/usr/share/sdcc/include/mcs51/cc2510fx.h is in sdcc-libraries 2.9.0-5.
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Register Declarations for Chipcon CC2510Fx/CC2511Fx
Written By - Jesus Calvino-Fraga / jesusc at ece.ubc.ca (August 2006)
(Based on CC2510Fx/CC2511Fx PRELIMINARY Data Sheet (Rev. 1.2) SWRS055A)
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_CC2510FX_H
#define REG_CC2510FX_H
#include <compiler.h>
// Interrupt Vectors
#define RFTXRX_VECTOR 0 // RF TX done / RX ready
#define ADC_VECTOR 1 // ADC end of conversion
#define URX0_VECTOR 2 // USART0 RX complete
#define URX1_VECTOR 3 // USART1 RX complete (I2S RX complete)
#define ENC_VECTOR 4 // AES encryption/decryption complete
#define ST_VECTOR 5 // Sleep Timer compare
#define P2INT_VECTOR 6 // Port 2 inputs (Also used for USB on CC2511Fx)
#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) overflow
#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 (Note: USB Resume from suspend interrupt on P0_7 on CC2511Fx )
#define UTX1_VECTOR 14 // USART1 TX complete (I2S 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
//Shared Interrupt Vectors (I2S and USB)
#define I2SRX_VECTOR 3 //I2S RX complete
#define I2STX_VECTOR 14 //I2S TX complete
#define USB_VECTOR 6 //USB Interrupt pending ( CC2511Fx )
// 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 Flag
SBIT(IT0, 0x88, 0); // reserved (must always be set to 1)
SBIT(RFTXRXIF, 0x88, 1); // 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
SBIT(I2SRXIF, 0x88, 7); // I2S RX interrupt flag (same loc as URX1IF)
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(ENDIAN, 0x95); // USB Endianess Control (CC2511Fx)
SFR(S0CON, 0x98); // Interrupt Flag 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 Register
SFR(S1CON, 0x9B); // Interrupt Flag 3
SFR(T2CT, 0x9C); // Timer 2 Count
SFR(T2PR, 0x9D); // Timer 2 Prescaler
SFR(T2CTL, 0x9E); // Timer 2 Control
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(WORIRQ, 0xA1); // Sleep Timer Interrupt Control
SFR(WORCTL, 0xA2); // Sleep Timer Control
SFR(WORCTRL, 0xA2); // Sleep Timer Control (typo in datasheet?)
SFR(WOREVT0, 0xA3); // Sleep Timer Event0 Timeout Low
SFR(WOREVT1, 0xA4); // Sleep Timer Event0 Timeout High
SFR(WORTIME0, 0xA5); // Sleep Timer Low Byte
SFR(WORTIME1, 0xA6); // Sleep Timer High Byte
SFR(IEN0, 0xA8); // Interrupt Enable 0 Register
SBIT(RFTXRXIE, 0xA8, 0); // RF TX/RX done 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(I2SRXIE, 0xA8, 3); // I2S RX interrupt enable (Same loc as URX1IE)
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 Register
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 Flag 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(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 Strobe Commands
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 Flag 5
SBIT(P2IF, 0xE8, 0); // Port 2 Interrupt Flag
SBIT(USBIF, 0xE8, 0); // USB Interrupt Flag (same bit as P2IF)
SBIT(UTX0IF, 0xE8, 1); // USART0 TX Interrupt Flag
SBIT(UTX1IF, 0xE8, 2); // USART1 TX Interrupt Flag
SBIT(I2STXIF, 0xE8, 2); // I2S TX Interrupt Flag (same bit as UTX1FIF)
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 68: xdata RF registers
SFRX(SYNC1, 0xDF00); // Sync word, high byte
SFRX(SYNC0, 0xDF01); // Sync word, low byte
SFRX(PKTLEN, 0xDF02); // Packet length
SFRX(PKTCTRL1, 0xDF03); // Packet automation control
SFRX(PKTCTRL0, 0xDF04); // Packet automation control
SFRX(ADDR, 0xDF05); // Device address
