Full Description
| Cataloguing Source | LibUI ind rda |
| Content Type | text (rdacontent) |
| Media Type | computer (rdamedia) |
| Carrier Type | online resource (rdacarrier) |
| Physical Description | xii, 18 pages : illustration |
| Concise Text | |
| Holding Institution | Universitas Indonesia |
| Location | Perpustakaan UI |
- Availability
- Digital Files: 1
- Review
- Cover
- Abstract
| Call Number | Barcode Number | Availability |
|---|---|---|
| S-Pdf | 14-21-104659155 | TERSEDIA |
| No review available for this collection: 20505220 |
Abstract
ABSTRAK
ABSTRACT
This thesis has presented a rectifier design for wireless power transfer applications with novel topology as an initial study. This topology combines and modifies the adaptive reconfigurable rectifier with the active class E rectifier. Modifications made were to replace the NMOS switch in the active class E rectifier to PMOS in the active class E rectifier topology and change the number of diodes and transistors used in the adaptive reconfigurable rectifier topology. Switching switches to PMOS increases efficiency and produces better Waveform output. Increasing the number of diodes and the number of transistors prevents the diodes from reaching the breakdown voltage, thereby increasing efficiency and allowing the circuit to maintain and increase efficiency at higher input values. The proposed circuit consists of the PMOS IRF9Z24 switch on the active class E rectifier and 3 diodes -3 transistors on the adaptive reconfigurable rectifier, which has an efficiency of 76% at 5 V.
This thesis has presented a rectifier design for wireless power transfer applications with novel topology as an initial study. This topology combines and modifies the adaptive reconfigurable rectifier with the active class E rectifier. Modifications made were to replace the NMOS switch in the active class E rectifier to PMOS in the active class E rectifier topology and change the number of diodes and transistors used in the adaptive reconfigurable rectifier topology. Switching switches to PMOS increases efficiency and produces better Waveform output. Increasing the number of diodes and the number of transistors prevents the diodes from reaching the breakdown voltage, thereby increasing efficiency and allowing the circuit to maintain and increase efficiency at higher input values. The proposed circuit consists of the PMOS IRF9Z24 switch on the active class E rectifier and 3 diodes -3 transistors on the adaptive reconfigurable rectifier, which has an efficiency of 76% at 5 V.