A system includes a first electronic device that activates a first receiver according to a communication schedule that includes a plurality of frames. Each frame is organized according to a grid including a plurality of cells, wherein the cells are associated with a plurality of communication channels and a plurality of time slots. The system also includes a second electronic device that communicates with the first electronic device by transmitting a wake-up packet during a first time slot on a first communication channel. The first time slot and the first communication channel are located at a known position of a respective grid in each frame of the communication schedule. The first electronic device performs an operation based on the wake-up packet after receiving the wake-up packet. The second electronic device also receives a first acknowledgment packet associated with the wake-up packet.

In a method for allocating addresses in a CAN network having at least one master bus user and at least one slave bus user, the master bus user initiates the address allocation via a query message that is arranged for all bus users. Slave bus users which have already been assigned an address respond to this query message by transmitting a message at their assigned address. Slave bus users which have not yet been assigned an address take measures in response to this query message to be able to transmit on the bus without collisions, and transmit their serial number to the master bus user using these measures. At least the slave bus users which have not yet been assigned an address are assigned a suitable address by the master after receipt of the serial number, and use this address for further communication on the bus.

The invention relates to a method for operating a communication system (100) having a plurality of communication units (300, 301, 302, 303, 304) which are connected to a communication medium (110), wherein access to the communication medium (110) is granted to the communication units (300, 301, 302, 303, 304) in a predefined order, wherein, after the end of a standby mode, a communication unit (300, 301, 302, 303, 304) checks whether it is granted access and changes to the standby mode again for a pause duration (T1, T2) until access is likely to be granted to it again if the communication unit (300, 301, 302, 303, 304) does not require access to the communication medium (110) or is not granted access.

Method for digital, bidirectional data transmission between a position measuring system (3-7) and a motor control device (1) and/or an evaluation unit based on the transmission of frames (34, 35, 36) of a predefined bit length in chronologically sequential time slots (28-30), wherein a primary master (1) communicates via a two wire bus line (2) with the position measuring system (3-7) and/or the motor unit (11, 14) and/or the evaluation unit with a primary slave (3) disposed there, and that additional sub-slaves (12, 15) can be coupled in parallel to the primary slave (3), which sub-slaves communicate on the same bus line (2), which the primary master (1) uses with the primary slave (3).

Disclosed is a method for clock synchronization of an industrial internet field broadband bus, wherein the method is applicable to an industrial internet field broadband bus architecture system including a bus controller and at least one bus terminal, the bus controller is connected with the bus terminal over a two-wire data transfer network, and the method includes steps of: electing one of the bus controller and the bus terminal as a best master clock; determining whether an IP address of the device of the best master clock is the same as an IP address of the bus controller; if so, then determining the bus controller as a master device of clock synchronization, and transmitting by the bus controller a synchronization message to the bus terminal for clock synchronization; and otherwise, returning to the step of electing one of the bus controller and the bus terminal as the best master clock.

A circuit can include a CAN bus and multiple nodes. The multiple nodes can reboot at the same time so that a Time 0 is set at boot for each node. Each node can store an ID node and determine from its ID node one time slot of a plurality of periodic time slots starting from Time 0 in which to transmit on the CAN bus. Each node can transmit messages on the CAN bus in its determined time slot subsequent to Time 0.

A stator segment for a linear motor-based transport system is developed to the effect that a transmitter for cyclic transmission of a control data record in a first clock cycle also transmits, in addition to transmitting the control data record, a position value in a clock-synchronized manner, wherein a plurality of positions are available as a sequence with a quantity of elements and an element with an index corresponds to a position, where the transmitter unit is configured such that, upon every first clock cycle, the index is incremented commencing from a starting value and an element is transmitted after the control data record, where the transmitter unit is furthermore configured to transmit all elements in one transmission interval, and where the transmission interval corresponds to a multiple of the first clock cycle.

A circuit can include a CAN bus and multiple nodes. The multiple nodes can reboot at the same time so that a Time 0 is set at boot for each node. Each node can store an ID node and determine from its ID node one time slot of a plurality of periodic time slots starting from Time 0 in which to transmit on the CAN bus. Each node can transmit messages on the CAN bus in its determined time slot subsequent to Time 0.

A method for dynamically configuring devices in an Ethernet network, including: a head node a) determining the number of active nodes, b) classifying the identified nodes into two or more classifications of nodes to prioritize the Ethernet network communication, and c) receiving reservation requests from at least some of the multiplicity of nodes, and d) allocating time slots, in response to reservation requests, to one or more nodes in the upcoming communication window, the allocations based on a node priority and the priority being allocated to the nodes in accordance with their classification. After the active nodes have been determined, the nodes are dynamically configured, and a timer of the respective node is selected and started, with each active node respectively assigning the smallest possible ID to itself. This leads to a bus access of the respective node and, if there is bus activity, the other network nodes behave passively.

The invention concerns a method for transmitting messages in a computer network, wherein the computer network comprises a first set of computing nodes (101-105), which computing nodes (101-105) are connected to each other by means of at least one star coupler (201, 202) and/or at least one multi-hop network (1000), wherein each of the computing nodes of the first set of computing nodes (101-105) is connected by means of at least one communication line (110) to the at least one star coupler (201, 201) or the at least one multi-hop network (1000), and wherein the computing nodes (101-105) exchange Ethernet messages with each other and the exchange of at least some of the Ethernet messages of the computing nodes (101-105) occurs in time controlled manner. It is provided that a) the computer network comprises a second set of computing nodes (106-108), which are connected to each other by a bus (210), and wherein the bus (210) is connected to the at least one star coupler (201) and/or the at least one multi-hop network (1000), and wherein b) the second set of computing nodes (106-108) exchange Ethernet messages with each other and the exchange of at least some of the Ethernet messages of the computing nodes (106-108) occurs in time controlled manner, and wherein preferably c) the second set of computing nodes (106-108) exchange Ethernet messages with the first set of computing nodes (101-105) and the exchange of at least some of the Ethernet messages of the computing nodes (101-108) occurs in time controlled manner.