56529d2944
- migrated /README are removed from /boards - there are a lot of READMEs that should be further converted to rst. At the moment they are moved to Documentation/platforms and included in rst files
877 lines
40 KiB
Plaintext
877 lines
40 KiB
Plaintext
README
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======
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This README discusses issues unique to NuttX configurations for the
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Arduino DUE board featuring the Atmel ATSAM3X8E MCU running at 84 MHz.
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NOTE: If found that newer Arduino Due board differ from the older boards
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mine: Mine has the 32.768 slow clock crystal and associated caps installed.
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the newer boards do not. This can cause a hang in the SAM startup code
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where it waits for the slow crystal input to lock on.
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Options: (1) Solder a 32.768 KHz crystal and associated caps on board or,
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(2) disable the function sam_setupsupc() in sam_clockconfig.c
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Supported Shields
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-----------------
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- ITEAD 2.4" TFT with Touch, Arduino Shield 1.0
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Contents
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========
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- PIO Pin Usage
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- Rev 2 vs. Rev 3
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- ITEAD 2.4" TFT with Touch
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- Buttons and LEDs
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- Serial Consoles
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- Loading Code
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- Arduino Due-specific Configuration Options
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- Configurations
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PIO Pin Usage
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=============
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PORTA PORTB PORTC
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------------------------------ ------------------------------ --------------------------------
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PIO SIGNAL CONN PIN PIO SIGNAL CONN PIN PIO SIGNAL CONN PIN
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----- ---------- ---- -------- ----- ------------ ---- ------ ----- ----------- ---- ---------
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PA0 CANTX0 ADCH 8 PB0 ETX_CLK ETH 1 PC0 ERASE N/A
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PA1 CANRX0 ACDH 7 PB1 ETX_EN ETH 3 PC1 PIN33 XIO 14
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PA2 AD7 ADCL 8 PB2 ETXD0 ETH 5 PC2 PIN34 XIO 15
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PA3 AD6 ADCL 7 PB3 ETXD1 ETH 7 PC3 PIN35 XIO 16
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PA4 AD5 ADCL 6 PB4 ERX_DV ETH 10 PC4 PIN36 XIO 17
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PA5 EEXTINT ETH 8 PB5 ERXD0 ETH 9 PC5 PIN37 XIO 18
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PA6 AD4 ADCL 5 PB6 ERXD1 ETH 11 PC6 PIN38 XIO 19
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PA7 PIN31 XIO 12 PB7 ERX_ER ETH 13 PC7 PIN39 XIO 20
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PA8 [U]RX PWML 1 PB8 EMDC ETH 14 PC8 PIN40 XIO 21
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PA9 [U]TX PWML 2 PB9 EMDIO ETH 12 PC9 PIN41 XIO 22
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PA10 RXD2 COMM 6 PB10 UOTGVBOF Vbus power PC10 N/C N/A
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PA11 TXD2 COMM 5 PB11 UOTGID USB1 4 PC11 N/C N/A
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PA12 RXD1 COMM 4 PB12 SDA0-3 COMM 7 PC12 PIN51 XIO 32
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PA13 TXD1 COMM 3 PB13 SCL0-3 COMM 8 PC13 PIN50 XIO 31
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PA14 PIN23 XIO 4 PB14 CANTX1/IO XIO 34 PC14 PIN49 XIO 30
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PA15 PIN24 XIO 5 PB15 DAC0(CANRX1) ADCH 5 PC15 PIN48 XIO 29
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PA16 AD0 ADCL 1 PB16 DAC1 ADCH 6 PC16 PIN47 XIO 28
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PA17 SDA1 PWMH 9 PB17 AD8 ADCH 1 PC17 PIN46 XIO 27
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PA18 SCL1 PWMH 10 PB18 AD9 ADCH 2 PC18 PIN45 XIO 26
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PA19 PIN42 XIO 23 PB19 AD10 ADCH 3 PC19 PIN44 XIO 25
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PA20 PIN43 XIO 24 PB20 AD11(TXD3) ADCH 4 PC20 N/C N/A
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PA21 TXL TX YELLOW LED PB21 AD14(RXD3) XIO 33 PC21 PWM9 PWMH 2
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PA22 AD3 ADCL 4 PB22 N/C N/A PC22 PWM8 PWMH 1
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PA23 AD2 ADCL 3 PB23 SS3 ??? PC23 PWM7 PWML 8
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PA24 AD1 ADCL 2 PB24 N/C N/A PC24 PWM6 PWML 7
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PA25 MISO SPI 1 PB25 PWM2 PWML 3 PC25 PWM5 PWML 6
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PA26 MOSI SPI 4 PB26 PIN22 ??? PC26 SS1/PWM4 PWML 10 (there are two)
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PA27 SPCK SPI 3 PB27 PWM13 PWMH 6 PC27 N/C N/A
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PA28 SS0/PWM10 (ETH) PWML 10 PB28 JTAG_TCK JTAG 4 PC28 PWM3 PWML 4
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PA29 SS1/PWM4 (SD) PB29 JTAG_TDI JTAG 8 PC29 SS0/PWM10 ??? (there are two)
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PA30 N/A N/A PB30 JTAG_TDO JTAG 6 PC30 RXL RX YELLOW LED
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PA31 N/A N/A PB31 JTAG_TMS JTAG 2 PC31 N/A N/A
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----- ---------- ---- -------- ----- ------------ ---- ------ ----- ----------- ---- ---------
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PORTA PORTB PORTC
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------------------------------ ------------------------------ --------------------------------
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PIO SIGNAL CONN PIN PIO SIGNAL CONN PIN PIO SIGNAL CONN PIN
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----- ---------- ---- -------- ----- ------------ ---- ------ ----- ----------- ---- ---------
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PA0 PIN25 XIO 6 PE0 N/A N/A PF0 N/A N/A
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PD1 PIN26 XIO 7 PE1 N/A N/A PF1 N/A N/A
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PD2 PIN27 XIO 8 PE2 N/A N/A PF2 N/A N/A
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PD3 PIN28 XIO 9 PE3 N/A N/A PF3 N/A N/A
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PD4 TXD0 COMM 1 PE4 N/A N/A PF4 N/A N/A
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PD5 RXD0 COMM 2 PE5 N/A N/A PF5 N/A N/A
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PD6 PIN29 XIO 10 PE6 N/A N/A PF6 N/A N/A
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PD7 PWM11 PWMH 4 PE7 N/A N/A PF7 N/A N/A
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PD8 PWM12 PWMH 5 PE8 N/A N/A PF8 N/A N/A
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PD9 PIN30 XIO 11 PE9 N/A N/A PF9 N/A N/A
