contiki/cpu/cc253x/cc253x.h
George Oikonomou ad256e5014 New platform: TI cc2530 Development Kit
This commits adds support for TI's SmartRF05 Eval. Board with cc2530 EMs
Some initial support for cc2531 USB dongles
2012-03-23 14:41:07 +00:00

670 lines
36 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* Copyright (c) 2011, George Oikonomou - <oikonomou@users.sourceforge.net>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the Institute nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* This file is part of the Contiki operating system.
*/
/**
* \file
* Definitions for TI/Chipcon cc2530, cc2531 and cc2533 SFR registers.
*
* Based on information in:
* "CC253x System-on-Chip Solution for 2.4-GHz IEEE 802.15.4 and ZigBee®
* Applications"
* Literature Number: SWRU191B. April 2009Revised September 2010
*
* \author
* George Oikonomou - <oikonomou@users.sourceforge.net>
*/
#ifndef __CC253X_H__
#define __CC253X_H__
/*---------------------------------------------------------------------------*/
/* Compiler Abstraction */
#include <compiler.h>
/*---------------------------------------------------------------------------
* Interrupt Vectors
* (Table 2.5, page 40)
*---------------------------------------------------------------------------*/
#define RFERR_VECTOR 0 /* RF TXFIFO underflow and RXFIFO overflow. */
#define ADC_VECTOR 1 /* ADC end of conversion */
#define URX0_VECTOR 2 /* USART 0 RX complete */
#define URX1_VECTOR 3 /* USART 1 RX complete */
#define ENC_VECTOR 4 /* AES encryption/decryption complete */
#define ST_VECTOR 5 /* Sleep Timer compare */
#define P2INT_VECTOR 6 /* Port 2 inputs/USB/I2C */
#define UTX0_VECTOR 7 /* USART 0 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) compare/overflow */
#define T4_VECTOR 12 /* Timer 4 (8-bit) 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 */
/*---------------------------------------------------------------------------
* Special Function Registers and BITs
* (Table 2.1, page 27)
*---------------------------------------------------------------------------*/
/* 8051 Internals */
SFR(P0, 0x80); /* Port 0 */
SBIT(P0_7, 0x80, 7); /* Port 0 bit 7 */
SBIT(P0_6, 0x80, 6); /* Port 0 bit 6 */
SBIT(P0_5, 0x80, 5); /* Port 0 bit 5 */
SBIT(P0_4, 0x80, 4); /* Port 0 bit 4 */
SBIT(P0_3, 0x80, 3); /* Port 0 bit 3 */
SBIT(P0_2, 0x80, 2); /* Port 0 bit 2 */
SBIT(P0_1, 0x80, 1); /* Port 0 bit 1 */
SBIT(P0_0, 0x80, 0); /* Port 0 bit 0 */
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(PCON, 0x87); /* Power mode control */
SFR(TCON, 0x88); /* Interrupt flags */
SBIT(URX1IF, 0x88, 7); /* USART1 RX interrupt flag */
SBIT(ADCIF, 0x88, 5); /* ADC interrupt flag */
SBIT(URX0IF, 0x88, 3); /* USART0 RX interrupt flag */
SBIT(IT1, 0x88, 2); /* Reserved. Must always be set to 1 */
SBIT(RFERRIF, 0x88, 1); /* RF TXFIFO/RXFIFO interrupt flag */
SBIT(IT0, 0x88, 0); /* Reserved. Must always be set to 1 */
SFR(P1, 0x90); /* Port 1 */
SBIT(P1_7, 0x90, 7); /* Port 1 bit 7 */
SBIT(P1_6, 0x90, 6); /* Port 1 bit 6 */
SBIT(P1_5, 0x90, 5); /* Port 1 bit 5 */
SBIT(P1_4, 0x90, 4); /* Port 1 bit 4 */
SBIT(P1_3, 0x90, 3); /* Port 1 bit 3 */
SBIT(P1_2, 0x90, 2); /* Port 1 bit 2 */
SBIT(P1_1, 0x90, 1); /* Port 1 bit 1 */
SBIT(P1_0, 0x90, 0); /* Port 1 bit 0 */
SFR(DPS, 0x92); /* Data pointer select */
SFR(S0CON, 0x98); /* Interrupt flags 2 */
SBIT(ENCIF_1, 0x98, 1); /* AES Interrupt flag 1 */
SBIT(ENCIF_0, 0x98, 0); /* AES Interrupt flag 0 */
SFR(IEN2, 0x9A); /* Interrupt enable 2 */
SFR(S1CON, 0x9B); /* Interrupt flags 3 */
SFR(P2, 0xA0); /* Port 2 */
SBIT(P2_7, 0xA0, 7); /* Port 2 bit 7 */
SBIT(P2_6, 0xA0, 6); /* Port 2 bit 6 */
SBIT(P2_5, 0xA0, 5); /* Port 2 bit 5 */
SBIT(P2_4, 0xA0, 4); /* Port 2 bit 4 */
SBIT(P2_3, 0xA0, 3); /* Port 2 bit 3 */
SBIT(P2_2, 0xA0, 2); /* Port 2 bit 2 */
SBIT(P2_1, 0xA0, 1); /* Port 2 bit 1 */
SBIT(P2_0, 0xA0, 0); /* Port 2 bit 0 */
