Understanding H685 Interfaces and Dimensions: A Comprehensive Guide

Dive into the intricacies of the H685 interfaces and dimensions with our detailed video guide. This video provides a thorough exploration of how H685 interfaces function and the critical dimensions that define their applications. Whether you're new to H685 or looking to deepen your understanding, this resource covers everything from basic concepts to advanced configurations. Gain insights into optimal usage scenarios, compatibility considerations, and practical tips for integrating H685 interfaces into your projects effectively. Expand your knowledge and enhance your proficiency with this indispensable video on H685 interfaces and dimensions.

What is the difference between a Wi-Fi extender and an external antenna?

What is Wi-Fi Extender ?

A Wi-Fi extender, also known as a Wi-Fi repeater or range extender, is a device that helps increase the coverage area of a Wi-Fi network by amplifying the existing Wi-Fi signal from a router or access point and rebroadcasting it. Here's how it works and some key points about Wi-Fi extenders:

Signal Amplification: A Wi-Fi extender receives the Wi-Fi signal from the primary router or access point and then amplifies it before rebroadcasting it. This amplified signal can reach areas of a home, office, or other space where the original Wi-Fi signal might be weak or nonexistent.

Extended Coverage: The primary purpose of a Wi-Fi extender is to extend the coverage area of a Wi-Fi network, allowing devices farther away from the main router to connect to the network with a stronger signal. This is particularly useful in larger homes, offices, or spaces with multiple floors where the Wi-Fi signal might not reach all areas effectively.

Setup: Setting up a Wi-Fi extender typically involves connecting it to the existing Wi-Fi network and positioning it in a location where it can receive a strong signal from the primary router while also providing coverage to the desired area. Most extenders have a setup process that can be completed through a web interface or a mobile app.

Network Name: Wi-Fi extenders often create a new network with its own SSID (network name) and password. Devices can connect to this extended network to access the internet through the extender, but they can also seamlessly switch between the original network and the extended network based on signal strength.

Types: Wi-Fi extenders come in various forms, including plug-in models that simply plug into a power outlet and desktop models that need to be placed on a flat surface. Some models also feature external antennas to further improve signal strength and coverage.

Considerations: While Wi-Fi extenders can be effective in extending Wi-Fi coverage, they may also introduce some latency or signal degradation due to the additional hop in the network. Additionally, the placement of the extender is crucial for optimal performance, as placing it too far from the primary router or in an area with interference can diminish its effectiveness.

What is External Antenna ?

An external antenna is a hardware component that can be attached to a Wi-Fi router, access point, or other wireless device to improve its signal strength, range, and overall performance. Here are some key points about external antennas:

Enhanced Signal Strength: External antennas are designed to improve the transmission and reception of wireless signals. They can amplify the signal strength of the router or access point, allowing it to reach farther distances and penetrate obstacles such as walls and floors more effectively.

Types: There are different types of external antennas, including omni-directional and directional antennas.

Omni-directional Antennas: These antennas radiate the Wi-Fi signal in all directions, providing 360-degree coverage. They are suitable for general-purpose use in environments where Wi-Fi devices are spread out in various directions.

Directional Antennas: These antennas focus the Wi-Fi signal in a specific direction, providing more concentrated coverage over longer distances. They are useful for targeting Wi-Fi signals to specific areas or overcoming signal obstacles.

Installation: External antennas can typically be attached to the router or access point through external connectors, such as SMA or RP-SMA connectors. They may come with mounting brackets or stands for installation on walls, ceilings, or other surfaces. Installing an external antenna usually involves connecting it to the device's antenna port and positioning it for optimal signal reception.

Adjustability: Many external antennas are adjustable, allowing you to change the orientation or angle to optimize signal strength and coverage. By adjusting the antenna's position, you can fine-tune the Wi-Fi signal to better suit the layout of your space.

Compatibility: External antennas are often compatible with a wide range of routers, access points, and wireless devices that support external antenna connections. However, it's essential to ensure compatibility with your specific device and antenna connector type (such as SMA or RP-SMA).

Use Cases: External antennas are commonly used in scenarios where Wi-Fi coverage needs to be extended or improved, such as in large homes, offices, warehouses, or outdoor environments. They can also be useful for overcoming signal interference or obstacles that hinder Wi-Fi performance.

Difference between a Wi-Fi extender and an external antenna -

A Wi-Fi extender and an external antenna serve different purposes in improving Wi-Fi signal strength and coverage, but they can sometimes be used together for enhanced performance.

Wi-Fi Extender/Repeater: A Wi-Fi extender, also known as a repeater, is a device that amplifies an existing Wi-Fi signal and rebroadcasts it to extend the coverage area. It essentially creates a new network with its own SSID (network name) and password, but it relies on the original network's signal as its source. Extenders are particularly useful in large homes or offices where the Wi-Fi signal from the router might not reach all areas effectively.

