/* * Copyright (C) 2023 Gunar Schorcht * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ /** * @ingroup boards_esp32s3_pros3 * @brief Board definitions for ESP32 ProS3 boards * @{ * * The board definitions in this file are valid for the ESP32 ProS3 board. * * Any modifications required for specific applications * can be overridden by \ref esp32_application_specific_configurations * "application-specific board configuration". * * @file * @author Gunar Schorcht */ #ifndef BOARD_H #define BOARD_H #include /** * @name Button pin definitions * @{ */ /** * @brief Default button GPIO pin definition * * ESP32 ProS3 boards have a BOOT button connected to GPIO0, which can be * used as button during normal operation. Since the GPIO0 pin is pulled up, * the button signal is inverted, i.e., pressing the button will give a * low signal. */ #define BTN0_PIN GPIO0 /** * @brief Default button GPIO mode definition * * Since the GPIO of the button is pulled up with an external resistor, the * mode for the GPIO pin has to be GPIO_IN. */ #define BTN0_MODE GPIO_IN_PU /** * @brief Default interrupt flank definition for the button GPIO */ #ifndef BTN0_INT_FLANK #define BTN0_INT_FLANK GPIO_FALLING #endif /** * @brief Definition for compatibility with previous versions */ #define BUTTON0_PIN BTN0_PIN /** @} */ /** * @name LED (on-board) configuration * * The ESP32 ProS3 board has one 24-bit RGB-LED WS2812B connected to GPIO18. * @{ */ #ifndef WS281X_PARAM_PIN #define WS281X_PARAM_PIN (GPIO18) /**< GPIO pin connected to the data pin */ #endif #ifndef WS281X_PARAM_NUMOF #define WS281X_PARAM_NUMOF (1U) /**< Number of LEDs chained */ #endif /** @} */ /* include common board definitions as last step */ #include "board_common.h" #ifdef __cplusplus extern "C" { #endif #ifdef __cplusplus } /* end extern "C" */ #endif #endif /* BOARD_H */ /** @} */