Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique

Kadir Akgul; Ali Fuat Ergenc; Murat Yilmaz; Lale T. Ergene

doi:10.1109/GPECOM55404.2022.9815623

Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique

Kadir Akgul, Ali Fuat Ergenc, Murat Yilmaz, Lale T. Ergene

Istanbul Technical University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Inverters have many application areas including the variable frequency drives applications of the motor industry. Three-phase inverters based on the three-phase system that we are using are becoming more common. The implementation of the space vector PWM (SVPWM) modulation technique in three-phase inverters is more advantageous than other modulation techniques due to the lower harmonic content and higher DC bus utilization it provides. A delay time, also called the dead-time, is added to the rising edge of the PWM signals for triggering the gates of the switches to avoid shoot-through faults in the inverters. Although it has a protection advantage, it has some disadvantages such as output voltage drop, phase shift, zero current clamping and increase in total harmonic distortion (THD) of the output current. In this study, these effects of dead-time are compensated by employing the simple yet effective feedforward method using the SVPWM technique. Moreover, the relationship between the effects of the dead-time and switching frequency is investigated. The results exhibit that the THD of the current is optimized when the switching frequency is controlled rather than kept constant.

Original language	English
Title of host publication	Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	210-215
Number of pages	6
ISBN (Electronic)	9781665469258
DOIs	https://doi.org/10.1109/GPECOM55404.2022.9815623
Publication status	Published - 2022
Event	4th IEEE Global Power, Energy and Communication Conference, GPECOM 2022 - Cappadocia, Turkey Duration: 14 Jun 2022 → 17 Jun 2022

Publication series

Name	Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022

Conference

Conference	4th IEEE Global Power, Energy and Communication Conference, GPECOM 2022
Country/Territory	Turkey
City	Cappadocia
Period	14/06/22 → 17/06/22

Bibliographical note

Publisher Copyright:
© 2022 IEEE.

Keywords

Compensation
Dead-time
SVPWM
Three-Phase Inverter
Total Harmonic Distortion
Variable Speed Drive

Access to Document

10.1109/GPECOM55404.2022.9815623

Cite this

Akgul, K., Ergenc, A. F., Yilmaz, M., & Ergene, L. T. (2022). Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique. In Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022 (pp. 210-215). (Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/GPECOM55404.2022.9815623

Akgul, Kadir ; Ergenc, Ali Fuat ; Yilmaz, Murat et al. / Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique. Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022. Institute of Electrical and Electronics Engineers Inc., 2022. pp. 210-215 (Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022).

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abstract = "Inverters have many application areas including the variable frequency drives applications of the motor industry. Three-phase inverters based on the three-phase system that we are using are becoming more common. The implementation of the space vector PWM (SVPWM) modulation technique in three-phase inverters is more advantageous than other modulation techniques due to the lower harmonic content and higher DC bus utilization it provides. A delay time, also called the dead-time, is added to the rising edge of the PWM signals for triggering the gates of the switches to avoid shoot-through faults in the inverters. Although it has a protection advantage, it has some disadvantages such as output voltage drop, phase shift, zero current clamping and increase in total harmonic distortion (THD) of the output current. In this study, these effects of dead-time are compensated by employing the simple yet effective feedforward method using the SVPWM technique. Moreover, the relationship between the effects of the dead-time and switching frequency is investigated. The results exhibit that the THD of the current is optimized when the switching frequency is controlled rather than kept constant.",

keywords = "Compensation, Dead-time, SVPWM, Three-Phase Inverter, Total Harmonic Distortion, Variable Speed Drive",

author = "Kadir Akgul and Ergenc, {Ali Fuat} and Murat Yilmaz and Ergene, {Lale T.}",

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doi = "10.1109/GPECOM55404.2022.9815623",

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Akgul, K, Ergenc, AF , Yilmaz, M & Ergene, LT 2022, Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique. in Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022. Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022, Institute of Electrical and Electronics Engineers Inc., pp. 210-215, 4th IEEE Global Power, Energy and Communication Conference, GPECOM 2022, Cappadocia, Turkey, 14/06/22. https://doi.org/10.1109/GPECOM55404.2022.9815623

Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique. / Akgul, Kadir; Ergenc, Ali Fuat ; Yilmaz, Murat et al.
Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022. Institute of Electrical and Electronics Engineers Inc., 2022. p. 210-215 (Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique

AU - Akgul, Kadir

AU - Ergenc, Ali Fuat

AU - Yilmaz, Murat

AU - Ergene, Lale T.

PY - 2022

Y1 - 2022

N2 - Inverters have many application areas including the variable frequency drives applications of the motor industry. Three-phase inverters based on the three-phase system that we are using are becoming more common. The implementation of the space vector PWM (SVPWM) modulation technique in three-phase inverters is more advantageous than other modulation techniques due to the lower harmonic content and higher DC bus utilization it provides. A delay time, also called the dead-time, is added to the rising edge of the PWM signals for triggering the gates of the switches to avoid shoot-through faults in the inverters. Although it has a protection advantage, it has some disadvantages such as output voltage drop, phase shift, zero current clamping and increase in total harmonic distortion (THD) of the output current. In this study, these effects of dead-time are compensated by employing the simple yet effective feedforward method using the SVPWM technique. Moreover, the relationship between the effects of the dead-time and switching frequency is investigated. The results exhibit that the THD of the current is optimized when the switching frequency is controlled rather than kept constant.

AB - Inverters have many application areas including the variable frequency drives applications of the motor industry. Three-phase inverters based on the three-phase system that we are using are becoming more common. The implementation of the space vector PWM (SVPWM) modulation technique in three-phase inverters is more advantageous than other modulation techniques due to the lower harmonic content and higher DC bus utilization it provides. A delay time, also called the dead-time, is added to the rising edge of the PWM signals for triggering the gates of the switches to avoid shoot-through faults in the inverters. Although it has a protection advantage, it has some disadvantages such as output voltage drop, phase shift, zero current clamping and increase in total harmonic distortion (THD) of the output current. In this study, these effects of dead-time are compensated by employing the simple yet effective feedforward method using the SVPWM technique. Moreover, the relationship between the effects of the dead-time and switching frequency is investigated. The results exhibit that the THD of the current is optimized when the switching frequency is controlled rather than kept constant.

KW - Compensation

KW - Dead-time

KW - SVPWM

KW - Three-Phase Inverter

KW - Total Harmonic Distortion

KW - Variable Speed Drive

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T3 - Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022

SP - 210

EP - 215

BT - Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 4th IEEE Global Power, Energy and Communication Conference, GPECOM 2022

Y2 - 14 June 2022 through 17 June 2022

ER -

Akgul K, Ergenc AF , Yilmaz M , Ergene LT. Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique. In Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022. Institute of Electrical and Electronics Engineers Inc. 2022. p. 210-215. (Proceedings - 2022 IEEE 4th Global Power, Energy and Communication Conference, GPECOM 2022). doi: 10.1109/GPECOM55404.2022.9815623

Dead-Time Analysis in Three-Phase Two-Level Inverters using the SVPWM Technique

Abstract

Publication series

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Bibliographical note

Keywords

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