The Durasol MPPT Solar Hybrid PCU offers high-efficiency solar energy conversion, smart energy management, and 99% MPPT tracking accuracy, making it ideal for residential and commercial solar applications
1. Advanced MPPT Technology for Maximum Efficiency
- 99% MPPT tracking accuracy ensures optimal power conversion.
- Interleaved MPPT technology enhances efficiency by 30% over PWM PCUs.
2. Smart Solar & Grid Power Management
- Automatic energy sharing between solar and grid power.
- Reduces electricity bills with priority solar power utilization.
3. Built-in Heavy-Duty Solar Charge Controller
- Enhances battery life by optimizing charge cycles.
- Efficient power conditioning for extended solar power usage.
4. Battery Compatibility & Customizable Settings
- Supports Tubular, LA, VRLA, and Li-ion batteries.
- User-friendly LCD display for battery mode selection & charging adjustments.
5. Robust Protection System for Reliable Performance
- Overload, short circuit, over-temperature, and reverse polarity protection.
- Built-in AC/DC MCB for added safety.
6. Intelligent Monitoring & Data Logging
- LCD display with real-time monitoring of solar energy usage.
- Remote control and data logging up to 5 years via RS232/GSM/GPRS/WiFi (optional).
Features
• Smart Grid Priority Selection.
• Maximize Solar Power Utilization.
• 30%boost in Charging Current.
• 30% more Power saving compared with conventional Charge Controller.
• Stable Charging Current ensures longer battery life.
Working
• When solar energy is sufficient then total o/p load will operate on solar through MPPT and inverter. Excess solar power will charge batteries.
• When solar energy is weak then the inverter is taking DC source from solar & balance from batteries.
• When batteries reach 75% discharge level the o/p load is shifted to the grid.
• After shifting load to the grid (bypass) the batteries are charged from solar energy and if solar energy is not sufficient to charge the batteries, then remaining DC power is taken from gird charges (inverter is acting as a grid charger in reverse directions so the system is called a bidirectional PCU).
• Once the batteries are fully charged then the load is shifted back to the inverter from the grid.
• During the change over from inverter to grid and if grid supply is not present then again load is shifted to the inverter to use buffer battery backup.
• When grid returns during inverter which is working on buffer battery backup then the load is shifted to grid and batteries are charging through solar or grid as per bi-directional logic.
Technology
The major principle of MPPT is to extract the maximum available power from the PV module by making them operate at the most efficient voltage (maximum powerpoint).MPPT checks output of PV module compares it to battery voltage then fixes what is the best power that PV module can produce to charge the battery and converts it to the best voltage to get the maximum current into the battery. It can also supply power to a DC load, which is connected directly to the battery.
MPPT is most effective under these conditions:
• Cold weather, cloudy or hazy days: Normally, the PV module works better at cold temperatures and MPPT is utilized to extract the maximum power available from them.
• When the battery is deeply discharged: MPPT can extract more current and charge the battery if the state of charge in the battery is lowered.
