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Reddit mentions of COTEK SK350-112 350 WATT 12 VOLT PURE SINE POWER INVERTER WITH DUAL GFCI OUTLETS AND CABLES

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Reddit mentions: 1

We found 1 Reddit mentions of COTEK SK350-112 350 WATT 12 VOLT PURE SINE POWER INVERTER WITH DUAL GFCI OUTLETS AND CABLES. Here are the top ones.

COTEK SK350-112 350 WATT 12 VOLT PURE SINE POWER INVERTER WITH DUAL GFCI OUTLETS AND CABLES
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    Features:
  • Bike lock is best used for basic security as a theft deterrent
  • Preset four-digit combination bicycle lock for keyless convenience; combination is resettable and can be changed
  • Bike lock cable is self-coiling and features braided steel for strength and flexibility
  • Protective vinyl coating prevents the cable from scratching your bike
  • Bike cable lock is 6 ft (1.85 m) long with 3/8 in. (10 mm) diameter cable (includes vinyl coating)
Specs:
Weight3 Pounds
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Found 1 comment on COTEK SK350-112 350 WATT 12 VOLT PURE SINE POWER INVERTER WITH DUAL GFCI OUTLETS AND CABLES:

u/rosinall · 24 pointsr/vandwellers

Using solar in a van is simple if your expectations are in line, and unworkable if not.

First, the bad: If you want to run devices that heat or cool with electricity, such as coffeemakers, hotplates, A/C, toasters, hair dryers, etc., you will not make your numbers or anywhere near them. Give that all up. There is a reason whole-house systems cost $30k, it is heating and cooling.

For a quick example, say you have a tiny 700 watt A/C unit. This represents half a normal small window A/C, or half a hairdryer. A 100Ah marine cell (basically a car battery that swaps maximum acid/lead contact area for thicker internal lead plates) from Wal-Mart ($100) has 100Ah, which translates to roughly 1200 watt hours. You do not want to run a wet cell like this below 50% or so; a fully-charged marine cell will run a unit like this for about 50 minutes. So, if you want to run it 10 hours a day off batteries, you will need 12 fully-chrged batteries, costing $1200 and weighting 700 pounds. You would also need a semi-sized trailer covered in panels to charge them. Oh, and the A/C compressor takes double the load when it starts up — which will tire the batteries out quickly, so expect that $1200 in batteries to be a yearly thing.

Now, the awesome: IT WORKS. I ran 30 feet of LEDs, a laptop, a small but nice stereo, a PoE wireless antenna, a wireless hub, iPhones and iPods, 18v DeWalt battery packs, a fan — plus whatever I am forgetting — off of 2 x 100W solar panels and 2 x 100Ah marine cells while boon docking in my camper for ten weeks.

To run a full system you will need a solar panel, an inverter, a battery, and a charge controller.

First you must go ahead and do all the math of your usage, because we are are still at the stage where we must all do all the math, and math is good, but when you are doing all the math to the third significant digit, and looking up the model of that rechargeable flashlight you like for its charging amperage requirements, maybe say screw it and start with half what works for my boon docking setup; one beefy panel, one solid battery. You can then add another panel later if your location or climate require it to keep the battery charged.

As to wiring, your charge controller will have connections that include a legend where to hook up your batteries, panels and inverter, so easy peasy there. See the link below for an example. I recommend spending the extra on an MPPT controller, which converts some of your extra juice (the 12V panel below can run almost 19V) that normally is dumped when charging into increased amperage of the charging current. Do the math of your expected load, it's possible you will want a 20A.

YOU WILL WANT TO DO THE MATH on wire sizes. There are calculators online. For your small setup, the important run is going to be between the battery and the charge controller. This is where the fires start. If you think you will EVER add another battery dig deep and wire for it. Also, fuse your system correcly, there is a schematic on the charge controller link below. Don't skip this, you can get the fuse holders and fuses at your local auto parts store.

For inverters, I feel better about everything by getting a well-respected pure sinewave unit. I run a Cotec 350W for the solar, and it seems bulletproof. I also run a Xantrex 600 in my 4Runner and it seems just as solid. You could save a ton by getting a cheap modified sinewave one and seeing if it meets your needs. Either way they will have outlets on them, so you don't need to wire it further.

Also, no wet cells inside the vehicle unless properly secured, sealed to the inside, and vented to the outside.

Solar panel:
http://www.amazon.com/RENOGY-Monocrystalline-Photovoltaic-Battery-Charging/dp/B009Z6CW7O/ref=sr_1_1?ie=UTF8&qid=1417553121&sr=8-1&keywords=100W+solar+panel

Charge controller (10A likely okay, do your math, I got the 20 amp)
http://www.amazon.com/Tracer1210RN-Solar-Charge-Controller-Regulator/dp/B008KWPGS6/ref=sr_1_2?ie=UTF8&qid=1417552788&sr=8-2&keywords=mppt+charge+controllers

Inverter:
http://www.amazon.com/COTEK-SK350-112-INVERTER-OUTLETS-CABLES/dp/B006W9IPA0