Peplink MAX routers allow you to configure 3 user groups with independent upload and download limits. The groups are named “Manager,” “Staff,” and “Guest.” While these names are fixed, you can assign any devices on your network to these groups. The “Manager” group has no bandwidth limits, providing full access to total bandwidth, whereas the “Staff” and “Guest” groups can be configured to limit bandwidth usage.
Using bandwidth groups helps control the amount of bandwidth certain devices consume, ensuring that a few devices don’t use up all available bandwidth. This is especially useful for limiting high-bandwidth applications, like streaming services. For instance, Netflix can use 20-30 Mbps for 4K videos, but can also stream well at 5 Mbps for standard definition videos. By capping the bandwidth for Netflix, you can prevent 4K streaming and reduce your cellular bandwidth usage, cutting down on monthly costs.
Step 1 – Set Up Bandwidth Group Limits
First, decide on the bandwidth limits for each group. You might want to create one group with moderate limits and another with stricter limits. Note that setting less than 3 Mbps download and 1 Mbps upload may affect general usability.
Go to the “Advanced” tab, then the “QoS” section, and select “Bandwidth Control.”
In the “Individual Bandwidth Limit” section, check “enable.”
Enter the download and upload limits for each group.
Click “save,” then “Apply Changes” to finalize.
Step 2 – Assign Devices to Bandwidth Groups
You can add devices to bandwidth groups in three ways:
Method 1: Assign Individual Devices by IP Address
Identify the device’s IP address from the “Client List” under the “Status” tab.
Click the “tag” icon to create a DHCP Reservation, ensuring the device always uses the same IP address. You’ll need to click “Save” at the bottom of the DHCP reservation window, then “Apply Changes” at the top right.
Navigate to the “Advanced” tab, then “User Groups.”
Click “New Rule,” enter the device’s IP address, and select the desired bandwidth group. The “Manager” group bypasses all limits.
Click “Save,” then “Apply Changes.” You should then see your rule listed with the default ones, like shown below.
Method 2: Assign Network VLAN Segments & Set WiFi Access
Create a new VLAN by going to the “Network” tab and clicking “New LAN.”
Set up the network with the following settings:
IP Address: 192.168.10.1
Name: Give this a unique name to identify it easily
VLAN ID: 2 (this must be different than any other LANs)
IP Range: Set a range of addresses that will be made available for your devices to establish a connection to the network
Click “Save” and then “Apply Changes.”
Navigate to the “AP” tab
Create a new wireless network by clicking on “New SSID” – this will be linked to the VLAN created earlier:
SSID: Name the WiFi network for users to connect to
VLAN: Select the VLAN you created earlier.
Security policy: We recommend setting this to WPA2 Personal or WPA2/WPA3 Personal
Shared key: This is your WiFi password, which needs to be at least 8 characters
Click “Save,” then ”Apply Changes”
To assign the VLAN to a user group:
Go to the “Advanced” tab, then “User Groups.”
Click “New Rule” and select “Group by Subnet.”
Enter the subnet, ensuring it ends in 0 to cover the entire network.
When done, click “Save,” then “Apply Changes”
Method 3: Using Client Type
You can also group devices by type, such as printers, to restrict their bandwidth usage.
Navigate to the “Advanced” tab, then “User Groups.”
Click “New Rule,” and set the “Grouped by” field to “Client Type” and select the desired type.
Set the desired “User Group” this should apply to.
Click “Save,” then “Apply Changes.”
Step 3 – Test Bandwidth Group
Wait 60 seconds for the router to reboot. Connect devices to the new WiFi network and test to ensure the bandwidth limits are applied. Repeat the process to create additional networks and assign them to different bandwidth groups as needed.
Conclusion
By leveraging the bandwidth user group features on Peplink MAX routers, you can efficiently manage and optimize your network’s bandwidth usage. Configuring these groups allows you to prioritize essential devices and applications while restricting high-bandwidth activities to prevent network congestion. This approach not only enhances overall network performance but also helps reduce unnecessary data consumption, leading to cost savings. Whether you are setting up limits for individual devices, entire VLAN segments, or specific client types, these methods provide flexibility and control to meet your unique network needs. Implementing these strategies ensures a balanced and efficient use of your network resources, contributing to a smoother and more reliable internet experience for all users.
When it comes to networking, achieving high speeds and unwavering reliability for WAN connections is important to any business or power user. Bonding, a process that merges multiple internet connections into a unified, robust link, stands as a solution to this demand. Noteworthy among bonding technologies are Peplink SpeedFusion Bonding and Digi WAN Bonding, both renowned for their prowess in optimizing network performance.
Understanding Bonding Throughput
Throughput, in networking, refers to the rate of successful data transmission over a communication channel. In the realm of bonding, throughput hinges not only on individual connection speeds and reliability but also on the capabilities of the bonding router. Typically, the router’s throughput is going to be much higher than the bonded throughput. In any case though, the higher the router throughput, the higher the bonded throughput.
