Inverter
Solar Solution
Introduction
Inverters are used to provide AC supply by inverting the DC to AC whenever the AC supply fails. This becomes very essential to operate any equipment which can only be operated in AC. After studying numerous site requirements Alan Electronic Systems Pvt. Ltd. has introduced a Hi-tech Inverters which are power efficient. This user friendly design fulfils the expectations and demands of the customers.
Low Cap 500 VA to 3KVA
Several factors need to be considered to ensure optimal performance and efficiency, including load requirements, battery capacity, and the intended application. Here’s a general guideline for configuring a low-capacity inverter system ranging from 500 VA to 3 KVA:
Select the Right Capacity: Determine the total load (in watts or VA) that the inverter will need to support. This includes all the appliances and devices you plan to power simultaneously. Choose an inverter with a capacity slightly higher than your calculated load to provide some headroom and ensure efficient operation.
Battery Bank: The capacity of your battery bank will depend on the runtime requirements and the load you intend to power. Calculate the total energy consumption of your load (in watt-hours) per day and choose batteries with sufficient capacity to meet your backup needs. Consider factors such as battery type (lead-acid, lithium-ion), depth of discharge (DoD), and maintenance requirements.
High Cap 5KVA – 80 KVA
High-capacity inverter system ranging from 5 KVA to 80 KVA requires careful consideration of various factors to ensure robust performance and reliability. Here’s a guide to help you configure such a system:
Load Analysis: Conduct a thorough analysis of the electrical load that the inverter will power. Determine the total load (in kilowatts or KVA) considering both continuous and peak loads. Identify the types of loads (resistive, inductive, capacitive) and their characteristics to select an inverter capable of handling the load diversity.
Inverter Capacity: Choose an inverter with a capacity that comfortably exceeds the calculated load requirements. It’s advisable to have some headroom to accommodate future expansion or unexpected load increases. Consider factors such as efficiency, reliability, and scalability when selecting the