to transmit large amount of data as the frequency is directly proportional to bit rates. Thus, the Millimeter waves are suitable for transmission of digital data, cellular communications. This creates need for efficient wireless mobile backhaul. These features uplift its demand across various end-use industries using cloud-based services, further driving its market growth.

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Millimeter Wave Technology Market Challenges

Low penetration power through obstacles is analysed to hamper Millimeter Wave Technology Market growth

While Millimeter wave technology offers massive advantages over other radio frequencies but on the other hand, they also have some disadvantages which include low penetration power through obstacles. Millimeter waves are not capable of bouncing off physical objects which disrupts the connectivity and bring major challenges for its adoption especially in closed locations. Obstacles such as tree branches and walls can interfere and absorb the transmission and halt the signal. Additionally, Millimeter waves are more expensive than other commonly used frequencies. This makes the technology almost inaccessible for smaller companies that do not have the finances. Currently, mobile network providers are focused on building Millimeter wave-friendly 5G infrastructure. Moreover, rise in environmental concerns and adverse impact by Millimeter wave technology on the environment hamper its market growth across the globe.

Millimeter Wave Technology Market Landscape

Production Innovation, Acquisitions, Collaboration, and R&D activities are key strategies adopted by players in the Millimeter Wave Technology Market. In 2020, the market of Millimeter Wave Technology industry outlook has been fragmented by several companies. Millimeter Wave Technology top 10 companies include:

Axxcss Wireless Solutions

NEC Corporation

Siklu Communication

L3 HARRIS

Smiths Group

Eravant,

Aviat Networks

Farran Technologies

Millimeter Wave Products

Keysight Technologies

Acquisitions/Technology Launches/Partnerships

In March 2020, Keysight technologies and VIOMI, the pioneer of IoT@Home, announced their strategic partnership to advance 5G enabled IoT smart homes. Keysight’s 5G solutions were chosen by VIOMI to test the radio frequency (RF) performance of the company’s IoT devices for home applications. This will enhance the market growth of MMW technology in consumer electronics sector.

In January 2020, NEC Corporation launched their new Millimeter-wave distributed antenna radio unit to make better use of the 5G Millimeter-wave spectrum (28 GHz band). This will uplift channel quality for indoor 5G applications, further driving MMW technology market growth.

Millimeter Wave Technology Market — Forecast(2024–2030)

Millimeter Wave Technology Market Overview

Report Coverage

The report: “Millimeter Wave Technology Industry Outlook — Forecast (2024–2030)”, by IndustryARC covers an in-depth analysis of the following segments of the Millimeter Wave Technology Market.

By Product Type: Scanner Systems (Active Systems, Passive Systems), Radar and Satellite Communications Systems (Perimeter Surveillance Radar Systems, Application-Specific Radar Systems and Satellite Communication Systems), Telecommunication Equipment (Small-Cell Equipment, Macrocell Equipment) and Others.

By Frequency Band: 24 GHz to 57 GHz, 57 GHz to 86 GHz, 86 GHz to 300 GHz and Others.

By License Type: Light Licensed, Unlicensed and Fully Licensed.

By Component: Antennas & Transceiver Components, Frequency Sources, Communication & Networking, Imaging Components, RF & Radio Components, Sensors & Controls, Power & Battery Components, Interface Components and Others.

By End-Use Industry: Mobile & Telecommunication, Consumer Electronics, Automotive, Healthcare, Industrial, Aerospace & Défense and Others.

By Geography: North America(U.S., Canada and Mexico); Europe(U.K., Germany, Italy, France, Spain, Russia, Rest of Europe); APAC (China, Japan, South Korea, India, Australia, Rest of APAC); South America(Brazil, Argentina, Rest of Americas); RoW (Middle East & Africa).

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Key Takeaways

Increasing demand of Broadband and high mobile speeds across the globe is analysed to significantly drive the Millimeter Wave Technology Market during the forecast period 2024–2030.

Antennas & Transceiver Components are analysed to hold significant share in 2020 owing to its increasing adoption in the automotive sector for AEB (automatic emergency braking) applications.

