2015-02-22 15:47:09 +01:00
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configs/pic32mz-starterkit README
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===============================
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This README file discusses the port of NuttX to the Microchip PIC32MZ
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2015-03-01 16:44:44 +01:00
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Embedded Connectivity (EC) Starter Kit.
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Contents
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========
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Port Status
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Board Overview
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On Board Debug Support
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Creating Compatible NuttX HEX files
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2015-03-14 14:50:03 +01:00
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Tool Issues
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2015-03-01 16:44:44 +01:00
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Serial Console
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LEDs
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Configurations
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Port Status
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===========
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As of this writing (2015-03-01), the basic port is complete including
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minimal support for the NuttShell (NSH) over UART1. No testing has yet
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been performed due to seemingly insurmountable debug problems:
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2015-03-22 15:35:36 +01:00
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Thusfar, no one has been successful using NuttX with MPLABX. All
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debug is being performed using a J-Link debugger via some custom
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interconnect boards.
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Patches were provided by Kristopher Tate on 2015-03-21 that support the
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serial console with the NuttShell, completing the basic bring-up.
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2015-03-01 16:44:44 +01:00
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Board Overview
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==============
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There are two configurations of the Microchip PIC32MZ Embedded Connectivity
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(EC) Starter Kit:
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2015-02-22 15:47:09 +01:00
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1) The PIC32MZ Embedded Connectivity Starter Kit based on the
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PIC32MZ2048ECH144-I/PH chip (DM320006), and
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2) The PIC32MZ Embedded Connectivity Starter Kit based on the
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PIC32MZ2048ECM144-I/PH w/Crypto Engine (DM320006-C)
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See www.microchip.com for further information.
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Key features of the PIC32MZ Starter Kit include;
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* On-board crystal or oscillator for precision microcontroller clocking
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(24 MHz).
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* 32 kHz oscillator for RTCC and Timer1 (optional).
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* Three push button switches for user-defined inputs.
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* Three user-defined indicator LEDs.
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* USB Type A receptacle connectivity for PIC32 host-based applications.
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* USB Type micro-AB receptacle for OTG and USB device connectivity for
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PIC32 OTG/device-based applications.
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* Daughter board connectors for flexible Ethernet PHY options.
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* 50 MHz Ethernet PHY oscillator.
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* External 4 GB SQI memory for expanded memory applications.
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* PIC24FJ256GB106 USB microcontroller for on-board debugging.
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* USB connectivity for on-board debugger communications.
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* Regulated +3.3V power supply for powering the starter kit through USB or
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expansion board.
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* Connector for various expansion boards.
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The PIC32MZ starter kit comes complete with a LAN8740 PHY daughter board.
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2015-02-26 22:05:11 +01:00
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Testing was performed with the following additional hardware:
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- Microchip PIC32MZ Embedded Connectivity (EC) Adapter Board (AC320006)
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that allows connection of the PIC32MZEC Starter Kit to the Microchip
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Multimedia Expansion Board (MEB, DM320005) or PIC32 I/O Expansion Board
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(DM320002). These were previously used with the PIC32MX bringup.
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- Microchip Multimedia Expansion Board II (MEB II, DM320005-2).
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2015-02-22 15:47:09 +01:00
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On Board Debug Support
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======================
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The starter kit includes a PIC24FJ256GB106 USB microcontroller that
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provides debugger connectivity over USB. The PIC24FJ256GB106 is hard-wired
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to the PIC32 device to provide protocol translation through the I/O pins
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of the PIC24FJ256GB106 to the ICSP<53> pins of the PIC32 device.
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If MPLAB<41> REAL ICE<43> or MPLAB ICD 3 is used with the starter kit,
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disconnect the onboard debugger from the PIC32 device by removing the
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jumper JP2. When the on-board debugger is required, replace the jumper
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JP2. When the jumper JP2 is installed, pin 1 must be connected to pin 3
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and pin 2 must be connected to pin 4.
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Creating Compatible NuttX HEX files
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===================================
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Intel Hex Format Files:
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-----------------------
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When NuttX is built it will produce two files in the top-level NuttX
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directory:
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1) nuttx - This is an ELF file, and
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2) nuttx.hex - This is an Intel Hex format file. This is controlled by
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the setting CONFIG_INTELHEX_BINARY in the .config file.
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The PICkit tool wants an Intel Hex format file to burn into FLASH. However,
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there is a problem with the generated nutt.hex: The tool expects the nuttx.hex
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file to contain physical addresses. But the nuttx.hex file generated from the
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top-level make will have address in the KSEG0 and KSEG1 regions.