SFR(IEN0, 0xA8); /* Interrupt enable 0 */
SBIT(EA, 0xA8, 7); /* All interrupts - enable/disable */
SBIT(STIE, 0xA8, 5); /* Sleep Timer interrupt enable */
SBIT(ENCIE, 0xA8, 4); /* AES encryption/decryption interrupt enable */
SBIT(URX1IE, 0xA8, 3); /* USART1 RX interrupt enable */
SBIT(URX0IE, 0xA8, 2); /* USART0 RX interrupt enable */
SBIT(ADCIE, 0xA8, 1); /* ADC interrupt enable */
SBIT(RFERRIE, 0xA8, 0); /* RF TXFIFO/RXFIFO interrupt enable */
SFR(IP0, 0xA9); /* Interrupt priority 0 */
SFR(IEN1, 0xB8); /* Interrupt enable 1 */
SBIT(P0IE, 0xB8, 5); /* Port 0 interrupt enable */
SBIT(T4IE, 0xB8, 4); /* Timer 4 interrupt enable */
SBIT(T3IE, 0xB8, 3); /* Timer 3 interrupt enable */
SBIT(T2IE, 0xB8, 2); /* Timer 2 interrupt enable */
SBIT(T1IE, 0xB8, 1); /* Timer 1 interrupt enable */
SBIT(DMAIE, 0xB8, 0); /* DMA Transfer interrupt enable */
SFR(IP1, 0xB9); /* Interrupt priority 1 */
SFR(IRCON, 0xC0); /* Interrupt flags 4 */
SBIT(STIF, 0xC0, 7); /* Sleep Timer interrupt flag */
SBIT(P0IF, 0xC0, 5); /* Port 0 interrupt flag */
SBIT(T4IF, 0xC0, 4); /* Timer 4 interrupt flag */
SBIT(T3IF, 0xC0, 3); /* Timer 3 interrupt flag */
SBIT(T2IF, 0xC0, 2); /* Timer 2 interrupt flag */
SBIT(T1IF, 0xC0, 1); /* Timer 1 interrupt flag */
SBIT(DMAIF, 0xC0, 0); /* DMA-complete interrupt flag */
SFR(PSW, 0xD0); /* Program status word */
SBIT(CY, 0xD0, 7); /* Carry flag */
SBIT(AC, 0xD0, 6); /* Auxiliary carry flag */
SBIT(F0, 0xD0, 5); /* User-defined flag 1, bit addressable */
SBIT(RS1, 0xD0, 4); /* Register bank select, bit 1 */
SBIT(RS0, 0xD0, 3); /* Register bank select, bit 0 */
SBIT(OV, 0xD0, 2); /* Overflow flag */
SBIT(F1, 0xD0, 1); /* User-defined flag 0, bit addressable */
SBIT(P, 0xD0, 0); /* Parity flag */
SFR(ACC, 0xE0); /* Accumulator */
SBIT(ACC_7, 0xE0, 7); /* Accumulator bit 7 */
SBIT(ACC_6, 0xE0, 6); /* Accumulator bit 6 */
SBIT(ACC_5, 0xE0, 5); /* Accumulator bit 5 */
SBIT(ACC_4, 0xE0, 4); /* Accumulator bit 4 */
SBIT(ACC_3, 0xE0, 3); /* Accumulator bit 3 */
SBIT(ACC_2, 0xE0, 2); /* Accumulator bit 2 */
SBIT(ACC_1, 0xE0, 1); /* Accumulator bit 1 */
SBIT(ACC_0, 0xE0, 0); /* Accumulator bit 0 */
SFR(IRCON2, 0xE8); /* Interrupt flags 5 */
SBIT(WDTIF, 0xE8, 4); /* Watchdog Timer interrupt flag */
SBIT(P1IF, 0xE8, 3); /* Port 1 Interrupt flag */
SBIT(UTX1IF, 0xE8, 2); /* USART1 TX interrupt flag */
SBIT(UTX0IF, 0xE8, 1); /* USART0 TX interrupt flag */
SBIT(P2IF, 0xE8, 0); /* Port 2 interrupt flag */
SFR(B, 0xF0); /* B Register */
SBIT(B_7, 0xF0, 7); /* Register B bit 7 */
SBIT(B_6, 0xF0, 6); /* Register B bit 6 */
SBIT(B_5, 0xF0, 5); /* Register B bit 5 */
SBIT(B_4, 0xF0, 4); /* Register B bit 4 */
SBIT(B_3, 0xF0, 3); /* Register B bit 3 */
SBIT(B_2, 0xF0, 2); /* Register B bit 2 */
SBIT(B_1, 0xF0, 1); /* Register B bit 1 */
SBIT(B_0, 0xF0, 0); /* Register B bit 0 */
/* ADC */
SFR(ADCCON1, 0xB4); /* ADC control 1 */
SFR(ADCCON2, 0xB5); /* ADC control 2 */
SFR(ADCCON3, 0xB6); /* ADC control 3 */
SFR(ADCL, 0xBA); /* ADC data low */
SFR(ADCH, 0xBB); /* ADC data high */
SFR(RNDL, 0xBC); /* Random number generator data low */
SFR(RNDH, 0xBD); /* Random number generator data high */
/* AES Coprocessor */
SFR(ENCDI, 0xB1); /* Encryption/decryption input data */
SFR(ENCDO, 0xB2); /* Encryption/decryption output data */
SFR(ENCCS, 0xB3); /* Encryption/decryption control and status */
/* DMA Controller */
SFR(DMAIRQ, 0xD1); /* DMA interrupt flag */
SFR(DMA1CFGL, 0xD2); /* DMA channel 14 configuration address low */
SFR(DMA1CFGH, 0xD3); /* DMA channel 14 configuration address high */
SFR(DMA0CFGL, 0xD4); /* DMA channel 0 configuration address low */
SFR(DMA0CFGH, 0xD5); /* DMA channel 0 configuration address high */
SFR(DMAARM, 0xD6); /* DMA channel armed */
SFR(DMAREQ, 0xD7); /* DMA channel start request and status */
/* I/O */
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 pins interrupt mask and edge */
