X-Git-Url: https://git.gag.com/?a=blobdiff_plain;f=device%2Finclude%2Fmcs51%2Fcc2430.h;h=d4d455c5f059e70cfeff9f8cf449c296b07ebd51;hb=5c167d844868e592617c9a8f1355abb9e29647a9;hp=76ad537032584492ec347ece5c48e475a90c713e;hpb=4a739655b9d81efc3155fdd9326ac1f55d415253;p=fw%2Fsdcc diff --git a/device/include/mcs51/cc2430.h b/device/include/mcs51/cc2430.h index 76ad5370..d4d455c5 100644 --- a/device/include/mcs51/cc2430.h +++ b/device/include/mcs51/cc2430.h @@ -1,431 +1,431 @@ -/*------------------------------------------------------------------------- - Register Declarations for Chipcon CC2430 - - Written By - Jesus Calvino-Fraga / jesusc at ece.ubc.ca (December 2006) - (Based on CC2430 PRELIMINARY Data Sheet (rev. 1.03) SWRS036A) - - This library is free software; you can redistribute it and/or - modify it under the terms of the GNU Lesser General Public - License as published by the Free Software Foundation; either - version 2.1 of the License, or (at your option) any later version. - - This library is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU - Lesser General Public License for more details. - - You should have received a copy of the GNU Lesser General Public - License along with this library; if not, write to the Free Software - Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA - - In other words, you are welcome to use, share and improve this program. - You are forbidden to forbid anyone else to use, share and improve - what you give them. Help stamp out software-hoarding! --------------------------------------------------------------------------*/ - -#ifndef REG_CC2430_H -#define REG_CC2430_H - -#include - -// Interrupt Vectors - -#define RFERR_VECTOR 0 // RF TX FIFO underflow and RX FIFO overflow. -#define ADC_VECTOR 1 // ADC end of conversion -#define URX0_VECTOR 2 // USART0 RX complete -#define URX1_VECTOR 3 // USART1 RX complete -#define ENC_VECTOR 4 // AES encryption/decryption complete -#define ST_VECTOR 5 // Sleep Timer compare -#define P2INT_VECTOR 6 // Port 2 inputs -#define UTX0_VECTOR 7 // USART0 TX complete -#define DMA_VECTOR 8 // DMA transfer complete -#define T1_VECTOR 9 // Timer 1 (16-bit) capture/compare/overflow -#define T2_VECTOR 10 // Timer 2 (MAC Timer) -#define T3_VECTOR 11 // Timer 3 (8-bit) capture/compare/overflow -#define T4_VECTOR 12 // Timer 4 (8-bit) capture/compare/overflow -#define P0INT_VECTOR 13 // Port 0 inputs -#define UTX1_VECTOR 14 // USART1 TX complete -#define P1INT_VECTOR 15 // Port 1 inputs -#define RF_VECTOR 16 // RF general interrupts -#define WDT_VECTOR 17 // Watchdog overflow in timer mode - -// SFR Registers and BITs - -SFR(P0, 0x80); // Port 0 - SBIT(P0_0, 0x80, 0); // Port 0 bit 0 - SBIT(P0_1, 0x80, 1); // Port 0 bit 1 - SBIT(P0_2, 0x80, 2); // Port 0 bit 2 - SBIT(P0_3, 0x80, 3); // Port 0 bit 3 - SBIT(P0_4, 0x80, 4); // Port 0 bit 4 - SBIT(P0_5, 0x80, 5); // Port 0 bit 5 - SBIT(P0_6, 0x80, 6); // Port 0 bit 6 - SBIT(P0_7, 0x80, 7); // Port 0 bit 7 -SFR(SP, 0x81); // Stack Pointer -SFR(DPL0, 0x82); // Data Pointer 0 Low Byte -SFR(DPH0, 0x83); // Data Pointer 0 High Byte -SFR(DPL1, 0x84); // Data Pointer 1 Low Byte -SFR(DPH1, 0x85); // Data Pointer 1 High Byte -SFR(U0CSR, 0x86); // USART 0 Control and Status -SFR(PCON, 0x87); // Power Mode Control -SFR(TCON, 0x88); // Interrupt Flags - SBIT(IT0, 0x88, 0); // reserved (must always be set to 1) - SBIT(RFERRIF, 0x88, 1); // RFERR – RF TX/RX FIFO interrupt flag - SBIT(IT1, 0x88, 2); // reserved (must always be set to 1) - SBIT(URX0IF, 0x88, 3); // USART0 RX Interrupt Flag - SBIT(ADCIF, 0x88, 5); // ADC Interrupt Flag - SBIT(URX1IF, 0x88, 7); // USART1 RX Interrupt Flag -SFR(P0IFG, 0x89); // Port 0 Interrupt Status Flag -SFR(P1IFG, 0x8A); // Port 1 Interrupt Status Flag -SFR(P2IFG, 0x8B); // Port 2 Interrupt Status Flag -SFR(PICTL, 0x8C); // Port Interrupt Control -SFR(P1IEN, 0x8D); // Port 1 Interrupt Mask -SFR(P0INP, 0x8F); // Port 0 Input Mode -SFR(P1, 0x90); // Port 1 - SBIT(P1_0, 0x90, 0); // Port 1 bit 0 - SBIT(P1_1, 0x90, 1); // Port 1 bit 1 - SBIT(P1_2, 0x90, 2); // Port 1 bit 2 - SBIT(P1_3, 0x90, 3); // Port 1 bit 3 - SBIT(P1_4, 0x90, 4); // Port 1 bit 4 - SBIT(P1_5, 0x90, 5); // Port 1 bit 5 - SBIT(P1_6, 0x90, 6); // Port 1 bit 6 - SBIT(P1_7, 0x90, 7); // Port 1 bit 7 -SFR(RFIM, 0x91); // RF Interrupt Mask -SFR(DPS, 0x92); // Data Pointer Select -SFR(MPAGE, 0x93); // Memory Page Select -SFR(_XPAGE, 0x93); // Memory Page Select under the name SDCC needs it -SFR(T2CMP, 0x94); // Timer 2 Compare Value -SFR(ST0, 0x95); // Sleep Timer 0 -SFR(ST1, 0x96); // Sleep Timer 1 -SFR(ST2, 0x97); // Sleep Timer 2 -SFR(S0CON, 0x98); // Interrupt Flags 2 - SBIT(ENCIF_0, 0x98, 0); // AES Interrupt Flag 0 - SBIT(ENCIF_1, 0x98, 1); // AES Interrupt Flag 1 -SFR(IEN2, 0x9A); // Interrupt Enable 2 -SFR(S1CON, 0x9B); // Interrupt Flags 3 -SFR(T2PEROF0, 0x9C); // Timer 2 Overflow Capture/Compare 0 -SFR(T2PEROF1, 0x9D); // Timer 2 Overflow Capture/Compare 1 -SFR(T2PEROF2, 0x9E); // Timer 2 Overflow Capture/Compare 2 -SFR(P2, 0xA0); // Port 2 - SBIT(P2_0, 0xA0, 0); // Port 2 bit 0 - SBIT(P2_1, 0xA0, 1); // Port 2 bit 1 - SBIT(P2_2, 0xA0, 2); // Port 2 bit 2 - SBIT(P2_3, 0xA0, 3); // Port 2 bit 3 - SBIT(P2_4, 0xA0, 4); // Port 2 bit 4 - SBIT(P2_5, 0xA0, 5); // Port 2 bit 5 - SBIT(P2_6, 0xA0, 6); // Port 2 bit 6 - SBIT(P2_7, 0xA0, 7); // Port 2 bit 7 -SFR(T2OF0, 0xA1); // Timer 2 Overflow Count 0 -SFR(T2OF1, 0xA2); // Timer 2 Overflow Count 1 -SFR(T2OF2, 0xA3); // Timer 2 Overflow Count 2 -SFR(T2CAPLPL, 0xA4); // Timer 2 Period Low Byte -SFR(T2CAPHPH, 0xA5); // Timer 2 Period High Byte -SFR(T2TLD, 0xA6); // Timer 2 Timer Value Low Byte -SFR(T2THD, 0xA7); // Timer 2 Timer Value High Byte -SFR(IEN0, 0xA8); // Interrupt Enable 0 - SBIT(RFERRIE, 0xA8, 0); // RF TX/RX FIFO interrupt enable - SBIT(ADCIE, 0xA8, 1); // ADC Interrupt Enable - SBIT(URX0IE, 0xA8, 2); // USART0 RX Interrupt Enable - SBIT(URX1IE, 0xA8, 3); // USART1 RX Interrupt Enable - SBIT(ENCIE, 0xA8, 4); // AES Encryption/Decryption Interrupt Enable - SBIT(STIE, 0xA8, 5); // Sleep Timer Interrupt Enable - SBIT(EA, 0xA8, 7); // Global Interrupt Enable -SFR(IP0, 0xA9); // Interrupt Priority 0 -SFR(FWT, 0xAB); // Flash Write Timing -SFR(FADDRL, 0xAC); // Flash Address Low Byte -SFR(FADDRH, 0xAD); // Flash Address High Byte -SFR(FCTL, 0xAE); // Flash Control -SFR(FWDATA, 0xAF); // Flash Write Data -SFR(ENCDI, 0xB1); // Encryption Input Data -SFR(ENCDO, 0xB2); // Encryption Output Data -SFR(ENCCS, 0xB3); // Encryption Control and Status -SFR(ADCCON1, 0xB4); // ADC Control 1 -SFR(ADCCON2, 0xB5); // ADC Control 2 -SFR(ADCCON3, 0xB6); // ADC Control 3 -SFR(IEN1, 0xB8); // Interrupt Enable 1 - SBIT(DMAIE, 0xB8, 0); // DMA Transfer Interrupt Enable - SBIT(T1IE, 0xB8, 1); // Timer 1 Interrupt Enable - SBIT(T2IE, 0xB8, 2); // Timer 2 Interrupt Enable - SBIT(T3IE, 0xB8, 3); // Timer 3 Interrupt Enable - SBIT(T4IE, 0xB8, 4); // Timer 4 Interrupt Enable - SBIT(P0IE, 0xB8, 5); // Port 0 Interrupt Enable -SFR(IP1, 0xB9); // Interrupt Priority 1 -SFR(ADCL, 0xBA); // ADC Data Low -SFR(ADCH, 0xBB); // ADC Data High -SFR(RNDL, 0xBC); // Random Number Generator Data Low Byte -SFR(RNDH, 0xBD); // Random Number Generator Data High Byte -SFR(SLEEP, 0xBE); // Sleep Mode Control -SFR(IRCON, 0xC0); // Interrupt Flags 4 - SBIT(DMAIF, 0xC0, 0); // DMA Complete Interrupt Flag - SBIT(T1IF, 0xC0, 1); // Timer 1 Interrupt Flag - SBIT(T2IF, 0xC0, 2); // Timer 2 Interrupt Flag - SBIT(T3IF, 0xC0, 3); // Timer 3 Interrupt Flag - SBIT(T4IF, 0xC0, 4); // Timer 4 Interrupt Flag - SBIT(P0IF, 0xC0, 5); // Port 0 Interrupt Flag - SBIT(STIF, 0xC0, 7); // Sleep Timer Interrupt Flag -SFR(U0DBUF, 0xC1); // USART 0 Receive/Transmit Data Buffer -SFR(U0BAUD, 0xC2); // USART 0 Baud Rate Control -SFR(T2CNF, 0xC3); // Timer 2 Configuration -SFR(U0UCR, 0xC4); // USART 0 UART Control -SFR(U0GCR, 0xC5); // USART 0 Generic Control -SFR(CLKCON, 0xC6); // Clock Control -SFR(MEMCTR, 0xC7); // Memory Arbiter Control -SFR(WDCTL, 0xC9); // Watchdog Timer Control -SFR(T3CNT, 0xCA); // Timer 3 Counter -SFR(T3CTL, 0xCB); // Timer 3 Control -SFR(T3CCTL0, 0xCC); // Timer 3 Channel 0 Capture/Compare Control -SFR(T3CC0, 0xCD); // Timer 3 Channel 0 Capture/Compare Value -SFR(T3CCTL1, 0xCE); // Timer 3 Channel 1 Capture/Compare Control -SFR(T3CC1, 0xCF); // Timer 3 Channel 1 Capture/Compare Value -SFR(PSW, 0xD0); // Program Status Word - SBIT(P, 0xD0, 0); // Parity Flag - SBIT(F1, 0xD0, 1); // User-Defined Flag - SBIT(OV, 0xD0, 2); // Overflow Flag - SBIT(RS0, 0xD0, 3); // Register Bank Select 0 - SBIT(RS1, 0xD0, 4); // Register Bank Select 1 - SBIT(F0, 0xD0, 5); // User-Defined Flag - SBIT(AC, 0xD0, 6); // Auxiliary Carry Flag - SBIT(CY, 0xD0, 7); // Carry Flag -SFR(DMAIRQ, 0xD1); // DMA Interrupt Flag -SFR(DMA1CFGL, 0xD2); // DMA Channel 1-4 Configuration Address Low Byte -SFR(DMA1CFGH, 0xD3); // DMA Channel 1-4 Configuration Address High Byte -SFR(DMA0CFGL, 0xD4); // DMA Channel 0 Configuration Address Low Byte -SFR(DMA0CFGH, 0xD5); // DMA Channel 0 Configuration Address High Byte -SFR(DMAARM, 0xD6); // DMA Channel Arm -SFR(DMAREQ, 0xD7); // DMA Channel Start Request and Status -SFR(TIMIF, 0xD8); // Timers 1/3/4 Interrupt Mask/Flag - SBIT(T3OVFIF, 0xD8, 0); // Timer 3 overflow interrupt flag 0:no pending 1:pending - SBIT(T3CH0IF, 0xD8, 1); // Timer 3 channel 0 interrupt flag 0:no pending 1:pending - SBIT(T3CH1IF, 0xD8, 2); // Timer 3 channel 1 interrupt flag 0:no pending 1:pending - SBIT(T4OVFIF, 0xD8, 3); // Timer 4 overflow interrupt flag 0:no pending 1:pending - SBIT(T4CH0IF, 0xD8, 4); // Timer 4 channel 0 interrupt flag 0:no pending 1:pending - SBIT(T4CH1IF, 0xD8, 5); // Timer 4 channel 1 interrupt flag 0:no pending 1:pending - SBIT(OVFIM, 0xD8, 6); // Timer 1 overflow interrupt mask -SFR(RFD, 0xD9); // RF Data -SFR(T1CC0L, 0xDA); // Timer 1 Channel 0 Capture/Compare Value Low -SFR(T1CC0H, 0xDB); // Timer 1 Channel 0 Capture/Compare Value High -SFR(T1CC1L, 0xDC); // Timer 1 Channel 1 Capture/Compare Value Low -SFR(T1CC1H, 0xDD); // Timer 1 Channel 1 Capture/Compare Value High -SFR(T1CC2L, 0xDE); // Timer 1 Channel 2 Capture/Compare Value Low -SFR(T1CC2H, 0xDF); // Timer 1 Channel 2 Capture/Compare Value High -SFR(ACC, 0xE0); // Accumulator - SBIT(ACC_0, 0xE0, 0); // Accumulator bit 0 - SBIT(ACC_1, 0xE0, 1); // Accumulator bit 1 - SBIT(ACC_2, 0xE0, 2); // Accumulator bit 2 - SBIT(ACC_3, 0xE0, 3); // Accumulator bit 3 - SBIT(ACC_4, 0xE0, 4); // Accumulator bit 4 - SBIT(ACC_5, 0xE0, 5); // Accumulator bit 5 - SBIT(ACC_6, 0xE0, 6); // Accumulator