Bus system comprising a master component and a slave component that functions as master, and a method for controlling the same

The invention claimed is: 1. A bus system comprising: a plurality of electrical and/or electronic components coupled to one another in terms of signaling via at least one bus line, the plurality of electrical and/or electronic components including: at least one master component and at least two slave components including at least a first slave component and a second slave component; wherein the first slave component is at least one heating device and the second slave component is at least one ventilation means; wherein the first slave component functions as a master for the second slave component or a plurality of the at least two slave components, including the second slave component, for at least one operating parameter, under at least certain conditions; and wherein a central control function for a system to be controlled is associated with the first slave component, and the central control function is transmitted to other components or to an entire system to be controlled, and bus signals and/or bus messages that are transmitted to the first slave component are evaluated by the first slave component. 2. The bus system according to claim 1 , wherein a role of a command issuer is assumed in reference to the at least one operating parameter and/or in reference to a certain operating mode by the first slave component. 3. The bus system according to claim 1 , wherein at least one of the at least two slave components determines at least one set point operating parameter of another of the at least two slave components, and transmits the at least one set point operating parameter to the first slave component and/or to the at least one master component. 4. The bus system according to claim 1 , wherein the first slave component recognizes a status of the first slave component as a component of the entire system to be controlled. 5. The bus system according to claim 1 , wherein the bus system is equipped with a LIN bus line and/or a CAN bus line. 6. A climate control device having the bus system according to claim 1 , wherein the at least one heating device calculates at least one set point operating parameter of the at least one ventilation means and sends the at least one set point operating parameter to the at least one ventilation means as a control signal, via the at least one bus line. 7. A method for controlling a bus system, wherein the bus system is comprised of a plurality of electrical and/or electronic components coupled to one another in terms of signaling via at least one bus line; wherein the plurality of electrical and/or electronic components include at least one master component and at least two slave components that include at least a first slave component and a second slave component; wherein the first slave component is at least one heating device and the second slave component is at least one ventilation means; wherein the first slave component functions as a master for one or a plurality of the at least two slave components, for at least one operating parameter, and in so functioning as the master the at least one heating device is configured to calculate at least one set point operating parameter of the at least one ventilation means, and then send the at least one set point operating parameter to the at least one ventilation means as a control signal, via the at least one bus line; wherein the method includes a step of transmitting a central control function for a system to be controlled, that is associated with the first slave component, to other components or to an entire system to be controlled; and wherein the method includes a step of evaluating bus signals, bus messages, or both that are transmitted to the first slave component. 8. The method according to claim 7 , wherein at least one of the at least two slave components calculate the at least one set point operating parameter of another of the at least two slave components and transmits the at least one set point operating parameter to the first slave component and/or to the at least one master component. 9. The method according to claim 7 , wherein the method includes a step of the first slave component recognizing a status of the first slave component as a component of the system to be controlled. 10. The method according to claim 7 , wherein the first slave component transmits appropriate signals to the second slave component associated with the first slave component, only after a request via the at least one master component. 11. The method according to claim 10 , wherein the first slave component further processes the signals from the at least one master component in conjunction with additional information which is available. 12. The bus system according to claim 2 , wherein at least one of the at least two slave components determine the at least one set point operating parameter of another of the at least two slave component and transmits the at least one set point operating parameter to the first slave component. 13. The bus system according to claim 4 , wherein the bus system is equipped with a LIN bus line and/or a CAN bus line. 14. A climate control device having the bus system according to claim 13 , wherein the at least one heating device calculates the at least one set point operating parameter of the at least one ventilation means and sends the at least one set point operating parameter to the at least one ventilation means as the control signal, via the at least one bus line. 15. The bus system according to claim 1 , wherein the second slave component is signally coupled to the at least one master component via the first slave component. 16. The method according to claim 7 , wherein the method includes a step of sending a message from the first slave component to the second slave component following a request from the at least one master component.