Authors :
Shubham Hedau; Saurabh Kapgate; Bhushan Petkule; Chetan Rahulgade; Nagsen Bhoyar; Yash Lanjewar; Akash Deshbhratar; Kushank Gokhale
Volume/Issue :
Volume 9 - 2024, Issue 3 - March
Google Scholar :
https://tinyurl.com/29kvtb84
Scribd :
https://tinyurl.com/4hw5muur
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24MAR815
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
Ensuring the longevity and safety of electronic
devices is crucial in the field of electrical engineering.
Since they run on extremely low voltage, electronic
devices—which are widely used in both home and
commercial settings—are vulnerable to a number of risks,
including overloading, short circuiting, and surging. It is
therefore essential to put in place strong preventative
measures in order to guard against future harm and
guarantee continuous functioning. The design and
construction of an Ultra Fast Circuit Breaker (UFCB)
intended specifically for home and industrial use are
presented in this study. The UFCB is designed to reduce the
hazards associated with electrical problems by offering
quick and dependable protection against voltage surges,
overcurrent situations, and short circuits. Careful
attention to detail was required during the design and
execution phases of the UFCB's development. The UFCB
achieves unmatched levels of reactivity and efficiency in
halting electrical currents when abnormal conditions are
recognized by utilizing state-of-the-art electronic
components and technologies. The UFCB's strong design to
resist challenging working conditions, high sensitivity to
fault conditions, and ultra-fast tripping capabilities are
some of its key features. Moreover, the UFCB has
advanced diagnostics and monitoring features that allow
proactive defect identification and real-time status
updates. The implementation of the UFCB presents
numerous advantages for industries and consumers alike.
Economically, it lessens the possibility of expensive
equipment damage and downtime due to electrical
malfunctions, which results in significant cost savings on
repairs and replacements. Furthermore, by reducing the
amount of time needed for troubleshooting and system
restoration, the UFCB improves operational efficiency,
which raises productivity and overall competitiveness.
Keywords :
Choke Resistor, Optocoupler, Relay, Overload, and Over-Current Protection in an Ultrafast Circuit Breaker.
Ensuring the longevity and safety of electronic
devices is crucial in the field of electrical engineering.
Since they run on extremely low voltage, electronic
devices—which are widely used in both home and
commercial settings—are vulnerable to a number of risks,
including overloading, short circuiting, and surging. It is
therefore essential to put in place strong preventative
measures in order to guard against future harm and
guarantee continuous functioning. The design and
construction of an Ultra Fast Circuit Breaker (UFCB)
intended specifically for home and industrial use are
presented in this study. The UFCB is designed to reduce the
hazards associated with electrical problems by offering
quick and dependable protection against voltage surges,
overcurrent situations, and short circuits. Careful
attention to detail was required during the design and
execution phases of the UFCB's development. The UFCB
achieves unmatched levels of reactivity and efficiency in
halting electrical currents when abnormal conditions are
recognized by utilizing state-of-the-art electronic
components and technologies. The UFCB's strong design to
resist challenging working conditions, high sensitivity to
fault conditions, and ultra-fast tripping capabilities are
some of its key features. Moreover, the UFCB has
advanced diagnostics and monitoring features that allow
proactive defect identification and real-time status
updates. The implementation of the UFCB presents
numerous advantages for industries and consumers alike.
Economically, it lessens the possibility of expensive
equipment damage and downtime due to electrical
malfunctions, which results in significant cost savings on
repairs and replacements. Furthermore, by reducing the
amount of time needed for troubleshooting and system
restoration, the UFCB improves operational efficiency,
which raises productivity and overall competitiveness.
Keywords :
Choke Resistor, Optocoupler, Relay, Overload, and Over-Current Protection in an Ultrafast Circuit Breaker.