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PD10 PIN32 XIO 13 PE10 N/A N/A PF10 N/A N/A
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PD11 N/A N/A PE11 N/A N/A PF11 N/A N/A
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PD12 N/A N/A PE12 N/A N/A PF12 N/A N/A
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PD13 N/A N/A PE13 N/A N/A PF13 N/A N/A
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PD14 N/A N/A PE14 N/A N/A PF14 N/A N/A
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PD15 N/A N/A PE15 N/A N/A PF15 N/A N/A
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PD16 N/A N/A PE16 N/A N/A PF16 N/A N/A
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PD17 N/A N/A PE17 N/A N/A PF17 N/A N/A
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PD18 N/A N/A PE18 N/A N/A PF18 N/A N/A
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PD19 N/A N/A PE19 N/A N/A PF19 N/A N/A
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PD20 N/A N/A PE20 N/A N/A PF20 N/A N/A
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PD21 N/A N/A PE21 N/A N/A PF21 N/A N/A
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PD22 N/A N/A PE22 N/A N/A PF22 N/A N/A
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PD23 N/A N/A PE23 N/A N/A PF23 N/A N/A
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PD24 N/A N/A PE24 N/A N/A PF24 N/A N/A
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PD25 N/A N/A PE25 N/A N/A PF25 N/A N/A
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PD26 N/A N/A PE26 N/A N/A PF26 N/A N/A
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PD27 N/A N/A PE27 N/A N/A PF27 N/A N/A
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PD28 N/A N/A PE28 N/A N/A PF28 N/A N/A
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PD29 N/A N/A PE29 N/A N/A PF29 N/A N/A
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PD30 N/A N/A PE30 N/A N/A PF30 N/A N/A
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PD31 N/A5 N/A PE31 N/A N/A PF31 N/A N/A
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----- ---------- ---- -------- ----- ------------ ---- ------ ----- ----------- ---- ---------
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Rev 2 vs. Rev 3
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===============
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This port was performed on the Arduino Due Rev 2 board. NuttX users
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have reported issues with the serial port on his Arduino Due Rev 3 board.
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That problem was resolved as by configuring the UART0 RXD with a pull-up
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(see include/board.h). That fix as well as any others that we may find
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will be enabled by selecting
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CONFIG_ARDUINO_DUE_REV3=y
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ITEAD 2.4" TFT with Touch
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=========================
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The Arduino 2.4" TFT Touch Shield is designed for all the Arduino
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compatible boards. It works in 3.3V voltage level. It can be directly
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plugged on the Arduino and other compatible boards. It will offer
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display, touch and storage functions for the Arduino board
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Features:
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1. Compatible with 3.3/5V operation voltage level
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2. Compatible with UTFT library
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3. With SD Card Socket
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The Arduino 2.4" TFT Touch shield uses the S6D1121 controller , it
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supports 8-bit data interface. The touch IC is XPT2046.
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NOTE: When used with the ITEAD shield, the power from the USB connector
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seems to be inefficient (for example, I lose the USB connection when I
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insert an SD card). I recommend using a 7-12V power supply with the
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Arduino in this case.
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Connector:
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---------- --------------------------- ----------- --------------------------- ------------------
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Arduino ATSAM3X Due ITHEAD
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Due PIN GPIO FUNCTION SIGNAL PIN SIGNAL NOTES
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---------- ---- ---------------------- ----------- ---------------- ---------- ------------------
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PWMH
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10 SCL1 PA18 TWCK0/A20/WKUP9 SCL1 --- --- --- SCL not available
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9 SDA1 PA17 TWD0SPCK0 SDA1 --- --- --- SDA not available
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8 Aref --- --- AREF J2 pin 8 Vref N/C ---
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7 GND --- --- GND J2 pin 7 GND --- ---
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6 PWM13 PB27 SPI0_SPCK/A20/WKUP10 PWM13 J2 pin 6 D13 SD_SCK SCK, also LED "L", Pulled low
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5 PWM12 PD8 A21/NANDALE/TIOB8 PWM12 J2 pin 5 D12 SD_MISO MISO not available
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4 PWM11 PD7 A17/BA1/TIOA8 PWM11 J2 pin 4 D11 SD_MOSI MOSI not available, Pulled low
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3 PWM10 PA28 SPI0_NPCS0/PCK2/WKUP11 SS0/PWM10 J2 pin 3 D10 SD_CS Pulled low on-board
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2 PWM9 PC21 A0/NBS0/PWML4 PWM9 J2 pin 2 D9 Touch_Dout ---
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1 PWM8 PC22 A1/PWML5 PWM8 J2 pin 1 D8 Touch_IRQ ---
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PWML
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8 PWM7 PC23 A2/PWML6 PWM7 J3 pin 8 D7 DB15 ---
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7 PWM6 PC24 A3/PWML7 PWM6 J3 pin 7 D6 DB14 ---
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6 PWM5 PC25 A4/TIOA6 PWM5 J3 pin 6 D5 DB13 ---
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5 PWM4 PC26 A5/TIOB6 SS1/PWM4 J3 pin 5 D4 DB12 ---
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4 PWM3 PC28 A7/TIOA7 PWM3 J3 pin 4 D3 DB11 ---
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3 PWM2 PB25 RTS0/TIOA0 PWM2 J3 pin 3 D2 DB10 ---
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2 PWM1 PA9 UTXD/PWMH3 TX J3 pin 2 D1 DB9 UART0 TX
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1 PWM0 PA8 URXD/PWMH0/WKUP4 RX J3 pin 1 D0 DB8 UART0 RX
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---------- ---- ---------------------- ----------- ---------------- ---------- ------------------
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POWER
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1 --- --- --- --- --- --- --- ---
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2 IOref --- --- IOREF +3V3 --- --- --- ---
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3 RESET --- --- MASTER_RESET J4 pin 1 RST --- ---