Peplink SpeedFusion Bonding
Peplink SpeedFusion harnesses patented technology to aggregate multiple WAN connections, morphing them into a single, high-performing bonded connection. This technology boasts three distinct features:
SpeedFusion Hot Failover: In the event of a WAN disconnection, Hot Failover seamlessly transfers traffic to another connection while maintaining session persistence. This ensures uninterrupted operations even amidst connection hiccups.
SpeedFusion WAN Smoothing: Intelligent algorithms optimize connectivity by mitigating latency and minimizing the impact of packet loss. This works by using multiple WAN connections to send duplicate packets so that in the event that one WAN drops a packet, another picks it up. Be aware that this will create more data usage across your connections. WAN Smoothing is ideal for scenarios requiring reliability and responsiveness over sheer speed. For example, video meetings and voice calls have a much smoother connection.
If you need to enable WAN Smoothing, find the ‘WAN Smoothing’ field within your SpeedFusion VPN profile configuration. This can be set to Normal (The total bandwidth consumption will be at most 2x of the original data traffic), Medium (3x the original traffic), High (4x the original traffic), and Maximum (The total bandwidth consumption depends on the number of connected active wan-to-wan connection).
SpeedFusion Bandwidth Bonding: By combining data at the packet level, Bandwidth Bonding enables the aggregation of speeds from multiple connections, enhancing throughput significantly. This is particularly advantageous in bandwidth-constrained environments or when establishing connections between branch offices and headquarters. Throughput support is up to 4 Gbps with some models, but as low as 40 Mbps with others.
It should also be noted that there are different plans available to users that allow for a certain amount of bandwidth to be reached. This means even if your hardware is capable of supporting 1 Gbps over SpeedFusion, you may still be limited to below that amount. For example, if using Peplink’s SpeedFusion Connect (SF Connect) service plan that comes with your device’s warranty, you will only be able to achieve a max of 200 Mbps. However, if you opt for a different SF Connect plan, you may be able to achieve up to 400 Mbps. This is with plans that provide unlimited data usage for a specific period of time.
If neither of these options is sufficient to you, look at using Peplink’s FusionHub virtual appliance instead. This allows you to host your own SpeedFusion server on a cloud platform such as AWS or Microsoft Azure. You may also consider using another Peplink router at a site where you have access to a reliable, high-speed internet connection. As long as the bandwidth speed provided from the cloud or your personal Internet connection is faster than the speed your other Peplink is capable of supporting, you can set up a point to point connection between the routers. In either case, you are then able to obtain the full bandwidth the hardware is capable of supporting.
Digi WAN Bonding
Digi WAN Bonding leverages the power of Bondix Simple Aggregation of Networks (S.A.NE), combining multiple WAN links to boost throughput and maintain connection resilience. Key features include:
Hot failover: Ensures continuous connectivity with zero packet loss or failover wait time.
WAN aggregation: Combines multiple WAN links for enhanced speed and bandwidth, capable of achieving between 100 Mbps and 1 Gbps.
Packet Duplication (WAN Smoothing): Minimizes latency and jitter by transmitting data through multiple channels simultaneously. Packets are replicated across multiple WAN links to safeguard the delivery of critical data. This allows packets to be received regardless of the WAN that sends them. If one WAN fails, the packets are received via another active channel.
To enable this for your configuration, simply go into the device’s configuration settings and navigate to the ‘Network’ -> ‘SD-WAN’ -> ‘WAN Bonding’ section. Find ‘Mode’ and set this to ‘Packet Duplication.’ When ready, click ‘Apply’ at the top right to save the configuration.
WAN prioritization: Automatically selects or allows manual configuration of the most optimal active WAN link, ensuring efficient traffic balancing.
Simple integration: Facilitates easy deployment across diverse environments via Digi Remote Manager® (Digi RM).
Depending on the router model, Digi WAN Bonding offers varying throughput capacities. For instance, a Digi TX64 with three 200Mbps connections (Ethernet WAN + 2 cellular connections) can ensure up to 480Mbps bonded throughput.
Factors Influencing Throughput
Achieving optimal bonding throughput relies on a nuanced understanding of various influencing factors. Firstly, the number and types of WAN connections play a pivotal role. Diverse connections, such as DSL, cable, fiber, and cellular, each exhibit distinct characteristics in terms of speed, latency, and reliability. Consequently, selecting a combination of connections with complementary attributes can significantly impact overall throughput.
Moreover, cellular network congestion poses a formidable challenge to bonding throughput. During peak usage times or in densely populated areas, network congestion can lead to reduced speeds and increased latency, affecting the performance of bonded connections. Implementing congestion management techniques, such as Quality of Service (QoS) policies or traffic shaping, can mitigate these effects and maintain consistent throughput levels.
