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BLUETTI

BLUETTI Solar Generator AC200P with 2 350W Solar Panel Included, 2000Wh Portable Power Station w/ 6 2000W AC Outlets, LiFePO4 Battery Pack, Solar Powered Generator for Home Backup, Road Trip, Off Grid

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Style: AC200P-2PV350


Features

  • [Harness the Power of Sun] - This solar generator kit includes 1 AC200P and 2 PV350 solar panel, enabling you to fully replenish this 2000Wh power station in 4-8hrs all by solar energy.
  • [3500+ Life Cycles to 80%] - The ultra-safe LiFePO4 battery cells and premium BMS tech offer multiple protections to your AC200P, making it a reliable power backup that can last longer than a decade.
  • [17 Versatile Outlets] - 6 AC ports, standard USB-A/Type-C/Car port plus 2 wireless charging pads always can service your various needs, while a 12V/25A DC port will power your DIY work.
  • [High Cell Efficiency] - Built with monocrystalline solar cells, PV350 solar panel can convert up to 23.4% of sunlight into usable electricity, giving you solar energy even on an overcast day.
  • [What You Get] - BLUETTI AC200P portable power station, 2 PV350 solar panel, AC adapter, solar/car charging cable, XT90-aviation cable, user manual, 24-month warranty, and friendly local customer service.

Brand: BLUETTI


Wattage: 2000 watts


Power Source: Solar Powered


Voltage: 240 Volts


Special Feature: Portable


Included Components: 2 PV350 solar panel, AC adapter, solar/car charging cable, BLUETTI AC200P portable power station, XT90-aviation cable, user manuals, 24-month warranty See more


Product Dimensions: 16.5"L x 11"W x 15.2"H


Model Name: AC200P+2*PV350


Engine Type: 4 Stroke


Tank Volume: 1 Gallons


Brand: BLUETTI


Wattage: 2000 watts


Power Source: Solar Powered


Voltage: 240 Volts


Special Feature: Portable


Included Components: 2 PV350 solar panel, AC adapter, solar/car charging cable, BLUETTI AC200P portable power station, XT90-aviation cable, user manuals, 24-month warranty


