Hey,
Ich habe ein Problem bei der Verwendung von einer RC5 Fernbedienung in Kombination mit dem M32. Egal welche Taste ich auf der Fernbedienung drücke, das Programm wird immer sofort beendetund startet sich dann manchmal neu und manchmal bleibt es beendet.
Nur mit der Base funktioniert alles.
Auf der Base ist das Slave Programm und die Lib ist ebenfalls die Lib aus den Beispielen!
Weiß zufällig jemand ne Lösung für das Problem?
Mein eigentliches Programm habe ich soweit gekürzt, dass nur die Stellen die für das Problem wichtig sind drin bleiben.
Lieben GrußCode:/* ********************************************************************** */ /*****************************************************************************/ // Includes: #include "RP6ControlLib.h" // The RP6 Control Library. // Always needs to be included! #include "RP6I2CmasterTWI.h" // I2C Master Library #include "RP6Control_I2CMasterLib.h"// Include our new "RP6 Control I2C Master library": /*****************************************************************************/ // Definiton: /*****************************************************************************/ // SRF02: // The I2C slave address of the SRF ranger - default is 0xE0, but you can // change this when you use the function changeSRFAddr() below. // Here we changed it to 0xE6 already: #define SRF_ADR 0xE0 /*****************************************************************************/ // I2C Event handlers: // I2C Data request IDs: #define MEASURE_US_LOW 110 #define MEASURE_US_HIGH 111 /*****************************************************************************/ /*****************************************************************************/ // TV- Fernsteuerung!! xx #define RC_MEINE // Key Belegung #ifdef RC_MEINE // RC Type: Phillips RC5 - Bp2 #define RC5_KEY_LINKS_ROT 60 #define RC5_KEY_RECHTS_ROT 42 #define RC5_KEY_VOR 32 #define RC5_KEY_RUECK 33 #define RC5_KEY_STOP 59 #define RC5_KEY_CURVE_LEFT 17 #define RC5_KEY_CURVE_RIGHT 16 #define RC5_KEY_FAHRE_ZUM_LADEN 12 #define RC5_KEY_NORMALER_MOD 1 #define RC5_KEY_IR_MOD 2 #endif /** * RC5 Data reception handler - this function is called automatically from the * RP6lib if new RC5 Data has been received. */ void receiveRC5Data(RC5data_t rc5data) { // Output the received data: writeString_P("Toggle Bit:"); writeChar(rc5data.toggle_bit + '0'); writeString_P(" | Device Address:"); writeInteger(rc5data.device, DEC); writeString_P(" | Key Code:"); writeInteger(rc5data.key_code, DEC); writeChar('\n'); // Check which key is pressed: switch(rc5data.key_code) { case RC5_KEY_LINKS_ROT: // Turn left: writeString_P("LEFT\n"); break; case RC5_KEY_RECHTS_ROT: // Turn right: writeString_P("RIGHT\n"); break; case RC5_KEY_VOR: // Move forwards writeString_P("FORWARDS\n"); break; case RC5_KEY_RUECK: // Move backwards writeString_P("BACKWARDS\n"); break; case RC5_KEY_STOP: // Stop! writeString_P("STOP\n"); break; case RC5_KEY_CURVE_LEFT: // Drive curve left - forwards writeString_P("CURVE LEFT FWD\n"); break; case RC5_KEY_CURVE_RIGHT: // Drive curve right - forwards writeString_P("CURVE RIGHT FWD\n"); break; case RC5_KEY_FAHRE_ZUM_LADEN: // fahre zur Ladestation writeString_P("fahre zur Ladestation\n"); break; case RC5_KEY_NORMALER_MOD: // Normaler Modus writeString_P("Normaler Modus\n"); break; case RC5_KEY_IR_MOD: // folge den Bewegungsbefehlen der Fernbedienung writeString_P("folge den Bewegungsbefehlen der Fernbedienung\n"); } } /*****************************************************************************/ // I2C Requests: /** * The I2C_requestedDataReady Event Handler */ void I2C_requestedDataReady(uint8_t dataRequestID) { checkRP6Status(dataRequestID); uint8_t messageBuf[8]; static uint8_t dist_tmp; switch(dataRequestID) { case MEASURE_US_HIGH: // High data register // get received data ... I2CTWI_getReceivedData(messageBuf, 2); dist_tmp = (messageBuf[0]); // ... and request low data byte: I2CTWI_transmitByte(SRF_ADR, 3); I2CTWI_requestDataFromDevice(SRF_ADR, MEASURE_US_LOW, 1); break; case MEASURE_US_LOW: // low data byte: I2CTWI_getReceivedData(messageBuf, 2); break; } } /*****************************************************************************/ // I2C Error handler /** * This function gets called automatically if there was an I2C Error like * the slave sent a "not acknowledge" (NACK, error codes e.g. 0x20 or 0x30). */ void I2C_transmissionError(uint8_t errorState) { writeString_P("\nI2C ERROR - TWI STATE: 0x"); writeInteger(errorState, HEX); writeChar('\n'); } //Hauptprogramm /*****************************************************************************/ // Main function - The program starts here: int main(void) { initRP6Control(); initLCD(); writeString_P("\n\nRP6 CONTROL M32 I2C Master Example Program!\n"); // --------------------------------------- I2CTWI_initMaster(100); I2CTWI_setRequestedDataReadyHandler(I2C_requestedDataReady); I2CTWI_setTransmissionErrorHandler(I2C_transmissionError); // Set the RC5 Receive Handler: IRCOMM_setRC5DataReadyHandler(receiveRC5Data); sound(180,80,25); sound(220,80,25); setLEDs(0b1111); showScreenLCD("################", "################"); mSleep(500); showScreenLCD("Mein Robot", "Behaviours"); mSleep(1000); setLEDs(0b0000); // --------------------------------------- // Setup ACS power: I2CTWI_transmit3Bytes(I2C_RP6_BASE_ADR, 0, CMD_SET_ACS_POWER, ACS_PWR_MED); // Enable Watchdog for Interrupt requests: I2CTWI_transmit3Bytes(I2C_RP6_BASE_ADR, 0, CMD_SET_WDT, true); // Enable timed watchdog requests: I2CTWI_transmit3Bytes(I2C_RP6_BASE_ADR, 0, CMD_SET_WDT_RQ, true); showScreenLCD("Active Behaviour", ""); while(true) { task_checkINT0(); task_I2CTWI(); mSleep(5); } return 0; }
Ingo Hunfeld
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