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tools/pic32mx/mkpichex:
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----------------------
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There is a simple tool in the NuttX tools/pic32mx directory that can be
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used to solve both issues with the nuttx.hex file. But, first, you must
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build the tool:
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cd tools/pic32mx
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make
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Now you will have an excecutable file call mkpichex (or mkpichex.exe on
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Cygwin). This program will take the nutt.hex file as an input, it will
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convert all of the KSEG0 and KSEG1 addresses to physical address, and
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it will write the modified file, replacing the original nuttx.hex.
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To use this file, you need to do the following things:
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. ./setenv.sh # Source setenv.sh. Among other this, this script
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# will add the NuttX tools/pic32mx directory to your
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# PATH variable
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make # Build nuttx and nuttx.hex
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mkpichex $PWD # Convert addresses in nuttx.hex. $PWD is the path
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# to the top-level build directory. It is the only
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# required input to mkpichex.
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2015-03-14 14:50:03 +01:00
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Tool Issues
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===========
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2015-03-18 14:34:39 +01:00
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Pinquino Toolchain
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------------------
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2015-03-14 14:50:03 +01:00
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If you use the Pinguino toolchain, you will probably see this error:
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C:\pinguino-11\compilers\p32\bin\p32-ld.exe: target elf32-tradlittlemips not found
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This is due to linker differences in the toolchains. The linker script
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at configs/pic32mz-starterkit has:
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OUTPUT_FORMAT("elf32-tradlittlemips")
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This error can be eliminated with the Pinguino toolchain by changing this to:
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OUTPUT_FORMAT("elf32-littlemips")
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2015-03-22 15:35:36 +01:00
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Mentor Toolchain
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----------------
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https://sourcery.mentor.com/GNUToolchain/release2934 tools.
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2015-03-22 23:34:43 +01:00
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If you use this toolchain, you will need to add CROSSDEV=mips-sde-elf- to
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your Make.defs file.
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2015-03-22 15:35:36 +01:00
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2015-03-18 14:34:39 +01:00
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ICD3
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----
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2015-03-22 15:35:36 +01:00
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The onboard debugger is Slow and one is better off using an ICD3. By removing
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jumper JP2, I can disable the on-board OpenHCD debugger an enable the RJ11
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debug connector. My ICD 3 does seems to work properly using this configuration,
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at least in the sense that it is recognized by both MPLABX IDE and IPE.
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2015-03-18 14:34:39 +01:00
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Segger J-Link
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-------------
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If using a Jlink that only these versions work with PIC32:
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J-Link BASE / EDU V9 or later
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J-Link ULTRA+ / PRO V4 or later
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2015-03-22 15:35:36 +01:00
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Oddly, you must use the G version in the command:
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JLinkGDBServer -device PIC32MZ2048ECG144 -if 2-wire-JTAG-PIC32 -speed 12000
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Even though we have PIC32MZ2048ECM144 parts on our board. (JLinkGDBServer
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will except anything and just mess up your weekend)
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2015-02-22 15:47:09 +01:00
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Serial Console
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==============
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2015-03-22 15:35:36 +01:00
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MEB-II
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------
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By default, the UART1 is configured for the pins used by the MEB-II
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2015-03-22 16:24:04 +01:00
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board. The UART1 signals are available at the MEB-II PICTail
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connector:
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--------------- --------- -------------- ------------
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PIC32MZ PIN CONNECTOR MEB-II PIN PICTAIL PIN
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FUNCTION J1 NAME J2
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--------------- --------- -------------- ------------
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RPA14/SCL1/RA14 124 SCL1/TOUCH_SCL 4
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RPA15/SDA1/RA15 126 SDA1/TOUCH_SDA 6
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+3.3V 1,26
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GND 28
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--------------- --------- -------------- ------------
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This pin selection is controlled by these definitions in
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pic32mz-starterkit/include/board.h:
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#define BOARD_U1RX_PPS U1RXR_RPA14
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#define BOARD_U1TX_PPS U1TX_RPA15R
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2015-03-22 15:35:36 +01:00
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2015-03-22 23:34:43 +01:00
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PIC32MX I/O Expansion Board with Adapter Board
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------------------------------------------
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If the MEB-II UART configuration when used with the I/O Expansion board
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(with the adapter), then UART will be on J11 with Pin 35 being U1RX (into
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MZ) and Pin 37 being TU1X (out od MZ).
