Your search keyword '"Serkan Dusmez"' showing total 71 results

1. Optimization and Design Considerations of GaN-Based Multi-Level TP PFC Converters

Author

Enis Baris Bulut, Derya Ahmet Kocabas, and Serkan Dusmez

Subjects

Ac/dc conversion, multi-level, optimization, power factor correction, totem-pole, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Latest developments in low voltage wide-bandgap semiconductor technology have increased the popularity of single-phase multi-level (ML) totem pole (TP) power-factor correction (PFC) converters. Phase shifted flying capacitor based power stages offer several advantages, such as higher input current ripple frequency, smaller size inductor and differential mode (DM) filter, and usage of low voltage Gallium Nitride (GaN) devices with better figure-of-merit. Even though it has been proven that ML TP PFC converters have good power density and efficiency, the determination of optimal voltage levels and switching frequency requires a system-level optimization. This paper proposes an optimization framework for ML TP PFC converters, taking the power stage, thermal, DM filter, and magnetic designs, as well as practical design considerations, into account to determine the voltage-levels and switching frequency that minimize the power losses, cost and volume of the total system. To process output power of 3700W, the optimization tool suggests using a 4-Level GaN TP PFC topology switched at 45 kHz. The outcome of the tool has been compared with other fixed inductor current ripple designs, as well as optimized designs for 3-Level and 5-Level TP PFC converters in terms of cost, volume, and power losses. In accordance with the optimization results, a prototype of a 4L TP PFC rated at 3700 W is designed, which achieves a peak efficiency of 99.6% at 1 kW and> 99.1% efficiency under the full power range.

Published

2023

2. A New Optimization Method for Gapped and Distributed Core Magnetics in LLC Converter

Author

Abdulsamed Lordoglu, Mehmet Onur Gulbahce, Derya Ahmet Kocabas, and Serkan Dusmez

Subjects

Big-bang big-crunch algorithm, gapped core magnetics, light electric vehicle, LLC converter, LLC transformer optimization, multi-core LLC transformer, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

LLC converter design optimization remains a challenging task for varying loads such as in battery chargers. There are numerous L-L-C combinations to choose from a design space that can satisfy the required voltage gains of the application. An accurate magnetic model is essential to optimally size the passive components according to the application needs. This paper provides a new design tool for gapped core magnetics to optimize the transformer and resonant inductor in LLC converters. Unlike conventional design algorithms, the proposed algorithm considers multiple distributed cores and selects the optimal magnetic flux density by minimizing a penalty function that includes power loss, cost and volume of the magnetic components using Big-Bang Big-Crunch Algorithm. The gapped core transformer and inductor design equations have been verified in Ansys Maxwell and Simplorer co-simulation environment for a 3700 W 48 V LLC and calculated power loss have been compared with experimental results. For the given $L_{m}$ and $L_{r}$ pair of $37.52~\mathrm {\mu H}$ and $9.38~\mathrm {\mu H}$ , the proposed magnetic model designed a transformer with two-distributed cores, each one exhibiting a magnetizing inductance of $17.73~\mathrm {\mu H}$ and leakage inductance of $0.7~\mathrm {\mu H}$ on a EE422120 with 3F36 material. The total power loss of the transformers are measured as 12.44 W on a 3700 W prototype switched at 350 kHz.

Published

2023

3. Design and Optimization of Three-Phase LLC Charger with ∆ - ∆ Winding Configuration.

Author

Abdulsamed Lordoglu, Mehmet Onur Gulbahce, Derya Ahmet Kocabas, and Serkan Dusmez

Published

2022

4. A Unified Differential Mode Noise Estimation Method and Filter Size Comparison in Single-Phase Multileg and Multilevel Totem-Pole PFC Converters

Author

Ali Tausif and Serkan Dusmez

Subjects

Power electronics, Electrical and Electronic Engineering, Differential mode noise, Electromagnetic interference

Abstract

Wide-bandgap power devices have enabled singlephase totem-pole (TP) power factor correction (PFC) converter designs to be switched at several tens of kilohertz under hardswitching and hundreds of kilohertz under soft-switching. It is straightforward to analyze and compare the volume of boost inductor for TP PFC converters having multileg and multilevel configurations operating under continuous-conduction-mode (CCM) and critical-conduction-mode (CrM) at various switching frequencies; however, the impact of topology and switching frequency selections remains unchallenged for generated differential mode (DM) noise. This article proposes a unified and generalized DM noise estimation method for multileg, and multilevel TP PFC converters operated under both CCM and CrM operation modes. The method has been verified with simulation results obtained from various TP PFC topologies, as well as experimental results obtained from singleleg CCM and 4-Level CCM TP PFC converters. The empirically determined boxed sizes of DM filters have been compared among various TP PFC topologies, and the best switching frequency for each topology has been determined with the integration of boost inductor volume comparison.

Published

2023

5. An active life extension strategy for power switches in interleaved converters.

Author

Serkan Dusmez, Syed Huzaif Ali, and Bilal Akin

Published

2015

6. Loss analysis of non-isolated bidirectional DC/DC converters for hybrid energy storage system in EVs.

Author

Serkan Dusmez, Amin Hasanzadeh, and Alireza Khaligh

Published

2014

7. A variable DC link approach for high power factor three-level single-stage PFC converter.

Author

Serkan Dusmez and Bilal Akin

Published

2014

8. A new fault tolerant SVPWM strategy for multilevel converters.

Author

Xiong Li, Serkan Dusmez, Bilal Akin, and Kaushik Rajashekara

Published

2014

9. Design and Optimization of Three-Phase LLC Charger with ∆ − ∆ Winding Configuration

Author

Abdulsamed Lordoglu, M. Onur Gulbahce, Derya A. Kocabas, and Serkan Dusmez

Published

2022

10. An Investigation on Diagnosis-Based Power Switch Lifetime Extension Strategies for Three-Phase Inverters

Author

Bilal Akin, Serkan Dusmez, and Enes Ugur

Subjects

010302 applied physics, Total harmonic distortion, Computer science, 020208 electrical & electronic engineering, Mission critical, 02 engineering and technology, Converters, Fault (power engineering), 01 natural sciences, Industrial and Manufacturing Engineering, Power (physics), Three-phase, Control and Systems Engineering, Power electronics, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Power semiconductor device, Electrical and Electronic Engineering

Abstract

Fault diagnosis and failure prognosis of power electronics systems are essential for various mission critical applications, where safety, continuity, and survivability of the system are of paramount importance. With the recent advances in power device failure precursor identification and lifetime estimation, it is possible to extend the lifetime of the power devices, and thereby converters through secondary control schemes. The essence of the lifetime extension strategies relies on either reducing the power loss on the degraded device(s) and shifting it to other parts, or decreasing the total power loss of the converter. As the power converters are optimized for efficiency and total harmonic distortion (THD) requirements, these secondary control strategies can result in operations above the design limits. This paper proposes a hybrid secondary lifetime extension control scheme for three-phase inverters based on the identified failure precursors, which dynamically changes the modulation scheme and adjusts the switching frequency. In the content of this paper, the tradeoff between the THD and achievable lifetime extension is addressed, and a control algorithm is proposed, which maximizes the lifetime with feasible lowest THD.

