mbed library sources. Supersedes mbed-src. Add PORTG support for STM32L476JG (SensorTile kit)
Fork of mbed-dev by
targets/TARGET_ONSEMI/TARGET_NCS36510/pad_map.h
- Committer:
- <>
- Date:
- 2016-11-08
- Revision:
- 150:02e0a0aed4ec
- Parent:
- 149:156823d33999
File content as of revision 150:02e0a0aed4ec:
/** ****************************************************************************** * @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_ */