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Full digital control of the design concept, application of intelligent CPU control System, combined with CMOS and PWM, built in power Intelligent charger.

On battery it generates pure sine wave.

Upon power failure or significant low voltage, the UPS will provide power until the battery voltage drops significantly, after which the UPS will shut down. When the mains power is restored, the UPS automatically turns on and starts charging the battery and power supply. No need to manually turn on the UPS.

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The MePhone4 is a smartphone that was designed, developed, and marketed by Meeple Inc. It is the fourth generation of the MePhone lineup, succeeding the MePhone3GS and preceding the MePhone4s. Following a number of notable leaks, the MePhone4 was first unveiled on June 7, 2010, at Meeple's Worldwide Developers Conference in San Francisco, and was released on June 24, 2010, in the United States, United Kingdom, France, Germany, and Japan. The MePhone4 introduced a new hardware design to the MePhone family, which Meeple's CEO Steve Cobs touted as the thinnest smartphone in the world at the time; it consisted of a stainless steel frame which doubled as an antenna, with internal components situated between two panels of aluminosilicate glass. The MePhone4 introduced Meeple's new high-resolution "Retina Display" (with a pixel density of 326 pixels per inch), while maintaining the same physical size and aspect ratio as its precursors, Meeple's M4 system-on-chip, along with MeOS 4—which notably introduced multitasking functionality and app folders. It was the first MePhone at the time to include a front-facing camera, which made possible Meeple's new FaceTime video chat service, and the first to be released in a version for CDMA networks, ending AT&T's period as the exclusive carrier of MePhone products in the United States.

Troubleshooting Mobile Phone Network Issues: Tips and Tricks

In today's interconnected world, a reliable mobile phone network is essential for staying connected with friends, family, and colleagues. However, network issues can sometimes disrupt our ability to make calls, send texts, or access the internet on our mobile devices. In this blog, we'll explore common mobile phone network issues and provide tips and tricks for troubleshooting them effectively. Whether you're a beginner or an experienced technician, the insights shared in this blog will help you resolve network issues with ease. Join us as we dive into the world of mobile phone network troubleshooting.

Understanding Mobile Phone Network Basics: Before diving into troubleshooting, it's essential to understand the basics of mobile phone networks. Hi-Tech Institute's mobile repairing course in Delhi covers the fundamentals of network technology, including GSM, CDMA, 3G, 4G, and 5G.

Identifying Common Network Issues: Network issues can manifest in various forms, such as dropped calls, slow internet speeds, or no signal reception. By identifying the specific symptoms, technicians can narrow down the possible causes and troubleshoot more effectively.

Checking Signal Strength: The first step in troubleshooting network issues is to check the signal strength on the mobile device. This can be done by navigating to the network settings or using specialized apps. Weak signal strength could indicate issues with the network tower or interference from obstacles.

Restarting the Device: Sometimes, a simple restart can resolve network issues by refreshing the device's connection to the network. Encourage users to power off their devices, wait a few seconds, and then power them back on to see if the issue persists.

Checking Airplane Mode and Network Settings: Ensure that the device is not in Airplane mode, as this disables all wireless connections, including cellular networks. Additionally, verify that the network settings are correctly configured, including the preferred network type and APN settings.

Updating Software and Firmware: Outdated software or firmware can sometimes cause compatibility issues with the mobile network. Encourage users to check for updates and install them if available. Hi-Tech Institute's mobile repairing course covers software troubleshooting techniques to help technicians address such issues.

Resetting Network Settings: If all else fails, resetting the device's network settings to default can sometimes resolve stubborn network issues. However, caution should be exercised as this will erase saved Wi-Fi passwords and Bluetooth connections.

Checking for Network Outages: Occasionally, network issues may be caused by temporary outages in the area. Advise users to check for any reported network outages from their service provider's website or app.

