865 lines
34 KiB
Plaintext
865 lines
34 KiB
Plaintext
README
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^^^^^^
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README for NuttX port to the Embedded Artists' base board with the NXP
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the LPCXpresso daughter board.
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Contents
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^^^^^^^^
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LCPXpresso LPC1768 Board
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Embedded Artist's Base Board
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Development Environment
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GNU Toolchain Options
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NuttX EABI "buildroot" Toolchain
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NuttX OABI "buildroot" Toolchain
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NXFLAT Toolchain
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Code Red IDE
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LEDs
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LPCXpresso Configuration Options
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Configurations
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LCPXpresso LPC1768 Board
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^^^^^^^^^^^^^^^^^^^^^^^^
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Pin Description Connector On Board Base Board
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-------------------------------- --------- -------------- ---------------------
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P0[0]/RD1/TXD3/SDA1 J6-9 I2C E2PROM SDA TXD3/SDA1
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P0[1]/TD1/RXD3/SCL J6-10 RXD3/SCL1
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P0[2]/TXD0/AD0[7] J6-21
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P0[3]/RXD0/AD0[6] J6-22
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P0[4]/I2SRX-CLK/RD2/CAP2.0 J6-38 CAN_RX2
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P0[5]/I2SRX-WS/TD2/CAP2.1 J6-39 CAN_TX2
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P0[6]/I2SRX_SDA/SSEL1/MAT2[0] J6-8 SSEL1, OLED CS
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P0[7]/I2STX_CLK/SCK1/MAT2[1] J6-7 SCK1, OLED SCK
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P0[8]/I2STX_WS/MISO1/MAT2[2] J6-6 MISO1
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P0[9]/I2STX_SDA/MOSI1/MAT2[3] J6-5 MOSI1, OLED data in
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P0[10] J6-40 TXD2/SDA2
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P0[11] J6-41 RXD2/SCL2
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P0[15]/TXD1/SCK0/SCK J6-13 TXD1/SCK0
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P0[16]/RXD1/SSEL0/SSEL J6-14 RXD1/SSEL0
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P0[17]/CTS1/MISO0/MISO J6-12 MISO0
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P0[18]/DCD1/MOSI0/MOSI J6-11 MOSI0
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P0[19]/DSR1/SDA1 PAD17 N/A
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P0[20]/DTR1/SCL1 PAD18 I2C E2PROM SCL N/A
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P0[21]/RI1/MCIPWR/RD1 J6-23
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P0[22]/RTS1/TD1 J6-24 LED
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P0[23]/AD0[0]/I2SRX_CLK/CAP3[0] J6-15 AD0.0
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P0[24]/AD0[1]/I2SRX_WS/CAP3[1] J6-16 AD0.1
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P0[25]/AD0[2]/I2SRX_SDA/TXD3 J6-17 AD0.2
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P0[26]/AD0[3]/AOUT/RXD3 J6-18 AD0.3/AOUT / RGB LED
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P0[27]/SDA0/USB_SDA J6-25
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P0[28]/SCL0 J6-26
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P0[29]/USB_D+ J6-37 USB_D+
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P0[30]/USB_D- J6-36 USB_D-
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P1[0]/ENET-TXD0 J6-34? TXD0 TX-(Ethernet PHY)
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P1[1]/ENET_TXD1 J6-35? TXD1 TX+(Ethernet PHY)
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P1[4]/ENET_TX_EN TXEN N/A
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P1[8]/ENET_CRS CRS_DV/MODE2 N/A
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P1[9]/ENET_RXD0 J6-32? RXD0/MODE0 RD-(Ethernet PHY)
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P1[10]/ENET_RXD1 J6-33? RXD1/MODE1 RD+(Ethernet PHY)
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P1[14]/ENET_RX_ER RXER/PHYAD0 N/A
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P1[15]/ENET_REF_CLK REFCLK N/A
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P1[16]/ENET_MDC MDC N/A
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P1[17]/ENET_MDIO MDIO N/A
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P1[18]/USB_UP_LED/PWM1[1]/CAP1[0] PAD1 N/A
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P1[19]/MC0A/USB_PPWR/N_CAP1.1 PAD2 N/A
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P1[20]/MCFB0/PWM1.2/SCK0 PAD3 N/A
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P1[21]/MCABORT/PWM1.3/SSEL0 PAD4 N/A
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P1[22]/MC0B/USB-PWRD/MAT1.0 PAD5 N/A
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P1[23]/MCFB1/PWM1.4/MISO0 PAD6 N/A
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P1[24]/MCFB2/PWM1.5/MOSI0 PAD7 N/A
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P1[25]/MC1A/MAT1.1 PAD8 N/A
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P1[26]/MC1B/PWM1.6/CAP0.0 PAD9 N/A
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P1[27]/CLKOUT/USB-OVRCR-N/CAP0.1 PAD10 N/A
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P1[28]/MC2A/PCAP1.0/MAT0.0 PAD11 N/A
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P1[29]/MC2B/PCAP1.1/MAT0.1 PAD12 N/A
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P1[30]/VBUS/AD0[4] J6-19 AD0.4
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P1[31]/SCK1/AD0[5] J6-20 AD0.5
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P2[0]/PWM1.1/TXD1 J6-42 PWM1.1 / RGB LED / RS422 RX
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P2[1]/PWM1.2/RXD1 J6-43 PWM1.2 / OLED voltage / RGB LED
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P2[2]/PWM1.3/CTS1/TRACEDATA[3] J6-44 PWM1.3
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P2[3]/PWM1.4/DCD1/TRACEDATA[2] J6-45 PWM1.4
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P2[4]/PWM1.5/DSR1/TRACEDATA[1] J6-46 PWM1.5
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P2[5]/PWM1[6]/DTR1/TRACEDATA[0] J6-47 PWM1.6
