I’m using a UPS that is plugged into a EcoFlow power station which uses LiFoPO4 battery

https://imgur.com/a/qbqE8e8

Lithium batteries are about weight, so they make perfect use for portable uses (like portable power stations). Most UPSes get installed once and stay put until decommissioned. The added expense of lithium batteries makes no sense.

Vertiv has multiple ranges of Lithium UPS products. They have a small 400VA unit that can be found for about $180.

https://www.vertiv.com/en-us/solutions/learn-about/vertiv-lithium-ion-ups/

There is an issue with using lithium battery in UPS. AFAIK all types of lithium batteries on the market now, They don’t like to be staying fully charged all the time. That’s why lead acid batteries and Ni-Cd batteries are still used for providing emergency power

This post is an automated archive from a submission made on /r/HomeNetworking, powered by Fediverser software running on alien.top. Responses to this submission will not be seen by the original author until they claim ownership of their alien.top account. Please consider reaching out to them let them know about this post and help them migrate to Lemmy.

Lemmy users: you are still very much encouraged to participate in the discussion. There are still many other subscribers on !homenetworking@selfhosted.forum that can benefit from your contribution and join in the conversation.

Reddit users: you can also join the fediverse right away by getting by visiting https://portal.alien.top. If you are looking for a Reddit alternative made for and by an independent community, check out Fediverser.

I too am looking for LifePo4 UPS recommendations.

I won’t use lead acid anymore. 40 years of experience has taught me that unless I’m prepared to replace the lead acid UPS batteries in an annual basis, having a lead acid based UPS is the same as not having one at all.

The batteries consistently have died and provide no backup time when I get my admittedly very intermittent power outages. No bueno.

Lithium is advantageous for repetitive discharge and recharge cycles which is useless for a UPS installation with a reliable power source. The cost/capacity of lead acid wins out.

Was asking myself the same question.

Another annoyance is that all products on the market are labelled in VA and not Wh, which makes it very difficult to compare and understand how long they’ll last at a 20W draw of the standard networking equipment.

Simultaneous charge and supply circuits cost a fair bit to design and implement.

It’s a lot cheaper and profitable to build a basic ‘brick’ that can be sold to hundreds of thousands of 'phone users rather than a premium product for a few computer folk.

Cheap and Lithium are not two things I want together

I’m just re-using my APC Smart-UPS 750 and a pair of batteries like these. Allegedly the BMS / charging circuits in them are designed to work with charging systems that generally charge up 12v lead acid batteries. The pair of batteries I ordered have the exact same dimensions as the lead acid batteries they’re going to replace, and the same connectors in exactly the same location.

I’ve watched a number of videos on YouTube with folks that have done such conversions (using a wide array of UPS models). Even watched a video where a guy did a short circuit test (the battery he used failed miserably, but didn’t catch fire). The cable on my UPS has a built in (and replaceable) fuse, so I’m not worried about an issue with the UPS pulling far more amperage than it should be. Of course, that fuse won’t do much good if something inside the battery itself fails, but I suppose that’s what home owners insurance is for. :)

There’s also the fact that Lead Acid don’t catch on fire when they go bad like the Lithium based cells do.

APC used to sell a consumer lithium UPS: here’s the price history. $270 for something about the capacity of the $50 lead acid equivalent. Looks discontinued now. They sell a lot of rackmounted options but they are all expensive.

The answer comes down to cost. LiFePO4 batteries have enough capacity that they can be held at 80% and still beat SLA on capacity. The problem is that LFP wins on gravimetric and volumetric energy density; two metrics that aren’t particularly important in the context of a UPS. It’s a large brick that sits on the floor.

Most lithium battery ate not full lith It lithium poly etc type. Most none car battery are lead calcium