Router processing power constitutes another critical factor. Bonding routers must possess sufficient computational capabilities to handle the aggregation, segmentation, and reassembly of data packets across multiple connections efficiently. Inadequate processing power can bottleneck throughput and limit the effectiveness of bonding technology, especially in high-demand environments or when dealing with large volumes of data traffic.
Additionally, configuration settings play a crucial role in optimizing bonding throughput. Fine-tuning parameters such as load balancing algorithms and failover thresholds can significantly impact the efficiency and stability of bonded connections. By customizing these settings according to the specific requirements and characteristics of the network environment, users can maximize throughput while ensuring robustness and reliability.
Considerations for Users
When evaluating bonding solutions, users must carefully consider a range of factors to ensure the selection of a solution that aligns with their unique requirements and objectives. Firstly, desired throughput stands as a primary consideration. Different applications and use cases demand varying levels of bandwidth and speed. Whether the goal is to support high-definition video streaming, real-time communication, or large-scale data transfers, users must assess the bonding solution’s capacity to deliver the required throughput without compromising performance or reliability.
Budgetary considerations also play a significant role. Bonding solutions encompass a spectrum of costs, ranging from affordable consumer-grade options to enterprise-grade solutions with advanced features and scalability. Users must balance their budgetary constraints with the need for robustness, scalability, and long-term viability when selecting a bonding solution.
Scalability and future-proofing represent additional considerations. As businesses grow and network requirements evolve, bonding solutions must be capable of accommodating increasing bandwidth demands, additional connections, and emerging technologies. Choosing a solution that offers scalability through modular hardware, software upgrades, or flexible licensing models ensures long-term viability and minimizes the need for costly replacements or upgrades.
Compatibility with existing infrastructure is also paramount. Bonding solutions should seamlessly integrate with existing network components, protocols, and management systems to facilitate smooth deployment and operation. Compatibility considerations extend beyond technical interoperability to encompass factors such as ease of configuration, centralized management capabilities, and support for industry standards and protocols.
Lastly, support and maintenance considerations are crucial. Users should assess the availability of technical support, software updates, and maintenance services offered by bonding solution providers. Access to timely support, documentation, and firmware updates ensures ongoing reliability, security, and performance optimization of bonded connections.
By carefully evaluating these factors and conducting thorough research and testing, users can make informed decisions when selecting a bonding solution that meets their specific networking requirements, budget constraints, and long-term objectives.
Cellular signal performance is key for anyone running their home or business off a fixed wireless Internet connection. Reliable network functionality is a must. Whether it’s seamless data transmission, crystal-clear voice calls, or uninterrupted internet access, the quality of cellular signals profoundly influences the user experience. The Poynting EPNT-2 antenna enclosure offers enhanced connectivity with a suite of features designed to optimize cellular performance across diverse applications and environments.
Understanding Cellular Performance
The efficiency of cellular devices, especially embedded cellular modems, hinges on several critical factors: signal quality, loss, and interference. These elements directly impact a device’s capability to establish and sustain a stable connection to the network, thereby influencing data transmission speeds, call quality, and overall network reliability. Consequently, a deep understanding of cellular performance is helpful in ensuring the seamless operation of devices across various scenarios.
Key Features
The Poynting EPNT-2 embodies a fusion of cutting-edge technology and meticulous design, manifesting in a range of features geared towards elevating cellular performance:
Antenna Enclosure with High-Performance Antennas: The EPNT-2 integrates advanced metamaterial technology within its enclosure, housing high-performance antennas engineered to deliver exceptional signal reception.
Comprehensive Band Coverage: With support for the main 4G/5G bands, spanning from 617 to 960 MHz and 1710 to 4200 MHz, the EPNT-2 ensures broad compatibility and reliable connectivity across diverse frequency ranges.
MIMO Technology: Equipped with 4×4 MIMO cellular functionality, the EPNT-2 maximizes data throughput and network efficiency, facilitating faster and more robust connections.
Dual-Band Wi-Fi Support: In addition to cellular connectivity, the EPNT-2 features 2×2 MIMO dual-band 2.4 GHz and 5 GHz Wi-Fi antennas, further enhancing its versatility and utility in various networking scenarios.
Weather-Resistant Design: Constructed with a weather, dust, and vandal-resistant enclosure boasting an IP-65 rating, the EPNT-2 ensures durability and reliability even in harsh environmental conditions.
Cross-Polarized Antennas: Leveraging cross-polarized antennas, the EPNT-2 delivers improved performance by mitigating interference and enhancing signal clarity.
High Gain: With an impressive 11 dBi gain, the EPNT-2 amplifies signal strength, extending the reach and effectiveness of cellular connections.
Versatility and Adaptability
One of the hallmark features of the EPNT-2 is its adaptability to diverse router modules, effectively transforming the antenna enclosure into Customer Premises Equipment (CPE). This flexibility allows users to seamlessly integrate their preferred 4G/5G routers, catering to specific network requirements and preferences. The enclosure accommodates routers of dimensions up to 185 x 145 x 45 mm³, ensuring compatibility with a wide range of devices.