Published

2019

11. A Novel Soft-Switching Secondary-Side Modulated Multioutput DC–DC Converter With Extended ZVS Range

Author

Zhiqing Li, Serkan Dusmez, and Haoyu Wang

Subjects

Physics, business.industry, 020208 electrical & electronic engineering, Electrical engineering, High voltage, Topology (electrical circuits), 02 engineering and technology, Converters, Inductor, Rectifier, Duty cycle, 0202 electrical engineering, electronic engineering, information engineering, Voltage regulation, Electrical and Electronic Engineering, business, Voltage

Abstract

In this paper, a novel soft-switching secondary-side modulated dc–dc structure with extended zero voltage switching (ZVS) range is proposed. In a simple manner, this structure can be extended to provide isolated multioutputs with independent voltage regulation capability. Besides, the secondary side can be bidirectional to interface with energy storage elements such as batteries and ultracapacitors. The proposed topology is suitable for high voltage gain or high output dc-link voltage, low-power, and multioutput applications. The primary-side full-bridge switches operate complementarily to generate a two-level square wave. Therefore, the circulating energy is significantly smaller than conventional phase-modulated full-bridge converters. The output voltage is regulated by controlling the duty cycle of the auxiliary mosfet on the active/semiactive rectifier, which offers a simple control. Moreover, the ZVS operation range of full-bridge mosfet s is enhanced due to the volt-second balance of magnetizing inductance and the secondary-side control. All the secondary-side rectifying diodes turn off with limited di / dt. A 1-kW prototype generating two 390 V, 330–400 V outputs from a 130–180 V dc link is designed to serve as a proof of concept. The full-load efficiency is 95.6% at 100 kHz switching frequency.

Published

2019

12. A 3-D Single-stage Differential Mode Filter Modeling with Mutual Couplings and Layout Optimizations

Author

Huseyin Kayihan Comert, Serkan Dusmez, and Gamze ODABAs

Subjects

Noise, HFSS, Computer science, Filter (video), EMI, Attenuation, Harmonics, Electronic engineering, Component placement, Insertion gain

Abstract

EMI filters are traditionally designed to attenuate the low-frequency harmonics as the filter exhibits an insertion gain of -20 dB/decade per added filter component which inherently attenuates the high-frequency noise. However, the self-parasitics of EMI filter components and mutual couplings between the components and traces decrease the attenuation capability of the filter at higher frequencies. This paper model the filter components and traces in ANSYS high-frequency structure simulator (HFSS) tool and attempts to relate the couplings to the filter and trace placements. A single-stage differential mode (DM) filter has been analyzed and optimum component placement has been identified. It has been shown that on average 17 dB higher insertion gain can be achieved with layout optimization in comparison to commonly used component placement.

Published

2021

13. Lifetime Estimation of Discrete IGBT Devices Based on Gaussian Process

Author

Syed Huzaif Ali, Bilal Akin, Anant Shankar Kamath, Xiong Li, Serkan Dusmez, and Mehrdad Heydarzadeh

Subjects

Physics, 021103 operations research, 020208 electrical & electronic engineering, 0211 other engineering and technologies, 02 engineering and technology, Insulated-gate bipolar transistor, Converters, Topology, Bayesian inference, Industrial and Manufacturing Engineering, symbols.namesake, Reliability (semiconductor), Control and Systems Engineering, Logic gate, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, symbols, Device under test, Electrical and Electronic Engineering, Gaussian process, Voltage drop

Abstract

Discrete package insulated gate bipolar transistor (IGBT) devices are a popular choice for low-power converters. Although IGBT power modules used in high-power applications have recently been studied in the literature, there are major knowledge gaps regarding reliability and lifetime estimation of discrete devices. In this paper, on-state collector–emitter voltage drop $(V_{{\rm{ce}},{\rm{on}}})$ variations are characterized for discrete IGBT devices exposed to cyclic thermal stresses. Variations in $V_{{\rm{ce}},{\rm{on}}}$ are carefully identified and classified depending on different aging mechanisms, stress levels, and device structures. A probabilistic framework for remaining useful lifetime (RUL) estimation based on the knowledge obtained by accelerated aging experiments for real-time RUL estimation has been proposed. Specifically, the proposed model uses Gaussian process regression (GPR) for applying a Bayesian inference (BI) on RUL estimation of the device under test. Using BI reduces the uncertainty associated with RUL estimation and leads to more accurate results. This concept is also tested by comparing the classical maximum-likelihood estimation and GPR estimation results with the ones obtained by accelerated aging tests.

Published

2018

14. Remaining Useful Lifetime Estimation for Power MOSFETs Under Thermal Stress With RANSAC Outlier Removal

Author

Bilal Akin, Mehrdad Nourani, Serkan Dusmez, and Mehrdad Heydarzadeh

Subjects

010302 applied physics, Engineering, business.industry, 020208 electrical & electronic engineering, Condition monitoring, 02 engineering and technology, RANSAC, Fault (power engineering), 01 natural sciences, Computer Science Applications, Power (physics), Control and Systems Engineering, Sliding window protocol, 0103 physical sciences, Outlier, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Linear approximation, Electrical and Electronic Engineering, Power MOSFET, business, Algorithm, Information Systems

Abstract

Reliability of power converters is crucial for mission critical systems. Among the components that are susceptible to failure, power semiconductor devices are one of the major causes of the power converter failures. This paper focuses on the remaining useful lifetime (RUL) estimation of degraded power MOSFETs, which are stressed by thermal cycling. The relative change in on-state resistance is identified as the fault signature. A data-driven RUL estimation algorithm based on a linear approximation model is proposed. The empirical coefficients are estimated by the classical least squares, where the outliers are removed by random sample consensus (RANSAC) algorithm. A sliding window approach is used to track the nonlinearities. The window size, threshold value, and number of samples used by RANSAC are optimized with the genetic algorithm. The accuracy of the proposed RUL estimation tool is verified on a number of thermally aged discrete power MOSFET data.

Published

2017

15. Aging Precursor Identification and Lifetime Estimation for Thermally Aged Discrete Package Silicon Power Switches

Author

Hamit Duran, Serkan Dusmez, Syed Huzaif Ali, Mehrdad Heydarzadeh, Anant Shankar Kamath, and Bilal Akin

Subjects

010302 applied physics, Materials science, 020208 electrical & electronic engineering, Bipolar junction transistor, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, Insulated-gate bipolar transistor, 01 natural sciences, Industrial and Manufacturing Engineering, Threshold voltage, Control and Systems Engineering, Logic gate, 0103 physical sciences, MOSFET, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, Power MOSFET, AND gate, Voltage drop, Hardware_LOGICDESIGN

Abstract

Thermal/power cycles are widely acknowledged methods to accelerate the package related failures. Many studies have focused on one particular aging precursor at a time and continuously monitored it using custom-built circuits. Due to the difficulties in taking sensitive measurements, the reported findings are more on the quantities requiring less sensitive measurements. In this paper, two custom-designed testbeds are used to age a number of power MOSFETs and insulated gate bipolar transistors. An automated curve tracer is utilized to capture parametric variations in I – V curves, parasitic capacitances, and gate charges at certain time intervals. The results suggest that the only viable aging precursors are the on-state voltage drop/on-state resistance, body diode voltage drop, parasitic capacitances, and gate threshold voltage for die attach solder and gate-oxide degradation mechanisms. Based on the experimental results, gate threshold voltage variation is empirically modeled to estimate the remaining useful lifetime of the switches experiencing gate oxide degradation. The model parameters are found by the least squares method applied to inliers determined by the random sample and consensus outlier removal algorithm.

