/**************************************************************************** * boards/arm/kinetis/freedom-k66f/include/board.h * * Copyright (C) 2016-2017 Gregory Nutt. All rights reserved. * Authors: Gregory Nutt * David Sidrane * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************/ #ifndef __BOARDS_ARM_KINETIS_FREEDOM_K66F_INCLUDE_BOARD_H #define __BOARDS_ARM_KINETIS_FREEDOM_K66F_INCLUDE_BOARD_H /**************************************************************************** * Included Files ****************************************************************************/ #include #ifndef __ASSEMBLY__ # include #endif #include /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* Clocking *****************************************************************/ /* The Freedom K66F uses a 12Mhz external Oscillator. * The Kinetis MCU startup from an internal digitally-controlled oscillator * (DCO). NuttX will enable the main external oscillator (EXTAL0/XTAL0). * The external oscillator/resonator can range from 32.768 KHz up to 50 MHz. * The default external source for the MCG oscillator inputs is 12 MHz * oscillator * * X501 a High-frequency, low-power Xtal */ #define BOARD_EXTAL_LP 1 #define BOARD_EXTAL_FREQ 12000000 /* 12MHz Oscillator */ #define BOARD_XTAL32_FREQ 32768 /* 32KHz RTC Oscillator */ /* PLL Configuration. Either the external clock or crystal frequency is used * to select the PRDIV value. * Only reference clock frequencies are supported that will produce a * KINETIS_MCG_PLL_REF_MIN >= PLLIN <=KINETIS_MCG_PLL_REF_MAX reference * clock to the PLL. * * PLL Input frequency: PLLIN = REFCLK / PRDIV = 12 MHz / 1 = 12 MHz * PLL Output frequency: PLLOUT = PLLIN * VDIV = 12 MHz * 30 = 360 MHz * MCG Frequency: PLLOUT = 180 MHz = 360 MHz / * KINETIS_MCG_PLL_INTERNAL_DIVBY * * PRDIV register value is the divider minus KINETIS_MCG_C5_PRDIV_BASE. * VDIV register value is offset by KINETIS_MCG_C6_VDIV_BASE. */ #define BOARD_PRDIV 1 /* PLL External Reference Divider */ #define BOARD_VDIV 30 /* PLL VCO Divider (frequency multiplier) */ /* Define additional MCG_C2 Setting */ #define BOARD_MCG_C2_FCFTRIM 0 /* Do not enable FCFTRIM */ #define BOARD_MCG_C2_LOCRE0 MCG_C2_LOCRE0 /* Enable reset on loss of clock */ #define BOARD_PLLIN_FREQ (BOARD_EXTAL_FREQ / BOARD_PRDIV) #define BOARD_PLLOUT_FREQ (BOARD_PLLIN_FREQ * BOARD_VDIV) #define BOARD_MCG_FREQ (BOARD_PLLOUT_FREQ/KINETIS_MCG_PLL_INTERNAL_DIVBY) /* SIM CLKDIV1 dividers */ #define BOARD_OUTDIV1 1 /* Core = MCG, 180 MHz */ #define BOARD_OUTDIV2 3 /* Bus = MCG / 3, 60 MHz */ #define BOARD_OUTDIV3 3 /* FlexBus = MCG / 3, 60 MHz */ #define BOARD_OUTDIV4 7 /* Flash clock = MCG / 7, 25.7 MHz */ #define BOARD_CORECLK_FREQ (BOARD_MCG_FREQ / BOARD_OUTDIV1) #define BOARD_BUS_FREQ (BOARD_MCG_FREQ / BOARD_OUTDIV2) #define BOARD_FLEXBUS_FREQ (BOARD_MCG_FREQ / BOARD_OUTDIV3) #define BOARD_FLASHCLK_FREQ (BOARD_MCG_FREQ / BOARD_OUTDIV4) /* Use BOARD_MCG_FREQ as the output SIM_SOPT2 MUX selected by * SIM_SOPT2[PLLFLLSEL] */ #define BOARD_SOPT2_PLLFLLSEL SIM_SOPT2_PLLFLLSEL_MCGPLLCLK #define BOARD_SOPT2_FREQ BOARD_MCG_FREQ /* N.B. The above BOARD_SOPT2_FREQ precludes use of USB with a 12 MHz Xtal * Divider output clock = Divider input clock × [ (USBFRAC+1) / (USBDIV+1) ] * SIM_CLKDIV2_FREQ = BOARD_SOPT2_FREQ × [ (USBFRAC+1) / (USBDIV+1) ] * 48Mhz = 168Mhz X [(1 + 1) / (6 + 1)] * 48Mhz = 168Mhz / (6 + 1) * (1 + 1) */ #if (BOARD_MCG_FREQ == 168000000L) # define BOARD_SIM_CLKDIV2_USBFRAC 2 # define BOARD_SIM_CLKDIV2_USBDIV 7 # define BOARD_SIM_CLKDIV2_FREQ (BOARD_SOPT2_FREQ / \ BOARD_SIM_CLKDIV2_USBDIV * \ BOARD_SIM_CLKDIV2_USBFRAC) #endif /* Divider output clock = Divider input clock*((PLLFLLFRAC+1)/(PLLFLLDIV+1)) * SIM_CLKDIV3_FREQ = BOARD_SOPT2_FREQ × [ (PLLFLLFRAC+1) / (PLLFLLDIV+1)] * 90 MHz = 180 MHz X [(0 + 1) / (1 + 1)] * 90 MHz = 180 MHz / (1 + 1) * (0 + 1) */ #define BOARD_SIM_CLKDIV3_PLLFLLFRAC 1 #define BOARD_SIM_CLKDIV3_PLLFLLDIV 2 #define BOARD_SIM_CLKDIV3_FREQ (BOARD_SOPT2_FREQ / \ BOARD_SIM_CLKDIV3_PLLFLLDIV * \ BOARD_SIM_CLKDIV3_PLLFLLFRAC) #define BOARD_LPUART0_CLKSRC SIM_SOPT2_LPUARTSRC_MCGCLK #define BOARD_LPUART0_FREQ BOARD_SIM_CLKDIV3_FREQ #define BOARD_TPM_CLKSRC SIM_SOPT2_TPMSRC_MCGCLK #define BOARD_TPM_FREQ BOARD_SIM_CLKDIV3_FREQ /* SDHC clocking ************************************************************/ /* SDCLK configurations corresponding to various modes of operation. * Formula is: * * SDCLK frequency = (base clock) / (prescaler * divisor) * * The SDHC module is always configure configured so that the core clock is * the base clock. * Possible values for prescaler and divisor are: * * SDCLKFS: {2, 4, 8, 16, 32, 63, 128, 256} * DVS: {1..16} */ /* Identification mode: * Optimal 400KHz, Actual 180MHz / (32 * 15) = 375 Khz */ #define BOARD_SDHC_IDMODE_PRESCALER SDHC_SYSCTL_SDCLKFS_DIV32 #define BOARD_SDHC_IDMODE_DIVISOR SDHC_SYSCTL_DVS_DIV(15) /* MMC normal mode: * Optimal 20MHz, Actual 180MHz / (2 * 5) = 18 MHz */ #define BOARD_SDHC_MMCMODE_PRESCALER SDHC_SYSCTL_SDCLKFS_DIV2 #define BOARD_SDHC_MMCMODE_DIVISOR SDHC_SYSCTL_DVS_DIV(5) /* SD normal mode (1-bit): * Optimal 20MHz, Actual 180MHz / (2 * 5) = 18 MHz */ #define BOARD_SDHC_SD1MODE_PRESCALER SDHC_SYSCTL_SDCLKFS_DIV2 #define BOARD_SDHC_SD1MODE_DIVISOR SDHC_SYSCTL_DVS_DIV(5) /* SD normal mode (4-bit): * Optimal 25MHz, Actual 180MHz / (2 * 4) = 22.5 MHz (with DMA) * SD normal mode (4-bit): * Optimal 20MHz, Actual 180MHz / (2 * 4) = 22.5 MHz (no DMA) */ #ifdef CONFIG_SDIO_DMA # define BOARD_SDHC_SD4MODE_PRESCALER SDHC_SYSCTL_SDCLKFS_DIV2 # define BOARD_SDHC_SD4MODE_DIVISOR SDHC_SYSCTL_DVS_DIV(4) #else # define BOARD_SDHC_SD4MODE_PRESCALER SDHC_SYSCTL_SDCLKFS_DIV2 # define BOARD_SDHC_SD4MODE_DIVISOR SDHC_SYSCTL_DVS_DIV(4) #endif /* PWM Configuration */ /* FTM0 Channels */ /* Channels can be modified using kinetis_k66pinmux.h */ #define GPIO_FTM0_CH0OUT PIN_FTM0_CH0_1 #define GPIO_FTM0_CH1OUT PIN_FTM0_CH1_1 #define GPIO_FTM0_CH2OUT PIN_FTM0_CH2_2 #define GPIO_FTM0_CH3OUT PIN_FTM0_CH3_1 #define GPIO_FTM0_CH4OUT PIN_FTM0_CH4_1 #define GPIO_FTM0_CH5OUT PIN_FTM0_CH5_1 /* PWM Configuration */ /* FTM3 Channels */ /* Channels can be modified using kinetis_k66pinmux.h */ #define GPIO_FTM3_CH0OUT PIN_FTM3_CH0_1 #define GPIO_FTM3_CH1OUT PIN_FTM3_CH1_1 #define GPIO_FTM3_CH2OUT PIN_FTM3_CH2_1 #define GPIO_FTM3_CH3OUT PIN_FTM3_CH3_1 #define GPIO_FTM3_CH4OUT PIN_FTM3_CH4_1 /* LED definitions **********************************************************/ /* The Freedom K66F has a single RGB LED driven by the K66F as follows: * * LED K66 * ------ ------------------------------------------------------- * RED PTB22/SPI2_SOUT/FB_AD29/CMP2_OUT * BLUE PTB21/SPI2_SCK/FB_AD30/CMP1_OUT * GREEN PTE26/ENET_1588_CLKIN/UART4_CTS_b/RTC_CLKOUT/USB0_CLKIN * * 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 LEDs. */ /* 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) /* If CONFIG_ARCH_LEDs is defined, then NuttX will control the LED on board * the Freedom K66F. 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 /* K66 is in sleep mode (Not used) */ /* Button definitions *******************************************************/ /* Two push buttons, SW2 and SW3, are available on FRDM-K66F board, where SW2 * is connected to PTC6 and SW3 is connected to PTA4. * Besides the general purpose input/output functions, SW2 and SW3 can be * low-power wake up signal. Also, only SW3 can be a non-maskable interrupt. * * Switch GPIO Function * ------ --------------------------------------------------------------- * SW2 PTC6/SPI0_SOUT/PD0_EXTRG/I2S0_RX_BCLK/FB_AD9/I2S0_MCLK/LLWU_P10 * SW3 PTA4/FTM0_CH1/NMI_b/LLWU_P3 */ #define BUTTON_SW2 0 #define BUTTON_SW3 1 #define NUM_BUTTONS 2 #define BUTTON_SW2_BIT (1 << BUTTON_SW2) #define BUTTON_SW3_BIT (1 << BUTTON_SW3) /* Alternative pin resolution ***********************************************/ /* If there are alternative configurations for various pins in the * kinetis_k66pinmux.h header file, those alternative pins will be labeled * with a suffix like _1, _2, etc. The logic in this file must select the * correct pin configuration for the board by defining a pin configuration * (with no suffix) that maps to the correct alternative. */ /* The primary serial port interface signals are PTB16 UART0_RX and PTB17 * UART0_TX. * These signals are connected to the OpenSDAv2 circuit. */ #define PIN_UART0_RX PIN_UART0_RX_3 #define PIN_UART0_TX PIN_UART0_TX_3 /* An alternative serial port might use a standard serial shield mounted * on the Freedom Board. In this case, Arduino pin D1 provides UART TX and * pin D0 privies UART RX. * * The I/O headers on the FRDM-K66F board are arranged to enable * compatibility with Arduino shield. The outer rows of pins (even numbered * pins) on the headers, share the same mechanical spacing and placement with * the