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Dependents: hello SerialTestv11 SerialTestv12 Sierpinski ... more
TARGET_NCS36510/TOOLCHAIN_IAR/pad_map.h
- Committer:
- AnnaBridge
- Date:
- 2019-02-20
- Revision:
- 172:65be27845400
- Parent:
- 171:3a7713b1edbc
File content as of revision 172:65be27845400:
/**
******************************************************************************
* @file pad_map.h
* @brief PAD hw module register map
* @internal
* @author ON Semiconductor
* $Rev: 3166 $
* $Date: 2015-01-19 11:28:08 +0530 (Mon, 19 Jan 2015) $
******************************************************************************
* Copyright 2016 Semiconductor Components Industries LLC (d/b/a ON Semiconductor).
* All rights reserved. This software and/or documentation is licensed by ON Semiconductor
* under limited terms and conditions. The terms and conditions pertaining to the software
* and/or documentation are available at http://www.onsemi.com/site/pdf/ONSEMI_T&C.pdf
* (ON Semiconductor Standard Terms and Conditions of Sale, Section 8 Software) and
* if applicable the software license agreement. Do not use this software and/or
* documentation unless you have carefully read and you agree to the limited terms and
* conditions. By using this software and/or documentation, you agree to the limited
* terms and conditions.
*
* THIS SOFTWARE IS PROVIDED "AS IS". NO WARRANTIES, WHETHER EXPRESS, IMPLIED
* OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE.
* ON SEMICONDUCTOR SHALL NOT, IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL,
* INCIDENTAL, OR CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER.
* @endinternal
*
* @ingroup pad
*
* @details
*/
#ifndef PAD_MAP_H_
#define PAD_MAP_H_
/*************************************************************************************************
* *
* Header files *
* *
*************************************************************************************************/
#include "architecture.h"
/*************************************************************************************************
* *
* Symbolic Constants *
* *
*************************************************************************************************/
/** no pull up nor pull down */
#define PAD_PULL_NONE (uint8_t)0x01
/** pull down */
#define PAD_PULL_DOWN (uint8_t)0x00
/** pull up */
#define PAD_PULL_UP (uint8_t)0x03
/** Drive strength */
#define PAD_DRIVE_L0 (uint8_t)0x00
#define PAD_DRIVE_L1 (uint8_t)0x01
#define PAD_DRIVE_L2 (uint8_t)0x02
#define PAD_DRIVE_L3 (uint8_t)0x03
#define PAD_DRIVE_L4 (uint8_t)0x04
#define PAD_DRIVE_L5 (uint8_t)0x05
#define PAD_DRIVE_L6 (uint8_t)0x06
/** output configuration push/pull */
#define PAD_OUTCFG_PUSHPULL (uint8_t)0x00
/** output configuration open drain */
#define PAD_OOUTCFG_OPENDRAIN (uint8_t)0x01
/** lowest power PAD configuration, shall be the default */
#define PAD_LOW_POWER (PAD_PULL_NONE | (PAD_DRIVE_L0<<2) | (PAD_OOUTCFG_OPENDRAIN<<5))
/** custom Power PAD configuration */
#define PAD_OUTPUT_PN_L1_OD (PAD_PULL_NONE | (PAD_DRIVE_L1<<2) | (PAD_OOUTCFG_OPENDRAIN<<5))
#define PAD_INPUT_PD_L1_PP (PAD_PULL_DOWN | (PAD_DRIVE_L1<<2) | (PAD_OUTCFG_PUSHPULL<<5))
#define PAD_UNUSED_PD_L1_PP (PAD_PULL_DOWN | (PAD_DRIVE_L1<<2) | (PAD_OUTCFG_PUSHPULL<<5))
#define PAD_UART_TX (PAD_PULL_UP | (PAD_DRIVE_L1<<2) | (PAD_OUTCFG_PUSHPULL<<5))
#define PAD_UART_RX (PAD_PULL_UP | (PAD_DRIVE_L1<<2) | (PAD_OOUTCFG_OPENDRAIN<<5))
/**************************************************************************************************
* *
* Type definitions *
* *
**************************************************************************************************/
/** Pad control
* The pad control peripheral is used to setup any necessary pad parameters
* not controlled directly via the cross-bar: output drive strength,
* push/pull control and output drive type.
*/
typedef struct {
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO0;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO1;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO2;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO3;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO4;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO5;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO6;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO7;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO8;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO9;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO10;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO11;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO12;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO13;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO14;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO15;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO16;
union {
struct {
__IO uint32_t PULL :2; /**< 00 Pull-down active, 01 No pull active, 10 No pull active, 11 Pull-up active*/
__IO uint32_t POWER :3; /**< Output Drive Strength*/
__IO uint32_t TYPE :1; /**< Output Type: 0 Push/Pull, 1 Open Drain*/
} BITS;
__IO uint32_t WORD;
} PADIO17;
} PadReg_t, *PadReg_pt;
#endif /* PAD_MAP_H_ */