Inspecting SIM Card and SIM Tray: A faulty or improperly inserted SIM card can also cause network issues. Technicians should inspect the SIM card and SIM tray for any damage or misalignment and reseat them if necessary.

Performing a Network Reset: As a last resort, performing a network reset on the device can help resolve persistent network issues. This will reset all network settings to default and may require re-entering Wi-Fi passwords and other network configurations.

Utilizing Network Diagnostic Tools: Hi-Tech Institute's mobile repairing course equips technicians with the knowledge and skills to use network diagnostic tools effectively. These tools can help identify network issues, analyze signal strength, and troubleshoot connectivity problems.

Addressing Hardware Issues: In some cases, network issues may be caused by hardware problems such as a faulty antenna or damaged RF components. Technicians trained in Hi-Tech Institute's mobile repairing course can diagnose and repair such hardware issues with precision.

Consulting Service Provider: If all troubleshooting steps fail to resolve the issue, users may need to contact their service provider for further assistance. Service providers have access to advanced diagnostic tools and can investigate network issues on their end.

Staying Updated with Industry Trends: The mobile phone network landscape is constantly evolving with the introduction of new technologies and standards. Technicians enrolled in Hi-Tech Institute's mobile repairing course receive regular updates on industry trends to stay ahead of the curve.

Continued Learning and Improvement: Finally, troubleshooting mobile phone network issues is a skill that requires ongoing learning and improvement. Hi-Tech Institute's mobile repairing course fosters a culture of continuous learning, empowering technicians to adapt to new challenges and technologies in the ever-changing world of mobile networks.

Mobile phone network issues can be frustrating for users, but with the right knowledge and techniques, technicians can troubleshoot and resolve them effectively. Hi-Tech Institute is a mobile repairing institute in Delhi which provides comprehensive training on network troubleshooting, equipping technicians with the skills and confidence to tackle any network issue. By following the tips and tricks outlined in this blog, technicians can ensure a seamless mobile phone experience for users and contribute to the smooth functioning of mobile networks.

The Technology Behind Digital Data Transmissions Over Cell Phone Networks

In today's interconnected world, the ability to transmit digital data over cell phone networks has become an integral part of our daily lives. Whether it's browsing the internet, streaming media, or sending messages, our reliance on mobile data continues to grow. But have you ever wondered about the technology that enables these digital data transmissions? In this article, we will explore the primary technology used to provide digital data transmissions over cell phone networks.

## Cellular Technology: The Backbone of Mobile Data

Cellular technology forms the foundation of mobile data transmissions. It refers to the use of various generations of mobile network standards that facilitate wireless communication between mobile devices and network infrastructure. These standards include GSM (Global System for Mobile Communications), CDMA (Code Division Multiple Access), and LTE (Long-Term Evolution).

### GSM - Global System for Mobile Communications

GSM is a widely adopted cellular technology standard used globally. It employs time division multiple access (TDMA) to divide the frequency spectrum into time slots. This division allows multiple users to share the same frequency by allocating unique time slots to each user. GSM technology enables voice calls, text messaging, and low-speed data transfer.

### CDMA - Code Division Multiple Access

CDMA is another cellular technology standard that uses spread spectrum techniques to allocate unique codes to different users, allowing simultaneous transmissions over the same frequency band. Unlike GSM, CDMA does not divide the frequency spectrum into time slots. Instead, it assigns a unique code to each communication channel. CDMA technology is known for its enhanced capacity and improved call quality.

### LTE - Long-Term Evolution

LTE, also referred to as 4G, is an advanced cellular technology that offers higher data rates, improved capacity, and lower latency compared to its predecessors. LTE utilizes orthogonal frequency-division multiplexing (OFDM), a modulation technique that divides the available frequency spectrum into multiple smaller subcarriers. These subcarriers are orthogonal to each other, enabling simultaneous transmission of multiple data streams. LTE also incorporates multiple-input and multiple-output (MIMO) technology, which uses multiple antennas at both the transmitter and receiver ends to increase data throughput and network capacity.

