Luxembourg-based satellite telecom operator OQ Technology is testing investor appetite for space-based Internet of Things (IoT) technology, seeking EUR 30 million in fresh funding as competition intensifies in the nascent market for satellite-enabled device connectivity.

The company, which has deployed 10 satellites since 2019, plans to launch 20 more as larger telecommunications companies and satellite operators begin developing similar IoT services. The Series B funding round follows a EUR 13 million raise in 2022 and aims to strengthen its global 5G IoT network coverage.

OQ Technology has secured initial backing through a convertible loan from the Luxembourg Space Sector Development Fund, a joint initiative between SES S.A. and the Luxembourg government. Previous investors, including Aramco's venture capital arm Wa'ed Ventures and Greece's Phaistos Investment Fund, are participating in the new round.

The startup differentiates itself by focusing on standardized cellular technology for narrowband-IoT, contributing to 3GPP protocols that allow existing cellular chips to connect with satellites. This approach contrasts with proprietary systems offered by competitors, replacing traditional bulky satellite systems with compact, cost-efficient IoT modems that offer plug-and-play functionality.

"The satellite IoT sector is still largely in the proof-of-concept phase," says the company representative. "While there's significant potential, companies face challenges in standardization and convincing industries to adopt these new technologies at scale."

In an effort to secure its supply chain, the company is exploring partnerships in Taiwan's semiconductor industry. It has begun collaborating with the Industrial Technology Research Institute (ITRI), though these relationships are still in the early stages. The company has shipped initial terminals to prospective Taiwanese clients, marking its first steps in the Asian market.

The global reach for semiconductor partnerships comes as the company expands its geographical footprint, having established subsidiaries in Greece, Saudi Arabia, and Rwanda. Plans for US market entry are underway, though regulatory approvals and spectrum access remain hurdles in some markets.

Current clients include Aramco, Telefonica, and Deutsche Telekom, primarily using the technology for asset tracking and remote monitoring in industries such as energy, logistics, and agriculture. While the company estimates a potential market of 1.5 billion devices that could use satellite IoT connectivity, actual adoption rates remain modest.

"The challenge isn't just technical capability," notes the company representative. "It's about proving the economic case for satellite IoT in specific use cases where terrestrial networks aren't viable but the application can support satellite connectivity costs."

Market dynamics are also shifting. Recent announcements from major tech companies about satellite-to-phone services have sparked interest in space-based connectivity, but may also increase competition for spectrum and market share. Several companies are pursuing similar standards-based approaches, potentially commoditizing the technology.

For OQ Technology, the ability to deploy its planned satellites and convert pilot projects into paying customers will be crucial. While the company's focus on standardized technology may reduce technical risks, successfully scaling the business will require navigating complex regulatory environments and proving the technology's reliability across different use cases.

AIDC And POS: Improving Retail With Smooth Transactions

Creating the next AIDC and retail point of sale systems.

Mobile point-of-sale (POS) devices, tabletop payment systems, and Automatic Identification and Data Capture (AIDC) systems are essential tools for contemporary merchants in the quickly changing retail scene of today. They assist to manage inventory, expedite operations, and improve the customer experience.

What Is POS? Significance

PoS is essential to any retail business. This controls how customers purchase goods and services in stores. Customers pay for products and services at a point of sale (POS), where sales taxes may be applicable. The shop owner may monitor sales and create reports to demonstrate the success of the company by utilizing POS.

A PoS system’s primary component is a software program that controls user access and transactions. Since this data is essential to corporate management, the purchase history is one of the most significant factors that the PoS system keeps track of.

Point-of-sale has existed since retail began. Companies recorded transactions using ledger books, paper receipts, and pencils before computers and digital technology. Nonetheless, companies today handle their PoS transactions using digital technologies. Furthermore, a PoS system also contributes to time and cost savings. The significance of PoS and other system components will become clearer to you after reading this essay.

Data creation is also increasing more rapidly than ever with to new developments, and businesses need effective methods to swiftly gather and process the flood of data. Most industries handle information and data collection using Automatic Identification and Data Capture (AIDC) technology.

What Is AIDC?

AIDC technology helps businesses quickly monitor, record, distribute, and preserve data. AIDC devices need little to no interaction from the person who is responsible for collecting or retrieving data.

In general, enterprises and institutions may swiftly and effectively gather and filter through vast volumes of data with the use of automated identification and data capture systems.

How Is Operates AIDC Technology?

