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rohitpalan · 6 months ago

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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

#5G Chipset Market

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govindhtech · 8 months ago

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MediaTek T830:Sub-6GHz R16 5G FWA/Mobile Hotspot Platform

5g FWA Verizon

MediaTek did not spend any time in building an ecosystem of quick, dependable, and always-on devices that allow MediaTek Filogic Wi-Fi 7 compatibility, since they were among the first to embrace Wi-Fi 7. Recently, Verizon announced the release of the newest Business Internet Gateway on its network. This product is the first to use Wi-Fi 7 and is among the first in the world to support tri-band and 4×4 antenna capabilities, two next-generation Wi-Fi connectivity features.

The next-generation router and modem from MediaTek are combined into one device in the new Verizon Business Internet Gateway. It uses the MediaTek T830 5G chipset, which has 3GPP Release 16 capabilities, 4CC 300MHz 5G modem capability, and 5G speeds up to 7Gbps in addition to Wi-Fi 7 compatibility from the MediaTek Filogic 680. The device offers numerous Ethernet choices with up to 10Gbps in speed and is manufactured using a very sophisticated 4nm technology, which results in considerable power savings.

Users may now enjoy a router with better performance and design than rival FWA devices on the market thanks to a tight collaboration between MediaTek and Verizon to include MediaTek’s Wi-Fi 7 capabilities into the Gateway. We are eager to see the enhanced experiences that next-generation wireless technology brings to American consumers and companies after years of research.

Customers of Verizon Business Internet may now access the Business Internet Gateway.

The MediaTek T830

Strong Sub-6GHz R16 Platform for Mobile Hotspot CPE Devices and 5G Fixed Wireless Access

A strong quad-core CPU, a hardware-based network acceleration engine (MediaTek NPU), an integrated 5G modem with sub-6GHz connection, and choices for Wi-Fi 6/6E/7 are all features of the high-end CPE platform, MediaTek T830. With the most compact form factors imaginable, device manufacturers may create very high performance multi-gigabit CPE devices including mobile hotspots (Mi-Fi) and fixed wireless access (FWA) routers thanks to the fully featured SoC.

By using cellular infrastructure that has already been constructed and avoiding the expenditures associated with installing cable or fibre, the MediaTek T830 offers operators 5G speeds of up to 7Gbps, surpassing the capabilities of the majority of fixed line services.

The all-inclusive MediaTek T830 platform offers time-to-market benefits and lowers development costs for OEMs and ODMs. The MediaTek T830 gives customers rapid internet access via a small, self-installable device, saving them the trouble of protracted installation delays. They may also put it anywhere on the property, not only where a phone or fiber connection is accessible.

In and Out Multi-Gigabit Connectivity The primary SoC of the MediaTek T830 platform comprises a 4G/5G modem, together with FR1 transceivers, GNSS receivers, and PMICs. By reducing the number of components, this highly integrated platform provides product designers with the smallest size and lowest power consumption to work with.

With pre-integrated software drivers available for MediaTek Wi-Fi and Bluetooth combination solutions, such as MediaTek Filogic 650 (Wi-Fi 6E) and 680 (Wi-Fi 7), device manufacturers may customize this single platform to meet a variety of target markets. There is a USXGMII port that may be utilized for a variety of switch-based LAN port topologies or to provide up to 10Gbps Ethernet.

PCI-Express, USB, USXGMII, and PCM/SPI interface for RJ11 phone lines are examples of peripheral connection.

5G-capable SoC A robust Arm Cortex-A55 quad-core CPU, a fully integrated 3GPP Release-16 5G cellular modem, a MediaTek-designed Network Processing Unit (NPU) with hardware QoS acceleration, and a Tunneling Offload Engine for VLAN, PPTP, L2TP, and GRE are all included in the T830 SoC. Without involving the CPU, the NPU is designed to provide maximum performance throughput from 5G cellular to Ethernet or Wi-Fi. The 5G UltraSave power-efficiency improvements from MediaTek guarantee maximum energy efficiency under all 5G connection scenarios.

Cellular capabilities include mixed duplex FDD/TDD support and 5G NSA/SA compatibility, with sub-6GHz connections up to 4CC-CA. Dual 5G SIM (DSDS) support for the T830 is possible, subject to device manufacturer restrictions.

