This paper presents an efficient hybrid energy harvesting interface to synergistically scavenge power from electromagnetic (EM) and piezoelectric (PE) sources, and drive a single load. The EM harvester output is rectified through a self-powered active doubler structure, and stored on a storage capacitor. The stored energy is then transferred to the PE harvester to increase the damping force and charge extraction. The total synergistically extracted power from both harvesters is more than the power obtained from each independently. The hybrid operation is validated through a compact and wearable platform that includes custom designed EM and PE harvesters for scavenging energy from human motion. The system supplies 1-3.4 V output for powering...
Vibration energy harvesting is an attractive technique for potential powering of wireless sensors an...
Harvesting energy from ambient vibrations is a promising technology for fully autonomous wireless se...
This paper reviews the state-of-the art in vibration energy harvesting for wireless, self-powered mi...
This paper presents an efficient hybrid energy harvesting interface to synergistically scavenge powe...
This study presents a novel hybrid system that combines the power generated simultaneously by a vibr...
© 2020 Elsevier Ltd The last decade has witnessed significant advances in energy harvesting technolo...
In the framework of hybrid energy harvesting for scavenging ambient motion, this paper proposes a co...
Abstract: This paper describes the use of piezoelectric polymers in order to harvest energy from peo...
The biomechanical energy harvesting system (BM-EHS) uses human daily activities to create electricit...
In this paper, performances of vibration energy harvester combined piezoelectric (PE) and electromag...
Vibration-based energy harvester has become quite an impressive method and caught many interest in p...
Energy harvesting is an attractive way to power electronic systems such as wireless sensors without ...
The Internet of Things (IoT) era has unlocked a new dimension for interconnected devices. Numerous s...
This paper presents an evaluation of the effectiveness of a hybrid energy harvesting scheme for WSNs...
This study presents a novel triple hybrid system that combines simultaneously generated power from t...
Vibration energy harvesting is an attractive technique for potential powering of wireless sensors an...
Harvesting energy from ambient vibrations is a promising technology for fully autonomous wireless se...
This paper reviews the state-of-the art in vibration energy harvesting for wireless, self-powered mi...
This paper presents an efficient hybrid energy harvesting interface to synergistically scavenge powe...
This study presents a novel hybrid system that combines the power generated simultaneously by a vibr...
© 2020 Elsevier Ltd The last decade has witnessed significant advances in energy harvesting technolo...
In the framework of hybrid energy harvesting for scavenging ambient motion, this paper proposes a co...
Abstract: This paper describes the use of piezoelectric polymers in order to harvest energy from peo...
The biomechanical energy harvesting system (BM-EHS) uses human daily activities to create electricit...
In this paper, performances of vibration energy harvester combined piezoelectric (PE) and electromag...
Vibration-based energy harvester has become quite an impressive method and caught many interest in p...
Energy harvesting is an attractive way to power electronic systems such as wireless sensors without ...
The Internet of Things (IoT) era has unlocked a new dimension for interconnected devices. Numerous s...
This paper presents an evaluation of the effectiveness of a hybrid energy harvesting scheme for WSNs...
This study presents a novel triple hybrid system that combines simultaneously generated power from t...
Vibration energy harvesting is an attractive technique for potential powering of wireless sensors an...
Harvesting energy from ambient vibrations is a promising technology for fully autonomous wireless se...
This paper reviews the state-of-the art in vibration energy harvesting for wireless, self-powered mi...