The output of the analysis has two parts: (1) an output calculated at the end of each cycle to give an idea of a) the convergence of the solution b) the absolute error in variable integration calculated in the predictorcorrector routine c) the source of that absolute error. (2) In the last cycle, the following information is given for a converged cycle: a) at intervals through the cycle at 128 equally spaced points the values of eleven terminal parameters of voltage and current i) input voltage (VIN) ii) input current (1(1)) iii) predictor-corrector error in diode junction voltage (ERVDJ) iv) predictor-corrector error in diode current (ERID) v) diode current (ID) vi) diode junction current (IDJ) vii) diode junction voltage (VDJ) viii) diode voltage (V(NODDIO)) ix) load voltage (V(NUMNOD)) x) current into diode node (I(NODDIO-1)) xi) current from diode node (I(NODDIO)) b) the power integrated over the cycle in all "loss" mechanisms i) input power to the element (POWER (1)) ii) power loss in each skin loss element (POWER(J) for J = 2 to J = NUMNOD-1)
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