External Antenna: An external antenna is a component that can be attached to a Wi-Fi router or access point to enhance its signal strength and range. Antennas come in different types, such as omni-directional (which radiate signal in all directions) and directional (which focus signal in a specific direction). By upgrading or adding an external antenna to a router or access point, you can often improve the coverage and reach of the Wi-Fi network.

Key Differences:

Functionality: A Wi-Fi extender works by receiving the existing Wi-Fi signal and rebroadcasting it to extend coverage, while an external antenna enhances the signal strength of the router or access point itself.

Setup: Wi-Fi extenders typically require their own setup process, including connecting to the existing Wi-Fi network and configuring settings. External antennas usually involve physically attaching the antenna to the router/access point, which may require some technical knowledge but typically doesn't involve additional network configuration.

Coverage: Extenders can extend Wi-Fi coverage to areas where the original signal is weak or nonexistent, while external antennas improve the overall coverage of the router/access point itself, potentially benefiting all devices connected to the network.

In some cases, using both a Wi-Fi extender and an external antenna together can provide comprehensive coverage and signal strength improvement throughout a larger area.

Is Mediatek Helio G99 Good For Gaming? Lets Go To Details

Mediatek Helio G99 processor

The DC-1 is the first tablet with a 10.5″ LivePaper Display in the world that, when its LED backlight is turned all the way to amber, can operate without emitting any blue light at all. You can use this innovative display for an extended period of time because it functions at a super-smooth 60 frames per second, is easier on the eyes, and doesn’t flicker or glare outside.

Apart from the powerful, eight-core MediaTek Helio G99 SoC, the DC-1 is equipped with a large 8000mAh battery, fast Wi-Fi 6, Bluetooth 5.0 wireless connectivity, 8GB of RAM, and 128GB of storage. Even better, a USB 3.1 Type-C to Ethernet converter can be used to Ethernet-tether it.

MediaTek Helio G99 6nm

Outstanding 4G gaming smartphones at 6nm with amazing power efficiency

The next generation of 4G gaming smartphones is introduced by the MediaTek Helio G99. This  processor, which is based on the incredibly effective TSMC N6 (6nm-class) semiconductor manufacturing process, allows for all-day gaming, large cameras, quick displays, seamless streaming, and dependable international networking. Partners can modify the MediaTek Helio G99 platform to fit particular needs for their markets or devices.

Mediatek Helio G99 phones

The TSMC N6 (6nm-class) chip production process, which we used to enhance the Helio 4G series, allows the G99 to be incredibly power efficient and opens up new possibilities for device makers to produce gaming smartphones that last longer than before.

Mediatek Helio G99 ghz

Fast-moving 120 Hz screens with intelligent display synchronisation

Without the need for additional DSC hardware, device manufacturers may produce gaming smartphones that are lightweight and thin with Full HD+ 120Hz screens that are sharp and clear. Even 4G smartphones are now expected to have 120Hz displays, which offer an incredibly smooth everyday experience with noticeably smoother webpage browsing and app animations.

Through dynamic refresh rate adjustments, MediaTek Intelligent Display Sync technology increases the power economy of these rapid screens by only enabling greater speeds when they are most needed.

108 Megapixel Primary Camera

Large 108MP cameras are available for device makers to employ, enabling users to take the highest detailed pictures. When compared to other MediaTek Helio series chipsets, photographic results are better thanks to dimensity-class picture quality technology. Highly detailed bokeh captures in dual selfie and multi-camera setups are possible with twin cameras up to 16MP with ZSL.

Mediatek Helio G99 octa-core

With two powerful Arm Cortex-A76 processors that can reach 2.2GHz in frequency, the MediaTek Helio G99 is equipped with an octa-core  CPU and a powerful Arm Mali G57-class GPU. Accelerated data access using fast UFS 2.2-class storage and high speed LPDDR4X memory up to 2,133MHz maximises performance in games, apps, and daily tasks.

Gaming technology powered by MediaTek HyperEngine 2.0 Lite

2.0 Resource Management Engine

Longer-lasting, more fluid gameplay is ensured by an intelligent resource management engine.

 CPU, GPU, and RAM are intelligently and dynamically managed based on active power, thermal, and gameplay measures.

improved performance in difficult scenarios, high-stress games, and game engines that load slowly

High FPS power savings prolong battery life without compromising user experience by combining hardware and software improvements to lower power consumption during high FPS gaming situations.

2.0 Networking Engine

To make sure you’re always connected, the networking engine provides more dependable connectivity and quicker reaction times.

Call and Data Concurrency enables users to postpone conversations while playing games without the data connection failing, and WiFi antenna shifting modifies the signal between antennas to maximise throughput and minimise latency.

Two 4G VoLTE in tandem

For optimal power efficiency, a fast Cat-13 4G LTE modem is built inside the chip. Supported are global bands and IMS services; additionally, cutting-edge features like 4×4 MIMO and 256QAM offer dependable connectivity even in densely populated locations. While VoLTE and ViLTE services offer great call and live video experiences with faster call setup and substantially better quality than conventional calling, essential dual 4G SIM offers a seamless experience with fast data services from both connections.