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2015-03-22 15:35:36 +01:00
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Directly from the Adapter Board
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-------------------------------
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But you can get serial port directly from the PIC32MZ Embedded
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Connectivity (EC) Adapter Board (AC320006). The Microchip
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adapter board brings out UART signals as follows:
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2015-02-26 22:05:11 +01:00
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JP7 redirects J1 U3_TX to either J2 SOSCO/RC14 or U1_TX:
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Adapter
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-----------------------------------------------------------------------
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JP7, Pin 1: J2 Pin 32, SOSCO/RC14
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Pin 2: J1 Pin 17, U3_TX
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Pin 3: J2 Pin 90, U1_TX
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PIC32MZ Starter Kit
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-----------------------------------------------------------------------
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J1 Pin 17, SOSCO/RC14 PIC32MZ SOSCO/RPC14/T1CK/RC14
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RPC14 supports U1RX, U4RX, and U3TX
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JP8 redirects J1 RB3/AN3/SDO4/WIFI_SDI to either J2 AN3/SDO4/WIFI_SDI or U3_RX:
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Adapter PIC32MZ Starter Kit
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---------------------------------------------- -------------------------
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JP8, Pin 1: J2, Pin 66, AN3/SDO4/WIFI_SDI
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Pin 2: J1, Pin 105, RB3/AN3/SDO4/WIFI_SDI
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Pin 3: J2, Pin 88, U3_RX
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PIC32MZ Starter Kit
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-----------------------------------------------------------------------
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J1, Pin 105, AN3/C2INA/RPB3/RB3
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RPB3 supports U3RX, U1TX, and U5TX
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Thus UART1 or UART3 could be used as a serial console if only the
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PIC32MZEC Adapter Board is connected.
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The default serial configuration here in these configurations is UART1
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using RPC14 and RPB3. That UART selection can be change by running 'make
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menuconfig'. The UART pin selections would need to be changed by editing
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configs/pc32mz-starterkit/include/board.h.
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2015-02-22 15:47:09 +01:00
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2015-03-13 13:57:58 +01:00
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If using a AC320006 by itself, JP7 pin 2 and JP8 pin 2 is where you would
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2015-03-22 15:35:36 +01:00
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connect a 3.3 Volt TTL serial interface.
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2015-03-13 13:57:58 +01:00
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For a configuration using UART1 connect:
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TX to AC320006-JP7 pin 2 which is PIC32MZ pin 106 (RPC14) used as U1RX
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RX to AC320006-JP8 pin 2 which is PIC32MZ pin 31 (RPB3)) used as U1TX
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For a configuration using For UART3 connect:
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TX to AC320006-JP8 pin 2 which is PIC32MZ pin 31 (RPB3)) used as U3RX
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RX to AC320006-JP7 pin 2 which is PIC32MZ pin 106 (RPC14) used as U3TX
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If using a AC320006 plugged into a DM320002 then regardless of which UART,
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UART1 or UART3 is configured in software, the jumpers on the AC320006 are
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the same, just the signal directions and UART changes.
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UART1 UART3
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AC320006-JP7 connect pin 2 to pin 3. U1RX U3TX
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AC320006-JP8 connect pin 2 to pin 3. U1TX U3RX
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For the default configuration using UART1 the PIC32MZ pin 106 (RPC14)
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will be configured as U1RX and is tied to the AC320006's JP7 Pin 2.
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2015-03-22 15:35:36 +01:00
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With the jumpers as listed above, once the AC320006 is plugged into
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2015-03-13 13:57:58 +01:00
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the DM320002, the PIC32MZ U1RX will be connected to the DM320002's
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2015-03-22 15:35:36 +01:00
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J11 pin 43. The DM320002's J11 pin 43 should then be connected to
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the TX of a 3.3 volt TTL serial converter such as a FTDI TTL232RG.
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For the FTDI TTL232RG TX is the orange wire.
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2015-03-13 13:57:58 +01:00
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Likewise the PIC32MZ pin 31 (RPB3) will be configured as U1TX and
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2015-03-22 15:35:36 +01:00
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is tied to the AC320006's JP8 Pin 2. With the jumpers as listed above,
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2015-03-13 13:57:58 +01:00
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once the AC320006 is plugged into the DM320002, the PIC32MZ' U1TX will
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be connected to the DM320002's J11 pin 41. The DM320002's J11 pin 41
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2015-03-22 15:35:36 +01:00
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should then be connected to the RX signal of a 3.3 volt TTL serial
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2015-03-13 13:57:58 +01:00
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converter. For the FTDI TTL232RG RX is the yellow wire.
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For the alternate configuration using UART3 the PIC32MZ pin 106 (RPC14)
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will be configured as U3TX and is tied to the AC320006's JP7 Pin 2.
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2015-03-22 15:35:36 +01:00
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With the jumpers as listed above, once the AC320006 is plugged into
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2015-03-13 13:57:58 +01:00
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the DM320002, the PIC32MZ U3TX will be connected to the DM320002's
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2015-03-22 15:35:36 +01:00
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J11 pin 43. The DM320002's J11 pin 43 should then be connected to
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the RX of a 3.3 volt TTL serial converter such as a FTDI TTL232RG.
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2015-03-13 13:57:58 +01:00
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For the FTDI TTL232RG TX is the yellow wire.
