A transceiver for sending and receiving data from a controller area network (CAN) bus is disclosed. The transceiver includes a microcontroller port, a transmitter and a receiver, wherein the transceiver is configured to determine bit timings from a data frame received by the receiver. The transceiver is further configured to detect attempts to introduce a signal glitch in a predetermined portion of the data frame and upon detection of the signal glitch, the transceiver is configured to invalidate the data frame on a transmission line and/or disable the transmitter for a predetermined period.

A system, apparatus and method for efficient utilization of available band-width on the system's bus connection. The system includes a scheduler configured to receive a virtual schedule that provides at least one slot for sending a message over the communication bus. A module is configured to send a message over the communication bus.

A frame screening unit for a user station of a serial bus system, a user station for a serial bus system, and a method for communicating in a serial bus system. The frame screening unit includes a screen block for generating a select signal that selects whether or not a communication control device of the user station is allowed to receive a reception signal that has been generated from a frame received serially at that time from the bus for a message, and a reception signal selection block for screening the reception signal, as a function of the select signal generated by the screen block, so that the reception signal is not transmitted to the communication control device of the user station.

An extension of the existing CAN FD data transmission protocol. The extension enables the use of the IPv6 protocol for the CAN bus. The CAN FD protocol is further developed in an incompatible way. One modification measure relates to the lengthening of the Data Field, which is positioned in the transmission frame after an Arbitration Field. An arbitrary number of bytes can be entered in the extended Data Field within a specified upper limit. Since the Data Field is transmitted at a higher bit rate field than the Arbitration Field, the data throughput is increased dramatically.

The invention relates to a method for setting up a network comprising a plurality of electronic detonators and a control unit, which are in connection with each other via a bus system, wherein each of the detonators comprises a communication module which is in connection with the bus system, for a communication between the detonator and the control unit via the bus system and wherein, as a part of the setting up of the network, the detonators are identified by the control unit.

An electric motor addressing system and method for an agricultural implement receives, at an electronic control unit (ECU), an address claim request from each motor of a plurality of motors coupled to the ECU via a first bus. Each address claim request includes a requested bus address and a binary value corresponding to a pin connector setting associated with a harness connector of the respective motor. The system associates the binary value with a physical address for each motor without reference to the bus address and maps each bus address to the physical address.

Embodiments relate to including information in a data packet transmitted by a transmitting integrated circuit (e.g., SOC) to account for a time delay associated with an unsuccessful arbitration attempt to send the data packet over a multi-drop bus. The unsuccessful arbitration attempt by the integrated circuit may delay the transmission of the data packet until the multi-drop bus becomes available for the integrated circuit to send the data packet. The data packet includes a data field to include time delay information caused by the unsuccessful arbitration attempt. A receiving integrated circuit may determine the time that the data packet would have been sent out from the transmitting integrated circuit absent the unsuccessful arbitration attempt based on the delay information. Embodiments also relate to a synchronization generator circuit in an integrated circuit that generates timing signals indicating times at which periodic events occur at another integrated circuit.

A Controller Area Network, CAN, transceiver comprising a receiver arrangement for coupling to a CAN bus and configured to determine a differential signal from analog signalling received from the CAN bus; and a receive output for coupling to a CAN controller and wherein the receiver arrangement provides a digital output signal to the receive output based on the differential signal; wherein the receiver arrangement operates in at least a first mode in which it is configured to provide the digital output signal comprising logic 0 when the differential signal is greater than a first receiver threshold and provide the digital output signal comprising logic 1 when the differential signal is less than said first receiver threshold unless said differential signal satisfies a condition, whereupon the receiver arrangement is configured to provide the digital output signal comprising logic 0, wherein the condition comprises the differential signal being below an activity-voltage threshold.

Subscriber-stations for a bus-system, and data-transmission method in a bus-system. The subscriber-stations include master-subscriber-station(s) and at least two slave-subscriber-stations for the bus-system. The master-subscriber-station includes a first-transceiver-device for sending/receiving a message to/from at least one slave-subscriber-station that is subordinate control-wise to the master-subscriber-station, via a first-sub-bus of the bus-system, a second-transceiver-device for sending/receiving a message to/from at least one other subscriber-station, via a second-sub-bus of the bus-system, a communication-control-device for creating the message to be sent or for evaluating a message received from one of the sub-buses of the bus-system, and a linking-device for linking a terminal of the first-transceiver-device that is for outputting of a signal generated from the message received from the first-sub-bus and a terminal of the second-transceiver-device for outputting a signal generated from the message received from the second-sub-bus, so that only one signal is forwarded, as a receive-signal, to a communication-control-device terminal.

Two or more modules communicate over a common control network including receiving by a message packet having data defined by a signal level at defined bit quanta of a bit, the defined bit quanta being less than every bit quanta of a bit, and the communication device samples bit quanta other than the defined bit quanta. The module receives signal disturbances and decodes the signal disturbances as having a value different from an expected value of the certain bit. In another form, the module uses a first counter based on a clock local to the communication device and a second counter having a higher sampling rate than the first counter. Here, the module receives over the control network a synchronizing portion of a message and counts clock ticks of the second counter over a portion of the message to determine a clock rate for a module that transmitted the message.