Category: 5G

Why You Should Connect Your Smart Devices to a Separate WiFi Network

In the era of smart homes and interconnected devices, transforming a mundane living space into a technological haven is easier than ever. Smart speakers, thermostats, and robotic vacuum cleaners offer convenience and efficiency. However, with the increasing number of devices in our homes, it’s crucial to consider the potential drawbacks, particularly concerning security and network performance. One effective solution is to connect your smart devices to a separate WiFi network. In this article, we’ll explore the reasons behind this recommendation and the benefits it brings to users.

Enhanced Security Precautions

The foremost reason to connect smart home devices to a separate network is security. While smart devices provide numerous advantages, they can also pose significant risks if not adequately protected. Instances of hackers gaining control over baby-monitoring cameras or smart speakers have been reported, leading to privacy breaches and unauthorized access to sensitive information. By isolating smart devices on a separate network, users create an additional layer of protection, minimizing the potential impact of security breaches on personal computers and laptops.

Isolate Devices from the Rest of Your Network

Simply creating a separate SSID for your smart devices is not enough. Using VLANs to isolate your smart devices from the rest of your network is advised for further protection. This means devices cannot communicate with devices on separate networks. It ensures that if something affects the smart devices, it has less of an opportunity to affect your personal devices. VLANs can be set up for both wired and wireless devices, giving you the flexibility to protect any connection on your network. 

Protection Against Digital Intruders

Digital invaders can exploit seemingly harmless smart devices to wreak havoc. Imagine a scenario where a skilled hacker gains control of a smart speaker, leading to unauthorized access or even a denial-of-service attack on connected devices. By segregating smart devices from personal networks, users reduce the risk of such incidents and safeguard their valuable information from falling into the wrong hands.

Reduced Network Congestion

As the number of smart devices in homes continues to rise, so does the risk of network congestion. A single individual might have a handful of devices, but those committed to creating a smart home could easily have over ten. When too many devices share the same network, it leads to low bandwidth and slow internet speeds. This is particularly problematic when using devices that operate on a 2.4GHz network, which supports a limited number of channels. Connecting smart devices to a separate network ensures that they don’t compete for bandwidth with personal computers, laptops, and smartphones, resulting in a smoother and more responsive network.

Optimized Performance for Smart Devices

Smart devices often rely on a stable and fast internet connection for optimal performance. By dedicating a separate network to these devices, users ensure that their smart speakers, thermostats, and other gadgets operate seamlessly without interruptions caused by network congestion. This can significantly enhance the overall user experience, making smart homes more efficient and enjoyable.

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Navigating Cellular Connectivity: Routers vs. Adapters for Business 

Businesses frequently face the challenge of choosing the right tools to meet their diverse needs. Two prominent solutions in the realm of cellular connectivity are cellular routers and cellular adapters. Understanding the differences and advantages of each can help businesses make informed decisions based on their specific requirements.

Cellular Router: Unleashing the Power of Connectivity

A cellular router is a standalone device that establishes internet connectivity through a cellular network. This technology is particularly suited for businesses with intricate internet demands and larger teams. Several key benefits make cellular routers a compelling choice for businesses:

  1. Reliability: Cellular routers are engineered to deliver a consistent and stable internet connection, making them an ideal choice for businesses that require near-constant uptime. This reliability ensures uninterrupted operations, critical for businesses with stringent internet requirements.
  2. Failover Capabilities: One of the standout features of cellular routers is their ability to connect with primary internet sources and offer automatic failover between connections. This means that in the event of a primary connection failure, the router seamlessly switches to a backup connection, ensuring a continuous network for all devices without manual intervention.
  3. Bandwidth Handling: Cellular routers are designed to handle larger volumes of data and support multiple devices simultaneously. Features like Quality of Service (QoS) and Content Filtering help to ensure the network runs smoothly for all users. QoS allows more bandwidth to be dedicated to certain connections while content filtering blocks access to certain sites to avoid using too much bandwidth and data.
  4. Enhanced Security: Cellular routers come equipped with built-in security features to safeguard networks and data from potential threats. This ensures a secure environment for businesses to operate and communicate without compromising sensitive information.

Cellular Adapter: Bridging the Connectivity Gap

A cellular adapter, on the other hand, is a modem with a LAN connection. While it can function independently by connecting directly to a computer, it is often paired with a compatible router for enhanced functionality and security. Key characteristics of cellular adapters include:

  1. LAN Connectivity: Cellular adapters provide a LAN connection, making them suitable for connecting directly to a computer. This is normally done via USB or Ethernet. 
  2. Router Pairing for Security: Cellular adapters are typically used in conjunction with routers since most adapters lack the robust firewall features commonly found in routers. The router not only facilitates additional LAN connections but also provides a crucial layer of security.
  3. Compatibility with Operating Systems: Cellular adapters are designed to work with various operating systems, including Windows, macOS, and Linux. Compatibility with the specific operating system of the user’s device is crucial for proper functionality.
  4. Compact and Portable, or Outdoor Design: Cellular adapters are often designed to be compact and portable, making them convenient for users who need on-the-go connectivity. In other cases, the adapter may be made for outdoor use. This allows them to obtain a better cellular connection in locations where the signal is too weak indoors. Rather than installing an indoor cellular router with an outdoor antenna attached, an outdoor cellular adapter avoids significant signal loss from the antenna cable. 