Specifications

Processors CPU Types Arm Cortex-A55

Max CPU Frequency 2.2GHz

Cores Quad (4)

Memory & Storage Memory Type LPDDR4x / LPDDR5

Storage Type nMCP suggested. SPI, eMMC 5.1 and ONFI supported

Local Connectivity Wi-Fi / Bluetooth MediaTek Wi-Fi & Bluetooth combo solutions available

Ethernet 1/2.5/5/10GbE

Peripheral Interfaces Key Peripheral Interfaces 3x PCI-Express for connection to Wi-Fi / Bluetooth combo chip USXGMII for connection to external LAN switches DSI display interface for external displays up to 720p 1x PCM/SPI for connection to external SLIC for RJ11 phone ports 1xUSB 3.2 Gen-1 Cellular Connectivity Cellular Technologies Sub-6 (FR1) 5G-CA 4G-CA 5G FDD / TDD 4G FDD / TDD Specific Functions SA & NSA modes; SA Option2, NSA Option3 / 3A / 3X; DL 4CC up to 300 MHz; DL/UL 256QAM

Peak Download Speed 7.01Gbps (SA)

Peak Upload Speed 2.5Gbps (SA)

GNSS GPS L1CA+L5 BeiDou B1I+ B2a + B1C Glonass L1OF Galileo E1 + E5a + E5b QZSS L1CA+ L5 NavIC Related stories

Breaking Tech: MediaTek’s Filogic 880 WiFi 7 Marvel CES 2023 MediaTek dimensity 7200 mobile processor

5g FWA CPE devices 5G Internet Install multi-gigabit internet in your place of business and residence. MediaTek-powered 5G customer premises equipment (CPE). Explore the extensive range of connection options offered by MediaTek.

The advantages of 5G are being introduced by MediaTek into residences and commercial spaces alike. Being the top provider of 5G and Wi-Fi chips worldwide, we enable devices to harness the advantages of 5G sub-6GHz (FR1) and mmWave (FR2) connectivity in terms of performance and coverage. Users then have access to the internet through superfast Wi-Fi 6/6E/7 wireless or multi-gigabit wired Ethernet connections.

Strong 5G Technologies The best-in-class performance, expanded connection coverage, remarkable power efficiency, and leadership in global cellular standards are all made possible by MediaTek’s industry-leading 5G modems.

5G FWA, or Fixed Wireless Access When it comes to supporting homes and businesses in suburban and rural areas where wired speeds are unreliable, slow, or the cost of installing and maintaining physical cabling is prohibitive, 5G Fixed Wireless Access offers a very viable alternative to Fiber, Cable, and xDSL.

To satisfy a broad range of market needs, MediaTek 5G FWA systems are offered with either sub-6GHz or a mix of sub-6 + mmWave connection. They may rapidly upgrade local networks in homes and businesses by receiving multi-gigabit 5G and distributing it over Wi-Fi 6/6E/7 or multi-gigabit Ethernet.

The 5G processors of the MediaTek T series are very power-efficient, highly integrated, and adaptable. They are designed to accommodate little gadgets that may be put almost anyplace.

5G Wi-Fi mobile hotspot Mi-Fi devices convert 5G broadband to Wi-Fi, enabling up to multiple users in close proximity to have ultrafast internet access. These battery-operated, portable gadgets are in handy for working outside, traveling with the family, taking vacations, offering in-car internet, and working overseas.

Because to the extreme compactness and ultra-low power consumption of the MediaTek T series platforms, tiny, portable devices that operate entirely on batteries are now possible. By offering very fast, multi-Gigabit rates to many users connected via dependable Wi-Fi 6/6E/7, MediaTek fully realizes the promise of 5G, giving consumers more connected freedom than ever before.

Read more on Govindhtech.com

#mediatek #MediaTekT830 #5g #wifi7 #wifi6e #wifi #npu #cpu #LPDDR5 #5gmodem #technology #technews #news #govindhtech

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imirmarketresearch · 8 months ago

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#LTE Chipset Market trend

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robertemma27-blog · 9 months ago

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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).

#5G Chipsets Market

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thetechanalyst · 2 years ago

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Qualcomm attempts to revive its IoT fortunes with Aware, a powerful device-to-cloud platform

Overview Of the Qualcomm Aware platform

Qualcomm announced the launch of its Aware platform- an API-rich, device-to-cloud technology platform to enable industrial digital transformation. A key strength of the Aware platform is energy-efficient real-time location services, which is a great fit with asset visibility applications such as asset tracking and condition monitoring.

