Infrastructure WLAN

We fully understand the importance of winning customers and orders. The key lies in understanding customer needs and delivering value beyond expectations.

With our advanced product technologies, comprehensive implementation and after-sales services, and targeted sales strategies, we enable customers to confidently choose our solutions.

We possess capabilities in 25 core product solutions and provide a wide range of compatibility and certifications with renowned brands. Highly competitive and high-value enterprise-grade network deployment projects, covering all aspects from technology, applications, services, future trends, design, installation, configuration, maintenance, and after-sales support.

1. Moving around causes connection issues
     Signal Coverage and Stability
    • Dead Zones: Wi-Fi signals may not cover large spaces or multi-story buildings.
    • Interference Issues: Other Wi-Fi networks, Bluetooth devices, and appliances like microwave                   ovens  can interfere with connection quality.
    • Wall Penetration Effect: Walls, glass, and metal structures can weaken Wi-Fi signals and reduce             transmission range.

2. Signal bars look fine, but still slow
     Bandwidth & Speed Issues
    • Insufficient bandwidth: Too many users at once can saturate available bandwidth and slow                    everything down.
    • Outdated tech limits: Older Wi-Fi standards (like 802.11n or earlier) can't deliver the speed today's         apps demand.
    •  High latency: Real-time apps like online gaming or video conferencing suffer from noticeable lag.

3. Too many APs online
     Device Connection Limits
    • Too many devices connected can overload access points (APs), causing disconnections or slow speeds.
    • In enterprise or public environments, Wi-Fi systems can crash under excessive load
    

4. Someone changed the Wi-Fi password
     Security Issues
    • Unencrypted Wi-Fi networks are easy targets for hackers—risking MITM attacks or phishing traps.
    • Old encryption like WEP or early WPA versions can be cracked, leading to data leaks.
    • Public Wi-Fi can be faked by attackers creating “evil twin” hotspots to steal your info.

5. Some APs connect very slowly
     Device Compatibility Problems
    • Compatibility issues between different brands can lead to unstable connections.
    • Older devices might not support new Wi-Fi standards (like Wi-Fi 6 or Wi-Fi 6E).
    

6. Tons of different SSIDs everywhere
     Hard to Manage & Maintain
    • Enterprise-grade Wi-Fi requires proper monitoring and management—without it, expect crashes            and poor performance.
    • Old routers or APs with outdated firmware may have security flaws or slowdowns.
    

7. Stability & Power Usage
     Power Drain Issues
    • Newer Wi-Fi gear (like Wi-Fi 6 routers/APs) can draw more power and require better energy                     management.
    • Mobile phones, laptops, and other devices may consume more battery power in unstable Wi-Fi              environments.
    • These issues have been improved in recent years with the popularity of new technologies such as         Wi-Fi 6, Mesh Wi-Fi, and SD-WAN, but they are still key concerns for many enterprises and users.         Which wireless network problems are you currently experiencing?

無線區域網 (WLAN, Wireless Local Area Network)

Wi-Fi (IEEE 802.11 系列)：最常見的無線網路技術，適用於各行業。

• Wi-Fi 7 (802.11be)：未來技術，提供更高的速度和更低延遲
• Wi-Fi, that goes beyond the standard
• Critical user and IoT applications
• AI workloads depend on secure, seamless connectivity.
• Our Wi-Fi 7 solution delivers high-performance, high-capacity coverage with
  AI capabilities to supercharge user and IoT experiences.

Ultra-high speed and increased bandwidth.

Maximum transmission speed up to 46 Gbps (approximately 4.8 times faster than Wi-Fi 6E)
Wider 320 MHz bandwidth (Wi-Fi 6E supports up to only 160 MHz)。
4K QAM modulation technology (20% higher transmission efficiency compared to Wi-Fi 6’s 1024-QAM)
>>Improves past limitations by addressing bandwidth shortages and speed constraints, Enables more devices to transmit simultaneously and connect at high speeds。
>>Enhances transmission efficiency, Ideal for applications such as 8K video streaming, high-speed downloads, and large data transfers.

Multi-Link Operation (MLO)

Wi-Fi 7 supports simultaneous transmission across the 2.4GHz, 5GHz, and 6GHz bands.
(While Wi-Fi 6 can only use one frequency band at a time.)
Automatically switches to the optimal frequency band, adjusting in real-time based on network traffic and interference.
>> Improves past issues by reducing signal interference and network speed fluctuations, significantly enhancing connection stability.
>> Reduces latency, making it especially suitable for real-time applications such as online gaming, AR/VR, and video conferencing.

More efficient MU-MIMO and OFDMA

MU-MIMO upgraded to 16×16 (Wi-Fi 6 supports only up to 8×8).
More efficient OFDMA (Orthogonal Frequency Division Multiple Access) technology reduces transmission latency and resource wastage.
>> Improves past issues by enhancing the ability to handle multiple devices concurrently, reducing latency and congestion — ideal for smart homes and enterprise environments.
>> Improves bandwidth allocation efficiency, making it suitable for applications such as IoT devices and cloud computing.

Low latency and stronger QoS (Quality of Service)

Latency reduced to below 1ms, suitable for high-demand applications (such as autonomous driving and AI computing).
Adaptive channel usage technology (Preamble Puncturing) avoids interference and ensures stable transmission.
>> Improves past issues by reducing lag in video conferences and games, delivering a smoother user experience.
>> Better suited for real-time application scenarios such as industrial automation, AR/VR, and AI computing.

Higher security and energy efficiency

Adopts WPA4 (expected support) to further enhance wireless network security.
Lower power consumption, specially optimized for IoT devices and mobile device battery life.
>> Improves past issues: Prevents Wi-Fi phishing and man-in-the-middle attacks, strengthening data security for businesses and individuals.
>> Extends device battery life, suitable for smart homes and industrial IoT devices.

Lower power consumption and higher energy efficiency

Adopts an upgraded version of Target Wake Time (TWT) to enhance IoT device battery life.
Reduces unnecessary data transmission and saves power through more refined bandwidth management.
>> Improves the battery life of IoT and smart home devices, reducing the need for frequent charging.
>> Reduces enterprise network operating costs and saves energy consumption.