Published

2017

16. A SiC-Based High-Efficiency Isolated Onboard PEV Charger With Ultrawide DC-Link Voltage Range

Author

Haoyu Wang, Alireza Khaligh, Serkan Dusmez, and Chuan Shi

Subjects

Engineering, Total harmonic distortion, business.industry, 020208 electrical & electronic engineering, Energy conversion efficiency, Electrical engineering, Battery (vacuum tube), 020302 automobile design & engineering, 02 engineering and technology, Power factor, Converters, 7. Clean energy, Battery pack, Industrial and Manufacturing Engineering, chemistry.chemical_compound, 0203 mechanical engineering, chemistry, Control and Systems Engineering, 0202 electrical engineering, electronic engineering, information engineering, Silicon carbide, Electronic engineering, Electrical and Electronic Engineering, business, Voltage

Abstract

In LLC-based onboard battery charging architectures used in plug-in electric vehicles (PEV), the dc link voltage can be actively regulated to follow the battery pack voltage so that the LLC converter can operate in proximity of resonant frequency and achieve high efficiencies over the wide range of battery pack voltage. However, conventional boost-type power factor correction (PFC) converters are unable to provide ultrawide dc link voltages since their output voltages should always be larger than their input voltages. This paper proposes a Silicon Carbide (SiC)-based onboard PEV charger using single-ended primary-inductor converter (SEPIC) PFC converter followed by an isolated LLC resonant converter. With the proposed charger architecture, the SEPIC PFC converter is able to provide an ultrawide range for dc link voltage, and consequently enhance the efficiency of the LLC stage by ensuring operation in proximity of resonant frequency. A 1-kW SiC-based prototype is designed to validate the proposed idea. The experimental result shows that the SEPIC PFC converter achieves unity power factor, 2.72% total harmonic distortion, and 95.3% peak conversion efficiency. The LLC converter achieves 97.1% peak efficiency and always demonstrates a very high efficiency across the ultrawide dc-link voltage range. The overall efficiency of the charger is 88.5% to 93.5% from 20% of the rated load to full load.

Published

2017

17. In Situ Condition Monitoring of High-Voltage Discrete Power MOSFET in Boost Converter Through Software Frequency Response Analysis

Author

Lei Sun, Bilal Akin, Serkan Dusmez, and Manish Bhardwaj

Subjects

010302 applied physics, Engineering, Switched-mode power supply, Buck converter, business.industry, 020208 electrical & electronic engineering, Ćuk converter, Electrical engineering, Condition monitoring, High voltage, 02 engineering and technology, Inductor, 01 natural sciences, Control and Systems Engineering, 0103 physical sciences, Boost converter, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, Power MOSFET, business

Abstract

The efforts for more reliable power conversion systems have been gaining momentum in recent years. The majority of the studies concerning reliability of power switches focus on the package-related failures, mainly caused by the cyclic thermal stress. The basic failure precursor for this type of stress has been identified as increased on-state resistance for power MOSFETs in the recent literature. On-state resistance monitoring during converter operation is a challenging and costly task as it requires current and voltage sensing circuits, which can block the high voltage across the switch during off-state to protect the measurement or control unit. This paper proposes a software frequency response analysis method to determine the health status of high-voltage power MOSFETs with high on-state resistance. This is achieved by analyzing and evaluating the variation in the plant model at double pole frequency using the same DSP that is used for control purposes. The proposed concept is analyzed for boost converter; however, it can be used to detect the on-state resistance variation in other types of converters operating in continuous condition mode (CCM). The proposed algorithm is embedded in a low cost DSP and experimentally verified on a dc/dc boost converter.

Published

2016

18. An Active Life Extension Strategy for Thermally Aged Power Switches Based on the Pulse-Width Adjustment Method in Interleaved Converters

Author

Serkan Dusmez and Bilal Akin

Subjects

Engineering, business.industry, 020208 electrical & electronic engineering, Electrical engineering, Condition monitoring, 020302 automobile design & engineering, 02 engineering and technology, Converters, Inductor, Fault (power engineering), Power (physics), 0203 mechanical engineering, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Current sensor, Electrical and Electronic Engineering, Power MOSFET, business, Pulse-width modulation

Abstract

The research on noninvasive incipient fault diagnosis of power converters is very critical to avoid strenuous periodic checkups and costly interruptions. In many of the research studies, on-state resistance of power MOSFETs is identified as the fault precursor, and suggested to be monitored online for prognosis. In this paper, a condition monitoring algorithm is proposed for power MOSFETs of interleaved converters and integrated with the conventional current loops. The proposed technique utilizes on-state resistance information of the switches to adjust the current reference of each interleaving leg. In addition, a pulse-width adjustment method is proposed to avoid one current sensor and current-control loop. With the proposed scheme, the thermal stress on the aged device can be reduced, and the overall lifetime of the converter can be extended. The proposed approach is verified on two-leg interleaved converters both in simulation and experimentally.

Published

2016

19. Remaining Useful Lifetime Estimation for Thermally Stressed Power MOSFETs Based on on -State Resistance Variation

Author

Serkan Dusmez, Hamit Duran, and Bilal Akin

Subjects

010302 applied physics, Engineering, business.industry, 020208 electrical & electronic engineering, 02 engineering and technology, Temperature cycling, Kalman filter, Fault (power engineering), 01 natural sciences, Noise (electronics), Industrial and Manufacturing Engineering, Power (physics), Control and Systems Engineering, 0103 physical sciences, MOSFET, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Junction temperature, Electrical and Electronic Engineering, Power MOSFET, business

Abstract

The research on noninvasive incipient fault diagnosis of power converters is very critical to avoid strenuous periodic check-ups and costly interruptions. Thermal cycling is one of the main techniques to accelerate the package-related failure progress. In this paper, first, a custom designed accelerated aging platform that can expose multiple discrete power MOSFETs to thermal stress simultaneously is introduced. Based on the collected experimental data, the variation of the on -state resistance is identified as the failure precursor, and an exponential degradation model that fits successfully with the experimental data are developed. The remaining useful lifetime (RUL) of degraded power MOSFETs is estimated through classical least-squares algorithm run on experimental data filtered by Kalman Filter which deals with the measurement noise and model uncertainties. The essential advantage of the proposed method is that it does not require junction temperature information. The RUL estimation with limited field data is demonstrated on a number of experimental results.

Published

2016

20. A New SVPWM for the Phase Current Reconstruction of Three-Phase Three-level T-type Converters

Author

Bilal Akin, Kaushik Rajashekara, Xiong Li, and Serkan Dusmez

Subjects

Engineering, Offset (computer science), Computational complexity theory, business.industry, 020209 energy, 020208 electrical & electronic engineering, 02 engineering and technology, Insulated-gate bipolar transistor, Converters, Three-phase, Null vector, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Inverter, Electrical and Electronic Engineering, business, Voltage

Abstract

This paper presents a new space vector pulsewidth modulation scheme to reconstruct phase currents using neutral-point current sensing in three-level T-type converters (TLTTCs). For this purpose, zero vector and offset vectors are replaced with complementary active vectors. These active vectors do not affect the resultant output voltage and the voltage balance at the neutral point of TLTTCs. Hence, the pulsewidths of corresponding active vectors can be adjusted even at low speeds without much additional switching losses and low-frequency noise in the inverter. The modified switching patterns can easily be generated without significant computational complexity. The proposed method is experimentally verified using Texas Instruments TMS320F28335 and Spartan 6 controllers, on a custom designed T-type converter based on Fuji IGBT modules.

