System for operating a physical measuring chain

What is claimed is: 1. A system for operating a physical measuring chain that is designed to measure a physical measurand at a measuring location, the system comprising: a plurality of physical measuring components that are in a cause-and-effect relationship to each other; wherein each of the plurality of physical measuring components includes a respective identifier in which is stored a respective identification code; wherein the plurality of physical measuring components includes at least one physical sensor, at least one physical transmission means and at least one physical evaluation unit; at least one identification means, which identification means is arranged at the measuring location and is configured for detecting each respective identification code stored in the identifier from each physical measuring component; at least one data processing unit arranged at a data processing location remote from the measuring location, wherein the data processing unit includes at least one data processor, at least one software configured to run on the at least one data processor, and at least one data memory connected to the at least one data processor and wherein measuring component data is stored in the at least one data memory, wherein the software is designed to read out measuring component data from the data memory for the transmitted identification codes and to generate a digital measuring chain with the read-out measuring component data; a data network connected to the data processing unit and configured to transmit the detected identification code to the data processing unit; wherein the digital measuring chain includes a plurality of digital measuring components that include at least one digital sensor, at least one digital transmission means and at least one digital evaluation unit; and at least one computer unit which is arranged at the measuring location, wherein the data network is configured to transmit the digital measuring chain to the computer unit. 2. The system according to claim 1 , wherein each respective identifier of each of the plurality of physical measuring components is a TEDS; wherein the identification means of each physical measuring component is configured to automatically detect the identification code stored in the TEDS; wherein the data network is configured to automatically transmit the detected identification codes to the data processing unit; wherein the at least one software is designed to automatically read out measuring component data from the at least one data memory for any TEDS that have been transmitted to the data processing unit and to automatically generate a digital measuring chain with the read-out measuring component data; and wherein the data network is configured to automatically transmit the digital measuring chain to the computer unit. 3. The system according to claim 2 , wherein the computer unit includes at least one computer data processor that includes at least one computer software and at least one computer input means; wherein at least one operating point can be entered via the at least one computer input means; wherein the at least one computer software is designed to automatically extract at least one configuration parameter from the transmitted digital measuring chain for the at least one operating point entered. 4. The system according to claim 3 , wherein the at least one operating point entered includes at least one of the following data elements: a range of magnitudes of the at least one operating point between a smallest operating point and a largest operating point; a frequency range of the at least one operating point between a slowest operating point and a fastest operating point; a temperature range of the at least one operating point between a coldest operating point and a warmest operating point. 5. The system according to claim 1 , wherein the computer unit includes at least one computer data processor that runs at least one computer software and includes at least one computer input means; wherein at least one operating point can be entered via the computer input means; wherein the at least one computer software is designed to automatically extract at least one configuration parameter from the transmitted digital measuring chain for the at least one operating point entered. 6. The system according to claim 5 , wherein the at least one operating point entered includes at least one of the following data elements: a range of magnitudes of the at least one operating point between a smallest operating point and a largest operating point; a frequency range of the at least one operating point between a slowest operating point and a fastest operating point; a temperature range of the at least one operating point between a coldest operating point and a warmest operating point. 7. The system according to claim 6 , wherein the transmitted digital measuring chain includes measuring component data concerning measuring ranges of the physical sensor; wherein the at least one computer software is designed to extract a best measuring range of the at least one physical sensor from the measuring ranges of the at least one physical sensor as a configuration parameter for the entered range of magnitudes of the at least one operating point, in which best measuring range a largest operating point does not exceed the full scale value of the best measuring range and, furthermore, in which best measuring range the at least one physical sensor still measures a smallest operating point with the highest possible resolution. 8. The system according to claim 7 , wherein the transmitted digital measuring chain includes measuring component data concerning sensitivities by which the at least one physical sensor measures the physical measurand in different measurement ranges; and wherein the at least one computer software is adapted to extract a best sensitivity in the best measurement range of the at least one physical sensor from the sensitivities of the at least one physical sensor as a configuration parameter. 9. The system according to claim 7 , wherein the at least one physical sensor is a piezoelectric sensor; wherein the transmitted digital measuring chain includes measuring component data concerning magnitudes of the preload force of the piezoelectric sensor; and wherein the at least one computer software is designed to extract a best magnitude of the preload force of the piezoelectric sensor from the measuring component data that concern magnitudes of the preload force of the piezoelectric sensor for the entered range of magnitudes of the at least one operating point, which best magnitude of the preload force added to a largest operating point is substantially equal to the full scale value of a best measuring range. 10. The system according to claim 9 , wherein the transmitted digital measuring chain includes measuring component data concerning sensitivities by which the at least one physical sensor is configured to measure the physical measured value at different magnitudes of the preload force; and wherein the at least one computer software is adapted to extract a best sensitivity at a best magnitude of the preload force of the at least one physical sensor from the sensitivities of the at least one physical sensor as a configuration parameter. 11. The system according to claim 7 , wherein the transmitted digital measuring chain includes measuring component data concerning the smallest measurement inaccuracies prevailing in different measurement ranges of the at least one physical sensor and concerning the smallest measurement inaccuracies of the physical evaluation unit prevailing for different physical measurands; and wherein the at least one computer s