SFR(P0IEN, 0xAB); /* Port 0 interrupt mask */
SFR(P1IEN, 0x8D); /* Port 1 interrupt mask */
SFR(P2IEN, 0xAC); /* Port 2 interrupt mask */
SFR(P0INP, 0x8F); /* Port 0 input Mode */
SFR(PERCFG, 0xF1); /* Peripheral I/O control */
SFR(APCFG, 0xF2); /* Analog peripheral I/O 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(P0DIR, 0xFD); /* Port 0 direction */
SFR(P1DIR, 0xFE); /* Port 1 direction */
SFR(P2DIR, 0xFF); /* Port 2 direction */
SFR(PMUX, 0xAE); /* Power-down signal mux */
/* Memory */
SFR(MPAGE, 0x93); /* Memory page select */
SFR(_XPAGE, 0x93); /* Memory page select - SDCC name */
SFR(MEMCTR, 0xC7); /* Memory system control */
SFR(FMAP, 0x9F); /* Flash-memory bank mapping */
SFR(PSBANK, 0x9F); /* Flash-memory bank mapping - SDCC name */
/* RF */
SFR(RFIRQF1, 0x91); /* RF interrupt flags MSB */
SFR(RFD, 0xD9); /* RF data */
SFR(RFST, 0xE1); /* RF command strobe */
SFR(RFIRQF0, 0xE9); /* RF interrupt flags LSB */
SFR(RFERRF, 0xBF); /* RF error interrupt flags */
/* Sleep Timer */
SFR(ST0, 0x95); /* Sleep Timer 0 */
SFR(ST1, 0x96); /* Sleep Timer 1 */
SFR(ST2, 0x97); /* Sleep Timer 2 */
SFR(STLOAD, 0xAD); /* Sleep-timer load status */
SFR(SLEEPCMD, 0xBE); /* Sleep-mode control command */
SFR(SLEEPSTA, 0x9D); /* Sleep-mode control status */
/* Power Management and Clocks */
SFR(CLKCONCMD, 0xC6); /* Clock control command */
SFR(CLKCONSTA, 0x9E); /* Clock control status */
/* Timer 1 */
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(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(T1STAT, 0xAF); /* Timer 1 status */
/* Timer 2 (MAC Timer) */
SFR(T2CTRL, 0x94); /* Timer 2 control */
SFR(T2EVTCFG, 0x9C); /* Timer 2 event configuration */
SFR(T2IRQF, 0xA1); /* Timer 2 interrupt flags */
SFR(T2M0, 0xA2); /* Timer 2 multiplexed register 0 */
SFR(T2M1, 0xA3); /* Timer 2 multiplexed register 1 */
SFR(T2MOVF0, 0xA4); /* Timer 2 multiplexed overflow register 0 */
SFR(T2MOVF1, 0xA5); /* Timer 2 multiplexed overflow register 1 */
SFR(T2MOVF2, 0xA6); /* Timer 2 multiplexed overflow register 2 */
SFR(T2IRQM, 0xA7); /* Timer 2 interrupt mask */
SFR(T2MSEL, 0xC3); /* Timer 2 multiplex select */
/* Timer 3 */
SFR(T3CNT, 0xCA); /* Timer 3 counter */
SFR(T3CTL, 0xCB); /* Timer 3 control */
SFR(T3CCTL0, 0xCC); /* Timer 3 channel 0 compare control */
SFR(T3CC0, 0xCD); /* Timer 3 channel 0 compare value */
SFR(T3CCTL1, 0xCE); /* Timer 3 channel 1 compare control */
SFR(T3CC1, 0xCF); /* Timer 3 channel 1 compare value */
/* Timer 4 */
SFR(T4CNT, 0xEA); /* Timer 4 counter */
SFR(T4CTL, 0xEB); /* Timer 4 control */
SFR(T4CCTL0, 0xEC); /* Timer 4 channel 0 compare control */
SFR(T4CC0, 0xED); /* Timer 4 channel 0 compare value */
SFR(T4CCTL1, 0xEE); /* Timer 4 channel 1 compare control */
SFR(T4CC1, 0xEF); /* Timer 4 channel 1 compare value */
/* Timer 1, 3, 4 join Interrupts */
SFR(TIMIF, 0xD8); /* Timers 1/3/4 joint interrupt mask/flags */
SBIT(OVFIM, 0xD8, 6); /* Timer 1 overflow interrupt mask */
SBIT(T4CH1IF, 0xD8, 5); /* Timer 4 channel 1 interrupt flag */
SBIT(T4CH0IF, 0xD8, 4); /* Timer 4 channel 0 interrupt flag */
SBIT(T4OVFIF, 0xD8, 3); /* Timer 4 overflow interrupt flag */
SBIT(T3CH1IF, 0xD8, 2); /* Timer 3 channel 1 interrupt flag */
SBIT(T3CH0IF, 0xD8, 1); /* Timer 3 channel 0 interrupt flag */
SBIT(T3OVFIF, 0xD8, 0); /* Timer 3 overflow interrupt flag */
/* USART 0 */
SFR(U0CSR, 0x86); /* USART 0 control and status */
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 */
/* USART 1 */
SFR(U1CSR, 0xF8); /* USART 1 control and status */
SBIT(MODE, 0xF8, 7); /* USART mode select */
SBIT(RE, 0xF8, 6); /* UART receiver enable */
SBIT(SLAVE, 0xF8, 5); /* SPI master- or slave mode select */
SBIT(FE, 0xF8, 4); /* UART framing error status */
SBIT(ERR, 0xF8, 3); /* UART parity error status */
SBIT(RX_BYTE, 0xF8, 2); /* Receive byte status */