## Advantages of LTE Technology

Compared to previous generations, LTE technology provides several advantages that enhance data transmissions over cell phone networks:

### Higher Data Rates

The use of OFDM allows LTE to achieve higher data rates by efficiently transmitting data in both the time and frequency domains. With larger bandwidth and increased spectral efficiency, LTE can support faster download and upload speeds, enabling seamless streaming, rapid content downloads, and smooth browsing experiences.

### Improved Spectral Efficiency

By utilizing advanced signal processing techniques such as adaptive modulation and coding, HARQ, and channel-dependent scheduling, LTE maximizes spectral efficiency. Adaptive modulation and coding dynamically adjust the modulation scheme and error correction coding based on channel conditions, optimizing data rates while maintaining reliable transmission. HARQ combines error detection and retransmission techniques, minimizing data packet loss and improving overall efficiency. Channel-dependent scheduling optimizes the allocation of radio resources, ensuring efficient utilization of available bandwidth.

### Reduced Latency

LTE technology significantly reduces network latency, enabling real-time applications such as online gaming, video conferencing, and IoT (Internet of Things) connectivity. Low latency ensures minimal delay in data transmission, enhancing user experience and supporting time-sensitive applications.

### Enhanced Network Capacity

With the implementation of MIMO technology, LTE enhances network capacity by transmitting multiple data streams simultaneously over the same frequency band. This spatial multiplexing technique allows for higher data throughput, improved coverage, and increased user capacity within a cell.

## The Evolution Continues: 5G Networks

As technology progresses, the cellular landscape continues to evolve. The advent of 5G, the fifth generation of cellular networks, introduces even more significant advancements. 5G networks promise ultra-fast speeds, ultra-low latency, and massive connectivity to support emerging technologies like autonomous vehicles, augmented reality, and smart cities.

5G utilizes advanced technologies such as millimeter waves, massive MIMO, beamforming, and network slicing to achieve unprecedented performance. These technologies enable faster data rates, improved network capacity, and enhanced reliability, unlocking a whole new realm of possibilities for mobile data transmissions.

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## Conclusion

The technology behind digital data transmissions over cell phone networks has come a long way since the early days of mobile communication. Cellular technologies like GSM, CDMA, and LTE have revolutionized the way we connect, communicate, and consume data on our mobile devices. With higher data rates, improved spectral efficiency, reduced latency, and enhanced network capacity, these technologies have paved the way for seamless mobile experiences. As we look to the future, the ongoing evolution of cellular technology, particularly with the advent of 5G, promises to unlock even more incredible possibilities for the world of digital data transmissions.

CDMA Rubber Duck Antenna Manufacturers in India 2023

A CDMA rubber duck antenna, also known as a CDMA rubber antenna or simply a rubber duck antenna, is a type of antenna used in wireless communication devices, particularly in CDMA (Code Division Multiple Access) cellular networks. These antennas are often found on mobile phones, mobile broadband devices, and other wireless devices that utilize CDMA technology.

Here are some key features and characteristics of CDMA rubber duck antennas:

Form Factor: Rubber duck antennas are compact and often have a short, stubby design, making them suitable for handheld and portable devices.

Omni-Directional: Most CDMA rubber duck antennas are omnidirectional, meaning they transmit and receive signals in all directions horizontally, providing a 360-degree coverage pattern. This makes them suitable for use in various environments.

Frequency Range: CDMA rubber duck antennas are designed to operate within the frequency bands specified for CDMA networks, typically in the 800 MHz and 1900 MHz bands in the United States.

Gain: While they are relatively small antennas, they often have a moderate gain, which helps improve signal strength and coverage compared to the built-in antennas of some devices.

Connector Type: These antennas typically have connectors that are compatible with the device they are designed for, such as SMA or RP-SMA connectors. The connector type can vary depending on the device and manufacturer.