Mediatek Helio G99 Benchmark

AnTuTu Benchmark

Overall Score: Around 350,000 to 400,000

 CPU Score: Around 100,000 to 120,000

GPU Score: Around 90,000 to 110,000

Geekbench 5

Single-Core Score: Approximately 500 to 600

Multi-Core Score: Approximately 1500 to 1700

3DMark (Sling Shot Extreme)

Score: Around 1800 to 2200

Mediatek Helio G99 price

Since manufacturers buy the MediaTek Helio G99, its mid-range chipset price is rarely listed. However, cellphones and devices using this chipset can give us an indication of its pricing.

Helio G99 Device Price Range

MediaTek Helio G99 smartphones are inexpensive to mid-range. These gadgets’ estimated prices:

The Helio G99 can be found in $150–200 smartphones. Mid-Range Smartphones: $200–$300 models with this chipset have more features.

Device Examples

Around $250 for Infinix Note 12 Pro. The Tecno Camon 19 Pro costs around $230.

Prices vary by model, RAM and storage configurations, features, regional pricing, and store pricing strategies.

Conclusion

Despite the MediaTek Helio G99 chipset’s price being unknown, devices using it cost $150 to $300. This line matches its mid-level mobile device affordability.

MediaTek Helio G99 Specs

 Processor

 Processor

2x Arm Cortex-A76 up to 2.2GHz

6x Arm Cortex-A55 up to 2.0GHz

Cores

Octa (8)

 CPU Bit

64-bit

Heterogeneous Multi-Processing

Yes

Memory and Storage

Memory Type

LPDDR4X

Max Memory Frequency

4266Mbps

Storage Type

UFS 2.2

Connectivity

Cellular Technologies

4G Carrier Aggregation (CA), CDMA2000 1x/EVDO Rev. A (SRLTE), 4G FDD / TDD, HSPA +

Specific Functions

4X4 MIMO, 2CC CA, 256QAM, TAS 2.0, HPUE, IMS (VoLTE\ViLTE\WoWi-Fi), eMBMS, Dual 4G VoLTE (DSDS), Band 71

LTE Category

Cat-13 DL

GNSS

GPS / QZSS L1+ L5 / Galileo E1 + E5a / BeiDou B1C + B2a / NAVIC

Wi-Fi

Wi-Fi 5 (a/b/g/n/ac)

Bluetooth Version

5.2

Camera

Max Camera Resolution

108MP

16MP + 16MP

Capture FPS

32MP @ 30fps ZSL

16MP + 16MP @ 30fps ZSL

Camera Features

3X ISP;  AI Face Detection; HW depth engine; AINR; Single-Cam/Dual-Cam Bokeh; Hardware Warping Engine (EIS); Rolling Shutter Compensation (RSC) engine; MEMA 3DNR; Multi-Frame Noise reduction;

Display

Max Display Resolution

2520 x 1080

Max Refresh Rate

120Hz

Graphics & Video

GPU Type

Arm Mali-G57 MC2

Video Encoding

H.264, H.265 / HEVC

Video Encoding FPS

2K 30fps, FHD 60fps, HD 120fps

Video Playback

H.264, H.265 / HEVC, VP-9

Video Playback FPS

2K 30fps, FHD 60fps, HD 120fps

Read more on govindhtech.com

Advantages and disadvantages of 5G

5G technology or fifth generation technology offers many features for mobile networks. It is useful for government, students, businesses and professionals. It is a new mobile network designed to connect everyone and everything. It is the new standard in global wireless networks after 1G to 4G. It offers high multi-Gbps data speeds, low latency, large network capacity, and a flexible user experience. As this new technology is deployed, 5G technology should create many new applications.

5G technology features in brief. Speed ​​up to 10 Gbits.

Great app

100 times more device connections

Fast response time

Waste of time

Another software option to upgrade. Great potential

With the proliferation of digital around the world, when live streaming and games, sports, news, movie reviews, social media, etc., the transfer of large amounts of data from one host to another and the Internet of Things (IoT) spurred the development of mobile phone standards. .

However, the 5G technology network has not yet reached its potential because the existing devices and infrastructure are not yet ready to support the 5G technology network. Those who have tested the 5G technology network using it with built-in 4G devices in this application are also called non-stationary 5G technology networks. The full potential of 5G technology will only be realized when independent networks, compatible devices and better communication tower technologies become available.

Advantages of 5G technology

Transfer data faster

The previous generation 4G LTE technology used bands below 3 GHz but in comparison, 5G technology uses bandwidth from 6 GHz in length to 24 GHz. However, it is important to note that 5G technology coverage also requires a base station and a broadcast tower compared to a 4G data network.

Improved network

5G networks are more flexible as they work with different customers, services and market segments. It divides its network in such a way that it will adapt to the needs of the users. It is based on Network Functions Virtualization (NFV) and Software Defined Networking (SDN). It is also called a "network fragment". This provides high data rates, low power consumption, and reliable low latency.

