Skip to main content

Wallys-IPQ5018 Mesh-Network-Field-Test-400-Mbps-Throughput-Over-1000m-Distance

 As demand for outdoor wireless coverage continues to grow, Mesh networking has become a key solution for industrial and enterprise deployments. This article presents a real-world field test of a Wallys Mesh network, focusing on long-distance wireless transmission, link stability, and throughput performance.


Mesh Network Test Background


To evaluate real-world performance, we set up a typical long-distance outdoor wireless test scenario, simulating industrial deployment conditions.

Test Environment

Distance between nodes: ~1000 meters

Scenario: Outdoor Line-of-Sight (LOS)

Topology: Mesh network with dedicated backhaul link

This setup reflects common requirements in large-scale outdoor wireless deployments.

meshnetworktest.png



Test Results: High Throughput and Stable Performance


During the test, the Wallys Mesh network delivered strong and consistent performance:

Single-hop throughput: Up to ~400 Mbps

Link stability: No significant fluctuation observed

Consistency: Reliable results across multiple test runs

Even at a 1000-meter distance, the network maintained high throughput and stable connectivity, demonstrating its capability for long-range wireless communication.

meshtestresult.png


Technical Analysis: How Mesh Networking Delivers Performance

The strong performance is mainly driven by an optimized Mesh architecture:

1. Dedicated Backhaul Link

By separating node-to-node communication from client access traffic, the system:

Reduces interference between links

Prevents congestion-related performance drops

2. Efficient Link Planning

Optimized resource allocation ensures:

Higher network efficiency

More stable data transmission

3. Performance Close to Wireless Bridge (PTP)

At 1000 meters, the Mesh network achieves performance comparable to traditional Point-to-Point (PTP) wireless bridge solutions, while offering:

Greater deployment flexibility

Self-healing and automatic routing capabilities


Typical Use Cases

Wallys Mesh solutions are ideal for large-scale outdoor wireless deployments, including:

Mining sites

Oil & gas fields

Smart campuses

Ports and terminals

Warehousing and logistics centers

Agriculture and farms

Industrial parks

These environments require reliable, scalable, and long-range wireless connectivity.


Why Choose a Mesh Network?

Compared to traditional wireless solutions, Mesh networking offers:

 Reduced cabling and deployment costs

 Self-organizing and self-optimizing network

 High scalability for large deployments

 Reliable performance in industrial environments


Conclusion

This field test demonstrates that the Wallys Mesh network can deliver up to 400 Mbps throughput over a 1000-meter distance, with excellent stability and consistency.

It combines near-PTP performance with the flexibility of Mesh networking, making it an ideal solution for industrial wireless communication and outdoor coverage.


Contact Us

If you're looking for solutions in long-range wireless communication, industrial Mesh networks, or outdoor wireless coverage, feel free to contact us for more details and deployment support.

sales@wallystech.com

Labels:

Comments

Post a Comment

Popular posts from this blog

Qualcomm's IPQ53XX Series: IPQ5300, IPQ5332, IPQ5322 Comprehensive Analysis

  As wireless networking technology continues to evolve, Qualcomm has introduced the IPQ53XX series chipsets to meet the market’s demand for high-speed, stable, and versatile network devices. This series includes several notable models, with IPQ5300, IPQ5332, and IPQ5322 being key highlights. This article will provide a comprehensive overview of these three chips and their advantages in various networking applications. 1. IPQ5300: The Efficient Mid-Range Choice The IPQ5300 is designed for mid-range network devices and boasts the following key features: Multi-Core Architecture : Equipped with a quad-core CPU, the IPQ5300 is capable of handling network data and multitasking efficiently. WiFi 6 Support : This chip supports the 802.11ax (WiFi 6) standard, offering faster transmission speeds and lower latency, ideal for homes and small offices. Network Acceleration : Includes a built-in network acceleration engine to optimize traffic handling and device performance, ensuring a smooth us...
Post a Comment
Read more

WallysTech (QCN9274/QCN6274-Based) DR9274 Series WiFi 7 Cards Comprehensive Overview

  As the WiFi 7 (802.11be) standard enters commercial deployment, wireless network cards featuring high bandwidth, low latency, and enhanced interference resistance have become essential to next-generation connectivity. WallysTech, a leading wireless solution provider in China, is at the forefront of WiFi 7 innovation with the launch of its DR9274 series WiFi cards. Offering flexible band configurations and robust interface options, these modules are designed to meet the demands of both industrial and commercial applications. This article provides a detailed overview of the DR9274 WiFi 7 card lineup, including model specifications, chipset configurations, interface types, and recommended applications. 1. Overview of the DR9274 Series The DR9274 series is built on Qualcomm’s WiFi 7 platform, utilizing two categories of chipsets: QCN9274 (Industrial Grade) — Designed for high-reliability, wide-temperature environments. QCN6274 (Commercial Grade) — Cost-optimized for general-purpose n...
Post a Comment
Read more

Qualcomm IPQ5424 vs. IPQ9570: Wi-Fi 7 SoC Comparison & Positioning

  As Wi-Fi 7 (IEEE 802.11be) moves closer to real-world deployment, more device manufacturers are evaluating SoC solutions for next-generation wireless products. Among the most anticipated Wi-Fi 7 chipsets from Qualcomm are the   IPQ9570   and   IPQ5424 . While both support the latest wireless standards, they differ significantly in architecture, performance, and target applications. sales@wallystech.com 1. Core Specification Comparison Feature IPQ9570 IPQ5424 Wi-Fi Support Wi-Fi 7 (802.11be) Wi-Fi 7 (802.11be) CPU Quad-core ARM Cortex-A73 @ 2.2GHz Quad-core ARM Cortex-A53 @ 1.5GHz Process Node 14nm 14nm Frequency Bands 2.4GHz / 5GHz / 6GHz (Tri-band) 2.4GHz / 5GHz / 6GHz (Tri-band) Memory Support DDR4 / DDR5 DDR4 Interfaces 10G Ethernet, PCIe 3.0, USB 3.0 2.5G Ethernet, PCIe 3.0, USB 3.0 Target Use Case High-end enterprise APs, gateways, edge networking Mid-to-high-end routers, mesh nodes Expansion Capability High Moderate 2. IPQ9570: Built for High-Performance Wire...
Post a Comment
Read more