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govindhtech · 3 months

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MediaTek Dimensity 7300X Delivers Smooth And Fast Gaming

The greatest 5G smartphone processor options for high-end designs are the MediaTek Dimensity 7300 and Dimensity 7300X, which provide next-generation performance for seamless multitasking, remarkable battery life, and amazing displays. The contents of these 5G processors are as follows:

Outstanding Battery Life: Even for the most discerning smartphone users, this ultra-efficient 4nm processor provides best-in-class power efficiency to extend battery life.

Superb Image Quality: With a 200MP primary camera supported by the Imagiq 950 12-bit HDR-ISP, clear photographs are possible under any lighting circumstances thanks to precise face detection, noise reduction, and video HDR. Compared to earlier generations, it offers up to 1.3X faster live focus and 1.5X faster photo remastering. Additionally, 4K HDR video captures a 50% greater dynamic range than rival models.

Amazing Displays: The MediaTek MiraVision 955 enhances media streaming and HDR video playback while supporting WFHD+ displays with 10-bit true colour, providing smartphones with billion colour displays.

Specifically Designed for Flip Phone Designs: With dedicated support for dual displays, the MediaTek 7300X is especially made for flip phone designs.

Accelerated gaming: Up to 20% more frames per second and 20% more energy efficiency are possible with the combination of MediaTek HyperEngine, a potent octa-core CPU (which includes Arm Cortex-A78 processors), and the Arm Mali-G615 GPU compared to competing alternative platforms. Major studio support and the expanding gaming ecosystem contribute to the power and performance enhancements of VRS.

Advanced Connectivity: The processor has Bluetooth 5.4 compatibility, tri-band Wi-Fi 6E, and MediaTek Lightning Connect, which quickens Bluetooth connection times. Based on face proximity, holding posture, and device orientation, MediaTek UAC 2.0 maximises antenna performance.

Enhanced AI Computing: Supporting new mixed precision data types for better performance, power economy, and graphics, the MediaTek NPU 655 offers two times the AI work efficiency of the previous generation.

5G R16 Modem: New 3CC carrier aggregation offers better average speeds and longer reach, while cellular downlink rates have improved to 3.27Gb/s. In typical 5G usage settings, MediaTek 5G UltraSave 3.0+ offers 13–30% more power efficiency than competing options.

Smartphones with Dual VoNR: Premium audio and video call quality is provided by dual 5G SIM phones with dual VoNR.

MediaTek Dimensity 7300X

Superior Power Efficiency

With its next-generation capabilities and best-in-class power efficiency, this ultra-efficient 4nm-class CPU promises seamless multitasking, transcendent captures, superior performance, and improved AI-enhanced computing.

Superior Visual Clarity

For outstanding photography, the MediaTek Imagiq 950 offers a top-tier 12-bit HDR-ISP that supports a 200MP primary camera. When coupled with new hardware engines that offer video HDR, face detection (HWFD), and accurate noise reduction (MCNR), the image quality of captures is guaranteed to surpass experiences with clarity and crispness in any lighting scenario. Compared to previous generation Dimensity, live focus photo performance is up to 1.3X faster and photo remastering is up to 1.5X faster. Capture 4K HDR video with a dynamic range that is more than 50% broader than competing platforms’ offerings, adding more clarity to videos to produce amazing effects while using less power.

Specialised Assistance for Flip Phones with Dual Displays

Flip phones with two displays can now be supported by MediaTek MiraVision 955, with the primary display offering remarkably detailed WFHD+ resolution and 10-bit true colour. A multitude of international HDR standards enhance media streaming and playback, guaranteeing top-notch cinematic experiences while on the road.

Quick Gaming

Together, the 4X high frequency big-core processors in the octa-core CPU, the most recent Arm Mali-G615 GPU, and MediaTek HyperEngine optimisations enable the Dimensity 7300X to accelerate gaming with up to 20% more frames per second and improve energy efficiency by up to 20% when compared to competitor options.

Major studio support and the expanding gaming ecosystem contribute to the power and performance enhancements of VRS. Optimised 5G and Wi-Fi game connections, intelligent resource optimisation, Bluetooth LE Audio technology with Dual-Link True Wireless Stereo Audio, and more are some of the other improvements to the entire smartphone experience.

Bluetooth 5.4, Wi-Fi 6E, and Special Connectivity Features

The most recent version of the Bluetooth standard and tri-band Wi-Fi 6E, which offers incredibly dependable and quick multi-gigabit wireless connectivity, are examples of wireless connectivity.

While MediaTek Wi-Fi/Bluetooth hybrid coexistence technologies ensure that Wi-Fi and earphones, or peripherals like gamepads, work together flawlessly without compromising latency and networking speeds, MediaTek Lightning Connect twice the speed at which Bluetooth connections can be made, enabling quicker than ever device connections.

Depending on the direction of the device, the proximity of the hand or face to the device, and even the fold status of flip phones, MediaTek UAC 2.0 optimises antenna performance for wireless connectivity.

Improved Artificial Intelligence

The MediaTek NPU 655, which offers two times the performance of the previous generation, improves AI task efficiency and supports new mixed precision data types. This opens up new possibilities for device manufacturers to offer users improved performance, better visuals, better power efficiency, and new experiences.