SBIT(TX_BYTE, 0xF8, 1); /* Transmit byte status */
SBIT(ACTIVE, 0xF8, 0); /* USART transmit/receive active status */
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 */
/* Watchdog Timer */
SFR(WDCTL, 0xC9); /* Watchdog Timer Control */
/*---------------------------------------------------------------------------
* XREG Registers (0x60000x63FF), excluding RF and USB registers
* (Table 2.2, page 31)
*---------------------------------------------------------------------------*/
SFRX(MONMUX , 0x61A6); /* Operational amplifier mode control (cc2530/31) */
SFRX(OPAMPMC, 0x61A6); /* Battery monitor MUX (cc2533) */
/* I2C registers - cc2533 only */
SFRX(I2CCFG, 0x6230); /* I2C control */
SFRX(I2CSTAT, 0x6231); /* I2C status */
SFRX(I2CDATA, 0x6232); /* I2C data */
SFRX(I2CADDR, 0x6233); /* I2C own slave address */
SFRX(I2CWC, 0x6234); /* Wrapper Control */
SFRX(I2CIO, 0x6235); /* GPIO */
/* End I2C registers */
SFRX(OBSSEL0, 0x6243); /* Observation output control - register 0 */
SFRX(OBSSEL1, 0x6244); /* Observation output control - register 1 */
SFRX(OBSSEL2, 0x6245); /* Observation output control - register 2 */
SFRX(OBSSEL3, 0x6246); /* Observation output control - register 3 */
SFRX(OBSSEL4, 0x6247); /* Observation output control - register 4 */
SFRX(OBSSEL5, 0x6248); /* Observation output control - register 5 */
SFRX(CHVER, 0x6249); /* Chip version */
SFRX(CHIPID, 0x624A); /* Chip identification */
SFRX(TR0, 0x624B); /* Test register 0 */
SFRX(DBGDATA, 0x6260); /* Debug interface write data */
SFRX(SRCRC, 0x6262); /* Sleep reset CRC */
SFRX(BATTMON, 0x6264); /* Battery monitor */
SFRX(IVCTRL, 0x6265); /* Analog control register */
SFRX(FCTL, 0x6270); /* Flash control */
SFRX(FADDRL, 0x6271); /* Flash address low */
SFRX(FADDRH, 0x6272); /* Flash address high */
SFRX(FWDATA, 0x6273); /* Flash write data */
SFRX(CHIPINFO0, 0x6276); /* Chip information byte 0 */
SFRX(CHIPINFO1, 0x6277); /* Chip information byte 1 */
SFRX(IRCTL, 0x6281); /* Timer 1 IR generation control */
SFRX(CLD, 0x6290); /* Clock-loss detection */
SFRX(XX_T1CCTL0, 0x62A0); /* Timer 1 channel 0 capture/compare control (additional XREG mapping of SFR) */
SFRX(XX_T1CCTL1, 0x62A1); /* Timer 1 channel 1 capture/compare control (additional XREG mapping of SFR register) */
SFRX(XX_T1CCTL2, 0x62A2); /* Timer 1 channel 2 capture/compare control (additional XREG mapping of SFR register) */
SFRX(T1CCTL3, 0x62A3); /* Timer 1 channel 3 capture/compare control */
SFRX(T1CCTL4, 0x62A4); /* Timer 1 channel 4 capture/compare control */
SFRX(XX_T1CC0L, 0x62A6); /* Timer 1 channel 0 capture/compare value low (additional XREG mapping of SFR register) */
SFRX(XX_T1CC0H, 0x62A7); /* Timer 1 channel 0 capture/compare value high (additional XREG mapping of SFR register) */
SFRX(XX_T1CC1L, 0x62A8); /* Timer 1 channel 1 capture/compare value low (additional XREG mapping of SFR register) */
SFRX(XX_T1CC1H, 0x62A9); /* Timer 1 channel 1 capture/compare value high (additional XREG mapping of SFR register) */
SFRX(XX_T1CC2L, 0x62AA); /* Timer 1 channel 2 capture/compare value low (additional XREG mapping of SFR register) */
SFRX(XX_T1CC2H, 0x62AB); /* Timer 1 channel 2 capture/compare value high (additional XREG mapping of SFR register) */
SFRX(T1CC3L, 0x62AC); /* Timer 1 channel 3 capture/compare value low */
SFRX(T1CC3H, 0x62AD); /* Timer 1 channel 3 capture/compare value high */
SFRX(T1CC4L, 0x62AE); /* Timer 1 channel 4 capture/compare value low */
SFRX(T1CC4H, 0x62AF); /* Timer 1 channel 4 capture/compare value high */
SFRX(STCC, 0x62B0); /* Sleep Timer capture control */
SFRX(STCS, 0x62B1); /* Sleep Timer capture status */
SFRX(STCV0, 0x62B2); /* Sleep Timer capture value byte 0 */
SFRX(STCV1, 0x62B3); /* Sleep Timer capture value byte 1 */
SFRX(STCV2, 0x62B4); /* Sleep Timer capture value byte 2 */
SFRX(OPAMPC, 0x62C0); /* Operational amplifier control */