Applications and Industries
The versatility and robust performance of the EPNT-2 render it indispensable across various industries and applications, including:
Commercial, industrial, residential, and urban settings where reliable LTE/5G reception is imperative.
Smart environmental monitoring, water systems, utilities, farming, agricultural, and IoT applications.
Communication systems in oil and gas, municipal, and government sectors.
Repeaters and coverage enhancement amplifiers, augmenting network reach and reliability.
Is the EPNT-2 Right for You?
If you’re trying to cut down on cable loss and interference and maximize on performance, the Poynting EPNT-2 antenna enclosure emerges as a solution. With its innovative design, comprehensive features, and robust construction, the EPNT-2 sets a new standard for seamless connectivity across diverse applications and environments. Whether deployed in urban landscapes or remote industrial sites, the EPNT-2 ensures optimal network performance, empowering users to stay connected, informed, and productive, regardless of their location or connectivity challenges.
Having a robust and reliable internet connection in this day and age is essential for anyone. The Inseego 5G indoor router series, featuring models like the FG2000e, FX2000e, and S2000e, promises lightning-fast internet speeds for your home or office. However, ensuring optimal signal strength, especially indoors or in areas with poor network coverage, can be a challenge. In this article, we’ll explore effective strategies to boost the signal on your Inseego router, ensuring seamless connectivity for all your online activities.
Option #1: Optimizing Inseego Placement
Begin by optimizing the placement of your Inseego router within your premises. Utilize the Inseego GO app installer mode to conduct a mini site survey, comparing signal strengths and data speeds across various locations. Pay particular attention to areas near windows or where the signal appears strongest.
To access the signal strength information on your Inseego router, follow these steps:
Connect to your Inseego router using a web browser at 192.168.1.1
Log in with your Inseego admin credentials
Navigate to the connection status to view the signal strength, represented by a negative value. A value closer to 0 indicates a stronger signal – for more information on interpreting your signal strength check out our article, Understanding RSSI, RSRP, and RSRQ
Select the location with the fastest data speeds and stable signal for optimal router placement. This simple yet effective process can significantly improve your router’s performance.
Option #2: Utilizing MIMO External Antennas
If achieving optimal signal strength indoors proves challenging, consider deploying a MIMO external antenna. Directional antennas, when positioned outside and directed towards the nearest cell tower, can amplify signal reception and enhance bandwidth speeds. A tool like the OpenSignal app can help to identify nearby cell towers and their directions.
Should you find that you have too many obstructions around your area or multiple cell towers in the vicinity that serve your location (you can check this with your carrier), you can use an omnidirectional antenna instead. These will pull in signals from 360 degrees around.
For the FX2000 and FG2000 series, it’s essential to understand that the ports operate on C-band/n77 (3300MHz to 4200MHz). This frequency range is particularly beneficial for users of Verizon Wireless or AT&T services, as both networks utilize 5G NSA technology, where LTE is still employed for authentication and control channels.
While a strong LTE signal is not necessary, sufficient signal strength must be present at the router’s location. Conduct a site survey, especially in areas with challenging RF conditions, to determine the ideal antenna placement.
For the S2000e model, there are no band limitations, providing greater flexibility in antenna selection.
Explore external antennas for your Inseego 5G indoor router!
For broader coverage and simultaneous signal boosting across multiple devices, such as your Inseego and your cell phones, consider implementing a wireless repeater system. These systems amplify signals wirelessly, eliminating the need for direct cable connections.
Ensure compatibility with your Inseego router and conduct signal strength checks across your premises to identify the optimal placement for the external antenna. By enhancing signal strength and stability, a wireless repeater system can facilitate faster download and upload speeds, seamless streaming, and smoother browsing experiences.
Here are just a couple popular solutions for home and office use:
Maximizing signal strength and optimizing connectivity for your Inseego 5G indoor router is essential for uninterrupted internet access. By following the strategies outlined in this article, including optimizing router placement, utilizing external antennas, and deploying wireless repeater systems, you can ensure a reliable and high-performing internet connection for your home or office. Stay connected, stay productive, and enjoy the benefits of blazing-fast 5G internet with your Inseego router.If you still have questions, or need assistance determining the best option for your usage, contact the team at 5Gstore today!
We’re thrilled to announce the release of Peplink InControl 2 Version 2.13.2, marking another significant step in our journey to empower businesses with robust networking solutions. As the backbone of Peplink’s cloud-based management platform, InControl 2 continues to evolve, offering enhanced capabilities and features to streamline network management and optimize performance.
Release Dates:
Venus: April 16, 2024
Mars: May 6, 2024
Earth: May 13, 2024
What’s New:
Configuration Management: Say hello to seamless device configuration transfer! With support for applying a device configuration to another device of the same or different model, managing configurations has never been easier. Simply navigate to Device Details > Show All > Configuration Backups to explore this feature. (Note: Currently supported for Balance and MAX models with no FlexModules slot.)