Product Dimensions: 16.5"L x 11"W x 15.2"H


Model Name: AC200P+2*PV350


Engine Type: 4 Stroke


Tank Volume: 1 Gallons


Runtime: 8 hours


Frequency: 60 Hz


Manufacturer: BLUETTI


Country of Origin: China


Item model number: AC200P


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Top Amazon Reviews

    • It's a beast of a unit, there's room for improvmeents though.
Style: EB200P
I'll update the review as I continue to use it: August 26, 2022 UPDATE: Additional testing I decided to do some further testing a little while back. I decided to do a capacity test, this time setting the space heater to the low setting(approx 570 watts.) Surprisingly, I got a considerably better usable capacity. I did the first test after I just finished charging, so I did a second test, waiting around a day after I finished fully charging the unit to rule out the possibility of being very "recently charged" skewing the results. Based on the second test, that wasn't a factor. The best possible explanation I can come up with is that batteries tend to provide a greater usable capacity, the smaller the load. Of course in this case, drawing a smaller load means inverter and other parasitic losses eats up a considerable amount of capacity as that draw continues for hours on end. Perhaps 570 watts is/close to a sweet spot between getting greater usable capacity by drawing less of a load, but not such of a small load that the unit runs for hours on end causing inverter and other parasitic losses to add up to be a considerable large consumption of capacity. First test space heater at around 570 watts Results: Run time approx 3 hours, total usable energy from unit 1.75 KWh Second test space heater at around 570 watts Results RUn time approx 3 hours, total usable energy from unit 1.76 KWh July 27, 2022 UPDATE: Real-world testing I got the chance to put the unit under some real-world tests. First test: Running a 100 watt Fridge. Results: Run time: approx 17 hours, total usable energy from unit 1.42 KWh Second test: Running a 830-840 watt space heater Results Run time: approx 2 hours, total usable energy from unit 1.61 KWh According to the product listing here on Amazon, best-case usable capacity (when using the inverter) should be around 1.74 KWh, HOWEVER in the manual itself, it gives a usable capacity of around 1.622 KWh. It appears that the unit efficiency overall (when using the inverter) is lower for smaller loads such as my fridge, but better with higher loads such as the space heater. To get the absolute maximum usable capacity one would likely need to use the DC outputs and thus, bypass the inverter. I don't have the necessary equipment at this time on hand to give a good test of usable capacity when drawing from the DC outputs. I also tested the solar charging input and it appears to be working just fine. Original review: Too long, can't be bothered to read this long review version: It's nice for running small to medium continuous loads. Almost no maintenance. It can be safely used inside. It's largely portable in name only, you don't exactly want to go backpacking with this thing. Get help with bringing it inside and unpacking. What really sold me is the battery endurance: 3500+ cycles until the battery wears down to holding 80% of its original capacity thanks to its LifePO4 batteries means that if one goes though a charge cycle daily, that's over 9 years of use, and one is still left with a unit that can still hold 80% capacity afterwords. There is a downside to using LifePO4 batteries vs. normal lithium cells, and it's lower energy density. This means it takes a greater mass to achieve the desired capacity which makes this power station weigh about 20 pounds or so more than power stations of similar capacity that use normal lithium cells. Delivery and first impressions: NOTE: The shipping weight of this power station with all of its packaging comes in at around 80 pounds. I WOULD STRONGLY ADVISE GETTING HELP WITH MOVING AND UNPACKING. While I managed to move it inside and unpack it myself, I wished I had someone to help me. After removing it from it's packaging, it comes in a little over 60 pounds. I'm planning on getting a dolly to make it easier to move it around. All of that packaging, including being double-boxed made sure it arrived to be undamaged. The build quality of the power station itself feels fairly good, the outer shell is plastic, but it feels reasonably strong. the adapter cables included comes in a nice pouch, although it's too bad there is no compartment on the unit to store to pouch. The LCD is resistivity touch vs capacities, but thankfully doesn't take much force to register presses. An interesting thing to note is that out of the box, the brightness is cranked up to the max, this seems to be an admission that the LCD is hard to read in bright settings. I measured the voltage output of the AC outlets and got 119 volts on my meter. I would love to check the AC waveform, but I don't have an oscilloscope to do so. The display shows the power being drawn, but I'm suspect about the accuracy of the readings. It seems to be fairly accurate with resistive loads like a lamp, but when I had in inductive load plugged in it showed 0 watts being drawn at times. I've ordered a Kill-A-Watt to get hopefully more accurate load readings so I can better estimate how long the unit can power a particular device for. The external power brick sadly doesn't have the same build quality as the power station itself. The plastic housing feels hard and brittle, meaning it would likely crack and possibly shatter if it was dropped. It has a cooling fan that always runs when plugged in. I noticed while charging the power station with it, the the DC cable of the brick gets warm, meaning some power is being lost (wasted) due to the resistance of the cable. While having an external power brick means it's something else to keep track of and also means the power station can't have a UPS mode, I'd rather replace a dead power brick if it failed vs. having to tear down the power station to try to repair a failed internal charger. The various adapter cables overall feel well-made. The MC4 adapter cable for solar panels feels a little thin, I would have preferred that it was 12 gauge vs. 14. I'm not sure why that simply didn't just put an XT90 connector right on the power station for the car/solar panel input vs. using what they call an aviation plug and doing an aviation to XT90 adapter. Due to the rainy and cloudy weather, I haven't gotten a chance to test out solar charging yet. I do like the fact that unlike some other BLUETTI models, this unit can be charged with just a single panel, although it would take some time to fully charge with just one panel. What advantages does a power station like this have over an inverter generator (a typical, small 1600-1800 running watts unit): Little to no noise by comparison Since there is no exhaust, you can safely operate the unit inside which is great when there's a raging storm outside No fuel or maintenance issues to worry about (other than keeping it's state of charge in the range of 60-80 % when not using for prolonged periods) Can be recharged by car or solar if need be What disadvantages does a power station like this have over an inverter generator: It takes hours to recharge from a fully depleted state, a generator can be re-fueled and up an running again in minutes Large, continuous loads can drain the unit quickly. Even a high loads, an inverter generator can still run for a few hours on a gallon of gas This power station costs around 3x the price of what you can many inverter generators for. Heck, you can even get a Honda inverter for less. This thing weighs around 15-20 pounds more than a small inverter generator, there are power stations of similar capacity that weight less, at the cost of far fewer charge cycles though Improvements that I would like to see: A heavier gauge cord for the DC cable of the power brick A more durable housing for the power brick A better LCD more accurate power draw readings when it comes to inductive loads a wheel option to be able to push it around ... show more
