Circuit Simulation Model of Single-Phase Common-Mode Inductors Based on the Permeance-Capacitance Analogy In this paper, the authors propose a circuit simulation model of a single-phase common-mode inductor based on the permeance-capacitance analogy. In the pro... S Takahashi,S Ogasawara - 《Ieej...
The extracted model is based on lumped elements in a SPICE subcircuit format or S-parameter representation and requires no adjustment after fabrica- tion and measurement. To help designers developing their projects, an automatic simulation flow has been implemented for the modelling of planar and ...
Crossovers. Rearranging the crossover parts to work with both load impedances is in itself an interesting puzzle. For example, a simple 1st-order parallel crossover at 5kHz for 8-ohm drivers requires an inductor of 0.25mH and a 4µF capacitor. In contrast, the same crossover for 32 ohm...
all cases. The package RLC parasitic values were extracted from the S parameter measurement in the frequency range of 300 KHz˜1 GHz by a vector network analyzer. The W-element RLGC transmission line model was calculated from the frequency response measurements and was used for SPICE simulation...
The magnetizing (𝐿𝑝,𝐿𝑠Lp,Ls) and leakage (𝑙1,𝑙2l1,l2) inductance properties of the SCASA coupled-inductor coils were characterized by the coupling coefficients k = 0.74 and 𝑘=k= 0 in the LTSpice model. In addition, the nonlinear behavior of Var1 and Var2 were ...
The controlled source equivalent model of the switching device based on a coupled inductor is illustrated in Figure 3, which represents the resistances corresponding to the heat loss of the primary and secondary coils, respectively. Considering consistent coil turns and material, R1=R2R1=R2. The ...
In addition to the macro-model developed in Section 3.1, a SPICE-compatible (based on Verilog-A) model was also used, since electronic circuits are normally designed and simulated in such environments and the interaction with other signals on the readout integrated circuit (ROIC) can be evaluate...