![DE10307668B3 - Determining parameters of Petersen-coil compensated network without de-tuning the coils, by feeding composite current into zero-phase system, and measuring voltages - Google Patents DE10307668B3 - Determining parameters of Petersen-coil compensated network without de-tuning the coils, by feeding composite current into zero-phase system, and measuring voltages - Google Patents](https://patentimages.storage.googleapis.com/d7/0c/d2/3ae015fa213180/00170002.png)
DE10307668B3 - Determining parameters of Petersen-coil compensated network without de-tuning the coils, by feeding composite current into zero-phase system, and measuring voltages - Google Patents
![DE10307668B3 - Determining parameters of Petersen-coil compensated network without de-tuning the coils, by feeding composite current into zero-phase system, and measuring voltages - Google Patents DE10307668B3 - Determining parameters of Petersen-coil compensated network without de-tuning the coils, by feeding composite current into zero-phase system, and measuring voltages - Google Patents](https://patentimages.storage.googleapis.com/67/2a/45/35472a67397ae3/00170003.png)
DE10307668B3 - Determining parameters of Petersen-coil compensated network without de-tuning the coils, by feeding composite current into zero-phase system, and measuring voltages - Google Patents
![DE10307668B3 - Determining parameters of Petersen-coil compensated network without de-tuning the coils, by feeding composite current into zero-phase system, and measuring voltages - Google Patents DE10307668B3 - Determining parameters of Petersen-coil compensated network without de-tuning the coils, by feeding composite current into zero-phase system, and measuring voltages - Google Patents](https://patentimages.storage.googleapis.com/22/92/b1/704d4dd3202af9/00170005.png)