/************************************************************************************ * arch/hc/src/m9s12/m9s12_atd.h * Defintions for ATD10b8c v3 * * Copyright (C) 2011 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * 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 NuttX 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 COPYRIGHT HOLDERS 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 * COPYRIGHT OWNER 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. * ************************************************************************************/ #ifndef __ARCH_ARM_HC_SRC_M9S12_M9S12_ATD_H #define __ARCH_ARM_HC_SRC_M9S12_M9S12_ATD_H /************************************************************************************ * Included Files ************************************************************************************/ #include #include "chip.h" /************************************************************************************ * Definitions ************************************************************************************/ /* Register Offsets *****************************************************************/ #define HCS12_ATD_CTL0_OFFSET 0x0000 /* ATD control register 0 */ #define HCS12_ATD_CTL1_OFFSET 0x0001 /* ATD control register 1 */ #define HCS12_ATD_CTL2_OFFSET 0x0002 /* ATD control register 2 */ #define HCS12_ATD_CTL3_OFFSET 0x0003 /* ATD control register 3 */ #define HCS12_ATD_CTL4_OFFSET 0x0004 /* ATD control register 4 */ #define HCS12_ATD_CTL5_OFFSET 0x0005 /* ATD control register 5 */ #define HCS12_ATD_STAT0_OFFSET 0x0006 /* ATD status register 0 */ #define HCS12_ATD_TEST0_OFFSET 0x0008 /* ATD test register 0 */ #define HCS12_ATD_TEST1_OFFSET 0x0009 /* ATD test register 1 */ #define HCS12_ATD_STAT1_OFFSET 0x000b /* ATD status register 1 */ #define HCS12_ATD_IEN_OFFSET 0x000d /* ATD Input enable register */ #define HCS12_ATD_PORTAD_OFFSET 0x000f /* Port data register */ /* Left justified data */ #define HCS12_ATD_DLH_OFFSET(n) (0x0010+(n)) #define HCS12_ATD_DLL_OFFSET(n) (0x0011+(n)) #define HCS12_ATD_DL0H_OFFSET 0x0010 /* ATD conversion result register 0 (high) */ #define HCS12_ATD_DL0L_OFFSET 0x0011 /* ATD conversion result register 0 (low) */ #define HCS12_ATD_DL1H_OFFSET 0x0012 /* ATD conversion result register 1 (high) */ #define HCS12_ATD_DL1L_OFFSET 0x0013 /* ATD conversion result register 1 (low) */ #define HCS12_ATD_DL2H_OFFSET 0x0014 /* ATD conversion result register 2 (high) */ #define HCS12_ATD_DL2L_OFFSET 0x0015 /* ATD conversion result register 2 (low) */ #define HCS12_ATD_DL3H_OFFSET 0x0016 /* ATD conversion result register 3 (high) */ #define HCS12_ATD_DL3L_OFFSET 0x0017 /* ATD conversion result register 3 (low) */ #define HCS12_ATD_DL4H_OFFSET 0x0018 /* ATD conversion result register 4 (high) */ #define HCS12_ATD_DL4L_OFFSET 0x0019 /* ATD conversion result register 4 (low) */ #define HCS12_ATD_DL5H_OFFSET 0x001a /* ATD conversion result register 5 (high) */ #define HCS12_ATD_DL5L_OFFSET 0x001b /* ATD conversion result register 5 (low) */ #define HCS12_ATD_DL6H_OFFSET 0x001c /* ATD conversion result register 6 (high) */ #define HCS12_ATD_DL6L_OFFSET 0x001d /* ATD conversion result register 6 (low) */ #define HCS12_ATD_DL7H_OFFSET 0x001e /* ATD conversion result