bit 6 - SBIT(ACC_7, 0xE0, 7); // Accumulator bit 7 -SFR(RFST, 0xE1); // RF CSMA-CA / Strobe Processor -SFR(T1CNTL, 0xE2); // Timer 1 Counter Low -SFR(T1CNTH, 0xE3); // Timer 1 Counter High -SFR(T1CTL, 0xE4); // Timer 1 Control and Status -SFR(T1CCTL0, 0xE5); // Timer 1 Channel 0 Capture/Compare Control -SFR(T1CCTL1, 0xE6); // Timer 1 Channel 1 Capture/Compare Control -SFR(T1CCTL2, 0xE7); // Timer 1 Channel 2 Capture/Compare Control -SFR(IRCON2, 0xE8); // Interrupt Flags 5 - SBIT(P2IF, 0xE8, 0); // Port 2 Interrupt Flag - SBIT(UTX0IF, 0xE8, 1); // USART0 TX Interrupt Flag - SBIT(UTX1IF, 0xE8, 2); // USART1 TX Interrupt Flag - SBIT(P1IF, 0xE8, 3); // Port 1 Interrupt Flag - SBIT(WDTIF, 0xE8, 4); // Watchdog Timer Interrupt Flag -SFR(RFIF, 0xE9); // RF Interrupt Flags -SFR(T4CNT, 0xEA); // Timer 4 Counter -SFR(T4CTL, 0xEB); // Timer 4 Control -SFR(T4CCTL0, 0xEC); // Timer 4 Channel 0 Capture/Compare Control -SFR(T4CC0, 0xED); // Timer 4 Channel 0 Capture/Compare Value -SFR(T4CCTL1, 0xEE); // Timer 4 Channel 1 Capture/Compare Control -SFR(T4CC1, 0xEF); // Timer 4 Channel 1 Capture/Compare Value -SFR(B, 0xF0); // B Register - SBIT(B_0, 0xF0, 0); // Register B bit 0 - SBIT(B_1, 0xF0, 1); // Register B bit 1 - SBIT(B_2, 0xF0, 2); // Register B bit 2 - SBIT(B_3, 0xF0, 3); // Register B bit 3 - SBIT(B_4, 0xF0, 4); // Register B bit 4 - SBIT(B_5, 0xF0, 5); // Register B bit 5 - SBIT(B_6, 0xF0, 6); // Register B bit 6 - SBIT(B_7, 0xF0, 7); // Register B bit 7 -SFR(PERCFG, 0xF1); // Peripheral Control -SFR(ADCCFG, 0xF2); // ADC Input Configuration -SFR(P0SEL, 0xF3); // Port 0 Function Select -SFR(P1SEL, 0xF4); // Port 1 Function Select -SFR(P2SEL, 0xF5); // Port 2 Function Select -SFR(P1INP, 0xF6); // Port 1 Input Mode -SFR(P2INP, 0xF7); // Port 2 Input Mode -SFR(U1CSR, 0xF8); // USART 1 Control and Status - SBIT(ACTIVE, 0xF8, 0); // USART transmit/receive active status 0:idle 1:busy - SBIT(TX_BYTE, 0xF8, 1); // Transmit byte status 0:Byte not transmitted 1:Last byte transmitted - SBIT(RX_BYTE, 0xF8, 2); // Receive byte status 0:No byte received 1:Received byte ready - SBIT(ERR, 0xF8, 3); // UART parity error status 0:No error 1:parity error - SBIT(FE, 0xF8, 4); // UART framing error status 0:No error 1:incorrect stop bit level - SBIT(SLAVE, 0xF8, 5); // SPI master or slave mode select 0:master 1:slave - SBIT(RE, 0xF8, 6); // UART receiver enable 0:disabled 1:enabled - SBIT(MODE, 0xF8, 7); // USART mode select 0:SPI 1:UART -SFR(U1DBUF, 0xF9); // USART 1 Receive/Transmit Data Buffer -SFR(U1BAUD, 0xFA); // USART 1 Baud Rate Control -SFR(U1UCR, 0xFB); // USART 1 UART Control -SFR(U1GCR, 0xFC); // USART 1 Generic Control -SFR(P0DIR, 0xFD); // Port 0 Direction -SFR(P1DIR, 0xFE); // Port 1 Direction -SFR(P2DIR, 0xFF); // Port 2 Direction - -// From Table 45 : Overview of RF registers - -SFRX(MDMCTRL0H, 0xDF02); // Modem Control 0, high -SFRX(MDMCTRL0L, 0xDF03); // Modem Control 0, low -SFRX(MDMCTRL1H, 0xDF04); // Modem Control 1, high -SFRX(MDMCTRL1L, 0xDF05); // Modem Control 1, low -SFRX(RSSIH, 0xDF06); // RSSI and CCA Status and Control, high -SFRX(RSSIL, 0xDF07); // RSSI and CCA Status and Control, low -SFRX(SYNCWORDH, 0xDF08); // Synchronisation Word Control, high -SFRX(SYNCWORDL, 0xDF09); // Synchronisation Word Control, low -SFRX(TXCTRLH, 0xDF0A); // Transmit Control, high -SFRX(TXCTRLL, 0xDF0B); // Transmit Control, low -SFRX(RXCTRL0H, 0xDF0C); // Receive Control 0, high -SFRX(RXCTRL0L, 0xDF0D); // Receive Control 0, low -SFRX(RXCTRL1H, 0xDF0E); // Receive Control 1, high -SFRX(RXCTRL1L, 0xDF0F); // Receive Control 1, low -SFRX(FSCTRLH, 0xDF10); // Frequency Synthesizer Control and Status, high -SFRX(FSCTRLL, 0xDF11); // Frequency Synthesizer Control and Status, low -SFRX(CSPX, 0xDF12); // CSP X Data -SFRX(CSPY, 0xDF13); // CSP Y Data -SFRX(CSPZ, 0xDF14); // CSP Z Data -SFRX(CSPCTRL, 0xDF15); // CSP Control -SFRX(CSPT, 0xDF16); // CSP T Data -SFRX(RFPWR, 0xDF17); // RF Power Control -SFRX(FSMTCH, 0xDF20); // Finite State Machine Time Constants, high -SFRX(FSMTCL, 0xDF21); // Finite State Machine Time Constants, low -SFRX(MANANDH, 0xDF22); // Manual AND Override, high -SFRX(MANANDL, 0xDF23); // Manual AND Override, low -SFRX(MANORH, 0xDF24); // Manual OR Override, high -SFRX(MANORL, 0xDF25); // Manual OR Override, low -SFRX(AGCCTRLH, 0xDF26); // AGC Control, high -SFRX(AGCCTRLL, 0xDF27); // AGC Control, low -SFRX(FSMSTATE, 0xDF39); // Finite State Machine State Status -SFRX(ADCTSTH, 0xDF3A); // ADC Test, high -SFRX(ADCTSTL, 0xDF3B); // ADC Test, low -SFRX(DACTSTH, 0xDF3C); // DAC Test, high -SFRX(DACTSTL, 0xDF3D); // DAC Test, low -SFRX(IEEE_ADDR0, 0xDF43); // IEEE Address 0 -SFRX(IEEE_ADDR1, 0xDF44); // IEEE Address 1 -SFRX(IEEE_ADDR2, 0xDF45); // IEEE Address 2 -SFRX(IEEE_ADDR3, 0xDF46); // IEEE Address 3 -SFRX(IEEE_ADDR4, 0xDF47); // IEEE Address 4 -SFRX(IEEE_ADDR5, 0xDF48); // IEEE Address 5 -SFRX(IEEE_ADDR6, 0xDF49); // IEEE Address 6 -SFRX(IEEE_ADDR7, 0xDF4A); // IEEE Address 7 -SFRX(PANIDH, 0xDF4B); // PAN Identifier, high -SFRX(PANIDL, 0xDF4C); // PAN Identifier, low -SFRX(SHORTADDRH, 0xDF4D); // Short Address, high -SFRX(SHORTADDRL, 0xDF4E); // Short Address, low -SFRX(IOCFG0, 0xDF4F); // I/O Configuration 0 -SFRX(IOCFG1, 0xDF50); // I/O Configuration 1 -SFRX(IOCFG2, 