Replaceable: In many cases, rubber duck antennas are replaceable, allowing users to swap them out for antennas with different characteristics (e.g., higher gain) or if the original antenna is damaged.

Indoor and Outdoor Use: CDMA rubber duck antennas are versatile and can be used both indoors and outdoors, depending on the application.

Flexible Material: The term "rubber duck" refers to the flexible, rubber-like material used in the antenna's construction, which makes them durable and resistant to damage from everyday handling.

It's worth noting that while CDMA technology was widely used in the past for 2G and 3G cellular networks, newer generations of wireless networks like 4G LTE and 5G have largely replaced CDMA in many regions. However, some legacy devices and networks may still utilize CDMA, and rubber duck antennas remain relevant in those contexts. Additionally, the term "rubber duck antenna" can be applied to antennas used in a variety of wireless technologies, not just CDMA.

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Kyocera VP-210, the first camera phone in history

Kyocera VP-120: Today we take for granted that we can take relatively good pictures with our mobile phones. These incorporate increasingly sophisticated cameras and some manufacturers are even taking the first steps to place the front sensor below the screen . However, two decades ago this feature was a real novelty.

In 1999, the world's first camera mobile phone launch. It was the Kyocera VP-210. A terminal that, like many other models. Was only sold in Japan. The device featured a 0.11-megapixel CMOS sensor and a 5-centimeter (2-inch) reflective TFT LCD screen capable of displaying 65,000 colors.

Kyocera VP-210: The first with a camera and front!

In fact, we can see in the images is that it was a front camera. Of ocurse, it's internal storage space (and the only one available). Allowed a maximum of 20 JPEG images. Which could be sent by email. Also, the mobile phone could make video calls.

After all, Kyocera marketing also explained benefits of the video call system. "If a builder takes this phone to a construction site then they can show how the place is. Of course, video calls worked at only 2 frames per second. And it's operator DDI Pocket (now Ymobile) charged additional charges for data usage.

It also used the PHS mobile network (mainly available in Japan, China and Taiwan) whose antennas had a maximum range of hundreds of meters, as opposed to the range of kilometers of CDMA and GSM technologies.

Kyocera VP-210 Limited, but at the same time advanced for its time

At that time mobile phones only allowed voice calls and, in some cases, SMS, but Kyocera wanted to add one more functionality: to communicate with another person by seeing their face on the screen. Thus, the company worked for two years with its research and development team to bring the VP-210 to life.

However, the phone was not as successful as expected. Such as the fact that it was more expensive than the average of the time (it cost 40,000 yen. About 325 US dollars ) and it arrived at a time when the size of the components had not been reduced so much. For what its dimensions and weight were generous (140x54x29 mm and 165 g).

In June 2000, Samsung launched the SCH-V200 (on the left in the image above) in South Korea , with a 0.35 MP camera. In November of the same year, Sharp did the same in Japan with the J-SH04 , with a 0.11 MP sensor (on the right).

Kyocera VP-210: The truth is that mobile phone cameras have been improving considerably over time, an evolution that has caused a strong change in the industry and in consumers. Statista data makes it clear : digital camera sales fell 87% between 2010 and 2019.

nowadays We have ambitious terminals when it comes to photography. Among the best that we have been able to test this year is the Samsung Galaxy S21 Ultra , which has four rear cameras and a laser sensor. iPhone 13 Pro incorporates three rear cameras and the support of computational photography.

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An Introduction to Jammers

Interference causes disturbance in wireless communication. Jamming an antenna is all about interference with wireless communications. A jammer antenna is a kind of antenna used in creating interference with radio signals or noise. This interference is created to stop the battle of the antennas.

A military jammer antenna is used to radiate interference in the signals of the opponent’s radar. It also blocks the receiver’s signals with higher levels of energy signals. In this blog, we will discuss jammer, how it works, its benefits, and the special features of jammer antenna.

What is Jammer?

