@conference{
author = "Despotovic, Zeljko V. and Vijatović Petrović, Mirjana and Bobić, Jelena",
year = "2023",
abstract = "The paper presents the implementation of a
synchronous “buck“ power converter that is used to energy
harvesting from vibrating structures that oscillate in the 1Hz-
1kHz range. This range is the most common in real cases. In
addition to the frequency, a very important parameter is also
the amplitude of the vibrations. Usually, low frequencies (<
10Hz) are associated with larger oscillatory masses and larger
oscillation amplitudes, while higher frequencies (1kHz >f >
100Hz) refer to larger oscillatory masses and smaller oscillation
amplitudes. The realized power converter is based on the
integrated circuit LT3588-1, in which it integrates a low-loss
full-wave bridge rectifier with a high efficiency synchronous
“buck” converter to form a complete energy harvesting
solution optimized for high output impedance of
mechanic/electric converter such as piezoelectric lead zirconate
titanate (PZT) ceramics or polymer based on polyvinylidene
fluoride (PVDF), or other composite. The paper presents
experimental results obtained on the vibration platform as
vibration source, in order to testing of the proposed power
converter in laboratory conditions.",
publisher = "22nd International Symposium on POWER ELECTRONICS Ee2023, 25-28.10.2023., Novi Sad, Serbia",
journal = "22nd International Symposium on POWER ELECTRONICS Ee2023, 25-28.10.2023., Novi Sad, Serbia",
title = "A Realisation of Synchronous Buck Power Converter for Energy Harvesting from Vibrations",
url = "https://hdl.handle.net/21.15107/rcub_rimsi_2520"
}