3CC-CA Compatible 5G R16 Modem

Faster 5G with Greater Range

By using 3CC carrier aggregation to address a maximum of 140MHz cellular spectrum, 5G downlink speeds of up to 3.27Gb/s can be achieved, offering better downlink speeds in urban and suburban areas. With the application of mixed duplex FDD+TDD, which combines the benefits of low and mid-band, smartphones in CA can enjoy higher speeds and a wider range. Additionally, carrier aggregation allows for a smooth changeover between two 5G connection areas at the coverage layer, giving consumers more than 30% more throughput layer coverage than they would have without CA.

5G UltraSave 3.0+ MediaTek

In typical 5G sub-6GHz connectivity circumstances, MediaTek 5G UltraSave 3.0+ offers a full range of R16 power saving advancements in addition to MediaTek’s own optimisations that yield 13–30% higher power efficiency than competing options.

Two 5G SIMs

Customers have more options and superior voice and video call quality with dual 5G SIM and dual VoNR.

Mediatek Dimensity 7300X Specs

Processor

CPU

4x Arm Cortex-A78 up to 2.5GHz

4x Arm Cortex-A55

Cores

Octa (8)

Memory and Storage

Memory Type

LPDDR4x

LPDDR5

Max Memory Frequency

Up to 6400Mbps

Storage Type

UFS 3.1

Connectivity

Cellular Technologies

2G-5G Multi-Mode, 5G/4G CA, 5G/4G FDD / TDD, CDMA2000 1x/EVDO Rev. A (SRLTE), EDGE, GSM, TD-SCDMA, WDCDMA

Specific Functions

SA & NSA modes; SA Option2, NSA Option3 / 3a / 3x, NR TDD and FDD bands, DSS, NR DL 3CC 140MHz bandwidth, 4×4 MIMO, 256QAM NR UL 2CC, R16 UL Enhancement, 2×2 MIMO, 256QAM VoNR / EPS fallback

Peak Downlink Speed

3.27Gbps

GNSS

GPS

BeiDou

Glonass

Galileo

QZSS

NavIC

Wi-Fi

Wi-Fi 6E (a/b/g/n/ac/ax)

Wi-Fi Antenna

2T2R

Bluetooth

5.4

Camera

Max Camera Sensor

200MP

Max Video Capture Resolution

4K30 (3840 x 2160)

Camera Features

Hardware Face Detection

Hardware MCNR

4K Video HDR

AI-3A with AE, AWB, AF

Video EIS

Dual simultaneous video capture

All-pixel AF

Graphics

GPU Type

Arm Mali-G615 MC2

Video Encoding

H.264

HEVC

Video Playback

H.264

HEVC

VP-9

Display

Max Refresh Rate

WFHD+ @ 120Hz

Full HD+ @ 144Hz

MediaTek 6th generation NPU

NPU 655

Read more on govindhtech.com

#smartphone #mediatekdimensity7300 #mediatek #wifi6e #cpu #Bluetooth5.4 #artificialintelligence #gpu #news #technews #technology #technologynews #technologytrends #govindhtech

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suntelecomcn · 1 year

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FTTA: High-Performance Solution for Integrated Optical Fiber and 5G Networks

There is a huge demand for high-speed data transfers in today’s mobile telecommunications networks. FTTA (Fiber-to-the-Antenna) is an essential element of 5G networks and ensures reliable, robust, and future-proof installation, improves user experience and reduces costs. This article helps you to understand FTTA.

What is FTTA?

FTTA is a broadband network architecture to connect the building baseband unit (BBU) to the remote radio unit (RRU) at the top of the tower by using optical fibers to replace all or part of the coaxial network. FTTA can reduce the loss of signal power. And up to 20km's maximum transmission distance helps realize centralized placement of base stations (BS) in lower-cost telecommunication rooms and more flexible and modularized network planning.

FTTA Solution

FTTA solution reduces installation time and saves the cost of installation and maintenance. FTTA solution includes outdoor optic fibers, PDLC outdoor waterproof patch cords, terminal boxes, etc.

Benefits of FTTA

Perhaps the most benefit of FTTA stems from the physical content of the cable itself. The smaller diameter and lighter weight allow many fiber optic cables to occupy the same amount of space as a single coax cable. Because cellular towers are naturally subject to the elements, the physical size and properties of optical cabling are much less susceptible to damage from gusts of wind.

Other benefits of FTTA relate to the shift from analog to digital. Due to signal losses, the coax cable limited the distance between the antenna and the base station to as low as around 100m. Optical cabling can span up to 20 km with minimal losses.

FTTA provides improved energy consumption and signal integrity. Tower amplifiers are no longer required to combat the inherent noise floor of extended coax runs. The cooling of power amplifiers through air conditioning in a traditional base unit is replaced by ambient air cooling of the RRH, which significantly reduces the electrical power consumption of the system.

FTTA also provides flexible deployment, reduced complexity, saves installation time and space on the tower, lower investment, and high reliability.

Typical FTTA Scenario

Fiber optic networks aim to perform high-speed, error-free data transmission. Adequate testing during each phase of the network deployment guarantees that products meet specifications. It minimizes costly and time-consuming troubleshooting efforts, including locating dirty/damaged connectors, questionable splices, and other faulty components before they disrupt service.

One of the most crucial factors in ensuring proper transmission is controlling power loss in the network against the link loss-budget specifications from the network design recommendation, which establishes a total end-to-end loss budget with sufficient margin while reducing back reflection to a minimum.

What is the Future of FTTA?