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P2[6]/PCAP1[0]/RI1/TRACECLK J6-48
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P2[7]/RD2/RTS1 J6-49 OLED command/data
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P2[8]/TD2/TXD2 J6-50
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P2[9]/USB_CONNECT/RXD2 PAD19 USB Pullup N/A
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P2[10]/EINT0/NMI J6-51
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P2[11]/EINT1/I2STX_CLK J6-52
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P2[12]/EINT2/I2STX_WS j6-53
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P2[13]/EINT3/I2STX_SDA J6-27
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P3[25]/MAT0.0/PWM1.2 PAD13 N/A
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P3[26]/STCLK/MAT0.1/PWM1.3 PAD14 N/A
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P4[28]/RX-MCLK/MAT2.0/TXD3 PAD15 N/A
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P4[29]/TX-MCLK/MAT2.1/RXD3 PAD16 N/A
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Embedded Artist's Base Board
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Jumpers
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-------
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There are many jumpers on the base board. A usable combination is the
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default jumper settings WITH the two J54 jumpers both removed. Those
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jumpers are for ISP support and will cause the board to reset.
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To use the SD, J55 must be set to provide chip select PIO1_11 signal as
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the SD slot chip select.
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SD Slot
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-------
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Base-board J4/J6 LPC1768
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SD Signal Pin Pin
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--- ----------- ----- --------
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CS PIO1_11* 55 P2.2
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DIN PIO0_9-MOSI 5 P0.9 MOSI1
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DOUT PIO0_8-MISO 6 P0.8 MISO1
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CLK PIO2_11-SCK 7 P0.9 SCK1
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CD PIO2_10 52 P2.11
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These jumper settings are required:
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*J55 must be set to provide chip select PIO1_11 signal as the SD slot
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chip select.
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USB Device
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----------
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Base-board J4/J6 LPC1768
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Signal Pin Pin
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------------------- ----- --------
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PIO0_6-USB_CONNECT* 23 P0.21
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USB_DM 36 USB_D-
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USB_DP 37 USB_D+
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PIO0_3-VBUS_SENSE** 39 P0.5
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These jumper settings are listed for information only. They are *not*
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required for use with NuttX and LPCXpresso. The configurable pins
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(P0.21 and P0.5) are not used!
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*J14 must be set to permit GPIO control of the USB connect pin
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**J12 must be set to permit GPIO control of the USB vbus sense pin
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J23 is associated the LEDs used for USB support
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Here is a more detailed pin mapping:
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---------------------------------------------+------+-----------------------------------------------
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LPCXpresso | J4/6 | Base Board
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---------------------------------------------| |-----------------------------------------------
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LPC1768 Signal | | Signal Connection
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------------------------------ --------------+------+------------------- ---------------------------
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P0.29/USB-D+ P0[29]/USB-D+ | 37 | USB_DP USB D+
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P0.30/USB-D- P0[30]/USB-D- | 36 | USB_DM USB D-
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P1.18/USB-UP-LED/PWM1.1/CAP1.0 PAD1 | N/A | N/A N/A
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P1.30/VBUS/AD0.4 P1[30] | 19 | PIO1_3 (Not used on board)
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P2.9/USB-CONNECT/RXD2* PAD19 | N/A | N/A N/A
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------------------------------ --------------+------+------------------- ---------------------------
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P0.21/RI1/RD1 P0[21] | 23 | PIO0_6-USB_CONNECT VBUS via J14 and transistor
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P0.5/I2SRX-WS/TD2/CAP2.1 P0[5] | 39 | PIO0_3-VBUS_SENSE VBUS via J12
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------------------------------ --------------+------+------------------- ---------------------------
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*P2.9 connects to a transistor driven USB-D+ pullup on the LPCXpresso board.
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96x64 White OLED with I2C/SPI interface
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---------------------------------------
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The OLED display can be connected either to the SPI-bus or the I2C-bus.
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Jumper Settings:
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- For the SPI interface (default), insert jumpers in J42, J43, J45 pin1-2
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and J46 pin 1-2.
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- For I2C interface, insert jumpers in J45 pin 2-3, J46 pin 2-3 and J47.
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In either case insert a jumper in J44 in order to allow PIO1_10 to control
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the OLED-voltage.
