📄 cc1100-cc2500.c
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TI_CC_SPIWriteReg(TI_CCxxx0_FREND0, 0x10); // Front end RX configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL3, 0xEA); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL2, 0x0A); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL1, 0x00); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL0, 0x11); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSTEST, 0x59); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST2, 0x88); // Various test settings.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST1, 0x31); // Various test settings.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST0, 0x0B); // Various test settings.
}
// PATABLE (0 dBm output power)
extern char paTable[] = {0x60};
extern char paTableLen = 1;
#endif
#if TI_CC_RF_FREQ == 915 // 915 MHz
// Product = CC1100
// Crystal accuracy = 40 ppm
// X-tal frequency = 26 MHz
// RF output power = 0 dBm
// RX filterbandwidth = 540.000000 kHz
// Deviation = 0.000000
// Return state: Return to RX state upon leaving either TX or RX
// Datarate = 250.000000 kbps
// Modulation = (7) MSK
// Manchester enable = (0) Manchester disabled
// RF Frequency = 915.000000 MHz
// Channel spacing = 199.951172 kHz
// Channel number = 0
// Optimization = Sensitivity
// Sync mode = (3) 30/32 sync word bits detected
// Format of RX/TX data = (0) Normal mode, use FIFOs for RX and TX
// CRC operation = (1) CRC calculation in TX and CRC check in RX enabled
// Forward Error Correction = (0) FEC disabled
// Length configuration = (1) Variable length packets, packet length configured by the first received byte after sync word.
// Packetlength = 255
// Preamble count = (2) 4 bytes
// Append status = 1
// Address check = (0) No address check
// FIFO autoflush = 0
// Device address = 0
// GDO0 signal selection = ( 6) Asserts when sync word has been sent / received, and de-asserts at the end of the packet
// GDO2 signal selection = (11) Serial Clock
void writeRFSettings(void)
{
// Write register settings
TI_CC_SPIWriteReg(TI_CCxxx0_IOCFG2, 0x0B); // GDO2 output pin config.
TI_CC_SPIWriteReg(TI_CCxxx0_IOCFG0, 0x06); // GDO0 output pin config.
TI_CC_SPIWriteReg(TI_CCxxx0_PKTLEN, 0xFF); // Packet length.
TI_CC_SPIWriteReg(TI_CCxxx0_PKTCTRL1, 0x05); // Packet automation control.
TI_CC_SPIWriteReg(TI_CCxxx0_PKTCTRL0, 0x05); // Packet automation control.
TI_CC_SPIWriteReg(TI_CCxxx0_ADDR, 0x01); // Device address.
TI_CC_SPIWriteReg(TI_CCxxx0_CHANNR, 0x00); // Channel number.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCTRL1, 0x0B); // Freq synthesizer control.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCTRL0, 0x00); // Freq synthesizer control.
TI_CC_SPIWriteReg(TI_CCxxx0_FREQ2, 0x23); // Freq control word, high byte
TI_CC_SPIWriteReg(TI_CCxxx0_FREQ1, 0x31); // Freq control word, mid byte.
TI_CC_SPIWriteReg(TI_CCxxx0_FREQ0, 0x3B); // Freq control word, low byte.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG4, 0x2D); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG3, 0x3B); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG2, 0x73); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG1, 0x22); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG0, 0xF8); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_DEVIATN, 0x00); // Modem dev (when FSK mod en)
TI_CC_SPIWriteReg(TI_CCxxx0_MCSM1 , 0x3F); //MainRadio Cntrl State Machine
TI_CC_SPIWriteReg(TI_CCxxx0_MCSM0 , 0x18); //MainRadio Cntrl State Machine
TI_CC_SPIWriteReg(TI_CCxxx0_FOCCFG, 0x1D); // Freq Offset Compens. Config
TI_CC_SPIWriteReg(TI_CCxxx0_BSCFG, 0x1C); // Bit synchronization config.
TI_CC_SPIWriteReg(TI_CCxxx0_AGCCTRL2, 0xC7); // AGC control.
TI_CC_SPIWriteReg(TI_CCxxx0_AGCCTRL1, 0x00); // AGC control.
TI_CC_SPIWriteReg(TI_CCxxx0_AGCCTRL0, 0xB2); // AGC control.
TI_CC_SPIWriteReg(TI_CCxxx0_FREND1, 0xB6); // Front end RX configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_FREND0, 0x10); // Front end RX configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL3, 0xEA); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL2, 0x0A); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL1, 0x00); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL0, 0x11); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSTEST, 0x59); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST2, 0x88); // Various test settings.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST1, 0x31); // Various test settings.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST0, 0x0B); // Various test settings.
}
// PATABLE (0 dBm output power)
extern char paTable[] = {0x50};
extern char paTableLen = 1;
#endif
#if TI_CC_RF_FREQ == 2400 // 2.4GHz
// Product = CC2500
// Crystal accuracy = 40 ppm
// X-tal frequency = 26 MHz
// RF output power = 0 dBm
// RX filterbandwidth = 540.000000 kHz
// Deviation = 0.000000
// Return state: Return to RX state upon leaving either TX or RX
// Datarate = 250.000000 kbps
// Modulation = (7) MSK
// Manchester enable = (0) Manchester disabled
// RF Frequency = 2433.000000 MHz
// Channel spacing = 199.950000 kHz
// Channel number = 0
// Optimization = Sensitivity
// Sync mode = (3) 30/32 sync word bits detected
// Format of RX/TX data = (0) Normal mode, use FIFOs for RX and TX
// CRC operation = (1) CRC calculation in TX and CRC check in RX enabled
// Forward Error Correction = (0) FEC disabled
// Length configuration = (1) Variable length packets, packet length configured by the first received byte after sync word.