Moving Beamforming

Moving Beamforming refers to a radio signal processing technique that allows for the transmission or reception of a directional network, unlike a passive antenna that beams the signal randomly in all directions. 4G networks also use beamforming to some capacity, but in a growing sense.

Benefits for companies and businesses

It provides improved machine-to-machine communication for automation, real-time communication and guaranteed network availability, digitization of healthcare and agricultural industries.

Benefits for consumers

It provides fast download and download times when you are streaming users. Stable connection to mobile communications, low response time for online or cloud gaming, virtual reality, high quality live TV and 4K video telephony.

A more secure network

5G technology networks offer more security than previous generation networks. It supports protection against data loss, data corruption and theft. The exchange of sensitive and private customer data, such as hospital patient reports, customer data and student information at universities, is more secure in the 5G technology network.

Disadvantages of 5G

Limit coverage

The 5G technology network is a new technology, it requires a large network of ports and transmission towers worldwide, which requires a lot of time, testing, testing and setting up 5G technology towers.

Reduces durability

If the experts are to be believed, the non-standard 5G technology network undermines the performance of 4G network devices. Although a few manufacturers have started to produce 5G technology network devices, R & D believes that due to high data transmission in the largest network, the longevity or service life of mobile phones and other devices will be compromised.

Involvement in aviation

In January, Air India cancled several flights to the United States because they were rolling out 5G technology services in the country. This is a major setback of 5G technology in India as airlines have suffered losses due to ongoing 5G technology deployment projects. It can also be a hindrance in the future if not dealt with quickly. Internet Security Threats

Although the 5G technology network is said to help improve cybersecurity, it also has its limitations as it encourages cloud computing and exposes more data to risk. of hacking due to its lack of privacy and ease of access to network networks. on the other hand. hands

5G technologyin India

India officially launched its 5G technology network in October this year at an event held in New Delhi. Airtel and Jio have started rolling out 5G technology data plans in select state. However, Vodafone Idea is not planning to launch it in the near future.

In case of Airtel, they are currently placed in Tier I to Tier 8 countries. Jio has launched 5G technology services in limited areas. Many telecom operators are also of the opinion that pan-India 5G technology network coverage will take a few years. Jio recently announced after the 5G technology beta test that no SIM card is required to operate Jio's 5G technology network. However, Vodafone Idea has not yet announced its 5G technology network.

The health risks of 5G technology and the disadvantages of 5G technology for the environment

The International Commission on Non-ionizing Radiation Protection (ICNIRP) has stated that increasing radio frequencies above 6 GHz may have biological and health effects. The 5G technology network will increase the amount of electromagnetic radiation in the environment, causing a greater risk of cancer. With the lack of power of 5G technology network devices, there will also be an increase in the collection of electronic waste. The electric current from the cell tower exposed sparrows and other birds to increased egg production and nesting behavior. High rates of energy consumption have also contributed to global warming.

Industry trend｜Another domestic manufacturer launches new WiFi6 chip for low-power IPC

AltoBeam recently launched the new generation of Wi-Fi 6 low-power chip ATBM6461, which was independently developed and has complete intellectual property rights. The main selling point of this chip is WiFi6; the other is low power consumption. From these two functional points, it is almost tailor-made for low-power IPC.

WiFi IPC is the most important product line of consumer IPC, accounting for 80% of the market share, and 80% of them use WiFi4 transmission. As users have higher and higher requirements for image quality, interactive experience, and application scenarios, the market needs higher speed, lower power consumption, and more stable transmission technology. The development of WiFi6 technology can meet the needs of industry development. From WiFi, WiFi5 iteration to WiFi6, from single-band to dual-band, they are all in line with the trend of technology and standard iteration.

In the "2024 Visual IoT Consumer Market Analysis Report", we introduced that WiFi6 IPC has the following advantages over WiFi4 IPC:

1. High speed: WiFi6 is about 50% higher than WiFi4 of the same specification, ensuring a smooth video experience at the same distance.

2. Low power consumption: WiFi6 allows devices to plan communications with routers, reducing the time required to keep the antenna powered on to transmit and search for signals, which means reducing battery consumption and improving battery life performance. The actual power consumption is 20%~30% lower than WiFi4.

3. Stability: WiFi6 introduces cellular OFDMA technology to achieve high-density access routing, and parallel transmission is highly real-time. WiFi4 devices access routing by time-division multiplexing to grab network speed, so WiFi6 can solve the probabilistic disconnection and jamming problems of WiFi4.

4. Iteration trend of new and old standards: WiFi4 to WiFi6 is the iteration of new and old standards, similar to cellular 2G to 4G; as prices approach or remain the same, the iteration will be accelerated. At this stage, WiFi6 has the added advantage of differentiated competition with new selling points in addition to performance advantages compared to WiFi4.

