Arduino Pro 4G GNSS Module Global
The effortless way to revolutionize your connectivity experience, with the fourth generation of broadband cellular network technology.
Overview
The cutting-edge Arduino Pro 4G Module allows you to expand your connectivity capabilities to unlock the full potential of your projects – without changing your Portenta board.
Powered by a robust Cat.4 modem from Quectel, it ensures fast data throughput and high bandwidths for quick data download and upload, in even the most remote locations. Secure data transfer and long-range coverage make it ideal for challenging environments.
Developed in the widely adopted mini PCIe form-factor, it easily integrates into a wide variety of projects.
In addition to reliable 4G connectivity across the world, the Arduino Pro 4G Module guarantees compatibility with 2G and 3G networks.
Key benefits include:
- Add 4G connectivity and positioning to the Portenta family
- Guarantee reliable and quick data download and upload even in remote locations
- Enable long range coverage, both indoors and outdoors
- Change connectivity capabilities without changing the board
- Reduce infrastructure investments with respect to other traditional solutions
- Install your products in multiple countries leveraging the global network coverage
- Send SMS and set-up real-time notifications in case of alarms
- Take advantage of the widely adopted Mini PCIe form factor
Applications
The Arduino Pro 4G Module allows you to connect to your devices via Arduino Cloud, making error analysis, firmware updates, and remote maintenance easier and faster than ever. Have a project on a bigger scale? The Arduino Pro 4G Module can help you monitor an entire building’s safety conditions: regularly check on deformation, temperature, moisture levels, and other critical parameters without having to travel to the location itself – and take timely action when needed.
Tech specs
| Product Name | Arduino Pro 4G Module GNSS Global | |
| Region | Global | |
| Modem | Quectel EG25-G | |
| Chipset | MDM9x07 (Qualcomm) | |
| LTE | LTE CAT4 4G with 2G/3G fallback | |
| GNSS | GPS, GLONASS, BeiDou (COMPASS), Galileo and QZSS | |
| Interfaces |
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*No antenna included. Please refer to this page if you would like to get a compatible antenna
Conformities
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Get Inspired
As robotics advance, the future could certainly involve humans and automated elements working together as a team. The question then becomes, how do you design such an interaction? A team of researchers from Purdue University attempt to provide a solution with their GhostAR system. The setup records human movements for playback later in augmented reality, while a robotic partner is programmed to work around a “ghost” avatar. This enables a user to plan out how to collaborate with the robot and work out kinks before actually performing a task. GhostAR's hardware includes an Oculus Rift headset and IR LED tracking, along with actual robots used in development. Simulation hardware consists of a six-axis Tinkerkit Braccio robot, as well as an Arduino-controlled omni-wheel base that can mount either a robot an arm or a camera as needed. More information on the project can be found in the team's research paper. With GhostX, whatever plan a user makes with the ghost form of the robot while wearing an augmented reality head mount is communicated to the real robot through a cloud connection – allowing both the user and robot to know what the other is doing as they perform a task.The system also allows the user plan a task directly in time and space and without any programming knowledge.First, the user acts out the human part of the task to be completed with a robot. The system then captures the human’s behavior and displays it to the user as an avatar ghost, representing the user’s presence in time and space.Using the human ghost as a time-space reference, the user programs the robot via its own ghost to match up with the human’s role. The user and robot then perform the task as their ghosts did.
