Another sensor for the collection – it is a BMP388 by Bosch Sensortec, so lets crack on and try this out with a Micro:bit again
On with the manufacturers information
BMP388 Information
The BMP388 is a very small, low-power and low-noise 24 bit absolute barometric pressure sensor. It enables accurate altitude tracking and is specifically suited for drone applications. The best-in-class TCO of the BMP388 between 0-65°C for accurate altitude measurement over a wide temperature range greatly enhances the drone flying experience by making accurate steering easier.
It is compatible for use with other Bosch sensors, including BMI088 for better performance, robustness and stability.
The BMP388 sensor offers outstanding design flexibility, providing a single package solution that is easy to integrate into other existing and upcoming devices such as smart homes, industrial products and wearables.
It is more accurate than its predecessors, covering a wide measurement range from 300 hPa to 1250 hPa. BMP388 exhibits an attractive price-performance ratio coupled with low power consumption. It is available in a compact 10-pin 2.0 x 2.0 x 0.75 mm³ LGA package with metal lid.
- Operating voltage: 3.3V/5V
- Communication interface: I2C/SPI
- Barometric pressure operation range: 300~1250hPa
- Barometric pressure absolute accuracy: ±0.40hPa (@900~1100hPa, 25~40℃)
- Barometric pressure relative accuracy: ±0.08hPa (@900~1100hPa, 25~40℃)
- Temperature coefficient offset: ±0.75Pa/K (@700~1100hPa, -20~65℃))
- Temperature absolute accuracy: ±0.5℃ (0~65℃)
- Possible resolution: 0.016Pa (high precision mode)
- Possible sampling rate: 200Hz
- Operating voltage: -40~85℃
If you purchase a module they will have a 3.3v regulator on board, you will also have the option of I2C or SPI, here is the module that I located.
Parts Required
I connected a expansion board to a Micro:bit and then the sensor via connecting wire
Name | Link |
Micro:bit | Micro Bit Development Board |
BMP388 | 24-bit low noise BMP388 digital temperature atmospheric pressure sensor |
Connecting wire | Free shipping Dupont line 120pcs 20cm male to male + male to female and female to female jumper wire |
expansion board | GPIO Expansion Board For micro:bit |
Schematic/Connection
I decided to use the sensor in I2C mode
Code Example
I used the library from adafruit – https://github.com/adafruit/Adafruit_BMP3XX.
This library can be installed via the library manager. This is the default example and I have removed some of the SPI code and code comments since I was using the sensor in I2C mode
[codesyntax lang=”cpp”]
#include <Wire.h> #include <SPI.h> #include <Adafruit_Sensor.h> #include "Adafruit_BMP3XX.h" #define SEALEVELPRESSURE_HPA (1013.25) Adafruit_BMP3XX bmp; // I2C void setup() { Serial.begin(115200); while (!Serial); Serial.println("BMP388 test"); if (!bmp.begin()) { Serial.println("Could not find a valid BMP3 sensor, check wiring!"); while (1); } // Set up oversampling and filter initialization bmp.setTemperatureOversampling(BMP3_OVERSAMPLING_8X); bmp.setPressureOversampling(BMP3_OVERSAMPLING_4X); bmp.setIIRFilterCoeff(BMP3_IIR_FILTER_COEFF_3); //bmp.setOutputDataRate(BMP3_ODR_50_HZ); } void loop() { if (! bmp.performReading()) { Serial.println("Failed to perform reading :("); return; } Serial.print("Temperature = "); Serial.print(bmp.temperature); Serial.println(" *C"); Serial.print("Pressure = "); Serial.print(bmp.pressure / 100.0); Serial.println(" hPa"); Serial.print("Approx. Altitude = "); Serial.print(bmp.readAltitude(SEALEVELPRESSURE_HPA)); Serial.println(" m"); Serial.println(); delay(2000); }
[/codesyntax]
Output
Open the serial monitor and you should see something like this
Temperature = 26.64 *C
Pressure = 1005.61 hPa
Approx. Altitude = 63.83 m
Temperature = 26.59 *C
Pressure = 1005.60 hPa
Approx. Altitude = 63.86 m
Temperature = 26.52 *C
Pressure = 1005.60 hPa
Approx. Altitude = 63.85 m
Links
Summary
A nice little sensor but at just over $8 but one again there are cheaper sensors available which have the same functionality and for most projects have acceptable performance.