AIDC technology includes several different kinds of technology. This includes known protocols like UPC barcodes on retail items or newer ones like smart cards and optical character recognition (OCR) technologies.

The capability that unites all AIDC systems is their capacity to immediately:

Gather information

Transform recorded information into a digital file.

Keep the information gathered.

Data transfer for interpretation and analysis

Furthermore, AIDC instruments are often made to be compact, durable, portable, enhancing user comfort, and able to endure challenging environments without sacrificing or distorting their data.

Advanced cellular IoT platforms from MediaTek provide very powerful system-on-chip (SoC) technologies backed by a robust ecosystem partner network. Device makers and OEMs may rapidly design safe, high-performing, and adaptable retail solutions using these tools.

With the rise of biometric identity, contactless payments, and Internet of Things devices, scalable, reliable solutions are needed more than ever. These expanding demands are met by MediaTek’s SoCs, which provide the adaptability and personalization needed for worldwide deployment in a range of markets.

What Is SOC System On Chip?

A central processing unit (CPU), graphics processing unit (GPU), modem, dedicated signal processor, peripherals, primary and secondary memory, and other components are all found separately in a traditional motherboard-based computer or electronic device. In contrast, a SoC combines all of these functions into a single microchip. Secondary memory, which is often introduced when integrated into a particular device, can be the lone exception. Advanced SoCs provide analog, digital, mixed-signal, and RF signal processing in addition to Wi-Fi, Bluetooth, and NFC wireless networking.

Why Choose MediaTek IoT platforms to power POS and AIDC Solutions?

Ecosystem Partners and Global Adaptability

MediaTek offers scalable SoC platforms that provide OEMs a range of reliable options by collaborating with a large network of ecosystem partners and an established supply chain. These solutions, whether in the form of modules, PCBs, or Independent Design Houses (IDH), allow OEMs to create adaptable devices that satisfy regionally specific needs, such as adhering to local manufacturing and product restrictions.

Advanced Security and communication

MediaTek SoCs provide a wide range of reliable wireless communication choices, including as Bluetooth, 4G/5G cellular, and multi-band Wi-Fi. These characteristics, when combined with integrated hardware security modules (HSMs) for PCI-DSS compliance and tamper detection, provide quick, safe transactions and smooth backend system interaction.

Support for AIDC Solutions and Contactless Payments

As contactless payments take over, MediaTek-powered devices enable payment technologies like RFID and NFC for automatic data collection and identification, resulting in quicker checkout times and improved inventory management.

In regions where safe, high-value transactions are becoming more prevalent, MediaTek chips’ highly competent octa-core CPUs with potent NPUs for AI processing allow zero-wait edge processing for sophisticated biometric authentication, such as fingerprint, palm, and face recognition.

Customizable, Android-Based Solutions

MediaTek’s Android-compatible SoCs make integration easier by providing OEMs with a shared development framework and a range of design choices. These systems are able to adapt to the most demanding requirements of retail point-of-sale scenarios by including AIDC technology, high resolution camera support, and pin-sharp FHD+ touchscreen displays.

Cost-effectiveness and durability

MediaTek SoCs are perfect for merchants seeking dependable, low-maintenance devices that can function for years without periodic hardware updates because of their optimized power efficiency and extended product life cycles.

Conclusion

The whole line of cellular IoT SoCs from MediaTek is designed especially to satisfy the needs of POS retail settings nowadays. OEMs and device manufacturers may safely implement MediaTek-powered POS and AIDC systems with an emphasis on security, scalability, and solid ecosystem alliances, providing dependable performance and future-proof flexibility for merchants globally.

Read more on Govindhtech.com

Top 5 Challenges of Embedded Software Development 2025

Businesses are concentrating on efficient methods to evaluate the data and produce insights that will help them improve their business processes and make wise decisions as a result of the rapid generation and gathering of data by enterprises worldwide. This need is being met by artificial intelligence (AI) and machine learning (ML), which also automate processes, solve complicated problems, and allow experience-based self-learning.

Almost every industry, including banking, consumer electronics, aerospace, automotive, security, and others, has experience with embedded systems. The accuracy, dependability, speed, and low power consumption of embedded systems are well known, and they can be applied to a greater range of tasks. A variety of microprocessors, programming languages, and operating systems are needed for the perfect embedded system, which is made up of both hardware and software.