Just like cellular routers, adapters share some of the same features, including:

  1. Cellular Network Compatibility: Cellular adapters support various cellular networks such as 4G LTE and 5G. The specific frequencies and bands they support may vary, so it’s essential to ensure compatibility with the network of your service provider.
  2. SIM Card Slot: Cellular adapters typically have a slot for a Subscriber Identity Module (SIM) card, which is required for connecting to cellular networks. The SIM card contains information about the user’s account and is essential for authentication and connectivity.
  3. LED Indicators: Many cellular adapters feature LED indicators to provide visual feedback on the device’s status. Common indicators include power status, network connectivity, and data transfer activity.
  4. Antenna Connectors: While adapters may not use the same robust connectors as you would find on a router, some have external antenna connectors to improve signal strength in areas with weak reception.

Choosing the Right Solution for Your Business

When to Opt for a Cellular Router

  • Router Replacement: If your current router is outdated or lacks essential features, a cellular router can be a comprehensive solution, providing the necessary networking support for your applications.
  • Drop-in Mode: Cellular routers, like those from brands like Peplink and Digi, offer a unique feature called “Drop-in Mode.” This allows seamless integration into existing networks without the need for manual adjustments.

When a Cellular Adapter Suffices

  • Dual-Functionality: Some products can function as both adapters and routers. Choosing a router that can operate in passthrough mode offers flexibility and future-proofing for evolving connectivity needs. Opting for a router with a removable cellular modem adds the ability to upgrade to newer technologies like 5G when required.
  • Available Signal and Bandwidth: In situations where your signal is weak inside, and it’s possible to install hardware outside, consider an adapter. This may provide better performance than an indoor solution with an external antenna. 

In conclusion, the choice between a cellular router and a cellular adapter depends on the specific needs of your business. While routers offer advanced features, failover capabilities, and enhanced security, adapters can be a suitable choice for more straightforward connectivity requirements or when seeking a dual-functionality solution. Careful consideration of your business’s current and future needs will guide you towards the most effective cellular connectivity solution.

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Exploring the World of FAKRA Connectors

There are so many different connector types when it comes to antenna connections for cellular, satellite, WiFi, GPS/ GNSS, etc. Most of these connectors take time to attach due to their screw on nature, and are sometimes mismatched. In the world of automotive connectivity, FAKRA connectors have been a vital component, mainly because of their ease of use. They simply snap into place and are color coded for simple installation. Now, FAKRA connections are playing a pivotal role in enhancing communication, safety, and telematics applications. Let’s delve into the nuances of FAKRA connectors, exploring their types, benefits, and their integration into routers.

Understanding FAKRA Connectors

FAKRA connectors, an abbreviation for Fachkreis Automobile or Working Group Automobile, are a specialized variant of subminiature version B (SMB) coaxial RF connectors. Developed by Rosenberger and standardized by the German Committee of Automobile Manufacturers, these connectors have been a mainstay in the automotive industry for over two decades.

The Anatomy of FAKRA Connectors

Similar to standard cellular, GPS, and WiFi connections like SMA or RP-SMA, FAKRA connectors consist of a plug and jack design. Unlike SMA, which are metal and screw into place, FAKRA connects via a push-on mechanism enclosed in a durable plastic housing. This push-on feature, accompanied by an audible locking confirmation, ensures a secure connection.

In comparison, you need to ensure you only attach connectors like SMA finger tight – i.e. not so loose that they can come off easily or that the pin doesn’t make contact, but also not so tight that they are too hard to remove. Here’s a closer look at how SMA connectors compare to FAKRA.

FAKRA connectors are color-coded, making identification a breeze. Just note that not all colors or codes will actually match. FAKRA Code Z, for example, is a universal type that can support multiple other connections. The standard encompasses 14 different mechanical layouts, offering versatility in their applications.

Varieties of FAKRA Connectors

The FAKRA standard introduces several subtypes of connectors. The original FAKRA I connectors, primarily used in antenna applications, pave the way for the more advanced FAKRA II connectors. FAKRA II, considered the current base standard, comes in various angles and configurations, including an IP6K9K sealed and weather-resistant version suitable for outdoor applications. Some manufacturers even provide customized and miniaturized versions to meet specific needs.

Source: Amphenol RF

What Are the Benefits of Using FAKRA Connectors?

The advantages of FAKRA connectors extend beyond their standardized interfaces. Not only are they easy to connect and disconnect, they’re impossible to mismatch. Their operation up to 6 GHz ensures high-frequency performance, making them suitable for applications like telematics, GPS navigation, entertainment systems, Bluetooth, cellular connectivity, keyless entry, climate controls, and radio antennas.

In addition to automotive applications, FAKRA connectors have found a home in non-auto vehicles such as watercraft, motorcycles, and off-highway heavy equipment. They play a crucial role in safety systems, driver assist technologies, vehicle-to-vehicle (V2V) communication, and other in-vehicle networks.

FAKRA Connectors in Routers

As technology continues to evolve, the integration of FAKRA connectors extends beyond automotive applications. These connectors are now making their mark in routers, especially those designed for industrial, vehicle, or outdoor use. The robust design, weather-resistant variants, and high-frequency capabilities of FAKRA connectors make them an ideal choice for ensuring reliable connectivity in outdoor router systems. Their application also extends to industrial process control boxes, machine-to-machine modules, and various Internet of Things (IoT) devices. 

