simple testcode for bluepill with poti and hardware serial1

2019-11-30 21:42:56 +01:00 · 2019-11-30 21:42:56 +01:00 · dd78937a45
parent 7e670e06d2
commit dd78937a45
1 changed files with 188 additions and 0 deletions
--- a/02_Arduino/controller_stm_PotiTest_NewFoc/controller_stm_PotiTest_NewFoc.ino
+++ b/02_Arduino/controller_stm_PotiTest_NewFoc/controller_stm_PotiTest_NewFoc.ino
@ -0,0 +1,188 @@
+// *******************************************************************
+//  Arduino Nano 3.3V example code
+//  for   https://github.com/EmanuelFeru/hoverboard-firmware-hack-FOC
+//
+//  Copyright (C) 2019-2020 Emanuel FERU <aerdronix@gmail.com>
+//
+// *******************************************************************
+// INFO:
+// • This sketch uses the the Serial Software interface to communicate and send commands to the hoverboard
+// • The built-in (HW) Serial interface is used for debugging and visualization. In case the debugging is not needed,
+//   it is recommended to use the built-in Serial interface for full speed perfomace.
+// • The data packaging includes a Start Frame, checksum, and re-syncronization capability for reliable communication
+// 
+// CONFIGURATION on the hoverboard side in config.h:
+// • Option 1: Serial on Left Sensor cable (long wired cable)
+//   #define CONTROL_SERIAL_USART2
+//   #define FEEDBACK_SERIAL_USART2
+//   // #define DEBUG_SERIAL_USART2
+// • Option 2: Serial on Right Sensor cable (short wired cable) - recommended, so the ADCs on the other cable are still available
+//   #define CONTROL_SERIAL_USART3
+//   #define FEEDBACK_SERIAL_USART3
+//   // #define DEBUG_SERIAL_USART3
+// *******************************************************************
+
+//https://github.com/rogerclarkmelbourne/Arduino_STM32   in arduino/hardware
+//Board: Generic STM32F103C series
+//Upload method: serial
+//20k RAM 64k Flash
+
+// RX ist A10, TX ist A9   (3v3 level)
+//to flash set boot0 (the one further away from reset button) to 1 and press reset, flash, program executes immediately
+//set boot0 back to 0 to run program on powerup
+
+// ########################## DEFINES ##########################
+#define SERIAL_CONTROL_BAUD   38400       // [-] Baud rate for HoverSerial (used to communicate with the hoverboard)
+#define SERIAL_BAUD         115200      // [-] Baud rate for built-in Serial (used for the Serial Monitor)
+#define START_FRAME         0xAAAA       // [-] Start frme definition for reliable serial communication
+
+//#define DEBUG_RX                        // [-] Debug received data. Prints all bytes to serial (comment-out to disable)
+
+#define MAXADCVALUE 4095
+
+#define PIN_LED PC13
+#define SENDPERIOD 100 //ms. delay for sending speed and steer data to motor controller via serial
+#define PIN_POTI PA0
+
+long last_send = 0;
+
+
+// Global variables
+uint8_t idx = 0;                        // Index for new data pointer
+uint16_t bufStartFrame;                 // Buffer Start Frame
+byte *p;                                // Pointer declaration for the new received data
+byte incomingByte;
+byte incomingBytePrev;
+
+typedef struct{
+   uint16_t start;
+   int16_t  speedLeft;
+   int16_t  speedRight;
+   uint16_t checksum;
+} SerialCommand;
+SerialCommand Command;
+
+typedef struct{
+   uint16_t start;
+   int16_t  cmd1;
+   int16_t  cmd2;
+   int16_t  speedR;
+   int16_t  speedL;
+   int16_t  speedR_meas;
+   int16_t  speedL_meas;
+   int16_t  batVoltage;
+   int16_t  boardTemp;
+   int16_t  checksum;
+} SerialFeedback;
+SerialFeedback Feedback;
+SerialFeedback NewFeedback;
+