0xDF51); // I/O Configuration 2 -SFRX(IOCFG3, 0xDF52); // I/O Configuration 3 -SFRX(RXFIFOCNT, 0xDF53); // RX FIFO Count -SFRX(FSMTC1, 0xDF54); // Finite State Machine Control -SFRX(CHVER, 0xDF60); // Chip Version -SFRX(CHIPID, 0xDF61); // Chip Identification -SFRX(RFSTATUS, 0xDF62); // RF Status - -// SFRs also accesible through XDATA space - -SFRX(X_U0CSR, 0xDF86); // USART 0 Control and Status -SFRX(X_P0IFG, 0xDF89); // Port 0 Interrupt Status Flag -SFRX(X_P1IFG, 0xDF8A); // Port 1 Interrupt Status Flag -SFRX(X_P2IFG, 0xDF8B); // Port 2 Interrupt Status Flag -SFRX(X_PICTL, 0xDF8C); // Port Interrupt Control -SFRX(X_P1IEN, 0xDF8D); // Port 1 Interrupt Mask -SFRX(X_P0INP, 0xDF8F); // Port 0 Input Mode -SFRX(X_RFIM, 0xDF91); // RF Interrupt Mask -SFRX(X_MPAGE, 0xDF93); // Memory Page Select -SFRX(X_T2CMP, 0xDF94); // Timer 2 Compare Value -SFRX(X_ST0, 0xDF95); // Sleep Timer 0 -SFRX(X_ST1, 0xDF96); // Sleep Timer 1 -SFRX(X_ST2, 0xDF97); // Sleep Timer 2 -SFRX(X_T2PEROF0, 0xDF9C); // Timer 2 Overflow Capture/Compare 0 -SFRX(X_T2PEROF1, 0xDF9D); // Timer 2 Overflow Capture/Compare 1 -SFRX(X_T2PEROF2, 0xDF9E); // Timer 2 Overflow Capture/Compare 2 -SFRX(X_T2OF0, 0xDFA1); // Timer 2 Overflow Count 0 -SFRX(X_T2OF1, 0xDFA2); // Timer 2 Overflow Count 1 -SFRX(X_T2OF2, 0xDFA3); // Timer 2 Overflow Count 2 -SFRX(X_T2CAPLPL, 0xDFA4); // Timer 2 Period Low Byte -SFRX(X_T2CAPHPH, 0xDFA5); // Timer 2 Period High Byte -SFRX(X_T2TLD, 0xDFA6); // Timer 2 Timer Value Low Byte -SFRX(X_T2THD, 0xDFA7); // Timer 2 Timer Value High Byte -SFRX(X_FWT, 0xDFAB); // Flash Write Timing -SFRX(X_FADDRL, 0xDFAC); // Flash Address Low Byte -SFRX(X_FADDRH, 0xDFAD); // Flash Address High Byte -SFRX(X_FCTL, 0xDFAE); // Flash Control -SFRX(X_FWDATA, 0xDFAF); // Flash Write Data -SFRX(X_ENCDI, 0xDFB1); // Encryption Input Data -SFRX(X_ENCDO, 0xDFB2); // Encryption Output Data -SFRX(X_ENCCS, 0xDFB3); // Encryption Control and Status -SFRX(X_ADCCON1, 0xDFB4); // ADC Control 1 -SFRX(X_ADCCON2, 0xDFB5); // ADC Control 2 -SFRX(X_ADCCON3, 0xDFB6); // ADC Control 3 -SFRX(X_ADCL, 0xDFBA); // ADC Data Low -SFRX(X_ADCH, 0xDFBB); // ADC Data High -SFRX(X_RNDL, 0xDFBC); // Random Number Generator Data Low Byte -SFRX(X_RNDH, 0xDFBD); // Random Number Generator Data High Byte -SFRX(X_SLEEP, 0xDFBE); // Sleep Mode Control -SFRX(X_U0DBUF, 0xDFC1); // USART 0 Receive/Transmit Data Buffer -SFRX(X_U0BAUD, 0xDFC2); // USART 0 Baud Rate Control -SFRX(X_T2CNF, 0xDFC3); // Timer 2 Configuration -SFRX(X_U0UCR, 0xDFC4); // USART 0 UART Control -SFRX(X_U0GCR, 0xDFC5); // USART 0 Generic Control -SFRX(X_CLKCON, 0xDFC6); // Clock Control -SFRX(X_MEMCTR, 0xDFC7); // Memory Arbiter Control -SFRX(X_WDCTL, 0xDFC9); // Watchdog Timer Control -SFRX(X_T3CNT, 0xDFCA); // Timer 3 Counter -SFRX(X_T3CTL, 0xDFCB); // Timer 3 Control -SFRX(X_T3CCTL0, 0xDFCC); // Timer 3 Channel 0 Capture/Compare Control -SFRX(X_T3CC0, 0xDFCD); // Timer 3 Channel 0 Capture/Compare Value -SFRX(X_T3CCTL1, 0xDFCE); // Timer 3 Channel 1 Capture/Compare Control -SFRX(X_T3CC1, 0xDFCF); // Timer 3 Channel 1 Capture/Compare Value -SFRX(X_DMAIRQ, 0xDFD1); // DMA Interrupt Flag -SFRX(X_DMA1CFGL, 0xDFD2); // DMA Channel 1-4 Configuration Address Low Byte -SFRX(X_DMA1CFGH, 0xDFD3); // DMA Channel 1-4 Configuration Address High Byte -SFRX(X_DMA0CFGL, 0xDFD4); // DMA Channel 0 Configuration Address Low Byte -SFRX(X_DMA0CFGH, 0xDFD5); // DMA Channel 0 Configuration Address High Byte -SFRX(X_DMAARM, 0xDFD6); // DMA Channel Arm -SFRX(X_DMAREQ, 0xDFD7); // DMA Channel Start Request and Status -SFRX(X_TIMIF, 0xDFD8); // Timers 1/3/4 Interrupt Mask/Flag -SFRX(X_RFD, 0xDFD9); // RF Data -SFRX(X_T1CC0L, 0xDFDA); // Timer 1 Channel 0 Capture/Compare Value Low -SFRX(X_T1CC0H, 0xDFDB); // Timer 1 Channel 0 Capture/Compare Value High -SFRX(X_T1CC1L, 0xDFDC); // Timer 1 Channel 1 Capture/Compare Value Low -SFRX(X_T1CC1H, 0xDFDD); // Timer 1 Channel 1 Capture/Compare Value High -SFRX(X_T1CC2L, 0xDFDE); // Timer 1 Channel 2 Capture/Compare Value Low -SFRX(X_T1CC2H, 0xDFDF); // Timer 1 Channel 2 Capture/Compare Value High -SFRX(X_RFST, 0xDFE1); // RF CSMA-CA / Strobe Processor -SFRX(X_T1CNTL, 0xDFE2); // Timer 1 Counter Low -SFRX(X_T1CNTH, 0xDFE3); // Timer 1 Counter High -SFRX(X_T1CTL, 0xDFE4); // Timer 1 Control and Status -SFRX(X_T1CCTL0, 0xDFE5); // Timer 1 Channel 0 Capture/Compare Control -SFRX(X_T1CCTL1, 0xDFE6); // Timer 1 Channel 1 Capture/Compare Control -SFRX(X_T1CCTL2, 0xDFE7); // Timer 1 Channel 2 Capture/Compare Control -SFRX(X_RFIF, 0xDFE9); // RF Interrupt Flags -SFRX(X_T4CNT, 0xDFEA); // Timer 4 Counter -SFRX(X_T4CTL, 0xDFEB); // Timer 4 Control -SFRX(X_T4CCTL0, 0xDFEC); // Timer 4 Channel 0 Capture/Compare Control -SFRX(X_T4CC0, 0xDFED); // Timer 4 Channel 0 Capture/Compare Value -SFRX(X_T4CCTL1, 0xDFEE); // Timer 4 Channel 1 Capture/Compare Control -SFRX(X_T4CC1, 0xDFEF); // Timer 4 Channel 1 Capture/Compare Value -SFRX(X_PERCFG, 0xDFF1); // Peripheral Control -SFRX(X_ADCCFG, 0xDFF2); // ADC Input Configuration -SFRX(X_P0SEL, 0xDFF3); // Port 0 Function Select -SFRX(X_P1SEL, 0xDFF4); // Port 1 Function Select -SFRX(X_P2SEL, 0xDFF5); // Port 2 Function Select -SFRX(X_P1INP, 0xDFF6); // Port 1 Input Mode -SFRX(X_P2INP, 0xDFF7); // Port 2 Input Mode -SFRX(X_U1CSR, 0xDFF8); // USART 