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Jumper Signal Control:
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J42: Short: SPI Open: I2C (Default: inserted)
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J44: Allow control of OLED voltage (Default: inserted)
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PIO1_10-------->J44 ---------->FAN5331
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Common Reset:
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PIO0_0-RESET ---------------> RES#
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J43: Select OLED chip select
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J58: For embed (Default: not inserted)
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PIO0_2--------------->J43 ---->CS#
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PIO2_7--------->J58 ->J43 ---->D/C#
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PIO0_8-MISO --------^
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J45: Select SPI or I2C clock (Default: SPI clock)
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PIO2_11-SCK---->J45 ----------> D0
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PIO0_4-SCL------------^
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J46: Select serial data input (Default: SPI MOSI)
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PIO0_9-MOSI---->J46 ----------> D1
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I2C_SDA---------------^
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J47: Allow I2C bi-directional communications (Default: SPI unidirectional)
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PIO0_5-SDA---->J47 ----------> D2
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LPCXpresso Signals
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----------------------------+-------+-------------- ----------------------------------------
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LPC1758 Pin | J4/6 | Base Board Description
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----------------------------+-------+-------------- ----------------------------------------
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P2.1/PWM1.2/RXD1 | 43 | PIO1_10 FAN5331 Power Control (SHDN#)
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RESET_N | 4 | PIO0_0-RESET OLED reset (RES#) -- Resets EVERYTHING
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P0.6/I2SRX-SDA/SSEL1/MAT2.0 | 8 | PIO0_2 OLED chip select (CS#)
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P2.7/RD2/RTS1 | 49 | PIO2_7 OLED command/data (D/C#)
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P0.7/I2STX-CLK/SCK1/MAT2.1 | 7 | PIO2_11-SCK OLED clock (D0)
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P0.9/I2STX-SDA/MOSI1/MAT2.3 | 5 | PIO0_9-MOSI OLED data in (D1)
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----------------------------+-------+-------------- ----------------------------------------
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Development Environment
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^^^^^^^^^^^^^^^^^^^^^^^
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Either Linux or Cygwin on Windows can be used for the development environment.
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The source has been built only using the GNU toolchain (see below). Other
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toolchains will likely cause problems. Testing was performed using the Cygwin
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environment.
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GNU Toolchain Options
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^^^^^^^^^^^^^^^^^^^^^
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The NuttX make system has been modified to support the following different
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toolchain options.
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1. The Code Red GNU toolchain
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2. The CodeSourcery GNU toolchain,
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3. The devkitARM GNU toolchain,
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4. The NuttX buildroot Toolchain (see below).
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All testing has been conducted using the Code Red toolchain and the
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make system is setup to default to use the Code Red Linux toolchain. To use
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the other toolchain, you simply need add one of the following configuration
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options to your .config (or defconfig) file:
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CONFIG_ARMV7M_TOOLCHAIN_CODESOURCERYW=y : CodeSourcery under Windows
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CONFIG_ARMV7M_TOOLCHAIN_CODESOURCERYL=y : CodeSourcery under Linux
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CONFIG_ARMV7M_TOOLCHAIN_DEVKITARM=y : devkitARM under Windows
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CONFIG_ARMV7M_TOOLCHAIN_BUILDROOT=y : NuttX buildroot under Linux or Cygwin (default)
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CONFIG_ARMV7M_TOOLCHAIN_CODEREDW=n : Code Red toolchain under Windows
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CONFIG_ARMV7M_TOOLCHAIN_CODEREDL=y : Code Red toolchain under Linux
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You may also have to modify the PATH in the setenv.h file if your make cannot
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find the tools.
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NOTE: the CodeSourcery (for Windows), devkitARM, and Code Red (for Windoes)
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are Windows native toolchains. The CodeSourcey (for Linux), Code Red (for Linux)
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and NuttX buildroot toolchains are Cygwin and/or Linux native toolchains. There
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are several limitations to using a Windows based toolchain in a Cygwin
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environment. The three biggest are:
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1. The Windows toolchain cannot follow Cygwin paths. Path conversions are
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performed automatically in the Cygwin makefiles using the 'cygpath' utility
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but you might easily find some new path problems. If so, check out 'cygpath -w'
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2. Windows toolchains cannot follow Cygwin symbolic links. Many symbolic links
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are used in Nuttx (e.g., include/arch). The make system works around these
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problems for the Windows tools by copying directories instead of linking them.
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But this can also cause some confusion for you: For example, you may edit
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a file in a "linked" directory and find that your changes had no effect.
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That is because you are building the copy of the file in the "fake" symbolic
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directory. If you use a Windows toolchain, you should get in the habit of
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making like this:
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make clean_context all
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An alias in your .bashrc file might make that less painful.
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3. Dependencies are not made when using Windows versions of the GCC. This is
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because the dependencies are generated using Windows pathes which do not
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work with the Cygwin make.
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MKDEP = $(TOPDIR)/tools/mknulldeps.sh
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NOTE 1: The CodeSourcery toolchain (2009q1) does not work with default optimization
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level of -Os (See Make.defs). It will work with -O0, -O1, or -O2, but not with
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-Os.
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NOTE 2: The devkitARM toolchain includes a version of MSYS make. Make sure that
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the paths to Cygwin's /bin and /usr/bin directories appear BEFORE the devkitARM
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path or will get the wrong version of make.
