All in One Technology for Inverter, UPS and Solar storage Sytems the technology is getting shifted to Renewable storage systems. Every household experiences voltage and frequency fluctuation in their house. For example, when the voltage goes down, then we can see the speed of the fan goes slow or the light goes dim in the […]
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The Lithium Battery is going to change the Energy Storage Solutions. The Latest Lithium battery Technology will change the paradigm of storage solutions in the long run as today, people are using different types of Lead Acid batteries for storage: SMF, Tubular or Gel based tubular or SMF technologies, with many challenges and limitations. The […]
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All in One Technology for Inverter, UPS and Solar storage Sytems the technology is getting shifted to Renewable storage systems. Every household experiences voltage and frequency fluctuation in their house. For example, when the voltage goes down, then we can see the speed of the fan goes slow or the light goes dim in the […]
https://i0.wp.com/suvastika.com/wp-content/uploads/2023/01/Zoom.jpeg?fit=1632%2C1224&ssl=112241632https://suvastika.com/new/wp-content/uploads/2024/02/Suvastika.png2023-01-24 14:25:132023-08-04 12:59:22All in One Technology for Inverter, UPS and Solar storage
The Lithium Battery is going to change the Energy Storage Solutions. The Latest Lithium battery Technology will change the paradigm of storage solutions in the long run as today, people are using different types of Lead Acid batteries for storage: SMF, Tubular or Gel based tubular or SMF technologies, with many challenges and limitations. The […]
https://i0.wp.com/suvastika.com/wp-content/uploads/2023/01/image1-1-e1690778705282.png?fit=1219%2C689&ssl=16891219https://suvastika.com/new/wp-content/uploads/2024/02/Suvastika.png2023-01-24 14:20:142023-08-04 13:19:23The Lithium Battery is going to change the Energy Storage Solutions
All in One Technology for Inverter, UPS and Solar storage Sytems the technology is getting shifted to Renewable storage systems. Every household experiences voltage and frequency fluctuation in their house. For example, when the voltage goes down, then we can see the speed of the fan goes slow or the light goes dim in the bulbs, or sometimes the tube light doesn’t get on if the voltage goes below a certain level, so that condition is called the Low Voltage condition.https://energy.economictimes.indiatimes.com/news/renewable/opinion-why-the-future-of-climate-action-rests-on-strong-renewable-energy-supply-chains/102394012
Also, there are times when the voltage goes very high, and our sensitive equipment starts getting problems. We all have experienced this condition when sometimes we get up early in the morning and switch on the light, and it goes out, and we realize the bulb got fused because, in the early morning, the voltage is generally high. After all, the Load on the grid is minimum. So we define the voltage into three categories.
Low voltage condition
Normal voltage condition
High voltage condition
It is to be noted that low as well as high voltage conditions can pose a threat to your appliances.
Therefore, our inverter/UPS consists of AVR (automatic voltage regulator) to cope with such situations and protect your appliances. Accordingly, whenever the voltage level rises or drops to an undesirable level, the inverter/UPS automatically switches off the mains, and connected appliances run through the battery to keep them safe for your peace of mind.
II Extra Protection – MCB/Special Resettable fuse.
So, for example, your whole house is connected to the UPS and your fans, lights and washing machine, fridge, etc., are connected to the inverter, and suddenly high voltage comes. In that case, the MCB of your house will not protect those appliances. Still, our feature in UPS will help those appliances to switch to battery mode, and in case the load is higher, the UPS will give a warning and stop the output. You can reduce the load and restart the UPS, but in this case, if the voltage remains high, UPS will not let you operate those appliances, and by switching off those appliances, you can keep running essential appliances at that point. This is a big protection for sensitive appliances at your home, so we give you complete insurance with this feature.
The next big protection is the short circuit of any appliances connected through the UPS, so they will be protected by the MCB or Special resettable fuse given in the UPS before the MCB of your home trips. So we give you double insurance circuitry. Thus, providing first and extra protection to your appliances.
Our inverters/UPS are built with the Automatic Bypass feature. Its function has been explained with the help of the following illustration:-
Imagine a situation when the mains power supply is available. Still, due to some problem occurring in your UPS, you are not getting any power unless some electrician comes and removes or replaces the UPS. People are very irritated in this condition, especially when the inverter goes bad. It’s the middle of the night, and the Mains power is available. They can’t call anybody then and have to wait for the morning so they can call someone to get the power connected. We at Su-vastika have seen these situations and, after doing a lot of R&D, created a feature in which whatever goes wrong with the inverter or power, you will get uninterrupted power at your disposal.
To save you this hassle, the automatic bypass feature of our inverter/UPS allows you to connect your appliances to the mains power supply with just the push of a button within the inverter/UPS.
https://i0.wp.com/suvastika.com/wp-content/uploads/2023/01/Zoom.jpeg?fit=1632%2C1224&ssl=112241632https://suvastika.com/new/wp-content/uploads/2024/02/Suvastika.png2023-01-24 14:25:132023-08-04 12:59:22All in One Technology for Inverter, UPS and Solar storage
The Lithium Battery is going to change the Energy Storage Solutions. The Latest Lithium battery Technology will change the paradigm of storage solutions in the long run as today, people are using different types of Lead Acid batteries for storage: SMF, Tubular or Gel based tubular or SMF technologies, with many challenges and limitations.
Whereas Lithium battery is a very stable technology that has been proven for almost two decades now, specially LifePO4, which is a very well-accepted technology and the cycle life varies on the good BMS, which regulates proper charging and discharging so that battery is minimal heating inside than we can get anywhere between 1500 to 4000 cycles. In contrast, Lead Acid cannot perform more than 400-500 cycles. So clear edge in terms of cycle life.
Another important factor is capacity at different discharge levels. So Lead Acid batteries are generally designed at C20 design, which means you can discharge 5% of the battery, then only you will get the rated capacity. This is also unavailable as making Lead Acid is crude, and consistent power is challenging. If you discharge at the 50% rating of the battery, generally speaking, it gives you 50% of its rated capacity. Lithium is a C1 battery, so the capacity remains 100% at any load. This is a big difference when we use these batteries for storage purposes like inverters, UPS, and Solar solutions; the Lead Acid backup time can’t match the Lithium battery pack.
Another major challenge is the cell balancing option available in the Lithium battery pack in the BMS. One reason is that battery life can be achieved as a Lead Acid battery has six cells that cannot be balanced as there is no provision inside the battery. If we need to operate higher DC voltages, then we need the balancing between the batteries, and that’s also not done by the user. So if we need to put 120 V DC, then we need 10 Lead Acid batteries, which take up a big space and can’t be balanced with each other internal cells of each battery pack, which is also impossible. The connecting wires take a longer route which becomes another challenge as each battery takes its own space, and we need to keep them at a distance which creates wire losses.https://suvastika.com/products/lifepo4-based-lithium-battery/
Whereas Lithium is a single pack and one-fourth of the size of the Lead Acid battery bank size. So there are hardly any losses between the battery cells, which keeps minimum losses, and cell balancing for each cell is balanced through the BMS. So, in the end, it can be concluded that there is no comparison between Lead Acid batteries and Lithium batteries. There will be a revolution in the industry in the next five years, and Lead Acid will be out of business in the storage business.
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