On the most energy-efficient input functions and the lowest input energy of passive linear circuits
Energy-efficient has been an interested research for decades. For fundamentals circuits, resistors in a circuit always dissipate energy when they have current flow and it decreases energy efficiency. When the resistive circuits are in transient state, energy dissipation is usually inevitable. Howeve...
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DRNTU::Engineering::Electrical and electronic engineering Smunyahirun, Radit On the most energy-efficient input functions and the lowest input energy of passive linear circuits |
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Energy-efficient has been an interested research for decades. For fundamentals circuits, resistors in a circuit always dissipate energy when they have current flow and it decreases energy efficiency. When the resistive circuits are in transient state, energy dissipation is usually inevitable. However, it can be minimized. Either energy dissipation or input energy are dependent with voltage and current functions in the circuits. Therefore, there are the most energy-efficient functions, the functions that minimize the input energy (or the energy dissipation). The functions can be obtained by applying calculus of variations, a powerful mathematics theory for functional optimization. Once the most energy-efficient functions are obtained, the lowest input energy can be calculated.
For a series RC circuit, one of the simplest first order circuit, the most energy- efficient input current function and input voltage function are derived and proved to be a constant function and a raised ramp function respectively. The optimization by using calculus of variations is expanded to any first order passive circuits. It turns out that the most energy-efficient function for general first order circuits is hyperbolic family. The lowest input energy is calculated and stated as corollaries. The corollaries are essentials to provide insight into transient duration analysis. The transient duration analysis is performed for three cases of increasing, decreasing and unchanging total stored energy. All these cases are analyzed comprehensively. In each case, it is further divided into two sub cases of (un)changing without and with zero crossing. The analysis reveals two important circuit behaviors which are speed and energy trade-off and energy flow. It is shown that the speed and energy trade-off may be violated under certain conditions. The energy flow of the circuit is discussed thoroughly and a zero-energy transient duration that is defined as a transient duration with total input energy being zero is derived. All the analysis can be summarized into a single digram called the transient duration diagram. The digram reveals important relationships between the circuit parameters in the transient duration analysis.
Not only first order circuit that are optimized, but also second order circuit. Series LC circuit and parallel LC circuit are chosen to be optimized because they are typical second order circuits. The most energy-efficient functions of the circuits can be catego- rized into three modes which are (i) hyperbolic mode, (ii) hyperbolic and linear mode and (iii) hyperbolic and trigonometric mode. Each mode are discussed and theirs tran- sient responses are illustrated. The lowest input energy are evaluated and the transient duration analysis are done rigorously.
Finally, generalization of the most energy-efficient functions and the lowest input energy for any order circuits is drawn. A dummy function is introduced which is essential for generalization. The most energy-efficient input functions in terms of the dummy function are proposed as well as the lowest input energy. General formulas or general procedure for determining the most energy-efficient functions and the lowest input energy for any orders circuits is explained. Using of the general formulas is discussed. Applying the general formulas of RC chain circuit is explained thoroughly. |
| author2 |
Tan Eng Leong |
| author_facet |
Tan Eng Leong Smunyahirun, Radit |
| format |
Theses and Dissertations |
| author |
Smunyahirun, Radit |
| author_sort |
Smunyahirun, Radit |
| title |
On the most energy-efficient input functions and the lowest input energy of passive linear circuits |
| title_short |
On the most energy-efficient input functions and the lowest input energy of passive linear circuits |
| title_full |
On the most energy-efficient input functions and the lowest input energy of passive linear circuits |
| title_fullStr |
On the most energy-efficient input functions and the lowest input energy of passive linear circuits |
| title_full_unstemmed |
On the most energy-efficient input functions and the lowest input energy of passive linear circuits |
| title_sort |
on the most energy-efficient input functions and the lowest input energy of passive linear circuits |
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2019 |
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https://hdl.handle.net/10356/92427 http://hdl.handle.net/10220/48557 |
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1772828998940753920 |
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sg-ntu-dr.10356-924272023-07-04T16:36:01Z On the most energy-efficient input functions and the lowest input energy of passive linear circuits Smunyahirun, Radit Tan Eng Leong School of Electrical and Electronic Engineering Centre for Integrated Circuits and Systems DRNTU::Engineering::Electrical and electronic engineering Energy-efficient has been an interested research for decades. For fundamentals circuits, resistors in a circuit always dissipate energy when they have current flow and it decreases energy efficiency. When the resistive circuits are in transient state, energy dissipation is usually inevitable. However, it can be minimized. Either energy dissipation or input energy are dependent with voltage and current functions in the circuits. Therefore, there are the most energy-efficient functions, the functions that minimize the input energy (or the energy dissipation). The functions can be obtained by applying calculus of variations, a powerful mathematics theory for functional optimization. Once the most energy-efficient functions are obtained, the lowest input energy can be calculated. For a series RC circuit, one of the simplest first order circuit, the most energy- efficient input current function and input voltage function are derived and proved to be a constant function and a raised ramp function respectively. The optimization by using calculus of variations is expanded to any first order passive circuits. It turns out that the most energy-efficient function for general first order circuits is hyperbolic family. The lowest input energy is calculated and stated as corollaries. The corollaries are essentials to provide insight into transient duration analysis. The transient duration analysis is performed for three cases of increasing, decreasing and unchanging total stored energy. All these cases are analyzed comprehensively. In each case, it is further divided into two sub cases of (un)changing without and with zero crossing. The analysis reveals two important circuit behaviors which are speed and energy trade-off and energy flow. It is shown that the speed and energy trade-off may be violated under certain conditions. The energy flow of the circuit is discussed thoroughly and a zero-energy transient duration that is defined as a transient duration with total input energy being zero is derived. All the analysis can be summarized into a single digram called the transient duration diagram. The digram reveals important relationships between the circuit parameters in the transient duration analysis. Not only first order circuit that are optimized, but also second order circuit. Series LC circuit and parallel LC circuit are chosen to be optimized because they are typical second order circuits. The most energy-efficient functions of the circuits can be catego- rized into three modes which are (i) hyperbolic mode, (ii) hyperbolic and linear mode and (iii) hyperbolic and trigonometric mode. Each mode are discussed and theirs tran- sient responses are illustrated. The lowest input energy are evaluated and the transient duration analysis are done rigorously. Finally, generalization of the most energy-efficient functions and the lowest input energy for any order circuits is drawn. A dummy function is introduced which is essential for generalization. The most energy-efficient input functions in terms of the dummy function are proposed as well as the lowest input energy. General formulas or general procedure for determining the most energy-efficient functions and the lowest input energy for any orders circuits is explained. Using of the general formulas is discussed. Applying the general formulas of RC chain circuit is explained thoroughly. Doctor of Philosophy 2019-06-06T05:11:02Z 2019-12-06T18:23:06Z 2019-06-06T05:11:02Z 2019-12-06T18:23:06Z 2019 Thesis Smunyahirun, R. (2019). On the most energy-efficient input functions and the lowest input energy of passive linear circuits. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/92427 http://hdl.handle.net/10220/48557 10.32657/10220/48557 en 173 p. application/pdf |