1 Control and Status -SFRX(X_U1DBUF, 0xDFF9); // USART 1 Receive/Transmit Data Buffer -SFRX(X_U1BAUD, 0xDFFA); // USART 1 Baud Rate Control -SFRX(X_U1UCR, 0xDFFB); // USART 1 UART Control -SFRX(X_U1GCR, 0xDFFC); // USART 1 Generic Control -SFRX(X_P0DIR, 0xDFFD); // Port 0 Direction -SFRX(X_P1DIR, 0xDFFE); // Port 1 Direction -SFRX(X_P2DIR, 0xDFFF); // Port 2 Direction - -#endif //REG_CC2430_H +/*------------------------------------------------------------------------- + Register Declarations for Chipcon CC2430 + + Written By - Jesus Calvino-Fraga / jesusc at ece.ubc.ca (December 2006) + (Based on CC2430 PRELIMINARY Data Sheet (rev. 1.03) SWRS036A) + + This library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + This library is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with this library; if not, write to the Free Software + Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + + In other words, you are welcome to use, share and improve this program. + You are forbidden to forbid anyone else to use, share and improve + what you give them. Help stamp out software-hoarding! +-------------------------------------------------------------------------*/ + +#ifndef REG_CC2430_H +#define REG_CC2430_H + +#include + +// Interrupt Vectors + +#define RFERR_VECTOR 0 // RF TX FIFO underflow and RX FIFO overflow. +#define ADC_VECTOR 1 // ADC end of conversion +#define URX0_VECTOR 2 // USART0 RX complete +#define URX1_VECTOR 3 // USART1 RX complete +#define ENC_VECTOR 4 // AES encryption/decryption complete +#define ST_VECTOR 5 // Sleep Timer compare +#define P2INT_VECTOR 6 // Port 2 inputs +#define UTX0_VECTOR 7 // USART0 TX complete +#define DMA_VECTOR 8 // DMA transfer complete +#define T1_VECTOR 9 // Timer 1 (16-bit) capture/compare/overflow +#define T2_VECTOR 10 // Timer 2 (MAC Timer) +#define T3_VECTOR 11 // Timer 3 (8-bit) capture/compare/overflow +#define T4_VECTOR 12 // Timer 4 (8-bit) capture/compare/overflow +#define P0INT_VECTOR 13 // Port 0 inputs +#define UTX1_VECTOR 14 // USART1 TX complete +#define P1INT_VECTOR 15 // Port 1 inputs +#define RF_VECTOR 16 // RF general interrupts +#define WDT_VECTOR 17 // Watchdog overflow in timer mode + +// SFR Registers and BITs + +SFR(P0, 0x80); // Port 0 + SBIT(P0_0, 0x80, 0); // Port 0 bit 0 + SBIT(P0_1, 0x80, 1); // Port 0 bit 1 + SBIT(P0_2, 0x80, 2); // Port 0 bit 2 + SBIT(P0_3, 0x80, 3); // Port 0 bit 3 + SBIT(P0_4, 0x80, 4); // Port 0 bit 4 + SBIT(P0_5, 0x80, 5); // Port 0 bit 5 + SBIT(P0_6, 0x80, 6); // Port 0 bit 6 + SBIT(P0_7, 0x80, 7); // Port 0 bit 7 +SFR(SP, 0x81); // Stack Pointer +SFR(DPL0, 0x82); // Data Pointer 0 Low Byte +SFR(DPH0, 0x83); // Data Pointer 0 High Byte +SFR(DPL1, 0x84); // Data Pointer 1 Low Byte +SFR(DPH1, 0x85); // Data Pointer 1 High Byte +SFR(U0CSR, 0x86); // USART 0 Control and Status +SFR(PCON, 0x87); // Power Mode Control +SFR(TCON, 0x88); // Interrupt Flags + SBIT(IT0, 0x88, 0); // reserved (must always be set to 1) + SBIT(RFERRIF, 0x88, 1); // RFERR – RF TX/RX FIFO interrupt flag + SBIT(IT1, 0x88, 2); // reserved (must always be set to 1) + SBIT(URX0IF, 0x88, 3); // USART0 RX Interrupt Flag + SBIT(ADCIF, 0x88, 5); // ADC Interrupt Flag + SBIT(URX1IF, 0x88, 7); // USART1 RX Interrupt Flag +SFR(P0IFG, 0x89); // Port 0 Interrupt Status Flag +SFR(P1IFG, 0x8A); // Port 1 Interrupt Status Flag +SFR(P2IFG, 0x8B); // Port 2 Interrupt Status Flag +SFR(PICTL, 0x8C); // Port Interrupt Control +SFR(P1IEN, 0x8D); // Port 1 Interrupt Mask +SFR(P0INP, 0x8F); // Port 0 Input Mode +SFR(P1, 0x90); // Port 1 + SBIT(P1_0, 0x90, 0); // Port 1 bit 0 + SBIT(P1_1, 0x90, 1); // Port 1 bit 1 + SBIT(P1_2, 0x90, 2); // Port 1 bit 2 + SBIT(P1_3, 0x90, 3); // Port 1 bit 3 + SBIT(P1_4, 0x90, 4); // Port 1 bit 4 + SBIT(P1_5, 0x90, 5); // Port 1 bit 5 + SBIT(P1_6, 0x90, 6); // Port 1 bit 6 + SBIT(P1_7, 0x90, 7); // Port 1 bit 7 +SFR(RFIM, 0x91); // RF Interrupt Mask +SFR(DPS, 0x92); // Data Pointer Select +SFR(MPAGE, 0x93); // Memory Page Select +SFR(_XPAGE, 0x93); // Memory Page Select under the name SDCC needs it +SFR(T2CMP, 0x94); // Timer 2 Compare Value +SFR(ST0, 0x95); // Sleep Timer 0 +SFR(ST1, 0x96); // Sleep Timer 1 +SFR(ST2, 0x97); // Sleep Timer 2 +SFR(S0CON, 0x98); // Interrupt Flags 2 + SBIT(ENCIF_0, 0x98, 0); // AES Interrupt Flag 0 + SBIT(ENCIF_1, 0x98, 1); // AES Interrupt Flag 1 +SFR(IEN2, 0x9A); // Interrupt Enable 2 +SFR(S1CON, 0x9B); // Interrupt Flags 3 +SFR(T2PEROF0, 0x9C); // Timer 2 Overflow Capture/Compare 0 +SFR(T2PEROF1, 0x9D); // Timer 2 Overflow Capture/Compare 1 +SFR(T2PEROF2, 0x9E); // Timer 2 Overflow Capture/Compare 2 +SFR(P2, 0xA0); // Port 2 + SBIT(P2_0, 0xA0, 0); // Port 2 bit 0 + SBIT(P2_1, 0xA0, 1); // Port 2 bit 1 + SBIT(P2_2, 0xA0, 2); // Port 2 bit 2 + SBIT(P2_3, 0xA0, 3); // Port 2 bit 3 + SBIT(P2_4, 0xA0, 4); // Port 2 bit 4 + SBIT(P2_5, 0xA0, 5); // Port 2 bit 5 + SBIT(P2_6, 0xA0, 6); // Port 2 bit 6 + SBIT(P2_7, 0xA0, 7); // Port 2 bit 7 +SFR(T2OF0, 0xA1); // Timer 2 Overflow Count 0 +SFR(T2OF1, 0xA2); // Timer 2 Overflow Count 1 +SFR(T2OF2, 0xA3); // Timer 2 Overflow Count 2 +SFR(T2CAPLPL, 0xA4); // Timer 2 Period Low Byte +SFR(T2CAPHPH, 0xA5); // Timer 2 Period High Byte +SFR(T2TLD, 0xA6); // Timer 2 Timer Value Low Byte +SFR(T2THD, 0xA7); // Timer 2 Timer