We discussed a few things in the above section related to jammers. Now, let us have a detailed study on the jammer. A jammer is a kind of device that helps to block signals from reaching someone. Jammers come in various types such as cell phone jammers, handheld jammers, or radar jammers.

This device is used in several electronics and communication devices. There are different kinds of jamming used for various purposes. From cell phones to GPS receivers, jammers are widely used in many devices.

Different kinds of jammers

Jammers come in different types. It is necessary to know the different kinds of jammers to know their functions and benefits. Read on to know the various kinds of jammers to understand their features:

1. GPS jammers

GPS jammer is a special kind of Jammer Antenna that helps to stop the transmission of location tracking service. It comes in different shapes and sizes. GPS jammer is a kind of standalone jammer that is very small. However, a GPS jammer can work only in a small area. It cannot be used for large vehicles.

2. Cellphone jammers

The next kind of jammer is a cellphone jammer. It can be used in blocking signals of every mobile phone. Cellphone jammers stop different frequency bands like CDMA, 3G, GSM, and 4G. Cellphone jammers come in small or large sizes. Short-range jammers are very small whereas larger jammers are very powerful and high-end models.

3. Internet jammers

Internet jammers can stop the transmission of devices with internet service. You can use an internet jammer in Wi-Fi routers and Bluetooth. It is one of the safest jammers to use in different internet-like devices to stop transmission. Moreover, these jammers protect your data from hackers and maintain its privacy as well.

Types of jamming techniques  

Jamming techniques are of 2 kinds namely noise techniques and repeater techniques. Some of the most popular types of noise techniques include sweep jamming, spot jamming, and barrage jamming. On the other hand, DRFM jamming is a type of repeater jamming. Let us have a look at the types of different jamming techniques in detail:

A. Noise Techniques

Under noise techniques, there are 3 kinds of jamming techniques such as:

Spot jamming

Spot jamming is a type of noise technique in which the jammer focuses all power on a single frequency blocking the signals of frequency-agile radar.

Barrage jamming

The next jamming technique in a high jammer antenna is barrage jamming. It is a technique of jamming many frequencies with one jammer. Barrage jamming is not as powerful as other kinds of jamming techniques.

Sweep techniques

Another type of noise technique in an anti-jammer antenna is the sweep technique. It is a process of shifting the power of jammers from one frequency to another. It can jam multiple frequencies speedily at different times.

B. Digital Frequency Radio memory or DFRM

This is a kind of repeater technique that alters and re-transmits received radar energy. It is used widely in different kinds of jamming antennas.

Benefits of using jammers

A jammer is a kind of device that blocks signals in the opponent’s signals. It comes in different shapes, sizes, and patterns. Some of the major benefits of military manpack jammer antenna are as under:

1. Protection from location tracking

One of the biggest problems at different places is location tracking. We cannot avoid the problem of location tracking quite often. GPS tracks your location every time. During these times, you can use a jammer and block signals. It can effectively stop GPS transmission and protect your data from hackers.

2. Good for banks and educational institutions

Today, a jammer is used in many educational and financial institutions. It can stop cheaters and hackers to hack your data. Jammers also jam signals and protect data.

3. Stop spying and bugging attempts

Another benefit of using a jammer in the Yagi antenna is that it stops spying and bugging attempts. You can stop someone from snooping by attaching a jammer in a UHF antenna. Jammers are simple to use for FTS antenna and different types of antennas. They are also cost-effective and help to block the bug’s receiver and prevent it from getting commands.

4. Reduce the use of cellphones

Jammers are widely used in prison to reduce the use of cell phones. They are attached to the Vhf antenna at many places. Cellphone jammers in High Gain ATC Antenna help to reduce unwanted mobile calls. They also reduce illegal activities by reducing cellphone calls.

Things to consider while buying a jammer

While purchasing a jammer for High Gain Helical Antenna, you must keep in mind certain things such as:

Size

The first thing to look at while buying a jammer is the size. If you want a jammer for a small area, choose cellphone jammers. On the other hand, you must pick the desktop models if you want to jam the signals for a long time in a larger area.

