
Module wireless technology is a type of communication system that enables devices to connect and exchange data without the use of cables or wires.
It uses radio waves to transmit and receive data, allowing devices to communicate with each other over short or long distances.
Module wireless technology has several key components, including a transmitter, receiver, and antenna, which work together to enable communication.
The transmitter converts digital data into radio waves, which are then sent through the air to the receiver, where they are converted back into digital data.
Module wireless technology is used in a wide range of applications, including smart home devices, wearables, and industrial automation systems.
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What is Plug-and-Play?
Plug-and-play wireless modules are pre-programmed devices that execute wireless functions using simple ASCII text commands. They require minimal setup and are companion devices that send these commands using a UART interface to any MCU.
These modules are user-friendly and don't need complex coding or RF design, making them a great choice for projects with short development timelines.
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Benefits and Comparison

Plug-and-play modules offer several advantages, including ease of use, which makes them accessible even to those with limited programming skills. They come pre-programmed and are controlled using simple ASCII text commands.
These modules significantly shorten the development and certification process by eliminating the need for complex coding and RF design. They're perfect for projects with short development timelines.
In contrast to regular modules, plug-and-play modules don't require additional coding and setup. They're ready to use right out of the box.
Both plug-and-play and regular modules can reduce development time and cost, but plug-and-play modules offer the added benefit of a simplified control interface. This makes them ideal for IoT designers looking to bring products to market quickly with minimal technical resources.
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Connectivity Options
We offer a range of wireless connectivity options to suit your needs.
You can choose from Bluetooth modules, Wi-Fi to Cloud modules, or plug-and-play wireless modules that simplify wireless design.
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Our Bluetooth modules, such as the RNBD and RN4871, make it easy to add Bluetooth Low Energy (LE) to your design. Simply power on and connect.
Here are some key features of our Bluetooth modules:
Our Wi-Fi to Cloud modules, such as the RNWF, require little network stack or programming knowledge, making it easy to connect to the cloud. They also include features that complement any IoT application.
Bluetooth
Bluetooth technology has come a long way, and it's now easier than ever to integrate it into your product design. Our plug-and-play wireless module portfolio takes ease of use further, featuring easy-to-control devices with simple text commands.
These plug-and-play devices come with an antenna for optimized performance, are globally regulatory certified, and easy to connect to the microcontroller (MCU) in your design.
Our Bluetooth modules, such as the RNBD and RN4871, are effortless to work with, requiring only powering on and connecting.
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Here are some key features of our Bluetooth modules:
- Support Bluetooth V5.2
- Compatible with Bluetooth V2.1 + EDR
- Supports WLAN and Bluetooth coexistence
- Supports Bluetooth Low Energy (BLE) mode
- Supports all Bluetooth packet types at Basic Rate (BR) and Enhanced Data Rate (EDR)
To connect a Bluetooth speaker, you'll need to follow these steps: test the Bluetooth module and check the Bluetooth device, detect Bluetooth devices, and test Bluetooth function.
Wi-Fi to Cloud
Wi-Fi to Cloud modules are a game-changer for IoT applications. They require little network stack or programming knowledge, making it a snap to connect to the cloud.
Our RNWF plug-and-play Wi-Fi modules are designed with ease of use in mind. They include features that complement any IoT application and make it a breeze to get started.
These modules are plug-and-play, meaning they're easy to connect to your design. They also include an antenna for optimized performance and are global regulatory certified.
If you're looking to simplify your wireless design, consider using our plug-and-play Wi-Fi modules. They're a great option for IoT applications that require secure, reliable connectivity.
Here are some key features of our Wi-Fi modules:
- Plug-and-play design for easy integration
- Antenna for optimized performance
- Global regulatory certified
- Support for IEEE 802.11 a/b/g/n/ac/ax wireless LANs
Product Information
The xGM210P Wireless Module Starter Kit is a powerful development platform that includes all the hardware and support tools needed to begin prototyping wireless applications. This kit is perfect for those who want to create Bluetooth, Zigbee, Thread, or multi-protocol connectivity and networking solutions.
The kit comes with two wireless starter kit main boards, two xGM210PB32 wireless gecko module radio boards (+20 dBm), and two xGM210PB22 wireless gecko module radio boards (+10 dBm). It also includes a 10-pin ribbon cable.
One of the key features of this kit is its modular starter kit architecture, which uses common main boards and product-specific radio boards. This makes it easy to develop mesh networking applications.
The kit also has a USB interface, Ethernet interface, and 20-pin expansion header. It also features an on-board debugger supporting SWD, JTAG, and C2, as well as a Packet Trace Interface (PTI), virtual COM port (VCOM), and Advanced Energy Monitor (AEM).
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Some of the software tools that come with this kit include Energy Profiler, Network Analyzer, AppBuilder, and BGTool.
The Wixel can be used as a wireless serial port, turning a single Wixel into a USB-to-serial adapter and a pair of Wixels into a wireless USB/TTL serial link. This can be useful for communication between two microcontrollers or between a PC and a microcontroller.