SFRX(CHANNR, 0xDF06); // Channel number
SFRX(FSCTRL1, 0xDF07); // Frequency synthesizer control
SFRX(FSCTRL0, 0xDF08); // Frequency synthesizer control
SFRX(FREQ2, 0xDF09); // Frequency control word, high byte
SFRX(FREQ1, 0xDF0A); // Frequency control word, middle byte
SFRX(FREQ0, 0xDF0B); // Frequency control word, low byte
SFRX(MDMCFG4, 0xDF0C); // Modem configuration
SFRX(MDMCFG3, 0xDF0D); // Modem configuration
SFRX(MDMCFG2, 0xDF0E); // Modem configuration
SFRX(MDMCFG1, 0xDF0F); // Modem configuration
SFRX(MDMCFG0, 0xDF10); // Modem configuration
SFRX(DEVIATN, 0xDF11); // Modem deviation setting
SFRX(MCSM2, 0xDF12); // Main Radio Control State Machine configuration
SFRX(MCSM1, 0xDF13); // Main Radio Control State Machine configuration
SFRX(MCSM0, 0xDF14); // Main Radio Control State Machine configuration
SFRX(FOCCFG, 0xDF15); // Frequency Offset Compensation configuration
SFRX(BSCFG, 0xDF16); // Bit Synchronization configuration
SFRX(AGCCTRL2, 0xDF17); // AGC control
SFRX(AGCCTRL1, 0xDF18); // AGC control
SFRX(AGCCTRL0, 0xDF19); // AGC control
SFRX(FREND1, 0xDF1A); // Front end RX configuration
SFRX(FREND0, 0xDF1B); // Front end TX configuration
SFRX(FSCAL3, 0xDF1C); // Frequency synthesizer calibration
SFRX(FSCAL2, 0xDF1D); // Frequency synthesizer calibration
SFRX(FSCAL1, 0xDF1E); // Frequency synthesizer calibration
SFRX(FSCAL0, 0xDF1F); // Frequency synthesizer calibration
SFRX(PA_TABLE7, 0xDF27); // PA output power setting
SFRX(PA_TABLE6, 0xDF28); // PA output power setting
SFRX(PA_TABLE5, 0xDF29); // PA output power setting
SFRX(PA_TABLE4, 0xDF2A); // PA output power setting
SFRX(PA_TABLE3, 0xDF2B); // PA output power setting
SFRX(PA_TABLE2, 0xDF2C); // PA output power setting
SFRX(PA_TABLE1, 0xDF2D); // PA output power setting
SFRX(PA_TABLE0, 0xDF2E); // PA output power setting
SFRX(IOCFG2, 0xDF2F); // GDO2 output pin configuration
SFRX(IOCFG1, 0xDF30); // GDO1 output pin configuration
SFRX(IOCFG0, 0xDF31); // GDO0 output pin configuration
SFRX(PARTNUM, 0xDF36); // Chip Identifier
SFRX(VERSION, 0xDF37); // Configuration
SFRX(FREQEST, 0xDF38); // Frequency Offset Estimate
SFRX(LQI, 0xDF39); // Link Quality Indicator
SFRX(RSSI, 0xDF3A); // Received Signal Strength Indication
SFRX(MARCSTATE, 0xDF3B); // Main Radio Control State
SFRX(PKTSTATUS, 0xDF3C); // Packet status
SFRX(VCO_VC_DAC, 0xDF3D); // PLL calibration current
// I2S Registers
SFRX(I2SCFG0, 0xDF40); // I2S Configuration Register 0
SFRX(I2SCFG1, 0xDF41); // I2S Configuration Register 1
SFRX(I2SDATL, 0xDF42); // I2S Data Low Byte
SFRX(I2SDATH, 0xDF43); // I2S Data High Byte
SFRX(I2SWCNT, 0xDF44); // I2S Word Count Register
SFRX(I2SSTAT, 0xDF45); // I2S Status Register
SFRX(I2SCLKF0, 0xDF46); // I2S Clock Configuration Register 0
SFRX(I2SCLKF1, 0xDF47); // I2S Clock Configuration Register 1
SFRX(I2SCLKF2, 0xDF48); // I2S Clock Configuration Register 2
// Common USB Registers
SFRX(USBADDR, 0xDE00); // Function Address
SFRX(USBPOW, 0xDE01); // Power/Control Register
SFRX(USBIIF, 0xDE02); // IN Endpoints and EP0 Interrupt Flags
SFRX(USBOIF, 0xDE04); // OUT Endpoints Interrupt Flags
SFRX(USBCIF, 0xDE06); // Common USB Interrupt Flags
SFRX(USBIIE, 0xDE07); // IN Endpoints and EP0 Interrupt Enable Mask
SFRX(USBOIE, 0xDE09); // Out Endpoints Interrupt Enable Mask
SFRX(USBCIE, 0xDE0B); // Common USB Interrupt Enable Mask
SFRX(USBFRML, 0xDE0C); // Current Frame Number (Low byte)
SFRX(USBFRMH, 0xDE0D); // Current Frame Number (High byte)
SFRX(USBINDEX, 0xDE0E); // Selects current endpoint.