Published

2016

21. A New Multiinput Three-Level DC/DC Converter

Author

Serkan Dusmez, Xiong Li, and Bilal Akin

Subjects

Forward converter, Engineering, business.industry, Flyback converter, Ćuk converter, Electrical engineering, law.invention, law, Power electronics, Boost converter, Charge pump, Electronic engineering, Electrical and Electronic Engineering, business, Transformer, Low voltage

Abstract

Power electronics solutions based on multiple converter configurations offer cost-effective solutions by integrating a number of components at input or output power stages. This paper proposes a new multiinput isolated three-level converter for renewable and sustainable energy systems adopting high dc link voltage. Multiple dc sources are integrated to the three-level dc/dc converter before the isolation stage, resulting in reduced part-count, determining dc link voltage level and allowing flexibility in transformer design. The proposed architecture eliminates two boost switches which are present in the two-stage counterpart. The input inductors are operated in discontinuous conduction mode; thus, power can be shared between input sources through proper selection of input inductors. A low voltage prototype has been designed to serve as a proof of concept.

Published

2016

22. A New Active Fault-Tolerant SVPWM Strategy for Single-Phase Faults in Three-Phase Multilevel Converters

Author

Serkan Dusmez, Kaushik Rajashekara, Xiong Li, and Bilal Akin

Subjects

Engineering, Offset (computer science), business.industry, Fault tolerance, Active fault, Converters, Three-phase, Control and Systems Engineering, Control theory, Electronic engineering, Electrical and Electronic Engineering, Single phase, business, Space vector modulation, Voltage

Abstract

Multilevel converters have been well studied for high-voltage high-power renewable energy applications. Owing to the multibranch structure, these converters can be operated under fault conditions in case of a loss of a branch or voltage cell. In this regard, this paper proposes a new active fault-tolerant space vector pulsewidth modulation strategy for single-phase faults in three-phase multilevel converters. The proposed modulation strategy treats the multilevel converter as a two-level converter by introducing an offset vector. A generalized approach is proposed to search for the offset vector and to adjust the modulation of the converter online under different fault operation conditions. Several short- and open-circuit faults have been demonstrated on a seven-level hybrid input-switched converter to prove the effectiveness of the proposed fault-tolerant scheme.

Published

2015

23. A Zero-Voltage-Transition Bidirectional DC/DC Converter

Author

Serkan Dusmez, Alireza Khaligh, and A. Hasanzadeh

Subjects

Forward converter, Materials science, business.industry, Flyback converter, Ćuk converter, Electrical engineering, Inductor, Control and Systems Engineering, Duty cycle, Power electronics, Boost converter, Charge pump, Electronic engineering, Electrical and Electronic Engineering, business

Abstract

A three-level (TL) bidirectional dc/dc converter is a suitable choice for power electronic systems with a high-voltage dc link, as the voltage stress on the switches is half and inductor current ripple frequency is twice the converter's switching frequency. This study proposes a zero-voltage transition (ZVT) TL dc/dc converter to enable operation with higher switching frequency in order to achieve higher power density and enhance efficiency. Two identical ZVT cells, each one composed of two resonant inductors, a capacitor, and an auxiliary switch, are integrated with the conventional TL topology to enable soft switching in all four switches in both buck and boost operation modes. In addition, a variable dead-time control is proposed to increase the effective duty ratio at heavy loads. The proposed soft-switching feature has been demonstrated under different loading conditions. A 650-W prototype is designed and fabricated, which exhibits 95.5% at full load.

Published

2015

24. Comparative Analysis of Bidirectional Three-Level DC–DC Converter for Automotive Applications

Author

Alireza Khaligh, A. Hasanzadeh, and Serkan Dusmez

Subjects

Forward converter, Engineering, business.industry, Flyback converter, Buck converter, Ćuk converter, Electrical engineering, Power optimizer, Control and Systems Engineering, Boost converter, Charge pump, Electronic engineering, Electrical and Electronic Engineering, business, Energy source

Abstract

In battery/ultracapacitor electric vehicles, a bidirectional dc/dc converter is employed to process the power according to the power references obtained from the energy management controller. The selection of this converter is of critical importance for the overall system efficiency and size. This study proposes using a three-level dc/dc converter and provides a comprehensive comparison with the conventional two-level and interleaved bidirectional buck/boost converters in terms of magnetic component size/weight and overall efficiency. Unlike the comparative studies presented in the literature, where the efficiency comparison of converters is conducted based on given fixed input and output parameters, power references obtained from a wavelet-transform-based energy management strategy with varying energy source voltages and traction power are considered in this paper. The results of the analyses show that a three-level converter exhibits higher overall efficiency and has smaller size inductor. A 1-kW bidirectional three-level dc/dc converter is designed as a proof of concept, which exhibits 93.2% peak efficiency at 200-kHz switching frequency.

Published

2015

25. A Fully Integrated Three-Level Isolated Single-Stage PFC Converter

Author

Serkan Dusmez, Bilal Akin, and Xiong Li

Subjects

Forward converter, Low-dropout regulator, Flyback converter, Computer science, Power factor, Inductor, AC/AC converter, law.invention, Capacitor, law, Boost converter, Charge pump, Electronic engineering, Voltage regulation, Electrical and Electronic Engineering, Voltage

Abstract

For low-cost isolated ac/dc power converters adopting high-voltage dc-link, research efforts focus on single-stage multilevel topologies. This paper proposes a new single-stage three-level isolated ac/dc PFC converter for high dc-link voltage low-power applications, achieved through an effective integration of ac/dc and dc/dc stages, where all of the switches are shared between two operations. With the proposed converter and switching scheme, input current shaping and output voltage regulation can be achieved simultaneously without introducing additional switches or switching actions. In addition, the middle two switches are turned on under zero current in discontinuous conduction mode operation, and the upper and bottom switches are turned on under zero voltage. Due to the flexible dc-link voltage structure, high power factor can be achieved at high line voltage. A 500 W/48 V prototype is designed to serve as the proof of concept, which exhibits 90.8% peak efficiency at low input line voltage.

Published

2015

26. A New SVPWM Technique for DC Negative Rail Current Sensing at Low Speeds

Author

Bilal Akin, Serkan Dusmez, and Ling Qin

Subjects

Engineering, Null (radio), business.industry, Infrasound, Microcontroller, Control and Systems Engineering, Modulation, Control theory, Electronic engineering, Waveform, Electrical and Electronic Engineering, Current (fluid), business, Space vector, Voltage

Abstract

Negative rail current sensing with the conventional space vector pulsewidth modulation (SVPWM) scheme imposes several challenges, particularly at low speeds and sector boundaries, where the pulsewidths of active vectors become narrow while the dc negative rail current becomes zero in null vectors (111) or (000). This paper presents a new SVPWM scheme by replacing null vectors with complementary active vectors such that the added vectors effectively cancel out each other, and the applied resultant voltage remains the same as in the conventional SVPWM. Hence, the pulsewidths of active vectors can be increased at low speeds without introducing additional switching losses, adding switching complexity, or introducing low frequency noise to the waveforms. Moreover, the proposed scheme reduces the system error caused by the deadtime of the switches with enlarged pulsewidths, enabling low-speed drive. The proposed technique is experimentally verified using a TMS320F28035 (Piccolo) microcontroller.