Consumer demand and technological advancement will continue to challenge the broadband infrastructure and necessitate more innovation. As incremental improvements such as active antennas integrated with the RRH to eliminate the need for all coax, small cell technology, and tower construction continues to evolve, it is safe to assume the future of FTTA may hold a few more surprises.

5G network provides speeds up to 100 times faster than 4G, which requires more small cell sites/DAS and improvements in conventional antenna tower bandwidth. Fiber optics will continue to provide the lifeblood to this ever-evolving network because only fiber can support the backhaul of these small cell sites produced by this intense proliferation of traffic.

Conclusion

FTTA is an innovative, flexible, and future-oriented way to install the network. It secures your network connectivity today and in the future.

Sun Telecom specializes in providing one-stop total fiber optic solutions for all fiber optic application industries worldwide. Contact us if you have any needs.

#suntelecom #fiberoptic #telecommunications #fttx #telecomengineering #cabling #osp #fiberopticcable #catv #telecomconsult

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questioningespecialy · 1 year

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Are EMF’s safe? (come, child, ruin your night)

y’all ready for this? I’m not anti-5G, btw turn your wifi off before bed and maybe stop keepin’ ya phone so close all the time

But like... why, though?

I've had my suspicions about cell towers being hazardous to health for a few years now and felt convinced enough to not bother researchin' it for confirmation. Now that I'm blah blah blah, I decided to actually bother. Since it got kinda heavy, I had to ask myself if I should put in hella more effort creatin' a damn research report of sorts for y'all asses present the info for others like it's a damn PSA. And my conscious won. T~T

But like... what, though?

A base station (aka: cell phone tower) is that shit you see everywhere but never notice. It's usually tall af and has panel antennas on it. It's "used for the transmission and reception of the radio signals between the mobile phones and the network." The problem with 'em is the electromagnetic field (EMF) their equipment can give off... for half a mile. 😐

In short, they've been found to cause health problems. Like cancer. 🤷🏿‍♂️

Fun fact, panel antennas can be installed on the roof/side of buildings that may be directly across the street from someone's workplace... with the antenna at their elevation. 🤷🏿‍♀️

Real Quick

For those who don’t trust EMF-Portal, it (sometimes) has links to the study/article. Full-text PDF can be requested directly from the authors on ResearchGate.net’s article for the study. Full-text PDF can (usually) be found online in English and German with the right search.

5 Studies

V/m = volts per meter 7191 cancer deaths were selected according to the above mentioned criterias out of a total of 22,493 cancer deaths. The most significant causes were lung cancer (19.6 %), stomach cancer (14.1 %), prostate cancer (12.6 %), and breast cancer (11.5 %). The mean electric field intensity of the measurements in 2008 was 7.32 V/m, varying from 0.4 to 12.4 V/m. At a distance of up to 100 m [328.08 ft], the absolute number of deaths was 3569, (49.6 % of all deaths), the mortality rate was 43.4 persons per 10,000 [0.43%] and the relative risk was 1.35 in relation to the mortality rate of 32.1 per 10,000 [0.32%] inhabitants of the entire Belo Horizonte municipality [in Minas Gerais, Brazil]. A mortality rate of 34.8 per 10,000 [0.35%] inhabitants was observed for the residents living within 500 m [1,640.42 ft] of the base stations; this rate decreased for residents living farther from the base stations.

—Mortality by neoplasia and cellular telephone base stations in the Belo Horizonte municipality, Minas Gerais state, Brazil; Science of The Total Environment (2011); EMF-Portal

ResearchGate.net’s article

The result of the study [of 967 permanent residents] shows that the proportion of newly developing cancer cases was significantly higher among those [320] patients who had lived during the past ten years at a distance of up to 400 metres [1,312.34 ft] from the cellular transmitter site, which has been in operation since 1993, compared to those patients living further away, and that the patients fell ill on average 8 years earlier. In the years 1999-2004, ie after five years' operation of the transmitting installation, the relative risk of getting cancer had trebled for the residents of the area in the proximity of the installation compared to the inhabitants of Naila[,Germany,] outside the area.

—The Influence of Being Physically Near to a Cell Phone Transmission Mast on the Incidence of Cancer (original title: ‘Einfluss der räumlichen Nähe von Mobilfunksendeanlagen auf die Krebsinzidenz’); Umwelt · Medizin · Gesellschaft (2004); ResearchGate.net

EMF-Portal

9 cancer cases were observed in the first period 2000 - 2004 and 14 cases in the period 2005 - June 2007 among [1,283] residents living within a radius of 400 m [1,312.34 ft] to a mobile phone base station [in Germany (Hennen, suburb of Iserlohn, Westfalia)]. The mean age of disease onset was 59.2 years in the first period and 59.3 years in the second period in comparison to the expected value of 66.4 years evaluated from the Saarland Cancer Registry. The authors concluded, that a statistically significant increase of cancer incidence was observed 5 years after the base station has been started operating.

—[Incidence of cancer adjacent to a mobile telephone basis station in Westfalia] (original title: Krebsinzidenz von Anwohnern im Umkreis einer Mobilfunksendeanlage in Westfalen - Interview-basierte Piloterhebung und Risikoschätzung); Umwelt · Medizin · Gesellschaft (2009); EMF-Portal

Area A: ≤ 350 m / 1148.3 ft from base station Area B: > 350 m / 1148.3 ft from base station Of the 622 people of area A, 8 cases of different kinds of cancer were diagnosed in a period of one year (from July 1997 - June 1998). The cancer incidence rate was 129 cases per 10,000 [1.29%] persons per year in area A compared to 16/10,000 [0.16%] in area B and 31/10,000 [0.31%] in the town of Netanya [in Israel]. Relative cancer rates for females were 10.5 for area A, 0.6 for area B and 1 for Netanya. The authors conclude that the study indicates an association between increased incidence of cancer and living in proximity to a mobile phone base station.

