Battery 101

There are three main types of inverter batteries: tubular, flat plate, and lithium-ion. Each offers distinct advantages. Choose based on your specific power needs and preferences.

When deciding between a 150Ah and 200Ah inverter battery, it's crucial to consider your power usage, duration of backup needed, available space, and budget. While a 200Ah battery offers longer backup times and can handle higher power demands, a 150Ah battery may suffice for smaller setups with lower power requirements. Assess these factors carefully to make an informed decision and ensure uninterrupted power supply. Let's calculate the optimal backup time of the battery.

Backup Time of Inverter Battery = (Battery Voltage x Battery AH Rating) / Total Watts on Load

For example:
Battery voltage: 12V, Battery AH rating: 150Ah, Load requirement: 800 watts. Backup time of battery: (12 * 150) / 800 = 2.25 hours
Battery voltage: 12V, Battery AH rating: 200Ah, Load requirement: 800 watts. Backup time of battery: (12 * 200) / 800 = 3 hours.

When buying an inverter battery, consider factors like battery type, capacity, warranty, and maintenance requirements. Ensure compatibility with your inverter for optimal performance.

Maintain inverter battery health by regular charging, avoiding deep discharges, checking water level & replinishing it and ensuring proper ventilation. Follow manufacturer guidelines for extended lifespan.

It's not advisable to connect batteries of different capacities, it can potentially damage the batteries. Use batteries with the same capacity and specifications for optimal performance and longevity.

Adding 2 batteries to an inverter is possible, but they should have the same capacity and type. Moreover, your inverter should be able to support two batteries and for this you need an inverter with atleas 24V rating. Follow manufacturer recommendations for a safe and efficient setup.

Running a fridge or any electrical device is primarily done by the invereter. A battery is source of power to the inverter. The battery capacity defines the duration of the backup based on the load begin run by the inverter. Ensure the inverter capacity meets both appliances' requirements for optimal performance.

A solar battery stores excess energy from solar panels for later use, typically during periods of low sunlight or at night

Yes, solar batteries are safe when installed and used properly, with built-in safety features to prevent overcharging, overheating, and short circuits.

Solar batteries can be damaged by overcharging, deep discharges, extreme temperatures, physical damage, and improper maintenance or installation.

Solar batteries may generate some heat during charging and discharging processes, but proper ventilation and cooling systems are usually in place to prevent overheating.

Solar batteries can lose their charge over time if not properly maintained or used, but they can be recharged using solar panels or other charging sources.

Depending on the capacity & efficiency of the battery system and your power consumption, some solar batteries can provide enough stored energy to last through the night, especially when combined with energy-efficient appliances and systems.

Yes, solar batteries can freeze in extremely cold temperatures, potentially causing damage to the battery cells and reducing performance. Proper insulation and temperature control mechanisms can mitigate this risk.

Yes, proper ventilation is essential for solar batteries to dissipate heat generated during charging and discharging processes, ensuring optimal performance and longevity.

Factors such as overcharging, deep discharges, high temperatures, poor ventilation, and lack of maintenance can reduce the lifespan of solar batteries.

Yes, solar batteries can still function in winter, although their backup may be reduced due to fewer daylight hours and lower temperatures. Proper insulation and system design can help mitigate these effects.

Solar batteries are designed specifically for use with solar energy systems, featuring deep cycle capabilities and optimized for charging and discharging cycles compared to regular batteries.

C10 is better and is setting the standard for superior performance!

Maintain your solar battery by ensuring regular inspections, keeping it clean, avoiding overcharging and deep discharges, monitoring DoD levels, maintaining proper ventilation, and following manufacturer guidelines for maintenance and storage.

Yes, Eastman Solar Batteries are BIS (Bureau of Indian Standards) certified, ensuring compliance with safety and quality standards for solar energy storage solutions.

The warranty period for Eastman Solar Batteries typically ranges from 72 months to 120 months, depending on the specific model and terms provided by the manufacturer. Please refer to the warranty documentation for specific details.

