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), is described. 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.

Systems and method for a time-triggered communication channel in a synchronous network are disclosed. The systems and methods may include communicating in a repeated cycle wherein each of the plurality of nodes has a dedicated slot, wherein a cycle comprises n subsequent slots, and wherein each slot comprises a plurality of frames, defining a centralized schedule that associates each node to an associated slot comprising a start frame and an end frame, and transmitting by each node only during the associated slot comprising said start frame.

A method and a digital device for controlling a connection between a plurality of nodes through an interface are discussed. The method according to an embodiment includes receiving control information including identification information of a destination node and a connection command. During a connection state according to the connection command, the connection between the plurality of nodes is established and the plurality of nodes maintain the connection state until a disconnection command is detected. The method further includes transmitting, according to the control information, response information including identification information of a source node.

A method and a digital device for controlling a connection between a plurality of nodes through an interface are discussed. The method according to an embodiment includes receiving control information including identification information of a destination node and a connection command. The destination node is connected with the interface based on the connection command, and the destination node maintains a connection state until a disconnection command is detected. The method further includes transmitting, according to the control information, response information including identification information of a source node.

A method and a digital device for controlling a connection between a plurality of nodes through an interface are discussed. The method according to an embodiment includes receiving control information including identification information of a destination node and a disconnection command. During a disconnection state according to the disconnection command, the connection between the plurality of nodes is released, and the plurality of nodes maintain the disconnection state until a new connection command is detected. During the disconnection state, a physical connection between the plurality of nodes is maintained to receive the new connection command through the interface. The method further includes transmitting, according to the control information, response information including identification information of a source node.

A method of controlling connection between nodes in a digital interface whereby a first node that is a master node determines a second node to be the master and controls a point-to-point connection or a broadcast connection to another node. The first node having the display device determines the second node to be the master in accordance with a user selection, and transmits a connection command of a predetermined format for transmitting a data stream to the second node. The second node determined as the master in accordance with the transmitted connection command of the predetermined format is allocated with a channel and a bandwidth from an isochronous resource manager (IRM), and performs a point-to-point connection between the second node and the first node to transit the data stream. Thus, the transmission/reception, reproduction, and control of the data stream of the program can be smoothly performed.

A method of controlling connection between nodes in a digital interface whereby a first node that is a master node determines a second node to be the master and controls a point-to-point connection or a broadcast connection to another node. The first node having the display device determines the second node to be the master in accordance with a user selection, and transmits a connection command of a predetermined format for transmitting a data stream to the second node. The second node determined as the master in accordance with the transmitted connection command of the predetermined format is allocated with a channel and a bandwidth from an isochronous resource manager (IRM), and performs a point-to-point connection between the second node and the first node to transit the data stream. Thus, the transmission/reception, reproduction, and control of the data stream of the program can be smoothly performed.

A frame collision rate calculation method for a frame on a CAN bus, and a CAN bus resource minimization method are provided. The CAN bus resource minimization method includes: S1, setting an initial CAN bus communication rate; S2, according to the preset rate in step S1 and an Erlang B formula in the queuing theory, calculating a frame collision rate of each priority; S3, determining whether the frame collision rate of each priority calculated in step S2 exceeds an allowable frame collision rate upper limit; if so, increasing the CAN bus communication rate, and returning to step S2; and if not, decreasing the CAN bus communication rate, and returning to step S2; and S4, outputting a minimum communication rate corresponding to the frame collision rate of a frame of each priority that does not exceed the allowable frame collision rate upper limit.

A method and a digital device for controlling a connection between a plurality of nodes through an interface are discussed. The method according to an embodiment includes receiving control information including identification information of a destination node and a connection command. The destination node is connected with the interface based on the connection command, and the destination node maintains a connection state until a disconnection command is detected. The method further includes transmitting, according to the control information, response information including identification information of a source node.

A method and a digital device for controlling a connection between a plurality of nodes through an interface are discussed. The method according to an embodiment includes receiving control information including identification information of a destination node and a connection command. During a connection state according to the connection command, the connection between the plurality of nodes is established and the plurality of nodes maintain the connection state until a disconnection command is detected. The method further includes transmitting, according to the control information, response information including identification information of a source node.