Patent ID: 8249839
Filing Date: 2012-08-21
Classification: G06F

Abstract:
1. A method for building a magnetic bead mathematical model, the method comprising: defining component elements of the magnetic bead mathematical model according to characteristic and function of the magnetic bead; building the mathematical model of the magnetic bead according to the defined component elements of the mathematical model, wherein the model of the magnetic bead comprises an inductor, a capacitor, a first resistor, and a second resistor, the first resistor is connected in series to the second resistor, the inductor is connected in parallel to the first resistor, and the capacitor is connected in parallel to the first resistor; obtaining a first characteristic curve of an impedance of a magnetic bead from a standard magnetic bead specification of the magnetic bead, wherein the first characteristic curve denotes the impedance of the magnetic bead changing with the frequency that the model works at; ascertaining a parameter of the second resistor via referring to the standard magnetic bead specification of the magnetic bead; selecting a first frequency which is less than a resonance frequency, that is, less than a maximum impedance in the first characteristic curve, obtaining a first resistance corresponding to the selected first frequency from the first characteristic curve, and ascertaining a parameter of the inductor according to a formula Z=2πFL, the selected first frequency, and the obtained first resistance, where, Z is a resistance, F is a frequency, and L is an induction; selecting a second frequency in the first characteristic curve, obtaining a second resistance corresponding to the second frequency from the first characteristic curve, and ascertaining a parameter of the first resistor according to the characteristic of a parallel resonance occurring between the inductor and the capacitor, and a resistance of the magnetic bead mathematical model is equal to a resistance of the first resistor adding to a resistance of the second resistor; and ascertaining a parameter of the capacitor according to the resonance frequency formula F simulating the model of the magnetic bead according to the ascertained parameters of the component elements to form a second characteristic curve; and comparing the second characteristic curve with the first characteristic curve from the standard magnetic bead specification, to further optimize the magnetic bead mathematical model.