Results 101 to 110 of about 200,429 (137)
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A maximum power transfer theorem for DC linear two-ports
2002 IEEE International Symposium on Circuits and Systems. Proceedings (Cat. No.02CH37353), 2003The maximum power transfer theorem for DC linear two-ports terminated by uncoupled passive resistors is stated and proved. Unlike all previous works, non-reciprocal two-ports (i.e. two-ports whose resistance matrix is non-symmetrical) are allowed, and power is maximized with respect to the load resistances rather than the load currents.
A. Sommariva
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Many Faces of the Maximum Power Transfer Theorem
International Journal of Electrical Engineering & Education, 2003The celebrated maximum power transfer theorem, which is usually stated for source impedance Zg = Rg + jXg and load impedance ZL = RL + jXL, is revisited, and generalised for other possible situations in which either Zg or ZL or both are parallel combinations of a resistance and a reactance, and for all possible cases of load variability.
S. D. Roy
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On the Maximum Power Transfer Theorem
International Journal of Electrical Engineering & Education, 1978A reformulation of the maximum power transfer theorem, in terms of terminal conditions of the network corresponding to maximum power delivery, is given. Applications of this reformulation for a variety of terminations are discussed for the purely resistive and the sinusoidal steady-state cases.
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An ultrasound-based laboratory experience to illustrate the maximum power transfer theorem
2008 38th Annual Frontiers in Education Conference, 2008This paper aims to tackle both the challenge of illustrating the maximum power transfer theorem in a first-year course and the challenge of organizing courses with an extensive program that must be completed in a rather short time. This is the case for the three-year degree program leading to the Diploma in Electronic Systems for Telecommunications ...
Jordi Bonet-Dalmau +1 more
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Maximum Power Transfer for Nonlinear State Space Systems
IEEE Transactions on Automatic ControlThe classical maximum power transfer theorem of linear electrical network theory is extended to general nonlinear state space systems connected to a source. This yields a state space version of the input–output operator results of [17].
A. J. van der Schaft
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International Conference on Applied and Theoretical Electricity, 2021
This paper presents equivalent Thévenin circuits for two connections (parallel-series (ps) and parallel-parallel (pp)), for the magnetic coupling coils (resonators), used in wireless active power transfer. Using the Circuit Symbolic Analysis Program, the
V. Bucata +5 more
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This paper presents equivalent Thévenin circuits for two connections (parallel-series (ps) and parallel-parallel (pp)), for the magnetic coupling coils (resonators), used in wireless active power transfer. Using the Circuit Symbolic Analysis Program, the
V. Bucata +5 more
semanticscholar +1 more source
International Conference on Applied and Theoretical Electricity, 2021
In this paper the equivalent Thévenin circuits for two connections (series-series (ss), series-parallel (sp)) are obtained, for the magnetic coupling coils (resonators), used in wireless active power transfer.
V. Bucata +5 more
semanticscholar +1 more source
In this paper the equivalent Thévenin circuits for two connections (series-series (ss), series-parallel (sp)) are obtained, for the magnetic coupling coils (resonators), used in wireless active power transfer.
V. Bucata +5 more
semanticscholar +1 more source
International Conference on Clean Electrical Power, 2019
In this paper, the problem of the Maximum Power Extraction is discussed with reference to Resonant Electromagnetic Vibration Energy Harvesters driven by non-sinusoidal vibrations. It is well known that, in order to maximize the harvested power in case of
L. Costanzo, M. Vitelli
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In this paper, the problem of the Maximum Power Extraction is discussed with reference to Resonant Electromagnetic Vibration Energy Harvesters driven by non-sinusoidal vibrations. It is well known that, in order to maximize the harvested power in case of
L. Costanzo, M. Vitelli
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Maximum Power Transfer in Butterworth Van Dyke using Simulated Inductor
2019 International Conference on Smart Systems and Inventive Technology (ICSSIT), 2019Miniaturization of circuits is the top priority in the digital world. As any basic electronic circuits are developed using the three basic passive elements R, L and C, the compactness of any circuit is possible only when the size of three elements are ...
D. Susan +2 more
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