Flowmeter, method for operating a flowmeter, system and method for operating a system

The invention claimed is: 1. A flowmeter, comprising: at least one control and evaluation unit; a sensor unit for capturing a primary variable; wherein the control and evaluation unit has at least one computing unit for determining the flow rate and/or for operating the sensor unit; wherein the sensor unit is connected to the computing unit; wherein the computing unit is designed in such a way that, during operation, the computing unit determines the flow rate from the primary variable; wherein the flowmeter further comprises at least one memory associated with the flowmeter for storing a plurality of data sets; wherein, during operation, the computing unit determines the flow rate based on at least one data set of the plurality of data sets and/or controls the sensor unit based on the at least one data set of the plurality of data sets; wherein the at least one data set includes at least one set of calibration values and/or at least one parameter for the operation of the sensor unit, and/or at least one parameter for determining the flow rate; wherein the at least one data set is selected based on at least one value of a state variable; wherein the at least one state variable is a medium parameter and/or a process parameter; and wherein the computing unit is designed in such a way that the computing unit changes the selection of the at least one data set with at least one other data set of the plurality of data sets during operation depending on a change in the state variable. 2. The flowmeter according to claim 1 , wherein the computing unit has a sensor interface to at least one further sensor for measuring a process parameter and/or a medium parameter. 3. The flowmeter according to claim 2 , wherein the at least one further sensor is connected to the computing unit via a cable connection or a wireless connection. 4. The flowmeter according to claim 2 , wherein the at least one further sensor is a conductivity sensor and/or a temperature sensor and/or a pressure sensor and/or an acceleration sensor and/or a sensor for measuring the density of the medium and/or a sensor for measuring the composition of the medium and/or a sensor for measuring the flow direction of the medium. 5. The flowmeter according to claim 1 , wherein the control and evaluation unit has a device interface; and wherein the control and evaluation unit is connected to an external control unit via the device interface. 6. A method for operating a flowmeter, the flowmeter including at least one control and evaluation unit and a sensor unit for capturing a primary variable, wherein the control and evaluation unit has at least one computing unit for determining the flow rate and/or for operating the sensor unit, wherein the sensor unit is connected to the computing unit, wherein the computing unit is designed in such a way that, during operation, the computing unit determines the flow rate from the primary variable, wherein the flowmeter further comprises at least one memory associated with the flowmeter for storing a plurality of data sets, wherein, during operation, the computing unit determines the flow rate based on at least one data set of the plurality of data sets and/or controls the sensor unit based on the at least one data set, wherein the at least one data set includes at least one set of calibration values and/or at least one parameter for the operation of the sensor unit, and/or at least one parameter for determining the flow rate, wherein the at least one data set is selected based on at least one value of a state variable, wherein the at least one state variable is a medium parameter and/or a process parameter, and wherein the computing unit is designed in such a way that the computing unit changes the selection of the at least one data set with at least one other data set of the plurality of data sets during operation depending on a change in the state variable, wherein the plurality of data sets is stored in the at least one memory, the method comprising: selecting the at least one data set of the plurality of data sets on which the measurement is to be based, by measuring a state variable; operating the sensor unit according to the selected at least one data set; capturing a primary variable by the sensor unit and forwarding to the computing unit; and determining the flow rate by the computing unit from the primary variable and the selected at least one data set. 7. The method according to claim 6 , wherein the at least one state variable is a medium parameter and/or a process parameter. 8. The method according to claim 7 , wherein the at least one process parameter is the velocity of the medium and/or the temperature of the medium and/or the pressure of the medium. 9. The method according to claim 7 , wherein the at least one medium parameter is the density of the medium and/or the conductivity of the medium and/or the composition of the medium. 10. The method according to claim 6 , wherein a device interface is provided and the selection of the at least one data set on which the measurement is to be based is carried out by a command via the device interface or the control and evaluation unit is informed of the at least one data set on which the measurement is to be based by an external control unit via the device interface. 11. A system, comprising: at least two flowmeters, each including: at least one control and evaluation unit; a sensor unit for capturing a primary variable; wherein the control and evaluation unit has at least one computing unit for determining the flow rate and/or for operating the sensor unit; wherein the sensor unit is connected to the computing unit; wherein the computing unit is designed in such a way that, during operation, the computing unit determines the flow rate from the primary variable; wherein the flowmeter further comprises at least one memory associated with the flowmeter for storing a plurality of data sets; wherein, during operation, the computing unit determines the flow rate based on at least one data set of the plurality of data sets and/or controls the sensor unit based on the at least one data set of the plurality of data sets; wherein the at least one data set includes at least one set of calibration values and/or at least one parameter for the operation of the sensor unit, and/or at least one parameter for determining the flow rate; wherein the at least one data set is selected based on at least one value of a state variable; wherein the at least one state variable is a medium parameter and/or a process parameter; and wherein the computing unit is designed in such a way that the computing unit changes the selection of the at least one data set to at least one other data set of the plurality of data sets during operation depending on a change in the state variable; wherein the at least two flowmeters are arranged in the course of a pipe system; a communication system via which the control and evaluation units of the flowmeters can communicate with one another during operation; wherein the flowmeters are designed and linked to one another in such a way that, during operation, the flowmeters use an identical data set or identical data sets of the plurality of data sets depending on at least one state variable for determining the flow rate and/or for operating the respective sensor unit. 12. The system according to claim 11 , wherein the system is a filling system for filling a medium fluid. 13. The system according to claim 11 , wherein at least partially identical data sets of the plurality of data sets are stored in the at least two control and evaluation units of the flowmeters.