Bulk eSIM Activation: Streamline your operations with the ability to bulk activate eSIMs on multiple devices. Find this functionality conveniently located in the Actions menu on the Device Management screen.
Enhanced Device Insights: Dive deeper into device details with the display of eSIM EID on the device details and device management screens. Additionally, devices are now searchable by EID on the device management and user organizations screen.
Cellular Module Firmware Upgrade: Ensure your devices stay up-to-date even when offline. The cellular module firmware can now be upgraded on the next startup if the device is offline.
Expanded Device Support: Enjoy added support for switching Peplink eSIM, BYO eSIM, remote SIM, and FusionSIM, along with indicators at device and SIM levels for better management.
Improved SpeedFusion VPN Configuration: From static IP selection to enhanced LAN settings and bandwidth control, our SpeedFusion VPN configuration now offers greater flexibility and control.
Captive Portal Enhancements: Take advantage of new features like quota reset time for guest accounts and “Cache Website Server Name” setting to further customize your captive portal experience.
And Much More: Explore additional enhancements, including support for Docker management, device track history, and improved firmware display during reboot.
In a recent announcement, Verizon reports having achieved a significant milestone in its quest for innovation. The completion of the first phase of certification to integrate Nokia Digital Automation Cloud (DAC) into its spectrum of supported offerings marks a pivotal moment in advancing private network solutions for businesses across various industries.
This strategic move adds a new dimension to Verizon Business’ Private 5G Network offering, enriching its hardware and software options for customers. The incorporation of Nokia DAC not only enhances Verizon’s portfolio but also amplifies its commitment to delivering cutting-edge solutions for enterprise connectivity.
Verizon Private 5G Networks stand out for their agility, ensuring on-premises data traffic remains secure and separate from public networks. These networks offer a slew of advantages, including superior security compared to WiFi, high reliability, exceptional performance with low latency, scalability, and customization to meet specific business requirements. Verizon’s managed services, including network monitoring and support, further bolster businesses’ competitiveness and efficiency.
Praveen Atreya, Vice President of Technology and Planning at Verizon, emphasized the significance of Private Wireless Networks in driving digital transformation for modern enterprises. He reiterated Verizon’s dedication to developing innovative offerings that empower customers to achieve efficiency and profitability.
The integration of Nokia DAC brings forth a host of capabilities tailored for various industries such as manufacturing, logistics, utilities, and agriculture. By combining 4.9G/LTE and 5G connectivity with mission-critical industrial edge technology, Nokia DAC enables real-time applications for smart manufacturing, predictive maintenance, and remote operations, among others.
David de Lancellotti, Vice President of Enterprise Campus Edge Business at Nokia, expressed excitement about expanding the partnership with Verizon. Leveraging Nokia DAC’s private wireless and digitalization platform, the collaboration aims to accelerate the adoption of 5G and industry 4.0 transformations, driving strategic growth for both companies.
Verizon’s certification of Nokia DAC underscores the carrier’s commitment to offering diversified private network solutions. This move comes at a time when Verizon is expanding its private network plans, with a focus on licensed spectrum-based offerings. The utilization of Nokia’s DAC platform opens up new avenues for Verizon to cater to evolving business needs, complementing its existing partnerships and initiatives in the private network space.
As Verizon continues to make strides in the private network arena, fueled by its licensed spectrum advantage, the stage is set for further growth and innovation. With a growing demand for private network solutions, fueled by the ongoing 5G revolution, Verizon is poised to play a significant role in shaping the future of enterprise connectivity.
Nokia’s expanding presence in the private network market, coupled with its innovative offerings, further solidifies its position as a key player in the industry. With a robust portfolio and a focus on driving digital transformation across diverse sectors, Nokia remains poised for continued growth and success in the evolving landscape of private wireless networks.
We’re thrilled to introduce our latest resource to help you maximize your Starlink experience: the comprehensive Starlink Support PDF from 5Gstore. Best of all, it’s completely free for everyone!
What can you expect from this 35-page guide? Here’s a sneak peek:
Real-World Tips: Gathered from actual Starlink users, these tips will help you make the most of your satellite internet connection.
Gen 3 Starlink Dish Usage: Get specific details and guidance on using the latest Gen 3 Starlink Dish for optimal performance.
Troubleshooting Made Easy: Encounter a problem or see an alert on your Starlink app? Our guide provides detailed troubleshooting steps to help you quickly resolve issues and get back online.
Advanced Features and Support: Explore advanced features of Starlink and learn how to leverage them for a smoother experience. Plus, discover how 5Gstore’s advanced services can assist you with connecting your Starlink to your Peplink or Digi router and set up SpeedFusion (Peplink) or WAN Bonding (Digi).
Whether you’re a seasoned Starlink user or just getting started, this guide has something for everyone. Say goodbye to connectivity frustrations and hello to seamless internet browsing with Starlink.