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5 5V --- --- +5V J4 pin 2 3.3V --- ---
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4 3.3V --- --- +3V3 J4 pin 3 5V --- ---
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6 GND --- --- GND J4 pin 4 GND --- ---
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7 GND --- --- GND J4 pin 5 GND --- ---
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8 Vin --- --- VIN J4 pin 6 Vin --- ---
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ADCL
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1 A0 PA16 SPCK1/TD/AD7 AD0 J1 pin 1 A0/D14 Touch_Din ---
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2 A1 PA24 MCDA3/PCK1/AD6 AD1 J1 pin 2 A1/D15 Touch_CLK ---
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3 A2 PA23 MCDA2/TCLK4/AD5 AD2 J1 pin 3 A2/D16 --- ---
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4 A3 PA22 MCDA1/TCLK3/AD4 AD3 J1 pin 4 A3/D17 TFT_CS ---
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5 A4 PA6 TIOB2/NCS0/AD3 AD4 J1 pin 5 A4/D18 TFT_WR ---
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6 A5 PA4 TCLK1/NWAIT/AD2 AD5 J1 pin 6 A5/D19 TFT_RS ---
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7 A6 PA3 TIOB1/PWMFI1/AD1/WKUP1 AD6 --- --- --- ---
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8 A7 PA2 TIOA1/NANDRDY/AD0 AD7 --- --- --- ---
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---------- ---- ---------------------- ----------- ---------------- ---------- ------------------
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NOTES:
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1. It is not possible to use any of the SPI devices on the Shield unless
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a bit-bang SPI interface is used. This includes the touch controller
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a bit-bang SPI interface is used. This includes the touch controller
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and the SD card.
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2. UART0 cannot be used. USARTs on the COMM connector should be available.
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3. Parallel data is not contiguous in the PIO register
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4. Touchcontroller /CS pin is connected to ground (always selected).
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5. Either PA28 or PC29 may drive PWM10
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6. The schematics I have do not agree with the documentation. The Touch IRQ
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and Dout pins are reversed in the Documentation (D9 an D8, respectively).
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I am assuming that the schematic is correct (and the schematic does seem
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to match up with what little I can see on the single visible side of the
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board).
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SD Interface:
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------------ ------------------ ------- ------------- ------------------ -------
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SD CONNECTOR ARDUINO CONNECTORS AT91SAM SD CONNECTOR ARDUINO CONNECTORS AT91SAM
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PIN SIGNAL PIN SIGNAL GPIO PIN SIGNAL PIN SIGNAL GPIO
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--- -------- -------- --------- -------- ---- -------- -------- --------- -------
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1 /CS J2 pin 3 D10 PA28 2 DI J2 pin 4 D11 PD7
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3 GND --- --- --- 4 VCC --- --- ---
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5 CLK J2 pin 6 D13 PB27 6 GND --- --- ---
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7 DO J2 pin 5 D12 PD8 8 IRQ N/C --- ---
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9 N/C --- --- --- 10 SW N/C --- ---
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11 WP N/C --- --- 12 CD N/C --- ---
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13 CD N/C --- --- 14 GND --- --- ---
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15 GND --- --- --- 16 GND --- --- ---
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--- -------- -------- --------- -------- ---- -------- -------- --------- -------
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NOTES:
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- The SD slot shares the pin with LED "L" so LED support must be disabled to
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use the MMC/SD card on the ITEAD shield.
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- Either PA28 or PC29 may drive D10
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Touch Controller Interface:
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----------- ------------------ -------- ------------- ------------------ -------
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XPT2046 ARDUINO CONNECTORS AT91SAM XPT2046 ARDUINO CONNECTORS AT91SAM
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PIN SIGNAL PIN SIGNAL GPIO PIN SIGNAL PIN SIGNAL GPIO
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--- ------- -------- --------- -------- ---- -------- -------- --------- -------
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1 VCC --- --- --- 2 X+ --- --- ---
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3 Y+ --- --- --- 4 X- --- --- ---
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5 Y- --- --- --- 6 GND --- --- ---
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7 IN3 N/C --- --- 8 IN4 N/C --- ---
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9 VREF --- --- --- 10 VCC --- --- ---
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11 IRQ J2 pin 2 D9 PC21 12 DOUT J2 pin 1 D8 PC22
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13 BUSY N/C --- --- 14 DIN J1 pin 1 A0/D15 PA16
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15 /CS --- --- --- 16 DCLK J1 pin 2 A1/D15 PA24
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--- ------- -------- --------- -------- ---- -------- -------- --------- -------
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NOTES:
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- /CS is connected to ground (XPT2046 is always selected)
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Buttons and LEDs
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================
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Buttons
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-------
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There are no buttons on the Arduino Due board.
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LEDs
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----
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There are three user-controllable LEDs on board the Arduino Due board:
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LED GPIO
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---------------- -----
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L Amber LED PB27
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TX Yellow LED PA21
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RX Yellow LED PC30
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LED L is connected to ground and can be illuminated by driving the PB27
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output high. The TX and RX LEDs are pulled high and can be illuminated by
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driving the corresponding
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GPIO output to low.
