Sensor transmission device and method for transmitting payload data from multiple sensors to a bus control device for a vehicle

What is claimed is: 1. A method performed by a bus control device for assigning payload data from a bus data packet to different sensor transmission devices, the bus control device being connected to a data bus of a vehicle designed for a simultaneous transmission of bus data packets between multiple sensor transmission devices and the bus control device, the method comprising: reading in a bus data packet including at least one signaling field and a payload data field having at least two payload data blocks, wherein the payload data field is configured to have a variable number of total payload data blocks; determining an assignment rule based on an action list, the action list containing multiple combinations in each case of one of multiple possible operating states for each sensor transmission device using the data bus, the assignment rule representing a relation between a number of total payload data blocks of the payload data field and an instantaneous operating state of each of the sensor transmission devices; and interpreting a payload data of the bus data packet and assigning a read-out payload data to the different sensor transmission devices, taking into consideration that the payload data field has a different number of total payload data blocks for different combinations of the operating states of the sensor transmission devices in accordance with the assignment rule. 2. A method performed by a bus control device for transmitting payload data from a sensor transmission device to the bus control device using a data bus designed for a simultaneous transmission of bus data packets between multiple sensor transmission devices and the bus control device, the bus data packets including at least one signaling field and a payload data field having at least one payload data block, the method comprising: obtaining payload data from a sensor, the payload data representing a physical quantity measured by the sensor; ascertaining an assignment rule based on an action list, the action list containing multiple combinations in each case of one of multiple possible operating states for each sensor transmission device which uses the data bus, wherein the assignment rule represents a relation between a number of total payload data blocks of the payload data field and an instantaneous operating state of each of the sensor transmission devices; ascertaining at least one of multiple different lengths and multiple different positions of the payload data block in the payload data field as a function of the assignment rule and the instantaneous operating state of the sensor transmission device, wherein the payload data field is configured to have a variable number of total payload data blocks; and receiving predetermined signaling data in the signaling field of the bus data packet and, in response thereto, positioning at least a portion of the received payload data in the at least one payload data block specified by the assignment rule for the sensor transmission device. 3. The method as recited in claim 2 , wherein the positioning of multiple payload data blocks in one payload data field is ascertained based on the assignment rule and knowledge of the instantaneous operating states of all sensor transmission devices which use the data bus. 4. The method as recited in claim 1 , wherein the action list is at least one of sent, received, and updated in a step of initializing. 5. The method as recited in claim 2 , wherein the action list is at least one of sent, received, and updated in a step of initializing. 6. The method as recited in claim 1 , wherein the assignment rule is determined in the step of determining based on the action list, using signaling data written by the bus control device into the signaling field of a bus data packet. 7. The method as recited in claim 2 , wherein the assignment rule is ascertained in the step of ascertaining based on the action list, using the signaling data written by the bus control device into the signaling field of a bus data packet. 8. The method as recited in claim 2 , wherein an action selected from the action list is carried out in the sensor transmission device in the step of ascertaining the assignment rule based on the signaling data written by the bus control device into the signaling field of a bus data packet. 9. The method as recited in claim 1 , further comprising: sending a selection command from the bus control device to a first and an at least second sensor transmission device, the selection command causing a first action selected from the action list to be carried out in the first sensor transmission device and a second action selected from the action list to be carried out in the at least second sensor transmission device. 10. The method as recited in claim 2 , further comprising: sending a selection command from the bus control device to a first and an at least second sensor transmission device, the selection command causing a first action selected from the action list to be carried out in the first sensor transmission device and a second action selected from the action list to be carried out in the at least second sensor transmission device. 11. A sensor transmission device, comprising: an arrangement for obtaining payload data from a sensor, the payload data representing a physical quantity measured by the sensor; an arrangement for ascertaining an assignment rule based on an action list, the action list containing multiple combinations in each case of one of multiple possible operating states for each sensor transmission device which uses a data bus, wherein the assignment rule represents a relation between a number of total payload data blocks of the payload data field and an instantaneous operating state of each of the sensor transmission devices; an arrangement for ascertaining at least one of multiple different lengths and multiple different positions of a payload data block in a payload data field as a function of the assignment rule and the instantaneous operating state of a sensor transmission device, wherein the payload data field is configured to have a variable number of total payload data blocks; and an arrangement for receiving predetermined signaling data in a signaling field of a bus data packet and, in response thereto, positioning at least a portion of the received payload data in the payload data block specified by the assignment rule for the sensor transmission device. 12. A bus control device, comprising: an arrangement for reading in a bus data packet including at least one signaling field and a payload data field, wherein the payload data field is configured to have a variable number of total payload data blocks; an arrangement for determining an assignment rule based on an action list, the action list containing multiple combinations in each case of one of multiple possible operating states for each sensor transmission device using a data bus, the assignment rule representing a relation between a number of total payload data blocks of a payload data field and an instantaneous operating state of each of a plurality of sensor transmission devices; and an arrangement for interpreting a payload data of a bus data packet and assigning a read-out payload data to the different sensor transmission devices, taking into consideration that the payload data field has a different number of total payload data blocks for different combinations of the operating states of the sensor transmission devices in accordance with the assignment rule. 13. A computer program product tangibly embodied on a non-transitory computer readable storage medium, having program code for carrying out a method for assignin