WisGate Edge PRO
Take IoT further than ever with Arduino’s industrial-grade gateways for LoRaWAN® connectivity, designed to easily bring secure and reliable connectivity to your outdoor projects.
Overview
The Arduino Pro WisGate Edge Pro powered by RAKwireless™ ensures secure and reliable connectivity for a wide range of professional applications and is suitable for medium-sized to wide area coverage in industrial environments and remote regions. Its high transmission power and 2x fiberglass antennas with 5dBi gain provide extensive coverage in open environments, making it the perfect fit for IoT commercial outdoor deployment – required for example for parking sensors, remote fleet management, livestock tracking and geofencing, and soil monitoring solutions that maximize crops’ yield.
It offers an intuitive out-of-the-box user experience for easy setup and diagnostics, as well as exhaustive tutorials and technical documentation, and includes an on-pole and DIN-rail installation kit.
Complementing the MKR and Portenta SOM boards, the Arduino IoT Cloud platform and the other LoRa® components in the Arduino ecosystem, WisGate Edge Pro enables you to create and deploy complete and industrialized IoT/IIoT and I4.0 applications – wrapping both RAKwireless™’s specific expertise and Arduino’s smooth user experience into high-quality solutions that connect your LoRa® devices better than ever, from smart cities to smart agriculture.
Key benefits include:
- Ideal for IoT commercial outdoor deployment
- High transmission power and 2x fiberglass antennas with 5dBi gain
- Limited cabling for installation thanks to Power over Ethernet (POE)
- Kit for installation on pole and DIN-rail with included adapter
- Rapid setup and diagnostics, backup and data logging thanks to SD card slot
- Secure Ethernet, Wi-Fi or LTE connectivity
- WisGateOS, powered by RAKwireless™, based on open source OpenWRT and fully customizable
- Ideal to implement private networks directly connected to cloud platforms; compatible with public networks
- Comprehensive technical documentation by RAKwireless™
Looking for an indoor gateway for LoRaWAN® connectivity?
Check out WisGate Edge Lite 2, designed especially for applications needing deep indoor coverage.
Need Help?
Check the Arduino Forum for questions about the Arduino Language, or how to make your own Projects with Arduino. If you need any help with your product, please get in touch with the official Arduino User Support as explained in our Contact Us page.
Warranty
You can find your board warranty information here.
Tech specs
Processor | MT7628, DDR2 RAM 128 MB 32 MB flash memory 2x SX1303 LoRa mPCIe cards |
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Interfaces |
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Connectivity |
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Dimensions | 240 x 240 x 80 mm |
Software Features | OpenVPN, Ping Watch Dog, SSH2, NTP, Router module NAT, Firewall, Wi-Fi AP mode, DHCP Server/Client, MQTT/S Bridging, LoRa® Data Logger, LoRa® Statistics, LoRa® Frame Filtering, GPS |
Power supply |
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Antennas |
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Certifications | CE, FCC, ACMA/RCM, UKCA IP 67 rating |
Operating Temperatures | -30° C to +55° C (-22° F to 131°F) |
Conformities
Learn more
Get Inspired
As Jallson Suryo discusses in his project, adding voice controls to our appliances typically involves an internet connection and a smart assistant device such as Amazon Alexa or Google Assistant. This means extra latency, security concerns, and increased expenses due to the additional hardware and bandwidth requirements. This is why he created a prototype based on an Arduino Nicla Voice that can provide power for up to four outlets using just a voice command. Suryo gathered a dataset by repeating the words “one," “two," “three," “four," “on," and “off” into his phone and then uploaded the recordings to an Edge Impulse project. From here, he split the files into individual words before rebalancing his dataset to ensure each label was equally represented. The classifier model was trained for keyword spotting and used Syntiant NDP120-optimal settings for voice to yield an accuracy of around 80%. Apart from the Nicla Voice, Suryo incorporated a Pro Micro board to handle switching the bank of relays on or off. When the Nicla Voice detects the relay number, such as “one” or “three," it then waits until the follow-up “on” or “off” keyword is detected. With both the number and state now known, it sends an I2C transmission to the accompanying Pro Micro which decodes the command and switches the correct relay. To see more about this voice-controlled power strip, be sure to check out Suryo’s Edge Impulse tutorial.