The Qualcomm Aware platform integrates Qualcomm’s hardware with location technology assets from Skyhook (#cellular+Wi-Fi+#GNSS) and PoLTE (cellular: #4G & #5G) acquired in May 2022 and February 2023 respectively. Through these acquisitions, Qualcomm Aware platform enables energy-efficient location tracking for battery-operated sensor devices used in supply chain visibility applications. Along with the location services, The Qualcomm Aware platform also offers additional software capabilities such as connectivity management, end-to-end security and feature-rich open #API tools for solution developers and system integrators to seamlessly integrate with ERP and cloud systems across vertical industries.

Softening demand, market fragmentation and supply chain complexities underpin Qualcomm #SaaS move

As the semiconductor market increasingly faces stiff competition, as the cost of radio chipsets and modems continues to depreciate annually. Demand for #IoThardware has also dwindled as enterprise IoT adoption is disrupted due to various global market uncertainties triggered by the #US-China trade wars, the #COVID-19 pandemic, and more recently Russia-Ukraine war. These market uncertainties have also exposed vulnerabilities in the industrial supply chain due to the lack of visibility in global value chains and the concentration of production in a few countries. IoT IC chipset market growth has suffered in the last few years across all regions except for #China which accounts for a large majority of the IoT chipset/module sales driven by smart meter(enerygy and water) and smart city applications.

The above market conditions have accelerated communication chipset and module vendors need to strengthen their hardware portfolio with value-added software and to move up the value chain and ensure a larger share of revenues from enterprise #digital #transformation. With the Aware platform, #Qualcommis creating a one-stop-shop for device-to-cloud solutions by strategically partnering with device OEMs such as #ikotec and #Sodaq.

Qualcomm Aware platform attempts to address the technology market fragmentation and complexities of device-to-cloud data management, and low-power, low-cost location tracking, a key criterion for battery-operated sensor devices. The Aware platform will play a significant role in enabling supply chain visibility in enterprises that are undertaking digital transformation of their operations by implementing sensor networks. These sensor networks will allow enterprises to gather new data streams that offer real-time actionable insights to continuously improve operational visibility and control.

The Qualcomm Aware platform helps simplify the provisioning and commissioning of connected field devices when implemented, using multiple wireless connectivity technologies at scale across geographical locations and environments. The platform’s positioning technology will help field technicians automatically tag the location of devices during the installation process. Device location data is not only important for tracking mobile assets but also is an essential data point when installing stationary assets. In vertical IoT applications like smart meters, #streetlights, power transformers, industrial containers, feed silos, etc, tagging the precise location of field assets is an essential data requirement while provisioning the connected assets. The location data of fixed assets are integrated into enterprises' #GIS and subsequently used for periodic maintenance and other field service operations.

Skyhook and PoLTE location technology merged into a powerful device-to-cloud platform

Founded in 2007, Skyhook is a Boston, US-based location software that offers positioning technology using #WiFi, cellular, and #GNSS signals, or a combination of these wireless technologies to calculate device geo-location in the cloud. The accuracy and precision of the geolocation vary depending on the environment and wireless network technology.

PoLTE based in Dallas, Texas, is a location technology company founded in 2005. PoLTE, #proprietary #Cloud #location over cellular (C-LOC) technology leverages carriers' terrestrial LTE and 5G networks to offer real-time location services.

Both these cloud-based location technologies require a small firmware upgrade in device hardware to install a software agent that analyses signals from already deployed networks (Wi-Fi, cellular, and GNSS). This data is transmitted to the cloud to calculate near real-time geolocation of the device.

PoLTE and Skyhook achieve this using powerful cloud solvers leveraging either cellular and/or short-range wireless (Wi-Fi & #BLE) network scan data to compute accurate location data in the cloud. For example, a Wi-Fi-enabled device uses network scan information (eg. signal strength) from multiple Wi-Fi access points to compute the location of the device. Similarly, in the case of cellular networks, the device location is computed using measurement data obtained from cellular radio towers. The devices transmit network characteristics with an accurate time stamp to the cloud where powerful algorithms use data points either from a single network or in the case of hybrid solvers using multiple networks to compute the location with accuracy varying from a few centimetres to 10’s of meters.

Qualcomm Aware platform embeds these two powerful #geolocationtechnologies in PoLTE and Skyhook to their Qualcomm IoT modem chipsets. Integration of PoLTE and Skyhook technologies brings together their strengths in cellular and WiFi network geolocation to the Aware platform. This enables Qualcomm to offer #energy-efficient geolocation services, by transferring the location processing workload from the device to the cloud. This is a crucial requirement for battery-operated sensor devices that need to operate autonomously in the field for several years to create a strong business case and a positive return on investment (ROI) for various digital transformation projects.

