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The MCP25XXX is a stand-alone CAN controller and includes features like faster throughput, databyte filtering, and support for time-triggered protocols.
- MCP25625 PICtail Plus Daughter Board (ADM00617)
- MCP25625 Mini Can Bus Shield (MCP2515 compatible)
- CAN-BUS Shield
- TotalPhase CAN tools
MCP25XXX devices contain different markings to distinguish features like interfacing, packaging, and temperature ratings. For example, MCP25625 contains a CAN transceiver. Please review specific datasheet for more information.
Important: make sure you properly setup the SPI pins especially for ESP32 before creating the SpiDevice
, make sure you install the nanoFramework.Hardware.ESP32 nuget
:
//////////////////////////////////////////////////////////////////////
// when connecting to an ESP32 device, need to configure the SPI GPIOs
// used for the bus
Configuration.SetPinFunction(21, DeviceFunction.SPI1_MOSI);
Configuration.SetPinFunction(22, DeviceFunction.SPI1_MISO);
Configuration.SetPinFunction(23, DeviceFunction.SPI1_CLOCK);
// Make sure as well you are using the right chip select
For other devices like STM32, please make sure you're using the preset pins for the SPI bus you want to use. The chip select can as well be pre setup.
You can create a Mcp25625 device like this:
SpiConnectionSettings spiConnectionSettings = new(1, 42);
SpiDevice spiDevice = SpiDevice.Create(spiConnectionSettings);
Mcp25625 mcp25xxx = new Mcp25625(spiDevice);
You can read all the registers like this:
Debug.WriteLine("Read Instruction for All Registers");
Array addresses = Enum.GetValues(typeof(Address));
foreach (Address address in addresses)
{
byte addressData = mcp25xxx.Read(address);
Debug.WriteLine($"0x{(byte)address:X2} - {address,-10}: 0x{addressData:X2}");
}
to read a single register, just use the Address
enum.
The RX status is available like this:
Debug.WriteLine("Rx Status Instruction");
RxStatusResponse rxStatusResponse = mcp25xxx.RxStatus();
Debug.WriteLine($"Value: 0x{rxStatusResponse.ToByte():X2}");
Debug.WriteLine($"Filter Match: {rxStatusResponse.FilterMatch}");
Debug.WriteLine($"Message Type Received: {rxStatusResponse.MessageTypeReceived}");
Debug.WriteLine($"Received Message: {rxStatusResponse.ReceivedMessage}");
The Read status is available like this:
Debug.WriteLine("Read Status Instruction");
ReadStatusResponse readStatusResponse = mcp25xxx.ReadStatus();
Debug.WriteLine($"Value: 0x{readStatusResponse:X2}");
Debug.WriteLine($"Rx0If: {readStatusResponse.HasFlag(ReadStatusResponse.Rx0If)}");
Debug.WriteLine($"Rx1If: {readStatusResponse.HasFlag(ReadStatusResponse.Rx1If)}");
Debug.WriteLine($"Tx0Req: {readStatusResponse.HasFlag(ReadStatusResponse.Tx0Req)}");
Debug.WriteLine($"Tx0If: {readStatusResponse.HasFlag(ReadStatusResponse.Tx0If)}");
Debug.WriteLine($"Tx0Req: {readStatusResponse.HasFlag(ReadStatusResponse.Tx0Req)}");
Debug.WriteLine($"Tx1If: {readStatusResponse.HasFlag(ReadStatusResponse.Tx1If)}");
Debug.WriteLine($"Tx1Req: {readStatusResponse.HasFlag(ReadStatusResponse.Tx1Req)}");
Debug.WriteLine($"Tx2Req: {readStatusResponse.HasFlag(ReadStatusResponse.Tx2Req)}");
Debug.WriteLine($"Tx2If: {readStatusResponse.HasFlag(ReadStatusResponse.Tx2If)}");
You can transmit a message like this:
Debug.WriteLine("Transmit Message");
mcp25xxx.WriteByte(
new CanCtrl(CanCtrl.PinPrescaler.ClockDivideBy8,
false,
false,
false,
OperationMode.NormalOperation));
byte[] data = new byte[] { 0b0000_0001, 0b0010_0011, 0b0100_0101, 0b0110_0111, 0b1000_1001 };
mcp25xxx.Write(
Address.TxB0Sidh,
new byte[]
{
new TxBxSidh(0, 0b0000_1001).ToByte(), new TxBxSidl(0, 0b001, false, 0b00).ToByte(),
new TxBxEid8(0, 0b0000_0000).ToByte(), new TxBxEid0(0, 0b0000_0000).ToByte(),
new TxBxDlc(0, data.Length, false).ToByte()
});
mcp25xxx.Write(Address.TxB0D0, data);
// Send with TxB0 buffer.
mcp25xxx.RequestToSend(true, false, false);
cp25xxx.RequestToSend(false, false, true);
Note: You will find detailed way of using this binding in the sample file
More details will be added in future PR once core CAN classes/interfaces are determined.