SFRX(OPAMPS, 0x62C1); /* Operational amplifier status */
SFRX(CMPCTL, 0x62D0); /* Analog comparator control and status */
/*---------------------------------------------------------------------------
* Radio Registers
* (Sec. 23, page 211)
*---------------------------------------------------------------------------*/
SFRX(RFCORE_RAM, 0x6000); /* RF Core Memory Map (0x6000 to 0x0617F) */
SFRX(RXFIFO, 0x6000); /* TXFIFO Direct Access (0x6000 to 0x607F) */
SFRX(TXFIFO, 0x6080); /* TXFIFO Direct Access (0x6080 to 0x60FF) */
SFRX(SRC_ADDR_TABLE, 0x6100); /* Source Address Table Start */
/* Source Address Matching Result */
SFRX(SRCRESMASK0, 0x6160); /* Extended address matching */
SFRX(SRCRESMASK1, 0x6161); /* Short address matching */
SFRX(SRCRESMASK2, 0x6162); /* Source address match - 24-bit mask */
SFRX(SRCRESINDEX, 0x6163); /* Bit index of least-significant 1 in SRCRESMASK */
/* Source Address Matching Control */
SFRX(SRCEXTPENDEN0, 0x6164); /* Ext. Address bit-mask 0 (LSB) */
SFRX(SRCEXTPENDEN1, 0x6165); /* Ext. Address bit-mask 1 */
SFRX(SRCEXTPENDEN2, 0x6166); /* Ext. Address bit-mask 2 (MSB) */
SFRX(SRCSHORTPENDEN0, 0x6167); /* Short Address bit-mask 0 (LSB) */
SFRX(SRCSHORTPENDEN1, 0x6168); /* Short Address bit-mask 1 */
SFRX(SRCSHORTPENDEN2, 0x6169); /* Short Address bit-mask 2 (MSB) */
/* Local Address Information (used during destination address filtering) */
SFRX(EXT_ADDR0, 0x616A); /* IEEE extended address 0 */
SFRX(EXT_ADDR1, 0x616B); /* IEEE extended address 1 */
SFRX(EXT_ADDR2, 0x616C); /* IEEE extended address 2 */
SFRX(EXT_ADDR3, 0x616D); /* IEEE extended address 3 */
SFRX(EXT_ADDR4, 0x616E); /* IEEE extended address 4 */
SFRX(EXT_ADDR5, 0x616F); /* IEEE extended address 5 */
SFRX(EXT_ADDR6, 0x6170); /* IEEE extended address 6 */
SFRX(EXT_ADDR7, 0x6171); /* IEEE extended address 7 */
SFRX(PAN_ID0, 0x6172); /* PAN ID 0 */
SFRX(PAN_ID1, 0x6173); /* PAN ID 1 */
SFRX(SHORT_ADDR0, 0x6174); /* Short Address 0 */
SFRX(SHORT_ADDR1, 0x6175); /* Short Address 1 */
SFRX(FRMFILT0, 0x6180); /* Frame Filtering 0 */
SFRX(FRMFILT1, 0x6181); /* Frame Filtering 1 */
SFRX(SRCMATCH, 0x6182); /* Source Address Matching and Pending Bits */
SFRX(SRCSHORTEN0, 0x6183); /* Short Address Matching 0 */
SFRX(SRCSHORTEN1, 0x6184); /* Short Address Matching 1 */
SFRX(SRCSHORTEN2, 0x6185); /* Short Address Matching 2 */
SFRX(SRCEXTEN0, 0x6186); /* Extended Address Matching 0 */
SFRX(SRCEXTEN1, 0x6187); /* Extended Address Matching 1 */
SFRX(SRCEXTEN2, 0x6188); /* Extended Address Matching 2 */
SFRX(FRMCTRL0, 0x6189); /* Frame Handling */
SFRX(FRMCTRL1, 0x618A); /* Frame Handling */
SFRX(RXENABLE, 0x618B); /* RX Enabling */
SFRX(RXMASKSET, 0x618C); /* RX Enabling */
SFRX(RXMASKCLR, 0x618D); /* RX Disabling */
SFRX(FREQTUNE, 0x618E); /* Crystal Oscillator Frequency Tuning */
SFRX(FREQCTRL, 0x618F); /* RF Frequency Control */
SFRX(TXPOWER, 0x6190); /* Controls the Output Power */
SFRX(TXCTRL, 0x6191); /* Controls the TX Settings */
SFRX(FSMSTAT0, 0x6192); /* Radio Status Register */
SFRX(FSMSTAT1, 0x6193); /* Radio Status Register */
SFRX(FIFOPCTRL, 0x6194); /* FIFOP Threshold */
SFRX(FSMCTRL, 0x6195); /* FSM Options */
SFRX(CCACTRL0, 0x6196); /* CCA Threshold */
SFRX(CCACTRL1, 0x6197); /* Other CCA Options */
SFRX(RSSI, 0x6198); /* RSSI Status Register */
SFRX(RSSISTAT, 0x6199); /* RSSI Valid Status Register */
SFRX(RXFIRST, 0x619A); /* First Byte in RXFIFO */
SFRX(RXFIFOCNT, 0x619B); /* Number of Bytes in RXFIFO */
SFRX(TXFIFOCNT, 0x619C); /* Number of Bytes in TXFIFO */
SFRX(RXFIRST_PTR, 0x619D); /* RXFIFO Pointer */
SFRX(RXLAST_PTR, 0x619E); /* RXFIFO Pointer */
SFRX(RXP1_PTR, 0x619F); /* RXFIFO Pointer */
SFRX(TXFIRST_PTR, 0x61A1); /* TXFIFO Pointer */
SFRX(TXLAST_PTR, 0x61A2); /* TXFIFO Pointer */
SFRX(RFIRQM0, 0x61A3); /* RF Interrupt Masks 0 */
SFRX(RFIRQM1, 0x61A4); /* RF Interrupt Masks 1 */
