Constant Current Precharging Algorithm for Solid State Power Controllers

Mridul Marwaha; Josep Pou; Chandana Gajanayake; Devinda Molligoda; Kuntal Satpathi; Yang Yu; Mohamed Halick Mohamed Sathik; Anh Vu Ho; Amit Kumar Gupta; Yu Zeng

doi:10.1109/TIE.2024.3352152

Constant Current Precharging Algorithm for Solid State Power Controllers

Mridul Marwaha^*, Josep Pou, Chandana Gajanayake, Devinda Molligoda, Kuntal Satpathi, Yang Yu, Mohamed Halick Mohamed Sathik, Anh Vu Ho, Amit Kumar Gupta, Yu Zeng

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

—Semiconductor-based solid-state power controllers (SSPCs) are a promising solution for dc system protection. During the connection of capacitive loads there is an inrush current because of zero initial energy in the capacitor, which can cause damage to the system. One of the main challenges of SSPCs is to suppress the current and voltage overshoot during precharging. In most of the precharging methods, additional circuitry is required, which adds weight, size, and complexity to the system. In this article, a constant current precharging algorithm is proposed. The main semiconductor device is utilized for precharging instead of adding an auxiliary circuit, thus reducing the required number of components. In addition, the proposed algorithm has a higher adaptability to the change of system parameters. Moreover, it is easily implementable to a wide range of semiconductor devices. Analytical evaluations are performed to compute the maximum current reference. Experimental results are presented to verify the operation under various operating conditions.

Original language	English
Pages (from-to)	12991-13001
Number of pages	11
Journal	IEEE Transactions on Industrial Electronics
Volume	71
Issue number	10
DOIs	https://doi.org/10.1109/TIE.2024.3352152
Publication status	Published - 2024
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2024 IEEE.

ASJC Scopus Subject Areas

Control and Systems Engineering
Electrical and Electronic Engineering

Keywords

Aerospace applications
aerospace control
current surges
solid state power controller
surge protection

Access to Document

10.1109/TIE.2024.3352152

Cite this

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title = "Constant Current Precharging Algorithm for Solid State Power Controllers",

abstract = "—Semiconductor-based solid-state power controllers (SSPCs) are a promising solution for dc system protection. During the connection of capacitive loads there is an inrush current because of zero initial energy in the capacitor, which can cause damage to the system. One of the main challenges of SSPCs is to suppress the current and voltage overshoot during precharging. In most of the precharging methods, additional circuitry is required, which adds weight, size, and complexity to the system. In this article, a constant current precharging algorithm is proposed. The main semiconductor device is utilized for precharging instead of adding an auxiliary circuit, thus reducing the required number of components. In addition, the proposed algorithm has a higher adaptability to the change of system parameters. Moreover, it is easily implementable to a wide range of semiconductor devices. Analytical evaluations are performed to compute the maximum current reference. Experimental results are presented to verify the operation under various operating conditions.",

keywords = "Aerospace applications, aerospace control, current surges, solid state power controller, surge protection",

author = "Mridul Marwaha and Josep Pou and Chandana Gajanayake and Devinda Molligoda and Kuntal Satpathi and Yang Yu and \{Mohamed Sathik\}, \{Mohamed Halick\} and Ho, \{Anh Vu\} and \{Kumar Gupta\}, Amit and Yu Zeng",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.",

year = "2024",

doi = "10.1109/TIE.2024.3352152",

language = "English",

volume = "71",

pages = "12991--13001",

journal = "IEEE Transactions on Industrial Electronics",

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T1 - Constant Current Precharging Algorithm for Solid State Power Controllers

AU - Marwaha, Mridul

AU - Pou, Josep

AU - Gajanayake, Chandana

AU - Molligoda, Devinda

AU - Satpathi, Kuntal

AU - Yu, Yang

AU - Mohamed Sathik, Mohamed Halick

AU - Ho, Anh Vu

AU - Kumar Gupta, Amit

AU - Zeng, Yu

PY - 2024

Y1 - 2024

N2 - —Semiconductor-based solid-state power controllers (SSPCs) are a promising solution for dc system protection. During the connection of capacitive loads there is an inrush current because of zero initial energy in the capacitor, which can cause damage to the system. One of the main challenges of SSPCs is to suppress the current and voltage overshoot during precharging. In most of the precharging methods, additional circuitry is required, which adds weight, size, and complexity to the system. In this article, a constant current precharging algorithm is proposed. The main semiconductor device is utilized for precharging instead of adding an auxiliary circuit, thus reducing the required number of components. In addition, the proposed algorithm has a higher adaptability to the change of system parameters. Moreover, it is easily implementable to a wide range of semiconductor devices. Analytical evaluations are performed to compute the maximum current reference. Experimental results are presented to verify the operation under various operating conditions.

AB - —Semiconductor-based solid-state power controllers (SSPCs) are a promising solution for dc system protection. During the connection of capacitive loads there is an inrush current because of zero initial energy in the capacitor, which can cause damage to the system. One of the main challenges of SSPCs is to suppress the current and voltage overshoot during precharging. In most of the precharging methods, additional circuitry is required, which adds weight, size, and complexity to the system. In this article, a constant current precharging algorithm is proposed. The main semiconductor device is utilized for precharging instead of adding an auxiliary circuit, thus reducing the required number of components. In addition, the proposed algorithm has a higher adaptability to the change of system parameters. Moreover, it is easily implementable to a wide range of semiconductor devices. Analytical evaluations are performed to compute the maximum current reference. Experimental results are presented to verify the operation under various operating conditions.

KW - Aerospace applications

KW - aerospace control

KW - current surges

KW - solid state power controller

KW - surge protection

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JF - IEEE Transactions on Industrial Electronics

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ER -

Constant Current Precharging Algorithm for Solid State Power Controllers

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Nanyang Technological University Details Findings in Mathematics (Constant Current Precharging Algorithm for Solid State Power Controllers)

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Constant Current Precharging Algorithm for Solid State Power Controllers

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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Nanyang Technological University Details Findings in Mathematics (Constant Current Precharging Algorithm for Solid State Power Controllers)

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