nanoFramework.Iot.Device.Bmxx80 1.2.639

Prefix Reserved
There is a newer version of this package available.
See the version list below for details.
dotnet add package nanoFramework.Iot.Device.Bmxx80 --version 1.2.639                
NuGet\Install-Package nanoFramework.Iot.Device.Bmxx80 -Version 1.2.639                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="nanoFramework.Iot.Device.Bmxx80" Version="1.2.639" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add nanoFramework.Iot.Device.Bmxx80 --version 1.2.639                
#r "nuget: nanoFramework.Iot.Device.Bmxx80, 1.2.639"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install nanoFramework.Iot.Device.Bmxx80 as a Cake Addin
#addin nuget:?package=nanoFramework.Iot.Device.Bmxx80&version=1.2.639

// Install nanoFramework.Iot.Device.Bmxx80 as a Cake Tool
#tool nuget:?package=nanoFramework.Iot.Device.Bmxx80&version=1.2.639                

BMP280/BME280/BME680 Device Family

BMxx80 is a device family that senses temperature, barometric pressure, altitude, humidity and VOC gas.

SPI and I2C can be used to communicate with the device (only I2C implemented so far).

Documentation

The implementation supports the following devices:

  • BMP280 temperature and barometric pressure sensor (Datasheet)
  • BME280 temperature, barometric pressure and humidity sensor (Datasheet)
  • BME680 temperature, barometric pressure, humidity and VOC gas sensor (Datasheet)

Usage

BME280

Important: make sure you properly setup the I2C pins especially for ESP32 before creating the I2cDevice, make sure you install the nanoFramework.Hardware.ESP32 nuget:

//////////////////////////////////////////////////////////////////////
// when connecting to an ESP32 device, need to configure the I2C GPIOs
// used for the bus
Configuration.SetPinFunction(21, DeviceFunction.I2C1_DATA);
Configuration.SetPinFunction(22, DeviceFunction.I2C1_CLOCK);

For other devices like STM32, please make sure you're using the preset pins for the I2C bus you want to use.

// bus id on the MCU
const int busId = 1;
I2cConnectionSettings i2cSettings = new(busId, Bme280.DefaultI2cAddress);
using I2cDevice i2cDevice = I2cDevice.Create(i2cSettings);
using Bme280 bme80 = new Bme280(i2cDevice)
{
    // set higher sampling
    TemperatureSampling = Sampling.LowPower,
    PressureSampling = Sampling.UltraHighResolution,
    HumiditySampling = Sampling.Standard,

};

// Perform a synchronous measurement
var readResult = bme80.Read();

// Note that if you already have the pressure value and the temperature, you could also calculate altitude by using
// var altValue = WeatherHelper.CalculateAltitude(preValue, defaultSeaLevelPressure, tempValue) which would be more performant.
bme80.TryReadAltitude(defaultSeaLevelPressure, out var altValue);

Debug.WriteLine($"Temperature: {readResult.Temperature?.DegreesCelsius:0.#}\u00B0C");
Debug.WriteLine($"Pressure: {readResult.Pressure?.Hectopascals:0.##}hPa");
Debug.WriteLine($"Altitude: {altValue.Meters:0.##}m");
Debug.WriteLine($"Relative humidity: {readResult.Humidity?.Percent:0.#}%");

BMP680

// The I2C bus ID on the MCU
const int busId = 1;

I2cConnectionSettings i2cSettings = new(busId, Bme680.DefaultI2cAddress);
I2cDevice i2cDevice = I2cDevice.Create(i2cSettings);

using Bme680 bme680 = new Bme680(i2cDevice, Temperature.FromDegreesCelsius(20.0));

// reset will change settings back to default
bme680.Reset();

// Perform a synchronous measurement
var readResult = bme680.Read();

// Print out the measured data
Debug.WriteLine($"Gas resistance: {readResult.GasResistance?.Ohms:0.##}Ohm");
Debug.WriteLine($"Temperature: {readResult.Temperature?.DegreesCelsius:0.#}\u00B0C");
Debug.WriteLine($"Pressure: {readResult.Pressure?.Hectopascals:0.##}hPa");
Debug.WriteLine($"Relative humidity: {readResult.Humidity?.Percent:0.#}%");