For consumer goods like phones, robots, modems, automobiles, toys, security systems, appliances, televisions, digital watches, etc., many manufacturers utilize embedded software. Embedded software makes a device's hardware function in accordance with our specifications. Firmware, another name for embedded software, is housed in the hardware to form a single embedded system. It supports the operation of mission-critical devices like industrial automation systems, electronic control units, and anti-lock brakes in automobiles, among others. However, development organizations must also overcome certain obstacles presented by embedded software.

Let's talk about a few of the difficulties in developing embedded software.

Stability – Any unexpected behavior on the part of an embedded system can cause chaos and pose significant risks. Its behavior should be consistent under all conditions, and stability is crucial.

Safety – Given that embedded systems are utilized in numerous vital and life-saving functions in all kinds of critical environments, safety is one of their most important challenges. It is distinguished by constraints and stringent demands on testing, quality, and engineering know-how.

Connectivity – Given that there are numerous ways to connect to the internet—Ethernet, Wi-Fi, LoRa, cellular, Bluetooth, and other sources—this is one of the major challenges faced by embedded software developers. Every source has advantages and disadvantages of its own, and developers need to be aware of the various software stacks in order to ensure that the hardware functions.

Security – Developers face a difficult task in protecting their devices against ever-more complex security threats. Due to the devices' interconnectedness, the hazards associated with IoT devices are increasing rapidly as they become more and more popular worldwide. Hacking attacks are a common occurrence, and it's important to identify precisely which information needs to be protected.

Over-the-air-Updates – Once the device is online, developers will be able to remotely update the firmware. Customers can update software on their own with the aid of IoT. But in any deployment involving thousands of devices, the developers must concentrate on

Generate a firmware update

Save it to all the devices

Verify that they are delivered from a reliable source.

Run that specific update on the devices at the appropriate time.

Always be prepared to roll back updates right away in the event of a problem.

Silicon Signals supports the development of embedded systems and software across a range of sectors and industries. Please subscribe to our blog for more information about embedded systems and embedded software development. You can also email us at [email protected] with any questions you have about sales, and we'll be happy to help.

5G Chipset Market Predicted to Surge at a 25.5% Year-on-Year Growth, Projected to Attain US$ 180.0 Billion by 2032

The global 5G Chipset Market is slated to witness an unprecedented surge, with a projected annual growth rate of 25.5% Year-on-Year (Y-o-Y), reaching a staggering valuation of US$180.0 billion by 2032. This astronomical growth is substantiated by several key factors.

The escalating demand for cellular Internet of Things (IoT) connectivity, coupled with an increasing need for high-speed internet and expansive network coverage, acts as a significant driving force behind this surge. The proliferation of mobile data traffic and the burgeoning requirement for smart technologies further propel this upward trajectory.

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Currently, the network capacity is incapable of handling M2M and human-based communications, as well as their different communication patterns such as latency time. For this reason, a next-level cellular network for mobile communication, featuring hyper-connectivity and larger bandwidth, is required (e.g., 5G network).

M2M communication technology will be widely used in heavy manufacturing industries and process industries (e.g., food industries) to increase the efficiency of different processes and reduce human interference with machines. M2M communication is thus expected to drive the 5G chipset market.

Key Takeaways from the Market Study

Global 5G chipset market worth to experience over 8x growth until 2032

By frequency, sales of sub-6 GHz 5G chipsets to accelerate at a 23.2% value CAGR

Asia Pacific to be the most opportunistic region for market growth, registering a CAGR of 25.5%

U.S to emerge as the dominant market, yielding US$ 69 Billion in value by 2032

China to be the most lucrative market in APAC, documenting a 24.6% CAGR

Japan & South Korea to yield dollar opportunities worth US$ 10 Billion and US$ 7 Billion respectively

Competitive Landscape

Players in the global 5G Chipset Market focus on expanding their global reach through various strategies, such as; partnerships, collaborations, and partnerships. The players are also making a significant investment in R&D to add innovations to their products which would help them in strengthening their position in the global market. Some of the recent developments among the key players are:

In September 2020, Qualcomm launched a new 5G mobile platform in the 7-series, the Snapdragon 750G 5G Mobile Platform, which enables 5G with brilliant HDR gaming and on-device AI.

In June 2020, Nokia announced a collaboration with Broadcom for the custom system-on-chip solutions for the vendor’s ReefShark-powered portfolio

In June 2021, Samsung Electronics unveiled a new range of new chipsets that will be embedded into the company’s next generation 5G solutions. The new 3GPP Rel.16 compliant chipsets consist of a third generation mmWave Radio Frequency Integrated Circuit (RFIC) chip, a second generation 5G modem System-on-Chip (SoC) and a Digital Front End (DFE)-RFIC integrated chip.