SFRX(RFERRM, 0x61A5); /* RF Error Interrupt Mask */
SFRX(RFRND, 0x61A7); /* Random Data */
SFRX(MDMCTRL0, 0x61A8); /* Controls Modem 0 */
SFRX(MDMCTRL1, 0x61A9); /* Controls Modem 1 */
SFRX(FREQEST, 0x61AA); /* Estimated RF Frequency Offset */
SFRX(RXCTRL, 0x61AB); /* Tune Receive Section */
SFRX(FSCTRL, 0x61AC); /* Tune Frequency Synthesizer */
SFRX(FSCAL0, 0x61AD); /* Tune Frequency Calibration 0 */
SFRX(FSCAL1, 0x61AE); /* Tune Frequency Calibration 1 */
SFRX(FSCAL2, 0x61AF); /* Tune Frequency Calibration 2 */
SFRX(FSCAL3, 0x61B0); /* Tune Frequency Calibration 3 */
SFRX(AGCCTRL0, 0x61B1); /* AGC Dynamic Range Control */
SFRX(AGCCTRL1, 0x61B2); /* AGC Reference Level */
SFRX(AGCCTRL2, 0x61B3); /* AGC Gain Override */
SFRX(AGCCTRL3, 0x61B4); /* AGC Control */
SFRX(ADCTEST0, 0x61B5); /* ADC Tuning 0 */
SFRX(ADCTEST1, 0x61B6); /* ADC Tuning 1 */
SFRX(ADCTEST2, 0x61B7); /* ADC Tuning 2 */
SFRX(MDMTEST0, 0x61B8); /* Test Register for Modem 0 */
SFRX(MDMTEST1, 0x61B9); /* Test Register for Modem 1 */
SFRX(DACTEST0, 0x61BA); /* DAC Override Value */
SFRX(DACTEST1, 0x61BB); /* DAC Override Value */
SFRX(DACTEST2, 0x61BC); /* DAC Test Setting */
SFRX(ATEST, 0x61BD); /* Analog Test Control */
SFRX(PTEST0, 0x61BE); /* Override Power-Down Register 0 */
SFRX(PTEST1, 0x61BF); /* Override Power-Down Register 1 */
SFRX(TXFILTCFG, 0x61FA); /* TX Filter Configuration */
SFRX(RFC_OBS_CTRL0, 0x61EB); /* RF Observation Mux Control 0 */
SFRX(RFC_OBS_CTRL1, 0x61EC); /* RF Observation Mux Control 1 */
SFRX(RFC_OBS_CTRL2, 0x61ED); /* RF Observation Mux Control 2 */
/* Command Strobe/CSMA-CA Processor Registers */
SFRX(CSPPROG0, 0x61C0); /* CSP Program Memory, Byte 0 */
SFRX(CSPPROG1, 0x61C1); /* CSP Program Memory, Byte 1 */
SFRX(CSPPROG2, 0x61C2); /* CSP Program Memory, Byte 2 */
SFRX(CSPPROG3, 0x61C3); /* CSP Program Memory, Byte 3 */
SFRX(CSPPROG4, 0x61C4); /* CSP Program Memory, Byte 4 */
SFRX(CSPPROG5, 0x61C5); /* CSP Program Memory, Byte 5 */
SFRX(CSPPROG6, 0x61C6); /* CSP Program Memory, Byte 6 */
SFRX(CSPPROG7, 0x61C7); /* CSP Program Memory, Byte 7 */
SFRX(CSPPROG8, 0x61C8); /* CSP Program Memory, Byte 8 */
SFRX(CSPPROG9, 0x61C9); /* CSP Program Memory, Byte 9 */
SFRX(CSPPROG10, 0x61CA); /* CSP Program Memory, Byte 10 */
SFRX(CSPPROG11, 0x61CB); /* CSP Program Memory, Byte 11 */
SFRX(CSPPROG12, 0x61CC); /* CSP Program Memory, Byte 12 */
SFRX(CSPPROG13, 0x61CD); /* CSP Program Memory, Byte 13 */
SFRX(CSPPROG14, 0x61CE); /* CSP Program Memory, Byte 14 */
SFRX(CSPPROG15, 0x61CF); /* CSP Program Memory, Byte 15 */
SFRX(CSPPROG16, 0x61D0); /* CSP Program Memory, Byte 16 */
SFRX(CSPPROG17, 0x61D1); /* CSP Program Memory, Byte 17 */
SFRX(CSPPROG18, 0x61D2); /* CSP Program Memory, Byte 18 */
SFRX(CSPPROG19, 0x61D3); /* CSP Program Memory, Byte 19 */
SFRX(CSPPROG20, 0x61D4); /* CSP Program Memory, Byte 20 */
SFRX(CSPPROG21, 0x61D5); /* CSP Program Memory, Byte 21 */
SFRX(CSPPROG22, 0x61D6); /* CSP Program Memory, Byte 22 */
SFRX(CSPPROG23, 0x61D7); /* CSP Program Memory, Byte 23 */
SFRX(CSPCTRL, 0x61E0); /* CSP Control Bit */
SFRX(CSPSTAT, 0x61E1); /* CSP Status Register */
SFRX(CSPX, 0x61E2); /* CSP X Register */
SFRX(CSPY, 0x61E3); /* CSP Y Register */
SFRX(CSPZ, 0x61E4); /* CSP Z Register */
SFRX(CSPT, 0x61E5); /* CSP T Register */
/*---------------------------------------------------------------------------
* cc2531 USB Registers
* (Sec. 21.12, page 196)
*---------------------------------------------------------------------------*/
SFRX(USBADDR, 0x6200); /* Function Address */
SFRX(USBPOW, 0x6201); /* Power/Control Register */
SFRX(USBIIF, 0x6202); /* IN Endpoints and EP0 Interrupt Flags */
SFRX(USBOIF, 0x6204); /* OUT-Endpoint Interrupt Flags */
SFRX(USBCIF, 0x6206); /* Common USB Interrupt Flags */
SFRX(USBIIE, 0x6207); /* IN Endpoints and EP0 Interrupt-Enable Mask */