I/O headers on the Arduino Revision 3 (R3) standard. * * The Arduino D0 and D1 pins then correspond to pins 2 and 4 on the J1 I/O * connector: * * Arduino Pin FRDM-K66F J1 Connector * ------------------------ ----------------------- * UART RX, Arduino D0 pin Pin 2, PTC3, UART1_RX * UART TX, Arduino D1 pin Pin 4, PTC4, UART1_TX * ------------------------ ----------------------- * */ #define PIN_UART1_RX PIN_UART1_RX_1 #define PIN_UART1_TX PIN_UART1_TX_1 /* Bluetooth header * * J199 Pin Name K66 Name * -------- ----- ------ --------- * 3 BT_TX PTC14 UART4_RX * 4 BT_RX PTC15 UART4_TX * -------- ----- ------ --------- */ #define PIN_UART4_RX PIN_UART4_RX_1 #define PIN_UART4_TX PIN_UART4_TX_1 /* LPUART * * J1 Pin Name K66 Name * -------- ------------ ------ --------- * 7 I2S_RX_BCLK PTE9 LPUART0_RX * 11 I2S_RX_FS PTE8 LPUART0_TX * -------- ----- ------ --------- */ #define PIN_LPUART0_RX PIN_LPUART0_RX_1 #define PIN_LPUART0_TX PIN_LPUART0_TX_1 /* I2C INERTIAL SENSOR (Gyroscope) * * Pin Name K66 Name * ---- ----- ------ --------- * 11 SCL PTD8 2C0_SCL * 12 SDA PTD9 2C0_SDA */ #define PIN_I2C0_SCL PIN_I2C0_SCL_3 #define PIN_I2C0_SDA PIN_I2C0_SDA_3 /* RF/WIFI * * J6 Pin Name K66 Name * ------ ----- ------ --------- * 1 GND * 2 P3V3 * 3 CE PTB20 PTB20 * 4 CS PTD4 SPI1_PCS0 (use as GPIO) * 5 SCK PTD5 SPI1_SCK * 6 MOSI PTD6 SPI1_MOSI * 7 MISO PTD7 SPI1_MISO * 8 IRQ PTC18 PTC18 */ #define PIN_SPI1_SCK PIN_SPI1_SCK_3 #define PIN_SPI1_OUT PIN_SPI1_SOUT_3 #define PIN_SPI1_SIN PIN_SPI1_SIN_3 /* Ethernet MAC/KSZ8081 PHY * ------------ ----------- --------------------------------------- * KSZ8081 Board K66F Pin * Pin Signal Signal(s) Function pinmux Name * --- -------- ------------ --------------------------------------- * 1 VDD_1V2 VDDPLL_1.2V --- --- * 2 VDDA_3V3 VDDA_ENET --- --- * 3 RXM ENET1_RX- --- --- * 4 RXP ENET1_RX+ --- --- * 5 TXM ENET1_TX- --- --- * 6 TXP ENET1_TX+ --- --- * 7 X0 RMII_XTAL0 --- --- * 8 XI RMII_XTAL1 --- --- * 9 REXT --- Apparently not connected --- * 10 MDIO RMII0_MDIO PTB0/RMII0_MDIO PIN_RMII0_MDIO * 11 MDC RMII0_MDC PTB1/RMII0_MDC PIN_RMII0_MDC * 12 RXD1 RMII0_RXD_1 PTA12/RMII0_RXD1 PIN_RMII0_RXD1 * 13 RXD0 RMII0_RXD_0 PTA13/RMII0_RXD0 PIN_RMII0_RXD0 * 14 VDDIO VDDIO_ENET --- --- * 15 CRS_DIV PTA14/RMII0_CRS_DV PIN_RMII0_CRS_DV * 16 REF_CLK PTE26 PTE26(Ethernet clock) PTE26/ENET_1588_CLKIN * 17 RXER RMII0_RXER PTA5/RMII0_RXER PIN_RMII0_RXER * 18 INTRP RMII0_INT_B, J14 Pin 2, Apparently not --- * PHY_INT_1 available unless jumpered --- * 19 TXEN RMII0_TXEN PTA15/RMII0_TXEN PIN_RMII0_TXEN * 20 TXD0 RMII0_TXD_0 PTA16/RMII0_TXD0 PIN_RMII0_TXD0 * 21 TXD1 RMII0_TXD_1 PTA17/RMII0_TXD1 PIN_RMII0_TXD1 * 22 GND1 --- --- --- * 24 nRST PHY_RST_B --- --- * 25 GND2 --- --- --- * --- -------- ------------ -------------------------------------------- */ #define PIN_RMII0_MDIO PIN_RMII0_MDIO_1 #define PIN_RMII0_MDC PIN_RMII0_MDC_1 #endif /* __BOARDS_ARM_KINETIS_FREEDOM_K66F_INCLUDE_BOARD_H */