Check out some of the routers available now with FAKRA connections:

Conclusion

FAKRA connectors have become integral components in ensuring reliable and standardized connections, particularly in the automotive industry. Their benefits extend beyond the automotive sector, making them a preferred choice in various applications where robust connectivity is crucial. As technology continues to advance, FAKRA connectors are likely to play an increasingly important role in shaping the future of reliable communication systems.

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Digi IX40 – Now in Stock at 5Gstore.com

Exciting news for Industry 4.0 enthusiasts and tech aficionados! 5Gstore.com is thrilled to announce the availability of the cutting-edge Digi IX40, a powerful 5G edge computing solution designed for industrial IoT applications. Boasting seamless integration with Digi Remote Manager® (Digi RM), this router empowers rapid processing, analysis, and integration of industrial asset data.

Purpose-built for the demands of Industry 4.0, Digi IX40 supports 5G connectivity and edge intelligence, enabling a myriad of use cases such as predictive maintenance, asset monitoring, machine learning, and advanced robotics. This versatile router seamlessly connects multiple machines, whether wired or wireless, even in the most demanding environments. It optimizes the integration of cloud-delivered operational technology (OT) services with information technology (IT), streamlining complex operations and scaling IT infrastructure.

With its all-in-one design, robust computing power, and integrated memory, Digi IX40 offers substantial capabilities for real-time data processing, edge computing, and advanced precision, all while reducing complexity and total cost of ownership. The inclusion of Digi Containers further enhances its capabilities, facilitating potent and cost-effective applications, and providing additional flexibility and scalability for Industry 4.0, energy, smart cities, and other diverse applications.

Notable features of the Digi IX40 solution include FirstNet Capable™ models, specifically designed to meet the demands of critical applications where reliability is essential, making it ideal for industrial use cases and emergency response. Additional applications for the Digi IX40 encompass manufacturing process automation, precision monitoring and control, industrial automation, utilities, and traffic management.

Manage your network with ease using Digi RM, the cloud-based command center for your deployment. Digi RM not only provides critical insights but also ensures secure terminal access for out-of-band management of edge devices via serial port and command-line interface. 

Additional Key features, benefits and applications

  • Global 5G and LTE support and certification on major carriers
  • Integrated edge computing capabilities for hosting containerized applications and custom solutions
  • Ethernet, SFP, serial, I/O and Modbus bridging
  • Extremely resilient cellular connection through Digi’s patented SureLink®, VRRP+ protocol and dual SIM slots
  • GNSS receiver supporting GPS, GLONASS, BeiDou and Galileo
  • License-free enterprise software: VPN, firewall, logging and authentication
  • Rugged enclosure with options for DIN rail or shelf mounting
  • Digi WAN Bonding for WAN aggregation and immediate failover

Stay ahead in the digital era with the Digi IX40 router, now available at 5Gstore.com!

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Understanding How Cell Towers Work

Those towering structures that dot our landscapes, play a crucial role in ensuring seamless wireless communication. From transmitting radio signals to our mobile devices, cell towers have a defined range that varies due to several factors. Gaining some insight into how cellular towers function can help you to better understand how you might improve signal strength on your cellular devices. 

Cell Tower Height and Structure

Cell towers are vertical structures ranging from 100 to 400 feet in height. Equipped with antennas, they transmit radio signals to mobile devices within their reach. The average maximum usable range of a cell tower is 25 miles, with some towers capable of reaching up to 45 miles. However, the effective coverage radius typically falls between 1 to 3 miles, and in urban environments, it can be as low as 0.25 to 1 mile.

Factors Influencing Cell Tower Range

  1. Spectrum:
    • Different radio frequencies impact the distance a signal can travel.
    • Higher frequencies carry signals over shorter distances, while lower frequencies provide a larger coverage range.
    • Spectrum licensing to wireless carriers influences the efficiency and reach of a cell tower’s signal.
  2. Network Capacity:
    • Wireless networks are designed to meet specific traffic demands and subscriber density.
    • Transitioning from 3G to 4G and now to 5G has led to a decrease in cell tower radius due to increased demand for high-bandwidth applications.
  3. Terrain:
    • Natural and man-made obstructions like mountains, hills, and buildings affect signal reach.
    • Flat terrains allow for longer-distance transmission, while hilly areas may limit a tower’s range to a few miles.
  4. Transmission Power:
    • The power at which a cell tower transmits signals influences its reach.
    • Lower frequency signals, like 600 MHz, cover a greater distance, while higher frequency signals, such as 2.5 GHz, have a shorter reach.

Coverage Area

A cell tower’s coverage area can range from 3 to 50 square miles. The coverage radius, typically 1 to 4 miles for 4G LTE and 5G towers, assumes a three-sided antenna array for 360-degree coverage. Higher frequency signals necessitate denser tower placement for consistent service due to their shorter reach.

To gain a deeper insight into the impact of spectrum on the range of cell towers, we can examine the reach of various frequency bands in an open environment. The following diagram illustrates the coverage radius of cell towers using low-band frequencies (600 MHz, 700 MHz, 800 MHz), mid-band frequencies (2.0 GHz, 2.5 GHz, 3.7 GHz), and high-band frequencies (millimeter wave / mmWave).