SFRX(USBOIE, 0x6209); /* Out Endpoints Interrupt Enable Mask */
SFRX(USBCIE, 0x620B); /* Common USB Interrupt-Enable Mask */
SFRX(USBFRML, 0x620C); /* Current Frame Number (Low Byte) */
SFRX(USBFRMH, 0x620D); /* Current Frame Number (High Byte) */
SFRX(USBINDEX, 0x620E); /* Current-Endpoint Index Register */
SFRX(USBCTRL, 0x620F); /* USB Control Register */
SFRX(USBMAXI, 0x6210); /* Max. Packet Size for IN Endpoint{15} */
SFRX(USBCS0, 0x6211); /* EP0 Control and Status (USBINDEX = 0) */
SFRX(USBCSIL, 0x6211); /* IN EP{15} Control and Status, Low */
SFRX(USBCSIH, 0x6212); /* IN EP{15} Control and Status, High */
SFRX(USBMAXO, 0x6213); /* Max. Packet Size for OUT EP{15} */
SFRX(USBCSOL, 0x6214); /* OUT EP{15} Control and Status, Low */
SFRX(USBCSOH, 0x6215); /* OUT EP{15} Control and Status, High */
SFRX(USBCNT0, 0x6216); /* Number of Received Bytes in EP0 FIFO (USBINDEX = 0) */
SFRX(USBCNTL, 0x6216); /* Number of Bytes in EP{15} OUT FIFO, Low */
SFRX(USBCNTH, 0x6217); /* Number of Bytes in EP{15} OUT FIFO, High */
SFRX(USBF0, 0x6220); /* Endpoint-0 FIFO */
SFRX(USBF1, 0x6222); /* Endpoint-1 FIFO */
SFRX(USBF2, 0x6224); /* Endpoint-2 FIFO */
SFRX(USBF3, 0x6226); /* Endpoint-3 FIFO */
SFRX(USBF4, 0x6228); /* Endpoint-4 FIFO */
SFRX(USBF5, 0x622A); /* Endpoint-5 FIFO */
/*---------------------------------------------------------------------------
* SFR Access via XDATA (0x7080 - 0x70FF)
*---------------------------------------------------------------------------*/
SFRX(X_P0, 0x7080); /* Port 0 - Read Only */
SFRX(X_U0CSR, 0x7086); /* USART 0 control and status */
SFRX(X_P0IFG, 0x7089); /* Port 0 interrupt status flag */
SFRX(X_P1IFG, 0x708A); /* Port 1 interrupt status flag */
SFRX(X_P2IFG, 0x708B); /* Port 2 interrupt status flag */
SFRX(X_PICTL, 0x708C); /* Port pins interrupt mask and edge */
SFRX(X_P1IEN, 0x708D); /* Port 1 interrupt mask */
SFRX(X_P0INP, 0x708F); /* Port 0 input Mode */
SFRX(X_P1, 0x7090); /* Port 1 - Read Only */
SFRX(X_RFIRQF1, 0x7091); /* RF interrupt flags MSB */
SFRX(X_MPAGE, 0x7093); /* Memory page select */
SFRX(X__XPAGE, 0x7093); /* Memory page select - SDCC name */
SFRX(X_T2CTRL, 0x7094); /* Timer 2 control */
SFRX(X_ST0, 0x7095); /* Sleep Timer 0 */
SFRX(X_ST1, 0x7096); /* Sleep Timer 1 */
SFRX(X_ST2, 0x7097); /* Sleep Timer 2 */
SFRX(X_T2EVTCFG, 0x709C); /* Timer 2 event configuration */
SFRX(X_SLEEPSTA, 0x709D); /* Sleep-mode control status */
SFRX(X_CLKCONSTA, 0x709E); /* Clock control status */
SFRX(X_FMAP, 0x709F); /* Flash-memory bank mapping */
SFRX(X_PSBANK, 0x709F); /* Flash-memory bank mapping - SDCC name */
SFRX(X_P2, 0x70A0); /* Port 2 - Read Only */
SFRX(X_T2IRQF, 0x70A1); /* Timer 2 interrupt flags */
SFRX(X_T2M0, 0x70A2); /* Timer 2 multiplexed register 0 */
SFRX(X_T2M1, 0x70A3); /* Timer 2 multiplexed register 1 */
SFRX(X_T2MOVF0, 0x70A4); /* Timer 2 multiplexed overflow register 0 */
SFRX(X_T2MOVF1, 0x70A5); /* Timer 2 multiplexed overflow register 1 */
SFRX(X_T2MOVF2, 0x70A6); /* Timer 2 multiplexed overflow register 2 */
SFRX(X_T2IRQM, 0x70A7); /* Timer 2 interrupt mask */
SFRX(X_P0IEN, 0x70AB); /* Port 0 interrupt mask */
SFRX(X_P2IEN, 0x70AC); /* Port 2 interrupt mask */
SFRX(X_STLOAD, 0x70AD); /* Sleep-timer load status */
SFRX(X_PMUX, 0x70AE); /* Power-down signal mux */
SFRX(X_T1STAT, 0x70AF); /* Timer 1 status */
SFRX(X_ENCDI, 0x70B1); /* Encryption/decryption input data */
SFRX(X_ENCDO, 0x70B2); /* Encryption/decryption output data */
SFRX(X_ENCCS, 0x70B3); /* Encryption/decryption control and status */
SFRX(X_ADCCON1, 0x70B4); /* ADC control 1 */
SFRX(X_ADCCON2, 0x70B5); /* ADC control 2 */
SFRX(X_ADCCON3, 0x70B6); /* ADC control 3 */
SFRX(X_ADCL, 0x70BA); /* ADC data low */
SFRX(X_ADCH, 0x70BB); /* ADC data high */
SFRX(X_RNDL, 0x70BC); /* Random number generator data low */
SFRX(X_RNDH, 0x70BD); /* Random number generator data high */