On WiFi6, AltoBeam's data said: ATBM6461 supports all modes from MCS0 to MCS11 specified in the Wi-Fi6 protocol, and the physical layer supports modulation and demodulation up to 1024QAM, with a maximum bit rate of 287Mbps. At the same time, the ATBM6461 chip has further significantly improved the RF performance indicators to ensure that more data can be transmitted at a longer distance. ATBM6461 fully supports various advanced technologies in the Wi-Fi 6 protocol, such as LDPC encoding and decoding, Beamforming, Extended Range frame structure (ER-SU) and dual carrier modulation (DCM). Therefore, ATBM6461 can greatly improve the sensitivity index and the transceiver performance in complex network environments, and the signal coverage range can also be greatly increased.

In terms of low power consumption, for battery-powered terminal product applications, ATBM6461 pays special attention to optimizing the power consumption of the chip, and further extends the battery life by supporting the TWT function in the Wi-Fi6 protocol.

It is said that AltoBeam's new low-power WiFi6 product will soon be launched in the North American market. Recently, the main players in the domestic WiFi6 chip market include: Aikewei, Broadcom Integrated, Espressif Technology, Aojie Technology, etc. The "2025 Visual IOT Low Power Market Analysis Report" has started, and industry professionals are welcome to actively participate in our report. We will also include good products and good ideas in the report.

This paper is from Ulink Media, Shenzhen, China, the organizer of IOTE EXPO (IoT Expo in China)

The Multiple Input Multiple Output (MIMO) Market is poised for substantial growth, with the market size expected to reach USD 10,895 million in 2024 and projected to expand to USD 23,524.79 million by 2032, reflecting a robust CAGR of 10.1% during the forecast period. Multiple Input Multiple Output (MIMO) is a wireless technology that enhances data transmission efficiency and speed by utilizing multiple antennas at both the transmitter and receiver ends. This technique, which allows the simultaneous transmission and reception of multiple data signals over the same radio channel, significantly improves network capacity and reliability. MIMO technology has become a cornerstone in modern wireless communication systems, especially in applications such as 4G LTE, Wi-Fi, and 5G networks.

Browse the full report at https://www.credenceresearch.com/report/multiple-input-multiple-output-mimo-market

Market Dynamics

The MIMO market has experienced substantial growth over the past few years, primarily driven by the increasing demand for faster and more reliable wireless communication systems. The rapid adoption of smartphones, tablets, and other connected devices has led to a surge in data traffic, necessitating improved wireless infrastructure. As a result, MIMO technology has become essential for mobile operators and equipment manufacturers to enhance data throughput and provide seamless connectivity.

The rollout of 5G networks has also played a pivotal role in the expansion of the MIMO market. 5G networks rely heavily on MIMO technology, particularly massive MIMO, which employs hundreds or even thousands of antennas to deliver high-speed, low-latency communication. The ability of MIMO to improve spectrum efficiency and support more users in dense urban areas has made it a key enabler of 5G technology.

Key Market Drivers

1. Rising Demand for High-Speed Wireless Connectivity: With the growing reliance on digital services, there is a surging demand for faster and more reliable internet connections. MIMO technology helps meet this demand by enabling higher data transfer rates, making it a crucial component in wireless networks.

2. Proliferation of Smart Devices and IoT: The increasing number of connected devices, including smartphones, smart home devices, and IoT sensors, has led to a significant rise in data traffic. MIMO technology supports higher capacity and better performance in congested networks, ensuring smooth communication for all devices.

3. Adoption of 5G Networks: The deployment of 5G networks is one of the most significant drivers of the MIMO market. 5G relies heavily on MIMO, especially massive MIMO, to provide enhanced coverage, increased capacity, and ultra-low latency. As more countries and telecom operators roll out 5G infrastructure, the demand for MIMO-enabled equipment continues to grow.

4. Advancements in Wi-Fi Technology: MIMO is also a critical component in modern Wi-Fi standards, such as Wi-Fi 6 (802.11ax) and the upcoming Wi-Fi 7. These standards utilize MIMO to improve data transfer speeds, reduce latency, and increase the number of devices that can be connected simultaneously. The growing adoption of these Wi-Fi technologies is expected to boost the demand for MIMO solutions.

Challenges and Restraints

Despite its advantages, the MIMO market faces several challenges. One of the primary concerns is the complexity of MIMO systems. Implementing multiple antennas and managing interference between signals can be technically challenging, leading to increased costs for network operators. Additionally, the integration of MIMO technology into existing networks can require significant investment in hardware and software upgrades.

Another challenge is the regulatory environment. In some regions, spectrum allocation and licensing issues can hinder the deployment of MIMO technology, particularly in the context of 5G networks.

Future Outlook

The future of the MIMO market looks promising, driven by the continued expansion of 5G networks, the evolution of Wi-Fi standards, and the growing demand for high-speed wireless connectivity. Massive MIMO, in particular, is expected to play a crucial role in shaping the next generation of wireless communication systems, enabling faster, more reliable, and more efficient networks.