—Increased incidence of cancer near a cell-phone transmitter station; International Journal of Cancer Prevention (2004); EMF-Portal

ResearchGate.net

Took forever to get this damn infographic just right. >.>

A long-term study was conducted in Germany to investigate the influence of a mobile phone base station on neurotransmitters under true-to-life conditions. µW/m² = microWatts per square meter 24 out of 60 participants were exposed to a power density of < 60 µW/m², 20 participants to 60 - 100 µW/m², and 16 participants to more than 100 µW/m² . The values of the stress hormones adrenaline and noradrenaline grew significantly during the first 6 months after starting the GSM base station; the values of the precursor substance dopamine substantially decreased in this time period. The initial condition was not restored even after 1.5 years. Due to the not regulable chronic difficulties of the stress balance, the phenylethylamine levels dropped until the end of the investigation period. The effects show a dose-effect relationship and are situated far under the valid limit values.

—[Modification of clinically important neurotransmitters under the influence of modulated high-frequency fields - A long-term study under true-to-life conditions] (original title: Veränderung klinisch bedeutsamer Neurotransmitter unter dem Einfluss modulierter hochfrequenter Felder - Eine Langzeiterhebung unter lebensnahen Bedingungen); Umwelt · Medizin · Gesellschaft (2011); EMF-Portal

ResearchGate.net’s German article EMF:data page (German)

While I did find 17 different figures for it, I’mma save myself the bother of describin’ dat noise and not include ‘em thanks~.

But what does the FCC say?

FCC.gov’s conclusion seems to be that they’re generally safe for civilian life as long as you don’t get close and aren’t directly in front of the antenna’s trajectory (don’t climb a fuckin’ tower or enter those rooms/buildings). A very “it’s fine” set of conclusions tbh. Hella contrasted by other sources.

Nonetheless… below is the index...

FCC’s RF Safety FAQ Index:

What is "radiofrequency" and microwave radiation?

What is non-ionizing radiation?

How is radiofrequency energy used?

How is radiofrequency radiation measured?

What biological effects can be caused by RF energy?

Can people be exposed to levels of radiofrequency radiation and microwaves that could be harmful?

Can radiofrequency radiation cause cancer?

What research is being done on RF biological effects?

What levels are safe for exposure to RF energy?

Why has the FCC adopted guidelines for RF exposure?

How safe are mobile phones? Can they cause cancer?

How can I obtain the specific absorption rate (SAR) value for my mobile phone?

Do "hands-free" ear pieces for mobile phones reduce exposure to RF emissions? What about mobile phone accessories that claim to shield the head from RF radiation?

Can mobile phones be used safely in hospitals and near medical telemetry equipment?

Are wireless and PCS towers and antennas safe?

Are cellular and other radio towers located near homes or schools safe for residents and students?

Are emissions from radio and television antennas safe?

How safe are radio antennas used for paging and "two-way" communications? What about "push-to-talk" radios such as "walkie-talkies?"

How safe are microwave and satellite antennas?

Are RF emissions from amateur radio stations harmful?

What is the FCC's policy on radiofrequency warning signs? For example, when should signs be posted, where should they be located and what should they say?

Can implanted electronic cardiac pacemakers be affected by nearby RF devices such as microwave ovens or cellular telephones?

Does the FCC regulate exposure to radiation from microwave ovens, television sets and computer monitors?

Does the FCC routinely monitor radiofrequency radiation from antennas?

Does the FCC maintain a database that includes information on the location and technical parameters of all the towers and antennas it regulates?

Which other federal agencies have responsibilities related to potential RF health effects?

Can local and state governmental bodies establish limits for RF exposure?

Where can I obtain more information on potential health effects of radiofrequency energy?

The Government Accountability Office (GAO) prepared a [2012] report of its investigation into safety concerns related to mobile phones. The report concluded that further research is needed to confirm whether mobile phones are completely safe for the user, and the report recommended that the FDA take the lead in monitoring the latest research results.

Professional Opinion...

Safe Distance from Cell Towers…

It is also difficult to predict a safe distance from cell towers. For example, cell towers are designed to transmit most of their radio frequency (RF) energy horizontally. Some areas below the tower may have lower levels than locations farther away that are more in line with the vertical height of the antennas. The exposure from a cell tower will depend on the type of antennas, the number of antennas, how much the antennas are actually being used, the time of day, etc. The distance needed to reduce exposures down to the General Public Precautionary Level of 100 microwatts per meter squared (μW/m²) is often around a quarter of a mile (1320 feet) or more. Due to the uncertainty, on-site testing with a broadband RF test meter is strongly recommended. A German study reported that people living within 400 meters (1312 feet) of cell towers had over 3 times the normal rate for new cancers (City of Naila 2004). In an Israeli study, the relative risk for cancer was about 4 times greater within 350 meters (1148 feet) of the cell tower (Wolf et al. 1997). Based on findings like these, a minimum safety distance of 1/4 mile (1320 feet) might be considered prudent. (...) The suggestions for safety distances in this chart are generally based on Michael Neuert’s [engineer, licensed electrician, and health educator] professional on-site testing of the various EMF sources in the San Francisco Bay Area since 1992.

i know what i said

Based on the accumulated evidence, we recommend that IARC [the International Agency for Research on Cancer] re-evaluate its 2011 classification of the human carcinogenicity of RFR [radio-frequency radiation], and that WHO [the World Health Organization] complete a systematic review of multiple other health effects such as sperm damage. In the interim, current knowledge provides justification for governments, public health authorities, and physicians/allied health professionals to warn the population that having a cell phone next to the body is harmful, and to support measures to reduce all exposures to RFR.