Value High Byte +SFR(IEN0, 0xA8); // Interrupt Enable 0 + SBIT(RFERRIE, 0xA8, 0); // RF TX/RX FIFO interrupt enable + SBIT(ADCIE, 0xA8, 1); // ADC Interrupt Enable + SBIT(URX0IE, 0xA8, 2); // USART0 RX Interrupt Enable + SBIT(URX1IE, 0xA8, 3); // USART1 RX Interrupt Enable + SBIT(ENCIE, 0xA8, 4); // AES Encryption/Decryption Interrupt Enable + SBIT(STIE, 0xA8, 5); // Sleep Timer Interrupt Enable + SBIT(EA, 0xA8, 7); // Global Interrupt Enable +SFR(IP0, 0xA9); // Interrupt Priority 0 +SFR(FWT, 0xAB); // Flash Write Timing +SFR(FADDRL, 0xAC); // Flash Address Low Byte +SFR(FADDRH, 0xAD); // Flash Address High Byte +SFR(FCTL, 0xAE); // Flash Control +SFR(FWDATA, 0xAF); // Flash Write Data +SFR(ENCDI, 0xB1); // Encryption Input Data +SFR(ENCDO, 0xB2); // Encryption Output Data +SFR(ENCCS, 0xB3); // Encryption Control and Status +SFR(ADCCON1, 0xB4); // ADC Control 1 +SFR(ADCCON2, 0xB5); // ADC Control 2 +SFR(ADCCON3, 0xB6); // ADC Control 3 +SFR(IEN1, 0xB8); // Interrupt Enable 1 + SBIT(DMAIE, 0xB8, 0); // DMA Transfer Interrupt Enable + SBIT(T1IE, 0xB8, 1); // Timer 1 Interrupt Enable + SBIT(T2IE, 0xB8, 2); // Timer 2 Interrupt Enable + SBIT(T3IE, 0xB8, 3); // Timer 3 Interrupt Enable + SBIT(T4IE, 0xB8, 4); // Timer 4 Interrupt Enable + SBIT(P0IE, 0xB8, 5); // Port 0 Interrupt Enable +SFR(IP1, 0xB9); // Interrupt Priority 1 +SFR(ADCL, 0xBA); // ADC Data Low +SFR(ADCH, 0xBB); // ADC Data High +SFR(RNDL, 0xBC); // Random Number Generator Data Low Byte +SFR(RNDH, 0xBD); // Random Number Generator Data High Byte +SFR(SLEEP, 0xBE); // Sleep Mode Control +SFR(IRCON, 0xC0); // Interrupt Flags 4 + SBIT(DMAIF, 0xC0, 0); // DMA Complete Interrupt Flag + SBIT(T1IF, 0xC0, 1); // Timer 1 Interrupt Flag + SBIT(T2IF, 0xC0, 2); // Timer 2 Interrupt Flag + SBIT(T3IF, 0xC0, 3); // Timer 3 Interrupt Flag + SBIT(T4IF, 0xC0, 4); // Timer 4 Interrupt Flag + SBIT(P0IF, 0xC0, 5); // Port 0 Interrupt Flag + SBIT(STIF, 0xC0, 7); // Sleep Timer Interrupt Flag +SFR(U0DBUF, 0xC1); // USART 0 Receive/Transmit Data Buffer +SFR(U0BAUD, 0xC2); // USART 0 Baud Rate Control +SFR(T2CNF, 0xC3); // Timer 2 Configuration +SFR(U0UCR, 0xC4); // USART 0 UART Control +SFR(U0GCR, 0xC5); // USART 0 Generic Control +SFR(CLKCON, 0xC6); // Clock Control +SFR(MEMCTR, 0xC7); // Memory Arbiter Control +SFR(WDCTL, 0xC9); // Watchdog Timer Control +SFR(T3CNT, 0xCA); // Timer 3 Counter +SFR(T3CTL, 0xCB); // Timer 3 Control +SFR(T3CCTL0, 0xCC); // Timer 3 Channel 0 Capture/Compare Control +SFR(T3CC0, 0xCD); // Timer 3 Channel 0 Capture/Compare Value +SFR(T3CCTL1, 0xCE); // Timer 3 Channel 1 Capture/Compare Control +SFR(T3CC1, 0xCF); // Timer 3 Channel 1 Capture/Compare Value +SFR(PSW, 0xD0); // Program Status Word + SBIT(P, 0xD0, 0); // Parity Flag + SBIT(F1, 0xD0, 1); // User-Defined Flag + SBIT(OV, 0xD0, 2); // Overflow Flag + SBIT(RS0, 0xD0, 3); // Register Bank Select 0 + SBIT(RS1, 0xD0, 4); // Register Bank Select 1 + SBIT(F0, 0xD0, 5); // User-Defined Flag + SBIT(AC, 0xD0, 6); // Auxiliary Carry Flag + SBIT(CY, 0xD0, 7); // Carry Flag +SFR(DMAIRQ, 0xD1); // DMA Interrupt Flag +SFR(DMA1CFGL, 0xD2); // DMA Channel 1-4 Configuration Address Low Byte +SFR(DMA1CFGH, 0xD3); // DMA Channel 1-4 Configuration Address High Byte +SFR(DMA0CFGL, 0xD4); // DMA Channel 0 Configuration Address Low Byte +SFR(DMA0CFGH, 0xD5); // DMA Channel 0 Configuration Address High Byte +SFR(DMAARM, 0xD6); // DMA Channel Arm +SFR(DMAREQ, 0xD7); // DMA Channel Start Request and Status +SFR(TIMIF, 0xD8); // Timers 1/3/4 Interrupt Mask/Flag + SBIT(T3OVFIF, 0xD8, 0); // Timer 3 overflow interrupt flag 0:no pending 1:pending + SBIT(T3CH0IF, 0xD8, 1); // Timer 3 channel 0 interrupt flag 0:no pending 1:pending + SBIT(T3CH1IF, 0xD8, 2); // Timer 3 channel 1 interrupt flag 0:no pending 1:pending + SBIT(T4OVFIF, 0xD8, 3); // Timer 4 overflow interrupt flag 0:no pending 1:pending + SBIT(T4CH0IF, 0xD8, 4); // Timer 4 channel 0 interrupt flag 0:no pending 1:pending + SBIT(T4CH1IF, 0xD8, 5); // Timer 4 channel 1 interrupt flag 0:no pending 1:pending + SBIT(OVFIM, 0xD8, 6); // Timer 1 overflow interrupt mask +SFR(RFD, 0xD9); // RF Data +SFR(T1CC0L, 0xDA); // Timer 1 Channel 0 Capture/Compare Value Low +SFR(T1CC0H, 0xDB); // Timer 1 Channel 0 Capture/Compare Value High +SFR(T1CC1L, 0xDC); // Timer 1 Channel 1 Capture/Compare Value Low +SFR(T1CC1H, 0xDD); // Timer 1 Channel 1 Capture/Compare Value High +SFR(T1CC2L, 0xDE); // Timer 1 Channel 2 Capture/Compare Value Low +SFR(T1CC2H, 0xDF); // Timer 1 Channel 2 Capture/Compare Value High +SFR(ACC, 0xE0); // Accumulator + SBIT(ACC_0, 0xE0, 0); // Accumulator bit 0 + SBIT(ACC_1, 0xE0, 1); // Accumulator bit 1 + SBIT(ACC_2, 0xE0, 2); // Accumulator bit 2 + SBIT(ACC_3, 0xE0, 3); // Accumulator bit 3 + SBIT(ACC_4, 0xE0, 4); // Accumulator bit 4 + SBIT(ACC_5, 0xE0, 5); // Accumulator bit 5 + SBIT(ACC_6, 0xE0, 6); // Accumulator bit 6 + SBIT(ACC_7, 0xE0, 7); // Accumulator bit 7 +SFR(RFST, 0xE1); // RF CSMA-CA / Strobe Processor +SFR(T1CNTL, 0xE2); // Timer 1 Counter Low +SFR(T1CNTH, 0xE3); // Timer 1 Counter High +SFR(T1CTL, 0xE4); // Timer 1 Control and Status +SFR(T1CCTL0, 0xE5); // Timer 1 Channel 0 Capture/Compare Control +SFR(T1CCTL1, 0xE6); // Timer 1 Channel 1 Capture/Compare Control +SFR(T1CCTL2, 0xE7); // Timer 1 