1.5 watt hour per cubic inch roughly. From: Steve Jones Sent: Wednesday, January 13, 2021 9:15 AM To: AnimalFarm Microwave Users Group Subject: Re: [AFMUG] Solar/Battery for Micro-PoP
Out of curiousity, what does 16kwh storage look like? That seems to be a lot of battery. On Tue, Jan 12, 2021, 1:20 PM Chuck McCown via AF <af@af.afmug.com> wrote: Assuming a hard to get to place, higher latitude with a real winter, I would say: 1000W of panel. (20X load) 16 kWh storage. (14 days autonomy) So right in line with Bill's recommendation. -----Original Message----- From: Bill Prince Sent: Tuesday, January 12, 2021 11:55 AM To: af@af.afmug.com Subject: Re: [AFMUG] Solar/Battery for Micro-PoP If your load is 50W, then you need to deal with ~~ 1.2 KWH of energy usage per day (50*24). We don't know your latitude, or location, so you will have to plug in whatever solar values are typical for your area. However, a good rule of thumb for mid-latitude areas is to have enough battery for 10 days of operation without sun. So you will need about 12KWH of battery storage. If you're using lead acid batteries, double that for 24KWH of storage. Then you will need enough solar for you to recover that in one or two days. For example, if you have 1200 watts of solar, you can typically expect to get back 4.8KWH per day (5 hour day at 80%). A 48V system would be the most efficient. It will require smaller wires, and converting from 48->24 is more efficient than the other way around. Separately, I would suggest to examine your sanity for thinking you might be the only one in the US to make TVWS actually work. bp <part15sbs{at}gmail{dot}com> On 1/12/2021 10:42 AM, D. Bernardi wrote: > > Hi, > > I'm considering some fixed wireless (TVWS) trials and/or the ability to > deliver temporary service where there's no available power source. I've > done some basic solar system calculations (and there are plenty of > calculators) but I'm looking for some real world pointers from those that > have deployed off-grid micro-PoPs. > > DC only, no inverters required. We may need 24v PoE and 48v PoE so would a > 48v system with step down to 24v be more efficient than 12v or 24v with a > step up? Other trade-offs to consider for 12v/24v/48v storage systems? > > I don't have actual load measurements yet but at this point I'm currently > sizing for a 50w load. The base station and backhaul radios combined > should be ~ 30w. > > Thanks, > Dave B. > -- AF mailing list AF@af.afmug.com http://af.afmug.com/mailman/listinfo/af_af.afmug.com -- AF mailing list AF@af.afmug.com http://af.afmug.com/mailman/listinfo/af_af.afmug.com -------------------------------------------------------------------------------- -- AF mailing list AF@af.afmug.com http://af.afmug.com/mailman/listinfo/af_af.afmug.com
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