—Risks to Health and Well-Being From Radio-Frequency Radiation Emitted by Cell Phones and Other Wireless Devices; Front Public Health (2019 Aug 13); NCBI

Lookup (or pull out) your cellphone’s manual and search for the sections on “radio frequency exposure” and “Specific Absorption Rate (SAR) information” to see how close the phone can safely be kept near your body… and that it should be kept away from “the bellies of pregnant women and for teenagers, away from the lower abdomen.” 😐

For an informative giggle, here’s the “Harmful Cell Phones” segment from season 7 of The Colbert Report.

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backlinkweb · 1 year

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During this study, we numerically studied the SAR reduction from subsequent-era 5G n78 cellular units by implementing a novel co-polarization-insensitive here metamaterial absorber (MMA) and experimentally verified the absorptivity of the MMA at the resonance frequency. The MMA was made to goal the resonance frequency at 3.5 GHz with metamaterial qualities by the required engineering of L-C-R transmission traces as per the equivalent circuit. Nevertheless, it is crucial to mention that the metamaterial was created using a modified circular break up-ring resonator to make sure that it can not be rotationally symmetric13,29 and so have the ability to soak up the co-polarized part of the utilized EM wave only.

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cellularrepeaterforbangladesh · 2 years

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Device specification-------

Brand: mnsbbd

Certification: korean standard certificate

Origin: south korea (origin)

Model number: kor7tr4

2g frequency range (gsm900):

Ul:890~915mhz;

Dl:935~960mhz

3g frequency range (wcdma2100):

Ul:1920~190m8hz;

Dl:2110~2170mhz

4g frequency range (dcs/lte1800):

Ul:1710~1785mhz;

Dl:1805~1880mhz

Gain (db): 75db

Output power(dbm): 20dbm

Coverage range: up to 3500sqm

Improve network type: voice and internet data

Network format: 2g/3g/4g/5g

Power supply: dc12v 2a

Connector type: n female

Outside antenna------

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Connector type: n female

Cable length: 30 meters

Cable type: rg6 coaxial cable

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Cable length: 15 meters

Cable type: rg6 coaxial cable

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3. Connect indoor antenna to repeater mobile port.

4. Ac plug power cord into the power source and finished.

5. Tip: an outdoor antenna should be “isolated” from the internal antenna, that is, it must be constructive obstacles (walls, partitions, etc.) between the antennas.

Important Note----

Make sure you can receive good signal that you want to amplify on your house outside, which must be can getting 1 bar signal (-70db~-90db signal strength) on your mobile phone.

Please note that the signal booster can only boost the mobile phone network signal, but does not help to generate any signal. For example, if your outside signal has 0 bar, it can not work or bring you any signal. When outdoor antenna and indoor antenna are not separated enough, then it will be self-oscillation. Your phone will not get any signal.

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hemagirp · 15 days

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Automotive V2X Antenna Market: Key Trends, Technological Advancements, and Growth Outlook for 2024

Introduction to the Automotive V2X Antenna Market

The automotive V2X (Vehicle-to-Everything) antenna market is at the forefront of the rapidly evolving automotive industry, driven by the increasing demand for connected and autonomous vehicles. V2X communication enables vehicles to communicate with other vehicles (V2V), infrastructure (V2I), pedestrians (V2P), and networks (V2N), enhancing road safety, reducing traffic congestion, and improving driving efficiency. V2X antennas play a crucial role in enabling this communication by transmitting and receiving signals, ensuring seamless data exchange between vehicles and their surroundings. As the automotive industry shifts towards smart mobility, the automotive V2X antenna market is set for substantial growth.

This article explores the trends, growth drivers, challenges, and future outlook for the automotive V2X antenna market, providing insights into the technological advancements and key factors shaping the future of connected vehicles.

Read the Full Report Here:

https://www.reportprime.com/automotive-v2x-antenna-r11731

Market Overview and Growth Projections

The global automotive V2X antenna market is expected to grow at a compound annual growth rate (CAGR) of approximately 17% from 2024 to 2030. The rapid advancement of autonomous driving technologies, increasing government initiatives for intelligent transportation systems (ITS), and the growing adoption of electric and connected vehicles are key factors driving the growth of the V2X antenna market.

Key factors contributing to the market's expansion include:

Rise of Autonomous and Connected Vehicles: The increasing development and deployment of autonomous and semi-autonomous vehicles are driving the demand for V2X communication systems, in which antennas play a critical role.

Government Mandates for V2X Technology: Governments worldwide are implementing regulations and incentives to accelerate the adoption of V2X technology, promoting road safety and efficient traffic management.

Growing Investments in Smart City Projects: The integration of V2X antennas into smart city infrastructure for connected mobility and traffic management is boosting market demand.