Channel 2 Capture/Compare Control +SFR(IRCON2, 0xE8); // Interrupt Flags 5 + SBIT(P2IF, 0xE8, 0); // Port 2 Interrupt Flag + SBIT(UTX0IF, 0xE8, 1); // USART0 TX Interrupt Flag + SBIT(UTX1IF, 0xE8, 2); // USART1 TX Interrupt Flag + SBIT(P1IF, 0xE8, 3); // Port 1 Interrupt Flag + SBIT(WDTIF, 0xE8, 4); // Watchdog Timer Interrupt Flag +SFR(RFIF, 0xE9); // RF Interrupt Flags +SFR(T4CNT, 0xEA); // Timer 4 Counter +SFR(T4CTL, 0xEB); // Timer 4 Control +SFR(T4CCTL0, 0xEC); // Timer 4 Channel 0 Capture/Compare Control +SFR(T4CC0, 0xED); // Timer 4 Channel 0 Capture/Compare Value +SFR(T4CCTL1, 0xEE); // Timer 4 Channel 1 Capture/Compare Control +SFR(T4CC1, 0xEF); // Timer 4 Channel 1 Capture/Compare Value +SFR(B, 0xF0); // B Register + SBIT(B_0, 0xF0, 0); // Register B bit 0 + SBIT(B_1, 0xF0, 1); // Register B bit 1 + SBIT(B_2, 0xF0, 2); // Register B bit 2 + SBIT(B_3, 0xF0, 3); // Register B bit 3 + SBIT(B_4, 0xF0, 4); // Register B bit 4 + SBIT(B_5, 0xF0, 5); // Register B bit 5 + SBIT(B_6, 0xF0, 6); // Register B bit 6 + SBIT(B_7, 0xF0, 7); // Register B bit 7 +SFR(PERCFG, 0xF1); // Peripheral Control +SFR(ADCCFG, 0xF2); // ADC Input Configuration +SFR(P0SEL, 0xF3); // Port 0 Function Select +SFR(P1SEL, 0xF4); // Port 1 Function Select +SFR(P2SEL, 0xF5); // Port 2 Function Select +SFR(P1INP, 0xF6); // Port 1 Input Mode +SFR(P2INP, 0xF7); // Port 2 Input Mode +SFR(U1CSR, 0xF8); // USART 1 Control and Status + SBIT(ACTIVE, 0xF8, 0); // USART transmit/receive active status 0:idle 1:busy + SBIT(TX_BYTE, 0xF8, 1); // Transmit byte status 0:Byte not transmitted 1:Last byte transmitted + SBIT(RX_BYTE, 0xF8, 2); // Receive byte status 0:No byte received 1:Received byte ready + SBIT(ERR, 0xF8, 3); // UART parity error status 0:No error 1:parity error + SBIT(FE, 0xF8, 4); // UART framing error status 0:No error 1:incorrect stop bit level + SBIT(SLAVE, 0xF8, 5); // SPI master or slave mode select 0:master 1:slave + SBIT(RE, 0xF8, 6); // UART receiver enable 0:disabled 1:enabled + SBIT(MODE, 0xF8, 7); // USART mode select 0:SPI 1:UART +SFR(U1DBUF, 0xF9); // USART 1 Receive/Transmit Data Buffer +SFR(U1BAUD, 0xFA); // USART 1 Baud Rate Control +SFR(U1UCR, 0xFB); // USART 1 UART Control +SFR(U1GCR, 0xFC); // USART 1 Generic Control +SFR(P0DIR, 0xFD); // Port 0 Direction +SFR(P1DIR, 0xFE); // Port 1 Direction +SFR(P2DIR, 0xFF); // Port 2 Direction + +// From Table 45 : Overview of RF registers + +SFRX(MDMCTRL0H, 0xDF02); // Modem Control 0, high +SFRX(MDMCTRL0L, 0xDF03); // Modem Control 0, low +SFRX(MDMCTRL1H, 0xDF04); // Modem Control 1, high +SFRX(MDMCTRL1L, 0xDF05); // Modem Control 1, low +SFRX(RSSIH, 0xDF06); // RSSI and CCA Status and Control, high +SFRX(RSSIL, 0xDF07); // RSSI and CCA Status and Control, low +SFRX(SYNCWORDH, 0xDF08); // Synchronisation Word Control, high +SFRX(SYNCWORDL, 0xDF09); // Synchronisation Word Control, low +SFRX(TXCTRLH, 0xDF0A); // Transmit Control, high +SFRX(TXCTRLL, 0xDF0B); // Transmit Control, low +SFRX(RXCTRL0H, 0xDF0C); // Receive Control 0, high +SFRX(RXCTRL0L, 0xDF0D); // Receive Control 0, low +SFRX(RXCTRL1H, 0xDF0E); // Receive Control 1, high +SFRX(RXCTRL1L, 0xDF0F); // Receive Control 1, low +SFRX(FSCTRLH, 0xDF10); // Frequency Synthesizer Control and Status, high +SFRX(FSCTRLL, 0xDF11); // Frequency Synthesizer Control and Status, low +SFRX(CSPX, 0xDF12); // CSP X Data +SFRX(CSPY, 0xDF13); // CSP Y Data +SFRX(CSPZ, 0xDF14); // CSP Z Data +SFRX(CSPCTRL, 0xDF15); // CSP Control +SFRX(CSPT, 0xDF16); // CSP T Data +SFRX(RFPWR, 0xDF17); // RF Power Control +SFRX(FSMTCH, 0xDF20); // Finite State Machine Time Constants, high +SFRX(FSMTCL, 0xDF21); // Finite State Machine Time Constants, low +SFRX(MANANDH, 0xDF22); // Manual AND Override, high +SFRX(MANANDL, 0xDF23); // Manual AND Override, low +SFRX(MANORH, 0xDF24); // Manual OR Override, high +SFRX(MANORL, 0xDF25); // Manual OR Override, low +SFRX(AGCCTRLH, 0xDF26); // AGC Control, high +SFRX(AGCCTRLL, 0xDF27); // AGC Control, low +SFRX(FSMSTATE, 0xDF39); // Finite State Machine State Status +SFRX(ADCTSTH, 0xDF3A); // ADC Test, high +SFRX(ADCTSTL, 0xDF3B); // ADC Test, low +SFRX(DACTSTH, 0xDF3C); // DAC Test, high +SFRX(DACTSTL, 0xDF3D); // DAC Test, low +SFRX(IEEE_ADDR0, 0xDF43); // IEEE Address 0 +SFRX(IEEE_ADDR1, 0xDF44); // IEEE Address 1 +SFRX(IEEE_ADDR2, 0xDF45); // IEEE Address 2 +SFRX(IEEE_ADDR3, 0xDF46); // IEEE Address 3 +SFRX(IEEE_ADDR4, 0xDF47); // IEEE Address 4 +SFRX(IEEE_ADDR5, 0xDF48); // IEEE Address 5 +SFRX(IEEE_ADDR6, 0xDF49); // IEEE Address 6 +SFRX(IEEE_ADDR7, 0xDF4A); // IEEE Address 7 +SFRX(PANIDH, 0xDF4B); // PAN Identifier, high +SFRX(PANIDL, 0xDF4C); // PAN Identifier, low +SFRX(SHORTADDRH, 0xDF4D); // Short Address, high +SFRX(SHORTADDRL, 0xDF4E); // Short Address, low +SFRX(IOCFG0, 0xDF4F); // I/O Configuration 0 +SFRX(IOCFG1, 0xDF50); // I/O Configuration 1 +SFRX(IOCFG2, 0xDF51); // I/O Configuration 2 +SFRX(IOCFG3, 0xDF52); // I/O Configuration 3 +SFRX(RXFIFOCNT, 0xDF53); // RX FIFO Count +SFRX(FSMTC1, 0xDF54); // Finite State Machine Control +SFRX(CHVER, 0xDF60); // Chip Version +SFRX(CHIPID, 0xDF61); // Chip Identification +SFRX(RFSTATUS, 0xDF62); // RF Status + +// SFRs also accesible through XDATA space + +SFRX(X_U0CSR, 0xDF86); // USART 0 Control and Status +SFRX(X_P0IFG, 0xDF89); // Port 0 Interrupt Status Flag +SFRX(X_P1IFG, 0xDF8A); // Port 1 Interrupt Status Flag +SFRX(X_P2IFG, 0xDF8B); // Port 2 Interrupt Status Flag +SFRX(X_PICTL, 0xDF8C); // Port Interrupt Control +SFRX(X_P1IEN, 0xDF8D); // Port 1 Interrupt Mask +SFRX(X_P0INP, 0xDF8F); // Port 0 Input Mode +SFRX(X_RFIM, 0xDF91); // RF Interrupt Mask +SFRX(X_MPAGE, 0xDF93); // Memory Page Select +SFRX(X_T2CMP, 0xDF94); // Timer 2 Compare Value +SFRX(X_ST0, 0xDF95); // Sleep Timer 0 +SFRX(X_ST1, 0xDF96); // Sleep Timer 1 +SFRX(X_ST2, 0xDF97); // Sleep Timer 2 +SFRX(X_T2PEROF0, 0xDF9C); // Timer 2 Overflow Capture/Compare 0 +SFRX(X_T2PEROF1, 0xDF9D); // Timer 2 Overflow Capture/Compare 1 +SFRX(X_T2PEROF2, 0xDF9E); // Timer 2 Overflow Capture/Compare 2 +SFRX(X_T2OF0, 0xDFA1); // Timer 2 Overflow Count 0 +SFRX(X_T2OF1, 0xDFA2); // Timer 2 Overflow Count 1 +SFRX(X_T2OF2, 0xDFA3); // Timer 2 Overflow Count 2 +SFRX(X_T2CAPLPL, 0xDFA4); // Timer 2 Period Low Byte +SFRX(X_T2CAPHPH, 0xDFA5); // Timer 2 Period High Byte +SFRX(X_T2TLD, 0xDFA6); // Timer 2 Timer Value Low Byte +SFRX(X_T2THD, 0xDFA7); // Timer 2 Timer Value High Byte +SFRX(X_FWT, 0xDFAB); // Flash Write Timing +SFRX(X_FADDRL, 0xDFAC); // Flash Address Low Byte +SFRX(X_FADDRH, 0xDFAD); // Flash Address High Byte +SFRX(X_FCTL, 0xDFAE); // Flash Control +SFRX(X_FWDATA, 0xDFAF); // Flash Write Data +SFRX(X_ENCDI, 0xDFB1); // Encryption Input Data +SFRX(X_ENCDO, 0xDFB2); // Encryption Output Data +SFRX(X_ENCCS, 0xDFB3); // Encryption Control and Status +SFRX(X_ADCCON1, 0xDFB4); // ADC Control 1 +SFRX(X_ADCCON2, 0xDFB5); // ADC Control 2 +SFRX(X_ADCCON3, 0xDFB6); // ADC Control 3 +SFRX(X_ADCL, 0xDFBA); // ADC Data Low +SFRX(X_ADCH, 0xDFBB); // ADC Data High +SFRX(X_RNDL, 0xDFBC); // Random Number Generator Data Low Byte +SFRX(X_RNDH, 0xDFBD); // Random Number Generator Data High Byte +SFRX(X_SLEEP, 0xDFBE); // Sleep Mode Control +SFRX(X_U0DBUF, 0xDFC1); // USART 0 Receive/Transmit Data Buffer +SFRX(X_U0BAUD, 0xDFC2); // USART 0 Baud Rate Control +SFRX(X_T2CNF, 0xDFC3); // Timer 2 Configuration +SFRX(X_U0UCR, 0xDFC4); // USART 0 UART Control +SFRX(X_U0GCR, 0xDFC5); // USART 0 Generic Control +SFRX(X_CLKCON, 0xDFC6); // Clock Control +SFRX(X_MEMCTR, 0xDFC7); // Memory Arbiter Control +SFRX(X_WDCTL, 0xDFC9); // Watchdog Timer Control +SFRX(X_T3CNT, 0xDFCA); // Timer 3 Counter +SFRX(X_T3CTL, 0xDFCB); // Timer 3 Control +SFRX(X_T3CCTL0, 0xDFCC); // Timer 3 Channel 0 Capture/Compare Control +SFRX(X_T3CC0, 0xDFCD); // Timer 3 Channel 0 Capture/Compare Value +SFRX(X_T3CCTL1, 0xDFCE); // Timer 3 Channel 1 Capture/Compare Control +SFRX(X_T3CC1, 0xDFCF); // Timer 3 Channel 1 Capture/Compare Value +SFRX(X_DMAIRQ, 0xDFD1); // DMA Interrupt Flag +SFRX(X_DMA1CFGL, 0xDFD2); // DMA Channel 1-4 Configuration Address Low Byte +SFRX(X_DMA1CFGH, 0xDFD3); // DMA Channel 1-4 Configuration Address High Byte +SFRX(X_DMA0CFGL, 0xDFD4); // DMA Channel 0 Configuration Address Low Byte +SFRX(X_DMA0CFGH, 0xDFD5); // DMA Channel 0 Configuration Address High Byte +SFRX(X_DMAARM, 0xDFD6); // DMA Channel Arm +SFRX(X_DMAREQ, 0xDFD7); // DMA Channel Start Request and Status +SFRX(X_TIMIF, 0xDFD8); // Timers 1/3/4 Interrupt Mask/Flag +SFRX(X_RFD, 0xDFD9); // RF Data +SFRX(X_T1CC0L, 0xDFDA); // Timer 1 Channel 0 Capture/Compare Value Low +SFRX(X_T1CC0H, 0xDFDB); // Timer 1 Channel 0 Capture/Compare Value High +SFRX(X_T1CC1L, 0xDFDC); // Timer 1 Channel 1 Capture/Compare Value Low +SFRX(X_T1CC1H, 0xDFDD); // Timer 1 Channel 1 Capture/Compare Value High +SFRX(X_T1CC2L, 0xDFDE); // Timer 1 Channel 2 Capture/Compare Value Low +SFRX(X_T1CC2H, 0xDFDF); // Timer 1 Channel 2 Capture/Compare Value High +SFRX(X_RFST, 0xDFE1); // RF CSMA-CA / Strobe Processor +SFRX(X_T1CNTL, 0xDFE2); // Timer 1 Counter Low +SFRX(X_T1CNTH, 0xDFE3); // Timer 1 Counter High +SFRX(X_T1CTL, 0xDFE4); // Timer 1 Control and Status +SFRX(X_T1CCTL0, 0xDFE5); // Timer 1 Channel 0 Capture/Compare Control +SFRX(X_T1CCTL1, 0xDFE6); // Timer 1 Channel 1 Capture/Compare Control +SFRX(X_T1CCTL2, 0xDFE7); // Timer 1 Channel 2 Capture/Compare Control +SFRX(X_RFIF, 0xDFE9); // RF Interrupt Flags +SFRX(X_T4CNT, 0xDFEA); // Timer 4 Counter +SFRX(X_T4CTL, 0xDFEB); // Timer 4 Control +SFRX(X_T4CCTL0, 0xDFEC); // Timer 4 Channel 0 Capture/Compare Control +SFRX(X_T4CC0, 0xDFED); // Timer 4 Channel 0 Capture/Compare Value +SFRX(X_T4CCTL1, 0xDFEE); // Timer 4 Channel 1 Capture/Compare Control +SFRX(X_T4CC1, 0xDFEF); // Timer 4 Channel 1 Capture/Compare Value +SFRX(X_PERCFG, 0xDFF1); // Peripheral Control +SFRX(X_ADCCFG, 0xDFF2); // ADC Input Configuration +SFRX(X_P0SEL, 0xDFF3); // Port 0 Function Select +SFRX(X_P1SEL, 0xDFF4); // Port 1 Function Select +SFRX(X_P2SEL, 0xDFF5); // Port 2 Function Select +SFRX(X_P1INP, 0xDFF6); // Port 1 Input Mode +SFRX(X_P2INP, 0xDFF7); // Port 2 Input Mode +SFRX(X_U1CSR, 0xDFF8); // USART 1 Control and Status +SFRX(X_U1DBUF, 0xDFF9); // USART 1 Receive/Transmit Data Buffer +SFRX(X_U1BAUD, 0xDFFA); // USART 1 Baud Rate Control +SFRX(X_U1UCR, 0xDFFB); // USART 1 UART Control +SFRX(X_U1GCR, 0xDFFC); // USART 1 Generic Control +SFRX(X_P0DIR, 0xDFFD); // Port 0 Direction +SFRX(X_P1DIR, 0xDFFE); // Port 1 Direction +SFRX(X_P2DIR, 0xDFFF); // Port 2 Direction + +#endif //REG_CC2430_H