BMP280

// bus id on the MCU
const int busId = 1;

I2cConnectionSettings i2cSettings = new(busId, Bmp280.DefaultI2cAddress);
I2cDevice i2cDevice = I2cDevice.Create(i2cSettings);
using var i2CBmp280 = new Bmp280(i2cDevice);

// set higher sampling
i2CBmp280.TemperatureSampling = Sampling.LowPower;
i2CBmp280.PressureSampling = Sampling.UltraHighResolution;

// Perform a synchronous measurement
var readResult = i2CBmp280.Read();

// Print out the measured data
Debug.WriteLine($"Temperature: {readResult.Temperature?.DegreesCelsius:0.#}\u00B0C");
Debug.WriteLine($"Pressure: {readResult.Pressure?.Hectopascals:0.##}hPa");

You also have 3 examples on how to use this device binding are available in the samples folder.

The following fritzing diagram illustrates one way to wire up the BMP280 with an MCU like ESP32 using I2C:

ESP32 Breadboard diagram

General:

Bmp280 MCU
Vin Power pin
GND Ground

I2C:

Bmp280 MCU
SCK I2C clock pin
SDI I2C data pin

Connection Type

The following connection types are supported by this binding.

  • I2C
  • SPI
Product Compatible and additional computed target framework versions.
.NET Framework net is compatible. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.

NuGet packages

This package is not used by any NuGet packages.

GitHub repositories (2)

Showing the top 2 popular GitHub repositories that depend on nanoFramework.Iot.Device.Bmxx80:

Repository Stars
dotnet/samples
Sample code referenced by the .NET documentation
nanoframework/Samples
🍬 Code samples from the nanoFramework team used in testing, proof of concepts and other explorational endeavours
Version Downloads Last updated
1.2.673 135 10/23/2024
1.2.656 146 10/3/2024
1.2.639 149 9/6/2024
1.2.631 118 8/28/2024
1.2.613 146 8/9/2024
1.2.601 88 7/26/2024
1.2.590 133 7/17/2024
1.2.573 142 6/19/2024
1.2.570 106 6/14/2024
1.2.560 136 5/29/2024
1.2.552 129 5/17/2024
1.2.536 205 4/15/2024
1.2.514 168 3/22/2024
1.2.494 178 2/28/2024
1.2.474 193 1/24/2024
1.2.462 190 1/5/2024
1.2.458 164 12/20/2023
1.2.456 134 12/13/2023
1.2.442 234 11/15/2023
1.2.436 134 11/10/2023
1.2.416 160 11/8/2023
1.2.403 227 10/6/2023
1.2.396 215 9/27/2023
1.2.384 221 9/6/2023
1.2.378 185 8/16/2023
1.2.369 260 8/2/2023
1.2.363 163 7/28/2023
1.2.357 153 7/19/2023
1.2.354 212 7/14/2023
1.2.345 185 6/21/2023
1.2.341 159 6/14/2023
1.2.337 196 6/7/2023
1.2.335 140 6/2/2023
1.2.329 152 5/26/2023
1.2.316 193 5/16/2023
1.2.313 152 5/12/2023
1.2.308 180 5/11/2023
1.2.302 154 5/10/2023
1.2.297 172 5/3/2023
1.2.273 329 3/17/2023
1.2.267 283 3/10/2023
1.2.263 261 3/8/2023
1.2.259 303 2/27/2023
1.2.256 251 2/24/2023
1.2.253 243 2/22/2023
1.2.222 386 1/9/2023
1.2.217 341 1/6/2023
1.2.215 297 1/6/2023
1.2.212 316 1/5/2023
1.2.210 349 1/4/2023
1.2.208 311 1/3/2023
1.2.203 330 12/28/2022
1.2.159 412 11/14/2022
1.2.157 355 11/9/2022
1.2.155 354 11/6/2022
1.2.153 370 11/5/2022
1.2.141 431 10/25/2022
1.2.128 413 10/22/2022
1.2.125 419 10/12/2022
1.2.87 530 9/15/2022
1.2.66 425 9/4/2022
1.2.63 419 9/3/2022
1.2.47 448 8/15/2022
1.2.40 460 8/6/2022
1.2.38 455 8/5/2022
1.2.28 469 8/1/2022
1.2.13 479 7/24/2022
1.2.10 444 7/23/2022
1.1.147.4251 540 7/8/2022
1.1.145.58726 440 7/7/2022
1.1.135.7416 467 7/1/2022
1.1.133.52556 477 6/30/2022
1.1.123.24311 465 6/27/2022
1.1.121.35854 437 6/26/2022
1.1.116.8772 480 6/24/2022
1.1.113.2032 459 6/23/2022
1.1.109.32999 483 6/16/2022
1.1.102.51394 437 6/15/2022
1.1.99.36719 436 6/14/2022
1.1.97.17326 454 6/13/2022
1.1.92.53000 485 6/8/2022
1.1.75.16702 464 6/1/2022
1.1.72.29765 457 5/31/2022
1.1.67.25390 464 5/27/2022
1.1.64.21380 448 5/26/2022
1.1.59.7661 465 5/24/2022
1.1.58.10097 466 5/23/2022
1.1.54.28879 447 5/23/2022
1.1.44.45306 493 5/6/2022
1.1.40 483 5/5/2022
1.1.11 502 4/19/2022
1.1.3 513 4/15/2022
1.1.1 452 4/14/2022
1.0.300 530 3/31/2022
1.0.288-preview.114 127 3/25/2022
1.0.288-preview.113 118 3/25/2022
1.0.288-preview.104 110 3/22/2022
1.0.288-preview.103 110 3/21/2022
1.0.288-preview.100 118 3/19/2022
1.0.288-preview.99 130 3/18/2022
1.0.288-preview.98 114 3/18/2022
1.0.288-preview.95 129 3/15/2022
1.0.288-preview.93 114 3/15/2022
1.0.288-preview.87 125 3/10/2022
1.0.288-preview.86 140 3/8/2022
1.0.288-preview.77 136 2/27/2022
1.0.288-preview.75 130 2/26/2022
1.0.288-preview.65 178 2/18/2022
1.0.288-preview.63 121 2/16/2022
1.0.288-preview.61 129 2/12/2022
1.0.288-preview.58 131 2/10/2022
1.0.288-preview.53 124 2/9/2022
1.0.288-preview.48 152 2/4/2022
1.0.288-preview.41 144 1/31/2022
1.0.288-preview.29 141 1/28/2022
1.0.288-preview.20 144 1/27/2022
1.0.288-preview.19 134 1/27/2022
1.0.288-preview.18 141 1/27/2022
1.0.288-preview.5 142 1/24/2022
1.0.288-preview.1 134 1/21/2022
1.0.272 518 1/10/2022
1.0.259 519 12/9/2021
1.0.258 345 12/7/2021
1.0.164 1,073 9/9/2021
1.0.157 375 9/4/2021
1.0.154 337 8/30/2021
1.0.153 363 8/14/2021
1.0.151 359 8/6/2021
1.0.146 370 7/22/2021
1.0.138 386 7/18/2021
1.0.136 418 7/17/2021
1.0.135 170 7/16/2021
1.0.134 178 7/15/2021
1.0.133 194 7/14/2021
1.0.131 193 7/8/2021
1.0.130 491 7/6/2021
1.0.129 173 7/6/2021
1.0.127 183 7/5/2021
1.0.126 184 7/5/2021
1.0.125 193 7/5/2021
1.0.122 223 6/30/2021
1.0.121 209 6/29/2021
1.0.120 197 6/29/2021
1.0.119 239 6/28/2021
1.0.118 241 6/20/2021
1.0.111 198 6/14/2021
1.0.110 247 6/9/2021
1.0.109 169 6/8/2021
1.0.106 206 6/1/2021
1.0.104 251 5/29/2021
1.0.103 215 5/28/2021
1.0.97 184 5/28/2021
1.0.90 189 5/27/2021
1.0.64 178 5/26/2021
1.0.19 232 5/21/2021