Key Market Segments

By Antenna Type:

Embedded V2X Antennas: Embedded antennas are integrated within the vehicle’s structure, ensuring discreet and streamlined communication. They are popular in modern, sleek vehicle designs where aesthetics are important.

External V2X Antennas: External antennas are mounted outside the vehicle, providing a wider range of communication capabilities and signal strength. These antennas are often found in larger vehicles like trucks and commercial fleets.

By Frequency Band:

Dedicated Short-Range Communication (DSRC): DSRC-based V2X systems operate in the 5.9 GHz frequency band and are widely used for vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication. DSRC has been a standard in the development of connected vehicles.

Cellular V2X (C-V2X): C-V2X operates on cellular networks, including 4G LTE and 5G, providing higher data transmission rates and broader communication capabilities. C-V2X is gaining traction due to its scalability and ability to support real-time communication.

By Application:

Passenger Vehicles: Passenger cars are the largest segment of the automotive V2X antenna market, driven by the growing adoption of connected vehicle technologies and increasing demand for enhanced safety features.

Commercial Vehicles: V2X technology in commercial vehicles is essential for fleet management, logistics, and improving safety on highways. The demand for V2X antennas is growing in this segment as commercial fleet operators adopt smart transportation solutions.

Electric Vehicles (EVs): As EVs become more popular, the integration of V2X technology for enhanced charging, communication, and energy management is gaining momentum, driving demand for specialized V2X antennas.

Key Drivers of Market Growth

1. Increasing Adoption of Autonomous Vehicles

The shift towards autonomous driving is one of the primary drivers of the automotive V2X antenna market. Autonomous vehicles rely on continuous communication with their surroundings to navigate safely and efficiently. V2X antennas are essential for enabling this communication, ensuring that vehicles can interact with traffic signals, pedestrians, and other vehicles in real-time.

2. Government Initiatives for Road Safety and Traffic Management

Governments worldwide are mandating the implementation of V2X technology in vehicles to improve road safety and reduce traffic congestion. For example, the European Union, the U.S., and China are actively promoting the use of V2X communication in smart city projects and transportation infrastructure. These initiatives are driving the demand for V2X antennas in the automotive industry.

3. Development of 5G Technology

The rollout of 5G technology is expected to accelerate the adoption of C-V2X antennas in vehicles. 5G’s low latency and high data transmission capabilities enable real-time communication between vehicles and their environment, enhancing the safety and efficiency of autonomous driving systems. The increasing use of 5G networks in connected vehicle ecosystems will significantly boost the V2X antenna market.

4. Rise of Electric Vehicles (EVs) and Smart Charging

Electric vehicles are increasingly incorporating V2X technology to enable smart charging, energy management, and vehicle-to-grid (V2G) communication. V2X antennas allow EVs to interact with charging stations and optimize energy usage, reducing charging times and improving overall grid efficiency.

Challenges in the Automotive V2X Antenna Market

1. High Implementation Costs

One of the key challenges in the automotive V2X antenna market is the high cost of implementing V2X technology. The integration of V2X communication systems requires significant investment in infrastructure, including antennas, sensors, and communication networks. This can be a barrier to adoption, particularly in developing regions where budget constraints may limit the deployment of V2X technology.

2. Security and Privacy Concerns

As vehicles become more connected, security and privacy concerns become more prominent. V2X communication systems are vulnerable to cyberattacks, which could compromise vehicle safety and data integrity. Ensuring robust cybersecurity measures for V2X antennas and communication networks is critical to overcoming this challenge.

3. Interoperability Issues

The adoption of different communication protocols, such as DSRC and C-V2X, can create interoperability challenges between vehicles and infrastructure. Ensuring that V2X antennas can support multiple communication protocols and operate seamlessly across different systems is essential for widespread V2X deployment.

Key Players in the Automotive V2X Antenna Market

Several major companies are driving innovation and growth in the automotive V2X antenna market, offering advanced solutions to meet the evolving needs of the automotive industry:

Continental AG: A leading player in automotive technology, Continental provides a range of V2X antennas and communication systems that enable vehicle connectivity and enhance road safety.

Denso Corporation: Denso is a key manufacturer of automotive V2X components, including antennas, offering solutions for both DSRC and C-V2X communication systems.

Ficosa International S.A.: Ficosa specializes in providing advanced V2X antennas and telecommunication systems for connected vehicles, focusing on innovation in antenna design and performance.

Laird Connectivity: Laird is known for its cutting-edge antenna technology, offering V2X antennas that support both DSRC and C-V2X communication, providing high-performance solutions for connected vehicles.

TE Connectivity: TE Connectivity offers a wide range of automotive V2X antennas, providing innovative communication solutions for autonomous and connected vehicles.

Future Outlook and Opportunities

The automotive V2X antenna market is poised for rapid growth as the automotive industry shifts towards connected and autonomous mobility. The integration of 5G technology, increasing demand for electric vehicles, and government initiatives for smart transportation systems will create significant opportunities for manufacturers in the coming years.

Regional Outlook:

North America: North America is expected to lead the V2X antenna market, driven by strong government support for V2X technology adoption and the presence of major automotive manufacturers in the region.

Europe: Europe will see significant growth in the automotive V2X antenna market, fueled by smart city projects and government regulations aimed at improving road safety and reducing traffic congestion.

