Wi-Fi Kits & Boards
Our Wi-Fi modules and SoCs are designed specifically for the IoT, where RF performance, low power consumption, and fast time-to-market are critical. Created to be scalable and compatible with all major ecosystems and emerging standards, our secure Wi-Fi solutions are also designed to simplify coexistence.
The Future of Wi-Fi in Low-Power IoT Devices
Low-Power Wi-Fi for Industrial IoT Connectivity
Frequency Bands | Application MCU | Onboard IP Support | Key Peripherals | Flash (kB) | RAM (kB) | |
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RS9116 Wi-Fi NCP Modules
RS9116 Wi-Fi NCP Modules
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Dual Band (2.4/5), Single Band (2.4) | UART, SPI, SDIO, USB CDC | — | — | ||
RS9116 Wi-Fi Transceiver Modules
RS9116 Wi-Fi Transceiver Modules
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Dual Band (2.4/5), Single Band (2.4) | SDIO, USB HS | — | — | ||
RS9116 Wi-Fi NCP SoCs
RS9116 Wi-Fi NCP SoCs
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Single Band (2.4) | UART, SPI, SDIO, USB CDC | — | — | ||
RS9116 Wi-Fi Transceiver SoCs
RS9116 Wi-Fi Transceiver SoCs
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Single Band (2.4) | SDIO, USB HS | — | — | ||
WF200 Series 2 Wi-Fi Transceiver Modules
WFM200 Wi-Fi Transceiver Modules (Series 2)
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Single Band (2.4) | SDIO/SPI | — | — | ||
WF200 Series 2 Wi-Fi Transceiver SoCs
Wi-Fi Transceiver SoCs (Series 2)
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Single Band (2.4) | SDIO, SPI | — | — | ||
WGM160 Series 1 Wi-Fi Modules
WGM160 Wi-Fi Modules (Series 1)
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Single Band (2.4) | UART, Ethernet, USB | 2048 | 512 | ||
RS9113 Wi-Fi NCP Modules
RS9113 Wi-Fi NCP Modules
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Dual Band (2.4/5), Single Band (2.4) | SPI, UART, USB-CDC | — | — | ||
RS9113 Wi-Fi Transceiver Modules
RS9113 Wi-Fi Transceiver Modules
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Dual Band (2.4/5), Single Band (2.4) | SPI, UART, USB-CDC | — | — | ||
WGM110 Series 1 Wi-Fi Modules
WGM110 Wi-Fi Modules (Series 1)
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Single Band (2.4) | UART, SPI, USB | 1024 | 128 | ||
Bluegiga Legacy Wi-Fi Modules
Bluegiga Legacy Wi-Fi Modules
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Single Band (2.4) | (SDIO/SPI), (UART/I2C) | 512 | 128 | ||
Wireless Xpress AMW0x7
Wireless Xpress AMW0x7 Modules
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Single Band (2.4) | (UART/SPI/GPIO/ADC/PWM) | 2048 | 96 |
Learn how our RS9116 Wi-Fi Transceiver helped Kudelski IoT develop RecovR, a low-power GPS locator with extended battery life that's providing lot management for dealerships as well as reliable theft recovery for consumers.
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The RS9116 Single Band Evaluation Board supports the RS9116 family of SoCs and modules by providing a comprehensive multi-protocol wireless connectivity solution including 802.11 b/g/n (2.4 GHz), dual-mode Bluetooth® 5.
Our Wi-Fi solutions are designed specifically for the IoT, where robust RF performance, low power consumption, easy application development and fast time-to-market are key requirements.
WGM110 Wi-Fi SDK | The WGM110 Wi-Fi Software contains a complete Software Development Kit for developing Wi-Fi IoT applications. It includes all of the software tools needed to deliver your application on time. Take advantage of the free SDK, flexible and easy-to-use APIs and device firmware upgrades capabilities. | |
Bluegiga Legacy Wi-Fi Software Stack | The Bluegiga Wi-Fi Software is an embedded 802.11 MAC and IPv4 stack targeted for Bluegiga Legacy WF121 Wi-Fi module. The software implements full 802.11 functionality, WPA2, WPA, WEP, and WPS encryption protocols and various IP-based protocols, such as TCP, UDP, DHCP, DNS, ICMP, and HTTP. The Wi-Fi software also supports the 802.11 access point and HTTP server functionality for the easy configurations and direct connections with phones, tablets, and PCs. | |
Linux and RTOS-based Wi-Fi SDKs | Wi-Fi developers using Linux or RTOS-based host MCUs with products such as the WF200, WFM200S, and WGM160P can find support materials, drivers, and software repositories. | |
Wi-Fi + Bluetooth SDK | Wi-Fi+ BT Developers using Linux or bare-metal or RTOS based host MCUs with products such as the RS9116 ultra low power Wi-Fi+BT combo SoC and Modules can find support material, drivers and software repositories. |
IoT applications are often constrained by power, size, resources, and vulnerable to online and physical hacking. The challenge for IoT Wi-Fi is to deliver adequate performance while lowering power consumption, reducing MIPS requirements, and delivering high levels of security. Here you can learn more about some of the differentiating aspects of our IoT Wi-Fi solution.
IoT Device Security: What Designers Need to Know
Driving Wi-Fi Based Connectivity for Low-Power IoT Applications
Wi-Fi Trends & How Wi-Fi 6 Can Improve the IoT
Managing Coexistence Between Wi-Fi, Zigbee, Thread, and Bluetooth
Today's devices aren't just connecting to the Internet. Streaming music, tracking fitness data, and other functions require working across standards. Our portfolio features the only multithreaded MCU that provides four protocols running in parallel on the same die.
Secure Vault™ is an industry-leading suite of state-of-the-art security features that address escalating IoT threats, reducing the risk of ecosystem security breaches and the compromise of intellectual property or revenue loss from counterfeiting.
We offer the lowest power consumption Wi-Fi chip on the market, and the smallest, with a form-factor design of 4.6 x 7.9mm, along with the industry’s lowest power across transmit, receive and sleep modes.
Our devices have several advanced built in security features – including secure boot, secure link, and secure debug to protect devices, along with the capability to run industry standard encryption efficiently. In addition to online hacking, these features prevent physical hacking to make your end device more secure.
Coexistence is complex and Wi-Fi radio environments can be challenging, with access points overwhelming end nodes with interference on adjacent channels. Silicon Labs’ superior RF selectivity ensures reliable connectivity in environments with significant RF interference, maintaining high data.