Here are some key features of the Wixel's wireless serial app:
This wireless serial app is perfect for applications that require wireless communication, such as controlling a robot from a computer or monitoring a robot's status remotely.
Technical Details
The Radxa Wireless Module A8 is a compact device that's perfect for embedding in small electronics projects. It measures 22mm x 30mm x 2.25mm in size.
The module's operating temperature range is quite broad, spanning from 0 to +70°C. This means it can handle a wide range of environments, from the freezing cold to the scorching hot.
Here are some key technical details about the module:
The module's weight is a mere 3 grams, making it incredibly lightweight and easy to integrate into your projects.
EMC and Antenna Testing
EMC and Antenna Testing is a crucial step in the development of wireless products. Ezurio is an accredited EMC Test Facility that specializes in wireless product testing and approvals for Worldwide Certifications.
Ezurio offers a one-stop-shop solution for modules, custom antennas, and EMC testing, which can drastically reduce your risk and time to market. This means you can get all the necessary testing and approvals in one place, saving you time and hassle.
Their on-site EMC testing approvals are a significant advantage, allowing you to get certified quickly and efficiently. Ezurio's EMC test engineers are also available to advise and assist customers throughout the certification process.
Here are some of the key benefits of working with Ezurio's EMC and Antenna Testing services:
- Full product certifications for custom antennas
- Onsite EMC Test engineers to better advise and help customers with the EMC certification process
Specifications
The Radxa Wireless Module A8 is a compact device that measures 22mm x 30mm x 2.25mm.
Its operating temperature range is quite broad, spanning from 0 to +70°C. This suggests that the module can function well in a variety of environments.
The module's weight is a mere 3g, making it an excellent choice for applications where size and weight are critical factors.
Here's a quick rundown of the module's dimensions and form factor:
The module's power consumption is also noteworthy, with an operating current of up to approximately 30 mA. This is relatively low, especially when compared to other devices that require significantly more power.
Id Table
The id table is a crucial component in HTML, and it's used to define the identity of an element.
The id attribute is unique to each element, meaning no two elements can have the same id.
In the HTML structure section, we learned that the id attribute is used to identify an element, making it easier to target with CSS or JavaScript.
The id attribute can be used to create a unique identifier for an element, which can be useful for accessibility purposes.
For example, in the HTML structure section, we saw how the id attribute was used to create a unique identifier for the header element.
Take a look at this: Mobile Equipment Identifier
Installation and Usage
Installation is often a straightforward process. For products that support the A8 module, Radxa has integrated the corresponding driver in the official image, allowing you to simply insert the wireless module into the M.2 E Key connector to use it.
If you're using the official Debian system of ROCK 5B, the installation process is similar to what's shown in the figure. You can easily follow the steps to get up and running.
To access advanced tools and software, you'll need to download and install Simplicity Studio Version 5. This will give you access to precompiled demos, application notes, and examples, as well as energy profiling to optimize your MCU application.
Here are some software packages you can download and install:
- Bluetooth SDK
- Bluetooth Mesh ADK and SDK
- EmberZNet (Zigbee) SDK
- Flex SDK: Connect Networking Stack
- Flex SDK: Radio Abstraction Interface Layer (RAIL)
Ezurio’s wireless modules are designed to simplify connectivity in various settings. They enable secure, reliable connectivity in harsh RF environments, and are certified with a large selection of antenna types to ensure high performance in your application.
Installation
Installation is a crucial step in getting started with your project. You'll need to download and install the necessary software to begin.
For some products, you may need to plug in your kit and launch the software. This is the case with Simplicity Studio Version 5, where you'll need to open the package manager and select the desired software stacks to download.
Some of the available software stacks include Bluetooth SDK, Bluetooth Mesh ADK and SDK, EmberZNet (Zigbee) SDK, Flex SDK: Connect Networking Stack, and Flex SDK: Radio Abstraction Interface Layer (RAIL). You can choose the ones that suit your needs.
You can also use the package manager to regularly check for updates. This will ensure that your software is always up-to-date and running smoothly.
For products that support the A8 module, you can directly insert the wireless module into the M.2 E Key connector to use it. This is a convenient feature that saves you time and effort.
Here are some software stacks you may need to download:
- Bluetooth SDK
- Bluetooth Mesh ADK and SDK
- EmberZNet (Zigbee) SDK
- Flex SDK: Connect Networking Stack
- Flex SDK: Radio Abstraction Interface Layer (RAIL)
Wi Fi Usage
To enable Wi-Fi on your Linux system, you need to open the terminal and enter the following command: sudo. This is the first time you'll be using the sudo command, so you'll be prompted to enter the password of your login account.
To scan for available Wi-Fi networks, simply enter the command to scan Wi-Fi.
Connecting to a Wi-Fi network is straightforward: enter the command to connect to the Wi-Fi network, replacing wifi_name with the name (SSID) of the network you want to join and wifi_password with the network's password.