Mobile & Telecommunication sector is expected to hold the highest market share in the forecast period among other end-use industries owing to the increasing demand for wireless communications technologies and its huge adoption in different smartphones.

Asia-Pacific is analysed to hold the highest share in 2020 owing to the extensive application of Millimeter wave technology in telecommunications and mobile applications and increasing production of smartphones in this region.

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Millimeter Wave Technology Market Segment Analysis — By Component

By Component, the Millimeter Wave Technology Market Report is segmented into Antennas & Transceiver Components, Frequency Sources, Communication & Networking, Imaging Components, RF & Radio Components, Sensors & Controls, Power & Battery Components, Interface Components and Others. Antennas & Transceiver components is analysed to hold highest share 21.56% in 2020 owing to its increasing adoption in automotive sector. Millimeter wave technology has profoundly impacted the evolution of the radar sensors and has offered significant capabilities and efficiency improvements. The automotive industry is expected to benefit from this development. The increasing AEB (automatic emergency braking) applications in the 77 GHz radar system is one such indicator which tend to bring major opportunities for its market growth during the forecast period. With the recent focus on safety, such as the release of new federal guidance for automated vehicles, such as Automated Vehicles 3.0 by the National Highway Traffic Safety Administration (NHTSA), the market potential has been extended for use in the mid-end cars which tend to bring significant growth in its demand during the forecast period.

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Millimeter Wave Technology Market Segment Analysis — By End-Use Industry

By End-Use Industry, the Millimeter Wave Technology Market Report is segmented into Mobile & Telecommunication, Consumer Electronics, Automotive, Healthcare, Industrial, Aerospace & Défense and Others. Mobile & Telecommunication sector is analysed to hold the highest share during the forecast period 2021–2026. The Millimeter waves are considered to be the key enabling technology for successful deployment of 5th generation wireless communication network across the globe which is a major growing factor for its market growth in Mobile & Telecommunication sector. Increasing investment and adoption of 5G technology network is expected to create a huge demand for Millimeter wave technology equipment. The telecommunication industry is going under a radical change with the growing data consumption and limited bandwidth. Moreover, in last few years, the production and sales of smartphones, tablets and other mobile devices has brought a significant growth in the demand for wireless connectivity solutions. For instance, according to Global System for Mobile Communications Association (GSMA) Mobile economy report 2021, there were approximately 5.2 billion unique mobile subscribers in 2020 which was forecasted to reach 5.7 billion by the end of 2025 among which smartphones accounted for 60% of the connections and it is expected that the number would reach approximately six billion in 2026, with an 80% share of smartphones. This tend to bring significant growth in the demand of Millimeter wave technologies for supreme wireless connectivity solutions, further driving its market growth during the forecast period.

Millimeter Wave Technology Market Segment Analysis — By Geography

Asia-Pacific is analysed to be the major region with a share of 35% in 2020 for the Millimeter Wave Technology Market owing to the increasing application of Millimeter wave technology in Mobile & Telecommunication sector. Asia Pacific Millimeter wave technology market is primarily driven by increasing data consumption that has created the demand for efficient wireless backhaul solutions which tend to uplift the demand of telecommunication equipment further driving the market growth in this region. Moreover, with increasing infrastructural investment to set up 5th generation wireless network is analysed to be a driving factor for the growth of Millimeter wave technology in this region during the forecast period. For instance, as per the CISCO VNI, Asia Pacific accounted for 47% of global data traffic in 2021. This tend to create huge demand for the high bandwidth data transmission solutions which further drive the Millimeter wave technology market growth. Moreover, according to India Brand Equity Foundation (IBEF), mobile phone exports in India reached a record of $ 1.5 billion in 2020, of which 98% are expected to be smartphones. This increasing production of smartphones in this region is anticipated to bring huge demand for high broadband and mobile speed technologies which will drive the market growth of Millimeter wave technology in this region.