Asia-Pacific: The Asia-Pacific region, particularly China, will experience rapid growth due to the increasing adoption of connected and autonomous vehicles, as well as government investments in intelligent transportation infrastructure.

Conclusion

The automotive V2X antenna market is set for substantial growth in the coming years, driven by the rise of autonomous vehicles, advancements in 5G technology, and increasing government initiatives for smart transportation systems. While challenges such as high implementation costs and security concerns exist, the future of the market remains promising. Manufacturers that focus on innovation, cybersecurity, and interoperability will be well-positioned to capitalize on the opportunities in this rapidly evolving industry.

Explore similar Reports for valuable insights:

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#marketresearch #reportprime

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rfantennaindia · 1 year

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digitrenndsamr · 15 days

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RF Semiconductor Market to Receive Overwhelming Hike in Revenues By 2031

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

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

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

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

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

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

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

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

KEY FINDINGS OF THE STUDY

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

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

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

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

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123567-9qaaq9 · 20 days

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Detailed Report on U.S. Indoor Distributed Antenna System (DAS) Market | BIS Research

An Indoor Distributed Antenna System (iDAS) is a network of spatially separated antennas distributed throughout a building or indoor environment to improve wireless coverage and capacity.

The U.S. indoor distributed antenna system (DAS) market was valued at $1,284.2 million in 2023 and is projected to grow at a CAGR of 9.11%, reaching $3,327.1 million by 2034.

U.S. Indoor Distributed Antenna System (DAS) Overview

An Indoor Distributed Antenna System (iDAS) is a network of interconnected antennas strategically placed within indoor spaces to enhance wireless communication signals. These systems are essential in environments where traditional outdoor wireless infrastructure, such as cell towers, cannot sufficiently penetrate due to physical obstructions like walls, glass, and metal

Key Components for Indoor Distributed Antenna System

The primary components for Indoor Distributed Antenna System includes

A Signal Source - This can be from a cellular base station or repeater that provides the input signal.

A Distributed System - Using coaxial cables, fiber optics, or Ethernet, the signal is transmitted from the source to multiple antennas throughout the building.

Antennas - These are placed strategically to broadcast the wireless signal, covering the entire indoor area.

Key benefits of Indoor Distributed Antenna System

Improved signal strength and coverage: Reduces dead zones and signal loss, ensuring reliable connectivity.

Increased capacity: Accommodates a large number of users simultaneously, essential in high-density environments.

Multi-carrier support: For handling signals from multiple wireless carriers, making it more versatile for businesses and venues.

Enhanced network performance: Offers better data speeds, call quality, and user experience in comparison to relying solely on outdoor towers.

Grab a look at our free report click here!

Market Segmentation

1 By Application

Commercial Building

A Distributed System

Healthcare

Transportation

Commercial buildings are poised to lead the U.S. indoor distributed antenna system (DAS) market due to their substantial mobile data traffic and high user density.

2 By Business Model

Carrier

Enterprise

Neutral Host

The carrier business model is poised to dominate the U.S. indoor distributed antenna system (DAS) market by strategically partnering with mobile network operators (MNOs). This model involves designing, installing, and maintaining telecommunications infrastructure to enhance carriers' network coverage and capacity without direct capital investment. It operates through revenue-sharing or fixed fee arrangements, where DAS providers absorb significant capital and operational costs

3 By Solution Type

Hardware

Antenna Node/Radio Node

Door Antenna

Market Drivers for U.S. Indoor Distributed Antenna System (DAS) Market

Increased Mobile Data Traffic

Rising Demand for Improved Indoor Coverage

5G Network Expansion

Demand for High User Density Environment

Rising digitalization in healthcare sectors

Rising Demand for Network Connectivity

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The increasing demand for reliable indoor wireless connectivity across various sectors, including commercial buildings, stadiums, hospitals, and airports, drives the U.S. indoor distributed antenna system (DAS) market. With the rapid expansion of 5G networks and the rise of smart buildings, DAS solutions are essential for ensuring consistent coverage in areas where outdoor signals struggle to penetrate.

Recent Developments in the U.S. Indoor Distributed Antenna System (DAS) Market

In February 2024, Corning Incorporated launched the Everon cellular solution, engineered to provide strong and dependable cellular coverage in densely populated indoor spaces. This indoor DAS solution emphasizes ease of deployment and scalability, making it a perfect fit for locations such as stadiums, airports, and office complexes. It is designed to support multiple carriers and technologies, ensuring smooth connectivity for various devices and networks, including 4G and 5G.

Airspan Networks Inc. conducted a local 5G Open RAN trial in Japan in partnership with Cisco, JTOWER, and MKI. The trial integrated Cisco's Private 5G, JTOWER's optical relay DAS, Airspan Networks Inc.'s Open RAN 5G hardware, and MKI's construction expertise. This collaborative effort boosts network efficiency in large buildings and underground areas, promoting sustainable network management by lowering CO2 emissions and energy consumption and reducing costs for enterprises and local governments.

Key Questions

Q What is the estimated market size for the U.S. indoor distributed antenna system (DAS)?

Q What are the different leading U.S. indoor distributed antenna system (DAS) market segmentations?

Q What factors drive growth in the U.S. indoor distributed antenna system (DAS) market?

Q What future trends are expected in the U.S. indoor distributed antenna system (DAS) market?

Q What are the key opportunities in the U.S. indoor distributed antenna system (DAS) market?