Ready to dive in? Access the 5Gstore Starlink Support PDF and explore all the invaluable insights it has to offer. Find it conveniently located on the 5Gstore.com website.
Empower yourself with knowledge and take control of your Starlink experience today!
The humble router. It’s that little box in your home or office that connects you to the vast world of the internet. But how often do we think about it until something goes wrong? Whether you’re a tech wizard or just someone who wants a smooth internet experience, understanding why it’s important to save your router’s configuration can save you from headaches down the line.
Picture this: the team at 5Gstore is like the superheroes of router troubleshooting. They’re always testing and fixing routers, and sometimes they have to reset them back to square one. But here’s their secret weapon: they don’t waste time reconfiguring everything manually. Instead, they use something called a configuration file.
A configuration file is like a snapshot of your router’s settings at a specific moment in time. It holds everything from your WiFi name and password to your security settings. So when things go haywire, you can just upload this file and voila! Your router is back to normal in no time. It’s not only a time-saver but also ensures that all your devices stay connected seamlessly, whether you’re at home or running a business.
But why should everyday folks bother with this? Well, think about those pesky firmware updates your router occasionally asks you to install. Sure, they promise better performance and security, but what if something goes wrong? Without a backup of your configuration, you might end up spending hours reconfiguring everything or, even worse, losing important data.
Plus, saving a fresh copy of your configuration after each update acts as a safety net. If you ever run into trouble afterward, you can easily revert to a previous setup and troubleshoot without pulling your hair out.
This practice becomes even more crucial as technology keeps evolving. Months or years down the line, when you’re scratching your head over why your WiFi suddenly stopped working, having that saved configuration file will be a lifesaver. Instead of trying to remember settings from ages ago, a quick upload will bring your router back to its former glory.
So, saving your router’s configuration is like giving yourself a safety net for your digital life. It lets you navigate the ever-changing world of technology with confidence, knowing that your network settings are safe and sound. Whether you’re a tech guru or just someone who loves binge-watching Netflix, remember: a little preparation goes a long way when it comes to routers.
If you’re ready to backup your configuration file today, and you have a router from Cradlepoint, Digi, Inseego, Peplink, or Sierra Wireless, check out the step-by-step instructions we have available below!
Cradlepoint
Connect via Ethernet LAN port or WiFi to your router
Log into its web admin console – the default address is 192.168.0.1 – with your admin credentials
Navigate to the ‘System’ tab -> ‘System Control’ -> ‘NetCloud OS’
Refer to the ‘System Config Save’ section here and click ‘Download Settings’
Save this file somewhere you can easily access it when needed.
You may follow these same steps to upload your configuration file by clicking the ‘Restore Settings’ button here.
Digi
Connect via Ethernet LAN port or WiFi to your router
Log into its web admin console – the default address is 192.168.2.1 – with your admin credentials
Navigate to the System tab and under ‘Configuration,’ select ‘Configuration Maintenance.’
Refer to the ‘Configuration backup’ section
Enter your device’s admin password and click the ‘Save’ button
Save this file somewhere you can easily access it when needed!
You may follow these same steps to upload your configuration file at the ‘Configuration Restore’ section here.
Inseego
Connect via Ethernet LAN port or WiFi to your router
Log into its web admin console – the default address is 192.168.1.1 – with your admin credentials
Navigate to the ‘Settings’ tab on the left, then select ‘Backup and Restore’
Enter your Admin password in the ‘Admin Password’ field
Click the ‘Download’ button and save this file somewhere you can easily access it when needed
When necessary, you can restore settings at the same page by entering the Admin password at the ‘Restore Settings’ section and then clicking ‘Restore Now’ button
Peplink
Connect via Ethernet LAN port or WiFi to your router
Log into its web admin console – the default address is 192.168.1.1 or 192.168.50.1 – with your admin credentials
Navigate to the ‘System’ tab and select ‘Configuration’ on the left
Refer to the ‘Download Active Configurations’ section and click ‘Download’
Save this file somewhere you can easily access it later
When needed, you can upload the configuration file at the same page under the ‘Upload Configurations’ section.
Sierra Wireless
Connect via Ethernet LAN port or WiFi to your router
Log into its web admin console – the default address is https://192.168.13.31:9191 (for older devices running AceManager) or https://192.168.1.1 (for newer devices running AirLink OS) – with your admin credentials
For AceManager devices: Navigate to the ‘Template’ tab and refer to the ‘Download Template’ section. Give it a unique name and select whether or not to include passwords and device info, then click the ‘Download’ button. When needed, you can reload settings at the same Template area under ‘Apply Template’
For AirLink OS devices: Click the template icon at the top right. It looks like a gray square with a checkmark, then select ‘Create template from current configuration.’ Click ‘Export to file’ at the bottom of the page and save the file. When needed, you can go back to the Template icon and select ‘Apply a template’ and this will allow you to restore from your saved file.
