硬件
| Wi-SUN 认证 | MCU 内核 | 频率范围 (MHz) | 闪存 (kB) | RAM (kB) | 最大输出功率 (dBm) | GPIO | 安全 | 峰值 RX 灵敏度 | |
|---|---|---|---|---|---|---|---|---|---|
|
特别推荐
EFR32FG25 系列 2 SoC
1 GHz 以下无线 SoC
|
ARM Cortex-M33 | 470 928.1 | 1152、 1920 | 256、 512 | 16 | 36、 37 | AES-128 AES-256 ECC SHA-1 SHA-2 | -125.8 (在 @ 915 MHz 时为 4.8 kbps OQPSK) | |
|
EFR32FG28 系列 2 SoC
1 GHz 以下无线 + 2.4 GHz BLE SoC
|
ARM Cortex-M33 | 110 970 | 1024 | 128、 256 | 16 | 31、 49 | AES-128 AES-256 ECC SHA-1 SHA-2 | -124.8 (在 @ 915 MHz 时为 4.8 kbps OQPSK) | |
|
EFR32FG12 系列 1 Sub-GHz 和 2.4 GHz SoC
1 GHz 以下 和 2.4 GHz
|
ARM Cortex-M4 | 110 2483.5 | 512、 1024 | 64、 128、 256 | 19、 20 | 28、 31、 32、 46、 65 | AES-128 AES-256 ECC SHA-1 SHA-2 | -126.2 (600 bps GFSK 915 MHz) |
特色 Wi-SUN 资源
白皮书
Silicon Labs 博客
Silicon Labs 博客
Silicon Labs 博客
Silicon Labs 博客
技术讲座
套件和板
Wi-SUN 开发套件
EFR32FG25 Wi-SUN Pro 套件采用精心设计,能够支持基于亚 GHz WiSUN FAN 的无线物联网设备的开发。Pro 套件包括一个无线电板,为 EFR32FG25 无线 SoC 提供完整的参考设计,并具有涵盖 863-876 或 902-928 MHz 的 +16 dBm 匹配网络。每个 Wi-SUN Pro 套件都包含 3 完整主板和无线电板设置,支持进行多节点测试网络配置。
该无线 Pro 套件主板包含带数据包追踪接口和虚拟 COM 端口的板载 J-LINK 调试器,从而可通过连接的无线电板和外部硬件进行应用程序开发和调试。该主板还包含传感器和外围设备,可轻松展示 EFR32 众多功能中的某些功能。
Wi-SUN-PK6015A 863-876 MHz
EFR32FG25 Wi-SUN 863-876 MHz +16 dBm Pro 套件
EFR32FG25 Wi-SUN Pro 套件旨在支持基于 1 GHz 以下 Wi-SUN FAN 的无线物联网设备的开发。Wi-SUN-PK6015A Pro 套件包括一个无线电板,可为 EFR32FG25 无线 SoC 提供完整的参考设计,匹配网络为 +16 dBm,覆盖 863 至 876 MHz。
Wi-SUN-PK6016A 902-928 MHz
EFR32FG25 Wi-SUN 902-928 MHz +16 dBm Pro 套件
EFR32FG25 Wi-SUN Pro 套件旨在支持基于 1 GHz 以下 Wi-SUN FAN 的无线物联网设备的开发。Wi-SUN-PK6016A Pro 套件包括一个无线电板,可为 EFR32FG25 无线 SoC 提供完整的参考设计,匹配网络为 +16 dBm,覆盖 902 至 928 MHz。
Wi-SUN 兼容的无限电板
| 收音机板 | 频段 | 闪存 (kB) | 内存 (kB) | 输出功率 (dBm) | Wi-SUN | 蓝牙 5 | 蓝牙网状网络 | Zigbee | Thread | Sub-GHz | 2.4 GHz |
| xG28-RB4400C | 863-928 MHz | 1024 | 256 | 14 | ✔ | ✔ | ✔ | ||||
| xG28-RB4401C | 869*928 MHz | 1024 | 256 | 20 | ✔ | ✔ | ✔ | ||||
| FG25-RB4270B | 902 - 928 MHz | 1920 | 512 | 16 | ✔ | ✔ | |||||
| FG25-RB4271A | 863 - 876 MHz | 1920 | 512 | 16 | ✔ | ✔ | |||||
| FG25-RB4272A | 470 - 510 MHz | 1920 | 512 | 16 | ✔ | ✔ | |||||
| SLWRB4254A | 868 MHz | 1024 | 256 | 20 | ✔ | ✔ | ✔ | ||||
| SLWRB4253A | 915 MHz | 1024 | 256 | 20 | ✔ | ✔ | ✔ | ||||
| SLWRB4164A | 915 MHz | 1024 | 256 | 19 | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ |
| SLWRB4163A | 868 MHz | 1024 | 256 | 19 | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ |
| SLWRB4170A | 868 - 915 MHz | 1024 | 256 | 19 | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ |
软件和工具
Wi-SUN 软件开发
Silicon Labs Wi-SUN SDK 包括用于 Wi-SUN 终端节点和边界路由器的行业领先软件栈和开发工具。开发人员可以将 Silicon Labs 的软件和工具与 SoC 和 Wi-SUN 参考应用一起使用,从而快速并可靠地:
- 开发多节点网状网络
- 同时监控和调试多个节点
- 可视化分析系统性能
| Wi-SUN SDK |
|
应用
简化无线连接
智能计量
智慧城市
街道照明
了解有关 Wi-SUN 的信息
简介
什么是 Wi-SUN?