Source: Crown Castle

How Cellular Antennas Can Help Improve Your Signal

Cellular antennas play a pivotal role in ensuring that your mobile or fixed wireless access (FWA) modem maintains a strong and stable connection to the nearest cell tower. Understanding the mechanics of these antennas, particularly the differences between omnidirectional and directional styles, can shed light on how they contribute to optimizing signal strength.

Omnidirectional Antennas

Omnidirectional antennas are designed to broadcast and receive signals in a 360-degree pattern, creating a spherical coverage zone. These antennas are commonly used in urban areas where cell towers are spread out and can be located in various directions. The advantage of omnidirectional antennas lies in their ability to provide reliable coverage in all directions, making them suitable for scenarios where the location of the cell tower may change frequently or is not precisely known.

These antennas use a vertical radiating element and ground plane to emit and capture radio waves in all directions. The radiating element is usually a vertical rod or whip that sends and receives signals horizontally, ensuring consistent coverage across the entire circumference of the antenna.

Directional Antennas

On the other hand, directional antennas focus their signal in a specific direction, offering a more concentrated and powerful connection. These antennas are beneficial in rural or suburban areas where cell towers may be farther away or concentrated in a specific direction. By directing the signal towards the cell tower, directional antennas can effectively enhance the signal strength and quality.

Directional antennas use a reflector and director elements in addition to the radiating element. The reflector bounces signals back towards the radiating element, while the director elements focus the signal in a specific direction. This concentrated approach allows for a more robust connection over longer distances, making directional antennas ideal for improving signal strength in challenging environments.

A Move Towards Enhanced Connectivity

As we delve into the nuances of cellular technology, understanding the impact of these factors becomes imperative for optimizing coverage and enhancing connectivity. Whether utilizing omnidirectional antennas in dynamic urban landscapes or employing directional antennas to strengthen signals in rural expanses, the mechanics of these technologies underscore their vital role in maintaining a robust and reliable connection. As technology advances, our grasp of these elements will continue to evolve, propelling us toward an era of even more efficient and widespread wireless communication.

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Order the Peplink B One at 5Gstore.com

Join us in welcoming the Peplink B One (B-ONE-T-PRM) to the 5Gstore.com line of products. The Peplink B One is a powerful networking solution in a small, unassuming package. We are thrilled to announce this SOHO router is now in stock and ready to ship!

The Peplink B One is a true powerhouse, seamlessly combining the best features of Peplink’s renowned Pepwave Surf SOHO and Peplink Balance 20 routers. The Surf SOHO MK3, a fan-favorite at 5Gstore.com, left a void in the market when it was discontinued. The Peplink B One steps in to fill that gap and delivers even more with its enhanced speeds, enterprise software features, and robust connectivity options.

Why You Should Consider the Peplink B One

  • Improved Speeds and WiFi Excellence: The Peplink B One boasts impressive throughput speeds of up to 1Gbps, catering to the needs of 1 to 150 users. With built-in WiFi 6 technology, it provides advanced wireless capabilities for both WiFi WAN and/or WiFi AP connections, ensuring a fast and reliable internet experience for all connected devices.
  • Enterprise Software Features for Enhanced Control: Efficiently manage your network with features like Virtual LANs, enhancing network management and security. With 4 LAN ports (and the ability to convert one WAN port into a 5th LAN Port), you have flexibility in creating multiple SSIDs for different purposes. The built-in WiFi access point supports 2×2 MiMO connections, and you can seamlessly integrate external WiFi APs for extended coverage and performance.
  • Robust & Reliable Connectivity: The Peplink B One supports 2 wired WAN ports, USB cellular modems, and WiFi hotspots for network redundancy. With PrimeCare warranty, it enables SpeedFusion technology for Hot Failover, WAN Smoothing, and Bonding of multiple internet connections. This router can handle up to 5 WAN connections right out of the box, providing unparalleled reliability and speed.
  • Easy Integration with Starlink and Fixed Wireless Access (FWA): Connect your Starlink dish or Fixed Wireless Access (FWA) cellular modem/router to the dual WAN ports.
  • Included Management and Cloud Integration: Effortlessly manage your router locally or through Peplink’s cloud manager service, InControl 2 (included for 1 year with PrimeCare). 
  • Additional Specifications: The compact design of the Peplink B One (10.31 x 6.33 x 1.31 inches) includes 2 Dual Band Wi-Fi Antennas and a 12V 3A 4 Pin Power Supply. PrimeCare warranty renewal is available for 1, 2, or 4 years, providing hardware warranty, support, and cloud management.

Don’t miss out on the latest in networking technology – order your Peplink B One today at 5Gstore.com!

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How 5G is Revolutionizing IoT and Smart Devices

The introduction of 5G technology continues to reshape the landscape of the Internet of Things (IoT) and smart devices. This pivotal advancement came at a time when IoT was already revolutionizing various industries. In exploring the fundamentals of IoT, we uncover the profound impact of 5G, which is characterized by significantly reduced latency, scalable connectivity, and enhanced reliability. These features amplify the potential of IoT applications, particularly in scenarios like autonomous vehicles and real-time healthcare monitoring.

What is IoT?

IoT refers to a network of physical devices, vehicles, appliances, and other objects embedded with sensors, software, and network connectivity, allowing them to collect and exchange data. The goal of IoT is to enable these devices to communicate and share information over the internet.