5G is the latest advance in wireless technology, following 4G. It stands for “fifth generation,” and it’s set to change the game for everyone, especially those working remotely. Faster internet, more reliability, and lower lag time mean you can download files, attend video calls, and manage your work without the frustration of a slow connection. Imagine starting a download and it’s done before you even blink. That’s the promise of 5G. It’s not just about speed, though; it’s also about connecting more devices at once without losing quality. So, whether you’re in a busy house or a remote location, 5G is designed to keep you connected, making it a solid foundation for remote work success.
What is a 5G Signal Booster and How Does It Work?
A 5G Signal Booster is a device designed to improve your mobile network connection. Picture this: you’re working remotely in an area where your phone barely gets one bar of 5G signal. Frustrating, right? That’s where a signal booster comes into play. It grabs weak 5G signals from outside, amplifies them, and then broadcasts the stronger signal inside your work area. Essentially, it acts like a middleman, ensuring that your phone and other mobile devices receive a stable and strong connection. This means faster download and upload speeds, smoother video calls, and fewer interruptions during your remote work sessions. Simply put, it takes weak signals, boosts them up, and gives your devices a much-needed connectivity boost.
Top Benefits of Using a 5G Signal Booster for Remote Work
Using a 5G signal booster for remote work? Smart move. Here’s why. First, speed. 5G is fast, like, really fast. With a signal booster, you get to tap into that speed consistently. Say goodbye to buffering during video calls. Second, stability. A booster means your signal stays strong. No more dropped calls or glitchy meetings. Third, coverage. Work from any corner of your house – attic, basement, you name it. Boosters expand the signal reach, so you’re always connected. Lastly, productivity. With fast and stable internet, you can get more work done, attend online meetings without hitches, and say hello to smooth, uninterrupted workdays. A 5G signal booster isn’t just a gadget; it’s your ticket to a seamless remote work experience.
Enhancing Internet Speed and Reliability with a 5G Signal Booster
Boosting your internet with a 5G signal booster means saying goodbye to buffering and hello to lightning-fast downloads. With one of these devices, you ramp up your internet speed significantly. This is not just about speed; reliability gets a major boost too. We’re talking about fewer dropouts and smoother video calls, crucial for remote work where every second and clear communication counts. A 5G signal booster grabs weak signals and turns them into a strong, stable connection. So, whether you’re in a spot where the signal usually struggles or you just need that extra boost for an important video conference, a 5G booster has got your back. This means more work done in less time and less stress about lost connections.
Reducing Dropped Connections: A Key Advantage for Remote Workers
Dropped connections are the worst nightmare for anyone who’s relying on internet access to work remotely. Enter the 5G signal booster, a game-changer for remote workers everywhere. This clever device strengthens your 5G signal, drastically cutting down on those frustrating moments when your video call freezes or your upload takes forever. No more getting cut off during an important meeting or struggling with slow internet speeds. With a 5G signal booster, your connection becomes more reliable, meaning you stay productive and on task. And isn’t that the whole point of working remotely? To work efficiently, without the stress of technical glitches. This makes investing in a 5G signal booster a smart choice for anyone looking to eliminate dropped connections and boost their remote work game.
Boosting Productivity Through Seamless Connectivity
5G signal boosters can seriously ramp up your remote work game by providing ultra-fast internet speeds. This means you can upload, download, and stream without any pesky buffering. Imagine not having to wait for that spinning wheel on your screen every time you try to join a video call or when you’re uploading a large file. With speeds that can leave your current internet connection in the dust, 5G boosters keep your work flowing smoothly, which means you can get more done in less time. Plus, this seamless connectivity reduces frustration and helps you stay focused on your tasks, not on whether your internet connection will drop at a critical moment. So, by ensuring your internet doesn’t slow down your productivity, 5G boosters are an investment in getting your work done faster and more efficiently.
Ensuring Secure Connections for Sensitive Remote Work
When working remotely, especially with sensitive information, a secure connection is non-negotiable. A 5G signal booster does more than just speed up your internet. It strengthens the signal reception, reducing the chances of losing connection at critical moments. This is crucial when handling sensitive data or when in the middle of important virtual meetings. With a stable and enhanced signal, your data encryption tools work more effectively, providing an extra layer of security. Plus, strong signal strength means your VPN won’t constantly disconnect, maintaining a secure gateway to your organization’s network. Simply put, a 5G signal booster keeps your remote work secure, uninterrupted, and efficient.
How to Choose the Right 5G Signal Booster for Your Needs
Choosing the right 5G signal booster is not as tough as you might think. First, consider the strength of the existing 5G signal in your area. If you barely get a bar, you need a stronger booster. Next, think about how much space you need to cover. A small home office? Or several floors? Boosters have different coverage capabilities, so pick what matches your need. Also, consider the external antenna type. Those living in urban areas might do well with an omnidirectional antenna; rural dwellers might need a directional antenna to catch distant signals. Finally, don’t forget compatibility. Ensure the booster works with your carrier’s 5G frequency. Not all boosters work with every network, so double-check this. With these points in mind, you’re set to boost your remote work success with the right 5G signal booster.
