Automotive validation engineer
Trigo QPS Private Limited
Total years of experience :2 years, 7 Months
1.Implemented CAN bus communication systems, integrating them into vehicle core electrical systems for enhanced functionality.
2.Conducted Diagnostic Trouble Code (DTC) verification using onboard diagnostic services for seamless vehicle performance.
3.Specialized in PLGM Software Flashing and Troubleshooting, optimizing software operations.
4.Proficient in Infotainment ECU Codep Number Reprogramming, enhancing system performance.
5.Executed ECU software Flashing using Power Supply and Wiring Harness, ensuring precise calibration.
6.Conducted failure analysis of Electrical/Electronics components, including EE component software flashing and calibration for fleet and validation vehicles.
7.Proficient in effective root cause analysis, providing solutions to complex issues.
8.Managed field issue report generation and maintained comprehensive EE records for entire vehicle systems
1.Skilled in repairing, maintaining, and troubleshooting electrical charging infrastructure using a range of tools from computer diagnostics to basic electrical equipment.
2.Meticulously maintain timely documentation for repairs and installations, ensuring accurate records of all activities.
3.Consistently deliver services and projects within designated timelines, scope, and budget, ensuring efficiency and cost-effectiveness.
4.Measure charging infrastructure performance using appropriate tools and techniques to ensure optimal functionality.
5.Analyze failures by interpreting fault codes, implementing structured solutions to rectify issues promptly.
6.Possess hands-on experience with VCU, BMS, MCU, and DC-DC Converters, contributing to comprehensive infrastructure management.
7.Ensure seamless operations and maintenance of charging systems by leveraging diverse skills and tools for efficient and reliable service.
1.Conduct benchmarking activities to evaluate manufacturing procedures and product testing methodologies for process enhancement
and quality assurance.
2.Implement stringent monitoring protocols to uphold production standards, ensuring operations align with specified benchmarks.
3.Recommend and enact adjustments to assembly or production processes, optimizing efficiency and product quality.
4.Maintain continuous assessment of operations, identifying areas for improvement and implementing measures to enhance overall
production performance
"Design And Analysis Of High Voltage Gain Soft Switching Converter For Solar Energy with DC And AC Applications" Renewable sources like solar photovoltaic (PV) and fuel cell stack are preferred to be operated at low voltages. For applications such as grid-tied systems, this necessitates high voltage boosting resulting in efficiency reduction. high-efficiency dc-dc converter based on coupled inductor, intermediate capacitor, and leakage energy recovery scheme. The input energy acquired from the source is first stored in the magnetic field of coupled inductor and intermediate capacitor in a lossless manner. In subsequent stages, it is passed on to the output section for load consumption. A passive clamp network around the primary inductor ensures the recovery of energy trapped in the leakage inductance, leading to drastic improvement in the voltage gain and efficiency of the system. Exorbitant duty cycle values are not required for high voltage gain, which prevents problems such as diode reverse recovery. Presence of a pass