Published

2015

27. A New SVPWM Modulated Input Switched Multilevel Converter for Grid-Connected PV Energy Generation Systems

Author

Xiong Li, Kaushik Rajashekara, Bilal Akin, U. R. Prasanna, and Serkan Dusmez

Subjects

Offset (computer science), Electricity generation, Computer science, Renewable energy system, Photovoltaic system, Electronic engineering, Energy Engineering and Power Technology, Electrical and Electronic Engineering, Converters, Grid, Space vector, Voltage

Abstract

This paper proposes a new space vector pulsewidth modulation (SVPWM) strategy for a hybrid input switched multilevel converter for photovoltaic energy generation systems. The converter topology is a cascaded connection of input switched and H-bridge converters, which can provide 2N + 1 voltage levels for each phase. The proposed SVPWM strategy treats the multilevel converter as a two-level converter by introducing an offset vector. With a generated switching pattern, it is possible to obtain minimum number of switching-state transitions and switch the H-bridge close to line frequency; thus, the switching losses can be significantly reduced. The proposed SVPWM strategy has been realized on a seven-level converter to demonstrate the principle of operation. The advantages of the proposed scheme and architecture are verified by both simulation and experimental results.

Published

2014

28. Designing a 1kW GaN PFC stage with over 99% efficiency and 155W/in3 power density

Author

Serkan Dusmez and Zhong Ye

Subjects

Materials science, business.industry, 020208 electrical & electronic engineering, 05 social sciences, Electrical engineering, Topology (electrical circuits), Gallium nitride, 02 engineering and technology, Converters, Power (physics), Electric power system, chemistry.chemical_compound, chemistry, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, Field-effect transistor, business, 050107 human factors, Power density, Electronic circuit

Abstract

Stringent requirements on higher power density and efficiency for power electronics converters in applications such as server/telecom power systems and industrial motor drives necessitate transformative changes in power electronic architecture as well as replacement of Si based FETs with wide bandgap devices. For power-factor-correction (PFC) circuits, the path for greater power density necessitates the transition from Si based dual-boost to GaN based totem pole (TP) structure, which enables designers to reach over 99% efficiency at twice the power density of Si based converters. This paper compares GaN based TP PFC with conventional Si based topologies, and details design steps for above 99% efficiency and 155W/in3 power density in the switching network.

Published

2017

29. Bayesian remaining useful lifetime prediction of thermally aged power MOSFETs

Author

Mehrdad Heydarzadeh, Mehrdad Nourani, Bilal Akin, and Serkan Dusmez

Subjects

Electrolytic capacitor, Engineering, 021103 operations research, business.industry, 020208 electrical & electronic engineering, 0211 other engineering and technologies, Linear model, Estimator, 02 engineering and technology, Bayesian inference, Interference (wave propagation), Fault (power engineering), Reliability engineering, Power (physics), 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Power MOSFET, business

Abstract

The demand for more reliable power conversion is ever increasing. This necessitates smart gate drivers or smart system controllers that monitor the components that are susceptible to failure. Together with the electrolytic capacitors, power semiconductor devices are among the weakest components in a power converter. In an effort to predict power MOSFET aging, this paper proposes an remaining useful lifetime (RUL) estimation algorithm for degraded power MOSFETs, which are exposed to high amplitude thermal cycles. The relative change in on-state resistance is identified as the fault signature. A data-driven RUL estimation algorithm based on a linear model approximation is proposed. The outliers present particularly in the beginning part of the data decrease the accuracy of the estimation with classical least-squares method. In this paper, a Bayesian Interference estimator is proposed to improve the accuracy through incorporating prior knowledge to estimation. The accuracy of the proposed RUL estimation tool is verified on the collected experimental data of thermally aged discrete power MOSFETs.

Published

2017

30. Maximum Efficiency Point Tracking Technique for <tex-math notation='TeX'>$LLC$</tex-math>-Based PEV Chargers Through Variable DC Link Control

Author

Haoyu Wang, Alireza Khaligh, and Serkan Dusmez

Subjects

Forward converter, Engineering, Operating point, business.product_category, business.industry, Battery (vacuum tube), Topology (electrical circuits), Inductor, Battery pack, Hardware_GENERAL, Control and Systems Engineering, Control theory, Electric vehicle, Electrical and Electronic Engineering, business, Voltage

Abstract

In this paper, a variable dc link technique is proposed to track the maximum efficiency point of the $LLC$ converter for plug-in electric vehicle battery-charging applications over a wide battery state-of-charge (SOC) range. With the proposed variable dc link control approach, the dc link voltage follows the battery pack voltage. The operating point of the $LLC$ converter is always constrained to the proximity of the primary resonant frequency so that the circulating current in the magnetizing inductor and the turning-off currents of MOSFETs are minimized. In comparison with conventional approaches, the proposed variable dc link voltage methodology demonstrates efficiency improvement across the wide SOC range. Efficiency improvements of 2.1% at the heaviest load condition and 9.1% at the lightest load condition are demonstrated.

Published

2014

31. Optimization of Sizing and Battery Cycle Life in Battery/Ultracapacitor Hybrid Energy Storage Systems for Electric Vehicle Applications

Author

Serkan Dusmez, Junyi Shen, and Alireza Khaligh

Subjects

Battery (electricity), Supercapacitor, Schedule, Engineering, business.product_category, Charge cycle, business.industry, Electrical engineering, Automotive engineering, Energy storage, Sizing, Computer Science Applications, Control and Systems Engineering, Electric vehicle, Automotive battery, Electrical and Electronic Engineering, business, Information Systems

Abstract

Electric vehicle (EV) batteries tend to have accelerated degradation due to high peak power and harsh charging/ discharging cycles during acceleration and deceleration periods, particularly in Urban driving conditions. Oversized energy storage system (ESS) meets the high power demand; however, in tradeoff with increased ESS size, volume, and cost. In order to reduce overall ESS size and extend battery cycle life, battery/ultracapacitor (UC) hybrid ESS (HESS) has been considered as a solution in which UCs act as a power buffer to charging/discharging peak power. In this paper, a multiobjective optimization problem is formulated to minimize the overall ESS size, while maximizing the battery cycle life according to the assigned penalty functions. An integrated framework for HESS sizing and battery cycle life optimization applied in a midsize EV, using an Autonomie simulation model, is described and illustrated in this paper. This multidimensional optimization is realized by a sample-based global search oriented DIviding RECTangles (DIRECT) algorithm. The optimization results under Urban Dynamometer Driving Schedule (UDDS) are compared with the battery-only ESS results, which demonstrate significant battery cycle life extension of 76% achieved by the optimized HESS with 72 UC cells.

Published

2014

32. A Modified Dual-Output Interleaved PFC Converter Using Single Negative Rail Current Sense for Server Power Systems

Author

Manish Bhardwaj, Shamim Choudhury, Bilal Akin, and Serkan Dusmez

Subjects

Electric power system, Microcontroller, Engineering, Interleaving, business.industry, Electronic engineering, Current sensor, Digital control, Topology (electrical circuits), Electrical and Electronic Engineering, Inductor, business, Pulse-width modulation

Abstract

The interleaved PFC topologies have been widely used since they allow for smaller components, improved thermal performance, better transients, and reduced current ripple. In this letter, conventional two-phase interleaved universal input PFC topology is modified to obtain dual independent outputs for server applications, which minimizes the transient effects of interleaving legs on each other through two split dc buses. A new digital control method using only one current sensor located on the negative dc rail is proposed to control the dual-output interleaved PFC converter. Double-loop digital control of two interleaving stages is implemented using a single low-cost microcontroller (TMS320F28027-PiccoloA). In the proposed control technique, the control circuitry, input voltage, and current sensing circuits are shared between two PFC power stages, which minimize the size and the cost of the design significantly.

