Successful design of broadband EMC filters necessitates consideration of the actual (broadband) response of all the components used. The correct method can vary widely for different components. The actual terminations of the filter can, under certain circumstances, nullify its effect and hence must definitely be considered. A very convenient method ...
Which parasitic parameters are there in the transformer and how can they be measured and subsequently represented in a simulation model? We want to investigate this on the basis of a transformer and investigate using LTspice. “Ideal” transformer models are usually used to make it as easy as possible for ...
Simulation of filter circuits and switching controllers with LTspice With LTspice, Linear Technology has developed a high quality freeware SPICE simulator with no limitations on nodes or components and whose command set is largely compatible with other SPICE versions. Here are a few of the software highlights: Comfortable circuit diagram ...
Ferrite equivalent circuitsMost engineers think of ferrite as an inductive component with which coils, transformers, choke etc. can be manufactured. Losses in the material are accepted as an annoyance and best avoided and are seen to mark a limit of the operating frequency range.The theoreticians had the misfortune of choosing ...
by Wai Keung Mo, Kasper M.Paasch and Thomas Ebel Centre for Industrial Electronics, Mads Clausen Institute, University of Southern Denmark, Denmark presented by W.K.Mo at the 2nd PCNS 10-13th September 2019, Bucharest, Romania as paper 4.2. INTRODUCTION Low Voltage DC Distribution (LVDC) distribution is an innovative method to the public ...
L.2. Equivalent Circuits and Simulation Models Modern measuring equipment, such as the HP4195A impedance analyzer and similar instruments, allow computer-aided derivation of equivalent circuits and their optimization. Constant parameters for inductance L, capacitance C and resistance R are required for the simulation of electronic circuits. An incorrect approach in defining ...
L.1.8 Differentiating EMC ferrite ↔ inductor The terminology used in this handbook clearly distinguishes between inductors and EMC ferrites in regard to the quality of the inductor: EMC ferrites are based on Ni-Zn materials. This material has good quality factors (Q < 3) above approx. 20 MHz – i.e. trimmed ...
L.1.7 Inductance L Not only magnetic materials possess a magnetic field, every current carrying conductor creates a magnetic field itself. Fig. 1.23: Magnetic fields of current carrying conductors Energy can be temporarily stored in the magnetic field. This effect is technically exploited in coils, consisting of one or more wire ...
L.1.6 Permeability μ Permeability describes an important effect in ferromagnetic materials. If a ferromagnetic material is placed in a magnetic field, it is observed that the magnetic flux becomes concentrated in this material. Analogous to electric resistance, the ferromagnetic material presents a good conductor for the field lines. Permeability may ...
L.1.5 Core materials and their losses Introducing solids into a magnetic field, their behaviour can be classified in three groups: diamagnetic materials paramagnetic materials ferromagnetic materials Diamagnetic and paramagnetic materials have a relative permeability close to one. They are therefore only of limited suitability in the construction of inductive components. ...