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These LEDs are not used by the board port unless CONFIG_ARCH_LEDS is
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defined. In that case, the usage by the board port is defined in
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include/board.h and src/sam_leds.c. The LEDs are used to encode OS-related
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events as follows:
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SYMBOL MEANING LED STATE
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L TX RX
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------------------- ----------------------- -------- -------- --------
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LED_STARTED NuttX has been started OFF OFF OFF
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LED_HEAPALLOCATE Heap has been allocated OFF OFF OFF
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LED_IRQSENABLED Interrupts enabled OFF OFF OFF
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LED_STACKCREATED Idle stack created ON OFF OFF
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LED_INIRQ In an interrupt N/C GLOW OFF
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LED_SIGNAL In a signal handler N/C GLOW OFF
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LED_ASSERTION An assertion failed N/C GLOW OFF
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LED_PANIC The system has crashed N/C N/C Blinking
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LED_IDLE MCU is is sleep mode ------ Not used --------
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Thus if LED L is statically on, NuttX has successfully booted and is,
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apparently, running normally. If LED RX is glowing, then NuttX is
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handling interrupts (and also signals and assertions). If TX is flashing
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at approximately 2Hz, then a fatal error has been detected and the system
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has halted.
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Serial Consoles
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===============
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The SAM3X has a UART and 4 USARTS. The Programming port uses a USB-to-
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serial chip connected to the first UART0 of the MCU (RX0 and TX0). The
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output from that port is visible using the Arduino tool.
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Any of UART and USART0-3 may be used as a serial console. By default,
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the UART is used as the serial console in all configurations. But that is
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easily changed by modifying the configuration as described under
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"Configurations" below.
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Here are the UART signals available on pins. Under signal name, the first
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column is the name on the schematic associated with the GPIO, the second
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comes from: http://arduino.cc/en/Hacking/PinMappingSAM3X, and the third
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is the name of the multiplexed SAM3X UART function from the data sheet.
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This is more than a little confusing.
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------------------------------------------------------------------
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PIO SIGNAL NAME CONNECTOR PIN
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DUE SCHEM. PIN MAPPING SAM3X DUE SCHEM. BOARD LABEL
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----- ---------- -------------- ----------- ---------- -----------
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PA8 [U]RX RX0 UART0 URXD PWML 1 RX0<-0
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PA9 [U]TX TX0 UART0 UTXD PWML 2 TX0->1
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PD5 RXD0 RX3 USART3 RXD3 COMM 2 RX3
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PD4 TXD0 TX3 USART3 TXD3 COMM 1 TX3
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PA12 RXD1 RX2 USART1 RXD1 COMM 4 TX2
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PA13 TXD1 TX2 USART1 TXD1 COMM 3 RX2
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PA10 RXD2 RX1 USART0 RXD0 COMM 6 RX1
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PA11 TXD2 TX1 USART0 TXD0 COMM 5 TX1
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PB21 AD14(RXD3) Digital Pin 52 USART2 RXD2 XIO 33 33
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PB20 AD11(TXD3) Analog In 11 USART2 TXD2 ADCH 4 A11
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The outputs from these pins is 3.3V. You will need to connect RS232
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transceiver to get the signals to RS232 levels (or connect to the
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USB virtual COM port in the case of UART0).
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Loading Code
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============
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[NOTE: I believe that there have been significant changes to the more
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recent tool environment such that Bossac may no longer be usable. I
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don't know that for certain and perhaps someone with more knowledge of
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the tools than I could make this work. See the Flip'n'Clip SAM3X README
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file for additional information.]
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Installing the Arduino USB Driver under Windows:
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------------------------------------------------
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1. Download the Windows version of the Arduino software, not the 1.0.x
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release but the latest (1.5.x or later) that supports the Due. When
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the download finishes, unzip the downloaded file.
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In the current 1.8.x release, the Arduino Due support is not included
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in the base package but can be added by selecting the "Boards Manager"
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from the "Tools" menu.
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2. Connect the Due to your computer with a USB cable via the Programming
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port.
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3. The Windows driver installation should fail.
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4. Open the Device Manager
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5. Look for the listing named "Ports (COM & LPT)". You should see an open
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port named "Arduino Due Prog. Port". Right click and select "Update
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driver".
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6. Select the "Browse my computer for Driver software" option.
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7. Right click on the "Arduino Due Prog. Port" and choose "Update Driver
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Software".
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8. Navigate to the folder with the Arduino IDE you downloaded and unzipped
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earlier. Locate and select the "Drivers" folder in the main Arduino folder
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(not the "FTDI USB Drivers" sub-directory).
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Loading NuttX to the Due Using Bossa:
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-------------------------------------
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Arduino uses BOSSA under the hood to load code and you can use BOSSA
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outside of Arduino.
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Where do you get it?
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Generic BOSSA installation files are available here:
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https://github.com/shumatech/BOSSA (formerly at
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http://sourceforge.net/projects/b-o-s-s-a/?source=dlp)
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Pre-built binaries are available: https://github.com/shumatech/BOSSA/releases
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The original Arduino DUE used a patched version of BOSSA available
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as source code here: https://github.com/shumatech/BOSSA/tree/arduino
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But that has most likely been incorporated into the main github
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repository.
