Method for conserving power in a can microcontroller and a can microcontroller that implements this method

Abstract

A method for conserving power in a CAN microcontroller that includes a processor core and a CAN/CAL module that includes a plurality of sub-blocks that cooperatively function to process incoming CAL/CAN messages, which method includes the steps of placing the processor core in a power-reduction mode of operation (e.g., a sleep or idle mode of operation), placing the CAN/CAL module in a power-reduction mode of operation, and activating the CAN/CAL module to process an incoming CAL/CAN message (e.g., to perform automatic hardware assembly of a multi-frame, fragmented CAL/CAN message), thereby terminating the power-reduction mode of operation thereof, while the processor core is in its power-reduction mode of operation. In a preferred embodiment, the CAN/CAL module automatically assembles incoming, multi-frame, fragmented messages while the processor core remains in its power-reduction mode of operation, and the CAN/CAL module generates a message-complete interrupt in response to completion of assembly of the multi-frame, fragmented message, whereby the terminating step is executed in response to the message-complete interrupt. In another embodiment, the method includes the steps of placing the entire CAN microcontroller, including both the processor core and the CAN/CAL module in a power-down mode of operation, detecting receipt of an incoming message, and activating the CAN/CAL module in response to the detecting step to process the incoming message (e.g., to perform automatic hardware assembly of a multi-frame, fragmented CAL/CAN message), thereby terminating the power-down mode of operation of the CAN/CAL module, without terminating the power-down mode of operation of the processor core.