Your search keyword '"Kaleg, Sunarto"' showing total 5 results

1. Modeling High Frequency 13.56 MHz Full Bridge Inverter Based on GaN MOSFET for EV Wireless Charging System

Author

Meiyanto Eko Sulistyo, Gustav Lukman Adhi Pradhityo, Muharam, Aam, Nugroho, Asep, Amin, Kaleg, Sunarto, Alexander Christhanto Budiman, Sudirja, Ristiana, Rina, Hattori, Reiji, Meiyanto Eko Sulistyo, Gustav Lukman Adhi Pradhityo, Muharam, Aam, Nugroho, Asep, Amin, Kaleg, Sunarto, Alexander Christhanto Budiman, Sudirja, Ristiana, Rina, and Hattori, Reiji

Abstract

This paper presents a modelling of a high-frequency full bridge inverter for wireless power transmission (WPT) in Electric Vehicle (EV) charging applications. The inverter is designated at an operating frequency as high as 13.56 MHz in line with regulations for the industrial, scientific, and medical radio band (ISM band). Since the power is transferred wirelessly from the source to the EV, a coupling capacitive was used as a transmitter and receiver of the system. In this paper, the inverter model was simulated and analysed using LTSpice software. Different load changes and power are injected into the system. Furthermore, in order to obtain a robust system, the switching frequency of 13.56 MHz is used with some Dead Time (DT). The system already uses GaN MOSFETs for reliability and performance at high frequencies, in addition to LC impedance matching. The result is that by operating at a resonant frequency of 13.56 MHz with a resistive load of 50, it is obtained with a power of 2.3 kW that has been successfully transmitted with an efficiency of 89%.

Published

2023

2. A Comparison of Hydraulic and Electro-Hydraulic Power Steering Control Systems for Increasing Energy Efficiency

Author

Meiyanto Eko Sulistyo, Ristiana, Rina, Kaleg, Sunarto, Hapid, Abdul, Sudirja, Muharam, Aam, Alexander Christhanto Budiman, Abdul Qodir Jaelani, Amin, Meiyanto Eko Sulistyo, Ristiana, Rina, Kaleg, Sunarto, Hapid, Abdul, Sudirja, Muharam, Aam, Alexander Christhanto Budiman, Abdul Qodir Jaelani, and Amin

Abstract

This research offered a comparison of hydraulic (HPS) and electro-hydraulic power steering (EHPS) hydraulic pressure characteristics. The goal is to assess the potential for energy savings if an electric motor replaces hydraulic pressure. The purpose is to calculate the potential energy efficiency if an electric motor replaces hydraulic pressure. For this comparison, HPS and EHPS were both modeled. A PI controller was developed based on these models to regulate the steering wheel position and angular motor speed. In addition, the systems are compared by using the same input reference and transient response system, and the energy consumption is computed. Thus, with the installation of an electric motor in the power steering, it has a good response, functions in an optimal region, stabilizes, and has a 59.95% increase in energy efficiency.

Published

2023

3. Crashworthiness Enhancement: The Optimization of Vehicle Crash Box Performance by Utilizing Bionic-Albuca Spiralis Thin-Walled Structure

Author

Muhamad Arjuna Putra Perdana, Sudirja, Hapid, Abdul, Muharam, Aam, Kaleg, Sunarto, Amin, Ristiana, Rina, Alexander Christantho Budiman, Muhamad Arjuna Putra Perdana, Sudirja, Hapid, Abdul, Muharam, Aam, Kaleg, Sunarto, Amin, Ristiana, Rina, and Alexander Christantho Budiman

Abstract

This paper presents a comprehensive investigation utilizing simulations to analyze the peak force and energy absorption characteristics of cylindrical configurations, as well as a novel spiral crash box design inspired by the albuca spiralis form. The study aims to evaluate the behavior of these designs in low-speed collisions by utilizing aluminum and steel as two different materials. Four primary forms of thin-walled structures, including concentric circles, tangent circles, half-balanced circles, and spiral circles, were thoroughly examined using finite element analysis. Mesh-independent tests were conducted to ensure the accuracy of the simulation results, and various crumple displacements were compared to determine the optimal mesh sizing. The numerical results demonstrate a significant reduction in peak force for the aluminum crash box, with a remarkable 60% decrease compared to the steel crash box. Furthermore, the spiral shape, identified as an optimized design, exhibits a low peak force of only 118.42 kN and offers superior energy absorption of 9.15 kJ per kilogram compared to the other designs. Consequently, employing nature-inspired designs provides substantial benefits for enhancing crashworthiness in energy-absorbing devices.

Published

2023

4. A New Method of The Active Gate Driver for Current Balancing in The Parallel MOSFET Circuits

Author

Meiyanto Eko Sulistyo, Kaleg, Sunarto, Damaris Adi Waskitho, Ristiana, Rina, Muharam, Aam, Alexander Christantho Budiman, Sudirja, Amin, Ismail, Kristian, Meiyanto Eko Sulistyo, Kaleg, Sunarto, Damaris Adi Waskitho, Ristiana, Rina, Muharam, Aam, Alexander Christantho Budiman, Sudirja, Amin, and Ismail, Kristian

Abstract

MOSFETs are used in electronic circuits because they have high switching efficiency. Typically, MOSFETs are wired in parallel for applications that require high power. Theoretically, this circuit can multiply the current capability of parallel MOSFETs. However, even if all the MOSFETs in a parallel circuit have the same serial number and manufacturer, they might not necessarily have the same current characteristics. This could lead to issues with current imbalances, potentially causing harm to the MOSFETs, especially under severe circumstances. This study introduces a new Active Gate Driver (AGD) technique to balance the current in a parallel MOSFET circuit. The current difference can be used to modulate each MOSFET duty cycle. Specifically, the MOSFET with the smallest current capacity is configured as the Master, while the MOSFET following it is designated as the Slave. The interrupt time value for the duty cycle of each Slave MOSFET is influenced by the current differential between the Master and Slave. Consequently, different duty cycles for the Master and Slave MOSFETs can maintain the same current level. Based on the results of experiments conducted on three MOSFETs, it is evident that the AGD approach can effectively balance the current to an optimum level.

Published

2023

5. Characterization of Supercapacitors for Electric Vehicles Applications

Author

Amin, Ariel Putra Wibisono, Muharam, Aam, Alexander C. Budiman, Hapid, Abdul, Ismail, Kristian, Ristiana, Rina, Kaleg, Sunarto, Sudirja, Muhamad A. P. Perdana, Amin, Ariel Putra Wibisono, Muharam, Aam, Alexander C. Budiman, Hapid, Abdul, Ismail, Kristian, Ristiana, Rina, Kaleg, Sunarto, Sudirja, and Muhamad A. P. Perdana

Abstract

In this paper, the characterization of the supercapacitor is carried out, especially for applications in electric vehicles regenerative braking. Supercapacitors (SC) are explored in terms of self-discharge, and different charge-discharge currents. Supercapacitor testing has been carried out for charging, discharging, and self-discharge testing using the BCAP3000 P270 supercapacitor with a voltage of 2.7 V and a rated capacitance of 3250 F. The experiments were conducted using either a single supercapacitor or a pack of supercapacitors. On the basis of the estimated charge-discharge time, the results of the charge-discharge test will be compared. According to the findings of the SC charging and discharging tests, there are variances in the computation of the charging and discharging time ranging from 5.33% to 32.19%. The self-discharge test shows that for 40 days, the supercapacitor cell voltage drops from 2.7 V to 1.819 V.

Published

2023