The iLabs Challenger NB RP2040 WiFi (with onboard chip antenna, no U.FL) is an Arduino/Micropython compatible microcontroller board based on the Raspberry RP2040 chip.
The Challenger NB form factor is largely based on the Adafruit Feather format but with the battery connector and charging circuit removed to allow room for some much-needed extra IO pins. We realized that not all applications require the ability to be powered by a battery and to have the onboard battery charging circuit, so we developed an 'NB' ('No Battery') version of the Challenger RP2040 WiFi board.
We paired the RP2040 with a 8MByte high-speed flash capable of supplying data up to the maximum speed. The flash memory can be used both to store instructions for the microcontroller as well as data in a file system, and having a file system available makes it easy to store data in a structured and easy to program approach.
The WiFi section on this board is based on the Espressif ESP8285 chip which is an ESP8266 with 1MByte FLASH memory integrated onto the chip making it a complete WiFi-only board requiring very few external components. The ESP8285 is connected to the microcontroller using a UART channel and the operation is controlled using a set of standardized AT-commands.
A set of pin headers is included with the board. We also stock a version with a U.FL connector rather than a chip antenna.
Just like the Challenger RP2040 WiFi this board has an ESP8285 WiFi chip. For those of you that are unfamiliar with this device, it is basically an ESP8266 device with an integrated 1MByte of flash memory. This allows us to have an AT command interpreter inside this chip that the main controller can talk to and connect to your local WiFi network. The communications channel between the two devices is an unused UART on the main controller and the standard UART on the ESP8285.
The ESP8285 chip comes pre-flashed with Espressif’s AT command interpreter stored in the internal 1MByte of the ESP8285. This interpreter supports most of the operating and sleep modes of the standard ESP8266 framework which makes it easy to work with. Talking to the device is as easy as opening the second serial port (Serial2), resetting the ESP8285 and start listening for events and sending commands
This version of the Challenger NB RP2040 has an onboard chip antenna that works out of the box. When mounting the board into an enclosure you should make sure to keep things like cables and/or walls from the enclosure away from the antenna as much as possible. Anything mounted in the vicinity of the antenna will affect its performance.
We also offer a version with a U.FL connector onboard which requires you to add an external antenna.
On this board, iLabs are also introducing their own take on the popular Grove format from Seeed. They wanted to make it easier to build highly integrated projects using our boards, but cables normally take up a lot of room and are messy to deal with.
With the experience from another project, iLabs decided to use an FPC connector that will allow you to use a flex cable that is only 2.5mm wide and 0.13mm thick. The cable can be bent and shaped to fit your enclosure exactly and then taped into place taking up in practice no place at all.
Modules and breakouts compatible with this connector will be available soon.
The board can be powered from multiple sources. The most obvious way to run the board is by plugging it into a USB cable and attaching it to your computer. In this mode, you can write software and test the board with all its functionality.
You can also supply the board with 5V via the header connectors on the PWR pin.
There is a third way to supply the board too. This way is more invasive and will disable the onboard 3.3V power regulator. When doing this you will have to pull the EN header pin low and then supply your own 3.3V voltage on the 3.3V header pin. Please note that when disabling the onboard power regulator you will have to supply the 3.3V also when running the system on battery power.
On each side of the USB connector, there is a small indicator LED. The LED which is marked PWR is a power-on indicator, this is a green LED that will light as long as the board has power applied to it. On the other side of the USB connector, there is a user-programmable yellow LED. This LED is connected to pin D15 (LED_BUILTIN) and can easily be controlled by the user.
Finally, there is a NeoPixel-compatible LED on the board. This is an RGB LED with intensity control, run by a single GPIO pin on the board. There are several good example libraries that can be used to drive this LED.
In recent years we have noticed that we are seeing more and more USB Type-C cables laying around the lab due to the fact that most new phones and accessories use them. So iLabs decided to go for a USB Type-C connector for this board. A bonus of this is that they are more durable and you don’t have to fiddle with the cable before plugging it in!
Connection between MCU and ESP8285 WiFi controller.
The board uses the second UART (UART 1) of the MCU to connect to the ESP8285 as well as two GPIO pins that allow the RP2040 to reset and put the ESP8285 in flash mode. The pins used are as follows.
- GPIO4 acts as UART1 TXD
- GPIO5 acts as UART1 RXD
- GPIO19 is connected to ESP8285 reset and is active low (PIN_ESP8285_RST in the arduino IDE).
- GPIO13 is connected to the mode pin of the ESP8285. If it is pulled low at the same time the reset signal is going high the chip will enter flash mode (PIN_ESP8285_MODE in the arduino IDE).
The WiFi chip runs an internal AT interpreter, over the UART lines, to do all the wireless communication. It supports baud rates up to 921600 bits/s allowing the system to have a throughput of up to 500Kbit/s TCP traffic and up to 1MBit/s UDP messaging.
- RP2040 Dual Core Cortex-M0 @ 133 MHz
- 8 MByte FLASH Memory
- 264 KByte SRAM Memory
- 1 Hardware I2C channel
- 1 Hardware SPI channel
- 1 Hardware UART for the user (Serial1)
- 1 Hardware UART connected to the network processor (Serial2 @ 1Mbit/s)
- 12 Bit ADC
- ESP8285 with internal 1MByte FLASH Memory
- WiFi (2.4 GHz)
- Espressif AT interpreter
- Communicates at 921600 bits/s
- NeoPixel-compatible LED
- USB-C connector
- Onboard chip antenna (no U.FL connector)
|Board Size||50.80 mm x 22.86 mm x 3.20 mm||USB protrudes ~1mm|
|Main microcontroller||RP2040 from Raspberry Pi||133MHz dual core Cortex M0|
|SPI||One SPI channel configured|
|I2C||One I2C channel configured|
|UART||One UART channel configured||Second UART for the WiFi chip|
|Analog inputs||4 analog input channels|
|WLAN controller||ESP8285 from Espressif||160MHz single core Tensilica L106|
|FLASH Memory||8MByte 133 MHz|
|SRAM Memory||264KByte||Divided into 6 banks|
|USB 2.0 controller||Up to 12MBit/s full speed||Integrated USB 1.1 PHY|
|NeoPixel-compatible LED||RGB LED|
The RP2040 has a number of communication channels that have been routed out to the side (header connector) connectors.
- UART – One UART channel has been routed to the header pins (RX, TX). The microcontroller has 2 UARTs, on this board the second UART is used for communicating with the WiFi chip
- SPI – One SPI channel has been routed to the header pins (SCK, SDO, SDI)
- I2C – One I2C channel has been routed to the header pins (SCL, SDA)
- Analog pins – The microcontroller has 4 analog input pins that all are available on the header pins (A0-A3)
- PWM – All pins can be used for PWM
The pin chart below shows the placement of all pins and their respective functions. When working in an Arduino environment (or Platform IO) use the blue pins, and when writing your code and working with CircuitPython use the orange marked pin assignments.
- Design Files
- CircuitPython Page for Challenger RP2040 WiFi
- Arduino & Circuitpython examples (see tabs)
Using the Arduino environment
iLabs teamed up with Earle F. Philhower over at his Github page to provide Arduino support for their RP2040/Pico based boards. All instructions on how to install the board support package as well as multiple examples on how to use the Raspberry Pi Pico processor.
Instructions on how to install the python interpreter of your choice are available on the respective websites.
- 1x Challenger NB RP2040 WiFi Board (Chip antenna version, no U.FL connector)
- 2x Pin headers
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