Wireless allocation of network addresses

The invention claimed is: 1. A method for addressing one or more replaced slave units (S 1 , . . . , Si) in a master-slave system comprising a master unit and a plurality of slave units (Si), wherein the slave units (Si) have both a unique serial number (Sni) and a fixed network address (Ai) and are interconnected with the master unit via a data communication system and wherein a data assignment table ((A 1 , Sn 1 ), (A 2 , Sn 2 ), . . . , (Ai, Sni)) is provided in a system memory of the master unit, in which table the respective network addresses (Ai) of the slave units (Si) are assigned to the respective serial numbers (Sni) of these slave units (Si) according to the position (i) thereof in a determined order in the system, said method having the following steps: a. acquiring the serial numbers (Sni) of the slave units (Si) to be replaced; b. inputting the serial numbers (Sni) of the replaced slave unit (Si) in acquisition sequence at the master unit; c. replacing the serial number (Sni) for the slave unit (Si), stored for the position (i), with the input serial number (Sni) and assigning it to the network address (Ai) for this position in the data assignment table ((A 1 , Sn 1 ), (A 2 , Sn 2 ), . . . , (Ai, Sni)). 2. The method according to claim 1 , wherein the serial numbers (Sni) of the slave units (Si) to be replaced are produced by means of optical acquisition of the serial number of a nameplate of the respective slave unit (Si). 3. The method according to claim 1 , wherein the input of the serial numbers (Sni) is performed in the form of a serial number list of the slave units (Si) to be replaced in the sequence of the replaced slave units (Si). 4. The method according to claim 1 , wherein the input in step b) is performed manually by means of an input mask. 5. The method according to claim 1 , wherein the input in step b) is performed automatically by means of a wired data transmission of the serial numbers (Sni) to the master unit. 6. The method according to claim 5 , wherein the input in step b) is performed via an interface. 7. The method according to claim 1 , wherein the input in step b) is performed automatically by means of a wireless data transmission of the serial numbers (Sni) to the master unit. 8. The method according to claim 1 , wherein the serial number (Sni) of the slave unit (Si) is stored for the case of a radio transmission to the master unit on an RFID chip. 9. The method according to claim 8 , wherein each slave unit (Si) has a network access key derived from the serial number (Sni). 10. The method according to claim 1 , wherein the master unit assigns the replaced slave unit (Si) the corresponding network address (Ai) from the data assignment table ((A 1 , Sn 1 ), (A 2 , Sn 2 ), . . . , (Ai, Sni)). 11. A master-slave system comprising: a master unit and a plurality of slave units (Si), wherein every slave unit (Si) has both a unique serial number (Si) and a fixed network address (Ai) and is interconnected with the master unit via a data communication system and wherein a data assignment table ((A 1 , Sn 1 ), (A 2 , Sn 2 ), . . . , (Ai, Sni)) is provided in a system memory of the master unit, in which table the respective network addresses (Ai) of the slave units (Si) are assigned to the respective serial numbers (Sni) of these slave units (Si) according to the position (i) thereof in a determined order in the system, wherein, an input inputting mechanism configured to manually or automatically input a serial number (Sni) or a list of serial numbers (Sni) of replaced slave units (Si) in the system and a data exchange module for manually or automatically replacing the serial number (Sni) stored via the input means for the replaced slave units (Si) and for assigning it to the network address (Ai) for this position in the data assignment table ((A 1 , Sn 1 ), (A 2 , Sn 2 ), . . . , (Ai, Sni)) are provided. 12. The method according to claim 2 , wherein the serial numbers (Sni) of the slave units (Si) to be replaced are produced by means of photographic acquisition of the serial number of a nameplate of the respective slave unit (Si). 13. The method according to claim 6 , wherein the interface is a USB, ethernet, or RS485 interface. 14. The method according to claim 7 , wherein the wireless data transmission is a radio-based, acoustic, or optical transmission. 15. The method according to claim 8 , wherein the RFID chip is arranged directly on or inside a housing of the respective replaced slave unit (Si) that is suitably designed for the radio transmission. 16. The method according to claim 10 , wherein the master unit assigns the replaced slave unit (Si) the corresponding network address (Ai) from the data assignment table ((A 1 , Sn 1 ), (A 2 , Sn 2 ), . . . , (Ai, Sni)) and communicates via this with the corresponding slave unit (Si).