Method of communication between a vehicle and a wayside control unit for controlling an inductive energy transfer to the vehicle, a vehicle, a wayside control unit and an arrangement of a vehicle and a wayside control unit

The invention claimed is: 1. A method of detecting a correct position and/or orientation of a secondary winding structure of a secondary unit relative to a primary winding structure of a primary unit of a system for inductive power transfer to a vehicle, the method comprising: providing a primary unit of a system for inductive power transfer; providing a wayside control unit comprising at least one receiving means; providing a vehicle comprising a secondary unit of the system for inductive power transfer, at least a first transmitter and a second transmitter; generating, by the primary unit, an alternating electromagnetic field, wherein the wayside control unit controls the generation of the alternating electromagnetic field by the primary unit; receiving, by the secondary unit, the alternating electromagnetic field; transmitting, by the at least a first transmitter, a first signal; transmitting, by the second transmitter, a second signal; receiving, by the at least one receiving means of the wayside control unit, the first and the second signal; detecting, depending on the first and second signal, the correct position and/or orientation of the secondary winding structure of the secondary unit relative to the primary winding structure of the primary unit; determining, depending on the carrier signal level of the first and second signals, a correct position and/or orientation of the secondary winding structure of the secondary unit relative to the primary winding structure of the primary unit; and determining a signal level of the first and second signals. 2. The method according to claim 1 , the method further comprising transmitting power of the first and the second signal which is constant. 3. The method according to claim 1 , wherein the at least one receiving means consists of only one receiving means. 4. The method according to claim 1 , further comprising transmitting the first signal and the second signal in an alternating sequence. 5. The method according to claim 1 , further comprising terminating, at a switching point, the one of the first and the second signal which has been received last and receiving, after the switching point, the remaining one of the first and the second signal only after a time gap with a predetermined duration. 6. The method according to claim 1 , further comprising detecting, in response to a time course of the carrier signal level of the first and second signals matching an expected time course for a time duration which is equal to or is greater than a transmission time interval assigned to the first transmitter or a transmission time interval assigned to the second transmitter, a correct position and/or orientation of the secondary winding structure relative to the primary winding structure. 7. The method according to claim 1 , the method further comprising detecting, immediately or after a predetermined timeout interval and in response to the time course of the carrier signal level of the first and second signals not matching an expected time course, an incorrect position and/or orientation of the secondary winding structure relative to the primary winding structure. 8. The method according to claim 1 , the method further comprising transmitting, by the first signal and/or the second signal, authentication-related data from the vehicle to the wayside control unit, and determining, based on the authentication-related data, an authorization for power transfer to the vehicle. 9. The method according to claim 8 , the method further comprising transmitting by the first signal, an identifier of the first transmitter and/or transmitting, by the second signal, an identifier of the second transmitter. 10. The method according to claim 9 , the method further comprising approving the authorization for power transfer in response to detecting an expected number of correct identifiers of the first transmitter within a time duration which is equal to or is greater than the transmission time interval assigned to the first transmitter and detecting an expected number of correct identifiers of the second transmitter within a time duration which is equal to or is greater than the transmission time interval assigned to the second transmitter. 11. The method according to claim 9 , the method further comprising disapproving, immediately or after a predetermined timeout interval, the authorization for power transfer in response to a number of correct identifiers different from an expected number of correct identifiers of the first transmitter or in response to detecting the second transmitter within an expected time duration. 12. The method according to claim 1 , the method further comprising performing an analysis of the first and second signals on two channels. 13. The method according to claim 1 , the method further comprising enabling an inductive power transfer only in response to detecting a correct position and/or orientation of the secondary winding structure relative to the primary winding structure and approving an authorization for power transfer of the vehicle. 14. A vehicle comprising a secondary unit of a system for inductive power transfer for receiving an alternating electromagnetic field, wherein the vehicle comprises at least a first transmitter for transmitting a first signal and a second transmitter for transmitting a second signal, wherein a wayside control unit controls generation of the alternating electromagnetic field by a primary unit of the system for inductive power transfer, wherein the at least first and second transmitter are designed and/or arranged with respect to a secondary winding structure of the secondary unit and with respect to at least one receiving means of the wayside control unit such that a correct or an incorrect position and/or orientation of the secondary winding structure relative to a primary winding structure of the primary unit is unambiguously determinable depending at least on the first and the second signal, wherein a signal level of the first and second signals is determinable, wherein a correct position and/or orientation of the secondary winding structure of the secondary unit relative to the primary winding structure of a primary unit is determinable depending on the carrier signal level of the first and second signals. 15. A wayside control unit of a system for inductive power transfer to a vehicle, wherein the wayside control unit controls generation of an alternating electromagnetic field by a primary unit of the system for inductive power transfer, wherein the wayside control unit comprises at least one receiving means for receiving at least a first and a second signal, wherein the first signal is transmitted by a first transmitter of the vehicle and the second signal is transmitted by a second transmitter of the vehicle, wherein the at least one receiving means is designed and/or arranged with respect to a primary winding structure of the primary unit and with respect to the at least first and second transmitter such that a correct or an incorrect position and/or orientation of a secondary winding structure relative to the primary winding structure is unambiguously determinable depending at least on the first and the second signal, wherein a signal level of the first and second signals is determinable, wherein a correct position and/or orientation of the secondary winding structure of a secondary unit relative to the primary winding structure of the primary unit is determinable depending on the carrier signal level of the first and second signals. 16. The wayside control unit according to claim 15 , wherein the cont