Absolutely, Eastman Solar Batteries are C10 rated

The best features of Eastman Solar batteries include low cost of ownership, minimal water loss, easy recovery after idle periods, lower electricity consumption during recharging, and reduced fumes generation. Additionally, they offer an impressive 5% extra capacity and backup compared to their rated capacity, ensuring reliable and efficient power storage for solar applications.

The highest warranty for Eastman Solar batteries is 120 months.

E-rickshaws typically use deep cycle lead-acid batteries

The life of an e-rickshaw battery can vary but generally most of the companies offer 6 months to 1 year warranties on their batteries. Eastman is the only company that has a range of e rickshaw batteries with warranties ranging from 6 months to 2 years.

E-rickshaws usually use multiple batteries, often ranging from 4 to 6, depending on the model and capacity.

Ah in a battery stands for Ampere-hour, indicating the energy storage capacity.

Common problems with e-rickshaw batteries include sulfation, water loss, overcharging, and deep discharges.

Maintain e-rickshaw batteries by regular inspection, keeping terminals clean, proper charging, and avoiding overcharging or deep discharges.

Charging time for e-rickshaw batteries varies but typically takes around 6 to 8 hours for a full charge.

Higher Ah and warranty batteries are generally better for e-rickshaws as they provide more energy storage, longer coverage and last longer. This saves a lot more money during the complete life cycle of the battery despite a marginally high initial investment.

Start looking for a new e-rickshaw battery when you notice significant drops in performance, reduced mileage, or frequent charging issues.

Properly charge your e-rickshaw battery by using a compatible charger recommended by the manufacturer, avoiding overcharging, and ensuring proper ventilation during charging. Also don't use "jugaad" or "Adda" chargers as they might damage the battery.

Select the right inverter and battery by assessing power needs, budget, and product quality. Calculate power requirements, ensure compatibility, and opt for reputable brands for reliability and performance. Use our combo suggestor (combo suggestor word to have a hyperlink redirecting to the Home UPS combo calculator) to see the best fit for your requirements.

Buying an inverter and battery from the same brand ensures compatibility, streamlined support, potential cost savings, and simplified installation. It also enhances efficiency and performance when used together. Click here (click here to have a hyperlink that redirects the user to the features section of Home UPS Combo) to know what you get with Eastman's Home UPS combo.

Determine the size of your inverter based on total power requirements during outages. For batteries, calculate capacity needs by considering the duration and devices you want to power during blackouts. Use our Home UPS combo suggestor (Hyperlink to redirect to the load calculator) for a customised solution as per your needs.

While it's possible to buy an inverter and battery separately, purchasing them together ensures compatibility and may simplify installation. However, individual components can still be sourced independently.

Charge an e-rickshaw by connecting its battery to a compatible charger using the provided charging cable. Ensure the charger is switched on and follow the manufacturer's instructions for optimal charging.

Maximize e-rickshaw battery performance by avoiding deep discharges, regular charging, proper electrolyte maintenance, and using a suitable charger.

Select the best e-rickshaw charger by considering compatibility with the battery, charging efficiency, reliability, and support from the manufacturer or brand. Click here (Redirects the user to the suggested e rickshaw combos page) to know more the best e rickshaw jodi.

Buying an e-rickshaw charger and battery from the same brand ensures compatibility, streamlined support, potential cost savings, and simplified maintenance, enhancing overall performance and reliability. Click here (click here to have a hyperlink that redirects the user to the features section of E Rickshaw Combo) to know what you get with Eastman's E Rickshaw Jodi.

Properly maintain e-rickshaw battery and charger by avoiding overcharging, ensuring proper ventilation, cleaning terminals regularly, and following manufacturer's guidelines for maintenance and storage.

No, you should only use a charger specifically designed for e-rickshaw batteries to ensure compatibility, optimal charging performance, and to prevent damage to the battery or charger.