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Code Red IDE
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^^^^^^^^^^^^
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NuttX is built using command-line make. It can be used with an IDE, but some
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effort will be required to create the project.
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Makefile Build
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--------------
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Under Linux Eclipse, it is pretty easy to set up an "empty makefile project" and
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simply use the NuttX makefile to build the system. That is almost for free
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under Linux. Under Windows, you will need to set up the "Cygwin GCC" empty
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makefile project in order to work with Windows (Google for "Eclipse Cygwin" -
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there is a lot of help on the internet).
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Native Build
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------------
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Here are a few tips before you start that effort:
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1) Select the toolchain that you will be using in your .config file
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2) Start the NuttX build at least one time from the Cygwin command line
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before trying to create your project. This is necessary to create
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certain auto-generated files and directories that will be needed.
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3) Set up include pathes: You will need include/, arch/arm/src/lpc17xx,
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arch/arm/src/common, arch/arm/src/armv7-m, and sched/.
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4) All assembly files need to have the definition option -D __ASSEMBLY__
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on the command line.
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Startup files will probably cause you some headaches. The NuttX startup file
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is arch/arm/src/lpc17x/lpc17_vectors.S.
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|
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Using Code Red GNU Tools from Cygwin
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------------------------------------
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Under Cygwin, the Code Red command line tools (e.g., arm-non-eabi-gcc) cannot
|
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be executed because the they only have execut privileges for Administrators. I
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worked around this by:
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Opening a native Cygwin RXVT as Administrator (Right click, "Run as administrator"),
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then executing 'chmod 755 *.exe' in the following directories:
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/cygdrive/c/nxp/lpcxpreeso_3.6/bin, and
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/cygdrive/c/nxp/lpcxpreeso_3.6/Tools/bin
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Command Line Flash Programming
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------------------------------
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If using LPCLink as your debug connection, first of all boot the LPC-Link using
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the script:
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bin\Scripts\bootLPCXpresso type
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where type = winusb for Windows XP, or type = hid for Windows Vista / 7.
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Now run the flash programming utility with the following options
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flash_utility wire -ptarget -flash-load[-exec]=filename [-load-base=base_address]
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Where flash_utility is one of:
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crt_emu_lpc11_13 (for LPC11xx or LPC13xx parts)
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crt_emu_cm3_nxp (for LPC17xx parts)
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crt_emu_a7_nxp (for LPC21/22/23/24 parts)
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crt_emu_a9_nxp (for LPC31/32 and LPC29xx parts)
|
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crt_emu_cm3_lmi (for TI Stellaris parts)
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wire is one of:
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(empty) (for Red Probe+, Red Probe, RDB1768v1, or TI Stellaris evaluation boards)
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-wire=hid (for RDB1768v2 without upgraded firmware)
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-wire=winusb (for RDB1768v2 with upgraded firmware)
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-wire=winusb (for LPC-Link on Windows XP)
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-wire=hid (for LPC-Link on Windows Vista/ Windows 7)
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target is the target chip name. For example LPC1343, LPC1114/301, LPC1768 etc.
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filename is the file to flash program. It may be an executable (axf) or a binary
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(bin) file. If using a binary file, the base_address must be specified.
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base_address is the base load address when flash programming a binary file. It
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should be specified as a hex value with a leading 0x.
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Note:
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- flash-load will leave the processor in a stopped state
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- flash-load-exec will start execution of application as soon as download has
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completed.
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Examples
|
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To load the executable file app.axf and start it executing on an LPC1758
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target using Red Probe, use the following command line:
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crt_emu_cm3_nxp -pLPC1758 -flash-load-exec=app.axf
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To load the binary file binary.bin to address 0x1000 to an LPC1343 target
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using LPC-Link on Windows XP, use the following command line:
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crt_emu_lpc11_13_nxp -wire=hid -pLPC1343 -flash-load=binary.bin -load-base=0x1000
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|
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tools/flash.sh
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--------------
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All of the above steps are automated in the bash script flash.sh that can
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be found in the configs/lpcxpresso/tools directory.
|
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|
|
NuttX EABI "buildroot" Toolchain
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
A GNU GCC-based toolchain is assumed. The files */setenv.sh should
|
|
be modified to point to the correct path to the Cortex-M3 GCC toolchain (if
|
|
different from the default in your PATH variable).
|
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|
|
If you have no Cortex-M3 toolchain, one can be downloaded from the NuttX
|
|
SourceForge download site (https://sourceforge.net/projects/nuttx/files/).
|
|
This GNU toolchain builds and executes in the Linux or Cygwin environment.
|
|
|
|
1. You must have already configured Nuttx in <some-dir>/nuttx.
|
|
|
|
cd tools
|
|
./configure.sh lpcxpresso-lpc1768/<sub-dir>
|
|
|
|
2. Download the latest buildroot package into <some-dir>
|
|
|
|
3. unpack the buildroot tarball. The resulting directory may
|
|
have versioning information on it like buildroot-x.y.z. If so,
|
|
rename <some-dir>/buildroot-x.y.z to <some-dir>/buildroot.
