Well, many people don’t know about the working of inverters. Inverters cannot generate electricity.

According to luminous inverter dealer in Mohali, there is a process of conversion of direct current to alternating current and vice-versa. There are different phases of working of an inverter. Let’s check them out:

• First phase: In the first phase, the system is configured. This means the battery is connected to the inverter and flow of current is checked. In connecting the whole system, specialization is required. Any normal technician cannot do this. Luminous inverter dealers in Chandigarh and luminous inverter dealers in Kharar can quickly install inverter system. They can also provide Inverter systems of high efficiency.

• Second phase: In the second phase, the inverter consumes energy coming into the house. The electricity is stored in the battery. In simple language, this process is also called as charging of the battery.

• Third phase: When there is an electricity cut (or the main is disconnected), the stored energy is delivered in the form of electricity. The inverter converts the current in the battery into AC. Now, the current is supplied.

• Fourth phase: Now when the main is active, the inverter stops sending current. The normal supply is continued. The battery is also charged. In case the main is kept off for a long time then the energy in battery ends.

How electricity bill is effected because of the inverter?

While the main is active, the battery is charged. So, some energy is used in charging that. This increases the electricity bill. But in the case of luminous inverters, the conversion is efficient. This means very less amount of current is leaked in charging the battery and then supplying in houses. This reduction in leakage decreases the monthly electricity bill.

How conversion loss is reduced in luminous inverters?

In the working of the inverter, there are two types of conversions. These are DC to AC and AC to DC. Let’s understand both:

• AC to DC: When the main is active, the inverter is on hold and battery is charging. The alternating current is converted into direct current and stored in the battery. By using copper wires and transformers, instead of aluminium, these losses are reduced. The reason being simple as copper is a great conductor of electricity. That’s how the efficiency is increased.

• DC to AC: Now when there is an electricity cut or the main is kept off, the inverter is active. Now the battery supplies DC to the inverter and is converted into AC. Here the efficiency calculated of supplying current is called a power factor. This factor falls in a range of 45% to 90%. This is calculated by dividing the voltage delivered by power supplied. More power factor means a long life of appliances and low bills.

How to calculate Inverter Battery backup time?

The backup time is defined as the total time in which Inverter can supply current. This depends on the total number of batteries and the efficiency of inverters. The capacity of the battery is calculated as ampere per hours. This means the current released in one hour. Below is the formula which can help in inverter battery:

Backup time = Power of battery (in WH) / Total load connected

Total load= Sum of Power used by all appliances

Battery power= Capacity of battery x Voltage of battery

Note: if there is more than one battery then multiply battery power with thenumber of batteries.