Monitoring a transformer comprising a tap changer

The invention claimed is: 1. A monitoring device for monitoring a transformer comprising a tap changer, said transformer having at least two magnetically coupled windings arranged at a first and a second transformer side and the tap changer having impedance elements (R 1 , R 2 ) and a switch configured to gradually pass the impedance elements when changing between two tap changer positions (P 1 , P 4 ) during a tap change operation, the monitoring device comprising: a waveform analyzer operative to obtain waveforms of measured power transmission properties (Iin, Uin, Iout, Uout) recorded at the first and second transformer sides, said measured power transmission properties being currents and/or voltages, process the recorded waveforms for obtaining at least one waveform representing a tap change operation, and extract information (ODT, AMP) indicative of the health of the tap change from said at least one waveform that represents the tap change operation, wherein the extracted information includes an operation duration time (ODT) covering at least a part of the tap change operation and/or an amplitude (AMP) of said at least one waveform representing the tap change operation. 2. The monitoring device according to claim 1 , wherein the waveform analyzers when processing the recorded waveforms is further operative to determine a difference waveform that sets out a difference between a power transmission property on the two sides of the transformer based on the measured power transmission properties. 3. The monitoring device according to claim 2 , wherein the difference waveform is a difference waveform of a power transmission property on the two sides of the transformer and the waveform analyzer when processing the recorded waveforms is further operative to predict at least one waveform of the same type as the difference waveform and to obtain each waveform representing the tap change operation as a difference between the difference waveform and the corresponding predicted waveform. 4. The monitoring device according to claim 3 , wherein the measured power transmission properties includes currents and voltages, the power transmission property of the difference waveform is power, the power difference waveform is a power loss waveform and there is one predicted waveform and differences waveform. 5. The monitoring device according to claim 3 , wherein the measured power transmission properties includes currents, the power transmission property of the difference waveform is current and the waveform analyzer unit, when predicting at least one waveform is operative to predict two waveforms, one forward in time and one backwards in time, from the difference waveform and when obtaining said at least one waveform is operative to obtain two deviation waveforms one as a difference between the difference waveform and a first of the predicted waveforms and another as a difference between the difference waveform and a second of the predicted waveforms. 6. The monitoring device according to claim 2 , wherein the measured power transmission properties includes currents, the power transmission property of the difference waveform is current and the waveform analyzer when processing the waveforms of the measured power transmission proprieties is further operative to determine time dependent discrete Fourier transformation (DFT) phasors on the first and second transformer side and where the difference waveform is a time dependent difference phasor between these DFT phasors and to extract said information from the time dependent difference phasor. 7. The monitoring device according to claim 6 , wherein the transformer is a three-phase transformer and the waveform analyzer is configured to perform the processing separately in respect of each phase in order to obtain a waveform for the tap changing operation of each phase from which information is extracted. 8. A method for monitoring a transformers comprising a tap changer, said transformer having at least two magnetically coupled windings and the tap changer having impedance elements (R 1 , R 2 ) and a switch configured to gradually pass the impedance elements when changing between two tap changer positions (P 1 , P 4 ) during a tap change operation, the method being performed in a protection device and comprising: obtaining waveforms of measured power transmission properties (Iin, Uin, Iout, Uout) recorded at the first and second transformer sides, said measured power transmission properties being currents and/or voltages, processing the recorded waveforms for obtaining at least one waveform representing a tap change operation, and extracting information (ODT, AMP) indicative of the health of the tap change from said at least one waveform that represents the tap change operation, wherein the extracted information includes an operation duration time (ODT) covering at least a part of the tap change operation and/or an amplitude (AMP) of said at least one waveform representing the tap change operation. 9. The method according to claim 8 , wherein the processing of recorded waveforms further includes determining a difference waveform that sets out a difference between a power transmission property on the two sides of the transformer based on the measured power transmission properties. 10. The method according to claim 9 , wherein the difference waveform is a difference waveform of a power transmission property on the two sides of the transformer and the processing the recorded waveforms further including predicting at least one waveform of the same type as the difference waveform and obtaining each waveform representing the tap change operation as a difference between the difference waveform and the corresponding predicted waveform. 11. The method according to claim 10 , wherein the measured power transmission properties include currents (Iin, Iout) and voltages (Uin, Uout), the power transmission property of the difference waveform is power, the power difference waveform is a power loss waveform (Ploss) and there is one predicted waveform and difference waveform. 12. The method according to claim 10 , wherein the measured power transmission properties includes currents (Iin, Iout), the power transmission property of the difference waveform is current and the predicting of at least one waveform includes predicting two waveforms, one forward in time and one backwards in time, from the difference waveform and the obtaining of said at least one waveform having obtaining two deviation waveforms one as a difference between the difference waveform and a first of the predicted waveforms and another as a difference between the difference waveform and a second of the predicted waveforms. 13. The method according to claim 9 , wherein the measured power transmission properties includes currents (Iin, Iout), the power transmission property of the difference waveform is current and the processing of the waveforms of the measured power transmission proprieties further includes determining time dependent discrete Fourier transformation (DFT) phasors on the first and second transformer side, where the difference waveform is a time dependent difference phasor between these DFT phasors, and the extracting of said information includes extracting the information from the time dependent difference phasor. 14. The method according to claim 13 , wherein the transformer is a three-phase transformer and the processing is performed separately in respect of each phase in order to obtain a waveform for the tap changing operation of each phase from which information is extracted. 15. A computer program product for monitoring a transf