register 7 (high) */ #define HCS12_ATD_DL7L_OFFSET 0x001f /* ATD conversion result register 7 (low) */ /* Right justified data */ #define HCS12_ATD_DRH_OFFSET(n) (0x0020+(n)) #define HCS12_ATD_DRL_OFFSET(n) (0x0021+(n)) #define HCS12_ATD_DR0H_OFFSET 0x0020 /* ATD conversion result register 0 (high) */ #define HCS12_ATD_DR0L_OFFSET 0x0021 /* ATD conversion result register 0 (low) */ #define HCS12_ATD_DR1H_OFFSET 0x0022 /* ATD conversion result register 1 (high) */ #define HCS12_ATD_DR1L_OFFSET 0x0023 /* ATD conversion result register 1 (low) */ #define HCS12_ATD_DR2H_OFFSET 0x0024 /* ATD conversion result register 2 (high) */ #define HCS12_ATD_DR2L_OFFSET 0x0025 /* ATD conversion result register 2 (low) */ #define HCS12_ATD_DR3H_OFFSET 0x0026 /* ATD conversion result register 3 (high) */ #define HCS12_ATD_DR3L_OFFSET 0x0027 /* ATD conversion result register 3 (low) */ #define HCS12_ATD_DR4H_OFFSET 0x0028 /* ATD conversion result register 4 (high) */ #define HCS12_ATD_DR4L_OFFSET 0x0029 /* ATD conversion result register 4 (low) */ #define HCS12_ATD_DR5H_OFFSET 0x002a /* ATD conversion result register 5 (high) */ #define HCS12_ATD_DR5L_OFFSET 0x002b /* ATD conversion result register 5 (low) */ #define HCS12_ATD_DR6H_OFFSET 0x002c /* ATD conversion result register 6 (high) */ #define HCS12_ATD_DR6L_OFFSET 0x002d /* ATD conversion result register 6 (low) */ #define HCS12_ATD_DR7H_OFFSET 0x002e /* ATD conversion result register 7 (high) */ #define HCS12_ATD_DR7L_OFFSET 0x002f /* ATD conversion result register 7 (low) */ /* Register Addresses ***************************************************************/ #define HCS12_ATD_CTL0 (HCS12_ATD_BASE+HCS12_ATD_CTL0_OFFSET) #define HCS12_ATD_CTL1 (HCS12_ATD_BASE+HCS12_ATD_CTL1_OFFSET) #define HCS12_ATD_CTL2 (HCS12_ATD_BASE+HCS12_ATD_CTL2_OFFSET) #define HCS12_ATD_CTL3 (HCS12_ATD_BASE+HCS12_ATD_CTL3_OFFSET) #define HCS12_ATD_CTL4 (HCS12_ATD_BASE+HCS12_ATD_CTL4_OFFSET) #define HCS12_ATD_CTL5 (HCS12_ATD_BASE+HCS12_ATD_CTL5_OFFSET) #define HCS12_ATD_STAT0 (HCS12_ATD_BASE+HCS12_ATD_STAT0_OFFSET) #define HCS12_ATD_TEST0 (HCS12_ATD_BASE+HCS12_ATD_TEST0_OFFSET) #define HCS12_ATD_TEST1 (HCS12_ATD_BASE+HCS12_ATD_TEST1_OFFSET) #define HCS12_ATD_STAT1 (HCS12_ATD_BASE+HCS12_ATD_STAT1_OFFSET) #define HCS12_ATD_IEN (HCS12_ATD_BASE+HCS12_ATD_IEN_OFFSET) #define HCS12_ATD_PORTAD (HCS12_ATD_BASE+HCS12_ATD_PORTAD_OFFSET) #define HCS12_ATD_DLH(n) (HCS12_ATD_BASE+HCS12_ATD_DLH_OFFSET(n)) #define HCS12_ATD_DLL(n) (HCS12_ATD_BASE+HCS12_ATD_DLL_OFFSET(n)) #define HCS12_ATD_DL0H (HCS12_ATD_BASE+HCS12_ATD_DL0H_OFFSET) #define HCS12_ATD_DL0L (HCS12_ATD_BASE+HCS12_ATD_DL0L_OFFSET) #define HCS12_ATD_DL1H (HCS12_ATD_BASE+HCS12_ATD_DL1H_OFFSET) #define HCS12_ATD_DL1L (HCS12_ATD_BASE+HCS12_ATD_DL1L_OFFSET) #define HCS12_ATD_DL2H (HCS12_ATD_BASE+HCS12_ATD_DL2H_OFFSET) #define HCS12_ATD_DL2L (HCS12_ATD_BASE+HCS12_ATD_DL2L_OFFSET) #define HCS12_ATD_DL3H (HCS12_ATD_BASE+HCS12_ATD_DL3H_OFFSET) #define HCS12_ATD_DL3L (HCS12_ATD_BASE+HCS12_ATD_DL3L_OFFSET) #define HCS12_ATD_DL4H (HCS12_ATD_BASE+HCS12_ATD_DL4H_OFFSET) #define HCS12_ATD_DL4L (HCS12_ATD_BASE+HCS12_ATD_DL4L_OFFSET) #define HCS12_ATD_DL5H (HCS12_ATD_BASE+HCS12_ATD_DL5H_OFFSET) #define HCS12_ATD_DL5L (HCS12_ATD_BASE+HCS12_ATD_DL5L_OFFSET) #define HCS12_ATD_DL6H (HCS12_ATD_BASE+HCS12_ATD_DL6H_OFFSET) #define HCS12_ATD_DL6L (HCS12_ATD_BASE+HCS12_ATD_DL6L_OFFSET) #define HCS12_ATD_DL7H (HCS12_ATD_BASE+HCS12_ATD_DL7H_OFFSET) #define HCS12_ATD_DL7L (HCS12_ATD_BASE+HCS12_ATD_DL7L_OFFSET) #define HCS12_ATD_DRH(n) (HCS12_ATD_BASE+HCS12_ATD_DRH_OFFSET(n)) #define HCS12_ATD_DRL(n) (HCS12_ATD_BASE+HCS12_ATD_DRL_OFFSET(n)) #define HCS12_ATD_DR0H (HCS12_ATD_BASE+HCS12_ATD_DR0H_OFFSET) #define HCS12_ATD_DR0L (HCS12_ATD_BASE+HCS12_ATD_DR0L_OFFSET) #define HCS12_ATD_DR1H (HCS12_ATD_BASE+HCS12_ATD_DR1H_OFFSET) #define HCS12_ATD_DR1L (HCS12_ATD_BASE+HCS12_ATD_DR1L_OFFSET) #define HCS12_ATD_DR2H (HCS12_ATD_BASE+HCS12_ATD_DR2H_OFFSET) #define HCS12_ATD_DR2L (HCS12_ATD_BASE+HCS12_ATD_DR2L_OFFSET) #define HCS12_ATD_DR3H (HCS12_ATD_BASE+HCS12_ATD_DR3H_OFFSET) #define HCS12_ATD_DR3L (HCS12_ATD_BASE+HCS12_ATD_DR3L_OFFSET) #define HCS12_ATD_DR4H (HCS12_ATD_BASE+HCS12_ATD_DR4H_OFFSET) #define HCS12_ATD_DR4L (HCS12_ATD_BASE+HCS12_ATD_DR4L_OFFSET) #define HCS12_ATD_DR5H (HCS12_ATD_BASE+HCS12_ATD_DR5H_OFFSET) #define HCS12_ATD_DR5L (HCS12_ATD_BASE+HCS12_ATD_DR5L_OFFSET) #define HCS12_ATD_DR6H (HCS12_ATD_BASE+HCS12_ATD_DR6H_OFFSET) #define HCS12_ATD_DR6L (HCS12_ATD_BASE+HCS12_ATD_DR6L_OFFSET) #define HCS12_ATD_DR7H (HCS12_ATD_BASE+HCS12_ATD_DR7H_OFFSET) #define HCS12_ATD_DR7L (HCS12_ATD_BASE+HCS12_ATD_DR7L_OFFSET) /* Register Bit-Field Definitions ***************************************************/ /* ATD control register 0 */ #define ATD_CTL0_WRAP_SHIFT (0) /* Bits 0-2: Wrap around channel select */ #define ATD_CTL0_WRAP_MASK (7) # define ATD_CTL0_WRAP_AN(n) (n) # define ATD_CTL0_WRAP_AN1 (1) # define ATD_CTL0_WRAP_AN2 (2) # define ATD_CTL0_WRAP_AN3 (3) # define ATD_CTL0_WRAP_AN4 (4) # define ATD_CTL0_WRAP_AN5 (5) # define ATD_CTL0_WRAP_AN6 (6) # define ATD_CTL0_WRAP_AN7 (7) /* ATD control register 1 */ #define ATD_CTL1_ETRIGCH_SHIFT (0) /* Bits 0-2: External channel select */ #define ATD_CTL1_ETRIGCH_MASK (7) # define ATD_CTL2_ETRIGCH_AN(n) (n) # define ATD_CTL2_ETRIGCH_AN0 (0) # define ATD_CTL2_ETRIGCH_AN1 (1) # define ATD_CTL2_ETRIGCH_AN2 (2) # define ATD_CTL2_ETRIGCH_AN3 (3) # define ATD_CTL2_ETRIGCH_AN4 (4) # define ATD_CTL2_ETRIGCH_AN5 (5) # define ATD_CTL2_ETRIGCH_AN6 (6) # define ATD_CTL2_ETRIGCH_AN7 (7) # define ATD_CTL2_ETRIGCH_ETRIG(n) (n) # define ATD_CTL2_ETRIGCH_ETRIG0 (0) # define ATD_CTL2_ETRIGCH_ETRIG1 (1) # define ATD_CTL2_ETRIGCH_ETRIG2 (2) # define ATD_CTL2_ETRIGCH_ETRIG3 (3) #define ATD_CTL1_ETRIGSEL (1 << 7) /* Bit 7: External trigger source select */ /* ATD control register 2 */ #define ATD_CTL2_ASCIF (1 << 0) /* Bit 0: ATD Sequence Complete Interrup */ #define ATD_CTL2_ASCIE (1 << 1) /* Bit 1: ATD Sequence Complete Interrupt Enable */ #define ATD_CTL2_ETRIG (1 << 1) /* Bit 2: External Trigger Mode Enable */ #define ATD_CTL2_ETRIG_SHIFT (3) /* Bits 3-4: External Trigger Mode */ #define ATD_CTL2_ETRIG_MASK (0 << ATD_CTL2_ETRIG_SHIFT) # define ATD_CTL2_ETRIG_FALLING (0 << ATD_CTL2_ETRIG_SHIFT) # define ATD_CTL2_ETRIG_RISING (1 << ATD_CTL2_ETRIG_SHIFT) # define ATD_CTL2_ETRIG_LOW (2 << ATD_CTL2_ETRIG_SHIFT) # define ATD_CTL2_ETRIG_HIGH (3 << ATD_CTL2_ETRIG_SHIFT) #define ATD_CTL2_AWAI (1 << 5) /* Bit 5: ATD Power Down inWait Mode */ #define ATD_CTL2_AFFC (1 << 6) /* Bit 