Low-Voltage Power Electronics Building Block for Automotive Applications

<p>This paper presents the implementation of the buck-boost converter design which is a power electronics applications that can stabilize voltage, even though the input voltage changes. Regulator to stabilize the voltage using PWM pulse that triger pin 2 on XL6009. In this design of buck-boost converter is implemented using the XL6009, LM7815 and TIP2955. LM7815 as output voltage regulator at 15V with 1A output current, while TIP2955 is able to overcome output current up to 5A. When the LM7815 and TIP2955 are connected in parallel, the converter can increase the output current to 6A.. Testing is done using varied voltage sources that can be set. The results obtained from this design can be applied to PV (Photovoltaic) and WP (Wind Power), with changes in input voltage between 3-21V dc can produce output voltage 15V.</p>

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An 800V/300 kW, 44 kW/L Air-Cooled SiC Power Electronics Building Block (PEBB)

10.1109/iecon48115.2021.9589811 ◽

2021 ◽

Author(s):

Zibo Chen ◽

Houshang Salimian Rizi ◽

Chen Chen ◽

Pengkun Liu ◽

Ruiyang Yu ◽

...

Keyword(s):

Power Electronics ◽

Building Block

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Microgrid Model on Homer Software

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2021.36375 ◽

2021 ◽

Vol 9 (VI) ◽

pp. 757-760

Author(s):

Mohd Ahamad

Keyword(s):

Power Generation ◽

Power Electronics ◽

Life Cycle Cost ◽

Low Voltage ◽

High Reliability ◽

Low Cost ◽

Local Area ◽

New Paradigm ◽

Power Sources ◽

Wide Range

A new concept in power generation is a microgrid. The Microgrid concept assumes a cluster of loads and microsources operating as a single controllable system that provides power to its local area. This concept provides a new paradigm for defining the operation of distributed generation. The microsources of special interest for MGs are small (<100-kW) units with power electronic interfaces. These sources are placed at customers sites. They are low cost, low voltage and have a high reliability with few emissions. Power electronics provide the control and flexibility required by the MG concept. A properly designed power electronics and controllers insure that the MG can meet the needs of its customers as well as the utilities. The goal of this project is to build a complete model of Microgrid including the power sources, their power electronics, and a load and mains model in THE HOMER. The HOMER Micropower Optimization Model is a computer model developed by the U.S. National Renewable Energy Laboratory (NREL) to assist in the design of micropower systems and to facilitate the comparison of power generation technologies across a wide range of applications. HOMER models a power system’s physical behavior and its life-cycle cost, which is the total cost of installing and operating the system over its life span. HOMER allows the modeler to compare many different design options based on their technical and economic merits. It also assists in understanding and quantifying the effects of uncertainty or changes in the inputs.

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