IoT can potentially create a connected ecosystem where everyday objects can interact, make intelligent decisions, and provide valuable data. This connectivity can be applied to various industries, including smart homes, healthcare, transportation, agriculture, and industrial automation. There are multiple benefits of IoT technology. These include:

  • Increased agility and mobility outside of typical work environments
  • Better customer and user experiences with faster response times
  • Data-optimized products that provide more business opportunities and benefits
  • Reduced costs due to predictive maintenance and streamlined processes
  • Better employee productivity through engagement

Key components of IoT include:

  1. Smart Devices: These are the physical objects equipped with sensors, actuators, and connectivity features that allow them to collect and transmit data. Smart devices encompass a diverse array of gadgets designed to enhance efficiency, convenience, and connectivity. Examples include smart thermostats, wearables like fitness trackers, intelligent home security systems, connected cars, and even smart refrigerators capable of ordering groceries.
  2. Sensors and Actuators: Sensors gather data from the environment, and actuators enable devices to perform physical actions based on that data. For example, a temperature sensor can collect data, and an actuator can adjust the heating system based on that information.
  3. Connectivity: IoT devices are connected through the internet, enabling data exchange. Common communication protocols include Wi-Fi, Bluetooth, Zigbee, and cellular networks.
  4. Data Processing: Collected data is processed either locally on the device or in the cloud. Advanced analytics and machine learning algorithms can extract meaningful insights from the data.
  5. Cloud Computing: Cloud platforms are often used to store and process the massive amounts of data generated by IoT devices. This allows for scalability, accessibility, and centralized management.
  6. User Interface: Users can interact with IoT devices through applications or interfaces that provide control and monitoring capabilities.

IoT Use Cases

The transformative impact of IoT is particularly evident in various industries, reshaping the way operations are conducted and services are delivered. Here are a few of the many ways IoT is utilized. 

  • Smart Cities harness the power of sensors and data analytics to enhance urban living. This involves intelligent traffic management systems, efficient waste disposal mechanisms, and the implementation of energy-saving smart street lighting. These innovations contribute to a more sustainable and technologically advanced urban environment.
  • Environmental Monitoring has witnessed significant advancements through the deployment of IoT devices. These devices are strategically placed in ecosystems to monitor and manage environmental conditions. For instance, air quality sensors actively contribute to pollution control efforts by providing real-time data on air quality levels.
  • Supply Chain Management has been revolutionized by IoT technologies, enabling real-time tracking and monitoring of goods in transit. Utilizing RFID tags and GPS technology, companies gain enhanced visibility into their supply chains, resulting in more efficient and streamlined logistics operations.
  • The advent of Self-Driving Cars relies heavily on IoT technologies. Integrated with sensors and artificial intelligence, these vehicles can navigate autonomously. The deployment of 5G connectivity in this context ensures instantaneous communication between vehicles, contributing to enhanced safety and coordination on the road.
  • Customer Service has experienced a paradigm shift through the integration of IoT. Chatbots and virtual assistants powered by IoT technologies provide personalized and efficient customer interactions. Real-time responses and effective problem-solving contribute to an overall improved customer experience.
  • In the Healthcare sector, IoT facilitates remote patient monitoring and telemedicine. Wearable devices and sensors play a crucial role in tracking various health metrics, offering healthcare professionals valuable insights for timely interventions and personalized care. The advent of IoT has greatly improved patient care, assessments, and diagnostics.
  • Predictive Maintenance in industrial settings has become more proactive with the incorporation of IoT. Machines equipped with sensors predict maintenance needs, reducing downtime and enhancing overall operational efficiency through preemptive and data-driven maintenance strategies.
  • Agricultural Operations embrace precision farming through IoT technologies. These technologies optimize resource allocation by monitoring soil conditions, crop health, and weather patterns. The result is increased efficiency and sustainability in agricultural practices.
  • Retail Operations benefit from the implementation of IoT devices, such as smart shelves and inventory management systems. These innovations enhance operational efficiency by providing real-time data, enabling retailers to offer personalized shopping experiences and streamline inventory processes.

The Role of 5G

The introduction of 5G marks a pivotal advancement in amplifying the capabilities of IoT and smart devices across various applications. One of the key benefits lies in the significantly reduced latency that 5G brings to the table, ensuring near-instantaneous communication between devices. This attribute is particularly critical for applications like autonomous vehicles and real-time healthcare monitoring, where swift data exchange is paramount.

Improved Cost Efficiency in IoT and Smart Device Usage

5G networks exhibit cost efficiency by efficiently handling a substantially larger number of devices simultaneously. This scalability not only reduces the cost per device connection but also opens doors for the widespread adoption of IoT on a broader scale. The enhanced reliability of 5G further strengthens its position, offering uninterrupted connectivity for critical applications, such as emergency services and public safety.

Seamless Integration with Already-Existing 4G LTE Networks

A notable feature of 5G is its seamless integration with existing 4G LTE networks. This integration provides a reliable backup, ensuring continuous connectivity — even in areas with limited 5G coverage. Additionally, 5G’s higher bandwidth allows for the smooth transfer of large volumes of data. This caters to the intricate requirements of applications like augmented reality (AR) and virtual reality (VR).

Edge Computing and Multiple Device Support

In data processing, 5G plays a crucial role in facilitating edge computing. This capability enables the data processing closer to the source, reducing latency and enhancing real-time processing capabilities. This is particularly critical for applications that demand split-second decision-making.