Moreover, as industries such as automotive, healthcare, and smart cities increasingly rely on connected devices and IoT solutions, the demand for MIMO technology will only grow. The integration of MIMO into emerging technologies such as autonomous vehicles and smart infrastructure will create new opportunities for market expansion.

Key Player Analysis:

Qualcomm Technologies, Inc.

Ericsson

Huawei Technologies Co., Ltd.

Nokia Corporation

ZTE Corporation

Samsung Electronics Co., Ltd.

Intel Corporation

Cisco Systems, Inc.

Broadcom Inc.

NEC Corporation

Segmentations:

By Technology:

LTE

5G

By Type:

Single Input Multiple Output (SIMO)

Multiple Input Single Output (MISO)

Multiple Input Multiple Output (MIMO)

By Application:

Wi-Fi Hotspots

Smart Home Devices

Mobile Broadband Connections

Fixed Wireless Access

Smartphones

Others (laptops, tablets)

By Antenna Type:

Single User MIMO

Multi-User MIMO

Massive MIMO

Others (Sierra Wireless MG90)

By End User:

Telecom Operators

Automotive

Government

Healthcare

Others (Industrial, Enterprise, etc.)

By Region

North America

The U.S

Canada

Mexico

Europe

Germany

France

The U.K.

Italy

Spain

Rest of Europe

Asia Pacific

China

Japan

India

South Korea

South-east Asia

Rest of Asia Pacific

Latin America

Brazil

Argentina

Rest of Latin America

Middle East & Africa

GCC Countries

South Africa

Rest of Middle East and Africa

Browse the full report at https://www.credenceresearch.com/report/multiple-input-multiple-output-mimo-market

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Eteily Technologies India Pvt Ltd | Manufacturer | Telecom Products | India

Eteily is well known brand in India for RF Antennas Radio frequency Antenna. Radio frequencies from DC to 18GHz and RF Families like IoT Antenna, 868MHz Antenna, LoRa Antenna, 433MHz Antenna,5G Antenna, LTE Antenna, 4G Antenna, WCDMA 3G Antenna, 5.8GHz Antenna, 2.4GHz Antenna, Bluetooth Antenna, RF Antenna Solutions, Cellular Antenna, General ISM Antenna, Navigation Antenna, Wi-Fi Antenna, and 802.15 Antenna.

Global Top 14 Companies Accounted for 66% of total Automotive Antenna Module market (QYResearch, 2021)

Automotive Antenna Module is an electrical component which is designed to be mounted on the vehicle refers to receive and transfer information. Typically, an antenna consists of an arrangement of metallic conductors (elements), electrically connected (often through a transmission line) to the receiver or transmitter. An oscillating current of electrons forced through the antenna by a transmitter will create an oscillating magnetic field around the antenna elements, while the charge of the electrons also creates an oscillating electric field along the elements. These time-varying fields radiate away from the antenna into space as a moving transverse electromagnetic field wave. Conversely, during reception, the oscillating electric and magnetic fields of an incoming radio wave exert force on the electrons in the antenna elements, causing them to move back and forth, creating oscillating currents in the antenna.

According to the new market research report “Global Automotive Antenna Module Market Report 2023-2029”, published by QYResearch, the global Automotive Antenna Module market size is projected to reach USD 1.91 billion by 2029, at a CAGR of 3.2% during the forecast period.

Figure.   Global Automotive Antenna Module Market Size (US$ Million), 2018-2029

Figure.   Global Automotive Antenna Module Top 14 Players Ranking and Market Share (Ranking is based on the revenue of 2022, continually updated)

The global key manufacturers of Automotive Antenna Module include Harada, Laird, Yokowo, Continental, TE Connectivity, Northeast Industries, Fiamm, Ace Tech, Riof, Suzhong, etc. In 2022, the global top five players had a share approximately 66.0% in terms of revenue.

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

Manufacturing PCB for 5G Technology

5G is a 5th-generation wireless communication technology that offers faster data speed, better connections with increased capacity, and lower latency compared to the predecessor 4G technology for mobile networks.  

5G compared to 4G can do better at quick downloads and uploads with faster speed, reducing the delay in the transmission of data with lower latency and its ability to connect to a greater number of devices makes it a leap forward. It beats 4G even in terms of energy consumption per bit of data transmitted making it environmentally more sustainable.  

The high usage of 5G in the market can demand for manufacturing of highly adaptable PCBs that is essentially distinct from a 4G PCB.  

The higher frequencies and faster data rates mean we must carefully plan for signal strength, manage heat, and choose the right materials for the power circuit boards.

The Impact of 5G on PCB Design

Below are the impacts that are seen in designing PCB for 5G

Expanded Frequency Spectrum

Transitioning from 4G to 5G introduces a broadened frequency spectrum, posing significant challenges for PCB design. The frequency ranges from below 6 GHz to as high as 71 GHz in the millimetre wave region.

Signal Integrity

PCB designers face issues such as signal degradation, reflection, interference, and attenuation in the complex 5G landscape. Advanced techniques like impedance matching, differential signalling, shielding, grounding, and precise trace design become imperative.

