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|Title: ||Efficient Class-E design for inductive powering wireless biotelemetry applications|
|Authors: ||Saad Mutashar, Abbas|
M. A., Hannan, Dr.
Salina, Abdul Samad, Dr.
|Keywords: ||Component;Transcutaneous energy transmission;Implated devices;Switching amplifiers;Class-E amplifiers|
|Issue Date: ||27-Feb-2012|
|Publisher: ||Institute of Electrical and Electronics Engineers (IEEE)|
|Citation: ||p. 445-449|
|Series/Report no.: ||Proceedings of the International Conference on Biomedical Engineering (ICoBE 2012)|
|Abstract: ||This paper introduces a modified an efficient design for different Class-E power amplifiers suitable to be use in biomedical implantable devices and in biomedical wireless telemetry devices which is usually have a small load resistor (several Ohms) due to its inductive powering. The different Class-E amplifiers operated according to the frequency chart for
the medical implant communications service (MICS) 27 MHZ, and industrial scientific and medical (ISM) (13.56 MHZ), and low frequency 125-135 KHZ. The results show that the proposed class-E design could use the same values of C1, C2, L2 for small and optimum load resistor with high efficient more than 80% All these three class-E power amplifiers will be presents in this work and will be simulate with the MATLAB/SIMULINK environment, and for further verification all the circuits will be simulated with electronics workbench MULTISIM 9.|
|Description: ||Link to publisher's homepage at http://ieeexplore.ieee.org/|
|Appears in Collections:||Conference Papers|
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