A Computational Study on the Magnetic Resonance Coupling Technique for Wireless Power Transfer
Copyright policy )A Computational Study on the Magnetic Resonance Coupling Technique for Wireless Power Transfer
El sistema de transferencia de energía inalámbrica no radiante (WPT) que utiliza la técnica de acoplamiento por resonancia magnética (MRC) ha sido recientemente un tema de discusión entre los investigadores. Esta técnica discutió más escenarios en el campo de rango medio de la transmisión de energía inalámbrica reflejada en la distancia y la eficiencia. La eficiencia del sistema WPT varía cuando cambia la distancia de acoplamiento entre dos bobinas involucradas. Esto podría conducir a un problema decisivo de transferencia de energía de alta eficiencia. Este artículo presenta estudios de caso sobre la relación del rango de operación con la eficiencia de la técnica MRC. El sistema de WPT demostrativo funciona en dos frecuencias diferentes que se proyectan con el fin de verificar el rendimiento. Las frecuencias de resonancia utilizadas son inferiores a 100 MHz dentro del rango de 10 cm a 20 cm.
Le système de transfert d'énergie sans fil (WPT) non radiatif utilisant la technique de couplage par résonance magnétique (MRC) a récemment fait l'objet de discussions entre chercheurs. Cette technique a discuté de plus de scénarios dans le domaine de milieu de gamme de la transmission d'énergie sans fil reflétée à la distance et à l'efficacité. L'efficacité du système WPT varie lorsque la distance de couplage entre deux bobines impliquées change. Cela pourrait conduire à une question décisive de transfert d'énergie à haut rendement. Cet article présente des études de cas sur la relation entre la plage de fonctionnement et l'efficacité de la technique MRC. Le système WPT démonstratif fonctionne à deux fréquences différentes sont projetées afin de vérifier les performances. Les fréquences de résonance utilisées sont inférieures à 100 MHz dans une plage de 10 cm à 20 cm.
Non-radiative wireless power transfer (WPT) system using magnetic resonance coupling (MRC) technique has recently been a topic of discussion among researchers. This technique discussed more scenarios in mid-range field of wireless power transmission reflected to the distance and efficiency. The WPT system efficiency varies when the coupling distance between two coils involved changes. This could lead to a decisive issue of high efficient power transfer. This paper presents case studies on the relationship of operating range with the efficiency of the MRC technique. Demonstrative WPT system operates at two different frequencies are projected in order to verify performance. The resonance frequencies used are less than 100MHz within range of 10cm to 20cm.
كان نظام نقل الطاقة اللاسلكية غير الإشعاعية (WPT) باستخدام تقنية اقتران الرنين المغناطيسي (MRC) موضوع نقاش بين الباحثين مؤخرًا. ناقشت هذه التقنية المزيد من السيناريوهات في مجال نقل الطاقة اللاسلكي متوسط المدى الذي ينعكس على المسافة والكفاءة. تختلف كفاءة نظام WPT عندما تنطوي مسافة الاقتران بين ملفين على تغييرات. وقد يؤدي ذلك إلى مشكلة حاسمة تتعلق بنقل الطاقة بكفاءة عالية. تقدم هذه الورقة دراسات حالة حول علاقة نطاق التشغيل بكفاءة تقنية MRC. من المتوقع أن يعمل نظام WPT التوضيحي على ترددين مختلفين من أجل التحقق من الأداء. ترددات الرنين المستخدمة أقل من 100 ميجاهرتز ضمن نطاق من 10 سم إلى 20 سم.
- Universiti Malaysia Perlis Malaysia
- Universiti Malaysia Perlis Malaysia
Wireless Energy Harvesting, Wireless Energy Harvesting and Information Transfer, FOS: Mechanical engineering, Vibration Energy Harvesting for Microsystems Applications, Electrical efficiency, Quantum mechanics, Atomic physics, Resonance (particle physics), Engineering, Range (aeronautics), Maximum power transfer theorem, FOS: Electrical engineering, electronic engineering, information engineering, Coupling (piping), Electrical and Electronic Engineering, Wireless power transfer, Electronic engineering, Mechanical Engineering, Physics, Contactless Power Transmission, Inductive coupling, Power (physics), Engineering (General). Civil engineering (General), Transmission (telecommunications), Computer science, Wireless Power Transfer Systems and Applications, Mechanical engineering, Aerospace engineering, Electrical engineering, Physical Sciences, Wireless, Telecommunications, Wireless Power Transfer, TA1-2040, RF Energy Harvesting, Power transmission, Magnetic Resonant Coupling
Wireless Energy Harvesting, Wireless Energy Harvesting and Information Transfer, FOS: Mechanical engineering, Vibration Energy Harvesting for Microsystems Applications, Electrical efficiency, Quantum mechanics, Atomic physics, Resonance (particle physics), Engineering, Range (aeronautics), Maximum power transfer theorem, FOS: Electrical engineering, electronic engineering, information engineering, Coupling (piping), Electrical and Electronic Engineering, Wireless power transfer, Electronic engineering, Mechanical Engineering, Physics, Contactless Power Transmission, Inductive coupling, Power (physics), Engineering (General). Civil engineering (General), Transmission (telecommunications), Computer science, Wireless Power Transfer Systems and Applications, Mechanical engineering, Aerospace engineering, Electrical engineering, Physical Sciences, Wireless, Telecommunications, Wireless Power Transfer, TA1-2040, RF Energy Harvesting, Power transmission, Magnetic Resonant Coupling
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