Heat Generation

Heightened speeds and increased data transfer rates in 5G devices result in elevated power consumption and component density. Effective thermal management strategies are crucial, involving materials with superior thermal conductivity, thermal vias, heat sinks, and fans.

Phased Array Antennas

The integration of multiple phased array antennas on PCBs is necessitated by 5G's reliance on the Extremely High-Frequency (EHF) band. Introduces complexities related to millimeter waves operating on a line-of-sight basis and undergoing attenuation in the presence of obstacles.

Channel Bandwidth

5G can operate in various frequency band from sub to 1 GHz, 1 to 6 GHz and above 24 GHz called millimeter wave. The spectrum of frequencies are divided into channels and distributed to the operators. The bandwidth is the width of the frequency range which are allocated to channel. For 4Gs this is set at 20 MHz whereas for 5G, frequencies below 6GHz are set at 100 MHz and for above 6gHz they are set at 400 MHz.   The selection of PCB materials becomes critical to meet these bandwidth demands, particularly for frequencies above 6 GHz.

PCB Design with 5G Consideration

Here are the ways that can be implemented to overcome the above challenges.  

Controlled Impedance

1. Specify impedance requirements for transmission lines based on the characteristic impedance of the PCB material.

Use impedance calculators to determine trace widths and separation for controlled impedance routing. C onsider differential pairs for high-speed data lines, maintaining consistent impedance for signal integrity.

RF Component Integration

1. Choose RF components with suitable characteristics for 5G frequency bands.

2. Implement transmission line techniques such as microstrip or stripline for RF trace routing.

3. Utilize electromagnetic simulation tools to analyze and optimize RF circuit performance.

MIMO System Design

1. Calculate the required antenna spacing for optimal MIMO performance based on wavelength considerations.

2. Implement diversity techniques to enhance MIMO system reliability in challenging environments.

3. Use advanced MIMO algorithms for signal processing, requiring coordination with the PCB layout.

Power Distribution

1. Perform power integrity analysis using tools like power delivery network simulators.

2. Design low-impedance power planes with multiple vias for effective power distribution.

3. Optimize capacitor placement by considering the resonance frequency of the power delivery network.

Advanced PCB Materials

1. Select high-frequency laminates with low dielectric constant and loss tangent.

2. Consider specialized substrates, such as PTFE-based materials, for improved RF performance.

3. Evaluate material properties through manufacturer data sheets and simulation tools.

Signal Integrity Analysis

1. Conduct detailed signal integrity simulations using tools like SPICE or electromagnetic simulators.

2. Analyze reflections, crosstalk, and jitter to ensure signal quality meets 5G requirements.

3. Implement signal conditioning techniques such as equalization and pre-emphasis based on simulation results.

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Original Content Here: https://www.pcbpower.us/blog/Manufacturing-PCB-for-5G-Technology

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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