Published

2014

33. A Supervisory Power-Splitting Approach for a New Ultracapacitor–Battery Vehicle Deploying Two Propulsion Machines

Author

Serkan Dusmez and Alireza Khaligh

Subjects

Battery (electricity), Engineering, Energy management, Powertrain, business.industry, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Control engineering, Propulsion, Energy storage, Computer Science Applications, Power (physics), State of charge, Control and Systems Engineering, Electrical and Electronic Engineering, business, Decoupling (electronics), Information Systems

Abstract

Electrification of performance vehicles brings several challenges, such as the necessity of high-power sources, which can satisfy the power requirements during acceleration and efficiently retrieve energy during deceleration without performance and life cycle deterioration of such sources. In addition, the limited space under the hood for these vehicles eliminates the possibility of utilizing large volume high-power propulsion machines. This paper proposes a fuzzy logic supervisory wavelet-transform frequency decoupling-based energy management strategy implemented on a new powertrain deploying two propulsion machines rated at different powers with a hybrid battery/ultracapacitor (UC) energy storage system (ESS). The proposed control and energy management strategy guarantees that battery and UC provide the base and transient-free powers, respectively, while state of charge (SOC) of UC is maintained at an optimal value. The torque demand is split among the propulsion machines by solving the formulated unconstrained optimization problem. With the proposed hybrid ESS and energy/power decoupling strategy, power density of the ESS can be increased, vehicle performance can be improved, and battery lifetime can be prolonged.

Published

2014

34. Design and Analysis of a Full-Bridge LLC-Based PEV Charger Optimized for Wide Battery Voltage Range

Author

Serkan Dusmez, Alireza Khaligh, and Haoyu Wang

Subjects

Forward converter, Total harmonic distortion, Engineering, Computer Networks and Communications, business.industry, Electrical engineering, Aerospace Engineering, Battery (vacuum tube), Power factor, Battery charger, Automotive Engineering, Boost converter, Electrical and Electronic Engineering, business, Galvanic isolation, Voltage

Abstract

In this paper, a two-stage onboard battery charger is analyzed for plug-in electric vehicles (PEVs). An interleaved boost topology is employed in the first stage for power factor correction (PFC) and to reduce total harmonic distortion (THD). In the second stage, a full-bridge LLC-based multiresonant converter is adopted for galvanic isolation and dc/dc conversion. Design considerations are discussed, focusing on reducing the charger volume and optimizing the conversion efficiency over the wide battery-pack voltage range. A detailed design procedure is provided for a 1-kW prototype, charging the battery with an output voltage range of 320–420 V from 110-V 60-Hz single-phase grid. Experimental results show that the first-stage PFC converter achieves THD of less than 4% and a power factor higher than 0.99, and the second-stage LLC converter operates with 95.4% peak efficiency and good overall efficiency over wide output voltage ranges.

Published

2014

35. A Charge-Nonlinear-Carrier-Controlled Reduced-Part Single-Stage Integrated Power Electronics Interface for Automotive Applications

Author

Serkan Dusmez and Alireza Khaligh

Subjects

Engineering, Computer Networks and Communications, business.industry, Electrical engineering, Aerospace Engineering, Power factor, Power optimizer, Electric power system, Power electronics, Power module, Automotive Engineering, AC adapter, Electronic engineering, Charge pump, Power engineering, Electrical and Electronic Engineering, business

Abstract

The current research trend to increase the power density of power electronics interfaces in automotive applications is the cost-effective integration of power converters. This paper proposes a reduced-part integrated power electronics interface that is capable of charging the battery and adjusting the voltage levels of a battery and a dc link during propulsion and regenerative braking. In the proposed topology, one inductor is shared between a dc/dc converter and a charger, eliminating the need for an additional magnetic component for the charging stage. A charge nonlinear-carrier control (NLC) method, which reduces the feedback circuitry, is adopted, and different nonlinear reference voltage waveforms are generated for each half-cycle of the grid to ensure a unity power factor and stable operation. To verify the concept, a 750-W prototype has been built and tested for each operation mode.

Published

2014

36. A Compact and Integrated Multifunctional Power Electronic Interface for Plug-in Electric Vehicles

Author

Serkan Dusmez and Alireza Khaligh

Subjects

Engineering, Switched-mode power supply, business.industry, Buck converter, Power module, Boost converter, Electrical engineering, Power factor, Electric power, Single-phase electric power, Power engineering, Electrical and Electronic Engineering, business

Abstract

The basic power electronic interfaces rendering volume and weight of electric and plug-in hybrid electric vehicles are an inverter, an on-board charger, and a bidirectional dc/dc converter. This paper proposes an innovative integrated bidirectional converter with a single-stage on-board charger to reduce the number of switches, size, and weight of the power electronic interfaces. The analyses show that 266 cm 3 and 1.1 kg can be saved due to the elimination of the inductor core used for power factor correction in charging mode, in addition to the reduction achieved through removal of inductor winding, power switches, diodes, and additional heat sink of the conventional structures. A proof-of-concept prototype with power limits of 8.4 kW in charging and 20 kW in propulsion modes has been designed and validated at various power levels. The peak efficiencies for propulsion and regenerative braking operations are measured as 96.6% and 94.1%, respectively. The power factor is recorded as 0.995 at 1.8 kW charging power, where crest factor and peak efficiency are recorded as 1.49 and 91.6%, respectively.

Published

2013

37. A comprehensive study on variations of discrete IGBT characteristics due to package degradation triggered by thermal stress

Author

Serkan Dusmez, Syed Huzaif Ali, and Bilal Akin

Subjects

010302 applied physics, Materials science, 020208 electrical & electronic engineering, Condition monitoring, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, Insulated-gate bipolar transistor, Overdrive voltage, Fault (power engineering), 01 natural sciences, Threshold voltage, 0103 physical sciences, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Gate driver, Voltage drop, AND gate

Abstract

Identification of power device failure precursors is essential for condition monitoring, fault severity assessment and lifetime estimation. These tools constitute the fundamental elements to achieve highly reliable power converters with self-diagnosis capability, which can report incipient faults at very early stage. In this paper, several discrete IGBTs are thermally aged on a custom-built modular test-bed. I-V characteristics are monitored periodically using an automated curve tracer throughout the aging, and the fault/aging related patterns are comprehensively analyzed. The variations in saturation voltage, gate threshold voltage, transfer capacitances, and gate charge, which are the potential candidates for aging precursors, are analyzed in detail. The experimental and failure analysis results suggest that on-state voltage drop and gate threshold voltage are the two essential aging precursors for monitoring die-attach solder and gate oxide degradations.

Published

2016

38. Investigation of collector emitter voltage characteristics in thermally stressed discrete IGBT devices

Author

Bilal Akin, Serkan Dusmez, and Syed Huzaif Ali

Subjects

Engineering, business.industry, 020208 electrical & electronic engineering, Electrical engineering, Condition monitoring, 020302 automobile design & engineering, 02 engineering and technology, Insulated-gate bipolar transistor, Converters, Power (physics), 0203 mechanical engineering, Logic gate, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, business, Voltage drop, Common emitter, Voltage

Abstract

Discrete package Insulated Gate Bipolar Transistor (IGBT) devices are a popular choice for low-medium power converters. Although IGBT power modules have been extensively studied in literature, there exists a major gap for reliability study particularly for discrete devices. Current failure diagnostic tools are not mature enough for failure diagnosis and prognosis in real-time operation based on system condition monitoring. In order to move power conversion technologies forward reliably, this paper investigates the changes in on-state collector-emitter voltage drop (V ce , on ) of discrete IGBT devices exposed to thermal cyclic stress. Depending on the dominant aging mechanisms and device structure, V ce , on variation trend is different. In this paper, V ce , on variations of three different IGBT device types, namely, punch through, non-punch through and field stop, are continuously monitored during accelerated aging tests, and their relations to aging mechanisms are identified.

