Min Zhou (minzhou@terpmail.umd.edu) College Park, MD, USA, Dec. 2018 Note: the power in the file's name is the power level coming from the PNA. The actural power to the DUT is 35 dBm larger. \20180125 1 port low loss \no diode - 120 realizations for the linear low loss case, at -30 dBm. - Srad: radiation S-parameters without diode. \with diode - 120 realizaions at powers -40 dBm, -30 dBm, -20 dBm, -10 dBm, -5 dBm. - Srad at -40 dBm, -30 dBm, -20 dBm, -10 dBm, -5 dBm. Radiation S-parameters with diode. - Srad-SOA at -40 dBm, -30 dBm, -20 dBm, -10 dBm, -5 dBm. S-parameters with one short orbit to wall A. \20180419 1 port high loss \no diode - 120 realizations for the linear high loss case, at -10 dBm. \with diode - 120 realizaions at powers -40 dBm, -30 dBm, -20 dBm, -10 dBm, -5 dBm, 0 dBm. \matlab codes - get_alpha.m: get loss parameter alpha using linear RCM approach. - get_eta.m: get radiation efficiency. - get_figures.m: get all the figures in the main text and the supplemental material. - pdf600_0.01_30_4000.mat: theoretically generated PDF of the normalized impedance for loss parameter alpha in range [0.01 30]. - other helper functions: histnor2.m, setPlot.m. - other data files are generated by get_alpha.m and get_eta.m for further analysis or plots. \simulations - Co-simulation-power-v12.cst: CST model of the nonlinear port, where a SPICE model of the diode is imported. The amplitude dependent S-parameters and power flow (which can calculate the radiation efficiency) can be simulated. - pack2d_v5.cir: SPICE model including both the diode and the package, where C12 and C23 are tuned to work in the frequency range we are interested. - D336_v7.txt: the original SPICE model of the diode. - SOT23_2.txt: the origianl SPICE model of the package. - README.TXT: the orignal instruction for the SPICE model. - sim_diode.mat: simulated S-paramters and power flows of the nonlinear port for input amplitudes 0.1 V, 0.5 V, 1 V, 5 V, 10 V. - sim_lin.mat: simulated radiation S-parameters of the linear port.