Patent Number: 
Section: claims

1. A method for checking the operability of a rotary encoder, the method comprising the steps of:providing a rotary encoder with a sensor unit and with a monitoring unit;operating the rotary encoder including making measurements with the sensor unit to provide a pair of measuring signals, the pair of measuring signals being shifted in phase relative to one another and being representative of an amount of rotation or an angular position sensed by the sensor unit;with the monitoring unit, comparing the pair of measuring signals with reference information stored in the rotary encoder;with the monitoring unit, combining amplitude values of the pair of measuring signals to form a characteristic value;providing an association of characteristic values or characteristic value ranges with reference information, and storing the association in the rotary encoder as quality values which are representative of admissible amplitude value combinations;with the monitoring unit, selecting a quality value for the formed characteristic value based on the stored association of characteristic values and reference information; andwith the monitoring unit, generating a monitoring signal with a signal content in dependence upon the selected quality value and representative of the operability of the rotary encoder. 2. A method according to claim 1, wherein the characteristic value is formed from the measuring signal pair by an arithmetic function combination of the amplitude values. 3. A method according to claim 1, wherein:the amplitude values of the measuring signal pair are squared to provide squared amplitude values; andthe squared amplitude values are added. 4. A method according to claim 1, wherein the quality value for a perfect rotary encoder is constant for all rotary angle values. 5. A method according to claim 1, wherein the amplitude values are digitized and used for addressing an at least two-dimensional characteristic diagram in which quality values are stored. 6. A method according to claim 5, further comprising:providing a memory; andstoring the association of characteristic values and the quality values wherein the quality value is read from the memory based on an associated characteristic value memory address. 7. A method according to claim 6, wherein during rotary encoder operation, a predetermined minimum amount of rotary angle values are converted into characteristic values and that the characteristic values are collected and stored. 8. A method according to claim 7, wherein, during rotary encoder operation, quality values are determined in dependence upon a residence likelihood of the characteristic values. 9. A method according to claim 8, further comprising:providing predetermined quality value limits; andcomparing the selected quality value with the predetermined quality value limits. 10. A method according to claim 9, further comprising:generating square wave signals from the measuring signal pair;providing one or more square wave quality values; andcomparing the generated square wave signals with the square wave quality value by selecting one of the square wave signals on a basis of predetermined amplitude ratios of the pair of measuring signals and by examining the amplitude value of this square wave signal in comparison with the square wave quality value. 11. A method according to claim 1, further comprising:monitoring a temperature of a signal processing unit;comparing the monitored temperature to a threshold temperature value; anddetecting a short circuit upon the monitored temperature exceeding a threshold temperature value. 12. A method according to claim 1, wherein the rotary encoder includes a processing unit and the method further comprises:with the processing unit, providing an output in the form of a rotary encoder output representing an amount of rotation or an angular position detected by the rotary encoder based on the pair of measuring signals. 13. A rotary encoder comprising:a sensor unit sensing an amount of rotation or an angular position and generating, during operation of the rotary encoder, at least one pair of sinusoidal measuring signals, which are shifted in phase relative to one another;a monitoring unit connected to the sensor unit in a measuring signal-transmitting manner, the monitoring unit providing an output in the form of a monitoring signal representative of the operability of the rotary encoder, the monitoring unit comprising:a computing module generating a characteristic value from amplitude values of the pair of measuring signals;a memory unit with stored quality values and a stored association of characteristic values or characteristic value ranges with reference information, as the quality values which are representative of admissible amplitude value combinations;a verification device selecting a quality value for the formed characteristic value based on the stored association of characteristic values and reference information; andan alarm unit controlled in dependence upon the quality value selected by the verification device wherein the monitoring signal generated is based on the quality value selected. 14. A rotary encoder according to claim 13, wherein a signal output of the verification device is a verification signal which is representative of the result of the examination of the characteristic value in comparison with the quality value and which is supplied to the alarm unit. 15. A rotary encoder according to claim 13, wherein the monitoring signal, which depends on the verification signal, is adapted to be applied to the alarm unit. 16. A rotary encoder according to claim 13, further comprising a signal converter converting the measuring signals into square wave signals, said signal converter being connected to the sensor unit on an input side and being connected to the computing module or the verification device on an output side. 17. A rotary encoder according to claim 16, further comprising at least one signal comparison unit comparing the amplitude values of the measuring signals and/or comparing the square wave signals applied to the signal output with output signals of the sensor unit and/or output signals of a signal converter. 18. A rotary encoder according to claim 17, wherein the signal comparison unit is connected to the alarm unit to control the alarm unit. 19. A rotary encoder according to claim 13, further comprising an acceleration measuring device, wherein the acceleration measuring device is connected to the alarm unit to control the alarm unit. 20. A rotary encoder comprising:a sensor unit sensing an amount of rotation or an angular position and generating, during operation of the rotary encoder, at least one pair of sinusoidal measuring signals, which are shifted in phase relative to one another and are representative of an amount of rotation or an angular position sensed by the sensor unit;a processing unit connected to sensor unit in a measuring signal-transmitting manner, the processing unit providing an output in the form of a rotary encoder output representing an amount of rotation or an angular position detected by the rotary encoder based on the pair of measuring signals;a monitoring unit connected to the sensor unit in a measuring signal-transmitting manner, the monitoring unit providing an output in the form of a monitoring signal representative of the operability of the rotary encoder, the monitoring unit comprising:a computing module generating a characteristic value from the combined amplitude values of the pair of measuring signals;a memory unit with stored quality values and a stored association of characteristic values or ranges of characteristic values with reference information, as the quality values which are representative of amplitude value combinations;a verification device selecting a quality value for the formed characteristic value based on the stored association of characteristic values and reference information; anda monitoring signal unit controlled in dependence upon the quality value selected by the verification device wherein the monitoring signal unit generates the monitoring signal.