|
|
|
|
4. cd <some-dir>/buildroot
|
|
|
|
5. cp configs/cortexm3-eabi-defconfig-4.6.3 .config
|
|
|
|
6. make oldconfig
|
|
|
|
7. make
|
|
|
|
8. Edit setenv.h, if necessary, so that the PATH variable includes
|
|
the path to the newly built binaries.
|
|
|
|
See the file configs/README.txt in the buildroot source tree. That has more
|
|
details PLUS some special instructions that you will need to follow if you
|
|
are building a Cortex-M3 toolchain for Cygwin under Windows.
|
|
|
|
NOTE: Unfortunately, the 4.6.3 EABI toolchain is not compatible with the
|
|
the NXFLAT tools. See the top-level TODO file (under "Binary loaders") for
|
|
more information about this problem. If you plan to use NXFLAT, please do not
|
|
use the GCC 4.6.3 EABI toochain; instead use the GCC 4.3.3 OABI toolchain.
|
|
See instructions below.
|
|
|
|
NuttX OABI "buildroot" Toolchain
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
The older, OABI buildroot toolchain is also available. To use the OABI
|
|
toolchain:
|
|
|
|
1. When building the buildroot toolchain, either (1) modify the cortexm3-eabi-defconfig-4.6.3
|
|
configuration to use EABI (using 'make menuconfig'), or (2) use an exising OABI
|
|
configuration such as cortexm3-defconfig-4.3.3
|
|
|
|
2. Modify the Make.defs file to use the OABI conventions:
|
|
|
|
+CROSSDEV = arm-nuttx-elf-
|
|
+ARCHCPUFLAGS = -mtune=cortex-m3 -march=armv7-m -mfloat-abi=soft
|
|
+NXFLATLDFLAGS2 = $(NXFLATLDFLAGS1) -T$(TOPDIR)/binfmt/libnxflat/gnu-nxflat-gotoff.ld -no-check-sections
|
|
-CROSSDEV = arm-nuttx-eabi-
|
|
-ARCHCPUFLAGS = -mcpu=cortex-m3 -mthumb -mfloat-abi=soft
|
|
-NXFLATLDFLAGS2 = $(NXFLATLDFLAGS1) -T$(TOPDIR)/binfmt/libnxflat/gnu-nxflat-pcrel.ld -no-check-sections
|
|
|
|
NXFLAT Toolchain
|
|
^^^^^^^^^^^^^^^^
|
|
|
|
If you are *not* using the NuttX buildroot toolchain and you want to use
|
|
the NXFLAT tools, then you will still have to build a portion of the buildroot
|
|
tools -- just the NXFLAT tools. The buildroot with the NXFLAT tools can
|
|
be downloaded from the NuttX SourceForge download site
|
|
(https://sourceforge.net/projects/nuttx/files/).
|
|
|
|
This GNU toolchain builds and executes in the Linux or Cygwin environment.
|
|
|
|
1. You must have already configured Nuttx in <some-dir>/nuttx.
|
|
|
|
cd tools
|
|
./configure.sh lpcxpresso-lpc1768/<sub-dir>
|
|
|
|
2. Download the latest buildroot package into <some-dir>
|
|
|
|
3. unpack the buildroot tarball. The resulting directory may
|
|
have versioning information on it like buildroot-x.y.z. If so,
|
|
rename <some-dir>/buildroot-x.y.z to <some-dir>/buildroot.
|
|
|
|
4. cd <some-dir>/buildroot
|
|
|
|
5. cp configs/cortexm3-defconfig-nxflat .config
|
|
|
|
6. make oldconfig
|
|
|
|
7. make
|
|
|
|
8. Edit setenv.h, if necessary, so that the PATH variable includes
|
|
the path to the newly builtNXFLAT binaries.
|
|
|
|
LEDs
|
|
^^^^
|
|
|
|
If CONFIG_ARCH_LEDS is defined, then support for the LPCXpresso LEDs will be
|
|
included in the build. See:
|
|
|
|
- configs/lpcxpresso-lpc1768/include/board.h - Defines LED constants, types and
|
|
prototypes the LED interface functions.
|
|
|
|
- configs/lpcxpresso-lpc1768/src/lpcxpresso_internal.h - GPIO settings for the LEDs.
|
|
|
|
- configs/lpcxpresso-lpc1768/src/up_leds.c - LED control logic.
|
|
|
|
The LPCXpresso LPC1768 has a single LEDs (there are more on the Embedded Artists
|
|
base board, but those are not controlled by NuttX). Usage this single LED by NuttX
|
|
is as follows:
|
|
|
|
- The LED is not illuminated until the LPCXpresso completes initialization.
|
|
|
|
If the LED is stuck in the OFF state, this means that the LPCXpresso did not
|
|
complete initializeation.
|
|
|
|
- Each time the OS enters an interrupt (or a signal) it will turn the LED OFF and
|
|
restores its previous stated upon return from the interrupt (or signal).
|
|
|
|
The normal state, after initialization will be a dull glow. The brightness of
|
|
the glow will be inversely related to the proportion of time spent within interrupt
|
|
handling logic. The glow may decrease in brightness when the system is very
|
|
busy handling device interrupts and increase in brightness as the system becomes
|
|
idle.
