Method for operating a sensor system, sensor system and measurement signal

The invention claimed is: 1. Method for operating a sensor system, comprising: providing signals output via at least one sensor unit, the signals comprising: primary measurement value signals which are measurement values of the sensor unit or are generated from measurement values of the sensor unit, and separate coefficient signals which characterize a measurement value capture of the measurement values, wherein: coefficients which are contained in the coefficient signals characterize at least one of (i) what margin, (ii) what security and (iii) what quality exists in the measurement value capture, and the coefficient signals are transmitted at a data rate that is less than a data rate of the measurement value signals. 2. Method in accordance with claim 1 , wherein the primary measurement value signals are electrical signals which are measurement values of, or are generated from, one or more physical quantities. 3. Method in accordance with claim 1 , wherein the primary measurement value signals and the coefficient signals are transmitted on different channels. 4. Method in accordance with claim 1 , wherein the primary measurement value signals and the coefficient signals are transmitted in attached relationship with each other. 5. Method in accordance with claim 1 , wherein the coefficient signals are permanently transmitted. 6. Method in accordance with claim 1 , wherein the coefficient signals and the primary measurement value signals are transmitted in analog form. 7. Method in accordance with claim 1 , wherein the primary measurement value signals and the coefficient signals are transmitted in serial digital form. 8. Method in accordance with claim 7 , wherein the primary measurement value signals are transmitted as digital datum comprising a plurality of data bits. 9. Method in accordance with claim 8 , wherein a number of the data bits requested and output is defined by clock impulses of a controller. 10. Method in accordance with claim 8 , wherein at least one of the datum of the measurement value signals and datum of the coefficient signals comprises one or more extra bits. 11. Method in accordance with claim 10 , wherein: the measurement value signal datum is provided with CRC bits, and CRC bits are attached to the coefficient signal datum. 12. Method in accordance with claim 11 , wherein a number of clock periods for the measurement value signals with n data bits with attached coefficient signals with m data bits and with q data bits for a CRC datum is n+m+2q. 13. Method in accordance with claim 7 , wherein one of the coefficient signals is attached to datum of an associated one of the primary measurement value signals as a digital datum comprising data bits. 14. Method in accordance with claim 13 , wherein a number of associated clock periods of the primary measurement value signal with n data bits with the attached coefficient signal with m data bits is n+m. 15. Method in accordance with claim 7 , wherein the primary measurement value signals and the coefficient signals are transmitted according to SSI interface or BiSS-C interface. 16. Method in accordance with claim 1 , wherein the primary measurement value signals are transmitted as analog or digital increments. 17. Method in accordance with claim 16 , wherein the coefficient signals are transmitted as increments with a time distance apart that is less than a time distance between increments of the primary measurement value signals. 18. Method in accordance with claim 1 , wherein transmission of the coefficient signals is such that a superordinate controller can decide whether or not it evaluates the coefficient signals. 19. Method in accordance with claim 1 , wherein a signal chain comprising the primary measurement value signals and the coefficient signals is formed such that there is provided a capability of selecting whether or not coefficients are read out. 20. Method in accordance with claim 1 , wherein the coefficient signals are determined at the sensor system without the use of additional monitoring sensors. 21. Method in accordance with claim 1 , wherein in a sensor system in which a time period between certain two zero-crossings is measured as one of the primary measurement value signals, a maximum signal level between the zero-crossings results in a coefficient of one of the coefficient signals. 22. Method in accordance with claim 1 , wherein the measurement values are captured from a plurality of signals of the at least one sensor unit. 23. Method in accordance with claim 22 , wherein a check is performed as to whether on a certain zero-crossing of an analog first sensor signal, a digital second signal is in a high state and if so, a measurement signal is generated. 24. Method in accordance with claim 23 , wherein one of the coefficient signals is generated from a length of the second sensor signal at HIGH and a position thereof relative to the zero-crossing. 25. Method in accordance with claim 1 , wherein in a magnetostrictive displacement measuring system, a position value is derived from a voltage signal and an amplitude of the voltage signal forms a coefficient signal. 26. Method in accordance with claim 1 , wherein in a magnetically encoded displacement measuring system, a coefficient signal is determined from at least one of (i) an amplitude or amplitude ratio of magnetic sensor signals and (ii) a phase or phase ratio of magnetic sensor signals. 27. Method in accordance with claim 1 , wherein in a sensor system comprising a plurality of sensor units, the measurement value of the sensor unit that has a highest coefficient is used. 28. Sensor system, comprising: at least one sensor unit which provides measurement values for primary measurement value signals, and a coefficient determining unit which generates separate coefficient signals that characterize a measurement value capture of the measurement values, wherein: coefficients which are contained in the coefficient signals characterize at least one of (i) what margin, (ii) what security and (iii) what quality exists in the measurement value capture; the primary measurement value signals and the separate coefficient signals are output from the system; and the coefficient signals are transmitted at a data rate that is less than a data rate of the measurement value signals. 29. Sensor system in accordance with claim 28 , wherein a signal generating unit is provided which connects the coefficient signals to the primary measurement value signals. 30. Sensor system in accordance with claim 28 , wherein the coefficient determining unit generates the coefficient signals without use of additional monitoring sensors. 31. Measurement signal of a sensor system, comprising: a primary measurement value signal, and a coefficient signal which characterizes a measurement value capture of measurement values, wherein: coefficients which are contained in the coefficient signal characterize at least one of (i) what margin, (ii) what security and (iii) what quality exists in the measurement value capture, and the coefficient signal is transmitted at a data rate that is less than a data rate of the measurement value signal. 32. Measurement signal in accordance with claim 31 , wherein the primary measurement value signal is a digital serial sig