Here are the commands you'll need to use:
- sudo
- Command to scan Wi-Fi
- Command to connect to the Wi-Fi network (replace wifi_name and wifi_password with the actual values)
Bluetooth Usage
Bluetooth usage is a breeze with the right setup. To test the Bluetooth module, check the Bluetooth device and follow these steps.
First, detect Bluetooth devices using the command `sudo bluetoothctl`. This will list all available devices, including your Bluetooth speaker.
To connect a Bluetooth speaker, install the necessary packages, including `pulseaudio-module-bluetooth` and `pulseaudio`, using `sudo apt-get install -y`. Then, run `pulseaudio` and `sudo pulseaudio --start` to enable Bluetooth support.
For another approach, see: Smart Speaker
Next, use `bluetoothctl` to connect to your Bluetooth speaker. Start by setting the default agent with `[bluetooth]# default-agent`, then power on the Bluetooth module with `[bluetooth]# power on`. Scan for available devices with `[bluetooth]# scan on`, and trust your speaker's MAC address with `[bluetooth]# trust 41:42:1A:8D:A9:65`. Finally, pair and connect to your speaker with `[bluetooth]# pair 41:42:1A:8D:A9:65` and `[bluetooth]# connect 41:42:1A:8D:A9:65`.
Here are the supported Bluetooth versions and features:
- Bluetooth V5.2
- Bluetooth V2.1 + EDR
- WLAN and Bluetooth coexistence
- Bluetooth Low Energy (BLE) mode
- All Bluetooth packet types at Basic Rate (BR) and Enhanced Data Rate (EDR)
Case Studies and Support
Ezurio serves a wide range of industries and applications for antennas, IoT Platforms, and embedded modules. They provide successful, innovative wireless solutions to companies that need to deliver connectivity in complex environments.
Ezurio's expertise in wireless solutions is evident in their ability to offer customized solutions to meet the unique needs of each client. This approach has helped them build a reputation for reliability and efficiency.
Their case studies showcase the versatility of Ezurio's products and services, from IoT Platforms to embedded modules. These solutions have been successfully implemented in various industries, demonstrating Ezurio's commitment to delivering high-quality wireless connectivity.
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Hardware and Peripherals

The Wixel operates at a 3.3 V logic level, and its I/O lines are not 5V-tolerant. You must use level-shifters, diodes, or voltage dividers to connect the Wixel to outputs from 5V systems.
The Wixel is available in two versions: a fully-assembled version with header pins soldered in, and a partial kit version that requires you to solder the header pins yourself. A 25×1 straight 0.1" male header strip is included in the partial kit version.
The Wixel is a versatile module that can be used as a wireless serial port, allowing you to remotely monitor or control a robot from a computer. Using an RF bit rate of 350 kbps, the serial app is capable of transmitting or receiving up to 10 KB of data per second and can reach a range of approximately 50 feet (under typical conditions indoors).
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Included Hardware
The included hardware can make or break your project. The Wixel is available in two versions, which is great for flexibility.

The fully-assembled version ships with its header pins soldered in, so you can connect it to your project right away without any extra work.
This version is perfect for those who want a hassle-free experience. The partial kit version, on the other hand, ships with everything installed except the header pins, which is ideal for compact installations.
A 25×1 straight 0.1" male header strip is included with the partial kit version, giving you flexibility in choice of connectors.
Here's a comparison of the two versions:
Wixel Pinout and Peripherals
The Wixel operates at a 3.3 V logic level, which means you'll need to be careful when connecting it to other devices.
You'll need to use level-shifters, diodes, or voltage dividers to connect the Wixel to outputs from 5V systems, as its I/O lines are not 5V-tolerant.
Our bidirectional logic level shifter works well for this, so it's a good option to consider if you're looking for a reliable solution.
The Wixel's specific voltage requirements mean you'll need to plan ahead and choose the right components to ensure a smooth connection.
Main Features and Services
Our wireless modules are designed to simplify connectivity in various settings, including medical, industrial, and commercial environments. They offer secure and reliable connectivity even in the harshest RF environments.
Ezurio's modules are certified with a large selection of antenna types, ensuring the highest performance in your application and avoiding costly EMC radio certifications. This is particularly beneficial for projects with short development timelines.
The Wixel module features a 2.4 GHz Radio with 256 available channels that can be configured dynamically, making it a versatile choice for various applications. It also boasts a full-speed USB interface and programmability through a USB bootloader.
Here are the key features of our wireless modules:
- Full-speed USB
- 2.4 GHz Radio with 256 available channels
- Programmable through USB bootloader
- Pre-compiled, open-source apps available
- Wixel SDK for developing your own applications
- 0.1" pin spacing for compatibility with standard breadboards
- 3 indicator LEDs
- 15 user I/O lines, including 6 analog inputs and 7 timer channels
- 4 KB of RAM and 29 KB of application program memory
Our plug-and-play modules come pre-programmed and are controlled using simple ASCII text commands, making them accessible even to those with limited programming skills. This ease of use is a significant advantage for projects with short development timelines.
Featured Images: pexels.com