Furthermore, 5G’s ability to support a massive number of device connections simultaneously positions it as an ideal choice for scenarios where a plethora of IoT devices need to communicate concurrently. 

5G and the Future of Smart Devices and IoT

This comprehensive suite of advantages underscores the transformative role that 5G plays in revolutionizing the landscape of IoT and smart devices. We hope you found this blog post informative. If you have further questions about IoT and smart devices, or would like to learn more about how you can best support your systems with high-value routers, modems, and antennas, we hope you’ll reach out to the award-winning team at 5Gstore. We’re available by phone during business hours or by email. We can help augment your current devices with 5G-enabled networking equipment that will help you achieve your connectivity goals whatever they may be. When you purchase your networking equipment from us, you’ll receive one year of free support from our helpful technicians.

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Peplink B One

As technology continues to evolve, so does the Peplink product line of routers. The Peplink B One (B-ONE-T-PRM) has just emerged and is already showing off to be a powerhouse. It seamlessly combines the best features of Peplink’s renowned Pepwave Surf SOHO and Peplink Balance 20 routers. The Surf SOHO MK3 in particular was one of the most reviewed products here at 5Gstore.com. Even with such a great following, the Surf SOHO MK3 was discontinued in the fall of 2022. 

Unlike the next best thing, the Peplink Balance 20X, the Surf SOHO MK3 lacked a built-in cellular 4G/5G modem. This made more sense to users looking for a low-cost, reliable, multi-WAN solution. So with the Surf SOHO, as well as the Balance 20 gone, it leaves room for the B One to come in and provide a SOHO like solution for those in need. The Peplink B One stands out above the Surf SOHO MK3 with its improved speeds, enterprise software features, and robust connectivity options. 

Improved Speeds and WiFi Excellence

The Peplink B One boasts impressive throughput speeds of up to 1Gbps, catering to the needs of 1 to 150 users. It’s equipped with built-in WiFi 6 technology, providing advanced wireless capabilities for both WiFi WAN and/or WiFi AP connections. This ensures a fast and reliable internet experience for all connected devices. If we compare this to the Surf SOHO, it’s quite an increase in speed from 120 Mbps up to a full gigabit. The SOHO also only supported WiFi 5 technology, so users planning on upgrading should see better performance overall.

Enterprise Software Features for Enhanced Control

Efficiently separate devices into Virtual LANs, which enhance network management and security. 4 total LAN ports are available for these connections, but note one of the WAN ports is convertible into a 5th LAN Port (this requires special firmware from Peplink). If WiFi connections are required, you may further secure your network by creating multiple SSIDs for different purposes such as personal, guest, and IoT. 

The B One also has a built-in WiFi access point (AP) that supports 2×2 MiMO connections. If you find this doesn’t provide enough range for your location, seamlessly integrate external WiFi APs. Through the WLAN Controller, you’ll not only have extended coverage and performance, but enhanced control over your wireless local network.

Robust & Reliable Connectivity

Aside from the 2 wired WAN ports, you can provide your network redundancy by connecting a USB cellular modem or a nearby WiFi hotspot (using WiFi WAN – 2.4GHz or 5GHz). This can even be an Android phone or iPhone hotspot. Note that unlike the previously mentioned Peplink hardware, the B One uses a USB-C type port rather than type A. While most USB cellular modems use type A, modern cell Android, iPhones and Peplink’s own MAX Adapters utilize type C.

Be aware that not all USB cellular modems are created alike. If you find you cannot connect yours to the B One, Peplink support will work with you and attempt to get it functioning. For more information on modems that are known to work with the Peplink routers, check out Peplink’s supported list of USB modems

With the inclusion of PrimeCare warranty, the Peplink B One supports SpeedFusion technology. This enables the use of Hot Failover, WAN Smoothing, and bonding of multiple internet connections for a more reliable and faster internet feed. This can be any combination of Internet connections, whether it be a wired WAN, USB WAN or WiFi WAN. That’s a total of 5 WAN connections that the Peplink B One can support right out of the box! It is unknown at this time if a LAN port can be used as a 3rd WAN port, but we will update this article accordingly.

Easy Integration with Starlink and Fixed Wireless Access (FWA)

The router supports dual WAN ports, which is where you can connect your Starlink dish or Fixed Wireless Access (FWA) cellular modem/ router. Note that the Peplink does not have an integrated satellite or cellular LTE/ 5G modem, but can connect to them externally. Simply take an Ethernet cable from your Starlink dish, or fixed wireless modem, and connect it to one of the WAN ports on the Peplink B One.

When utilizing multiple WAN connections, you may optimize your network by bonding multiple Starlink connections together, or even one Starlink and one FWA connection. Keep in mind that this requires SpeedFusion connectivity, which is included with the PrimeCare warranty plan. 

If bonding is not necessary to your application, you can still achieve optimal performance by using Load Balancing. Balance Starlink with other internet services like 5G/LTE, Cable, Fiber, and Fixed Wireless Access.

Included Management and Cloud Integration

Effortlessly manage your router locally or through Peplink’s cloud manager service, InControl 2, included for 1 year with the PrimeCare warranty. When linked to your devices, InControl 2 consolidates data to produce informative reports covering every facet of your network. With just one screen, you can deploy configurations to all your endpoints. For a more in-depth analysis, you can remotely connect to the web admin of any device within your network.

