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开源软件名称(OpenSource Name):teachop/FlexCAN_Library开源软件地址(OpenSource Url):https://github.com/teachop/FlexCAN_Library开源编程语言(OpenSource Language):C 87.5%开源软件介绍(OpenSource Introduction):CANbus Library for Teensy 3.1IntroductionFlexCAN is a serial communication driver for the CAN0 peripheral built into the Teensy 3.1 CPU. The driver is organized in the Arduino library format. When the FlexCAN object is constructed, Arduino pins Digital 3 and Digital 4 are assigned to CAN functions TX and RX. These should be wired to a 3.3V CAN transceiver TXD and RXD respectively to allow connection of the Teensy 3.1 to a CAN network. Note This was written for Teensy 3.1. Perhaps consider a fork with support for newer model and enhancements, such as the one here: https://github.com/pawelsky/FlexCAN_Library Even though the Teensy is operating on 3.3V, use of 5V transceivers may be an option if the system has regulated +5V available. The CAN RXD input on the CPU is 5V tolerant and most 5V transceivers will accept the 3V TXD signal. This is a good choice for breadboarding due to availability of thru-hole 5V transceiver parts. Note that CAN will normally require termination resistors. These are located at the two ends of a CAN bus to prevent reflections. Do not add more terminators when connecting devices to an existing properly terminated CAN bus. Supported baud rates are 50000, 100000, 125000, 250000, 500000, and 1000000 bits per second. If the baud rate is not specified it will default to 125000. CAN Transceiver OptionsPlease add parts you are using successfully with Teensy 3.1 to this list.
Driver APIbegin() Enable the CAN to start actively participating on the CANbus. end() Disable the CAN from participating on the CANbus. Pins remain assigned to the alternate function CAN0. write(message) Send a frame of up to 8 bytes using the given identifier. write() will return 0 if no buffer was available for sending (see "Caller blocking" below). message is a CAN_message_t type buffer structure. read(message) Receive a frame into "message" if available. read() will return 1 if a frame was copied into the callers buffer, or 0 if no frame is available (see "Caller blocking" below). available() Returns 1 if at least one receive frame is waiting, or 0 if no frame is available. Use of Optional RX Filteringbegin(mask) Enable the CAN to start actively participating on the CANbus. Enable reception of all messages that fit the mask. This is a global mask that applies to all the receive filters. setFilter(filter, number) Set the receive filter selected by number, 0-7. When using filters it is required to set them all. If the application uses less than 8 filters, duplicate one filter for the unused ones. The mask and filter are CAN_filter_t type structures. Caller Blocking SupportSupport has been included for wait / blocking in both the read() and write() calls. When the CAN_message_t field timeout is given, the read() and write() calls will wait if needed until the frame transfer can take place. The maximum wait for transfer is specified by timeout in milliseconds. If the call times out, it will return 0 as in the non-blocking case. Setting the timeout field to 0 will make the calls non-blocking. The timeout monitoring mechanism calls yield() until a buffer is found or the timeout time is exceeded. In-order TransmissionCaller blocking can be used to write() frames guaranteed in-order to the bus. When caller blocking is selected for write() (non-zero timeout specified), a single hardware transmit buffer is used. |
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