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Know More About What the 5G Chipset Market Repost Covers

Future Market Insights offers an unbiased analysis of the global 5G chipset market, providing historical data for 2015-2021 and forecast statistics from 2022-2032.

Key Segments Covered In The 5G Chipset Market Report

5G Chipset Market by Type:

5G Chipset Modem

5G Chipset RFIC

5G Chipset Market by Process Node:

5G Chipsets less than 10 nm

5G Chipsets between 10-28 nm

5G Chipsets above 28 nm

5G Chipset Market by Frequency:

Sub-6 GHz 5G Chipset

24-39 GHz 5G Chipset

Above 39 GHz 5G Chipset

5G Chipset Market by Application:

5G Chipset for Telecommunications

5G Chipset for Mobile Devices

5G Chipset for Non-Mobile Devices

5G Chipset for Automobiles

5G Chipset Market by Region:

North America 5G Chipset Market

Latin America 5G Chipset Market

Europe 5G Chipset Market

Asia Pacific 5G Chipset Market

Middle East and Africa 5G Chipset Market

Severe Vulnerabilities in Cinterion Cellular Modems Pose Risks to Various Industries

The Hacker News : Cybersecurity researchers have disclosed multiple security flaws in Cinterion cellular modems that could be potentially exploited by threat actors to access sensitive information and achieve code execution. "These vulnerabilities include critical flaws that permit remote code execution and unauthorized privilege escalation, posing substantial risks to integral communication networks and IoT http://dlvr.it/T6pjqr Posted by : Mohit Kumar ( Hacker )

Lantronix Expands Family of M110 Mobility Solutions With

New Post has been published on https://petn.ws/FmVh0

Lantronix Expands Family of M110 Mobility Solutions With

IRVINE, Calif., March 20, 2024 (GLOBE NEWSWIRE) — Lantronix Inc. (NASDAQ: LTRX), a global provider of compute and connectivity IoT solutions, today announced the addition of the new M114 CAT-1BIS modem to its family of M110 mobility solutions. Available now in EMEA markets, the M114 CAT-1BIS is a serial-to-cellular modem that comes pre-configured with Lantronix’s […]

See full article at https://petn.ws/FmVh0 #CatsNews #AdvancedIoTTechnology, #Inc, #IndustrialAutomation, #IoTCellularGateway, #Lantronix, #NasdaqLTRX, #SmartCities

Global 5G Technology Market : Growth and Analysis ,Forecast 2023 to 2032 by Product Revenue and Type.

The Global 5G Technology Market was valued at USD 139.5 Billion in 2023 and is estimated to reach USD1780.60 Billion by 2030, growing at a CAGR of 40.9 % from 2023 to 2030.  

Scope of the market:

A 5th-generation technology for digital cellular wireless networks that offers faster speed, reliable connection, and increased network capacity. 5G service technology supports 5G applications like Augmented reality(AR), virtual reality(VR), Internet of Things (IoT), and many more.5G networks have faster speed as compared to previous networks like 4G, providing super-fast data transmission. For instance, augmented reality will enhance the wearable technology that will be integrated with the person’s daily life due to its speed. 5G will also help in improving the safety and security in smart cities. For example, tracking car accidents, real-time video recording, and terrorist attacks can automatically send signals or warn security to take a step ahead. For CCTV systems as well 5 G-enabled equipment will be able to receive the updates wirelessly and can also link various devices simultaneously.

5G technology in the future will demand more gadgets and increasing demand for smartphones will expand this market growth. The 5G mobile services market revenue is expected to generate 845 billion dollars by 2033. Moreover, post-Covid, people are more reliable on faster network speed which has developed a demand for high-speed connectivity.

Moreover, laptop manufacturers are enabling the 5 G inbuilt as the primary need for coming generations. Additionally, chipmaker Intel has offered new 5G solution 5000 modems in laptops from Asus, Acer, and HP covering most of the models.

According to Ericsson, 5G subscriptions will tremendously expand in the year 2020 to 2027, to almost acquiring 4 billion subscriptions. Countries like India, Bhutan Nepal, and East Asia will be highly capturing subscriptions.

Economic Impact of Covid-19:

The analysis of the COVID-19 recovery trajectory provides an overview of the main strategies that industries are implementing to respond to and recover from the economic crisis. It alsofocuses on the post-pandemic and pre-pandemic era of the Global 5G Technology Market through PEST analysis, SWOT, Quantitative and Qualitative analysis, Attractive analysis, and DROs.

