Digilent chipKIT Network Shield 참조 매뉴얼 및 사용자 가이드 - 페이지 8

{카테고리_이름} Digilent chipKIT Network Shield에 대한 참조 매뉴얼 및 사용자 가이드을 온라인으로 검색하거나 PDF를 다운로드하세요. Digilent chipKIT Network Shield 11 페이지. Chipkit network shield board
Digilent chipKIT Network Shield에 대해서도 마찬가지입니다: 참조 매뉴얼 (11 페이지)

chipKIT Network Shield Reference Manual
The CAN network standard requires that the
nodes at each end of a network provide 120
ohm termination. The Network Shield provides
the termination resistors and jumpers to
enable/disable them depending on the location
of the board in the network. Jumper JP6 is
used to enable/disable the termination resistor
for the CAN1 network, and JP8 is used to
enable/disable the termination resistor for
CAN2. Install a shorting block on the jumper
pins to enable the termination resistor, or
remove the shorting block to disable the
termination resistor.
2
I
C Busses and Connectors
The Inter-Integrated Circuit (I
provides a medium speed (100K or 400K bps)
synchronous serial communications bus. The
2
I
C interface provides master and slave
operation using either 7 bit or 10 bit device
addressing. Each device is given a unique
address, and the protocol provides the ability
to address packets to a specific device or to
broadcast packets to all devices on the bus.
Refer to the Microchip PIC32MX7XX Data
Sheet and the PIC32 Family Reference
Manual for detailed information on configuring
2
and using the I
C interface.
The PIC32MX795 microcontroller on the
Max32 provides for up to five independent I
interfaces. The Network Shield is designed to
provide access to two of these interfaces I
#1 (SCL1, SDA1) and I
I2C #1 is the bus accessed through the
standard chipKIT Wire library. There are two
sets of connectors on the board for access to
2
the two I
C ports. Connector J7 provides
2
access to I
C port #1 while connector J6
2
provides access to I
C port #2.
The user should note that external interrupt 3
and SCL1 share the same pin on the
PIC32MX795. External interrupt 4 and SDA1
also share the same pin. Therefore, external
interrupts 3 and 4 should not be used
simultaneously with I2C bus #1.
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2
C
TM
) Interface
2
C
2
C
2
C #2 (SCL2, SDA2).
2
One I
C device is provided on the Network
Shield. This is a 256Kbit EEPROM connected
2
to the I
C #1 bus.
2
I
C Connectors: Connectors J6 and J7 can be
2
used to extend the I
C busses off of the board
to connect to external I
standard 2x4 pin header connectors with
0.100" spaced pins. They provide access to
2
the I
C signals, SCL and SDA, plus VCC3V3
and ground. The VCC3V3 can be used to
2
power external I
C devices.
2
The I
C bus uses open collector drivers to
allow multiple devices to drive the bus signals.
This means that pull-up resistors must be
provided to supply the logic high state for the
signals. The Network Shield provides 2.2Kohm
2
pull-up resistors on I
C #1. As I
with the EEPROM, these pull-up resistors are
permanently connected.
Jumpers JP9 & JP12 are provided to allow I
#1 to be disconnected from the Network
Shield, if it not being used and is interfering
with the use of the associated pins. There are
cut-able traces on the underside of the board
between the pins of these jumpers. Cut these
traces to disconnect SCL1 and SDA1 from the
Network Shield. To restore the connection,
load two pin headers for JP9 and JP12 and
install shorting blocks. If this is done, it is still
possible to access the on-board EEPROM by
connecting SCL and SDA from I
installing jumper wires between connector J6
and J7. The EEPROM will then appear on I
bus #2.
The logic high pull-up for I
sourcing current mirrors instead of resistors.
These current mirrors source approximately
1.7mA. The use of current mirrors provides
faster rise times on the I
provides the ability to drive longer cable runs
reliably than would be the case with simple
pull-up resistors.
Generally, only one set of pull-ups are used on
the bus. Jumpers JP10 and JP11 can be used
to disable the on-board pull-ups on I
2
C devices. These are
2
C #1 is the bus
2
2
C #2 by
2
C
2
C #2 is provided by
2
C signals and
2
C #2 if a
page 8 of 11
C