One-Stop-Shop device to cloud platform will help reduce solution time to market

Vendors offering digital supply chain solutions using Qualcomm chipsets will gain the most value as they can quickly integrate Qualcomm’s Aware platform as an off-the-shelf solution to its asset visibility solution stack. This will help IoT device OEMs, system integrators and solution providers to accelerate their solution time to market. The platform's capabilities reduce complexities in device provisioning and commissioning, connectivity management, and security of IoT devices at scale.

Qualcomm Aware will potentially help reduce fragmentation and offers enterprises an end-to-end solution. The Aware platform is a device-to-cloud service that comes with integrated devices, global data connectivity, device management, tracking and sensing #modules, and developer-friendly cloud APIs.

As part of the Aware platform launch, Qualcomm has also announced a developer device, the Qualcomm QT S110 tracker which uses the #MDM9205 modem. The device is designed for global multi-modal supply chain visibility needs and comes pre-integrated with Aware Cloud. Qualcomm plans to add three new deviceswhich include:

Aware Thin Tracker, a credit card-sized tracker for shipment logistics.

Aware Cellular Label, a smart label for tracking parcels.

Aware Sensor, a low-cost inclinometer for pole tilt monitoring.

Analyst view: Opportunity in Enterprise Supply chain visibility-“You cannot improve what you don’t measure”

To improve industrial supply chains, enterprises are increasingly demanding near real-time visibility in the form of geolocation and condition of field assets. Furthermore, supply chain visibility will play a crucial role for industries to transition from existing linear to more #sustainable and #circular supply chains. The need for reliable and real-time data on assets and processes has become a critical requirement to plan, strategise and execute the necessary changes. Qualcomm aware platform has identified six asset-intensive industry verticals- construction, energy & utilities, healthcare, logistics, manufacturing, and retail. However, over time the demand for digital tools that help transition to circular/sustainable supply chains will be felt across all industries.

Broader market segmentation for potential opportunities in enterprise asset visibility can be briefly summarised as follows.

A) Indoor/Campus Asset Visibility

Visibility (location and condition) of assets within the premises of a building or a campus. This includes tracking movement and condition of assets/goods within building facilities such as factories, warehouses, hospitals, retail shops, transportation hubs, construction sites, educational institutions etc. The requirement for asset visibility in indoor environments are as follows-

Have a higher density of assets in indoor environments with location tracking and condition-monitoring at the item level and/or aggregate level (pallets, containers, Re-usable transport units).

Indoor asset visibility solutions today are dominated by short-range wireless connectivity technologies deployed as campus networks. Over the years, #RFID and to some extent BLE have gained mainstream adoption across key industry verticals such as Retail & apparel, logistics, manufacturing, and health care.

Location accuracy requirements for of indoor asset tracking can vary from a few centimetres to meters.

Short-range wireless connectivity technologies such as RFID, #UWB, Wi-Fi, and BLE are popular technology choices for enabling asset visibility indoors,

Cellular network technologies such as #NBIoT, #LTEM and 5G and non-cellular LPWAN LoRaWAN are increasingly gaining indoor coverage, especially through the deployment of private networks.

Qualcomm Aware platform fit- Low: Qualcomm Aware platform currently does not support RFID and BLE 2 dominant connectivity technologies used in indoor asset visibility. Native support of the RFID, BLE and UWB on the Aware platform would help enterprises with legacy asset visibility systems benefit from cloud applications and expand their indoor asset visibility use cases enabled by new capabilities enabled by technologies such as Wi-Fi-6, UWB and 5G.

B) Outdoor Asset Visibility

The demand for Asset visibility in outdoor environments is often for high-value assets or assets transported in the aggregate form in pallets, boxes or containers. The requirement of asset visibility for outdoor environments are as follows-

Item-level tracking of assets is mostly implemented through an edge gateway (parent) embedded with cellular and GNSS connectivity that is linked to multiple trackers (child) used to monitor either individual items or at aggregate levels when assets are being transported.

Location accuracy for outdoor asset visibility typically varies from a few 10’s of meters to hundreds of meters with the data transmission frequency of a few times a day. Sensors such as temperature sensors, vibration sensors, level sensors, humidity/moisture sensors, and pressure sensors are typically used to monitor the condition of goods while in transit.