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But, fortunately, since you already installed Arduino, you already have
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BOSSA installed. In my installation, it is here:
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C:\Program Files (x86)\Arduino\arduino-1.5.2\hardware\tools\bossac.exe
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|
|
On Debian like distribution, BOSSA can be install through repository:
|
|
sudo apt install bossa-cli
|
|
|
|
General Procedure
|
|
|
|
1) Erase the FLASH and put the Due in bootloader mode
|
|
2) Write the file to FLASH
|
|
3) Configure to boot from FLASH
|
|
4) Reset the DUE
|
|
|
|
Erase FLASH and Put the Due in Bootloader Mode
|
|
|
|
This is accomplished by simply configuring the programming port in 1200
|
|
baud and sending something on the programming port. Here is some sample
|
|
output from a Windows CMD.exe shell. NOTE that my Arduino programming
|
|
port shows up as COM26. It may be different on your system.
|
|
|
|
To enter boot mode, set the baud to 1200 and send anything to the
|
|
programming port:
|
|
|
|
C:\Program Files (x86)\Arduino\arduino-1.5.2\hardware\tools>mode com26:1200,n,8,1
|
|
|
|
Status for device COM26:
|
|
|
|
Baud: 1200
|
|
Parity: None
|
|
Data Bits: 8
|
|
Stop Bits: 1
|
|
Timeout: ON
|
|
XON/XOFF: OFF
|
|
CTS handshaking: OFF
|
|
DSR handshaking: OFF
|
|
DSR sensitivity: OFF
|
|
DTR circuit: ON
|
|
RTS circuit: ON
|
|
|
|
C:\Program Files (x86)\Arduino\arduino-1.5.2\hardware\tools>bossac.exe --port=COM26 --usb-port=false -i
|
|
Device : ATSAM3X8
|
|
Chip ID : 285e0a60
|
|
Version : v1.1 Dec 15 2010 19:25:04
|
|
Address : 524288
|
|
Pages : 2048
|
|
Page Size : 256 bytes
|
|
Total Size : 512KB
|
|
Planes : 2
|
|
Lock Regions : 32
|
|
Locked : none
|
|
Security : false
|
|
Boot Flash : false
|
|
|
|
Writing FLASH and Setting FLASH Boot Mode
|
|
-----------------------------------------
|
|
In a Cygwin BaSH shell:
|
|
|
|
export PATH="/cygdrive/c/Program Files (x86)/Arduino/arduino-1.5.2/hardware/tools":$PATH
|
|
|
|
Erasing, writing, and verifying FLASH with bossac:
|
|
|
|
$ bossac.exe --port=COM26 --usb-port=false -e -w -v -b nuttx.bin -R
|
|
Erase flash
|
|
Write 86588 bytes to flash
|
|
[==============================] 100% (339/339 pages)
|
|
Verify 86588 bytes of flash
|
|
[==============================] 100% (339/339 pages)
|
|
Verify successful
|
|
Set boot flash true
|
|
CPU reset.
|
|
|
|
Some things that can go wrong:
|
|
|
|
$ bossac.exe --port=COM26 --usb-port=false -e -w -v -b nuttx.bin -R
|
|
No device found on COM26
|
|
|
|
This error means that there is code running on the Due already so the
|
|
bootloader cannot connect. Press reset and try again
|
|
|
|
$ bossac.exe --port=COM26 --usb-port=false -e -w -v -b nuttx.bin -R
|
|
No device found on COM26
|
|
|
|
Sill No connection because Duo does not jump to bootloader after reset.
|
|
Press ERASE button and try again
|
|
|
|
$ bossac.exe --port=COM26 --usb-port=false -e -w -v -b nuttx.bin -R
|
|
Erase flash
|
|
Write 86588 bytes to flash
|
|
[==============================] 100% (339/339 pages)
|
|
Verify 86588 bytes of flash
|
|
[==============================] 100% (339/339 pages)
|
|
Verify successful
|
|
Set boot flash true
|
|
CPU reset.
|
|
|
|
In Linux shell:
|
|
|
|
bossac -i --port=ttyACM0 -U false -e -w -v -b nuttx.bin -R
|
|
|
|
Other useful bossac operations.
|
|
|
|
a) Write code to FLASH don't change boot mode and don't reset. This lets
|
|
you examine the FLASH contents that you just loaded while the bootloader
|
|
is still active.
|
|
|
|
$ bossac.exe --port=COM26 --usb-port=false -e -w -v --boot=0 nuttx.bin
|
|
Write 64628 bytes to flash
|
|
[==============================] 100% (253/253 pages)
|
|
Verify 64628 bytes of flash
|
|
[==============================] 100% (253/253 pages)
|
|
Verify successful
|
|
|
|
b) Verify the FLASH contents (the bootloader must be running)
|
|
|
|
$ bossac.exe --port=COM26 --usb-port=false -v nuttx.bin
|
|
Verify 64628 bytes of flash
|
|
[==============================] 100% (253/253 pages)
|
|
Verify successful
|
|
|
|
c) Read from FLASH to a file (the bootloader must be running):
|
|
|
|
$ bossac.exe --port=COM26 --usb-port=false --read=4096 nuttx.dump
|
|
Read 4096 bytes from flash
|
|
[==============================] 100% (16/16 pages)
|
|
|
|
d) Change to boot from FLASH
|
|
|
|
$ bossac.exe --port=COM26 --usb-port=false --boot=1
|
|
Set boot flash true
|
|
|
|
Uploading NuttX to the Due Using JTAG
|
|
-------------------------------------
|
|
|
|
The JTAG/SWD signals are brought out to a 10-pin header JTAG connector:
|
|
|
|
PIN SIGNAL JTAG STANDARD NOTES
|
|
--- -------------- ----------------- --------------------------------
|
|
1 3.3V VTref
|
|
2 JTAG_TMS SWDIO/TMS SAM3X pin 31, Pulled up on board
|
|
3 GND GND
|
|
4 JTAG_TCK SWDCLK/TCK SAM3X pin 28, Pulled up on board
|
|
5 GND GND
|
|
6 JTAG_TDO SWO/EXta/TRACECTL SAM3X pin 30, ulled up on board
|
|
7 N/C Key
|
|
8 JTAG_TDI NC/EXTb/TDI SAM3X pin 29, Pulled up on board
|
|
9 GND GNDDetect
|
|
10 MASTER-RESET nReset
|
|
|
|
You should be able to use a 10- to 20-pin adapter to connect a SAM-ICE
|
|
debugger to the Arduino Due. I have this Olimex adapter:
|
|
https://www.olimex.com/Products/ARM/JTAG/ARM-JTAG-20-10/ . But so far I
|
|
have been unable to get the get the SAM-ICE to communicate with the Due.
