One of the challenges in starting a new IoT project is the question of what connectivity to use. Depending on the nature of a project, there are several wired and wireless connectivity options that can be used to power a project and ensure it’s a success.
We have WiFi, Bluetooth, Zigbee, Zwave, LoRa, ZigFox, Thread, NB-IoT, 3G/4G, and others. You can use from anyone, but which one to use is another thing because most development board only support 1 or 2 of those.
Well, with the introduction of the Pitaya Go, you don’t have to worry so much about that decision. The Pitaya Go is an IoT development platform with multiprotocol wireless connectivity built-in.
The Pitaya Go is based on the Nordic’s high-end multiprotocol SoC nRF52840 and the Microchip’s extremely low power Wi-Fi network controller ATWINC1500B. The nRF52840 SoC is the most advanced member of the nRF52 Series SoC family, and it is fully multiprotocol capable with full protocol concurrency. It has protocol support for Bluetooth 5, Bluetooth mesh, Thread, Zigbee, 802.15.4, ANT and 2.4 GHz proprietary stacks.
So with the Pitaya Go, it is possible to run 2 or more IoT connectivity protocol concurrently thanks to the dynamic switching multiprotocol solution in the nRF528480 SoC. A useful application will be from transitioning from using the Bluetooth in a Smartphone to control or monitor Thread/ZigBee based sensor nodes. All you will need is this case is to have one Pitaya Go acting as the network gateway. See below video for application possibility.
Pitaya Go is designed to be standalone. It comes with a battery charger and a power path manager. It features a 64Mbit ultra low power QSPI Flash memory, NFC-A Tag PCB Antenna, RGB LED (re-programmable), button, and GPIO through an expandable header socket. It also comes with a USB-C connector.
Pitaya Go offers a complete solution for wireless connectivity with IEEE 802.11 b/g/n WiFi 4, Bluetooth 5, Thread and Zigbee, that is specifically designed for the IoT. With Pitaya Go, I doubt if you will need another IoT board again. Maybe the addition of LoRa or any other LPWAN technology will be the ultimate bombshell.
- Nordic Semiconductor nRF52840 SoC
- 64 MHz Arm Cortex-M4 with FPU
- 1 MB Flash + 256 KB RAM
- Bluetooth 5, Bluetooth mesh, Thread, Zigbee, 802.15.4, ANT and 2.4 GHz proprietary
- Arm TrustZone Cryptocell 310 Security Subsystem
- Integrated USB 2.0 Full-speed Controller
- QSPI/SPI/TWI/I²S/PDM/QDEC/ADC support
- Integrated NFC-A Tag
- Microchip ATWINC1500B Wi-Fi Network Controller
- Shipped with the latest firmware 19.6.1
- IEEE 802.11 b/g/n 20 MHz (1×1) Solution
- Extreme low power with Shutdown Control
- On-Chip Network Stack to Offload MCU
- Supports Soft-AP
- Security protocols supported: WPA/WPA2 Personal, TLS/SSL
- Enterprise Security with WPA/WPA2 (802.11x)
- Network services: DHCP, DNS, TCP/IP (IPv4), UDP, HTTP, HTTPS, MQTT, etc.
- 64Mbit ultra-low-power QSPI Flash Memory
- Integrated Li-Po Battery Charger with Power Path Management
- Additional NFC-A Tag PCB Antenna
- User-programmable RGB LED and Buttons
- Dual Wi-Fi/Bluetooth 2.4G Chip Antennas
- Reversible USB-C Connector
- Li-Po Battery Connector
- Easily expandable dual 14-Pin Header Sockets
- Measures 2.4″ x 1.0″ x 0.3″ (60.96mm x 25.4mm x 7.6mm)
The Makediary team has also released some exciting demo:
- Web Device CLI – a web-based terminal which can communicate with Pitaya Go via WebBluetooth. The principal aims of Web Device CLI are to help to get started quickly.
- Weather Client – Shows how to get weather information from openweathermap.org using Pitaya Go
A free wanderer who is highly interested in technology, especially those concerned with saving and solving human problems. He could be nerdy sometimes, in that state he is digesting topics related to deep learning, machine learning, natural language processing, internet of things, smart cities, embedded systems, mobile robots, precision agriculture, and lastly machine vision.
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