The integration of next-generation circuits for Industry 4.0 represents
a transformative leap in the domain of smart industrial applications,
focusing on enhanced operational efficiency and precision. A key
innovation explored is the use of driverless rectifier technology
combined with wireless encoders to improve automation and remote
control capabilities in modern industrial setups. The background
emphasizes the need for advanced electronic circuits that seamlessly
integrate into intelligent systems, improving real-time data processing
and reliability. A primary challenge in the field is designing circuits
that balance high performance with low energy consumption, suitable
for dynamic industrial environments. The proposed methodology
involves the development of test circuits employing driverless rectifier
modules, configured to work with wireless encoders for seamless data
transmission and reduced latency. Simulations were conducted using
MATLAB Simulink, achieving a peak efficiency improvement of 15.7%
over traditional rectifiers. Compared to standard rectifier-based
circuits, the system exhibited a reduced signal latency by 12% and
power savings of 18.3%. These results indicate significant performance
enhancements in automation setups under Industry 4.0 standards.
R.V.S. Praveen1, Kishor S. Wagh2, B. Saravanan3, G. Kharmega Sundararaj4 LTIMindtree Limited, India1, AISSMS Institute of Information Technology, India2, Sri Eshwar College of Engineering, India3, Dr. T. Thimmaiah Institute of Technology, India4
Industry 4.0, Driverless Rectifier Technology, Smart Industrial Applications, Wireless Encoders, Next-Generation Circuits
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| Published By : ICTACT
Published In :
ICTACT Journal on Microelectronics ( Volume: 10 , Issue: 3 , Pages: 1888 - 1893 )
Date of Publication :
October 2024
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