|
|
|
|
Arduino DUE-specific Configuration Options
|
|
==========================================
|
|
|
|
CONFIG_ARCH - Identifies the arch/ subdirectory. This should
|
|
be set to:
|
|
|
|
CONFIG_ARCH=arm
|
|
|
|
CONFIG_ARCH_family - For use in C code:
|
|
|
|
CONFIG_ARCH_ARM=y
|
|
|
|
CONFIG_ARCH_architecture - For use in C code:
|
|
|
|
CONFIG_ARCH_CORTEXM3=y
|
|
|
|
CONFIG_ARCH_CHIP - Identifies the arch/*/chip subdirectory
|
|
|
|
CONFIG_ARCH_CHIP="sam34"
|
|
|
|
CONFIG_ARCH_CHIP_name - For use in C code to identify the exact
|
|
chip:
|
|
|
|
CONFIG_ARCH_CHIP_SAM34
|
|
CONFIG_ARCH_CHIP_SAM3X
|
|
CONFIG_ARCH_CHIP_ATSAM3X8E
|
|
|
|
CONFIG_ARCH_BOARD - Identifies the boards/ subdirectory and
|
|
hence, the board that supports the particular chip or SoC.
|
|
|
|
CONFIG_ARCH_BOARD=arduino-due (for the Arduino Due development board)
|
|
|
|
CONFIG_ARCH_BOARD_name - For use in C code
|
|
|
|
CONFIG_ARCH_BOARD_ARDUINO_DUE=y
|
|
|
|
CONFIG_ARCH_LOOPSPERMSEC - Must be calibrated for correct operation
|
|
of delay loops
|
|
|
|
CONFIG_RAM_SIZE - Describes the installed DRAM (SRAM in this case):
|
|
|
|
CONFIG_RAM_SIZE=65536 (64Kb)
|
|
|
|
CONFIG_RAM_START - The start address of installed DRAM
|
|
|
|
CONFIG_RAM_START=0x20000000
|
|
|
|
CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to boards that
|
|
have LEDs
|
|
|
|
Individual subsystems can be enabled:
|
|
|
|
CONFIG_SAM34_ADC12B - 12-bit Analog To Digital Converter
|
|
CONFIG_SAM34_CAN0 - CAN Controller 0
|
|
CONFIG_SAM34_CAN1 - CAN Controller 1
|
|
CONFIG_SAM34_DACC - Digital To Analog Converter
|
|
CONFIG_SAM34_DMAC0 - DMA Controller
|
|
CONFIG_SAM34_EMAC - Ethernet MAC
|
|
CONFIG_SAM34_HSMCI - High Speed Multimedia Card Interface
|
|
CONFIG_SAM34_PWM - Pulse Width Modulation
|
|
CONFIG_SAM34_RTC - Real Time Clock
|
|
CONFIG_SAM34_RTT - Real Time Timer
|
|
CONFIG_SAM34_SDRAMC - SDRAM Controller
|
|
CONFIG_SAM34_SMC - Static Memory Controller
|
|
CONFIG_SAM34_SPI0 - Serial Peripheral Interface 0
|
|
CONFIG_SAM34_SPI1 - Serial Peripheral Interface 1
|
|
CONFIG_SAM34_SSC - Synchronous Serial Controller
|
|
CONFIG_SAM34_TC0 - Timer Counter 0
|
|
CONFIG_SAM34_TC1 - Timer Counter 1
|
|
CONFIG_SAM34_TC2 - Timer Counter 2
|
|
CONFIG_SAM34_TC3 - Timer Counter 3
|
|
CONFIG_SAM34_TC4 - Timer Counter 4
|
|
CONFIG_SAM34_TC5 - Timer Counter 5
|
|
CONFIG_SAM34_TC6 - Timer Counter 6
|
|
CONFIG_SAM34_TC7 - Timer Counter 7
|
|
CONFIG_SAM34_TC8 - Timer Counter 8
|
|
CONFIG_SAM34_TRNG - True Random Number Generator
|
|
CONFIG_SAM34_TWIM/S0 - Two-Wire Interface 0 (master/slave)
|
|
CONFIG_SAM34_TWIM/S1 - Two-Wire Interface 1 (master/slave)
|
|
CONFIG_SAM34_UART0 - UART 0
|
|
CONFIG_SAM34_UOTGHS - USB OTG High Speed
|
|
CONFIG_SAM34_USART0 - USART 0
|
|
CONFIG_SAM34_USART1 - USART 1
|
|
CONFIG_SAM34_USART2 - USART 2
|
|
CONFIG_SAM34_USART3 - USART 3
|
|
CONFIG_SAM34_WDT - Watchdog Timer
|
|
|
|
Some subsystems can be configured to operate in different ways. The drivers
|
|
need to know how to configure the subsystem.
|
|
|
|
CONFIG_SAM34_GPIOA_IRQ
|
|
CONFIG_SAM34_GPIOB_IRQ
|
|
CONFIG_SAM34_GPIOC_IRQ
|
|
CONFIG_SAM34_GPIOD_IRQ
|
|
CONFIG_SAM34_GPIOE_IRQ
|
|
CONFIG_SAM34_GPIOF_IRQ
|
|
|
|
Configurations
|
|
==============
|
|
|
|
Each Arduino Due configuration is maintained in a sub-directory and
|
|
can be selected as follow:
|
|
|
|
tools/configure.sh [OPTIONS] arduino-due:<subdir>
|
|
|
|
Where typical options are -l to configure to build on Linux or -c to
|
|
configure for Cygwin under Linux. 'tools/configure.sh -h' will show
|
|
you all of the options.
|
|
|
|
Before building, make sure the PATH environment variable includes the
|
|
correct path to the directory than holds your toolchain binaries.