Key Players:

Qualcomm Technologies Inc,

Samsung Group

MediaTek Inc,

ZTE Corporation

Accenture Plc

Dell Technologies Inc.

HCL Technologies Ltd.

Viavi Solutions Inc.

Fujitsu Ltd

Cisco Systems Inc.

Intel Corp.

Deutsche Telekom AG

T Mobile US Inc.

Siemens AG

Telstra Ltd.

Recent Developments in Global 5G Technology Market.

In 2023, Qualcomm Technologies, a leader in 3G, 4G, and 5G is now driving the technology evolution for 5G Advanced in Release 18. This 5G advance will support new devices, services, spectrum, and deployments. 5G is predicted to power the digital economy and will enable up to 13.1T $ globally by 2035. The connected intelligent edge will deliver better privacy and lower latency.

Snapdragon, X70 has introduced the world's first 5G AI processor in a 5G Modem-RF system, a breakthrough 5G performance.

In 2023, MediaTek and Samsung Electronics Co Ltd completed the successful testing of 5G standalone Uplink (UL) 2CC carrier aggregation with C-band UL MIMO to reach the top uplink which is the best achievement on wireless mobile capabilities. The demand for uplink performance is increasing due to factors like live streaming, video conference, and multi-player gaming.

With over 50 million 5G consumers reliance Jio has led the 5G adoption in India.

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Exploring the $81.0 Billion 5G Chipsets Industry by 2028

The 5G Chipsets market is projected to grow from USD 36.3  billion in 2023 to USD 81.0  billion by 2028; it is expected to grow at a CAGR of 17.4% from 2023 to 2028. The key factors fueling the growth of the 5G Chipsets market include rising investments in 5G network by leading corporations and the growing demand for 5G supported consumer electronics.

The Sub – 6 GHz 5G Chipsets segment is projected to hold the highest account from 2023 to 2028

OEMs have a demand for both sub-6 GHz and mmWave frequency bands. 5G devices operating in the sub-6 GHz spectrum band are likely to play an important role in delivering widespread coverage and supporting multiple use cases. Companies such as Huawei and ZTE do 90% of their work in sub-6 GHz. Sub-1 GHz frequency support 5G services in urban, suburban, and rural areas and may find its role in IoT services. This spectrum is likely to help 5G services reach hard-to-reach and populated public areas. Spectrum from 1 to 6 GHz is used for coverage and capacity applications of 5G.

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By Process Node, less than 10 nm Chipsets segment is expected to have high share in the market

5G chipsets with less than 10 nm process nodes primarily include modems for mobile devices and 5G infrastructure to an extent. X55 and X50 modem chips, offered by Qualcomm, are built on 7 nm nodes, while the X60 modem chip is built on a 5 nm node. A shift from a larger to a smaller process node, such as 5 nm and 7 nm, makes the actual modem hardware smaller and more power efficient, making it feasible to fit into smaller devices. 5G-integrated SoCs, offered by MediaTek, have an inbuilt Helio M70 modem and are built on a 7 nm node.

North America region is expected to hold a moderate growth rate in the market during the forecast period

The growth of the North America 5G chipsets market is attributed to various factors, such as an increase in automation in different industries, several subscribers owning more than one connected device, the emergence of advanced technologies, e.g., IoT, the high growth rate of connected/autonomous cars, increase in cellular M2M connections, high demand for on-demand video services, and development of smart cities. 5G network connectivity will be required in these applications.

The key players operating in the 5G Chipsets market are  Qualcomm Technologies, Inc. (US), MediaTek Inc. (Taiwan), Huawei Technologies Co., Ltd. (China), SAMSUNG (South Korea), and Broadcom (US), Qorvo, Inc (US), Skyworks Solutions, Inc.  (US), Analog Devices, Inc. (US), Marvell (US), Anokiwave, Inc  (US), NXP Semiconductors (Netherlands), Xilinx (Acquired by AMD) (US), Texas Instruments Incorporated (US),  Murata Manufacturing Co., Ltd. (Japan), Renesas Electronics Corporation (Japan), Infineon Technologies AG (Germany), MACOM (US), u-blox (Switzerland), Sivers IMA (Sweden), Unisoc (Shanghai) Technologies Co., Ltd. (China), Arm Limited (UK), Cadence Design Systems, Inc. (US), Fibocom Wireless Inc. (China), Quectel (China), and OMMIC (France).

