MIMXRT1160-EVK
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Cores
Cortex-M4
Cortex-M7
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Device
MIMXRT1166DVM6A -
CMSIS Pack
MIMXRT1160-EVK_BSP
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canfd_loopback_cm4
Keil Studio, µVision AC6The canfd_loopback_functional example shows how to use the loopback test mode to debug your CAN Bus design:To demonstrates this example, only one board is needed. The example will config one FlexCAN MessageBuffer to Rx Message Buffer and the other FlexCAN Message Buffer to Tx Message Buffer with same ID.After that, the example will send a CAN Message from the Tx Message Buffer to the Rx Message Bufferthrouth internal loopback interconnect and print out the Message payload to terminal.
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canfd_loopback_cm7
Keil Studio, µVision AC6The canfd_loopback_functional example shows how to use the loopback test mode to debug your CAN Bus design:To demonstrates this example, only one board is needed. The example will config one FlexCAN MessageBuffer to Rx Message Buffer and the other FlexCAN Message Buffer to Tx Message Buffer with same ID.After that, the example will send a CAN Message from the Tx Message Buffer to the Rx Message Bufferthrouth internal loopback interconnect and print out the Message payload to terminal.
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canfd_loopback_cm7
Keil Studio AC6, GCC, IARThe canfd_loopback_functional example shows how to use the loopback test mode to debug your CAN Bus design:To demonstrates this example, only one board is needed. The example will config one FlexCAN MessageBuffer to Rx Message Buffer and the other FlexCAN Message Buffer to Tx Message Buffer with same ID.After that, the example will send a CAN Message from the Tx Message Buffer to the Rx Message Bufferthrouth internal loopback interconnect and print out the Message payload to terminal.
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canfd_loopback_transfer_cm4
Keil Studio, µVision AC6The canfd_loopback example shows how to use the loopback test mode to debug your CAN Bus design:To demonstrates this example, only one board is needed. The example will config one FlexCAN MessageBuffer to Rx Message Buffer and the other FlexCAN Message Buffer to Tx Message Buffer with same ID.After that, the example will send a CAN Message from the Tx Message Buffer to the Rx Message Bufferthrough internal loopback interconnect and print out the Message payload to terminal.
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canfd_loopback_transfer_cm4
Keil Studio AC6, GCC, IARThe canfd_loopback example shows how to use the loopback test mode to debug your CAN Bus design:To demonstrates this example, only one board is needed. The example will config one FlexCAN MessageBuffer to Rx Message Buffer and the other FlexCAN Message Buffer to Tx Message Buffer with same ID.After that, the example will send a CAN Message from the Tx Message Buffer to the Rx Message Bufferthrough internal loopback interconnect and print out the Message payload to terminal.
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canfd_loopback_transfer_cm7
Keil Studio AC6, GCC, IARThe canfd_loopback example shows how to use the loopback test mode to debug your CAN Bus design:To demonstrates this example, only one board is needed. The example will config one FlexCAN MessageBuffer to Rx Message Buffer and the other FlexCAN Message Buffer to Tx Message Buffer with same ID.After that, the example will send a CAN Message from the Tx Message Buffer to the Rx Message Bufferthrough internal loopback interconnect and print out the Message payload to terminal.
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canfd_loopback_transfer_cm7
Keil Studio, µVision AC6The canfd_loopback example shows how to use the loopback test mode to debug your CAN Bus design:To demonstrates this example, only one board is needed. The example will config one FlexCAN MessageBuffer to Rx Message Buffer and the other FlexCAN Message Buffer to Tx Message Buffer with same ID.After that, the example will send a CAN Message from the Tx Message Buffer to the Rx Message Bufferthrough internal loopback interconnect and print out the Message payload to terminal.
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canfd_ping_pong_buffer_transfer_cm4
Keil Studio, µVision AC6The canfd_ping_pong_buffer_transfer example shows how to use the FlexCAN queue feature to create 2 simulate FIFOs that can receive CANFD frames:In this example, 2 boards are connected through CAN bus. Endpoint A(board A) send CANFD messages to Endpoint B(board B) when user input the number of CAN messages to be send in terminal. Endpoint B uses two receiving queues to receive messages in turn, and prints the message content and the receiving queue number to the terminal after any queue is full.
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canfd_ping_pong_buffer_transfer_cm4
Keil Studio AC6, GCC, IARThe canfd_ping_pong_buffer_transfer example shows how to use the FlexCAN queue feature to create 2 simulate FIFOs that can receive CANFD frames:In this example, 2 boards are connected through CAN bus. Endpoint A(board A) send CANFD messages to Endpoint B(board B) when user input the number of CAN messages to be send in terminal. Endpoint B uses two receiving queues to receive messages in turn, and prints the message content and the receiving queue number to the terminal after any queue is full.
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canfd_ping_pong_buffer_transfer_cm7
Keil Studio, µVision AC6The canfd_ping_pong_buffer_transfer example shows how to use the FlexCAN queue feature to create 2 simulate FIFOs that can receive CANFD frames:In this example, 2 boards are connected through CAN bus. Endpoint A(board A) send CANFD messages to Endpoint B(board B) when user input the number of CAN messages to be send in terminal. Endpoint B uses two receiving queues to receive messages in turn, and prints the message content and the receiving queue number to the terminal after any queue is full.
Download Pack