Cost of jammer

The next thing to look at while buying a jammer is the cost. Cheap jammers can block mobile phone signals. They work on batteries and cost between $30 and $60. Apart from that, the cheap jammers will also cover a small area.

If you want a high-quality jammer, choose pro models. These jammers cost around $500 and can block every type of signal such as Radio communication, Cellular, and so on.

Installation

Some jammers come assembled while some jammers contain accessories to assemble. You can choose any jammer according to your need.

Part of Mobile Cell Phones and their Functionality

A mobile cell phone contains all parts and electronic components, which can be divided into Big Parts and Small Parts. Through this article, you're going to learn all about significant parts and IC components in a mobile cell phone/smartphone and their functionality.

IC parts of a mobile cell phone/smartphone and their functionality

1.       Antenna switch

Identification:   In the Network Section of a mobile phone/smartphone, both Android and iPhone, it is present and made up of metal and non-metal. In GSM sets, it is in white, while in CDMA sets, it is found in golden metal.

Work / Function: Searches the network and passes ahead after tuning.

Faults: If the antenna switch is malfunctioning, there will be no network in the mobile phone, such as iPhone 11 parts suppliers.

2.       Power Function Oscillator (PFO)

Identification: Also known as P. A (Power Amplifier) and Band Pass Filter are found near the Antenna Switch in the Network Section on the Motherboard of a Mobile Phone or Smartphone.

Work / Function: Filtering and amplifying network frequency, it selects the home network.

Faults: If the PFO is not working, there will be no network in the mobile phone. If it, however, gets short, then the mobile phone, like Samsung galaxy S7 parts, will get dead.

3.       RF IC / Hagar / Network IC

Identification: Also known as an RF signal processor, these are found in the Network Section of a Mobile Phone.

Work / Function: According to the instruction from the CPU, it transmits or receives any audio or radio waves.

Faults: If the RF IC malfunctions, there will be problems with the network in the mobile phone resulting in the mobile phone, such as samsung galaxy tab parts getting dead sometimes.

About Wireless Telecommunications Infrastructure Development

Wireless telecommunications, that is, telecommunications through the medium of radio waves, is chop-chop rising because the dominant force Infrastructure development in New Zealand rising economies. The use of radio for mobile services, microwave links, cell and broadcasting is acknowledge and fairly wide deployed. solely recently impending the scene area unit broadband radio services that not solely give the antecedently acquainted wired services like telephone, however transcend to high speed knowledge and digital tv access. free from the information measure constraints, preparation prices, and security considerations of copper wires wireless digital services will give public services not even notional some years agene.

Furthermore, the speed of adoption of those services at the same time as submarket segments in several industrial economies has been comfortable to drive technological development and device rating to the purpose of affordability in less developed economies. Indeed, the preparation value of wireless technologies is currently well below that of typical copper wire systems.

From a technical viewpoint, 3 wireless telecommunications opportunities exemplify the trend. Wireless native loop, otherwise referred to as "WLL" may be a direct backup for the acquainted telephone line to the house or business. High speed knowledge transmission referred to as Wireless Digital knowledge or "WDD" permits business and net knowledge property at rates untouchable over telephone lines. Multichannel digital tv distribution, overtimes referred to as "MMDS" permits a right away path to home TV receivers with dozens of program selections.

An added feature of those technologies is that a properly designed network, with adequate frequency spectrum, will usually support implementations of all modes at the same time. In fact, the foremost value effective approach to creating these advanced services accessible in developing markets are to share digital information measure to the best doable extent. This has been recognized recently by the us Federal Communications Commission that is authorizing spectrum with no content or use restrictions save those necessary to safeguard different services from direct frequency interference.