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Millimeter Wave Technology Market Drivers

Increasing demand of broadband and 5G connectivity solutions will enhance Millimeter wave technology market growth

High broadband speed is a crucial part for a wide range of end-use applications. With the increasing demand of broadband speed improvements which has resulted in increased consumption of high-bandwidth content tend to be a major driving factor for the market growth of Millimeter wave technology during the forecast period. In the next few years, the global average broadband speed is expected to grow from 62.5 Mbps to >130 Mbps owing to several factors such as deployment and adoption of fibre-to-the-home (FTTH), high-speed DSL and cable broadband adoption, as well as overall broadband penetration. These factors have brought growth in the adoption of various Millimeter wave technologies further driving its market growth during the forecast period. According to Organization for Economic Co-operation and Development (OECD), the communication network and service environment would become more complex by 2023, and the 5G technology market would witness immense growth due to the ongoing advancements in 5G network infrastructure. The unique characteristics of Millimeter waves enable near-line-of-sight wireless networks and make point-to-multipoint technology possible, enabling a single transmitter to serve multiple transceivers at various locations. This tend to drive its market growth during the forecast period.

Increasing application of Millimeter wave technology to reduce data traffic will propel the Millimeter Wave Technology Market

With the increasing users of smartphones and adoption of cloud-based services across various end-users, the data traffic issue has been a major factor that disrupts their working efficiency through latency and data crash. Data traffic refers to the amount of data which is transferred between the internet and the hosting account on the web server. With the user moving towards more data intensive content such as video streaming, augmented reality, voice over data, 4K video, increasing number of internet user on smart phone etc. data traffic is expected to rise in future. Growing data traffic creates bandwidth complexities and network congestion. For instance, according to Cisco Internet Annual Reports, 5G connection will generate nearly 3 times more traffic than a 4G connection by 2023 among which IoT devices will account for 50% of all networked devices. With the implementation of Millimeter wave technology, it is easy to transmit large amount of data as the frequency is directly proportional to bit rates. Thus, the Millimeter waves are suitable for transmission of digital data, cellular communications. This creates need for efficient wireless mobile backhaul. These features uplift its demand across various end-use industries using cloud-based services, further driving its market growth.

Millimeter Wave Technology Market Challenges

Low penetration power through obstacles is analysed to hamper Millimeter Wave Technology Market growth

While Millimeter wave technology offers massive advantages over other radio frequencies but on the other hand, they also have some disadvantages which include low penetration power through obstacles. Millimeter waves are not capable of bouncing off physical objects which disrupts the connectivity and bring major challenges for its adoption especially in closed locations. Obstacles such as tree branches and walls can interfere and absorb the transmission and halt the signal. Additionally, Millimeter waves are more expensive than other commonly used frequencies. This makes the technology almost inaccessible for smaller companies that do not have the finances. Currently, mobile network providers are focused on building Millimeter wave-friendly 5G infrastructure. Moreover, rise in environmental concerns and adverse impact by Millimeter wave technology on the environment hamper its market growth across the globe.

Millimeter Wave Technology Market Landscape

Production Innovation, Acquisitions, Collaboration, and R&D activities are key strategies adopted by players in the Millimeter Wave Technology Market. In 2020, the market of Millimeter Wave Technology industry outlook has been fragmented by several companies. Millimeter Wave Technology top 10 companies include:

Axxcss Wireless Solutions

NEC Corporation

Siklu Communication

L3 HARRIS

Smiths Group

Eravant,

Aviat Networks

Farran Technologies

Millimeter Wave Products

Keysight Technologies

Acquisitions/Technology Launches/Partnerships

In March 2020, Keysight technologies and VIOMI, the pioneer of IoT@Home, announced their strategic partnership to advance 5G enabled IoT smart homes. Keysight’s 5G solutions were chosen by VIOMI to test the radio frequency (RF) performance of the company’s IoT devices for home applications. This will enhance the market growth of MMW technology in consumer electronics sector.

In January 2020, NEC Corporation launched their new Millimeter-wave distributed antenna radio unit to make better use of the 5G Millimeter-wave spectrum (28 GHz band). This will uplift channel quality for indoor 5G applications, further driving MMW technology market growth.