+// ########################## SETUP ##########################
+void setup() 
+{
+
+  Serial.begin(115200); //Debug and Program. A9=TX1,  A10=RX1  (3v3 level)
+
+  Serial2.begin(19200); //control.  B10=TX3, B11=RX3 (Serial2 is Usart 3)
+  Serial1.begin(19200); //control.  A2=TX2, A3=RX2 (Serial1 is Usart 2)
+    
+  Serial1.begin(SERIAL_CONTROL_BAUD);
+  pinMode(LED_BUILTIN, OUTPUT);
+
+  Serial.println("Initialized"); 
+}
+
+// ########################## SEND ##########################
+void SendSerial1(int16_t uSpeedLeft, int16_t uSpeedRight)
+{
+  // Create command
+  Command.start    = (uint16_t)START_FRAME;
+  Command.speedLeft    = (int16_t)uSpeedLeft;
+  Command.speedRight    = (int16_t)uSpeedRight;
+  Command.checksum = (uint16_t)(Command.start ^ Command.speedLeft ^ Command.speedRight);
+
+  // Write to Serial
+  Serial1.write((uint8_t *) &Command, sizeof(Command)); 
+}
+
+// ########################## RECEIVE ##########################
+void ReceiveSerial1()
+{
+  // Check for new data availability in the Serial buffer
+  if (Serial1.available()) {
+    incomingByte    = Serial1.read();                                   // Read the incoming byte
+    bufStartFrame = ((uint16_t)(incomingBytePrev) << 8) +  incomingByte;  // Construct the start marker   
+  }
+  else {
+    return;
+  }
+
+  // If DEBUG_RX is defined print all incoming bytes
+  #ifdef DEBUG_RX
+    Serial.print(incomingByte);
+    return;
+  #endif      
+  
+  // Copy received data
+  if (bufStartFrame == START_FRAME) {                     // Initialize if new data is detected
+    p     = (byte *)&NewFeedback;
+    *p++  = incomingBytePrev;
+    *p++  = incomingByte;   
+    idx   = 2;    
+  } else if (idx >= 2 && idx < sizeof(SerialFeedback)) {  // Save the new received data
+    *p++  = incomingByte; 
+    idx++;
+  } 
+  
+  // Check if we reached the end of the package
+  if (idx == sizeof(SerialFeedback)) {    
+    uint16_t checksum;
+    checksum = NewFeedback.start ^ NewFeedback.cmd1 ^ NewFeedback.cmd2 ^ NewFeedback.speedR ^ NewFeedback.speedL
+          ^ NewFeedback.speedR_meas ^ NewFeedback.speedL_meas ^ NewFeedback.batVoltage ^ NewFeedback.boardTemp;
+  
+    // Check validity of the new data
+    if (NewFeedback.start == START_FRAME && checksum == NewFeedback.checksum) {
+      // Copy the new data
+      memcpy(&Feedback, &NewFeedback, sizeof(SerialFeedback));
+      
+      // Print data to built-in Serial
+      Serial.print("1: ");   Serial.print(Feedback.cmd1);
+      Serial.print(" 2: ");  Serial.print(Feedback.cmd2);
+      Serial.print(" 3: ");  Serial.print(Feedback.speedR);
+      Serial.print(" 4: ");  Serial.print(Feedback.speedL);
+      Serial.print(" 5: ");  Serial.print(Feedback.speedR_meas);
+      Serial.print(" 6: ");  Serial.print(Feedback.speedL_meas);
+      Serial.print(" 7: ");  Serial.print(Feedback.batVoltage);
+      Serial.print(" 8: ");  Serial.println(Feedback.boardTemp);
+    } else {
+      Serial.println("Non-valid data skipped");
+    }
+    idx = 0;  // Reset the index (it prevents to enter in this if condition in the next cycle)
+  }
+  
+  // Update previous states
+  incomingBytePrev  = incomingByte;
+}
+
+// ########################## LOOP ##########################
+
+
+
+void loop() {
+
+  ReceiveSerial1(); // Check for new received data
+    
+  if (millis() - last_send > SENDPERIOD) {
+    
+    
+    int16_t speedvalue=constrain(analogRead(PIN_POTI)*1.0/MAXADCVALUE*1000, 0, 1000);
+
+    SendSerial1(speedvalue,0);
+
+    last_send = millis();
+
+  }
+
+}
+
+// ########################## END ##########################