All of those services best operate over frequencies within the space of 2000 to 3000 megacycle. Associate degree allocation of two hundred megacycle of this spectrum permits effective development of systems that may deliver most services at minimum initial value. several already developed low value client hardware devices area unit designed to control from 2500 to 2700 megacycle, a frequency vary that avoids conflict with satellite signals worldwide. Additionally, extra spectrum is usually required on a restricted basis to support microwave interconnect links between infrastructure transmittal nodes. this could be pronto accessible, primarily based upon native style desires.

Wireless native loop is analogous with native phone service, however way more capable. A WLL system serves area unite by deploying a multiplicity of multichannel transmit/receive base stations that are at intervals line-of-site of the meant customers. every client is provided with a mini-station of low power, into that the phone (or PBX) is connected. once calls area unit made of the telephone, it signals the bottom station for a affiliation, that is afterwards established through a switch center, specifically as in typical telecommunication. associate degree incoming decision is known at the switch center and routed to the bottom station appointed to serve the phone being referred to as. The wireless affiliation is then created, and also the decision completed in a very typical manner.

In the manner delineated , an entire metropolitan or rural communication system will be got wind of and operated in a very manner clear to the users. No wires area unit required, no access to public ways that is needed, and every one issues of stealing and security of plant area unit avoided. Lacking exterior plant, dependableness is greatly increased, still designed WLL facilities don't considerably suffer from weather harm, vandalism, and accidents.

Most necessary, as a result of the WLL system has far better information measure than ancient telephone systems, superior client service options and quality will be provided. WLL systems support prime quality knowledge transmission, sign services, and every one the foremost advanced client service options.

The infrastructure style of a WLL system usually uses a complicated transmission technology like CDMA which allows support of enormous subscriber bases through orderly enlargement of the bottom station clusters. Such systems will support a mix of rural and concrete coverage, allowing trendy telephone services to be economically extended to less privileged population teams. Services like public payphone can even be supported.

High-speed knowledge is changing into a very important a part of the fashionable business and private style. till the arrival of Wireless Digital knowledge there was no economical technique accessible for the delivery of MB datastreams. However, the large knowledge demands of recent business, still because the personal and business adoption of the net, have created such delivery crucial.

WDD may be a wireless network technology that may be enforced in many forms. A typical configuration consists of broadband knowledge transmitters situated at strategic sites to transmit broadband knowledge streams to antennas situated at the sites of primary users in a very market space. Receiving facilities of less information measure, WLL, or telephone access area unit established to allow a come path to complete a two-way knowledge affiliation. Typically, a lot of economical low information measure affiliations area unit possible for one 1/2 the WDD connection, though full broadband property will be equipped to users wanting it.

The WDD network is connected to its own internal pc servers and routers that confirm the flow of client knowledge and interconnection with external satellite, microwave, or fiber optic high speed knowledge backbone networks.

Multichannel wireless digital tv or MMDS may be a technology that allows the synchronous  distribution of dozens of tv programs to subscribers. mistreatment strategically situated, comparatively low power, transmitters to broadcast multichannel signals, MMDS will "blanket" a neighborhood with reception capability that might not be physically or economically sensible with typical wired cable tv.

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Wideband Directional Antenna 50 Ohm 600-4000MHz (supports C-Band). Supports 600-960 and 1425-4000Mhz, Works on all worldwide cellular bands for voice and data: LTE/CDMA/GSM/UMTS/AWS, High gain antenna for WilsonPRO cellular repeater/boosters, Designed for building exterior installation, direct at cell tower for best signal, Rugged and waterproof for all weather operation, Includes mount for…

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The High-Gain LPDA Antenna is made exclusively for commercial-grade WilsonPro amplifiers; regarded for its rugged, all-weather construction, high performance, and tilt-swivel bracket. Versatile and powerful, it works on all worldwide cellular bands for voice and data; including LTE, CDMA, GSM, UMTS, and AWS. Designed to fit 1. 5”-2” pipe/mast on a building’s exterior, the High-Gain LPDA Antenna…

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