/**************************************************************************** * boards/arm/sama5/jupiter-nano/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_SAMA5_JUPITER_NANO_INCLUDE_BOARD_H #define __BOARDS_ARM_SAMA5_JUPITER_NANO_INCLUDE_BOARD_H /**************************************************************************** * Included Files ****************************************************************************/ #include #ifndef __ASSEMBLY__ # include # include #endif /* Clocking *****************************************************************/ /* On-board crystal frequencies */ #define BOARD_MAINOSC_FREQUENCY (12000000) /* MAINOSC: 12MHz crystal on-board */ #define BOARD_SLOWCLK_FREQUENCY (32768) /* Slow Clock: 32.768KHz */ #define BOARD_UPLL_FREQUENCY (480000000) /* USB PLL: 480MHz */ /* After power-on reset, the SAMA5 device is running on a 12MHz internal RC. * These definitions will configure operational clocking. */ #if defined(CONFIG_SAMA5_BOOT_SDRAM) /* When booting from SDRAM, NuttX is loaded in SDRAM by an intermediate * bootloader. * That bootloader had to have already configured the PLL and SDRAM for * proper operation. * * In this case, we don not reconfigure the clocking. * Rather, we need to query the register settings to determine the clock * frequencies. * We can only assume that the Main clock source is the on-board 12MHz * crystal. */ # include #elif defined(CONFIG_JUPITERNANO_384MHZ) /* OHCI Only. * This is an alternative slower configuration that will produce a 48MHz * USB clock with the required accuracy using only PLLA. * When PPLA is used to clock OHCI, an additional requirement is the * PLLACK be a multiple of 48MHz. * This setup results in a CPU clock of 384MHz. * * This case is only interesting for experimentation. */ # include #elif defined(CONFIG_JUPITERNANO_498MHZ) /* This is the configuration results in a CPU clock of 498MHz. * * In this configuration, UPLL is the source of the UHPHS clock (if enabled). */ # include #elif defined(CONFIG_JUPITERNANO_528MHZ) /* This is the configuration results in a CPU clock of 528MHz. * * In this configuration, UPLL is the source of the UHPHS clock (if enabled). */ # include #else /* #elif defined(CONFIG_JUPITERNANO_396MHZ) */ /* This is the configuration provided in the Atmel example code. * This setup results in a CPU clock of 396MHz. * * In this configuration, UPLL is the source of the UHPHS clock (if enabled). */ # include #endif /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* LED definitions **********************************************************/ /* There is a blue LED on board the Jupiter Nano. * The blue component is driven by pin PA6. * The LED is connected to ground, so bringing the LED high will * will illuminate the LED. * * ------------------------------ ------------------- --------------------- * SAMA5D2 PIO SIGNAL USAGE * ------------------------------ ------------------- --------------------- * PA6 STATUS_LED_PA6 Blue LED * ------------------------------ ------------------- --------------------- */ #ifndef CONFIG_ARCH_LEDS /* LED index values for use with board_userled() */ #define BOARD_BLUE 0 /* LED bits for use with board_userled_all() */ #define BOARD_BLUE_BIT (1 << BOARD_BLUE) #else /* LED index values for use with board_userled() */ #define BOARD_BLUE 0 #define BOARD_NLEDS 1 /* LED bits for use with board_userled_all() */ #define BOARD_BLUE_BIT (1 << BOARD_BLUE) #endif /* These LEDs are not used by the board port unless CONFIG_ARCH_LEDS is * defined. In that case, the usage by the board port is defined in * include/board.h and src/sam_leds.c. The LEDs are used to encode OS-related * events as follows. Note that only the GREEN LED is used in this case * * SYMBOL Val Meaning Green LED * ----------------- --- ----------------------- ----------- */ #define LED_STARTED 0 /* NuttX has been started OFF */ #define LED_HEAPALLOCATE 0 /* Heap has been allocated OFF */ #define LED_IRQSENABLED 0 /* Interrupts enabled OFF */ #define LED_STACKCREATED 1 /* Idle stack created ON */ #define LED_INIRQ 2 /* In an interrupt N/C */ #define LED_SIGNAL 2 /* In a signal handler N/C */ #define LED_ASSERTION 2 /* An assertion failed N/C */ #define LED_PANIC 3 /* The system has crashed Flash */ #undef LED_IDLE /* MCU is is sleep mode Not used */ /* Thus if the blue LED is statically on, NuttX has successfully booted * and is, apparently, running normally. * If LED is flashing at approximately 2Hz, then a fatal error has been * detected and the system has halted. */ /* Pin disambiguation *******************************************************/ /* Alternative pin selections are provided with a numeric suffix like _1, _2, * etc. Drivers, however, will use the pin selection without the numeric * suffix. * Additional definitions are required in this board.h file. * For example, if we wanted the PCK0on PB26, then the following definition * should appear in the board.h header file for that board: * * #define PIO_PMC_PCK0 PIO_PMC_PCK0_1 * * The PCK logic will then automatically configure PB26 as the PCK0 pin. */ /* DEBUG / DBGU Port (J1). There is a TTL serial connection available on * pins 2 and 3 of the DEBUG connector. This may be driven by UART1, * depending upon the setting of JP2 (DBGU_PE on the schematic, DEBUG_DIS * on the board): * * ---- ------------------------ ------------- * J1 SCHEMATIC SAMA5D2 * PIN NAME(s) PIO FUNCTION * ---- ------------------------ ------------- * 2 DBGU_TXD DBGU_UTXD1_PD3 PD3 UTXD1 * 3 DBGU_RXD DBGU_URXD1_PD2 PD2 URXD1 * ---- ------------------------ ------------- */ #define PIO_UART1_RXD PIO_UART1_RXD_1 #define PIO_UART1_TXD PIO_UART1_TXD_1 /* Standard UART on Arduino connector (J22) is UART2. * * ---- ------- ------------- * J22 BOARD SAMA5D2 * PIN NAME PIO FUNCTION * ---- ------- ------------- * 7 URXD2 PD4 UART2 URXD2 * 8 UTXD2 PD5 UART2 UTXD2 * ---- ------- ------------- */ #define PIO_UART2_RXD PIO_UART2_RXD_2 #define PIO_UART2_TXD PIO_UART2_TXD_2 /* Standard UART on Arduino connector (J17) is UART3. * * ---- ------- ------------- * J17 BOARD SAMA5D2 * PIN NAME PIO FUNCTION * ---- ------- ------------- * 27 URXD3 PB11 UART3 URXD3 * 28 UTXD3 PB12 UART3 UTXD3 * ---- ------- ------------- */ #define PIO_UART3_RXD PIO_UART3_RXD_1 #define PIO_UART3_TXD PIO_UART3_TXD_1 /* Standard UART on Arduino connector (J21) is FLEXCOM4. * * ---- ------- ------------- * J21 BOARD SAMA5D2 * PIN NAME PIO FUNCTION * ---- ------- ------------- * 7 F4_TXD PD12 FLEXCOM4 * 8 F4_RXD PD13 FLEXCOM4 * ---- ------- ------------- */ #define PIO_FLEXCOM4_IO0 PIO_FLEXCOM4_IO0_2 #define PIO_FLEXCOM4_IO1 PIO_FLEXCOM4_IO1_2 /* Other USARTs are available on J22: * * ---- ------- ------------- * J22 BOARD SAMA5D2 * PIN NAME PIO FUNCTION * ---- ------- ------------- * 3 F0_TXD PB28 FLEXCOM0 * 4 F0_RXD PB29 FLEXCOM0 * 5 F3_TXD PB23 FLEXCOM3 * 6 F3_RXD PB22 FLEXCOM3 * ---- ------- ------------- */ #define PIO_FLEXCOM3_IO0 PIO_FLEXCOM3_IO0_2 #define PIO_FLEXCOM3_IO1 PIO_FLEXCOM3_IO1_2 /* UARTs available on EXT1 * * ---- ------- ------------- * EXT1 BOARD SAMA5D2 * PIN NAME PIO FUNCTION * ---- ------- ------------- * 13 UART_RX PA23 FLEXCOM1 * 14 UART_TX PA24 FLEXCOM1 * ---- ------- ---- -------- */ /* UARTs available on EXT2 * * ---- ------- ------------- * EXT2 BOARD SAMA5D2 * PIN NAME PIO FUNCTION * ---- ------- ------------- * 13 UART_RX PB29 FLEXCOM0 * 14 UART_TX PB28 FLEXCOM0 * ---- ------- ---- -------- */ /* SPIs available on EXT1 * * ---- ------- ------------- * EXT1 BOARD SAMA5D2 * PIN NAME PIO FUNCTION * ---- ------- ------------- * 42 SPI_SS PD29 SPI1 * 39 SPI_MOSI PD26 SPI1 * 40 SPI_MISO PD27 SPI1 * 24 SPI_SCK PD25 SPI1 * ---- ------- ---- -------- */ #define PIO_SPI1_MISO PIO_SPI1_MISO_1 #define PIO_SPI1_MOSI PIO_SPI1_MOSI_1 #define PIO_SPI1_NPCS1 PIO_SPI1_NPCS1_1 #define PIO_SPI1_SPCK PIO_SPI1_SPCK_1 /* SPI0 Definition on EXP */ #define PIO_SPI0_MISO PIO_SPI0_MISO_1 #define PIO_SPI0_MOSI PIO_SPI0_MOSI_1 #define PIO_SPI0_NPCS0 PIO_SPI0_NPCS0_1 #define PIO_SPI0_SPCK PIO_SPI0_SPCK_1 /* SDIO - Used for both Port 0 & 1 ******************************************/ /* 386 KHz for initial inquiry stuff */ #define BOARD_SDMMC_IDMODE_PRESCALER SDMMC_SYSCTL_SDCLKFS_DIV256 #define BOARD_SDMMC_IDMODE_DIVISOR SDMMC_SYSCTL_DVS_DIV(2) /* 24.8MHz for other modes */ #define BOARD_SDMMC_MMCMODE_PRESCALER SDMMC_SYSCTL_SDCLKFS_DIV8 #define BOARD_SDMMC_MMCMODE_DIVISOR SDMMC_SYSCTL_DVS_DIV(1) #define BOARD_SDMMC_SD1MODE_PRESCALER SDMMC_SYSCTL_SDCLKFS_DIV8 #define BOARD_SDMMC_SD1MODE_DIVISOR SDMMC_SYSCTL_DVS_DIV(1) #define BOARD_SDMMC_SD4MODE_PRESCALER SDMMC_SYSCTL_SDCLKFS_DIV8 #define BOARD_SDMMC_SD4MODE_DIVISOR SDMMC_SYSCTL_DVS_DIV(1) /**************************************************************************** * Assembly Language Macros ****************************************************************************/ #ifdef __ASSEMBLY__ .macro config_sdram .endm #endif /* __ASSEMBLY__ */ #endif /* __BOARDS_ARM_SAMA5_JUPITER_NANO_INCLUDE_BOARD_H */