|
|
|
|
And then build NuttX by simply typing the following. At the conclusion of
|
|
the make, the nuttx binary will reside in an ELF file called, simply, nuttx.
|
|
|
|
make
|
|
|
|
The <subdir> that is provided above as an argument to the tools/configure.sh
|
|
must be is one of the following.
|
|
|
|
NOTES:
|
|
|
|
1. These configurations use the mconf-based configuration tool. To
|
|
change any of these configurations using that tool, you should:
|
|
|
|
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
|
see additional README.txt files in the NuttX tools repository.
|
|
|
|
b. Execute 'make menuconfig' in nuttx/ in order to start the
|
|
reconfiguration process.
|
|
|
|
2. Unless stated otherwise, all configurations generate console
|
|
output on UART0 which is available both on the USB virtual COM port
|
|
and on the PWML connector (see the section "Serial Consoles" above).
|
|
|
|
However, the pin usage by the ITEAD TFT shield conflict with the pin
|
|
usage for UART0. In this case you need to switch to USART0 by
|
|
modifying the configuration as follows:
|
|
|
|
Board Selection -> Peripheral
|
|
CONFIG_SAM34_UART0=n : Disable UART0. Can't use with this shield
|
|
CONFIG_SAM34_USART0=y : Enable USART0
|
|
CONFIG_USART0_SERIALDRIVER=y
|
|
|
|
Device Drivers -> Serial
|
|
CONFIG_USART0_SERIAL_CONSOLE=y : Configure the console on USART0
|
|
CONFIG_USART0_RXBUFSIZE=256
|
|
CONFIG_USART0_TXBUFSIZE=256
|
|
CONFIG_USART0_BAUD=115200
|
|
CONFIG_USART0_BITS=8
|
|
CONFIG_USART0_PARITY=0
|
|
CONFIG_USART0_2STOP=0
|
|
|
|
NOTE: USART0 TTL levels are available on COMM 5 (TXD0) and COMM 6 (RXD0).
|
|
|
|
3. Unless otherwise stated, the configurations are setup for
|
|
Linux (or any other POSIX environment like Cygwin under Windows):
|
|
|
|
Build Setup:
|
|
CONFIG_HOST_LINUX=y : Linux or other POSIX environment
|
|
|
|
4. These configurations use the older, OABI, buildroot toolchain. But
|
|
that is easily reconfigured:
|
|
|
|
System Type -> Toolchain:
|
|
CONFIG_ARM_TOOLCHAIN_BUILDROOT=y : Buildroot toolchain
|
|
CONFIG_ARM_TOOLCHAIN_BUILDROOT_OABI=y : Older, OABI toolchain
|
|
|
|
If you want to use the Atmel GCC toolchain, here are the steps to
|
|
do so:
|
|
|
|
Build Setup:
|
|
CONFIG_HOST_WINDOWS=y : Windows
|
|
CONFIG_HOST_CYGWIN=y : Using Cygwin or other POSIX environment
|
|
|
|
System Type -> Toolchain:
|
|
CONFIG_ARM_TOOLCHAIN_GNU_EABI=y : General GCC EABI toolchain under windows
|
|
|
|
This re-configuration should be done before making NuttX or else the
|
|
subsequent 'make' will fail. If you have already attempted building
|
|
NuttX then you will have to 1) 'make distclean' to remove the old
|
|
configuration, 2) 'tools/configure.sh sam3u-ek/ksnh' to start
|
|
with a fresh configuration, and 3) perform the configuration changes
|
|
above.
|
|
|
|
Also, make sure that your PATH variable has the new path to your
|
|
Atmel tools. Try 'which arm-none-eabi-gcc' to make sure that you
|
|
are selecting the right tool.
|
|
|
|
Configuration sub-directories
|
|
-----------------------------
|
|
|
|
nsh:
|
|
This configuration directory will build the NuttShell. See NOTES above.
|
|
|
|
NOTES:
|
|
1. NSH built-in applications are supported. However, there are
|
|
no built-in applications built with the default configuration.
|
|
|
|
Binary Formats:
|
|
CONFIG_BUILTIN=y : Enable support for built-in programs
|
|
|
|
Application Configuration:
|
|
CONFIG_NSH_BUILTIN_APPS=y : Enable starting apps from NSH command line
|
|
|
|
2. By default, this configuration uses UART0 and has support LEDs
|
|
enabled. UART0 output is available on the USB debugging port or
|
|
on pins 0-1 of the PWML connector.
|
|
|
|
This configuration can be modified to use peripherals on the ITEAD
|
|
TFT shield as described below. However, in that case the UART0 and
|
|
LED "L" GPIO pins conflict with the pin usage by the ITEAD TFT
|
|
Shield. In this case you need to switch to USART0 and disable LEDs
|
|
by modifying the configuration as follows:
|
|
|
|
Board Selection -> Peripheral
|
|
CONFIG_SAM34_UART0=n : Disable UART0. Can't use with this shield
|
|
CONFIG_SAM34_USART0=y : Enable USART0
|
|
CONFIG_USART0_SERIALDRIVER=y
|
|
|
|
Device Drivers -> Serial
|
|
CONFIG_USART0_SERIAL_CONSOLE=y : Configure the console on USART0
|
|
CONFIG_USART0_RXBUFSIZE=256
|
|
CONFIG_USART0_TXBUFSIZE=256
|
|
CONFIG_USART0_BAUD=115200
|
|
CONFIG_USART0_BITS=8
|
|
CONFIG_USART0_PARITY=0
|
|
CONFIG_USART0_2STOP=0
|
|
|
|
NOTE: USART0 TTL levels are available on COMM 5 (TXD0) and
|
|
COMM 6 (RXD0)
|
|
|
|
Board Selection -> Board-Specific Options:
|
|
CONFIG_ARCH_LEDS=n : Can't support LEDs with this shield installed
|
|
CONFIG_ARDUINO_ITHEAD_TFT=y : Enable support for the Shield
|
|
|
|
3. If the ITEAD TFT shield is connected to the Arduino Due, then
|
|
support for the SD card slot can be enabled by making the following
|
|
changes to the configuration:
|
|
|
|
NOTE: You cannot use UART0 or LEDs with this ITEAD module. You must
|
|
switch to USART0 and disable LED support as described above.
