SOLAR INVERTER

Advantages

Maximizes power & backup time regularly monitors battery conditions
Increases effeciency & accuracy of the system. Reduces power intake of the Inverter.
Safe for connected appliances. Clean & green power supply same as grid.
Provides enhanced information Increases visibility from distance.

Solar Inverter Features

iLLUMAC ASIC Promise

The iLLUMAC High Capacity Inverter uses Genus AISC technology to optimize battery performance and lengthen battery life.

Low Running Cost

Unlike DG Sets, iLLUMAC Inverters only produce the power that is needed, extending backup times and using batteries less.

No Pollution

iLLUMAC High Capacity Inverters are completely non-polluting and suitable for use in any working environment, unlike generators.

User Friendly LCD Display

The user-friendly LCD display gives the user all the fundamental details about the status, necessary corrective actions, battery level, load level, etc.

Easy to Install

iLLUMAC High Capacity Inverters are simple to install anywhere, even on any floor, and can be connected to any three phase supply (single phase inverters are also available).

High Efficiency & Reliablity

Genus High Capacity inverters, which are based on cutting-edge DSP technology, provide exceptional performance and efficiency at every level of operation.

Safe for Sensitive Equipment

Even the most delicate electronic devices can run safely on pure power produced by iLLUMAC High Capacity Inverters, which is equivalent to grid power.

Heavy Duty Usage

From 5 KVA to 75 KVA, iLLUMAC High Capacity Inverters are offered as standard and customized solutions for all kinds of commercial and industrial establishments.

Solar Inverter and It’s Working

Solar panels are without a doubt the foundation of a solar power system, but the inverter also plays a crucial role. It transforms the DC power from a solar panel into AC power and functions as the system’s “brain.” Additionally, it enables system monitoring, making it simple to check that everything is operating as intended. It offers crucial analytical data about the system that makes it simpler to maintain the entire system, address problems, and spot operational issues.

The basic operation of a solar inverter is to change the stable DC current produced by the solar panel into AC (alternating current), which is typically used to power appliances and devices in homes and commercial settings. It is capable of producing power in the range of 250VA to 100KVA or even more. Insulated Gate Bipolar Transistors help the inverter carry out this operation (IGBTs). These transistors are wired together in an H-Bridge configuration that alternates between DC and AC power continuously. The inverter’s AC power is obtained using a step-up transformer. This either goes back to the grid or is used to power the appliances connected to the inverter.

An algorithm-equipped microcontroller that has been pre-programmed manages the execution of each of these processes. The power output of this microcontroller is also increased by using the Maximum Power Point Tracking (MPPT) algorithm.