Device for contactless communication and use of a memory device

The invention claimed is: 1. A device for contactless communication between a surgical apparatus and at least one surgical instrument, the device comprising: a surgical apparatus that includes a control and evaluation device having at least one reading device which is connected to an antenna for the at least one reading device; and at least one surgical instrument to which is assigned at least one writable and readable memory device which is connected to an antenna for the at least one writable and readable memory device and is at least partially embodied in a connecting cable arranged to connect the at least one surgical instrument to the surgical apparatus, the at least one surgical instrument comprising: at least one sensor; and a measuring device configured to acquire at least one parameter from the at least one sensor, wherein the at least one writable and readable memory device is designed as a transponder IC with a freely programmable microprocessor and is configured to send the at least one parameter to the reading device of the surgical apparatus via a radio link, and wherein the control and evaluation device is configured to evaluate the at least one parameter, generate an instruction for controlling an operation of the at least one surgical instrument based on the at least one parameter and to send the instruction to the at least one writable and readable memory device via the radio link. 2. The device according to claim 1 , wherein the measuring device is assigned at least one actuator arranged on the instrument for influencing the instrument function. 3. The device according to claim 2 , wherein the measuring device is embodied in such a way that the acquisition of the at least one parameter and the influencing the function of the instrument can be performed independently of each other. 4. The device according to claim 2 , wherein the measuring device is embodied in such a way that the influencing the function of the instrument takes place on the basis of an acquired parameter. 5. The device according to claim 1 , wherein the measuring device is embodied in the instrument or in the connecting cable in order to connect the instrument to the surgical apparatus. 6. The device according to claim 1 , wherein the measuring device is embodied in such a way that it acquires the actuation of a switch on the instrument as the at least one parameter. 7. The device according to claim 1 , wherein the surgical apparatus and the instrument are embodied for water jet surgery and the measuring device is embodied and arranged in such a way that the pressure in a feed line for supplying water to the tissue to be treated of a water jet applicator can be acquired as a parameter via the sensor. 8. The device according to claim 1 , wherein the surgical apparatus and the instrument are embodied for HF surgery and the measuring device is embodied and arranged in such a way that the temperature of an electrode of an HF surgical instrument can be acquired as a parameter during usage via the sensor. 9. The device according to claim 1 , wherein the writable and readable memory device is embodied in such a way that data from the instrument relating to sterilisation cycles, storage life, instrument identification or similar data can be read-in and read-out. 10. The device according to claim 1 , wherein the instrument comprises at least one coding element which is assigned to the writable and readable memory device and which is embodied in such a way that a coding for the identification of the instrument can be acquired by the reading device on the surgical apparatus. 11. The device according to claim 10 , wherein the reading device with the antenna for the apparatus is embodied in such a way that the data from the instrument or the coding can be acquired through a packaging of the instrument. 12. The device according to claim 11 , wherein the packaging of the instrument is a sterile packaging. 13. The device according to claim 1 , wherein the transponder IC and the sensor are supplied with energy by means of the radio link. 14. A system for contactless communication between a surgical apparatus and at least one surgical instrument, the system comprising: a high frequency (HF) surgical apparatus that includes a control and evaluation device having at least one reading device which is connected to an antenna for the at least one reading device; and at least one HF surgical instrument having an electrode and at least one writable and readable memory device connected to an antenna for the at least one writable and readable memory device and is embodied in a connecting cable to connect the HF surgical instrument to the HF surgical apparatus, the at least one surgical instrument comprising: at least one temperature sensor configured to acquire the temperature of the electrode of the HF surgical instrument during operation of the HF surgical instrument; and a measuring device configured to acquire from the at least one temperature sensor at least one parameter, wherein the at least one writable and readable memory device with the antenna for the instrument is designed as a transponder IC with a programmable microprocessor and is configured to send the at least one parameter to the reading device of the surgical apparatus via a radio link, wherein the transponder IC and the at least one temperature sensor are supplied with energy by means of the radio link, and wherein the control and evaluation device is configured to evaluate the at least one parameter, generate an instruction to control the instrument based on the at least one parameter and send the instruction to the at least one writable and readable memory device via the radio link. 15. A system for contactless communication between a surgical apparatus and at least one surgical instrument, the system comprising: a surgical apparatus that includes a control and evaluation device having at least one reading device which is connected to an antenna for the at least one reading device; and at least one surgical instrument with at least one writable and readable memory device which is connected to an antenna for the at least one writable and readable memory device and is embodied in a connecting cable to connect the at least one surgical instrument to the surgical apparatus, the at least one surgical instrument comprising: at least one switch for acquiring an input from a user; and a measuring device configured to acquire from the at least one switch at least one parameter, wherein the at least one writable and readable memory device is designed as a transponder IC with a programmable microprocessor and is configured to send the at least one parameter to the reading device of the surgical apparatus via a radio link, wherein the transponder IC and the sensor are supplied with energy by means of the radio link, and wherein the control and evaluation device is configured to evaluate the at least one parameter, generate an instruction to control the surgical apparatus based on the at least one parameter and send the at least one parameter to the at least one writable and readable memory device via the radio link. 16. A system for contactless communication between a surgical apparatus and at least one surgical instrument, the system comprising: a water jet apparatus that includes a control and evaluation device having at least one reading device which is connected to an antenna for the at least one reading device; and at least one water jet surgical instrument with at least one writable and readable memory device which is connecte