6: ATD Fast Flag Clear All */ #define ATD_CTL2_ADPU (1 << 7) /* Bit 7: ATD Power Up */ /* ATD control register 3 */ #define ATD_CTL3_FRZ_SHIFT (0) /* Bits 0-1: Background Debug Freeze Enable */ #define ATD_CTL3_FRZ_MASK (3) # define ATD_CTL3_FRZ_CONTINUE (0) /* Continue conversion */ # define ATD_CTL3_FRZ_FINISH (2) /* Finish current conversion, then freeze */ # define ATD_CTL3_FRZ_IMMEDIATE (3) /* Freeze Immediately */ #define ATD_CTL3_FIFO (1 << 2) /* Bit 2: Result Register FIFO Mode */ #define ATD_CTL3_SC_SHIFT (3) /* Bits 3-6: Conversion Sequence Length */ #define ATD_CTL3_SC_MASK (15 << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC(n) ((n) << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC1 (1 << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC2 (2 << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC3 (3 << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC4 (4 << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC5 (5 << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC6 (6 << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC7 (7 << ATD_CTL3_SC_SHIFT) # define ATD_CTL3_SC8 (8 << ATD_CTL3_SC_SHIFT) /* ATD control register 4 */ #define ATD_CTL4_PRS_SHIFT (0) /* Bits 0-4: ATD Clock Prescaler */ #define ATD_CTL4_PRS_MASK (31 << ATD_CTL4_PRS_SHIFT) # define ATD_CTL4_PRS_DIV(n) ((((n)-2) >> 1) << ATD_CTL4_PRS_SHIFT) /* Divide by n={2,4,6,...,64} */ #define ATD_CTL4_SMP_SHIFT (5) /* Bits 5-6: Sample Time Select */ #define ATD_CTL4_SMP_MASK (3 << ATD_CTL4_SMP_SHIFT) # define ATD_CTL4_SMP2 (0 << ATD_CTL4_SMP_SHIFT) /* 2 A/D conversion clock periods */ # define ATD_CTL4_SMP4 (1 << ATD_CTL4_SMP_SHIFT) /* 4 A/D conversion clock periods */ # define ATD_CTL4_SMP8 (2 << ATD_CTL4_SMP_SHIFT) /* 8 A/D conversion clock periods */ # define ATD_CTL4_SMP16 (3 << ATD_CTL4_SMP_SHIFT) /* 16 A/D conversion clock periods */ #define ATD_CTL4_SRES8 (1 << 7) /* Bit 7: A/D Resolution Select */ /* ATD control register 5 */ #define ATD_CTL5_C_SHIFT (0) /* Bits 0-2: Analog Input Channel Select Code */ #define ATD_CTL5_C_MASK (7 << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN(n) ((n) << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN0 (0 << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN1 (1 << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN2 (2 << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN3 (3 << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN4 (4 << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN5 (5 << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN6 (6 << ATD_CTL5_C_SHIFT) # define ATD_CTL5_C_AN7 (7 << ATD_CTL5_C_SHIFT) #define ATD_CTL5_MULT (1 << 4) /* Bit 4: Multi-Channel Sample Mode */ #define ATD_CTL5_SCAN (1 << 5) /* Bit 5: Continuous Conversion Sequence Mode */ #define ATD_CTL5_DSGN (1 << 6) /* Bit 6: Result Register Data Signed or Unsigned Representation */ #define ATD_CTL5_DJM (1 << 7) /* Bit 7: Result Register Data Justification */ /* ATD status register 0 */ #define ATD_STAT0_CC_SHIFT (0) /* Bits 0-2: Conversion counter */ #define ATD_STAT0_CC_MASK (7) #define ATD_STAT0_FIFOR (1 << 4) /* Bit 4: FIFO Over Run Flag */ #define ATD_STAT0_ETORF (1 << 5) /* Bit 5: External Trigger Overrun Flag */ #define ATD_STAT0_SCF (1 << 7) /* Bit 7: Sequence