|
|
|
|
Stuck in the OFF state suggests that that the system never completed
|
|
initialization; Stuck in the ON state would indicated that the system
|
|
intialialized, but is not takint interrupts.
|
|
|
|
- If a fatal assertion or a fatal unhandled exception occurs, the LED will flash
|
|
strongly as a slow, 2Hz rate.
|
|
|
|
LPCXpresso Configuration Options
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
General Architecture Settings:
|
|
|
|
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=lpc17xx
|
|
|
|
CONFIG_ARCH_CHIP_name - For use in C code to identify the exact
|
|
chip:
|
|
|
|
CONFIG_ARCH_CHIP_LPC1768=y
|
|
|
|
CONFIG_ARCH_BOARD - Identifies the configs subdirectory and
|
|
hence, the board that supports the particular chip or SoC.
|
|
|
|
CONFIG_ARCH_BOARD=lpcxpresso-lpc1768
|
|
|
|
CONFIG_ARCH_BOARD_name - For use in C code
|
|
|
|
CONFIG_ARCH_BOARD_LPCEXPRESSO=y
|
|
|
|
CONFIG_ARCH_LOOPSPERMSEC - Must be calibrated for correct operation
|
|
of delay loops
|
|
|
|
CONFIG_ENDIAN_BIG - define if big endian (default is little
|
|
endian)
|
|
|
|
CONFIG_RAM_SIZE - Describes the installed DRAM (CPU SRAM in this case):
|
|
|
|
CONFIG_RAM_SIZE=(32*1024) (32Kb)
|
|
|
|
There is an additional 32Kb of SRAM in AHB SRAM banks 0 and 1.
|
|
|
|
CONFIG_RAM_START - The start address of installed DRAM
|
|
|
|
CONFIG_RAM_START=0x10000000
|
|
|
|
CONFIG_ARCH_IRQPRIO - The LPC17xx supports interrupt prioritization
|
|
|
|
CONFIG_ARCH_IRQPRIO=y
|
|
|
|
CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to boards that
|
|
have LEDs
|
|
|
|
CONFIG_ARCH_INTERRUPTSTACK - This architecture supports an interrupt
|
|
stack. If defined, this symbol is the size of the interrupt
|
|
stack in bytes. If not defined, the user task stacks will be
|
|
used during interrupt handling.
|
|
|
|
CONFIG_ARCH_STACKDUMP - Do stack dumps after assertions
|
|
|
|
CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to board architecture.
|
|
|
|
CONFIG_ARCH_CALIBRATION - Enables some build in instrumentation that
|
|
cause a 100 second delay during boot-up. This 100 second delay
|
|
serves no purpose other than it allows you to calibratre
|
|
CONFIG_ARCH_LOOPSPERMSEC. You simply use a stop watch to measure
|
|
the 100 second delay then adjust CONFIG_ARCH_LOOPSPERMSEC until
|
|
the delay actually is 100 seconds.
|
|
|
|
Individual subsystems can be enabled:
|
|
CONFIG_LPC17_MAINOSC=y
|
|
CONFIG_LPC17_PLL0=y
|
|
CONFIG_LPC17_PLL1=n
|
|
CONFIG_LPC17_ETHERNET=n
|
|
CONFIG_LPC17_USBHOST=n
|
|
CONFIG_LPC17_USBOTG=n
|
|
CONFIG_LPC17_USBDEV=n
|
|
CONFIG_LPC17_UART0=y
|
|
CONFIG_LPC17_UART1=n
|
|
CONFIG_LPC17_UART2=n
|
|
CONFIG_LPC17_UART3=n
|
|
CONFIG_LPC17_CAN1=n
|
|
CONFIG_LPC17_CAN2=n
|
|
CONFIG_LPC17_SPI=n
|
|
CONFIG_LPC17_SSP0=n
|
|
CONFIG_LPC17_SSP1=n
|
|
CONFIG_LPC17_I2C0=n
|
|
CONFIG_LPC17_I2C1=n
|
|
CONFIG_LPC17_I2S=n
|
|
CONFIG_LPC17_TMR0=n
|
|
CONFIG_LPC17_TMR1=n
|
|
CONFIG_LPC17_TMR2=n
|
|
CONFIG_LPC17_TMR3=n
|
|
CONFIG_LPC17_RIT=n
|
|
CONFIG_LPC17_PWM0=n
|
|
CONFIG_LPC17_MCPWM=n
|
|
CONFIG_LPC17_QEI=n
|
|
CONFIG_LPC17_RTC=n
|
|
CONFIG_LPC17_WDT=n
|
|
CONFIG_LPC17_ADC=n
|
|
CONFIG_LPC17_DAC=n
|
|
CONFIG_LPC17_GPDMA=n
|
|
CONFIG_LPC17_FLASH=n
|
|
|
|
LPC17xx specific device driver settings
|
|
|
|
CONFIG_UARTn_SERIAL_CONSOLE - selects the UARTn for the
|
|
console and ttys0 (default is the UART0).
