@article{7462,
  author = {W. A. Bongers and V. van Beveren and D. J. Thoen and Pjwm Nuij and M.R. de Baar and A. J. H. Donne and E. Westerhof and A. P. H. Goede and B. Krijger and M. A. van den Berg and M. Kantor and M. F. Graswinckel and B.A. Hennen and F. C. Schüller},
  title = {Intermediate frequency band digitized high dynamic range radiometer system for plasma diagnostics and real-time Tokamak control},
  abstract = {An intermediate frequency (IF) band digitizing radiometer system in the 100-200 GHz frequency range has been developed for Tokamak diagnostics and control, and other fields of research which require a high flexibility in frequency resolution combined with a large bandwidth and the retrieval of the full wave information of the mm-wave signals under investigation. The system is based on directly digitizing the IF band after down conversion. The enabling technology consists of a fast multi-giga sample analog to digital converter that has recently become available. Field programmable gate arrays (FPGA) are implemented to accomplish versatile real-time data analysis. A prototype system has been developed and tested and its performance has been compared with conventional electron cyclotron emission (ECE) spectrometer systems. On the TEXTOR Tokamak a proof of principle shows that ECE, together with high power injected and scattered radiation, becomes amenable to measurement by this device. In particular, its capability to measure the phase of coherent signals in the spectrum offers important advantages in diagnostics and control. One case developed in detail employs the FPGA in real-time fast Fourier transform (FFT) and additional signal processing. The major benefit of such a FFT-based system is the real-time trade-off that can be made between frequency and time resolution. For ECE diagnostics this corresponds to a flexible spatial resolution in the plasma, with potential application in smart sensing of plasma instabilities such as the neoclassical tearing mode (NTM) and sawtooth instabilities. The flexible resolution would allow for the measurement of the full mode content of plasma instabilities contained within the system bandwidth. (C) 2011 American Institute of Physics.},
  year = {2011},
  journal = {Review of Scientific Instruments},
  volume = {82},
  pages = {15},
  month = {Jun},
  isbn = {0034-6748},
  doi = {10.1063/1.3594101},
  language = {English},
}