Installation Tips: Maximizing Your 5G Signal Booster’s Performance
When you’re setting up your 5G signal booster for remote work, location is everything. First, find the spot in your home where you get the best cellular signal. Use your phone to identify this area; you’re looking for maximum bars. Once you’ve found it, that’s where your booster’s outdoor antenna should go. Next, ensure there’s enough distance between the outdoor antenna and the indoor antenna. This prevents signal feedback, which can diminish the booster’s effectiveness. Aim for at least 20 feet vertically or 50 feet horizontally but check your booster’s manual for specific recommendations. Also, keep the indoor antenna away from clutter and metal objects that can interfere with the signal. In simpler terms, clear space equals clearer signal. Last but not least, regularly check and maintain your setup. Sometimes, adjusting the direction of the antennas can significantly improve your signal strength. Remember, even small changes in positioning can lead to big improvements in performance.
Summary: Why a 5G Signal Booster is Essential for Remote Work Success
Let’s keep it simple. In today’s world, where remote work is not just a trend but a necessity for many, having fast and reliable internet is crucial. That’s where a 5G signal booster comes into play. First off, it cranks up your internet speed. Period. You’re looking at smoother video calls, fast file downloads, and no more yelling at your screen because a page won’t load. Secondly, this gadget boosts signal strength. This means even if you’re in a spot where your phone struggles to find a bar, with a 5G booster, you’re connected. Strong signal, less stress. Lastly, it’s a tool for reliability. Ever been in the middle of an important call or presentation and your internet decides to take a nap? A signal booster reduces those moments, keeping your connection stable. So, to wrap up, for anyone working remotely, a 5G signal booster isn’t just nice to have; it’s essential. It makes your work life smoother, reliable, and yes, less frustrating.
A recent collaboration between Verizon Business and Cummins Inc marks a significant stride in the direction of seamless connectivity. The announcement of Cummins as the inaugural customer for Verizon Business’ groundbreaking Neutral Host Network product heralds a new era of connectivity solutions tailored for the demands of modern industry.
At the heart of this collaboration lies the convergence of two cutting-edge technologies: the Neutral Host Network and Private 5G Network. By integrating these solutions, Verizon and Cummins are poised to revolutionize connectivity within the confines of Cummins’ Jamestown Engine Plant (JEP) in Lakewood, NY.
Empowering Operations through Connectivity
The essence of the Neutral Host Network lies in its ability to democratize connectivity. Traditionally, reliance on a single carrier’s network infrastructure could pose limitations, hindering seamless communication within industrial complexes. However, the Neutral Host Network dismantles these barriers by providing a platform where employees and visitors, regardless of their mobile service provider, can access a robust cellular signal.
Verizon, serving as the “anchor tenant” for this innovative network, shoulders the responsibility of engineering, implementation, and maintenance of onsite equipment. This collaborative effort ensures enhanced coverage throughout the sprawling expanse of JEP, comprising 1 million square feet of industrial space and outdoor areas.
Private 5G: Catalyzing Industrial Transformation
Complementing the Neutral Host Network is the Verizon Private 5G Network, a solution designed to meet the exacting demands of modern industry. By leveraging Verizon’s licensed spectrum, Cummins gains access to a dedicated cellular infrastructure tailored for its unique operational requirements.
The implications of Private 5G extend far beyond mere connectivity; it serves as the linchpin for a host of Industry 4.0 applications. At JEP, this includes the deployment of autonomous mobile robots (AMRs), computer vision systems, augmented reality (AR)/virtual reality (VR) interfaces, and machine health monitoring sensors. The Private 5G Network not only ensures seamless communication between these contrasting systems but also lays the groundwork for future innovations.
Industry Endorsement and Analyst Insight
The significance of this collaboration resonates strongly with industry stakeholders and analysts alike. Shawn Hricko, Plant Manager at Cummins Jamestown Engine Plant, underscores the transformative potential of these networks, emphasizing their role in expediting Industry 4.0 adoption and enhancing operational efficiency.
Similarly, Ron Fleetwood, Executive Director of Cummins IT Business Services, praises the deployment of Private 5G as a pivotal step in Cummins’ digital manufacturing journey. By embracing cellular connectivity, Cummins reaffirms its commitment to creating a world-class workplace driven by innovation and efficiency.
Jennifer Artley, Senior Vice President of 5G Acceleration at Verizon Business, says Cummins has a forward-thinking approach. She added that the combined solution epitomizes a holistic approach to connectivity. Moreover, Brian Partridge, Head of Research at 451 Research, highlights the synergistic benefits of Neutral Host and Private 5G networks, citing their streamlined implementation and versatility across public and private use cases.
