Texas Instruments 180 to 100 Pin DIMM Adapter TMDSADAP180TO100 TMDSADAP180TO100 Ficha De Dados
Códigos do produto
TMDSADAP180TO100
SPRS825C – OCTOBER 2012 – REVISED FEBRUARY 2014
7.2.4
Cortex-M3 Controller Area Network
This device has two Cortex-M3 CAN peripherals. CAN is a serial communications protocol that efficiently
supports distributed real-time control with a high level of security. The CAN module supports bit rates up
to 1 Mbit/s and is compliant with the CAN 2.0B protocol specification.
supports distributed real-time control with a high level of security. The CAN module supports bit rates up
to 1 Mbit/s and is compliant with the CAN 2.0B protocol specification.
CAN implements the following features:
•
CAN protocol version 2.0 part A, B
•
Bit rates up to 1 Mbit/s
•
Multiple clock sources
•
32 message objects
•
Individual identifier mask for each message object
•
Programmable FIFO mode for message objects
•
Programmable loop-back modes for self-test operation
•
Suspend mode for debug support
•
Software module reset
•
Automatic bus on after Bus-Off state by a programmable 32-bit timer
•
Message RAM parity check mechanism
•
Two interrupt lines
•
Global power down and wakeup support
shows the Cortex-M3 CAN peripheral.
7.2.4.1
Functional Overview
CAN performs CAN protocol communication according to ISO 11898-1 (identical to Bosch
®
CAN protocol
specification 2.0 A, B). The bit rate can be programmed to values up to 1 Mbit/s. Additional transceiver
hardware is required for the connection to the physical layer (CAN bus).
hardware is required for the connection to the physical layer (CAN bus).
For communication on a CAN network, individual message objects can be configured. The message
objects and identifier masks are stored in the Message RAM. All functions concerning the handling of
messages are implemented in the message handler. Those functions are: acceptance filtering, the transfer
of messages between the CAN Core and the Message RAM, and the handling of transmission requests.
objects and identifier masks are stored in the Message RAM. All functions concerning the handling of
messages are implemented in the message handler. Those functions are: acceptance filtering, the transfer
of messages between the CAN Core and the Message RAM, and the handling of transmission requests.
The register set of the CAN is accessible directly by the CPU via the module interface. These registers are
used to control/configure the CAN Core and the message handler, and to access the message RAM.
used to control/configure the CAN Core and the message handler, and to access the message RAM.
Copyright © 2012–2014, Texas Instruments Incorporated
Peripheral Information and Timings
201
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