Digilent chipKIT Uno32 참조 매뉴얼 - 페이지 11

{카테고리_이름} Digilent chipKIT Uno32에 대한 참조 매뉴얼을 온라인으로 검색하거나 PDF를 다운로드하세요. Digilent chipKIT Uno32 18 페이지.

chipKIT Uno32 Reference Manual
serial converter. The USB serial converter
brings the DTR pin low to reset the
microcontroller. Jumper JP1 can be used to
enable/disable the ability for the USB serial
converter to initiate a reset.
The P32_RST net is connected to pin 1 of
connector J2. This allows circuitry on a shield
to reset the microcontroller, or to ensure that
the circuitry on the shield is reset at the same
time as the microcontroller.
Connector J8 provides access to the SPI bus.
Pin 5 provides access to the SPI Slave Select
signal (SS).
On Arduino boards, the corresponding
connector is also used as an in-system
programming connector as well as providing
access to some of the SPI signals. On Arduino
boards, pin 5 of this connector is connected to
the reset net.
Some Arduino shields, notably, the Ethernet
shield, connect pin 5 to the reset net on pin 1
of connector J2. This causes the processor to
be reset each time an attempt is made to
access the SPI port. Jumper JP9 can be used
to break the connection between J8 pin 5 and
reset when using Arduino shields that make
this connection. JP9 has a cut-able trace on
the bottom of the board that can be cut to
break the connection between SPI SS and
reset. JP9 is not loaded at the factory. To
restore the connection, solder a two pin header
at the JP9 position and install a shorting block.
A reset button is at the upper left corner of the
board. Pressing this button resets the PIC32
microcontroller.
Microchip Development Tool
Compatibility
In addition to being used with the MPIDE, the
Uno32 board can be used as a more traditional
microcontroller development board using
Microchip Development Tools.
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Unloaded connector JP3 on the left side of the
board is used to connect to a Microchip
development tool, such as the PICkit3™. The
holes for JP3 are staggered so that a standard
100-mil spaced 6-pin header can be press fit to
the board without the need to solder it in place.
Any Microchip development tool that supports
the PIC32 microcontroller family, and can be
connected via the same 6-pin interface as the
PICkit3, can be used.
Typically, a right-angle male connector is used
in JP3 so that a PICkit3 can be attached
coplanar with the Uno32 board. If the
connector is loaded from the top, the PICkit3
will be upright (button and LEDs visible).
Alternatively, the connector can be loaded from
the bottom. In this case, the PICkit3 will be
upside down.
If JP3 is loaded from the top, the PICkit3 will
interfere with the USB connector and the
external power connector. A short six-wire
cable can be used between the PICkit3 and
the Uno32. If JP3 is loaded from the bottom,
the PICkit3 won't interfere with the USB and
external power connectors.
The Digilent PICkit3 Programming Cable Kit
includes all necessary connectors and a cable
for connecting a PICkit3 to the Uno32.
The Microchip MPLAB
IDE can be used to program and debug code
running on the Uno32 board. These programs
can be downloaded from the Microchip web
site.
Using the Microchip development tools to
program the Uno32 board will cause the boot
loader to be erased. To use the board with the
MPIDE again, it is necessary to program the
boot loader back onto the board. The boot
loader source code and compiled image can
be found in the MPIDE software download.
®
®
IDE or the MPLAB
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