Sony A.

Experienced hands-on with some design, simulation, and modeling software. NI Multisim and Proteus for simulating of electronics devices, Autodesk Eagle for PCB designing, ETAP for design and analysis of Power Transmission and Distribution, PVSyst for Solar Power analysis, Homer for Renewable Energy techno-economy analysis, and also Power System Dynamic and Stability using PSAT Toolbox (MATLAB Simulink). Understand the International Standard of Electrical (IEEE and IEC). Previous project about Battery Management System are: A. Centralized BMS (Low Voltage) 1. BMS for E-Bike/E-Scooter with specification (38V nominal voltage, 50Amp peak current, NTC Temperature sensor, High accuracy-precision Voltage-Ampere-Temperature sensor, and setting parameter control for balance and cut-off protection) 2. Series Reconfigurable BMS with specification (9-24s Battery, 100Amp peak current, NTC Temperature sensor, High accuracy-precision Voltage-Ampere-Temperature sensor, and setting parameter control for balance and cut-off protection for flexibility type of battery, Serial/RS-485/CAN Data Communication) B. Modular BMS (Med - High Voltage) 1. Modular BMS for Electric Train Auxiliary Power. Using 192-s Lithium Battery (divided into 16 BMS Slave), 16-channel temperature sensor, Isolated-SPI BMS Slave Data Communication, IGBT Cut-off protection and CT Current sensing (suitable for high voltage and high current cut-off protection), Master Control Unit for data processing and External Communication (CAN Bus) for further information on technical specifications and device usage (related to standardization of components used), and also discussing about convenient rates and contract, please don't hesitate to contact me via chat. Best Regards, Sony Adyatama