Industrial Cellular Modem market Key Details and Outlook by Top Companies till 2031

The Insight Partners presenting “Global Industrial Cellular Modem Market Forecast | Share and Size - 2031”. This market research is ideal for businesses opting to enter or excel in the Industrial Cellular Modem market. This strategic market forecast not only makes businesses aware of present market scenarios but also presents future market forecasts. These insights profoundly cover Industrial Cellular Modem market size, share, growth, and projected revenue in the forecast duration.

To add exclusive features, this market research is enriched with the COVID-19 analysis. A dedicated chapter covering the impact of COVID-19 on the market players and their operations. The immediate impact of the pandemic was followed by the disruption of supply chains. The study attempts to offer an analysis of the situation and presents insights into companies' strategic responses. This research is based on valid information sources that make it a credible asset. Through a range of quantitative methods and qualitative approaches, this research brings forward comprehensive insights on trends, drivers, and restrictions ahead of Industrial Cellular Modem market players. PESTEL, Porter's five forces, and SWOT models are used to analyze the business environment across a range of categories, geographical regions, and applications.

The pandemic-led transformation in the market is anticipated to leave a prolonged impact on Industrial Cellular Modem market players. While responding to the situation, companies need to rework their supply-demand metrics. This research offers an analysis of key business indicators.

The competitive landscape chapter dives deep into key market players, their recent collaborations, strategic partnerships, and business growth. This report is a collective source of useful business information such as revenues of key players, their CSR activities, carbon emission targets, and overall consumer experience.

Key companies covered in this report are-

Belden Inc.

CalAmp

Campbell Scientific, Inc.

Digi International Inc.

Intercel Pty

Moxa Inc.

QTech Data Systems Ltd.

Red Lion Controls, Inc.

Wlink Technology Co., Limited

Xiamen Baima Technology Co., Ltd

Industrial Cellular Modem Market Segmentation

This section briefs on key segments of the Industrial Cellular Modem market such as -products, end-use industries, and regions. Covering the geographical landscape this report intends to keep our clients informed about trends in Industrial Cellular Modem markets, dominant market players, and potential revenue streams for the forecast period.

Based on Type this market is categorized further into-

NB-IoT LPWA Technologies

LTE-M LPWA Technologies

Other

Based on Application this market is categorized further into-

Manufacturing

Transportation

Energy and Utility

Other

Based on Regions:

North America (U.S., Canada, Mexico)

Europe (U.K., France, Germany, Spain, Italy, Central & Eastern Europe, CIS)

Asia Pacific (China, Japan, South Korea, ASEAN, India, Rest of Asia Pacific)

Latin America (Brazil, Rest of Latin America)

The Middle East and Africa (Turkey, GCC, Rest of the Middle East and Africa)

Rest of the World…

Key Coverings:

Market Forecast- Coverage- Market Size, Share, and CAGR | Forecast by 2031

Market Scope– Aim of the research, A glance at key chapters

Market Dynamics- Drivers, Challenges, Regional Trends, and Market Opportunities

Market Segmentation – Product, Application, End-use Industries, and Regional Growth Prospects.

Market Players – Key Market Players and Strategies

Recent Developments and Innovation in Industrial Cellular Modem Market

Covid-19 Analysis- Industry Landscape During and Post-Pandemic.

Regional Framework- Key Regional Markets, Growth Projections How this research can help to outperform others?

Offers a comprehensive business environmental analysis that guides companies on their way to success in the Industrial Cellular Modem market.

The latest market size, share, and revenue statistics are offered in this report.

Companies can rely on market realities covered in this report for further business strategies.

Industrial Cellular Modem Market diagrams, pie charts, regional market share maps, inventory network examination, and import/trade subtleties help you pitch investors.

Insights on Key market players to offer a competitive landscape of Industrial Cellular Modem market

This report is a cost-effective way to gain valuable insights into the Industrial Cellular Modem market without the need to host an independent team of researchers at their own cost

Author’s Bio:

Sneha Tatkare

Research Associate at The Insight Partners

With 20.6% CAGR, Cellular Modem Market Growth to Surpass USD 12.4 billion

According to MarketsandMarkets, the cellular modem market size is valued at USD 4.8 billion in 2023 and is anticipated to be USD 12.4 billion by 2028, growing at a CAGR of 20.6% from 2023 to 2028. Factors such as Increased need for advanced connectivity solutions in Industry 4.0 era, and Indispensable need for edge computing in IoT will likely drive market growth. The rise of Industry 4.0,…

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Manufacturers of Combo Puck Antenna in India 2023

A "Combo Puck Antenna" typically refers to a type of multi-band or wideband antenna that is designed to operate across multiple frequency bands. These antennas are often used in wireless communication devices, such as routers, modems, IoT devices, and other electronic equipment that require connectivity over various wireless standards.

