A transformerless single phase on-line UPS with 110 V/220 V input output voltage

A transformerless single phase on-line UPS with 110 V/220 V input output voltage

In this paper, it is proposed a new nonisolated UPS system configuration that allows the bypass circuit operation even if the input voltage is different from the output voltage. The UPS system is composed by an AC-DC/DC-DC three level boost rectifier/converter combined with a double half bridge inve...

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Bibliographic Details
Published in:Twenty-First Annual IEEE Applied Power Electronics Conference and Exposition, 2006. APEC '06 p. 7 pp.
Main Authors: Brancol, C.G.C., Cruz, C.M.T., Torrico-Bascope, R.P., Antunes, F.L.M., Barreto, L.H.S.C.
Format: Conference Proceeding
Language:English
Published: IEEE 2006
Subjects:
Analog-digital conversion
Batteries
Bridge circuits
Circuit topology
Costs
DC-DC power converters
Inverters
Rectifiers
Switches
Uninterruptible power systems
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Summary:In this paper, it is proposed a new nonisolated UPS system configuration that allows the bypass circuit operation even if the input voltage is different from the output voltage. The UPS system is composed by an AC-DC/DC-DC three level boost rectifier/converter combined with a double half bridge inverter. This topology allows the reduction of some parameters that are commonly discussed in the nonisolated UPS systems such as size and cost, compared with others isolated UPS configurations for the same purpose. Also, the efficiency are improved due to reduced number of switches and batteries, as well as no low frequency isolation transformer is required to realize bypass operation because of the common neutral connection. Both stages of the proposed circuit operate in high frequency, using a passive nondissipative snubber circuit in the boost converter and IGBTs switches in the double half bridge inverter, with low conduction losses, low tail current and low switching losses. A simple and well-known control strategy is used. Principle of operation and experimental results for a 2.6 kVA laboratory prototype are presented to demonstrate UPS performance.
ISBN:0780395476
9780780395473
ISSN:1048-2334
2470-6647
DOI:10.1109/APEC.2006.1620561