示例#1
0
        /// <summary>
        /// Entry point for example program
        /// </summary>
        /// <param name="args">Command line arguments</param>
        public static void Run()
        {
            Console.WriteLine("Using BMP180!");

            try
            {
                // bus id on the raspberry pi 3
                const int busId = 1;

                var i2cSettings = new I2cConnectionSettings(busId, Bmp180.DefaultI2cAddress);
                var i2cDevice   = I2cDevice.Create(i2cSettings);
                var i2cBmp280   = new Bmp180(i2cDevice);

                if (i2cBmp280 != null)
                {
                    using (i2cBmp280)
                    {
                        // set samplings
                        i2cBmp280.SetSampling(Sampling.Standard);

                        // read values
                        Temperature tempValue = i2cBmp280.ReadTemperature();
                        Console.WriteLine($"Temperature {tempValue.Celsius} \u00B0C");
                        var preValue = i2cBmp280.ReadPressure();
                        Console.WriteLine($"Pressure {preValue.Hectopascal} hPa");
                        double altValue = i2cBmp280.ReadAltitude();
                        Console.WriteLine($"Altitude {altValue:0.##} m");
                        Thread.Sleep(1000);

                        // set higher sampling
                        i2cBmp280.SetSampling(Sampling.UltraLowPower);

                        // read values
                        tempValue = i2cBmp280.ReadTemperature();
                        Console.WriteLine($"Temperature {tempValue.Celsius} \u00B0C");
                        preValue = i2cBmp280.ReadPressure();
                        Console.WriteLine($"Pressure {preValue.Hectopascal} hPa");
                        altValue = i2cBmp280.ReadAltitude();
                        Console.WriteLine($"Altitude {altValue:0.##} m");
                    }
                }
                else
                {
                    Console.WriteLine($"Failed: No DMP180");
                }
            }
            catch (Exception)
            {
                Console.WriteLine("Failed: Probably no hw.");
            }
        }
示例#2
0
        /// <summary>
        /// Entry point for example program
        /// </summary>
        /// <param name="args">Command line arguments</param>
        public static void Main(string[] args)
        {
            Console.WriteLine("Hello Bmp180!");

            // bus id on the raspberry pi 3
            const int busId = 1;

            var i2cSettings = new I2cConnectionSettings(busId, Bmp180.DefaultI2cAddress);
            var i2cDevice   = I2cDevice.Create(i2cSettings);
            var i2cBmp280   = new Bmp180(i2cDevice);

            using (i2cBmp280)
            {
                // set samplings
                i2cBmp280.SetSampling(Sampling.Standard);

                // read values
                Temperature tempValue = i2cBmp280.ReadTemperature();
                Console.WriteLine($"Temperature: {tempValue.DegreesCelsius:0.#}\u00B0C");
                var preValue = i2cBmp280.ReadPressure();
                Console.WriteLine($"Pressure: {preValue.Hectopascals:0.##}hPa");

                // Note that if you already have the pressure value and the temperature, you could also calculate altitude by
                // calling WeatherHelper.CalculateAltitude(preValue, Pressure.MeanSeaLevel, tempValue) which would be more performant.
                var altValue = i2cBmp280.ReadAltitude(WeatherHelper.MeanSeaLevel);

                Console.WriteLine($"Altitude: {altValue:0.##}m");
                Thread.Sleep(1000);

                // set higher sampling
                i2cBmp280.SetSampling(Sampling.UltraLowPower);

                // read values
                tempValue = i2cBmp280.ReadTemperature();
                Console.WriteLine($"Temperature: {tempValue.DegreesCelsius:0.#}\u00B0C");
                preValue = i2cBmp280.ReadPressure();
                Console.WriteLine($"Pressure: {preValue.Hectopascals:0.##}hPa");

                // Note that if you already have the pressure value and the temperature, you could also calculate altitude by
                // calling WeatherHelper.CalculateAltitude(preValue, Pressure.MeanSeaLevel, tempValue) which would be more performant.
                altValue = i2cBmp280.ReadAltitude(WeatherHelper.MeanSeaLevel);

                Console.WriteLine($"Altitude: {altValue:0.##}m");
            }
        }
示例#3
0
        static void Main(string[] args)
        {
            Console.WriteLine("Hello Bmp180!");

            //bus id on the raspberry pi 3
            const int busId = 1;

            var i2cSettings = new I2cConnectionSettings(busId, Bmp180.DefaultI2cAddress);
            var i2cDevice   = new UnixI2cDevice(i2cSettings);
            var i2cBmp280   = new Bmp180(i2cDevice);

            using (i2cBmp280)
            {
                //set samplings
                i2cBmp280.SetSampling(Sampling.Standard);

                //read values
                Temperature tempValue = i2cBmp280.ReadTemperature();
                Console.WriteLine($"Temperature {tempValue.Celsius} °C");
                double preValue = i2cBmp280.ReadPressure();
                Console.WriteLine($"Pressure {preValue} Pa");
                double altValue = i2cBmp280.ReadAltitude();
                Console.WriteLine($"Altitude {altValue:0.##} m");
                Thread.Sleep(1000);

                //set higher sampling
                i2cBmp280.SetSampling(Sampling.UltraLowPower);

                //read values
                tempValue = i2cBmp280.ReadTemperature();
                Console.WriteLine($"Temperature {tempValue.Celsius} °C");
                preValue = i2cBmp280.ReadPressure();
                Console.WriteLine($"Pressure {preValue} Pa");
                altValue = i2cBmp280.ReadAltitude();
                Console.WriteLine($"Altitude {altValue:0.##} m");
            }
        }