// Packetlength = 255
// Preamble count = (2) 4 bytes
// Append status = 1
// Address check = (0) No address check
// FIFO autoflush = 0
// Device address = 0
// GDO0 signal selection = ( 6) Asserts when sync word has been sent / received, and de-asserts at the end of the packet
// GDO2 signal selection = (11) Serial Clock
void writeRFSettings(void)
{
// Write register settings
TI_CC_SPIWriteReg(TI_CCxxx0_IOCFG2, 0x0B); // GDO2 output pin config.
TI_CC_SPIWriteReg(TI_CCxxx0_IOCFG0, 0x06); // GDO0 output pin config.
TI_CC_SPIWriteReg(TI_CCxxx0_PKTLEN, 0xFF); // Packet length.
TI_CC_SPIWriteReg(TI_CCxxx0_PKTCTRL1, 0x05); // Packet automation control.
TI_CC_SPIWriteReg(TI_CCxxx0_PKTCTRL0, 0x05); // Packet automation control.
TI_CC_SPIWriteReg(TI_CCxxx0_ADDR, 0x01); // Device address.
TI_CC_SPIWriteReg(TI_CCxxx0_CHANNR, 0x00); // Channel number.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCTRL1, 0x07); // Freq synthesizer control.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCTRL0, 0x00); // Freq synthesizer control.
TI_CC_SPIWriteReg(TI_CCxxx0_FREQ2, 0x5D); // Freq control word, high byte
TI_CC_SPIWriteReg(TI_CCxxx0_FREQ1, 0x93); // Freq control word, mid byte.
TI_CC_SPIWriteReg(TI_CCxxx0_FREQ0, 0xB1); // Freq control word, low byte.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG4, 0x2D); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG3, 0x3B); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG2, 0x73); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG1, 0x22); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_MDMCFG0, 0xF8); // Modem configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_DEVIATN, 0x00); // Modem dev (when FSK mod en)
TI_CC_SPIWriteReg(TI_CCxxx0_MCSM1 , 0x30); //MainRadio Cntrl State Machine
TI_CC_SPIWriteReg(TI_CCxxx0_MCSM0 , 0x19); //MainRadio Cntrl State Machine
TI_CC_SPIWriteReg(TI_CCxxx0_FOCCFG, 0x1D); // Freq Offset Compens. Config
TI_CC_SPIWriteReg(TI_CCxxx0_BSCFG, 0x1C); // Bit synchronization config.
TI_CC_SPIWriteReg(TI_CCxxx0_AGCCTRL2, 0xC7); // AGC control.
TI_CC_SPIWriteReg(TI_CCxxx0_AGCCTRL1, 0x00); // AGC control.
TI_CC_SPIWriteReg(TI_CCxxx0_AGCCTRL0, 0xB2); // AGC control.
TI_CC_SPIWriteReg(TI_CCxxx0_FREND1, 0xB6); // Front end RX configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_FREND0, 0x10); // Front end RX configuration.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL3, 0xEA); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL2, 0x0A); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL1, 0x00); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSCAL0, 0x11); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_FSTEST, 0x59); // Frequency synthesizer cal.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST2, 0x88); // Various test settings.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST1, 0x31); // Various test settings.
TI_CC_SPIWriteReg(TI_CCxxx0_TEST0, 0x0B); // Various test settings.
}
// PATABLE (0 dBm output power)
extern char paTable[] = {0xFB};
extern char paTableLen = 1;
#endif
void RFSendPacket(char *txBuffer, char size)
{
TI_CC_SPIWriteBurstReg(TI_CCxxx0_TXFIFO, txBuffer, size); // Write TX data
TI_CC_SPIStrobe(TI_CCxxx0_STX); // Change state to TX, initiating
// data transfer
// while (!(TI_CC_GDO0_PxIN&TI_CC_GDO0_PIN));
// Wait GDO0 to go hi -> sync TX'ed
//while (TI_CC_GDO0_PxIN&TI_CC_GDO0_PIN);
// Wait GDO0 to clear -> end of pkt
}
char RFReceivePacket(char *rxBuffer, char *length)
{
char status[2];
char pktLen;
if ((TI_CC_SPIReadStatus(TI_CCxxx0_RXBYTES) & TI_CCxxx0_NUM_RXBYTES))
{
pktLen = TI_CC_SPIReadReg(TI_CCxxx0_RXFIFO); // Read length byte
if (pktLen <= *length) // If pktLen size <= rxBuffer
{
TI_CC_SPIReadBurstReg(TI_CCxxx0_RXFIFO, rxBuffer, pktLen); // Pull data
*length = pktLen; // Return the actual size
TI_CC_SPIReadBurstReg(TI_CCxxx0_RXFIFO, status, 2);
// Read appended status bytes
return (char)(status[TI_CCxxx0_LQI_RX]&TI_CCxxx0_CRC_OK);
} // Return CRC_OK bit
else
{
*length = pktLen; // Return the large size
TI_CC_SPIStrobe(TI_CCxxx0_SFRX); // Flush RXFIFO
return 0; // Error
}
}
else
return 0; // Error
}
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