Devices use public connectivity network infrastructure and require reliable regional coverage and/or even multi-regional coverage for use cases such as multi-modal container tracking.

Low-cost asset tracker devices use RFID, BLE and #Zigbee to track at the item level.

Asset trackers using #LPWA network technologies such as 5G (LTE-M, NB-IoT) and LoRa and Sigfox have emerged as popular technology choices to offer simple, low-cost outdoor tracking solutions at the item and/or aggregate level without the need for gateways devices.

Qualcomm Aware platform fit- High: Provides strong value proposition in this segment as the Aware platform offers an Off-the-shelf solution that will help enterprises transition from legacy outdoor asset visibility solutions using cellular technologies such as 2G/3G networks that are expected to be sunset soon to more energy efficient technologies such as #CAT1, LTE-M and NB-IoT. The simplicity and TCO benefits from low-power, low-cost, outdoor asset trackers will also help replace existing complex point-to-point tracking systems and also stimulate new demand for asset visibility.

C) Seamless Indoor and Outdoor Asset visibility

End-to-end supply chain visibility requires seamless tracking of goods or assets as it moves through factory floors to warehouses to end-customer locations and in some cases returned back.

Changing environments present several challenges as no single location tracking technology is suitable for seamless indoor and outdoor tracking. Asset visibility application requirements also vary depending on the environment.

Relatively more complex solution designs to address application and business use-case requirements.

Leverages a combination of private/campus networks and public network infrastructure for device connectivity.

To enable seamless indoor and outdoor tracking capability use multi-radio connectivity hardware using a combination of short-range wireless technologies such as RFID, Wi-Fi, BLE and UWB for indoor environments and WAN technologies for cellular, GNSS and non-cellular LPWA for outdoor environments to mitigate connectivity network coverage limitations.

Qualcomm Aware platform fit- Medium: In this segment, connectivity technology limitations contribute to solution design challenges that have a direct impact on device/solution complexity from multi-radio hardware, cost, implementation complexity, data silos, integration challenges etc that directly impacts enterprise adoption. The Qualcomm Aware platform’s growth in this segment will depend on indoor network coverage of cellular (4G/5G) and Wi-Fi to drive adoption or the platform will require plug-ins, and integrations with indoor asset visibility solution providers to offer end-to-end supply chain visibility.

Conclusion and Recommendations:

As briefly explained above, application requirements for location technologies vary depending on the industrial supply chain process, interoperability with existing systems, location/environment, the total cost of ownership, ease of implementation and several other factors. Qualcomm’s Aware platform currently supports Wi-Fi, Cellular and GNSS network technologies and does not include BLE and RFID two popular location technologies used in indoor location services. The platform also does not support emerging location technologies such as UWB and LoRaWAN. These limitations can be potentially addressed by leveraging the open APIs to integrate data generated from connectivity technologies currently not supported by the platform.

Qualcomm’s acquisition of Skyhook and PoLTE and its integration into the Qualcomm Aware platform also validate the value and demand for cloud-based location technologies. However, Qualcomm through this strategic acquisition has also created problems for several of its competitors. Over the years, Skyhook and PoLTE had developed strategic partnerships with several chipset vendors including #Mediatek, #Unisoc, #Altair Semi, #Nordic Semiconductor, and #Sequans Communications that have embedded their location technology in their chipsets to offer similar geolocation services. it’s unclear after the acquisition of PoLTE and Skyhook, how these chipset vendors will mitigate the impact on its continuity of geolocation service. In the short term, the affected chipset vendors can potentially switch to other cloud-based location software technology providers such as #Google, #Here, #unwired labs, and #Ubudu, which offer similar indoor and outdoor geolocation solutions.

The Qualcomm Aware platform will directly compete with connectivity platforms and solutions from large telecom operators such as #AT&T, #Verizon, #Vodafone, #DeutscheTelekom, #Orange Etc that offer similar enterprise asset visibility solutions. That said, the Qualcomm Aware platform also helps other regional telecom operators with similar ambitions to offer end-to-end solutions will be able to quickly develop their asset visibility offerings and significantly reduce their solution time to market.

Finally, the acquisition of Skyhook and PoLTE by Qualcomm highlights the need for the industry to collaborate on an open-source, standards-based low-power location technology for sensor devices that are agnostic of connectivity technology and radio-chipset vendor. Such an open-source standards-based solution will foster a multi-vendor cloud-based location technology supplier and chipset supplier ecosystem, enabling interoperability and reducing the risks of vendor lock-in for end customers.

