Transceiver circuit and method for controller area networks

The invention claimed is: 1. A transceiver circuit for operating in a controller area network, CAN, having a CAN bus network and a control unit, that supports a flexible data rate, CAN FD, wherein the transceiver circuit comprises: a transmit CAN path and a receive CAN path; an input node on the transmit CAN path; a detection module operably coupled to the input node on the transmit CAN path and arranged to receive an input frame from the control unit before the input frame is transmitted on the CAN bus network and determine whether the input frame on the transmit CAN path comprises a CAN FD frame; and at least one switching module, operably coupled to the detection module and coupleable to the CAN bus network, where the at least one switching module is operable to impart a first voltage value on the CAN bus network in response to the input frame being determined as comprising a CAN FD frame, wherein the first voltage value is a predetermined reference value defined by the at least one switching module shorting differential output signals on a CAN bus. 2. The transceiver circuit of claim 1 , wherein the at least one switching module is activated during a high bit-rate region of a CAN FD frame. 3. The transceiver circuit of claim 2 , wherein the at least one switching module is activated during a dominant to recessive transition within the high bit-rate region. 4. The transceiver circuit of claim 2 , wherein the at least one switching module is activated solely during a high bit-rate region of a CAN FD frame. 5. The transceiver circuit of claim 1 wherein the at least one switching module comprises at least one differential switch. 6. An integrated circuit comprising the transceiver circuit of claim 1 . 7. A transceiver circuit for operating in a controller area network, CAN, having a CAN bus network and a control unit, that supports a flexible data rate, CAN FD, wherein the transceiver circuit comprises: a transmit CAN path and a receive CAN path; an input node on the transmit CAN path; a detection module operably coupled to the input node on the transmit CAN path and arranged to receive an input frame from the control unit before the input frame is transmitted on the CAN bus network and determine whether the input frame on the transmit CAN path comprises a CAN FD frame; and at least one switching module, operably coupled to the detection module and coupleable to the CAN bus network, where the at least one switching module is operable to impart a first voltage value on the CAN bus network in response to the input frame being determined as comprising a CAN FD frame, wherein the at least one switching module is operably coupled to the detection module via at least one driver arranged to drive a CAN bus either from a first CAN line to ground or from a second CAN line to a supply voltage. 8. The transceiver circuit of claim 7 , further comprising a wake up receiver operably coupled to the CAN bus and arranged to provide selective wake up functionality in response to a signal from the at least one driver. 9. The transceiver circuit of claim 8 further comprising a comparison function operably coupled to the detection module and arranged to initiate wake-up in response to comparing a received frame provided by the detection module with a dedicated CAN message. 10. A transceiver circuit for operating in a controller area network, CAN, having a CAN bus network and a control unit, that supports a flexible data rate, CAN FD, wherein the transceiver circuit comprises: a transmit CAN path and a receive CAN path; an input node on the transmit CAN path; a detection module operably coupled to the input node on the transmit CAN path and arranged to receive an input frame from the control unit before the input frame is transmitted on the CAN bus network and determine whether the input frame on the transmit CAN path comprises a CAN FD frame; and at least one switching module, operably coupled to the detection module and coupleable to the CAN bus network, where the at least one switching module is operable to impart a first voltage value on the CAN bus network in response to the input frame being determined as comprising a CAN FD frame, wherein the detection module is arranged to determine whether the input frame comprises a recessive reserved bit or a dominant reserved bit. 11. The transceiver circuit of claim 10 wherein the reserved bit is an Extended Data Length (EDL) bit. 12. A transceiver circuit for operating in a controller area network, CAN, having a CAN bus network and a control unit, that supports a flexible data rate, CAN FD, wherein the transceiver circuit comprises: a transmit CAN path and a receive CAN path; an input node on the transmit CAN path; a detection module operably coupled to the input node on the transmit CAN path and arranged to receive an input frame from the control unit before the input frame is transmitted on the CAN bus network and determine whether the input frame on the transmit CAN path comprises a CAN FD frame; and at least one switching module, operably coupled to the detection module and coupleable to the CAN bus network, where the at least one switching module is operable to impart a first voltage value on the CAN bus network in response to the input frame being determined as comprising a CAN FD frame, wherein the at least one switching module is operable to impart the first voltage value on the CAN bus network during a dominant to recessive transition and operable to disable the first voltage value on the CAN bus network during a recessive to dominant transition. 13. A transceiver circuit for operating in a controller area network, CAN, having a CAN bus network and a control unit, that supports a flexible data rate, CAN FD, wherein the transceiver circuit comprises: a transmit CAN path and a receive CAN path; an input node on the transmit CAN path; a detection module operably coupled to the input node on the transmit CAN path and arranged to receive an input frame from the control unit before the input frame is transmitted on the CAN bus network and determine whether the input frame on the transmit CAN path comprises a CAN FD frame; and at least one switching module, operably coupled to the detection module and coupleable to the CAN bus network, where the at least one switching module is operable to impart a first voltage value on the CAN bus network in response to the input frame being determined as comprising a CAN FD frame, wherein the at least one switching module is operable to impart the first voltage value on the CAN bus network during a dominant to recessive transition and operable to disable the first voltage value on the CAN bus network once the dominant to recessive transition has been completed. 14. A transceiver circuit for operating in a controller area network, CAN, having a CAN bus network and a control unit, that supports a flexible data rate, CAN FD, wherein the transceiver circuit comprises: a transmit CAN path and a receive CAN path; an input node on the transmit CAN path; a detection module operably coupled to the input node on the transmit CAN path and arranged to receive an input frame from the control unit before the input frame is transmitted on the CAN bus network and determine whether the input frame on the transmit CAN path comprises a CAN FD frame; and at least one switching module, operably coupled to the detection module and coupleable to the CAN bus network, where the at least one switching module is operable to impart a first voltage value on the CAN bus network in response to the input frame being determined as comprising a CAN FD frame, wherein the transceiver circu