Generalized lattice-network method relaxes symmetric inductance condition for cancelling capacitor parasitic inductance and applies it to common-mode noise reduction with experimental checks.
(2021), ``Potential Sources of Errors in Measuring and Evaluating the Specific Loss Power of Magnetic Nanoparticles in an Alternating Magnetic Field,'' IEEE Trans
2 Pith papers cite this work. Polarity classification is still indexing.
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Insulation temperature rise introduces systematic errors in the corrected slope method for magnetic nanoparticle heating power estimation; local sample-to-environment temperature difference is proposed as correction.
citing papers explorer
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Generalized Cancellation of Capacitor Parasitic Inductance Using a Lattice Network and Its Application to Common-Mode Noise Reduction
Generalized lattice-network method relaxes symmetric inductance condition for cancelling capacitor parasitic inductance and applies it to common-mode noise reduction with experimental checks.
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The impact of sample insulation on estimating the heating power of magnetic nanoparticles by AC calorimetry
Insulation temperature rise introduces systematic errors in the corrected slope method for magnetic nanoparticle heating power estimation; local sample-to-environment temperature difference is proposed as correction.