Efficient Power Electronic Products
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Grid Connected Inverter
Grid-Connected Inverter: Efficient Power Integration
A grid-connected inverter (GC Inverter) is a vital component in renewable energy systems, converting DC power from sources like solar panels or wind turbines into AC power that synchronizes with the electrical grid. These inverters ensure efficient energy conversion, seamless grid integration, and compliance with utility standards.
Key Features & Functions:
High Efficiency: Maximizes energy yield with advanced MPPT (Maximum Power Point Tracking).
Grid Synchronization: Ensures phase, voltage, and frequency matching with the utility grid.
Bi-Directional Power Flow: Enables surplus energy export to the grid, reducing electricity costs.
Safety & Protection: Includes anti-islanding protection, overvoltage, and surge protection for reliability.
Smart Monitoring: Supports real-time monitoring via IoT and cloud-based systems for enhanced performance tracking.
Applications:
Solar Power Plants – Converts solar DC into grid-compatible AC.
Wind Energy Systems – Synchronizes wind turbine output with the grid.
Industrial & Residential Use – Reduces dependency on traditional energy sources.
Microgrids & Smart Grids – Enhances grid stability and distributed energy management.
Our high-performance grid-connected inverters ensure reliable, efficient, and sustainable energy solutions, driving the future of renewable power generation and smart grids. 
Power Electronic Solutions
Bi-Directional DC-DC Converter
A DC-DC Bi-Directional Converter (BDC) is a power electronic device designed for efficient two-way energy flow between two DC voltage levels. Unlike conventional unidirectional converters, BDC allows energy transfer in both directions, making it ideal for energy storage systems, electric vehicles, microgrids, and renewable energy applications.
Power Electronic Solutions
EV Charger Trainer System
WThe AC Charging and DC Charging Training Kit is designed to provide a comprehensive understanding of electric vehicle (EV) charging technologies, covering both AC and DC charging standards. The training kit includes experiments that focus on communication protocols, hardware components, and real-world charging mechanisms. The first experiment involves PLC (Power Line Communication) Protocol Explanation, where participants study how data is transmitted between an EV and a charging station using PLC technology as part of the Combined Charging System (CCS) standard. This experiment provides insights into communication handshaking, authentication, and real-time control strategies used in EV charging.
Power Electronic Solutions
Battery Management System Trainer Kit
The Battery Management System (BMS) Training Kit is designed to provide hands-on experimentation for understanding battery pack assembly, monitoring, balancing, and charging mechanisms. The first experiment involves the Battery Pack Spot Welding Machine, where users will assemble battery cells into a pack using a spot-welding process to ensure strong electrical and mechanical connections. The second experiment focuses on the Cell Voltage Monitor, where individual cell voltages are recorded and analyzed to observe cell behavior under different conditions. Next, the Cell SoC (State of Charge) Monitor is used to determine the charge levels of individual cells and assess charge distribution across the pack. The fourth experiment involves the Passive Balancing PCB, where participants will study PCB schematics, identify components, and analyze three sample PCBs to understand how passive balancing improves battery performance.
Power Electronic Solutions
DC to AC Three Phase BLDC Motor Training Kit
The DC to AC Three-Phase BLDC Motor Training Kit provides hands-on experimentation for understanding the design, control, and operation of Brushless DC (BLDC) motors using advanced programming and data control techniques. The first experiment involves analyzing the Circuit Schematics, where participants study the electrical connections and power flow in the three-phase inverter circuit used to drive the BLDC motor. The second experiment focuses on testing and troubleshooting Sample PCBs (3 Nos), where three different printed circuit boards (PCBs) are provided for real-world validation, allowing users to examine layout designs, power components, and interconnections. The third experiment includes working with the Components for 3 Nos, enabling participants to assemble a complete three-phase inverter circuit, solder components, and verify their electrical characteristics.
Power Electronic Solutions
ECU Training Kit
The ECU Training Kit is designed to provide hands-on learning and experimentation for understanding the core functionalities of an Electronic Control Unit (ECU) used in automotive and industrial applications. This training kit enables learners to explore ECU circuit design, real-time data processing, and cybersecurity in modern vehicle control systems. The first experiment involves analyzing Circuit Schematics, where participants study the electrical layout of an ECU, including power regulation, signal processing, and communication interfaces such as CAN and/or LIN bus. The second experiment focuses on Sample PCBs (3 Nos), where three different ECU circuit boards are examined for design analysis, component placement, and electrical testing. The third experiment involves testing and assembling the Components for 3 Nos, allowing users to solder and validate the proper functioning of each ECU module.
Power Electronic Solutions
Input Power Quality Improvement Training Kit for EV chargers
The Input Power Quality Improvement Training Kit for EV Chargers is designed to provide hands-on learning for understanding the impact of power quality on electric vehicle (EV) charging systems and methods to improve it using advanced control techniques. The system consists of a battery, 230V AC input, an isolation transformer, and a grid-connected inverter, making it a real-world simulation environment for studying power conversion, harmonics, and control algorithms. The first experiment, Inverter PWM Pulse Visualization, allows participants to observe the Pulse Width Modulation (PWM) switching patterns of the inverter using an oscilloscope. This helps in understanding how switching frequencies and duty cycles affect power conversion efficiency and harmonic generation.
Power Electronic Solutions
Solar VFD
A Solar VFD (Variable Frequency Drive) is a power electronic device that converts solar DC power into AC power to control and operate AC motors efficiently. It is primarily used in solar water pumping systems, industrial automation, and renewable energy applications, providing energy savings and sustainability.
Power Electronic Solutions
Multi Channel Data Logger
A temperature data logger is a specialized electronic device used to measure, record, and store temperature readings over time. It is widely used in cold chain logistics, industrial processes, medical storage, environmental monitoring, and HVAC systems to ensure precise temperature control and compliance with safety standards.
🌡 Accurate Temperature Measurement – Captures temperature fluctuations with high precision.
⏳ Continuous Data Logging – Stores temperature data at set intervals for analysis.
📡 Real-Time Monitoring – Displays live temperature readings and trends.
🔋 Battery-Powered Operation – Works in remote and power-limited environments.
📶 Wireless & Cloud Connectivity – Supports USB, Bluetooth, Wi-Fi, or IoT-based remote monitoring.
🔔 Alerts & Notifications – Sends alarms for temperature deviations beyond set thresholds.