|
|
CONFIG_UARTn_RXBUFSIZE - Characters are buffered as received.
|
|
This specific the size of the receive buffer
|
|
CONFIG_UARTn_TXBUFSIZE - Characters are buffered before
|
|
being sent. This specific the size of the transmit buffer
|
|
CONFIG_UARTn_BAUD - The configure BAUD of the UART. Must be
|
|
CONFIG_UARTn_BITS - The number of bits. Must be either 7 or 8.
|
|
CONFIG_UARTn_PARTIY - 0=no parity, 1=odd parity, 2=even parity
|
|
CONFIG_UARTn_2STOP - Two stop bits
|
|
|
|
LPC17xx specific CAN device driver settings. These settings all
|
|
require CONFIG_CAN:
|
|
|
|
CONFIG_CAN_EXTID - Enables support for the 29-bit extended ID. Default
|
|
Standard 11-bit IDs.
|
|
CONFIG_CAN1_BAUD - CAN1 BAUD rate. Required if CONFIG_LPC17_CAN1 is defined.
|
|
CONFIG_CAN2_BAUD - CAN1 BAUD rate. Required if CONFIG_LPC17_CAN2 is defined.
|
|
CONFIG_CAN1_DIVISOR - CAN1 is clocked at CCLK divided by this number.
|
|
(the CCLK frequency is divided by this number to get the CAN clock).
|
|
Options = {1,2,4,6}. Default: 4.
|
|
CONFIG_CAN2_DIVISOR - CAN2 is clocked at CCLK divided by this number.
|
|
(the CCLK frequency is divided by this number to get the CAN clock).
|
|
Options = {1,2,4,6}. Default: 4.
|
|
CONFIG_CAN_TSEG1 - The number of CAN time quanta in segment 1. Default: 6
|
|
CONFIG_CAN_TSEG2 = the number of CAN time quanta in segment 2. Default: 7
|
|
|
|
LPC17xx specific PHY/Ethernet device driver settings. These setting
|
|
also require CONFIG_NET and CONFIG_LPC17_ETHERNET.
|
|
|
|
CONFIG_ETH0_PHY_KS8721 - Selects Micrel KS8721 PHY
|
|
CONFIG_PHY_AUTONEG - Enable auto-negotion
|
|
CONFIG_PHY_SPEED100 - Select 100Mbit vs. 10Mbit speed.
|
|
CONFIG_PHY_FDUPLEX - Select full (vs. half) duplex
|
|
|
|
CONFIG_NET_EMACRAM_SIZE - Size of EMAC RAM. Default: 16Kb
|
|
CONFIG_NET_NTXDESC - Configured number of Tx descriptors. Default: 18
|
|
CONFIG_NET_NRXDESC - Configured number of Rx descriptors. Default: 18
|
|
CONFIG_NET_PRIORITY - Ethernet interrupt priority. The is default is
|
|
the higest priority.
|
|
CONFIG_NET_WOL - Enable Wake-up on Lan (not fully implemented).
|
|
CONFIG_NET_REGDEBUG - Enabled low level register debug. Also needs
|
|
CONFIG_DEBUG.
|
|
CONFIG_NET_DUMPPACKET - Dump all received and transmitted packets.
|
|
Also needs CONFIG_DEBUG.
|
|
CONFIG_NET_HASH - Enable receipt of near-perfect match frames.
|
|
CONFIG_NET_MULTICAST - Enable receipt of multicast (and unicast) frames.
|
|
Automatically set if CONFIG_NET_IGMP is selected.
|
|
|
|
LPC17xx USB Device Configuration
|
|
|
|
CONFIG_LPC17_USBDEV_FRAME_INTERRUPT
|
|
Handle USB Start-Of-Frame events.
|
|
Enable reading SOF from interrupt handler vs. simply reading on demand.
|
|
Probably a bad idea... Unless there is some issue with sampling the SOF
|
|
from hardware asynchronously.
|
|
CONFIG_LPC17_USBDEV_EPFAST_INTERRUPT
|
|
Enable high priority interrupts. I have no idea why you might want to
|
|
do that
|
|
CONFIG_LPC17_USBDEV_NDMADESCRIPTORS
|
|
Number of DMA descriptors to allocate in SRAM.
|
|
CONFIG_LPC17_USBDEV_DMA
|
|
Enable lpc17xx-specific DMA support
|
|
CONFIG_LPC17_USBDEV_NOVBUS
|
|
Define if the hardware implementation does not support the VBUS signal
|
|
CONFIG_LPC17_USBDEV_NOLED
|
|
Define if the hardware implementation does not support the LED output
|
|
|
|
LPC17xx USB Host Configuration (the LPCXpresso does not support USB Host)
|
|
|
|
CONFIG_USBHOST_OHCIRAM_SIZE
|
|
Total size of OHCI RAM (in AHB SRAM Bank 1)
|
|
CONFIG_USBHOST_NEDS
|
|
Number of endpoint descriptors
|
|
CONFIG_USBHOST_NTDS
|
|
Number of transfer descriptors
|
|
CONFIG_USBHOST_TDBUFFERS
|
|
Number of transfer descriptor buffers
|
|
CONFIG_USBHOST_TDBUFSIZE
|
|
Size of one transfer descriptor buffer
|
|
CONFIG_USBHOST_IOBUFSIZE
|
|
Size of one end-user I/O buffer. This can be zero if the
|
|
application can guarantee that all end-user I/O buffers
|
|
reside in AHB SRAM.
