At Horizon Powered, our expertise lies in manufacturing a comprehensive range of networking devices designed to meet the diverse needs of modern connectivity. From indoor routers to outdoor CPE devices, CBRS solutions, mobile hotspots, 5G devices, and USB dongles, we offer a complete portfolio of products to enhance network operations and ensure seamless connectivity across various environments.
Our indoor routers set a new standard for network efficiency, boasting industry-leading security, programmability, and high performance. For remote areas, our CBRS Ready outdoor CPE devices provide reliable connectivity, covering the last mile with ease. With our custom-made CBRS devices, organizations can build private mobile networks of any size, ensuring reliable connectivity tailored to their specific requirements.
Stay connected on the go with our portable WiFi solutions, including mobile hotspots and advanced 5G devices. Whether you need higher speeds, consistent connectivity, or the ability to connect to unlimited devices simultaneously, our products deliver reliable performance. Additionally, our USB dongles offer immediate access to broadband internet, even in the most remote and hard-to-reach locations.
With a focus on innovation and quality, Horizon Powered is committed to providing top-of-the-line networking solutions that empower organizations and individuals to stay connected in today’s digital age.
3G, 4G, 4G LTE, and 5G are different generations of mobile network technologies that provide increasing levels of speed, capacity, and connectivity. Here's a breakdown of the key differences between them:
1. 3G (Third Generation): 3G networks were the first to offer significant data speeds for mobile devices, enabling services like video calling, mobile internet browsing, and multimedia messaging. Typical 3G speeds range from 384 kbps to several megabits per second (Mbps).
2. 4G (Fourth Generation): 4G networks marked a significant leap in speed and capacity compared to 3G. They provided faster data transfer rates, lower latency, and improved overall network performance. Typical 4G speeds can reach several tens of megabits per second, with peak speeds in the hundreds of Mbps range.
3. 4G LTE (Long-Term Evolution): LTE is a specific type of 4G technology that stands for Long-Term Evolution. It offers even higher data speeds and lower latency than standard 4G networks. LTE networks are designed to handle more data traffic and provide a smoother browsing experience. Typical LTE speeds range from 10 Mbps to 50 Mbps, with peak speeds up to 100 Mbps or higher.
4. 5G (Fifth Generation): 5G is the latest generation of mobile network technology, offering significantly faster speeds, lower latency, and greater capacity than its predecessors. It is designed to support a wide range of applications, including autonomous vehicles, virtual reality, augmented reality, and massive machine-to-machine communications. 5G can provide peak speeds in the gigabits per second (Gbps) range, with typical speeds ranging from 100 Mbps to several hundred Mbps.
Router: A router is a networking device that forwards data packets between computer networks. It is typically used in home or office networks to connect multiple devices to the internet and allows them to communicate with each other. Routers use IP addresses to identify and direct network traffic, and they can provide features such as network address translation (NAT) and firewall protection.
CPE (Customer Premises Equipment): CPE refers to networking equipment that is located at the customer's premises or location. It can be a broad term that encompasses various devices, including routers, modems, switches, or wireless access points, depending on the context. CPE is typically owned and maintained by the customer and is used to connect their devices to the service provider's network.
Access Point: An access point (AP) is a networking device that allows wireless devices to connect to a wired network. It acts as a central hub for wireless communication, providing a connection point between wireless devices and the wired network infrastructure. Access points are commonly used in Wi-Fi networks to extend network coverage and provide wireless connectivity to devices such as laptops, smartphones, and tablets.
Base Station: A base station, also known as a cell site or cellular tower, is a device used in cellular networks to provide wireless communication coverage to a specific geographical area, known as a cell. It consists of radio transmitters, receivers, antennas, and other equipment that facilitate wireless communication between mobile devices and the core network of the cellular service provider. Base stations are a crucial component of mobile telecommunications networks, enabling voice calls, text messages, and data transmission for mobile devices.
There are several types of Wi-Fi technologies that have been developed over the years. Here are the most common types:
1. Wi-Fi 1 (802.11b): This was the first commercially available Wi-Fi standard, offering a maximum data transfer rate of up to 11 Mbps in the 2.4 GHz frequency band.
2. Wi-Fi 2 (802.11a): This standard operates in the 5 GHz frequency band and provides a maximum data transfer rate of up to 54 Mbps. It offers faster speeds but has a shorter range compared to Wi-Fi 1.
3. Wi-Fi 3 (802.11g): Wi-Fi 3 operates in the 2.4 GHz frequency band and offers a maximum data transfer rate of up to 54 Mbps. It is backward-compatible with Wi-Fi 1 devices.
4. Wi-Fi 4 (802.11n): This standard brought significant improvements in speed and range. It operates in both the 2.4 GHz and 5 GHz frequency bands and supports multiple input multiple output (MIMO) technology, allowing for faster data transfer rates of up to 600 Mbps or higher.
5. Wi-Fi 5 (802.11ac): Wi-Fi 5 operates primarily in the 5 GHz frequency band and provides faster speeds and better performance than previous standards. It supports MIMO and can deliver data transfer rates of up to several gigabits per second.
6. Wi-Fi 6 (802.11ax): Wi-Fi 6 is the latest generation of Wi-Fi technology. It operates in both the 2.4 GHz and 5 GHz frequency bands, supports higher data transfer rates, reduces latency, and improves performance in crowded network environments. Wi-Fi 6 devices can achieve multi-gigabit speeds.
7. Wi-Fi 6E: Wi-Fi 6E builds upon the capabilities of Wi-Fi 6 by adding support for the newly available 6 GHz frequency band. This additional spectrum offers more channels and less interference, providing even higher speeds and capacity for Wi-Fi networks.
4G and CBRS (Citizens Broadband Radio Service) are two different concepts related to wireless communication, but they are not directly comparable.
4G (or LTE, Long-Term Evolution) is a standard for wireless communication that provides high-speed data connectivity to mobile devices. It is the fourth generation of cellular network technology and offers significant improvements over its predecessors in terms of data transfer speeds, capacity, and reliability. 4G networks operate in licensed frequency bands allocated to cellular service providers. These networks are widely deployed and used by mobile devices around the world to access the internet, make calls, and use various data services.
CBRS, on the other hand, refers to a specific frequency band and regulatory framework within the United States. It stands for Citizens Broadband Radio Service and utilizes a portion of the 3.5 GHz spectrum. CBRS introduces a shared spectrum model that allows both incumbent users (such as government and military entities) and commercial users to access and utilize the frequency band. It is intended to increase spectrum availability for wireless communication and support various applications, including private LTE/5G networks, fixed wireless access, and Internet of Things (IoT) deployments.