InControl enables you to streamline configuration processes, reduce the need for on-site visits, monitor your network’s status efficiently, and proactively address emerging issues with speed and accuracy. Furthermore, with the InTouch feature, you can easily access devices connected behind your Peplink B One router. 

That’s not all the InControl 2 cloud management offers. With regular backups of your configuration, you can always rest assured that any changes can quickly be undone as needed. In a future update, you may even be able to upload saved configurations from different Peplink models onto the B One. We’ll update this article as we find out more information. 

Additional Specifications and Notes

  • Dimensions:
    • 10.31 x 6.33 x 1.31 inches (262 x 161 x 33.5mm)
  • The Peplink B One package includes:
    • 2x Dual Band Wi-Fi Antennas 
    • 1x 12V 3A 4 Pin Power Supply
  • PrimeCare warranty renewal for 1 year is available for $49
    • In addition to SpeedFusion features, PrimeCare (PRM-A-1Y / PCP-A-1Y) includes a hardware warranty, support and cloud management. Without PrimeCare, the router functions normally, less these features and cloud control.
    • For those looking to renew the PrimeCare for longer periods, check out product code PRM-A-2Y or PCP-A-2Y for 2 years, and either PRM-A-4Y or PCP-A-4Y for 4 years.

In conclusion, the Peplink B One router delivers on its promise of exceptional speed, reliability, and flexibility. Whether you’re looking for a replacement to your Surf SOHO or Balance 20 router, advanced enterprise features, or multi-WAN connectivity, the B One stands as a versatile and robust networking solution. With its compact design and easy management options, it’s a reliable choice for businesses and users seeking top-tier performance. 

Reach out to the 5Gstore sales team today to place your order for the Peplink B One and be sure to check out our Peplink B One FAQ!

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How Can Digi WAN Bonding Help Me?

Digi WAN Bonding is a solution that goes beyond traditional failover strategies. This value-added service, accessible through Digi Remote Manager®, introduces a technique that optimizes connectivity by aggregating multiple connections, ensuring enhanced speed, reduced latency, and improved reliability. This blog explores the intricacies of Digi WAN Bonding, shedding light on how it works and its diverse applications across various industries.

Understanding Digi WAN Bonding

Digi WAN Bonding leverages the power of Bondix Simple Aggregation of Networks (S.A.NE), comprising two programs — one embedded in the Digi device and another on an external virtual private server (VPS). The client program intelligently divides outgoing traffic based on factors such as latency, consistency, and user-assigned priorities. The VPS then reconstitutes and forwards the divided traffic, ensuring optimal performance by considering the strengths of each interface.

Key Features:

  1. Hot failover: Ensures uninterrupted connectivity with no packet loss or failover wait time.
  2. WAN aggregation: Combines multiple WAN links to increase speed and bandwidth, reaching up to 1 Gbps.
  3. WAN smoothing: Minimizes latency and jitter by simultaneously sending data through multiple channels.
  4. WAN prioritization: Automatically selects or allows manual setting of the best active WAN link, balancing traffic accordingly.
  5. Packet duplication: Replicates packets on multiple WAN links to guarantee the delivery of mission-critical data.
  6. Simple integration: Easy deployment on a range of Digi routers in diverse environments via Digi Remote Manager.
  7. Increased throughput: Offers subscription options for 100 Mbps, 200 Mbps, and 1 Gbps maximum throughput.

WAN Bonding Modes

Digi WAN Bonding provides various modes, including automatic, cellular-optimized for speed or latency, Ethernet, low latency, and TCP mode, catering to different network requirements and scenarios. But what do these mean exactly?

  • Automatic: Automatically sets the mode to Cellular Optimized for Speed-mode for cellular, and Ethernet for non-cellular. This is the default mode.
  • Cellular Optimized for Speed: A general-purpose configuration suitable for most lines (4G, DSL, etc.), with a fair tolerance for packet loss and latency.
  • Cellular Optimized for Latency: Another preset for mobile connections with an even higher focus on reducing latency.
  • Ethernet: A preset for direct Ethernet connections, very sensitive to latency and packet loss.
  • Low Latency: Similar to Ethernet preset, but with higher tolerance for packet loss.
  • TCP Mode: Utilizes TCP instead of UDP. Higher throughput rate at the cost of latency. Useful in scenarios where UDP is throttled or blocked.

Components of Digi WAN Bonding

  1. WAN Bonding Client (Bondix S.A.NE client): Included in DAL OS firmware and enabled via Digi Remote Manager, it sets up a tunnel with the server, breaks down data traffic into packages, and ensures the best-possible performance with a built-in bonding proxy.
  2. WAN Bonding Tunnel: The logical connection that bonds multiple WAN links, transporting data packages and offering multiple methods for sending traffic, such as WAN priority, WAN smoothing, and packet redundancy.
  3. WAN Bonding Server: Acts as the endpoint for the tunnel, can be hosted on a Linux VM or cloud infrastructure without a license cost, and supports single and multi-instance servers for scalability.