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Conclusion

Indoor Distributed Antenna Systems (DAS) have emerged as a crucial solution for enhancing wireless network coverage in indoor environments, particularly in large or complex structures like office buildings, shopping malls, airports, and stadiums.

The growing demand for high-speed data, the expansion of 5G networks, and the increasing reliance on mobile devices have made indoor DAS more relevant than ever.

As wireless technology continues to evolve, the adoption of DAS will likely become more widespread, with future innovations potentially enhancing efficiency, reducing deployment costs, and integrating with advanced technologies like IoT and smart building systems.

#Indoor Distributed Antenna Market

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ct-rfantennas · 2 years

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#NB-IoT Frequency Band #Frequency Band #RF #IoT #internet of things #C&T RF Antennas Inc #5G #4G #3G #LTE #GSM #NR #Cellular #Wireless #Networks

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myerseng · 25 days

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The Evolving Role of an Antenna Manufacturer in Today's Connected World

In the age of rapid technological advancements, where connectivity has become as essential as electricity, the role of an antenna manufacturer is more critical than ever. Antennas, the unsung heroes of wireless communication, are the bridge that connects devices to networks, enabling everything from smartphones to satellite communications. But what exactly does an antenna manufacturer do, and why are they so vital in today’s interconnected world?

The Core Function of an Antenna Manufacturer

At the heart of every wireless communication system is an antenna. These devices are responsible for transmitting and receiving electromagnetic waves, which carry data across distances without the need for physical connections. An antenna manufacturer designs develops, and produces these essential components, ensuring they meet specific performance criteria tailored to different applications.

Whether it’s for consumer electronics, automotive, military, aerospace, or telecommunications, the demands placed on antennas vary widely. An antenna manufacturer must, therefore, possess a deep understanding of electromagnetism, materials science, and signal processing to create products that perform reliably under diverse conditions. Precision in design and production is crucial since even minor deviations can significantly impact the performance of the entire communication system, iridium external antenna.

Innovation and Customization

The competitive landscape for antenna manufacturers is driven by innovation and customization. With the increasing complexity of wireless systems, off-the-shelf antennas often don’t meet the specific needs of cutting-edge applications. This is where a specialized antenna manufacturer shines, offering customized solutions that are tailored to the unique requirements of their clients.

For instance, in the automotive industry, antennas need to be compact, robust, and capable of handling multiple communication standards such as GPS, Wi-Fi, and cellular networks simultaneously. In contrast, antennas designed for satellite communications must be capable of operating in extreme environmental conditions while maintaining precise directional accuracy. The ability to innovate and provide custom solutions sets leading antenna manufacturers apart from the competition.

Addressing Modern Challenges

As the world moves towards more advanced wireless technologies like 5G, the Internet of Things (IoT), and beyond, antenna manufacturers face a new set of challenges. The demand for smaller, more efficient, and higher-performing antennas has never been greater. These antennas must not only be capable of handling increased data loads but also operate across a broader range of frequencies with minimal interference.

Moreover, sustainability has become a critical consideration in antenna manufacturing. As industries seek to reduce their environmental footprint, manufacturers are under pressure to adopt greener production processes and develop antennas that are more energy-efficient and made from recyclable materials.

The Future of Antenna Manufacturing

Looking forward, the future of antenna manufacturing is bright but complex. The ongoing development of technologies such as smart antennas, beamforming, and massive MIMO (Multiple Input, Multiple Output) systems for 5G and 6G networks will require antenna manufacturers to continue pushing the possible boundaries. This will involve not only advanced design and manufacturing techniques but also close collaboration with industries and research institutions.

In conclusion, the role of an antenna manufacturer is integral to the continued evolution of our connected world. As demand for faster, more reliable, and more versatile wireless communication grows, these manufacturers will remain at the forefront of innovation, ensuring that we all stay connected, no matter where we are.

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foggylightdeer · 1 month

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Cell Phone Booster, Cover 7,000 Sq Ft Cell Phone Signal Booster with LCD Touch Screen High Gain for Home Office Support All U.S Carriers, FCC Approved

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BrandHiBoostWireless Communication Standard802.11axSpecial FeatureHiboost App, LCD Touch ScreenConnector TypeUSB Type AColorMate Pro

About this item

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📶【Indoor Two Antenna and LCD Touch】Cell phone booster through AGC to intelligently detect signal strength, built-in antenna, and separate indoor antenna to ensure you get the best performance with stable output, and you can view and adjust the gain effect through the LCD touch screen so that your calls can enjoy fewer dropped calls, extremely fast data speeds, and better voice quality.

💡【5G Compatible and Supports All Carriers】Hiboost cell phone booster supports all US and Canadian carriers including AT&T, Verizon, T-Mobile, Straight Talk, U.S. Cellular, etc. It is compatible with 2G, 3G, 4G LTE, and 5G (only supports 5G that is heavily deployed by carriers in existing 4G bands via DSS), and supports bands 2/4/5/12/13/17/25.

⚙️【Fast Installation and App】SignalSupervisor App helps fine-tune the best output and see how strong the signal is. No drills are necessary since the window wire can be fed through the window bottom to connect the outdoor antenna and the cell signal booster. Even if you have no installation experience, you can easily complete the DIY installation process by following the step-by-step guide.

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robertemma27-blog · 2 months

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Smart Card Market : Analysis of Upcoming Trends and Current Growth

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

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

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

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

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

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

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

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

#Smart Card Market

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