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RF Semiconductor Market to Receive Overwhelming Hike in Revenues By 2031

Allied Market Research, titled, “RF Semiconductor Market," The RF semiconductor market was valued at $18.9 billion in 2021, and is estimated to reach $39.6 billion by 2031, growing at a CAGR of 8.4% from 2022 to 2031. The rapid development of 5G technology and the rapid adoption of IoT technology has increased the need for robust network capacity are some of the factors driving the RF Semiconductor market.  

RF Power Semiconductors stands for Radio Frequency Power Semiconductors. These electronic devices are used for cellular and mobile wireless communications. There are numerous applications such as military radar, air and maritime traffic control systems. Various materials such as silicon, gallium arsenide, and silicon germanium are used to manufacture RF power semiconductors.  

The growth of the RF semiconductor market is fueled by the massive adoption of AI technology. AI enhances business by improving the customer experience, enabling predictive maintenance and improving network reliability. By integrating effective machine learning algorithms, the company can reduce the design complexity of RF semiconductor devices and maximize RF parameters such as channel bandwidth, spectrum monitoring and antenna sensitivity. And while AI unlocks new capabilities for military applications, wireless applications in spectrum acquisition, communication systems, signal classification and detection in adverse spectrum conditions will also benefit greatly.  

Robust network capacity has become essential with the proliferation of IoT technologies. IoT helps build a connected framework of physical things, such as smart devices, through secure networks using RF technology. For example, RF transceivers are used in smart home devices to connect to the internet via Bluetooth and Wi-Fi. Moreover, with the increasing number of smart city projects in various regions of the world, the demand for smart devices has increased significantly. In recent years, players in the RF semiconductor industry have been focused on product innovation, to stay ahead of their competitors. For instance: In January 2020, Qorvo Inc. launched the Qorvo QPG7015M IoT transceiver, which enables the simultaneous operation of all low-power, open-standard smart home technologies. Additionally, it is targeted at gateway IoT solutions that require the full-range capability of Bluetooth low energy (BLE), Zigbee, and Thread protocols, with +20 dBm (decibel per milliwatt) outputs. 

The RF Semiconductor market is segmented on the basis of product type, application, and region. By product type, the market is segmented into RF power amplifiers, RF switches, RF filters, RF duplexers, and other RF devices. By application, the market is categorized into telecommunication, consumer electronics, automotive, aerospace & defense, healthcare, and others. Region-wise, the RF Semiconductor market is analyzed across North America (U.S., Canada, and Mexico), Europe (UK, Germany, France, and rest of Europe), Asia-Pacific (China, Japan, India, South Korea, and rest of Asia-Pacific) and LAMEA (Latin America, the Middle East, and Africa).   

The outbreak of COVID-19 has significantly impacted the growth of the global RF Semiconductor sector in 2020, owing to the significant impact on prime players operating in the supply chain. On the contrary, the market was principally hit by several obstacles amid the COVID-19 pandemic, such as a lack of skilled workforce availability and delay or cancelation of projects due to partial or complete lockdowns, globally.  

According to Minulata Nayak, Lead Analyst, Semiconductor and Electronics, at Allied Market Research, “The global RF Semiconductor market share is expected to witness considerable growth, owing to rising demand for the rapid development of 5G technology and the rapid adoption of IoT technology has increased the need for robust network capacity and has developed the RF semiconductor market size. On the other hand, the use of alternative materials such as gallium arsenide or gallium nitride improves device efficiency but also increases the cost of RF devices which is restraining the market growth during the anticipated period. Furthermore, the increased use of RF energy in the number of smart city projects in various countries around the world is creating opportunities for the RF Semiconductor market trends.” 

According to RF Semiconductor market analysis, country-wise, the rest of the Asia-Pacific region holds a significant share of the global RF Semiconductor market, owing to the presence of prime players. Major organizations and government institutions in this country are intensely putting resources into these global automotive data cables. These prime sectors have strengthened the RF Semiconductor market growth in the region.  

KEY FINDINGS OF THE STUDY 

In 2021, by product type, the RF filters segment was the highest revenue contributor to the market, with $5,372.82 million in 2021, and is expected to follow the same trend during the forecast period.   