SFRX(X_SLEEPCMD, 0x70BE); /* Sleep-mode control command */
SFRX(X_RFERRF, 0x70BF); /* RF error interrupt flags */
SFRX(X_U0DBUF, 0x70C1); /* USART 0 receive/transmit data buffer */
SFRX(X_U0BAUD, 0x70C2); /* USART 0 baud-rate control */
SFRX(X_T2MSEL, 0x70C3); /* Timer 2 multiplex select */
SFRX(X_U0UCR, 0x70C4); /* USART 0 UART control */
SFRX(X_U0GCR, 0x70C5); /* USART 0 generic control */
SFRX(X_CLKCONCMD, 0x70C6); /* Clock control command */
SFRX(X_MEMCTR, 0x70C7); /* Memory system control */
SFRX(X_WDCTL, 0x70C9); /* Watchdog Timer Control */
SFRX(X_T3CNT, 0x70CA); /* Timer 3 counter */
SFRX(X_T3CTL, 0x70CB); /* Timer 3 control */
SFRX(X_T3CCTL0, 0x70CC); /* Timer 3 channel 0 compare control */
SFRX(X_T3CC0, 0x70CD); /* Timer 3 channel 0 compare value */
SFRX(X_T3CCTL1, 0x70CE); /* Timer 3 channel 1 compare control */
SFRX(X_T3CC1, 0x70CF); /* Timer 3 channel 1 compare value */
SFRX(X_DMAIRQ, 0x70D1); /* DMA interrupt flag */
SFRX(X_DMA1CFGL, 0x70D2); /* DMA channel 14 configuration address low */
SFRX(X_DMA1CFGH, 0x70D3); /* DMA channel 14 configuration address high */
SFRX(X_DMA0CFGL, 0x70D4); /* DMA channel 0 configuration address low */
SFRX(X_DMA0CFGH, 0x70D5); /* DMA channel 0 configuration address high */
SFRX(X_DMAARM, 0x70D6); /* DMA channel armed */
SFRX(X_DMAREQ, 0x70D7); /* DMA channel start request and status */
SFRX(X_TIMIF, 0x70D8); /* Timers 1/3/4 joint interrupt mask/flags */
SFRX(X_RFD, 0x70D9); /* RF data */
SFRX(X_T1CC0L, 0x70DA); /* Timer 1 channel 0 capture/compare value low */
SFRX(X_T1CC0H, 0x70DB); /* Timer 1 channel 0 capture/compare value high */
SFRX(X_T1CC1L, 0x70DC); /* Timer 1 channel 1 capture/compare value low */
SFRX(X_T1CC1H, 0x70DD); /* Timer 1 channel 1 capture/compare value high */
SFRX(X_T1CC2L, 0x70DE); /* Timer 1 channel 2 capture/compare value low */
SFRX(X_T1CC2H, 0x70DF); /* Timer 1 channel 2 capture/compare value high */
SFRX(X_RFST, 0x70E1); /* RF command strobe */
SFRX(X_T1CNTL, 0x70E2); /* Timer 1 counter low */
SFRX(X_T1CNTH, 0x70E3); /* Timer 1 counter high */
SFRX(X_T1CTL, 0x70E4); /* Timer 1 control and status */
SFRX(X_T1CCTL0, 0x70E5); /* Timer 1 channel 0 capture/compare control */
SFRX(X_T1CCTL1, 0x70E6); /* Timer 1 channel 1 capture/compare control */
SFRX(X_T1CCTL2, 0x70E7); /* Timer 1 channel 2 capture/compare control */
SFRX(X_RFIRQF0, 0x70E9); /* RF interrupt flags LSB */
SFRX(X_T4CNT, 0x70EA); /* Timer 4 counter */
SFRX(X_T4CTL, 0x70EB); /* Timer 4 control */
SFRX(X_T4CCTL0, 0x70EC); /* Timer 4 channel 0 compare control */
SFRX(X_T4CC0, 0x70ED); /* Timer 4 channel 0 compare value */
SFRX(X_T4CCTL1, 0x70EE); /* Timer 4 channel 1 compare control */
SFRX(X_T4CC1, 0x70EF); /* Timer 4 channel 1 compare value */
SFRX(X_PERCFG, 0x70F1); /* Peripheral I/O control */
SFRX(X_APCFG, 0x70F2); /* Analog peripheral I/O configuration */
SFRX(X_P0SEL, 0x70F3); /* Port 0 function select */
SFRX(X_P1SEL, 0x70F4); /* Port 1 function select */
SFRX(X_P2SEL, 0x70F5); /* Port 2 function select */
SFRX(X_P1INP, 0x70F6); /* Port 1 input mode */
SFRX(X_P2INP, 0x70F7); /* Port 2 input mode */
SFRX(X_U1CSR, 0x70F8); /* USART 1 control and status */
SFRX(X_U1DBUF, 0x70F9); /* USART 1 receive/transmit data buffer */
SFRX(X_U1BAUD, 0x70FA); /* USART 1 baud-rate control */
SFRX(X_U1UCR, 0x70FB); /* USART 1 UART control */
SFRX(X_U1GCR, 0x70FC); /* USART 1 Generic control */
SFRX(X_P0DIR, 0x70FD); /* Port 0 direction */
SFRX(X_P1DIR, 0x70FE); /* Port 1 direction */
SFRX(X_P2DIR, 0x70FF); /* Port 2 direction */
/*---------------------------------------------------------------------------
* Information Page (Read Only)
*---------------------------------------------------------------------------*/
SFRX(X_INFOPAGE, 0x7800); /* Start of Information Page */
SFRX(X_IEEE_ADDR, 0x780C); /* Start of unique IEEE Address */
#endif /* __CC253X_H__ */