The term "combo" indicates that the antenna is designed to cover a combination of different frequency ranges, which can include cellular bands (2G, 3G, 4G, 5G), Wi-Fi (2.4 GHz, 5 GHz), GNSS (Global Navigation Satellite Systems like GPS, GLONASS, Galileo), and potentially other wireless standards.

Combo Puck Antennas typically come in a compact, circular or cylindrical form factor (resembling a "puck"), making them suitable for installation in devices with limited space. They are used to ensure reliable wireless connectivity across multiple bands, reducing the need for multiple separate antennas.

Qualcomm Launches New Modem Chips for IoT and Satellite Industries

Qualcomm, the renowned semiconductor and telecommunications equipment company, has recently unveiled its latest modem chips, the 212S and 9205S. These cutting-edge chips have been specifically designed to meet the growing demands of the enterprise Internet of Things (IoT) sector and the flourishing satellite industry, which is anticipated to experience significant growth in the coming years. Setting themselves apart from traditional Qualcomm chips, these new offerings provide hybrid connectivity and boast remarkably low power consumption. They are fully compliant with the 3GPP Release 17 standard, making them an ideal choice for ground synchronous orbit (GEO/GSO) satellite communication. Additionally, they possess global positioning capabilities (GPS). Introducing Qualcomm's Next-Generation Modem Chips: Empowering IoT and Satellite Connectivity The 9205S chip, which has already hit the market, is being marketed as a solution that seamlessly connects IoT devices to both cellular and satellite networks. This integration enables precise positioning data through the Global Navigation Satellite System (GNSS). Consequently, the chip has diverse applications across several industries, including tracking shipping containers, monitoring agricultural equipment and livestock, and managing global fleets and freight in supply chain operations. On the other hand, the 212S chip, slated for release later this year, has been designed for long-distance, fixed-location applications. According to Qualcomm, this chip excels in optimizing battery usage to extend the lifespan of devices. It excels at tasks like gathering telemetry data from water and fuel tanks, meters, and other essential infrastructure equipment. Furthermore, it is well-suited for public grid monitoring and early fire detection reporting, among other use cases. Both chips take advantage of the Qualcomm Aware platform, enabling real-time asset tracking and device management services, specifically designed for remote areas. The Qualcomm Aware platform collaborates with NTN service provider Skylo to deliver seamless integration for these chips, resulting in enhanced functionality and improved performance. With the launch of the 212S and 9205S modem chips, Qualcomm is demonstrating its commitment to meeting the evolving needs of the IoT and satellite industries. These chips not only offer advanced connectivity options but also incorporate power-efficient features and compliance with industry standards. As the IoT and satellite sectors continue to expand, Qualcomm's latest offerings are poised to make a significant impact by enabling efficient and reliable communication for a wide range of applications across various industries. Read the full article

Technological Advancements and Innovations Shaping 5G Chipset Market Growth

The global 5G Chipset Market is slated to witness an unprecedented surge, with a projected annual growth rate of 25.5% Year-on-Year (Y-o-Y), reaching a staggering valuation of US$180.0 billion by 2032. This astronomical growth is substantiated by several key factors.

The escalating demand for cellular Internet of Things (IoT) connectivity, coupled with an increasing need for high-speed internet and expansive network coverage, acts as a significant driving force behind this surge. The proliferation of mobile data traffic and the burgeoning requirement for smart technologies further propel this upward trajectory.

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Currently, the network capacity is incapable of handling M2M and human-based communications, as well as their different communication patterns such as latency time. For this reason, a next-level cellular network for mobile communication, featuring hyper-connectivity and larger bandwidth, is required (e.g., 5G network).

M2M communication technology will be widely used in heavy manufacturing industries and process industries (e.g., food industries) to increase the efficiency of different processes and reduce human interference with machines. M2M communication is thus expected to drive the 5G chipset market.