Published

2016

39. A robust remaining useful lifetime estimation method for discrete power MOSFETs

Author

Mehrdad Heydarzadeh, Bilal Akin, Serkan Dusmez, and Mehrdad Nourani

Subjects

Estimation, Engineering, 021103 operations research, business.industry, 020208 electrical & electronic engineering, 0211 other engineering and technologies, 02 engineering and technology, RANSAC, Die (integrated circuit), Classical least squares, Statistics, MOSFET, Outlier, 0202 electrical engineering, electronic engineering, information engineering, Linear approximation, Power MOSFET, business, Algorithm

Abstract

This paper focuses on the remaining useful lifetime (RUL) estimation of power MOSFETs, which are stressed by thermal cycling. The relative change in on-state resistance is identified as the aging precursor for die attach solder degradation after exhaustive experiments. A data-driven RUL estimation algorithm based on a linear approximation model is proposed. The empirical coefficients are estimated by the classical least squares method. However, the initial part of the data contains a significant number of outliers, which decreases the estimation accuracy. In order to remove the outlier effect and make the estimation robust, least-squares method is applied to only inliers that are determined by random sample consensus (RANSAC) algorithm. With the exclusion of outliers, the RUL estimation is improved for the ones that contain outliers. The accuracy of the proposed RUL estimation tool is verified on a number of thermally aged discrete power MOSFET data.

Published

2016

40. Power switch lifetime extension strategies for three-phase converters

Author

Enes Ugur, Bilal Akin, and Serkan Dusmez

Subjects

010302 applied physics, Total harmonic distortion, Engineering, Switched-mode power supply, Buck converter, business.industry, 020208 electrical & electronic engineering, 02 engineering and technology, Insulated-gate bipolar transistor, Converters, 01 natural sciences, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Power semiconductor device, Power MOSFET, business, Pulse-width modulation

Abstract

The recent advances and reports on failure precursors of power switches have led to estimation of lifetime as well as developing secondary control schemes to increase the lifetime of the converters. In this study, a secondary control scheme to extend the lifetime of the converter based on the identified failure precursors such as the on-state resistance variation for power MOSFETs and collector emitter voltage variation for IGBTs is proposed for three-phase converters. The controller switches the modulation scheme from SVPWM to discontinuous PWM, and adjusts the switching frequency, once the tracked failure precursor reaches to the defined threshold value. The tradeoff between the total harmonic distortion and lifetime extension at different modulation techniques and switching frequencies are addressed.

Published

2016

41. A software frequency response analysis method to monitor degradation of power MOSFETs in basic single-switch converters

Author

Bilal Akin, Lei Sun, Manish Bhardwaj, and Serkan Dusmez

Subjects

010302 applied physics, Engineering, Switched-mode power supply, business.industry, 020208 electrical & electronic engineering, Electrical engineering, High voltage, 02 engineering and technology, Power factor, Converters, 01 natural sciences, Reliability (semiconductor), 0103 physical sciences, Boost converter, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Power semiconductor device, Power MOSFET, business

Abstract

The efforts on more reliable power conversion systems are gaining momentum in the recent years. Majority of the studies concerning reliability of power switches focus on the package related failures, mainly caused by the thermal stress. The basic failure precursor for this type of stress has been identified as increased on-state resistance for power MOSFETs in recent literature. However, calculation of on-state resistance requires a voltage sensing circuit which can block the high voltage across the switch during off-state not to damage the measurement or control unit. This also limits the implementation as it requires additional hardware. This paper proposes a software frequency response analyzing algorithm to determine the health status of the power MOSFETs through evaluating the variation in the plant model using the same DSP that is used for control purposes. The proposed concept has been analyzed for basic single-switch converters, and experimentally verified on a dc/dc boost converter.

Published

2016

42. Comprehensive parametric analyses of thermally aged power MOSFETs for failure precursor identification and lifetime estimation based on gate threshold voltage

Author

Bilal Akin and Serkan Dusmez

Subjects

010302 applied physics, Materials science, Negative-bias temperature instability, 020208 electrical & electronic engineering, 02 engineering and technology, Overdrive voltage, 01 natural sciences, Noise (electronics), Threshold voltage, 0103 physical sciences, MOSFET, Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Power semiconductor device, Power MOSFET, AND gate

Abstract

Thermal/power cycles are widely acknowledged methods to accelerate the package related extrinsic failures. Many studies have focused on particular failure precursor at a time and continuously monitored it using custom-built circuits. Due to the difficulties in taking sensitive measurements, the reported findings are more on the quantities requiring less sensitive measurements such as on-state resistance. In this paper, a custom-designed test bed is used to age a number of power MOSFETs and an automated curve tracer is utilized to capture parametric variations in I–V curves, transfer capacitances and gate charges at certain time intervals throughout the aging. The results suggest that the failure precursors which exhibit continuously increasing trend are the on-state resistance, body diode voltage drop, parasitic capacitances and threshold voltage. Based on the results, an exponential empirical model for the gate threshold voltage that fits successfully with the experimental data is proposed. Furthermore, Kalman Filter is employed to filter out the measurement noise and model uncertainties, which is also used to estimate the remaining useful lifetime of the degraded switches.

Published

2016

43. Comprehensive Topological Analysis of Conductive and Inductive Charging Solutions for Plug-In Electric Vehicles

Author

Alireza Khaligh and Serkan Dusmez

Subjects

Battery (electricity), Engineering, Computer Networks and Communications, business.industry, Automotive industry, Electrical engineering, Aerospace Engineering, Drivetrain, Semiconductor device, Inductive charging, Topology, chemistry.chemical_compound, chemistry, Power electronics, Automotive Engineering, Silicon carbide, Electrical and Electronic Engineering, business, Electrical conductor

Abstract

The impending global energy crisis has opened up new opportunities for the automotive industry to meet the ever-increasing demand for cleaner and fuel-efficient vehicles. This has necessitated the development of drivetrains that are either fully or partially electrified in the form of electric and plug-in hybrid electric vehicles (EVs and HEVs), respectively, which are collectively addressed as plug-in EVs (PEVs). PEVs in general are equipped with larger on-board storage and power electronics for charging or discharging the battery, in comparison with HEVs. The extent to which PEVs are adopted significantly depends on the nature of the charging solution utilized. In this paper, a comprehensive topological survey of the currently available PEV charging solutions is presented. PEV chargers based on the nature of charging (conductive or inductive), stages of conversion (integrated single stage or two stages), power level (level 1, 2, or 3), and type of semiconductor devices utilized (silicon, silicon carbide, or gallium nitride) are thoroughly reviewed in this paper.

Published

2012

44. Experimental performance assessment of an online energy management strategy for varying renewable power production suppression

Author

Ozan Erdinc, Bulent Vural, Serkan Dusmez, Ugur Savas Selamogullari, Ali Rifat Boynuegri, Mehmet Uzunoglu, Enes Ugur, and Onur Elma

Subjects

Pumped-storage hydroelectricity, Wind power, Renewable Energy, Sustainability and the Environment, business.industry, Energy Engineering and Power Technology, Condensed Matter Physics, Grid parity, Automotive engineering, Renewable energy, Fuel Technology, Distributed generation, Intermittent energy source, Grid energy storage, Hybrid power, business

Abstract

Lately, interest in renewable sources, especially wind and solar energy, has shown a significant increase in all over the world that mostly depends on climate-threatening conventional fossil fuels. Besides, hybrid use of these power sources with suitable back-up units provides many advantages compared to sole use of these sources. In this regard, a hybrid system consisting of a wind turbine for utilizing the wind energy, photovoltaic panels for solar energy, fuel cell for providing back-up power and a battery unit for storing the possible excess energy production and supplying the transient load is considered in this study. Experimental assessment of this system in different case studies including the real time measured dynamic power demand of an office block is realized. The collaborative actions of the proposed hybrid system with a fuzzy logic based energy management strategy during fluctuations of renewable-based power production are investigated. Thus, results of this study may be valuable for evaluating the feasibility of stand-alone hybrid renewable energy units for future power systems.