|
|
|
|
Configurations
|
|
^^^^^^^^^^^^^^
|
|
|
|
Each LPCXpresso configuration is maintained in a sub-directory and can be
|
|
selected as follow:
|
|
|
|
cd tools
|
|
./configure.sh lpcxpresso-lpc1768/<subdir>
|
|
cd -
|
|
. ./setenv.sh
|
|
|
|
Where <subdir> is one of the following:
|
|
|
|
dhcpd:
|
|
This builds the DCHP server using the apps/examples/dhcpd application
|
|
(for execution from FLASH.) See apps/examples/README.txt for information
|
|
about the dhcpd example.
|
|
|
|
NOTES:
|
|
|
|
1. This configuration uses the mconf-based configuration tool. To
|
|
change this configurations using that tool, you should:
|
|
|
|
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
|
and misc/tools/
|
|
|
|
b. Execute 'make menuconfig' in nuttx/ in order to start the
|
|
reconfiguration process.
|
|
|
|
2. Jumpers: Nothing special. Use the default base board jumper
|
|
settings.
|
|
|
|
nsh:
|
|
Configures the NuttShell (nsh) located at apps/examples/nsh. The
|
|
Configuration enables both the serial and telnet NSH interfaces.
|
|
|
|
NOTES:
|
|
|
|
1. This configuration uses the mconf-based configuration tool. To
|
|
change this configurations using that tool, you should:
|
|
|
|
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
|
and misc/tools/
|
|
|
|
b. Execute 'make menuconfig' in nuttx/ in order to start the
|
|
reconfiguration process.
|
|
|
|
2. This configuration has been used for testing the microSD card.
|
|
This support is, however, disabled in the base configuration.
|
|
|
|
At last attempt, the SPI-based mircroSD does not work at
|
|
higher fequencies. Setting the SPI frequency to 400000
|
|
removes the problem. There must be some more optimal
|
|
value that could be determined with additional experimetnation.
|
|
|
|
Jumpers: J55 must be set to provide chip select PIO1_11 signal as
|
|
the SD slot chip select.
|
|
|
|
nx:
|
|
And example using the NuttX graphics system (NX). This example
|
|
uses the UG-9664HSWAG01 driver.
|
|
|
|
NOTES:
|
|
|
|
1. This configuration uses the mconf-based configuration tool. To
|
|
change this configurations using that tool, you should:
|
|
|
|
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
|
and misc/tools/
|
|
|
|
b. Execute 'make menuconfig' in nuttx/ in order to start the
|
|
reconfiguration process.
|
|
|
|
2. Jumpers: There are several jumper settings needed by the OLED.
|
|
All are the default settings:
|
|
|
|
J42: Close to select the SPI interface (Default: closed)
|
|
J43: Close to support OLED command/data select (Default: closed)
|
|
J44: Close to allow control of OLED voltage (Default: closed)
|
|
J45: Close to select SPI clock (Default: closed)
|
|
J46: Close SPI data input (MOSI) (Default:closed)
|
|
|
|
thttpd:
|
|
This builds the THTTPD web server example using the THTTPD and
|
|
the apps/examples/thttpd application.
|
|
|
|
NOTES:
|
|
|
|
1. This configuration uses the mconf-based configuration tool. To
|
|
change this configurations using that tool, you should:
|
|
|
|
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
|
and misc/tools/
|
|
|
|
b. Execute 'make menuconfig' in nuttx/ in order to start the
|
|
reconfiguration process.
|
|
|
|
2. You will need to build the NXFLAT toolchain as described above in
|
|
order to use this example.
|
|
|
|
3. Build setup (easily reconfigured):
|
|
|
|
CONFIG_HOST_LINUX=y : Linux
|
|
CONFIG_ARMV7M_TOOLCHAIN_CODEREDL=y : CodeRed for Linux
|
|
|
|
4. Jumpers: Nothing special. Use the default base board jumper
|
|
settings.
|
|
|
|
usbmsc:
|
|
This configuration directory exercises the USB mass storage
|
|
class driver at apps/system/usbmsc. See apps/examples/README.txt
|
|
for more information.
|
|
|
|
NOTES:
|
|
|
|
1. This configuration uses the mconf-based configuration tool. To
|
|
change this configurations using that tool, you should:
|
|
|
|
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
|
and misc/tools/
|
|
|
|
b. Execute 'make menuconfig' in nuttx/ in order to start the
|
|
reconfiguration process.
|
|
|
|
2. At present, the value for the SD SPI frequency is too high and the
|
|
SD will fail. Setting that frequency to 400000 removes the problem.
|
|
TODO: Tune this frequency to some optimal value.
|
|
|
|
3. Jumpers: J55 must be set to provide chip select PIO1_11 signal as
|
|
the SD slot chip select.
|
|
|