Complete Flag */ /* ATD test register 0 -- 8 MS bits of data written in special mode */ /* ATD test register 1 */ #define ATD_TEST1_SC (1 << 0) /* Bit 0: Enable special conversions */ #define ATD_TEST1_LSU_MASK 0xc0 /* Bits 6-7: 2 LS bits of special mode data */ /* ATD status register 1 */ #define ATD_STAT1_CCF(n) (1 << (n)) /* Bit n: Conversion complete flag channel n */ #define ATD_STAT1_CCF0 (1 << 0) /* Bit 0: Conversion complete flag channel 0 */ #define ATD_STAT1_CCF1 (1 << 1) /* Bit 1: Conversion complete flag channel 1 */ #define ATD_STAT1_CCF2 (1 << 2) /* Bit 2: Conversion complete flag channel 2 */ #define ATD_STAT1_CCF3 (1 << 3) /* Bit 3: Conversion complete flag channel 3 */ #define ATD_STAT1_CCF4 (1 << 4) /* Bit 4: Conversion complete flag channel 4 */ #define ATD_STAT1_CCF5 (1 << 5) /* Bit 5: Conversion complete flag channel 5 */ #define ATD_STAT1_CCF6 (1 << 6) /* Bit 6: Conversion complete flag channel 6 */ #define ATD_STAT1_CCF7 (1 << 7) /* Bit 7: Conversion complete flag channel 7 */ /* ATD Input enable register */ #define ATD_IEN(n) (1 << (n)) /* Bit n: ATD Digital Input Enable on channel n */ #define ATD_IEN0 (1 << 0) /* Bit 0: ATD Digital Input Enable on channel 0 */ #define ATD_IEN1 (1 << 1) /* Bit 1: ATD Digital Input Enable on channel 1 */ #define ATD_IEN2 (1 << 2) /* Bit 2: ATD Digital Input Enable on channel 2 */ #define ATD_IEN3 (1 << 3) /* Bit 3: ATD Digital Input Enable on channel 3 */ #define ATD_IEN4 (1 << 4) /* Bit 4: ATD Digital Input Enable on channel 4 */ #define ATD_IEN5 (1 << 5) /* Bit 5: ATD Digital Input Enable on channel 5 */ #define ATD_IEN6 (1 << 6) /* Bit 6: ATD Digital Input Enable on channel 6 */ #define ATD_IEN7 (1 << 7) /* Bit 7: ATD Digital Input Enable on channel 7 */ /* Port data register */ #define ATD_PORTAD(n) (1 << (n)) /* Bit n: A/D Channel n (ANn) Digital Input */ #define ATD_PORTAD0 (1 << 0) /* Bit 0: A/D Channel 0 (AN0) Digital Input */ #define ATD_PORTAD1 (1 << 1) /* Bit 1: A/D Channel 1 (AN1) Digital Input */ #define ATD_PORTAD2 (1 << 2) /* Bit 2: A/D Channel 2 (AN2) Digital Input */ #define ATD_PORTAD3 (1 << 3) /* Bit 3: A/D Channel 3 (AN3) Digital Input */ #define ATD_PORTAD4 (1 << 4) /* Bit 4: A/D Channel 4 (AN4) Digital Input */ #define ATD_PORTAD5 (1 << 5) /* Bit 5: A/D Channel 5 (AN5) Digital Input */ #define ATD_PORTAD6 (1 << 6) /* Bit 6: A/D Channel 6 (AN6) Digital Input */ #define ATD_PORTAD7 (1 << 7) /* Bit 7: A/D Channel 7 (AN7) Digital Input */ /* ATD conversion result register 0-7 (high/l;ow) */ #define ATD_DLL_MASK 0xc0 /* Bits 6-7: LS bits of left justified data */ #define ATD_DRH_MASK 0x03 /* Bits 0-1: MS bits of right justified data */ /************************************************************************************ * Public Types ************************************************************************************/ /************************************************************************************ * Public Data ************************************************************************************/ /************************************************************************************ * Public Functions ************************************************************************************/ #endif /* __ARCH_ARM_HC_SRC_M9S12_M9S12_ATD_H */