Published

2012

45. Fuel cell and ultra-capacitor hybridization: A prototype test bench based analysis of different energy management strategies for vehicular applications

Author

Bulent Vural, Ali Rifat Boynuegri, Serkan Dusmez, Ozan Erdinc, Haluk Gorgun, İsmail Nakir, Abdulkadir Balikci, and Mehmet Uzunoglu

Subjects

Supercapacitor, Test bench, Fuel Technology, Renewable Energy, Sustainability and the Environment, Energy management, Cascade, Energy Engineering and Power Technology, Proton exchange membrane fuel cell, Wavelet transform, Condensed Matter Physics, Fuzzy logic, Energy storage, Automotive engineering

Abstract

An energy storage system with sufficient power capacity should be incorporated with fuel cells (FCs) to compensate the slow dynamics of FCs. Ultra-capacitors (UCs) are potential candidates for a solution in this aspect. A test bench of such an FC/UC hybrid configuration that can emulate the dynamics of vehicular systems is presented in this paper. Namely, the test bench performance verification of wavelet transform and fuzzy logic based energy management strategy that was discussed in earlier simulation-based studies of the authors is investigated. Of equal importance is the comparison of the cascade wavelet-fuzzy logic based strategy with the case of using only fuzzy logic in the energy management is presented. Experimental results with small-scale devices, a PEMFC (5 kW, 48 V) manufactured by Plug Power (R) Company, and a UC bank composed of 430 F, 16 V and 165 F, 48 V UC modules manufactured by Maxwell Technologies (R) Company, illustrate the successful performance analysis of employed energy management schemes during similar motor cycles. (C) 2010 Professor T. Nejat Veziroglu. Published by Elsevier Ltd. All rights reserved.

Published

2010

46. An active life extension strategy for power switches in interleaved converters

Author

Bilal Akin, Syed Huzaif Ali, and Serkan Dusmez

Subjects

Life extension, Engineering, Interleaving, business.industry, Electronic engineering, Research studies, Condition monitoring, Power MOSFET, Converters, Fault (power engineering), business, Power (physics)

Abstract

The research on non-invasive incipient fault diagnosis of power converters is very critical to avoid strenuous periodic check-ups and costly interruptions. In many of the research studies, on-state resistance of power MOSFETs is identified as the fault precursor, and suggested to be monitored online for prognosis. In this paper, a condition monitoring algorithm is proposed for power MOSFETs of interleaved converters and integrated with the conventional current loops. The proposed technique utilizes on-state resistance information of the switches to adjust the current reference of each interleaving leg. Thus, the thermal stress on the aged device can be reduced and the overall lifetime of the converter can be extended. The proposed approach is verified on two-leg interleaved dc/dc and ac/dc converters.

Published

2015

47. Remaining useful lifetime estimation for degraded power MOSFETs under cyclic thermal stress

Author

Bilal Akin and Serkan Dusmez

Subjects

Reliability (semiconductor), Computer science, MOSFET, Electronic engineering, Semiconductor device modeling, Power semiconductor device, Temperature cycling, Power MOSFET, Fault (power engineering), Power (physics), Reliability engineering

Abstract

Power semiconductor devices are the major cause of the power converter failures together with the electrolytic dc bus capacitors. In harsh operating environments, the power devices are subjected to various mechanical and electrical stresses, wear, and vibration that contribute to increased equipment failure rate, where a failed component can cause unexpected interruptions, serious safety issues, or easily account for millions of dollars in repair costs. Developing prognosis tools is vital for the reliability of these systems. This paper focuses on the remaining useful lifetime (RUL) estimation of degraded power MOSFETs which are stressed by thermal cycling. The relative change in on-state resistance is identified as the fault signature. A multiple device ageing platform is designed and built to collect experimental data. An exponential degradation model that fits successfully with the experimental data is developed. The experimental data is processed with Kalman Filter, and RUL estimation with limited field data is demonstrated.

Published

2015

48. An accelerated thermal aging platform to monitor fault precursor on-state resistance

Author

Bilal Akin and Serkan Dusmez

Subjects

Stress (mechanics), Materials science, Nuclear engineering, MOSFET, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Temperature cycling, Power MOSFET, Current source, Fault (power engineering), Temperature measurement, Voltage

Abstract

Thermal cycling is one of the main techniques to accelerate the package related failure progress. In this paper, a custom designed accelerated ageing platform that can expose multiple discrete power MOSFETs to thermal stress simultaneously, is introduced. Active heating, without using external loads, is used to increase the junction temperatures of the devices from a single current source, where temperature swing for each device can be controlled independently. The issues during the measurements such as high off-state drain- to-source voltage, and transients during turning on instants are addressed. The variation of the on-state resistance is identified as the failure precursor. It is observed that on-state resistance increases by 10%–17% of its initial value before it completely fails. Based on the collected field data, an exponential degradation model that fits successfully with the experimental data is developed.

Published

2015

49. A new multi-input three-level integrated DC/DC converter for renewable energy systems

Author

Xiong Li, Serkan Dusmez, and Bilal Akin

Subjects

Forward converter, Power optimizer, Engineering, business.industry, Flyback converter, Boost converter, Buck–boost converter, Charge pump, Electronic engineering, Ćuk converter, Electrical engineering, business, Low voltage

Abstract

This paper proposes a new multi-input isolated three-level converter for renewable and sustainable energy systems. Multiple dc sources are integrated to the three-level dc/dc converter, resulting in reduced part-count and allowing flexibility in transformer design and dc link voltage selection. The proposed architecture eliminates two boost switches which are present in the two-stage counterpart, and enables utilizing low voltage switches. The input inductors are operated in DCM sharing the same duty cycle. Thus, power can be shared between input sources with proper selection of input inductors. A low voltage prototype has been designed to serve as a proof of concept.

Published

2015

50. A new SVPWM for phase currents reconstruction of three-phase three-level T-type converters

Author

Bilal Akin, Kaushik Rajashekara, Serkan Dusmez, and Xiong Li

Subjects

Engineering, Offset (computer science), Three-phase, Control theory, business.industry, Infrasound, Inverter, Insulated-gate bipolar transistor, Converters, business, Pulse-width modulation, Voltage

Abstract

This paper presents a new space vector pulse width modulation(SVPWM) scheme to reconstruct phase currents using neutral point current sensing in three level T-type converters. For this purpose, zero vectors and offset vectors are replaced with complementary active vectors. These active vectors do not affect the resultant output voltage and the voltage balance at the neutral point of three-level T-type converters. Hence, the pulse widths of corresponding active vectors can be adjusted even at low speeds without additional switching losses and low frequency noise in the inverter. The modified switching patterns can easily be created without significant computational complexity. The proposed method is experimentally verified using Fuji T type IGBT modules, Texas Instruments TMS320F28335 and Spartan 6 systems.

Published

2015