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Decoding 5G Technology

In the ever-evolving landscape of technology, one term has been making waves across industries and societies alike: 5G technology. Often referred to as the fifth generation of wireless technology, 5G is more than just an upgrade; it's a monumental leap forward in connectivity. This article dives deep into the world of 5G, exploring its implications, applications, and the ways it's revolutionizing connectivity. Decoding 5G Technology: Revolutionizing Connectivity At its core, 5G technology is all about speed, capacity, and low latency. Unlike its predecessor, 4G, which primarily focused on faster internet speeds, 5G is a game-changer that introduces ultra-low latency and the ability to connect a massive number of devices simultaneously. It achieves this through advanced radio technology, network architecture, and innovative infrastructure. The Building Blocks of 5G To understand how 5G is revolutionizing connectivity, let's break down its fundamental components: 1. Millimeter-Wave Frequencies 5G harnesses millimeter-wave frequencies, a much higher spectrum range compared to previous technologies. These high frequencies enable data transfer at incredible speeds, laying the groundwork for real-time communication and seamless device interactions. 2. Small Cell Deployment Decoding 5G Technology: Revolutionizing Connectivity involves a dense network of small cells. These compact base stations are strategically placed in urban areas, stadiums, and crowded spaces, ensuring consistent coverage and high-speed connectivity. 3. Massive MIMO (Multiple Input Multiple Output) Massive MIMO is another key feature of 5G. It utilizes a large number of antennas to transmit and receive signals simultaneously. This not only boosts connection speeds but also enhances network capacity, making it ideal for crowded events and urban environments. 4. Network Slicing One of the most intriguing aspects of 5G is network slicing. This technology allows network operators to create multiple virtual networks on a shared physical infrastructure. Each slice can be customized to serve specific use cases, such as IoT devices, autonomous vehicles, and augmented reality applications. Unleashing Transformative Potential The impact of 5G reaches far beyond faster download speeds. Its transformative potential is reshaping various industries and aspects of our lives: 1. Healthcare Decoding 5G Technology: Revolutionizing Connectivity in healthcare opens doors to remote surgeries, real-time patient monitoring, and telemedicine. Surgeons can operate on patients from different parts of the world, leveraging the low latency and reliability of 5G networks. 2. Smart Cities 5G is a cornerstone of smart city development. With its ability to connect countless sensors, devices, and infrastructure, cities can optimize traffic flow, reduce energy consumption, and enhance public safety through real-time data analysis. 3. Entertainment and Media The entertainment industry benefits from 5G's high bandwidth and low latency. Augmented reality experiences, seamless 4K streaming, and immersive virtual reality gaming become a reality, blurring the lines between the digital and physical worlds. 4. Manufacturing and Industry 4.0 Decoding 5G Technology: Revolutionizing Connectivity in manufacturing leads to the era of Industry 4.0. Autonomous robots, IoT-enabled sensors, and connected machinery streamline production processes, increase efficiency, and minimize downtime. FAQs Can I upgrade my current device to use 5G? Absolutely. However, your device needs to be 5G-compatible. If it's not, you might need to invest in a new smartphone or other compatible hardware. Is 5G available everywhere? While 5G is rapidly expanding its coverage, it might not be available in all areas yet. Urban centers often have better coverage than rural regions. What's the main difference between 4G and 5G? The primary differences lie in speed, capacity, and latency. 5G offers significantly faster speeds, higher device capacity, and ultra-low latency compared to 4G. Are there any health concerns related to 5G? Extensive research has been conducted, and the consensus is that 5G radiation is within safe limits defined by regulatory bodies. It's no more harmful than previous generations of wireless technology. How will 5G impact IoT devices? 5G is a game-changer for the Internet of Things (IoT). Its high capacity and low latency enable seamless communication between a vast number of IoT devices, fostering the growth of smart homes and cities. Will 5G replace Wi-Fi? While 5G offers impressive speeds, Wi-Fi will likely continue to serve as a crucial technology for local network connections, especially within buildings and homes. Conclusion Decoding 5G Technology: Revolutionizing Connectivity marks a pivotal moment in the history of technological advancement. With its unprecedented speed, capacity, and transformative potential, 5G is set to reshape industries, enhance experiences, and pave the way for a more connected and efficient future. Embracing this technology opens doors to innovations we've only dreamed of, making the seemingly impossible a reality. Read the full article

Global Connected Car Market Size, Share & Trends Analysis Report by Service, Connectivity, Application, Hardware, Network, Technology, End-User, Region, and Forecast 2021-2027

A connected car is a vehicle that is equipped with an internet connection, allowing it to communicate with other vehicles, infrastructure, and the cloud. This connectivity provides a wide range of benefits, including improved safety, convenience, and efficiency.

The global connected car market is growing rapidly, with a CAGR of 25.6% expected over the forecast period (2021–2027). This growth is being driven by a number of factors, including the increasing demand for safety features, the growing popularity of infotainment systems, and the development of 5G networks.

Get a free sample copy of the research report: https://www.vynzresearch.com/automotive-transportation/connected-car-market/request-sample

Market Segmentation

The global connected car market is segmented by service, connectivity, application, hardware, network, technology, and end-user.

By service: The market is segmented into connected services, autonomous driving, and safety & security.

By connectivity: The market is segmented into tethered, integrated, and embedded.

By application: The market is segmented into navigation, telematics, and infotainment.

By hardware: The market is segmented into displays, sensors, smart antennae, and electronic control units (ECU).

By network: The market is segmented into dedicated short-range communication (DSRC) and cellular.

By technology: The market is segmented into 3G, 4G/LTE, and 5G.

By end-user: The market is segmented into original equipment manufacturer (OEM) and aftermarket.

Regional Analysis

The global connected car market is dominated by Asia Pacific, followed by North America and Europe. Asia Pacific is expected to continue to be the leading region in the coming years, due to the increasing demand for connected cars in China, India, and South Korea.

Market Drivers and Challenges

The growth of the global connected car market is being driven by a number of factors, including:

Increasing demand for safety features

Growing popularity of infotainment systems

Development of 5G networks

Government initiatives to promote connected car technology

However, the market also faces some challenges, such as:

High cost of connected car technology

Privacy concerns

Security risks

Market Trends

Some of the key trends in the global connected car market include:

Increasing adoption of 5G networks

Growth of autonomous driving technology

Development of new connected car applications

Expansion of the aftermarket connected car market

Vendor Analysis

The global connected car market is highly competitive, with a number of major players vying for market share. Some of the leading vendors in the market include:

Delphi Technologies Plc.

DENSO Corporation

ZF Friedrichshafen

Robert Bosch GmbH

Aisin Seiki

Valeo S.A.

Autoliv Inc.

Conclusion

The global connected car market is expected to continue to grow rapidly in the coming years. The increasing demand for safety features, the growing popularity of infotainment systems, and the development of 5G networks are all driving the growth of the market. However, the market also faces some challenges, such as the high cost of connected car technology and privacy concerns.

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Source: VynZ Research