Key Takeaways from the Market Study

Global 5G chipset market worth to experience over 8x growth until 2032

By frequency, sales of sub-6 GHz 5G chipsets to accelerate at a 23.2% value CAGR

Asia Pacific to be the most opportunistic region for market growth, registering a CAGR of 25.5%

U.S to emerge as the dominant market, yielding US$ 69 Billion in value by 2032

China to be the most lucrative market in APAC, documenting a 24.6% CAGR

Japan & South Korea to yield dollar opportunities worth US$ 10 Billion and US$ 7 Billion respectively

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Competitive Landscape

Players in the global 5G Chipset Market focus on expanding their global reach through various strategies, such as; partnerships, collaborations, and partnerships. The players are also making a significant investment in R&D to add innovations to their products which would help them in strengthening their position in the global market. Some of the recent developments among the key players are:

In September 2020, Qualcomm launched a new 5G mobile platform in the 7-series, the Snapdragon 750G 5G Mobile Platform, which enables 5G with brilliant HDR gaming and on-device AI.

In June 2020, Nokia announced a collaboration with Broadcom for the custom system-on-chip solutions for the vendor’s ReefShark-powered portfolio

In June 2021, Samsung Electronics unveiled a new range of new chipsets that will be embedded into the company’s next generation 5G solutions. The new 3GPP Rel.16 compliant chipsets consist of a third generation mmWave Radio Frequency Integrated Circuit (RFIC) chip, a second generation 5G modem System-on-Chip (SoC) and a Digital Front End (DFE)-RFIC integrated chip.

Know More About What the 5G Chipset Market Repost Covers

Future Market Insights offers an unbiased analysis of the global 5G chipset market, providing historical data for 2015–2021 and forecast statistics from 2022–2032.

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Key Segments Covered In The 5G Chipset Market Report

5G Chipset Market by Type:

5G Chipset Modem

5G Chipset RFIC

5G Chipset Market by Process Node:

5G Chipsets less than 10 nm

5G Chipsets between 10–28 nm

5G Chipsets above 28 nm

5G Chipset Market by Frequency:

Sub-6 GHz 5G Chipset

24–39 GHz 5G Chipset

Above 39 GHz 5G Chipset

5G Chipset Market by Application:

5G Chipset for Telecommunications

5G Chipset for Mobile Devices

5G Chipset for Non-Mobile Devices

5G Chipset for Automobiles

5G Chipset Market by Region:

North America 5G Chipset Market

Latin America 5G Chipset Market

Europe 5G Chipset Market

Asia Pacific 5G Chipset Market

Middle East and Africa 5G Chipset Market

5G Industrial Data Terminal Market Analysis, Key Trends, Growth Opportunities, Challenges and Key Players by 2032

5G Industrial Data Terminal Market An

In September 2021, the global 5G data terminal market was projected to experience significant growth in the coming years. A 5G data terminal is a device that enables wireless communication over 5G networks and can be used for a variety of applications such as gaming, streaming, and Internet of Things (IoT) devices.

A 5G data terminal is a device that allows users to connect to a 5G network and access high-speed internet. These terminals can be in the form of a router, modem, or hotspot, and they usually use cellular technology to connect to the 5G network.

With a 5G data terminal, users can enjoy faster download and upload speeds, lower latency, and better overall performance compared to previous generations of mobile networks. This makes it ideal for streaming high-quality video, playing online games, or accessing cloud-based applications.

The market is being driven by the increasing demand for high-speed internet, the rising adoption of IoT devices, and the need for low-latency connectivity for applications like autonomous driving and virtual reality. The COVID-19 pandemic has also accelerated the demand for remote work and online education, further driving the need for high-speed internet connectivity.

Overall, the 5G Data Terminal market is critical in assisting enterprises and organisations in making data-driven decisions. As the demand for data-driven decision-making grows, the 5G Data Terminal market research is projected to expand and innovate in the future years.

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Market Segmentations:

Market Segmentations:Global 5G Data Terminal Market: By Company

• Datalogic

• Comark

• Sumitomo Electric

• Huawei

• H3C

• ZTE

• XIAOMI

• 3onedata Co.,Ltd

• CH Control Technology

• Guangzhou Robustel Co., Ltd.

• TD Tech Ltd.• Beijing Inhand Networks Technology Co.,Ltd.

• Lierda Science&Technology Group Co.,Ltd.

• CAIMORE

Global 5G Data Terminal Market: By Type

• Fixed Data Terminal

• Portable Data Terminal

Global 5G Data Terminal Market: By Application

• Household Use

• Commercial Use

Global 5G Data Terminal Market: Regional Analysis

All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global 5G Data Terminal market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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