#IoT #digitaltransformation #supplychain #visibility #LPWA #technology #assettracking #strategy #GTM #assetvisibility #qualcomm

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productsreviewings · 2 years ago

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Apple likes to maintain its playing cards near its chest, and meaning it is slowly bringing numerous element designs in-house relatively than counting on third events. There are rumors that first-party improvement may develop to wi-fi modems, and that swap may lastly occur with the iPhone 16 launch.This got here when talking with Qualcomm CEO Christiana Amon CNBC (opens in new tab) At MWC 2023. Qualcomm at the moment gives modems (and different chips) for a lot of smartphones, together with Apple's iPhone 14 vary. Amon claims that the corporate is at the moment planning for 2024 and his guess is that Apple will not be utilizing Qualcomm modems that yr.There's an emphasis on the phrase guess. Amon admits that the ultimate determination will likely be as much as Apple and means that issues may change between now and subsequent yr. However hypothesis has been rising for years that Apple may formally enter the wi-fi connectivity market. So it is much less if it occurs, and extra a case of when.Rumors about Apple-made modems have been round for yearsAnd again in 2019 Apple completes acquisition of Intel's modem enterprise For 1 billion dollars. That is not the sort of cash you drop for nothing, and it means Apple is no less than making an attempt to make its personal modem.There are additionally numerous rumors about Apple's cellular modem plans. Though most of them declare that the brand new modems won't come to totally different Apple fashions. It was final speculated that the iPhone 14 would miss out on Apple's 5G modem, with rumors pointing to a launch on the iPhone 15. More moderen stories declare that the iPhone 15 can be prone to miss out.Judging by what Amon was saying in Barcelona, we could lastly see the Apple modem come to the iPhone 16. Assuming the plan would not change and it might probably simply occur.Why ought to we care about Apple 5G modems? Bringing iPhone parts in-house implies that Apple has a lot better management over each side of manufacturing. You must do not forget that Apple is a software program firm, with full management over the event of iOS, iPadOS and the remainder. Creating its personal bespoke hardware parts means they're constructed from scratch with Apple software program in thoughts. This could guarantee higher efficiency and performance than a third-party element introduced in pretty late within the course of.Apple has had loads of success designing hardware parts in recent times. Apple ditching Intel processors in favor of silicon chips is a superb instance of that. The primary wave of M1 MacBooks supplied considerably Good battery life and efficiency Because of having hardware constructed particularly for macOS.Likewise, the A16 Bionic is arguably essentially the most highly effective cellular chipset in the marketplace, and we've got Benchmarking scores to show it. iPhone 14 Professional and iPhone 14 Professional Max beat Samsung Galaxy S23 Extremely's overclocked Snapdragon 8 Gen 2 for Galaxy in CPU and video transcoding checks. Whereas each iPhones lag barely within the graphics take a look at, it is not by an enormous quantity.Apple switching to its personal in-house 5G modem may carry the same efficiency soar to the iPhone 16. This might embody decrease energy consumption with 5G, some The iPhone 12 actually struggled, quicker information speeds, or quite a lot of different advantages. The modem can even possible carry Wi-Fi and Bluetooth underneath Apple's purview, which is able to carry their very own advantages if all goes nicely.And given Apple's penchant for holding off on developments till they're actually prepared, the possibilities of this transfer backfiring appear pretty slim. That is to not say it would run nicely although; We cannot know till the Apple modem really launches.So for now we've got to take a seat again and wait to see what occurs. Which means ready a very good 18 months to see what Apple has in retailer for us. Till then we'll simply need to concentrate on the most recent iPhone 15 rumors and hypothesis.

