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百度 武汉大学人民医院王高华教授、中南大学湘雅二医院赵靖平教授、南京医科大学附属脑科医院张宁教授和北京安定医院王传跃教授共同强调:精神分裂症起病多缓慢,逐渐进展,病程迁延。
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Robust and Secure Wi-Fi? Modules and SoCs
Which Wi-Fi Product Type is Right for Your Project?
- MCUs
- Plug-and-Play
- Network Controllers
- Link Controllers
Wi-Fi MCUs Provide Advanced Functionality
MCUs offer the most functionality by combining the capabilities of a microcontroller and a Wi-Fi module into a single integrated circuit. They provide the processing power and control capabilities necessary for managing and executing tasks, while also including Wi-Fi connectivity.
The Wi-Fi MCU chip is responsible for handling tasks such as data processing, storage and interacting with other peripherals, in addition to managing the Wi-Fi connection. It is commonly used in applications where a stand-alone device requires both processing capabilities and wireless connectivity, such as advanced IoT devices.
Wi-Fi Plug-and-Play Modules Are the Easiest Way to Connect to the Cloud
Because they include a built-in network stack, plug-and-play modules function like network controllers with one major difference: plug-and-play Wi-Fi modules allow the device to send simple text (ASCII) commands to any MCU over UART.
As the name implies, plug-and-play devices require little to no wireless expertise or user setup. These easy-to-use modules eliminate the need for complex code, RF design, and antenna optimization and shorten the regulatory certification process. In short, they are the easiest way to add Wi-Fi to your design and create a secure cloud connection.
Wi-Fi Network Controllers Offer a Single-Chip Connectivity Solution
In terms of functionality, network controllers sit in the middle. Unlike MCUs, they do not support data processing or peripherals but do provide a single-chip solution for Wi-Fi connectivity and network management.
Because they handle networking functions like discovery, channel selection, data routing and security, they are a good option for connecting to SAM or PIC? MCU with minimal resource requirements. Network controllers are a good fit for applications where you already have an MCU and want to add Wi-Fi connectivity.
Wi-Fi Link Controllers Allow for Greater Customization
When compared to other Wi-Fi devices, link controllers are the simplest. They send and receive Wi-Fi signals but unlike network controllers, they do not have an on-board network stack. The network control functions are handled by an attached MCU or microprocessor (MPU).
Don’t be fooled by their simplicity—link controllers are often faster and cost less than network controllers and MCUs. They are the easiest and most cost-effective option for adding Wi-Fi to an advanced processor.
Our link controllers support RTOS and Linux? Operating System (OS), making them a good fit for industrial applications that are cost sensitive or require high data transfer speeds.
Why Choose Microchip for Embedded Wi-Fi?
Wi-Fi Made Easy
When you choose one of our products, you get more than hardware. We also provide a comprehensive support including demos and design check services.
Robust Performance
Whether it’s noise, interference or temperature, our Wi-Fi products are built to thrive in all conditions. They are temperature tolerant and provide stable RF performance regardless of the conditions.
Interoperability
In our lab, we test our products for against hundreds of Access Points (APs), providing you with confidence that your product will work wherever it’s deployed.?Learn more about interoperability.
Security
We continuously improve our firmware with additional features and functions while keeping your designs protected from the latest security threats.
Interoperability
We test against hundreds of Access Points (APs), ensuring that your product will work wherever it’s deployed.
Demo and Evaluation Boards
This full featured development board supports system level prototyping and makes it easy to create peripheral rich designs with IoT cloud connectivity and voice control.
The RNWF02 Add-on Board makes it easy to add Wi-Fi??and connect your prototype to the cloud.. It is a low-cost platform that demonstrates the plug-and-play capability of the?RNWF02PC?module.
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The WINCS02 Add-on Board is?easy to set up and connect to the cloud through a SPI-to-Wi-Fi interface.?It demonstrates the capability of the WINCS02PC network controller module.
The WILCS02 Wi-Fi Link Controller M.2 Module Card adds is a compact platform for adding 802.11 b/g/n connectivity to a MPU using a M.2 interface over SDIO or SPI.
Design Resources
- Application Examples
- Other Resources
Plug-and-Play to Azure IoT Central
Create a secure connection to the platform in minutes using plug-and-play Wi-Fi modules. This demo shows how easy it can be to connect to the cloud.?
AIoT Solutions for Industry 4.0
Apply the concepts of Industry 4.0 and learn how to build a secure and reliable Wi-Fi sensor network that controls a robot.
Wi-Fi Bridging Solutions
Explore our Wi-Fi bridging solutions, turn-key application examples and the tools you need to get your prototype up and running.
Connect to the Cloud Using Matter Over Wi-Fi
This demo walks you through building an application that controls a light via smart phone. It also covers setting up voice control and a cloud connection.
Wi-Fi Resource Library
Browse our library of resources to learn Wi-Fi fundamentals and how to implement them with MPLAB??Harmony.
Wi-Fi Demos and Example Code
Explore our growing library of application examples and documentation and videos available through GitHub.
Design Check Service
Our MicroCHECK?design service is available at no charge to customers who have selected our wireless devices for their applications.