// Indexed Endpoint Registers
SFRX(USBMAXI, 0xDE10); // Max. packet size for IN endpoint
SFRX(USBCS0, 0xDE11); // EP0 Control and Status (USBINDEX = 0)
SFRX(USBCSIL, 0xDE11); // IN EP{1-5} Control and Status Low
SFRX(USBCSIH, 0xDE12); // IN EP{1-5} Control and Status High
SFRX(USBMAXO, 0xDE13); // Max. packet size for OUT endpoint
SFRX(USBCSOL, 0xDE14); // OUT EP{1-5} Control and Status Low
SFRX(USBCSOH, 0xDE15); // OUT EP{1-5} Control and Status High
SFRX(USBCNT0, 0xDE16); // Number of received bytes in EP0 FIFO (USBINDEX = 0)
SFRX(USBCNTL, 0xDE16); // Number of bytes in OUT FIFO Low
SFRX(USBCNTH, 0xDE17); // Number of bytes in OUT FIFO High
// Endpoint FIFO Registers
SFRX(USBF0, 0xDE20); // Endpoint 0 FIFO
SFRX(USBF1, 0xDE22); // Endpoint 1 FIFO
SFRX(USBF2, 0xDE24); // Endpoint 2 FIFO
SFRX(USBF3, 0xDE26); // Endpoint 3 FIFO
SFRX(USBF4, 0xDE28); // Endpoint 4 FIFO
SFRX(USBF5, 0xDE2A); // Endpoint 5 FIFO
// 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 Pins Interrupt Mask and Edge
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_T2CT, 0xDF9C); // Timer 2 Control
SFRX(X_T2PR, 0xDF9D); // Timer 2 Prescaler
SFRX(X_T2CTL, 0xDF9E); // Timer 2 Control
SFRX(X_WORIRQ, 0xDFA1); // Timer Sleep Timer Interrupts
SFRX(X_WORCTL, 0xDFA2); // Sleep Timer Control
SFRX(X_WOREVT0, 0xDFA3); // Timer Sleep Timer Event 0 Timeout Low Byte
SFRX(X_WOREVT1, 0xDFA4); // Timer Sleep Timer Event 0 Timeout High Byte
SFRX(X_WORTIME0, 0xDFA5); // Sleep Timer Value 0
SFRX(X_WORTIME1, 0xDFA6); // Sleep Timer Value 1
SFRX(X_FWT, 0xDFAB); // Flash Write Timing
SFRX(X_FADDRL, 0xDFAC); // Flash Address Low
SFRX(X_FADDRH, 0xDFAD); // Flash Address High
SFRX(X_FCTL, 0xDFAE); // Flash Control
SFRX(X_FWDATA, 0xDFAF); // Flash Write Data
SFRX(X_ENCDI, 0xDFB1); // Encryption/Decryption Input Data
SFRX(X_ENCDO, 0xDFB2); // Encryption/Decryption Output Data
SFRX(X_ENCCS, 0xDFB3); // Encryption/Decryption 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
SFRX(X_RNDH, 0xDFBD); // Random Number Generator Data High
SFRX(X_SLEEP, 0xDFBE); // Flash Write Timing
SFRX(X_U0DBUF, 0xDFC1); // USART 0 Receive/Transmit Data Buffer
SFRX(X_U0BAUD, 0xDFC2); // USART 0 Baud Rate Control
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 System 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 Joint Interrupt Mask/Flags
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 Strobe Commands
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 I/O 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_CC2510FX_H
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