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Likewise the PIC32MZ pin 31 (RPB3) will be configured as U3RX and
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2015-03-22 15:35:36 +01:00
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is tied to the AC320006's JP8 Pin 2. With the jumpers as listed above,
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2015-03-13 13:57:58 +01:00
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once the AC320006 is plugged into the DM320002, the PIC32MZ' U3RX will
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be connected to the DM320002's J11 pin 41. The DM320002's J11 pin 41
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2015-03-22 15:35:36 +01:00
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should then be connected to the TX signal of a 3.3 volt TTL serial
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2015-03-13 13:57:58 +01:00
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converter. For the FTDI TTL232RG RX is the orange wire.
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2015-03-22 15:35:36 +01:00
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board.h Header File Changes
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---------------------------
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The board configuration is currently set up to use the Serial console
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on the MEB-II board. If you want to use the adapter board directly,
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you willneed to change pic32mz-starterkit/include/board.h as follows:
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-#define BOARD_U1RX_PPS U1RXR_RPA14
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-#define BOARD_U1TX_PPS U1TX_RPA15R
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+#define BOARD_U1RX_PPS U1RXR_RPC14
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+#define BOARD_U1TX_PPS U1TX_RPB3R
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|
2015-02-22 15:47:09 +01:00
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LEDs and Buttons
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================
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LEDs
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----
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The PIC32MZ Ethernet Starter kit has 3 user LEDs labelled LED1-3 on the
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board:
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PIN LED Notes
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--- ----- -------------------------
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RH0 LED1 High illuminates (RED)
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RH1 LED3 High illuminates (YELLOW)
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RH2 LED2 High illuminates (GREEN)
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If CONFIG_ARCH_LEDS is defined, then NuttX will control these LEDs as
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follows:
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ON OFF
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------------------------- ---- ---- ---- ---- ---- ----
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LED1 LED2 LED3 LED1 LED2 LED3
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------------------------- ---- ---- ---- ---- ---- ----
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LED_STARTED 0 OFF OFF OFF --- --- ---
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LED_HEAPALLOCATE 1 ON OFF N/C --- --- ---
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LED_IRQSENABLED 2 OFF ON N/C --- --- ---
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LED_STACKCREATED 3 ON ON N/C --- --- ---
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LED_INIRQ 4 N/C N/C ON N/C N/C OFF
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LED_SIGNAL 4 N/C N/C ON N/C N/C OFF
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LED_ASSERTION 4 N/C N/C ON N/C N/C OFF
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LED_PANIC 5 ON N/C N/C OFF N/C N/C
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Buttons
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-------
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The PIC32MZ Ethernet Starter kit has 3 user push buttons labelled SW1-3 on
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the board:
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PIN LED Notes
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---- ---- -------------------------
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RB12 SW1 Active-low
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RB13 SW2 Active-low
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RB14 SW3 Active-low
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The switches do not have any debounce circuitry and require internal pull-
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up resistors. When Idle, the switches are pulled high (+3.3V), and they
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are grounded when pressed.
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Configurations
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==============
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Each PIC32MZ configuration is maintained in a sub-directory and can be
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selected as follow:
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cd tools
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./configure.sh pic32mz-starterkit/<subdir>
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cd -
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. ./setenv.sh
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Where <subdir> is one of the following:
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nsh:
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This is the NuttShell (NSH) using the NSH startup logic at
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apps/examples/nsh.
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NOTES:
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1. This configuration uses the mconf-based configuration tool. To
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change this configurations using that tool, you should:
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a. Build and install the kconfig-mconf tool. See nuttx/README.txt
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and misc/tools/
|
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b. Execute 'make menuconfig' in nuttx/ in order to start the
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|
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reconfiguration process.
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2. Serial Output
|
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|
The OS test produces all of its test output on the serial console.
|
2015-03-01 17:52:44 +01:00
|
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|
|
This configuration has UART1 enabled as a serial console. This
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|
|
can easily be changed by reconfiguring with 'make menuconfig'.
|
2015-02-22 17:53:24 +01:00
|
|
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|
|
3. Toolchain
|
|
|
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|
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|
|
By default, the Pinguino MIPs tool chain is used. This toolchain
|
|
|
|
|
selection can easily be changed with 'make menuconfig'.
|
2015-03-01 17:52:44 +01:00
|
|
|
|
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|
|
4. Default configuration: These are other things that you may want to
|
|
|
|
|
change in the configuration:
|
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|
|
CONFIG_ARCH_CHIP_PIC32MZ2048ECM=y : Assumes part with Crypto Engine
|
|
|
|
|
CONFIG_PIC32MZ_DEBUGGER_ENABLE=n : Debugger is disabled
|
|
|
|
|
CONFIG_PIC32MZ_TRACE_ENABLE=n : Trace is disabled
|
|
|
|
|
CONFIG_PIC32MZ_JTAG_ENABLE=n : JTAG is disabled
|