By application, the consumer electronics segment was the highest revenue contributor to the market, with $6,436.63 million in 2021. 

Asia-Pacific contributed the major share in the RF Semiconductor market, accounting for $7,937.05 million in 2021, and is estimated to reach $17,059.52 million by 2031, with a CAGR of 8.62%. 

The RF Semiconductor market key players profiled in the report include Analog Devices Inc., Microchip Technology Inc., MACOM Technology, NXP Semiconductors, Qorvo, Inc., Qualcomm Incorporated, Texas Instruments Inc., Toshiba Electronic Devices & Storage Corporation, TDK Electronics, and Teledyne Technologies Inc. The market players have adopted various strategies, such as product launches, collaborations & partnerships, joint ventures, and acquisitions to expand their foothold in the RF Semiconductor industry. 

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Smart Card Market : Analysis of Upcoming Trends and Current Growth

The Smart card market size is projected to reach USD 16.9 billion by 2026, from USD 13.9 billion in 2021; growing at a compound annual growth rate (CAGR) of 4.0% during the forecast period.

Major drivers for the growth of the smart card market are surged demand for contactless card (tap-and-pay) payments amid COVID-19, proliferation of smart cards in healthcare, transportation, and BFSI verticals; increased penetration of smart cards in access control and personal identification applications; and easy access to e-government services and risen demand for online shopping and banking.

Download PDF: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=285

By Vertical segment, the smart card market share for telecommunications segment held the largest share of the market A subscriber identity module (SIM) card is a type of microcontroller-based smart card used in mobile phones and other devices. A SIM identifies and authenticates a subscriber to a wireless cell phone network. The telecommunications segment accounted for the maximum share of 42% of the smart card market in 2020. Expanding global mobile network and improvements in its infrastructure are boosting the growth of the market. In addition, COVID-19 led to an increased demand for connectivity. The current crisis provided a push to the trend of digitalization of business and private communication with cellular technology, along with the generalization of digital conferences. Moreover, the penetration of high-end SIM card technologies, such as LTE, 5G, M2M, eSIM, and SWP, is expected to augment the market growth in the coming years.

By Interface, contactless segment of smart card market is projected to account for largest size of the market during the forecast period A contactless smart card includes an embedded smart card secure microcontroller or equivalent intelligence, internal memory, and a small antenna; it communicates with readers through a contactless radio frequency (RF) interface. Radio-frequency identification (RFID) or near-field communication (NFC) communication technologies are primarily used for contactless smart card applications. COVID-19 is positively impacting the contactless smart card industry growth as the World Health Organization (WHO) and governments across the world are advocating the use of contactless smart cards for various purposes to ensure social distancing to contain the spread of the virus. Contactless smart cards provide ease, speed, and convenience to users. The contactless interface has become highly relevant in the current COVID-19 situation, especially for payment applications, as it facilitates safe and secure transactions without physical contact.

By Region, smart card market in APAC estimated to account for the largest size of the market. Smart card market statistics in Asia Pacific (APAC) is the largest market during forecast period. The robust financial system that is being increasingly digitized and government agencies incorporating smart chip-based systems for better monitoring of processes are propelling several APAC countries to adopt smart card solutions owing to increasing demand, specifically in the transportation, BFSI, retail, government, and healthcare sectors. Smart cards are used to purchase tickets in metros, buses, and ferries, among others, in several countries in APAC. China is projected to witness the highest demand for smart cards in the region owing to a large consumer base and the presence of a number of smart card manufacturers.

Properly implemented smart cards in all sectors have proven highly effective in combating thefts and fraud. Government projects, such as the Aadhar card in India, drive the demand for smart cards for use in a number of sectors. Moreover, security concerns, particularly within the public sphere, are also expected to fuel the growth of the market in APAC.

Top Smart Card Companies - Key Market Players Thales Group (France), IDEMIA (France), Giesecke + Devrient GmBH (Germany), CPI Card Group (US), HID Global Corporation (US), Watchdata (China), Eastcompeace (China), Inteligensa (US), ABCorp (US), and CardLogix (US) are a few major smart card companies in the market.

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