/******************************************************************************* * @fn void setup_radio( uint8_t (*callback)(void) ) * @brief Initialize radio and register Rx Callback function * ****************************************************************************/ void setup_cc2500( uint8_t (*callback)(uint8_t*, uint8_t) ) { uint8_t initial_power = 0xFB; // 0 dBm // Set-up rx_callback function rx_callback = callback; spi_setup(); // Initialize SPI port cc_powerup_reset(); // Reset CCxxxx wait_cycles(500); // Wait for device to reset (Not sure why this is needed) writeRFSettings(); // Write RF settings to config reg cc_write_burst_reg( TI_CCxxx0_PATABLE, &initial_power, 1);//Write PATABLE cc_strobe(TI_CCxxx0_SRX); // Initialize CCxxxx in RX mode. // When a pkt is received, it will // signal on GDO0 and wake CPU // Configure GDO0 port GDO0_PxIES |= GDO0_PIN; // Int on falling edge (end of pkt) GDO0_PxIFG &= ~GDO0_PIN; // Clear flag GDO0_PxIE |= GDO0_PIN; // Enable int on end of packet }
uint8_t setup_cc2500(void) { uint8_t returnValue=0; uint8_t initial_power = 0xFB; // 0 dBm // Set-up rx_callback function do { // Changed //spi_init(); // Initialize SPI port // FIXME Add uscib0 files cc_powerup_reset(); // Reset CCxxxx // TODO implement this wait_cycles(500); // Wait for device to reset (Not sure why this is needed) if(writeRFSettings()) // Write RF settings to config reg { returnValue = 1; // Failed break; } // FIXME Add uscib0 files cc_write_burst_reg( TI_CCxxx0_PATABLE, &initial_power, 1);//Write PATABLE // FIXME Add uscib0 files cc_strobe(TI_CCxxx0_SIDLE); WAIT1_Waitms(10); cc_strobe(TI_CCxxx0_SFRX); // Flush RXFIFO WAIT1_Waitms(10); cc_strobe(TI_CCxxx0_SFTX); // Flush RXFIFO WAIT1_Waitms(10); cc_strobe(TI_CCxxx0_SRX); // Initialize CCxxxx in RX mode. returnValue = cc_read_status(TI_CCxxx0_MARCSTATE); returnValue =0; // When a pkt is received, it will // signal on GDO0 and wake CPU // FIXME // Configure GDO0 port // GDO0_PxIES |= GDO0_PIN; // Int on falling edge (end of pkt) // GDO0_PxIFG &= ~GDO0_PIN; // Clear flag // GDO0_PxIE |= GDO0_PIN; // Enable int on end of packet CC_2500_SETUP_DONE = true; }while(0); return returnValue; }
/******************************************************************************* * @fn cc2500_tx( uint8_t* p_buffer, uint8_t length ) * @brief Send raw message through radio * ****************************************************************************/ void cc2500_tx( uint8_t* p_buffer, uint8_t length ) { volatile int i; // GDO0_PxIE &= ~GDO0_PIN; // Disable interrupt //PORT_PDD_SetPinInterruptConfiguration(PTD_DEVICE, GDO0_PIN, PORT_PDD_INTERRUPT_DMA_DISABLED); //PORT_PDD_SetPinInterruptConfiguration(PORTD_BASE_PTR,GDO0_PIN, PORT_PDD_INTERRUPT_DMA_DISABLED); cc_write_burst_reg(TI_CCxxx0_TXFIFO, p_buffer, length); // Write TX data cc_strobe(TI_CCxxx0_STX); // Change state to TX, initiating // data transfer // sometimes the chip hangs on while(!(GDO0_PxIN&GDO0_PIN)); line, see http://alvarop.com/2011/12/cc2500-project-part-1/#comment-467755523 //for (i=0;i<10000 && !(GDO0_PxIN&GDO0_PIN);i++); // Wait GDO0 to go hi or timeout -> sync TX'ed // for (i=0;i<10000 && (GDO0_PxIN&GDO0_PIN);i++); // Wait GDO0 to clear or timeout -> end of pkt //no used anymore // while (!(GDO0_PxIN&GDO0_PIN)); // Wait GDO0 to go hi -> sync TX'ed // while (GDO0_PxIN&GDO0_PIN); // Wait GDO0 to clear -> end of pkt // GDO0_PxIFG &= ~GDO0_PIN; // After pkt TX, this flag is set. // // Has to be cleared before existing // // GDO0_PxIFG &= ~GDO0_PIN; // Clear flag //PORT_PDD_ClearInterruptFlags(PORTD_BASE_PTR, GDO0_PIN); //PORT_PDD_SetPinInterruptConfiguration(PORTD_BASE_PTR, GDO0_PIN, PORT_PDD_INTERRUPT_ON_FALLING); // GDO0_PxIE |= GDO0_PIN; // Enable interrupt }
/******************************************************************************* * @fn cc2500_tx( uint8_t* p_buffer, uint8_t length ) * @brief Send raw message through radio * ****************************************************************************/ void cc2500_tx( uint8_t* p_buffer, uint8_t length ) { GDO0_PxIE &= ~GDO0_PIN; // Disable interrupt cc_write_burst_reg(TI_CCxxx0_TXFIFO, p_buffer, length); // Write TX data cc_strobe(TI_CCxxx0_STX); // Change state to TX, initiating // data transfer while (!(GDO0_PxIN&GDO0_PIN)); // Wait GDO0 to go hi -> sync TX'ed while (GDO0_PxIN&GDO0_PIN); // Wait GDO0 to clear -> end of pkt GDO0_PxIFG &= ~GDO0_PIN; // After pkt TX, this flag is set. // Has to be cleared before existing GDO0_PxIFG &= ~GDO0_PIN; // Clear flag GDO0_PxIE |= GDO0_PIN; // Enable interrupt }
/******************************************************************************* * @fn cc2500_set_power( uint8_t ); * @brief Set device transmit power * ****************************************************************************/ void cc2500_set_power( uint8_t power ) { // Set TX power cc_write_burst_reg(TI_CCxxx0_PATABLE, &power, 1 ); }