Wi-SUN (Wireless Smart Ubiquitous Network) is the leading IPv6 sub-GHzmesh technology, and a wireless communication standard that facilitatesseamless connectivity among smart-grid devices. It’s designed for large-scale outdoor IoT networks, such as wirelessmesh networks for Advanced Metering Infrastructure (AMI), home energy management, and distribution automation. Wi-SUN is based on theIEEE 802.15.4g standard for the physical layer and the IEEE 802.15.4e standard for the MAC layer, ensuring low power consumption andhigh scalability. The Wi-SUN Alliance is responsible for the development of thestandard and is a global ecosystem of member companies seeking toaccelerate the implementation of Field Area Networks (FAN) and Internet ofThings (IoT), and Silicon Labs is a proud WiSUN Alliance Promoter Member.
How Does Wi-SUN Work?
Wi-SUN (Wireless Smart Ubiquitous Network) utilizes mesh networking to enable long-range, low-power communication for smart city, utility, and industrial IoT applications. Operating on unlicensed Sub-GHz frequencies, it ensures scalability, reliability, and security. Wi-SUN supports extensive networks with self-healing and self-forming nodes, capable of covering wide areas with minimal infrastructure.
Why Partner with Silicon Labs for
Wi-SUN?
Silicon Labs has been at the forefront of Wi-SUN standard development for over a decade. With a rich history of Wi-SUN certified devices, a certified stack, comprehensive range of reference designs and development tools, Silicon Labs offers a one-stop-shop solution for all your smart city projects and more. The company received its first Wi-SUN certification in 4 月 20 日21 and recently achieved the FAN1.1 profile and PHY certifications. The FAN 1.1 certification includes high throughput OFDM support, underscoring Silicon Labs' commitment to advancing Wi-SUN technology and providing robust solutions for IoT applications.
Wi-SUN certifications
Wi-SUN FAN certificates are part of the certification program developed by the Wi-SUN Alliance to ensure devices meet specific standards for interoperability and security in Field Area Networks (FAN). These certificates verify that devices comply with the Wi-SUN FAN profile, which includes rigorous testing for communication protocols, security features, and performance. FAN 1.1 certificates are listed below for ready reference:
WiSUN FAN 1.1 Options
FAN 1.1 offers three main options:
- FAN 1.1 Core (aka FAN 1.0+): This builds upon FAN 1.0 withjust one new feature PAN - wide Information Elements,enabling broader information sharing across the network.
- FAN 1.1 High Performance (HP): This option caters to devices needing more processing power. It introduces Full Function Nodes (FFNs) for tasks requiring robust functionality and SUN-OFDM PHYs. Another notable feature that was introduced by FAN1.1 specification is ‘Mode Switch’ that means modulation and date rate negotiation between nodes is possible. Supported on both FG25 (FSK and OFDM) and FG28 (FSKonly)
- FAN 1.1 Low Energy (LE): This option focuses on minimizing power consumption for battery-powered devices. It introduces Limited Function Nodes (LFNs). FAN 1.1 LFN is supported by EFR32FG28 (FSK only) and EFR32FG25 (FSK & OFDM).
Works With 2024 点播
创新与实施相结合
2024 年标志着 Works With 的第 5 届年头,这是我们行业定义的技术物联网开发人员大会。本次活动的一个明确特点是汇集了行业专家、商业领袖以及推动我们行业未来的思想。完整的 2024 Works With 虚拟大会议程现在可点播观看。
