HUAWEI eKit AP371 WiFi-7 Settled Access Point

รหัสสินค้า : AP371

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Huawei eKit AP371 WiFi-7 Indoor Settled Cloud 2.5GE Access Point

Model : AP371

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ดาวน์โหลด เสปก เอกสาร Datasheet Download HUAWEI eKit AP371

ดาวน์โหลด คู่มือติดตั้งใช้งาน HUAWEI eKit AP371 User Installation Configuration Manual Guide Download

ดาวน์โหลด คู่มือติดตั้งฮาร์ดแวร์ Manual Hardware Installation Guide HUAWEI eKit AP371

อุปกรณ์ขยายสัญญาณ HUAWEI eKIT รุ่น AP371 Settled AP (11be indoor,2+2 dual bands,smart antenna,USB,BLE)

| Wi-Fi 7 | 3.57 Gbps device rate | Dual-radio | 150 access users recommended | Max. 256 access users 23 dBm transmit power | Smart antenna | 18 m optimal coverage range

Huawei eKitEngine AP371 is a next-generation indoor access point (AP) in compliance with Wi-Fi 7 (802.11be). It can simultaneously provide services on 2.4 GHz (2x2 MIMO) and 5 GHz (2x2 MIMO) frequency bands, supporting a total of 4 spatial streams and achieving a device rate of up to 3.57 Gbps. The AP is empowered by brand-new Wi-Fi 7

Provides services simultaneously on both the 2.4 GHz (2x2) and 5 GHz (2x2) frequency bands, at a rate of up to 689 Mbps at 2.4 GHz, 2.88 Gbps at 5 GHz, and 3.57 Gbps for the device.
Has built-in smart antennas that automatically adjust the coverage direction and signal strength based on the intelligent switchover algorithm.
Supports Fit and cloud management working modes, and enables Huawei cloud management platform to manage and operate APs and services on the APs, reducing network O&M costs.
The cloud management (APP or SNC) is recommended for AP371

Wi-Fi 7 (802.11be) standard Wi-Fi 7 (802.11be) is the next-generation Wi-Fi standard to be launched, also known as IEEE 802.11be or extremely high throughput (EHT). Based on Wi-Fi 6, Wi-Fi 7 introduces technologies such as 320 MHz bandwidth, 4096-quadrature amplitude modulation (QAM), multi-resource unit (RU), multi-link operation (MLO), enhanced multi-user multiple-input multiple-output (MU-MIMO), and multi-AP coordination. Drawing on these cutting-edge technologies, Wi-Fi 7 delivers a higher data transmission rate and lower latency than Wi-Fi 6. The network throughput of Wi-Fi 7 is expected to increase to more than 30 Gbps, about three times that of Wi-Fi 6.

New Features in Wi-Fi 7

Wi-Fi 7 aims to increase the WLAN throughput to over 30 Gbps and provide low-latency access assurance. To achieve this goal, the standard defines modifications to both the physical layer (PHY) and MAC layer. Compared with Wi-Fi 6, Wi-Fi 7 brings the following technical innovations:

Multi-RU*

In Wi-Fi 6, each user can send or receive frames only on the RUs allocated to them, which greatlylimits the flexibility of spectrum resource scheduling. To resolve this problem and further improvespectrum efficiency, Wi-Fi 7 defines a mechanism for allocating multiple RUs to a single user. Tobalance the implementation complexity and spectrum utilization, the standard specifications imposecertain restrictions on RU combination. That is, small RUs (containing fewer than 242 tones) can becombined only with small RUs, and large RUs (containing greater than or equal to 242 tones) can becombined only with large RUs. Small RUs and large RUs cannot be combined together.

Higher-Order 4096-QAM

The highest order modulation supported by Wi-Fi 6 is 1024-QAM, which allows each modulationsymbol to carry up to 10 bits. To further improve the rate, Wi-Fi 7 introduces 4096-QAM so that eachmodulation symbol can carry 12 bits. With the same coding scheme, 4096-QAM in Wi-Fi 7 canachieve a 20% rate increase compared with 1024-QAM in Wi-Fi 6.

Multi-Link Mechanism

To efficiently utilize all available spectrum resources, the TGbe defines multi-link aggregationtechnologies, including the MAC architecture of enhanced multi-link aggregation, multi-link channelaccess, and multi-link transmission.

Multi-AP Coordination

In the current 802.11 protocol framework, there is not much coordination between APs. CommonWLAN functions, such as automatic radio calibration and smart roaming, are vendor-defined features.Multi-AP coordination aims to optimize channel selection and adjust loads between APs to achieve efficient utilization and balanced allocation of radio resources. Coordinated scheduling between multiple APs in Wi-Fi 7 involves inter-cell coordinated planning in the time and frequency domains, inter-cell interference coordination, and distributed MIMO. This reduces interference between APs and greatly improves the utilization of air interface resources.

Multi-AP coordination can be implemented in various methods, such as coordinated orthogonalfrequency division multiple access (C-OFDMA), coordinated spatial reuse (CSR), coordinatedbeamforming (CBF), and joint transmission (JXT).

Wi-Fi 7 Application Scenarios

New functions introduced by Wi-Fi 7 will significantly improve the data transmission rate and deliver lower latency. These highlights will contribute to the development of emerging applications:

Video stream
Video/Voice conference
Online gaming
Real-time collaboration
Cloud/Edge computing
Industrial IoT
Immersive AR/VR
Interactive telemedicine

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