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gadgetsboy · 2 years ago

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Qualcomm Introduces its New 5G NR-Light Modem-RF System

While Qualcomm is usually known for its mobile chipsets, the company has also made significant advancements with other forms of wireless connectivity technologies. More recently, Qualcomm unveiled its Snapdragon X35 5G Modem-RF System, which the company boasts as the world’s first 5G NR-Light modem-RF system. According to Qualcomm, the X35 will be able to run on a variety of smart devices and accessories such as premium smartwatches, next-generation XR glasses, industrial IoT, and more. Simply put, NR-Light is a new class of 5G and bridges the gap in between high-speed mobile broadband devices and low-bandwidth NB-IoT devices. Qualcomm says that NR-Light devices that are powered by Snapdragon X35 can be smaller, cost less, and provide better power efficiency versus more traditional mobile broadband devices. The Snapdragon X35 features improved performance and design to provide a device platform that can both be easily accessible for mid-tier use cases, as well as serve the needs of devices which rely on efficient 5G speeds. A lower cost option, the X35 provides device makers with a means to eventually replace LTE CAT4+ devices, push forward 5G adoption, and allow for faster transition to a unified 5G network. With that said however, the X35 is also backwards-compatible and will be able to support for both LTE and 5G NR-Light configurations. Alongside the Snapdragon X35, Qualcomm also announced Snapdragon X32 5G Modem-RF System, which the company describes as a "modem-to-antenna solution built to lower complexity and fuel cost-efficient NR-Light devices." According to a statement from Durga Malladi, Senior vice president and general manager of cellular modems and infrastructure at Qualcomm: “Snapdragon X35 brings together key 5G breakthroughs expected from the world’s leadingwireless innovator. The world’s first 5G NR-Light modem features a cost-effective, streamlined design with leading power efficiency, optimized thermal, and reduced footprint. Snapdragon X35 is poised to power the next wave of connected intelligent edge devices and empower a wide spectrum of uses. We look forward to working with industry leaders to unleash what’s possible with a unified 5G platform.” The X35 also comes with a suite of capabilities (including advanced modem-RF technologies) which Qualcomm assures is aimed to significantly reduce power consumption, enhance 5G coverage, lower latency, increase battery life, and improve uplink speeds. These include Qualcomm's QET5100 Envelope Tracking, Smart TransmitTM Technology, 5G Ultra-Low Latency Suite, and 5G PowerSave Gen 4. In other Qualcomm-related news, the company also recently announced that its Snapdragon 8 Gen 2 chip will power Samsung's new devices, which include the Samsung Galaxy S23, S23 Ultra, and S23 Plus. This hardware configuration will be available to all markets, a significant change from Samsung's usual practice of keeping Snapdragon-powered Galaxy S devices exclusive to markets like the United States. As for the X35 and X32, Customer sampling of Snapdragon X35 and X32 are expected to begin in the first half of 2023, while commercial mobile devices are expected to be launched by the first half of 2024. Read the full article

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rogersip · 2 years ago

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The Google Pixel 6 T Mobile Phone Review

Whether you're looking for a new Android phone for yourself or for someone else, the Google Pixel 6 T Mobile is a solid choice. It has all-day battery, a smooth display, and a redesigned interface. It's also a very affordable phone.

Pricing

Despite the fact that the Google Pixel 6 has been around for only a few months, it has already proven to be a very popular smartphone. It offers a beautiful OLED display, premium materials, and an all-new Tensor chip. This combination makes it one of the best Android phones to buy.

The Google Pixel 6 has a 6.4-inch OLED display with a 90Hz refresh rate. It also features an AI computational capability that allows it to translate text on the fly. The new Tensor chip opens up new software features and allows the phone to perform computations faster.

The Google Pixel 6 is available on AT&T, T-Mobile, and Verizon. All three carriers are offering different Pixel 6 deals, which make the Pixel 6 one of the most competitive flagships on the market.

Displays

Despite its name, Google's upcoming Pixel 6 isn't the company's first attempt at a t mobile. This new Android-powered handset isn't a successor to the Pixel XL; instead, it's the company's first flagship phone. It's also one of the first devices to ship with Android 12. This new version of Google's mobile operating system features a new design language called Material You, which is all about theme widgets.

The new Pixel is a significant upgrade from the previous model, and it's got some major design tricks up its sleeve. In particular, the new device's slick glass is incredibly slippery. However, it's not just the slippery glass that is the main draw here; Pixel 6 also gets a slew of other upgrades, from an improved camera to faster Wi-Fi to a much more responsive fingerprint reader.

Camera bar

Despite the slender design of the Pixel 6 and the smaller Pixel 6A, Google's latest device has a lot to offer. It features an upgraded camera system, better battery life, and the best Android experience for the money.

The Pixel 6 also comes with a new Magic Eraser tool that intelligently removes unwanted subjects from photos. The new feature is one of the most useful tools available on the device, and is available in the photo editing tools in Google Photos.

The Pixel 6 also comes with nifty new software features like the Google Assistant, which allows you to call people directly from your phone, and the Pixel Assistant, which gives you suggestions on what to do with your photos.

