/**************************************************************************** * boards/arm/s32k1xx/ucans32k146/include/board.h * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ #ifndef __BOARDS_ARM_S32K1XX_UCANS32K146_INCLUDE_BOARD_H #define __BOARDS_ARM_S32K1XX_UCANS32K146_INCLUDE_BOARD_H /**************************************************************************** * Included Files ****************************************************************************/ #include /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* Clocking *****************************************************************/ /* The UCANS32K146 is fitted with a 8 MHz crystal */ #define BOARD_XTAL_FREQUENCY 8000000 /* The S32K146 will run at 80 MHz */ /* LED definitions **********************************************************/ /* The UCANS32K146 has one RGB LED: * * RedLED PTD15 (FTM0 CH0) * GreenLED PTD16 (FTM0 CH1) * BlueLED PTD0 (FTM0 CH2) * * If CONFIG_ARCH_LEDS is not defined, then the user can control the LEDs in * any way. The following definitions are used to access individual RGB * components. * * The RGB components could, alternatively be controlled through PWM using * the common RGB LED driver. */ /* LED index values for use with board_userled() */ #define BOARD_LED_R 0 #define BOARD_LED_G 1 #define BOARD_LED_B 2 #define BOARD_NLEDS 3 /* LED bits for use with board_userled_all() */ #define BOARD_LED_R_BIT (1 << BOARD_LED_R) #define BOARD_LED_G_BIT (1 << BOARD_LED_G) #define BOARD_LED_B_BIT (1 << BOARD_LED_B) /* Board revision detection pin, its state determines the board variant: * * 0: UCANS32K146-01 * 1: UCANS32K146B */ #define BOARD_REVISION_DETECT_PIN (PIN_PTA10 | GPIO_INPUT) /* If CONFIG_ARCH_LEDs is defined, then NuttX will control the LEDs on board * the UCANS32K146. The following definitions describe how NuttX controls * the LEDs: * * SYMBOL Meaning LED state * RED GREEN BLUE * ---------------- ----------------------------- ------------------- */ #define LED_STARTED 1 /* NuttX has been started OFF OFF OFF */ #define LED_HEAPALLOCATE 2 /* Heap has been allocated OFF OFF ON */ #define LED_IRQSENABLED 0 /* Interrupts enabled OFF OFF ON */ #define LED_STACKCREATED 3 /* Idle stack created OFF ON OFF */ #define LED_INIRQ 0 /* In an interrupt (No change) */ #define LED_SIGNAL 0 /* In a signal handler (No change) */ #define LED_ASSERTION 0 /* An assertion failed (No change) */ #define LED_PANIC 4 /* The system has crashed FLASH OFF OFF */ #undef LED_IDLE /* S32K146 is in sleep mode (Not used) */ /* Button definitions *******************************************************/ /* The UCANS32K146 supports one button: * * SW3 PTC14 */ #define BUTTON_SW3 0 #define NUM_BUTTONS 1 #define BUTTON_SW3_BIT (1 << BUTTON_SW3) /* UART selections **********************************************************/ /* By default, the serial console will be provided on the DCD-LZ UART * (available on the 7-pin DCD-LZ debug connector P6): * * DCD-LZ UART RX PTC6 (LPUART1_RX) * DCD-LZ UART TX PTC7 (LPUART1_TX) */ #define PIN_LPUART1_RX PIN_LPUART1_RX_1 /* PTC6 */ #define PIN_LPUART1_TX PIN_LPUART1_TX_1 /* PTC7 */ /* P2 TLM UART (LPUART0) */ #define PIN_LPUART0_RX PIN_LPUART0_RX_1 /* PTB0 */ #define PIN_LPUART0_TX PIN_LPUART0_TX_1 /* PTB1 */ #define PIN_LPUART0_CTS PIN_LPUART0_CTS_2 /* PTC8 */ #define PIN_LPUART0_RTS PIN_LPUART0_RTS_2 /* PTC9 */ /* SPI selections ***********************************************************/ /* P1 SPI (LPSPI0) */ #define PIN_LPSPI0_SCK PIN_LPSPI0_SCK_2 /* PTB2 */ #define PIN_LPSPI0_MISO PIN_LPSPI0_SIN_2 /* PTB3 */ #define PIN_LPSPI0_MOSI PIN_LPSPI0_SOUT_3 /* PTB4 */ #define PIN_LPSPI0_PCS PIN_LPSPI0_PCS0_2 /* PTB5 */ /* I2C selections ***********************************************************/ /* P3 I2C / P4 LCD (LPI2C0) */ #define PIN_LPI2C0_SDA PIN_LPI2C0_SDA_2 /* PTA2 */ #define PIN_LPI2C0_SCL PIN_LPI2C0_SCL_2 /* PTA3 */ /* CAN selections ***********************************************************/ /* TJA1153/TJA1443/TJA1463 CAN transceiver (CAN0) */ #define PIN_CAN0_RX PIN_CAN0_RX_4 /* PTE4 */ #define PIN_CAN0_TX PIN_CAN0_TX_4 /* PTE5 */ #define PIN_CAN0_STB (PIN_PTE11 | GPIO_OUTPUT) /* TJA1153/TJA1443/TJA1463 CAN transceiver (CAN1) */ #define PIN_CAN1_RX PIN_CAN1_RX_1 /* PTA12 */ #define PIN_CAN1_TX PIN_CAN1_TX_1 /* PTA13 */ #define PIN_CAN1_STB (PIN_PTE10 | GPIO_OUTPUT) #endif /* __BOARDS_ARM_S32K1XX_UCANS32K146_INCLUDE_BOARD_H */