The LoPy4 is a compact quadruple network MicroPython enabled development board (LoRa, Sigfox, WiFi, Bluetooth). It’s the perfect enterprise-grade IoT platform for your connected Things. With the latest Espressif ESP32 chipset the LoPy4 offers a perfect combination of power, friendliness, and flexibility. Create and connect your things everywhere. Fast.
The LoPy4 can act as a LoRa nano gateway and a multi-bearer (LoRa, Sigfox, WiFi and BLE) development platform suitable for all LoRa and Sigfox networks around the globe. It is programmable with MicroPython and the Pymakr plugins for fast IoT application development, easy programming in-field and extra resilience with network failover. You can also configure the LoPy4 in raw LoRa mode to send packets directly between LoPy4’s. The best blend of speed to deployment and access to new LPWAN networks rolling out across Europe, USA, Africa and India. The LoPy4 is CE, FCC approved, LoRaWAN and Sigfox certified.
Some handy notes:
- The LoPy4 includes 1 year of Sigfox connectivity.
- Using the LoRa or Sigfox radio without the external antenna can lead to damage of the device and is therefore not recommended.
- Update the firmware before use (Pycom have made a great utility to easily manage firmware updates)
If you are purchasing the LoPy4 and wish to connect via USB to your computer, you will also need to purchase either the Expansion Board, Pysense or Pytrack.
- Powerful CPU, BLE and state of the art WiFi radio
- Can also double up as Nano LoRa gateway
- MicroPython enabled
- Fits in a standard breadboard (with headers)
- Ultra-low power usage: a fraction compared to other connected micro controllers
- Espressif ESP32 chipset
- Dual processor + WiFi radio System on chip
- Network processor handles the WiFi connectivity and the IPv6 stack
- ain processor is entirely free to run the user application
- An extra ULP-coprocessor that can monitor GPIOs, the ADC channels and control most of the internal peripherals during deep-sleep mode while only consuming 25uA
Sigfox Operating Frequencies
- RCZ1 – 868MHz (Europe)
- RCZ2 – 902MHz (US, Canada and Mexico)
- RCZ3 – (Japan and Korea)
- RCZ4 – 920-922MHz (ANZ, Latin America and S-E Asia)
- Class 0 device. Maximum Tx power:
- +14dBm (Europe)
- +20dBm (America)
- +20dBm (Australia and New Zealand)
- Node range: Up to 50km
- Sigfox certified
- Semtech LoRa transceiver SX1276
- LoRaWAN stack
- Class A and C devices
LoRa Operating Frequencies
- 868 MHz (Europe) at +14dBm maximum
- 915 MHz (North and South America, Australia and New Zealand) at +20dBm maximum
- 433 MHz (Europe) at +10dBm maximum
- 470 – 510 MHz (China) at +14dBm maximum
LoRa Range Specification
- Node range: Up to 40km
- Nano-gateway: Up to 22km
- Nano-gateway capacity: Up to 100 nodes
- 2 x UART, SPI, 2 x I2C, I2S, micro SD card
- Analog channels: 8×12 bit ADCs
- Timers: 4×16 bit with PWM and input capture
- DMA on all peripherals
- GPIO: Up to 24
Security & Certifications
- SSL/TLS support
- WPA Enterprise security
- FCC – 2AJMTLOPY4R
- CE 0700
- RAM: 4MB
- External flash: 8MB
- Hardware floating point acceleration
- Python multi-threading
Hash / encryption
- SHA, MD5, DES, AES
- 802.1b/g/n 16mbps
- Low energy and classic
- Running at 32KHz
- Input: 3.3V – 5.5V
- 3v3 output capable of sourcing up to 400mA
- WiFi: 12mA in active mode, 5uA in standby
- LoRa: 15mA in active mode, 1-uA in standby
- Sigfox (Europe): 12mA in Rx mode, 42mA in Tx mode and 0.5uA in standby
- Sigfox (Australia, New Zealand and South America): 12mA in Rx mode, 120 mA in Tx mode and 0.5uA in standby
- 55mm x 20mm x 3.5mm (Without Headers)
This product is listed in:
Documentation and Resources:
- How to Build Internet-Connected Electronics Projects
What do we mean when we talk about the "Internet of Things"? Mostly we're talking about tiny computers that have access to the internet and do some useful work. Unlike the computers we're used to holding in our hands, they don't have a touchscreen an...
- WS2812 / NeoPixel Addressable LEDs: Pycom Quickstart Guide
Sometimes all a good Pycom project needs is some colourful lights! This tutorial demonstrates how to control WS2812 LEDs with the Pycom Wipy and Lopy4. WS2812 or WS2812B LEDs (otherwise known as NeoPixels) are the most commonly used RGB LEDs on ...
- Temperature Sensing with the TMP36 and Pycom
The TMP36 is a low cost, easy to use sensor that fits well with any project. With the TMP36, adding temperature sensing to your Pycom project is easy! In this tutorial, we will use the Pycom Lopy4, and send our measured data to The Things Network via...
- Light Sensing with an LDR and Pycom
One of the simplest sensors in any makers toolkit is a light sensor or LDR. An LDR works by changing its resistance from 1k ohm to 10K ohm depending on how much light is striking it. In this tutorial, we will show you how to use one with a Pycom Lopy...
- Ultrasonic Sensing with Pycom
One of the most common sensors in any makers toolbox is the HC-SR04 Ultrasonic Rangefinder. They are an easy to use solution for detecting the proximity of objects up to 6m away! They work best in the 1-2 meter range though. In this tutorial, we will...
- Send a Downlink from Adafruit.io via The Things Network
Any good LoRaWAN device can send data up to the cloud, but now its time to send data back down to the device. TTN Fair Access Policy limits the data each device can send. A TTN device can use 30 seconds of uplink time per day, per device. At most, yo...
- IoT Soundscape
I had been captivated by the sound levels of trains I could hear passing by Metford throughout the day/night. I wondered if a sound level sensor reporting data back over LoRa would help me understand when a train was noisy. I also like the idea of seeing or visualising a problem, in this case, an ambient sound level. As you deconstruct a problem it consists of information & that information consists of data. As such, if I cou...
Exact shipping can be calculated on the view cart page (no login required).
We deliver Australia-wide with these options:
- $3 for Small Items (3-7 days, not tracked, only available on selected small items)
- $6.95 for Standard Post (2-4 days, tracked)
- $9.95 for Express Post (Overnight for most of Australia, 2+ days for rural, tracked)
- Pickup - Free! Only available to customers who live in the Newcastle region (only after we email you to notify your order is ready)
International Orders - the following rates are for New Zealand and will vary for other countries:
- $11.49 for Pack and Track (3+ days, tracked)
- $16.50 for Express International (2-5 days, tracked)
If you order lots of gear, the postage amount might increment based on the weight of your order.
Our physical address (here's a PDF which includes other key business details):
Unit 18, 132 Garden Grove Parade
Take a look at our customer service page if you have other questions such as "do we do purchase orders" (yes!) or "are prices GST inclusive" (yes they are!). We're here to help - get in touch with us to talk shop.