New modem log

Several Pixel 6 users have recently contacted Google Customer Support with complaints regarding their phone's cellular connectivity. They have reported problems with Wi-Fi automatically disconnecting and the smartphone not recognizing their SIM card. Fortunately, the Pixel 6 has a modem that can support multiple spectrum bands.

The Google Pixel 6 ships with a Samsung Exynos 5123b modem. This modem supports carrier aggregation and can handle uplink and downlink traffic through multiple bands. This is a feature that many phones with a Qualcomm chipset already have.

There are many ways to boost your smartphone's connectivity. Using Google's own Carrier Services app is one trick that may be able to improve your connectivity. Another trick involves manually setting the APN settings. However, this trick doesn't work for everyone.

5G network

Unlike some other flagship phones, the Google Pixel 6 does not support 5G networks from all carriers. This can cause issues for people using 5G in certain areas. The Google Pixel 6 comes with an option to turn off 5G in certain areas. It also allows users to limit their data usage. However, the network settings are usually based on the carrier.

As of now, the Pixel 6 models available on AT&T and Verizon support both bands. These phones are also compatible with T-Mobile's 5G network. However, T-Mobile's plans to launch carrier aggregation on its 2.5 GHz and 600 MHz airwaves in the next year.

Service drops and network dead zones

Having poor cell signal can be a real pain, particularly if you live in a remote area. It can even lead to dropped calls and drained batteries. Here are some tips on how to improve your signal.

A dead zone is a low powered cellular signal that won't get through to your device. To avoid this, you'll want to find a way to boost your signal, like by using a cell signal booster. The good news is that most carriers have them.

Using the right kind of antenna, you can boost your signal indoors. You may also want to consider a cell phone booster for the plains. This is because the signal is weaker in remote areas, and the signal may be blocked by thick brush or tall trees.

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generalmarketresearch-blog · 1 year ago

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#Cellular Modem Chipset Market

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rbhcom55 · 2 years ago

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#funny #buzz animals

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technuter · 2 years ago

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MediaTek Unveils Super Fast and Power-Efficient 5G Thin Modem Solution for Unparalleled 5G Experiences Beyond Smartphones

MediaTek is taking 5G applications and experiences to the next level with the new T800 chipset solution for sub-6GHz and mmWave 5G networks. This fast and power-efficient 5G solution follows the introduction of MediaTek’s T700 5G modem, and will drive innovative 5G “beyond smartphone” applications such as Industrial IoT, M2M, and always-connected PCs. JC Hsu, Corporate Vice President at MediaTek, said, “Consumers today want the ability to access 5G speeds from anywhere. MediaTek’s newest 5G chipset solution allows end users to enjoy high-speed, low-latency 5G wherever they are – offering true computing freedom. The T800 stands out with super fast, reliable 5G speeds in a highly efficient design that maximizes battery life for an all-around great user experience.” MediaTek’s cutting-edge T800 solution supports download speeds of up to 7.9Gbps. The T800 packs MediaTek’s latest 5G UltraSave power-efficiency technologies to optimize battery life for all 5G connection conditions, allowing users to browse, stream and game for longer. The T800’s highly integrated design helps lower development costs and provides time-to-market advantages. The chipset solution features a thin modem with a fully integrated 3GPP Release-16 5G cellular modem, FR1 Transceivers, an Envelope Tracking (ET) chip, a MLNA, a GNSS receiver and associated PMICs. The thin modem is built on an advanced 4nm process node and also integrates PCIe + USB host interfaces, plus other input/output options. Key features include: Download speeds of up to 7.9Gbps and upload speeds of up to 4.2Gbps. Support for both standalone (SA) and non-standalone (NSA) sub-6GHz and mmWave 5G. connections up to 4CC-CA, plus mixed duplex FDD/TDD support. Support for dual 5G SIM (DSDS), depending on device maker requirements. Read the full article

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rohitpalan · 1 year ago

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Technological Advancements and Innovations Shaping 5G Chipset Market Growth

Get a Sample of this Report: https://www.futuremarketinsights.com/reports/sample/rep-gb-14788

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

Request Methodology: https://www.futuremarketinsights.com/request-report-methodology/Rep-gb-14788

Competitive Landscape

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

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.

Buy Complete Report: https://www.futuremarketinsights.com/checkout/14788

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 Chipset Market

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vewores · 2 years ago

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