|
|
|
|
Board Selection -> Board-Specific Options:
|
|
CONFIG_ARDUINO_ITHEAD_TFT=y : Enable support for the Shield
|
|
|
|
File Systems:
|
|
CONFIG_DISABLE_MOUNTPOINT=n : Mountpoint support is needed
|
|
CONFIG_FS_FAT=y : Enable the FAT file system
|
|
CONFIG_FAT_LCNAMES=y : Enable upper/lower case 8.3 file names (Optional, see below)
|
|
CONFIG_FAT_LFN=y : Enable long file named (Optional, see below)
|
|
CONFIG_FAT_MAXFNAME=32 : Maximum supported file name length
|
|
|
|
There are issues related to patents that Microsoft holds on FAT long
|
|
file name technologies. See the top level NOTICE file for further
|
|
details.
|
|
|
|
Device Drivers
|
|
CONFIG_SPI=y : Enable SPI support
|
|
CONFIG_SPI_EXCHANGE=y : The exchange() method is supported
|
|
CONFIG_SPI_BITBANG=y : Enable SPI bit-bang support
|
|
|
|
CONFIG_MMCSD=y : Enable MMC/SD support
|
|
CONFIG_MMCSD_NSLOTS=1 : Only one MMC/SD card slot
|
|
CONFIG_MMCSD_MULTIBLOCK_LIMIT=0 : Should not need to disable multi-block transfers
|
|
CONFIG_MMCSD_HAVE_CARDDETECT=y : I/O1 module as a card detect GPIO
|
|
CONFIG_MMCSD_SPI=y : Use the SPI interface to the MMC/SD card
|
|
CONFIG_MMCSD_SPICLOCK=20000000 : This is a guess for the optimal MMC/SD frequency
|
|
CONFIG_MMCSD_SPIMODE=0 : Mode 0 is required
|
|
|
|
Board Selection -> Common Board Options
|
|
CONFIG_NSH_ARCHINIT=y : Initialize the MMC/SD slot when NSH starts
|
|
CONFIG_NSH_MMCSDSLOTNO=0 : Only one MMC/SD slot, slot 0
|
|
CONFIG_NSH_MMCSDSPIPORTNO=0 : (does not really matter in this case)
|
|
|
|
Application Configuration -> NSH Library
|
|
CONFIG_NSH_ARCHINIT=y : Board has architecture-specific initialization
|
|
|
|
STATUS:
|
|
2013-7-2: SD card is not responding. All 0's received on SPI.
|
|
|
|
3. This configuration has been used for verifying the touchscreen on
|
|
on the ITEAD TFT Shield. With the modifications below, you can
|
|
include the touchscreen test program at apps/examples/touchscreen as
|
|
an NSH built-in application. You can enable the touchscreen and test
|
|
by modifying the default configuration in the following ways:
|
|
|
|
NOTE: You cannot use UART0 or LEDs with this ITEAD module. You must
|
|
switch to USART0 and disable LED support as described above.
|
|
|
|
Board Selection -> Board-Specific Options:
|
|
CONFIG_ARDUINO_ITHEAD_TFT=y : Enable support for the Shield
|
|
|
|
Device Drivers
|
|
CONFIG_SPI=y : Enable SPI support
|
|
CONFIG_SPI_EXCHANGE=y : The exchange() method is supported
|
|
CONFIG_SPI_BITBANG=y : Enable SPI bit-bang support
|
|
|
|
CONFIG_INPUT=y : Enable support for input devices
|
|
CONFIG_INPUT_ADS7843E=y : Enable support for the XPT2046
|
|
CONFIG_ADS7843E_SPIDEV=0 : (Doesn't matter)
|
|
CONFIG_ADS7843E_SPIMODE=0 : Use SPI mode 0
|
|
CONFIG_ADS7843E_FREQUENCY=1000000 : SPI BAUD 1MHz
|
|
CONFIG_ADS7843E_SWAPXY=y : If landscape orientation
|
|
CONFIG_ADS7843E_THRESHX=51 : These will probably need to be tuned
|
|
CONFIG_ADS7843E_THRESHY=39
|
|
|
|
System Type:
|
|
CONFIG_SAM34_GPIO_IRQ=y : GPIO interrupt support
|
|
CONFIG_SAM34_GPIOC_IRQ=y : Enable GPIO interrupts from port C
|
|
|
|
Library Support:
|
|
CONFIG_SCHED_WORKQUEUE=y : Work queue support required
|
|
|
|
Application Configuration:
|
|
CONFIG_EXAMPLES_TOUCHSCREEN=y : Enable the touchscreen built-int test
|
|
|
|
Defaults should be okay for related touchscreen settings. Touchscreen
|
|
debug output on USART0 can be enabled with:
|
|
|
|
Build Setup:
|
|
CONFIG_DEBUG_FEATURES=y : Enable debug features
|
|
CONFIG_DEBUG_INFO=y : Enable verbose debug output
|
|
CONFIG_DEBUG_INPUT=y : Enable debug output from input devices
|
|
|
|
STATUS:
|
|
2013-7-2: TSC is not responding. All 0's received on SPI.
|
|
|
|
nsh-leds:
|
|
This configuration directory will build the NuttX Shell and enable the user
|
|
LEDS (/dev/userleds). It will also enable the LED example program (leds).
|
|
Running the leds command will start up an LED daemon which will light up the
|
|
L (user), TX, and RX LEDs in a binary sequence.
|