WAN Bonding Applications and Benefits

Digi WAN Bonding is instrumental in scenarios requiring increased throughput or availability of remote applications. By utilizing multiple connections — whether fixed network or wireless — users can enhance bandwidth and uptime, effectively avoiding issues related to line failures or network problems. Here are just a few examples of some use cases for Digi WAN Bonding:

  1. Cellular Resiliency for Vehicles:
    In the realm of public transit, uptime is paramount for both passengers and operators. Consider the scenario of a Digi TX64 5G cellular router in a transit vehicle equipped with two cellular modems (WWAN1 and WWAN2) connected to different providers. While Digi Surelink® provides failover capability, Digi WAN Bonding intelligently balances the two cellular connections based on quality metrics. As one connection gradually degrades, it is used only when the most effective connection has been saturated. This ensures continuous, reliable connectivity during the vehicle’s journey.
  2. More Bandwidth in Office Environments:
    For an office user relying on a symmetric 100 Mbps copper line, large file transfers often lead to congestion and slowdowns in the network. Digi WAN Bonding transforms this scenario by combining the symmetric wired connection with an asymmetric cellular connection. This dynamic pairing significantly increases throughput without compromising the low latency of fiber, even under heavy loads. The result is a streamlined network experience, especially beneficial for remote workers requiring VPN access to the office network.
  3. Protecting Mission-Critical Data in Remote Locations:
    Digi WAN Bonding introduces packet duplication as a safeguard for mission-critical data in remote locations. By simultaneously sending packets through all available Internet connections and transmitting only the first packet received on either end of the bonded connection, this use case prioritizes data certainty over increased throughput. It ensures that data transmissions are delivered with 100% certainty, even in scenarios involving high-latency or intermittent connections.

Why Choose Digi WAN Bonding? 

Digi WAN Bonding, powered by Bondix S.A.NE, is a versatile and cost-effective solution for optimizing connectivity in diverse environments. Its robust features, simplified pricing, and seamless integration make it a compelling choice for businesses seeking enhanced speed, reliability, and resilience in their network infrastructure. Whether in transportation, retail, or other enterprise and industrial applications, Digi WAN Bonding paves the way for a future where connectivity is both efficient and steadfast.

Contact the 5Gstore team to learn more about Digi WAN Bonding today!

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Enhancing Customer Experience: The Power of Guest WiFi in Your Business

In the competitive landscape of businesses such as gyms, laundromats, shopping malls, casinos, amusement parks, restaurants, and more, providing an exceptional customer experience goes beyond the core services. One way to elevate customer satisfaction is by offering robust Guest WiFi access, catering to various entertainment needs and providing internet connectivity. Let’s delve into the benefits and strategies of implementing Guest WiFi in your business.

Entertainment On-the-Go

Imagine transforming your business into a hub of entertainment. With Guest WiFi, you can offer features like TVs, jukeboxes, and games, creating a vibrant and engaging environment for your customers. This not only adds value to their experience but also encourages them to spend more time at your establishment.

Internet Access

Guest WiFi provides seamless internet access for streaming, offering an alternative to cellular networks. Customers can enjoy uninterrupted streaming of their favorite content without worrying about data limitations or weak signals. This not only enhances their entertainment experience but also keeps them connected and engaged during their visit.

Boosting Connectivity for Customers

Guest WiFi facilitates easy file sharing between management and customers or among customers themselves. This feature is particularly valuable in scenarios where information or media needs to be exchanged swiftly. It fosters a collaborative and connected environment, making your business more customer-friendly.

Fast and Reliable Service

Before allowing access to your network, ensuring that your service is fast enough is crucial. Consider the bandwidth requirements for streaming audio and video, and invest in a robust infrastructure that can handle the load. A slow and unreliable connection can adversely affect the customer experience, so prioritize the quality of service.

The Role of Captive Portals

How do you manage and control access to your Guest WiFi network effectively? This is where Captive Portals come into play.

What is a Captive Portal?

A Captive Portal is a web page that users must view and interact with before being granted access to a network. It acts as a gateway to the internet and can be customized to align with your business branding. The way it works is that users connect to the network and are then prompted to open their web browser to proceed. This is where you can have them view your terms and conditions for connecting to your network. Once this is completed, they can visit any web page, or use any application they desire.

Benefits of a Captive Portal

  1. User Authentication: Captive Portals enable you to authenticate users before granting access. This ensures that only authorized individuals can use your Guest WiFi.
  2. Data Collection and Analytics: Businesses can leverage Captive Portals to collect valuable data. For instance, by prompting guests for their email addresses or social media handles, you can gather analytics that provide insights into customer demographics and behavior.
  3. Marketing Opportunities: Offering free WiFi through a Captive Portal allows businesses to market to their customers. In exchange for network access, customers can provide contact details, creating opportunities for targeted marketing campaigns.

Network Management Strategies

To optimize the performance of your Guest WiFi, consider implementing the following strategies:

  1. Time and Data Limits: Set limits on user access to manage network traffic effectively.
  2. Load Balancing: Distribute network traffic evenly across multiple servers or paths to prevent overload on a single connection.
  3. Quality of Service (QoS) Rules: Prioritize different types of network traffic, ensuring a smooth and consistent experience for users.

In conclusion, integrating Guest WiFi into your business not only meets the entertainment and connectivity needs of your customers but also opens up avenues for data collection and targeted marketing. A well-implemented Captive Portal, coupled with effective network management strategies, can transform your business into a tech-savvy and customer-centric establishment, leaving a lasting impression on your clientele.

If you’re looking for a guest WiFi solution that supports Captive Portal settings, reach out to the 5Gstore team to discuss options. Ask about Digi and Cradlepoint routers as well as Sierra Wireless and Peplink. Tell us about your application needs and we’ll help you to determine the best solution. 

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