static void Main(string[] args)
{
var adcClock = ConnectorPin.P1Pin12.ToProcessor();
var adcMiso = ConnectorPin.P1Pin16.ToProcessor();
var adcMosi = ConnectorPin.P1Pin18.ToProcessor();
var adcCs = ConnectorPin.P1Pin22.ToProcessor();
const decimal voltage = 3.3m;
using (var adcConnection = new Mcp3008SpiConnection(adcClock, adcCs, adcMiso, adcMosi, voltage))
{
Console.CursorVisible = false;
Console.WriteLine("MCP3008 Sample: Reading temperature on Channel 0 and luminosity on Channel 1");
Console.WriteLine();
while (!Console.KeyAvailable)
{
var temperature = adcConnection.Read(Mcp3008Channel.Channel0).ToCelsius();
var lux = adcConnection.Read(Mcp3008Channel.Channel1).ToLux(voltage);
Console.WriteLine("Temperature = {0,5:0.0} Celsius\t\tLuminosity = {1,5:0.0} Lux", temperature, lux);
Console.CursorTop--;
Thread.Sleep(100);
}
}
Console.CursorTop++;
Console.CursorVisible = true;
}
static void Main()
{
const ConnectorPin adcClock = ConnectorPin.P1Pin12;
const ConnectorPin adcMiso = ConnectorPin.P1Pin16;
const ConnectorPin adcMosi = ConnectorPin.P1Pin18;
const ConnectorPin adcCs = ConnectorPin.P1Pin22;
Console.WriteLine("MCP-3008 Sample: Reading temperature on Channel 0 and luminosity on Channel 1");
Console.WriteLine();
Console.WriteLine("\tClock: {0}", adcClock);
Console.WriteLine("\tCS: {0}", adcCs);
Console.WriteLine("\tMOSI: {0}", adcMosi);
Console.WriteLine("\tMISO: {0}", adcMiso);
Console.WriteLine();
const decimal voltage = 3.3m;
using (var adcConnection = new Mcp3008SpiConnection(adcClock.ToProcessor(), adcCs.ToProcessor(), adcMiso.ToProcessor(), adcMosi.ToProcessor(), voltage))
{
Console.CursorVisible = false;
while (!Console.KeyAvailable)
{
var temperature = adcConnection.Read(Mcp3008Channel.Channel0).ToCelsius();
var lux = adcConnection.Read(Mcp3008Channel.Channel1).ToLux(voltage);
Console.WriteLine("Temperature = {0,5:0.0} Celsius\t\tLuminosity = {1,5:0.0} Lux", temperature, lux);
Console.CursorTop--;
Thread.Sleep(100);
}
}
Console.CursorTop++;
Console.CursorVisible = true;
}