Method and circuit for detecting an open line of the sine/cosine receiver coil of a resolver

The invention claimed is: 1. A method for detecting an open signal line of a receiver coil of a resolver, the method comprising: providing a pull-up resistor and a pull-down resistor which are connected with their one end to terminals for the signal lines; measuring the voltage between the two signal line terminals of the receiver coil at least two sampling times located symmetrically with respect to the center of the exciter period; calculating an offset value by forming a mean value which comprises the measurement values at the two sampling times of an exciter period; and identifying an open line when the offset value exceeds a threshold value. 2. The method as claimed in claim 1 , wherein the pull-up resistor and the pull-down resistor are supplied at their other end with a voltage potential which differ by a constant amount from the other which is smaller than the measuring range of the AD converter for the measurement values of the receiver coil. 3. The method as claimed in claim 1 , in which the calculating of the offset value takes into consideration the measurement values at the two sampling times of only one individual exciter period. 4. The method as claimed in claim 1 , in which the calculating takes into consideration the measurement values at the two sampling times of a plurality of preceding exciter periods. 5. Circuit for detecting an open line of a receiver coil of a resolver, the circuit comprising: a control device with a processor, power stages, first terminals for providing signals at the exciter lines to the exciter coil of the resolver and second terminals for connecting the signal lines for the signals of the sinusoidal and the cosinusoidal coil; two AD converters which are connected to the second terminals of the control device and the outputs of which can be read and evaluated by the processor; the exciter lines which couple the first terminals to the exciter coil of the resolver; the signal lines to be diagnosed for the sinusoidal and cosinusoidal signals provided by the resolver, which couple the resolver to the second terminals of the control device; pull-up resistors which are connected with their one end to one of the terminals for the lines of the sinusoidal coil and the cosinusoidal coil and with their other end to a first direct-voltage potential; and pull-down resistors which are connected with their one end to the other one of terminals for the lines of the sinusoidal coil and the cosinusoidal coil and with their other end to a second direct-voltage potential, the second direct-voltage potential being lower than the first direct-voltage potential, in such a manner that the voltage difference lies between and in the measuring range of the AD converters; and a display or storage device for displaying or storing the information identified by the processor, into which the positive detection of an open line of one of the receiver coils of a resolver is included. 6. The circuit as claimed in claim 5 , wherein the pull-up and the pull-down resistors are integrated into the control device. 7. The circuit as claimed in claim 5 , wherein the resistance values of the pull-up resistors and the pull-down resistors are large compared with the ohmic resistance of the sinusoidal coil and of the cosinusoidal coil.