Reviewed in the United States on July 19, 2022 by NickL
    • A Fully-Featured and Powerful Portable Power Station
Style: AC200P
The AC200P is a 2000 watt-hour power station, with long-lasting Lithium Iron Phosphate cells. It has a pure sine wave AC inverter capable of 2000 watts sustained current, and will surge up to 4800 watts. There are 6 AC outlets, 4 standard 5 volt/3 amp USB outlets, one USB C with up to 60 watts output, two 3 amp barrel outlets for 12 volt, one 10 amp “cigarette lighter” outlet for 12 volts, a 12 volt 25 amp aviation port (aviation refers to the type of plug, not the intended use), and two 15 watt wireless charging stations on top. That’s a lot of capability! The AC200P is similar in every detail to the wildly popular AC200, which sold thousands of units on an Indiegogo campaign in the summer of 2020. The only difference is the switch to Lithium Iron Phospate cells, with an increase of 300 watt-hours over the 1700 available on the AC200. The AC200/P is the successor to the EB150 and EB240 power stations, which took the world by storm when they were released in 2019. The combination of large capacity, portability and price still make them a popular choice. Their AC inverter is limited to 1000 watts (1200 surge), which for some applications is not sufficient. Maxoak got the message loud and clear, and put a much more powerful inverter (and more AC outlets) in the AC200/P. For many people, the EB series is still preferable. The AC200P weighs in at 60.6 pounds. This is at the high end of what I’d call a portable power station. The built-in handles work great, and one reasonably fit person can move it around, but I plan to find a good location and leave it there, and I reckon most people will do the same. The AC200P has a built-in fan to keep it cool when needed. It seems my CPAP doesn’t draw enough current to cause the fan to kick on, so it is perfectly quiet all night long. In situating the unit, be sure to leave space for the fan to draw air without straining. A four-inch margin on all sides will be sufficient. I’m not going to go further into technical specifications. For those who are unfamiliar with these products, there are numerous reviews on YouTube which go into considerable detail on the technical aspects. I highly recommend two channels for this purpose: DIY Solar With Will Prowse, and Hobotech. Both of these presenters are kind of quirky, but their information is impeccable and thorough. My goal is to provide information on usage rather than specs. In my world, that boils down to 4 principal uses: CPAP, ham radio, emergency preps, and camping. Rather than do one long video covering all of those, I’ll present several short videos, focusing on one use-case at a time. I’ll post links here as the videos are published. Today, we’re looking at the CPAP. I live in hurricane country, in Eastern North Carolina. We have been through some doozies in the decades I’ve lived here, including Hurricanes Floyd and Florence, which devastated the whole region, and several smaller ones like Fran and Irene which had a major impact but not as wide-spread. In addition to hurricanes, we have power outages due to occasional severe storms, ice storms, and sometimes for no discernible reason. If the power goes out at night, I don’t want my CPAP to stop working. So I use a power station at all times for the CPAP. Some of you may want to do the same, and came here for information on how to do this. I’ve had the AC200P for a month and have been using it for my CPAP that entire time. Every night before turning on the CPAP I take a photo of the screen, and again upon waking up, so I have a series of photos showing the percentage of battery used each night. My conclusions are drawn from that data. My CPAP is a Philips Dreamstation. It is a quiet and efficient machine. With the humidifier, it draws an average of 50 watts per hour over an 8 hour period. When first turned on, as the humidifier heats up the water, the current is higher. After the water has heated up, the current drops. Without the humidifier, the average power needed is 10-12 watts. Clearly, for a long-term power outage or off-grid camping (boondocking), if you can get along without the humidifier, you will extend the usage considerably. I’ve powered the CPAP with both the AC power brick that came with it, and with a 12 volt adapter which I purchased separately. I also ran the CPAP with and without the humidifier. While I prefer the humidifier for everyday use, in a lengthy power outage I would disconnect it, as the humidifier more than doubles the current needed. On average, with the humidifier, on the 12 volt outlet, I will lose about 20% battery capacity per night, so it could run at least 4 and maybe 5 nights without recharging. On the AC inverter, it loses 25% or more, which would be 3-4 nights. If your CPAP has a 12 volt adapter cord, that’s the way to go. Without the humidifier, at 10-12 watts per hour on the 12 volt port, I could get easily 10 days’ use. In a power outage situation, if it went on this long, we would bug out to another location, as there would be other issues affecting our safety and comfort besides just the lack of electricity. For camping, this would be very useful. For everyday use, I leave the AC200P turned on all the time. If I were maximizing it, I would turn it off when not using it, since with the 12 volt system turned on, it loses around 1% per hour when nothing is drawing current. The 12 volt regulation circuitry takes some power and produces this loss. If the AC inverter is turned on, the drain is much higher. This is another good reason to invest in a 12 volt power cord for your CPAP. The AC200P has pass-through charging, which means you can use it while it is plugged into either the wall charger or solar power. In my current home, I don’t have a solar power set-up, so I use the wall charger to keep it powered. I prefer not to leave the wall charger active at all times, and it will shorten the life of the battery cells to keep them at 100%. So I have the wall charger plugged into a smart outlet, which is programmed to recharge the AC200P for a couple of hours, every other day. Basically, I run the unit between 20-80% state of charge, which is recommended by many experts as providing the greatest longevity for batteries with a lithium chemistry. Lithium Iron Phosphate batteries already have a great lifetime, so I’m not so worried about that. But since it’s simple enough to do, why not? The smart outlet I use is rated for 3 times the amperage that the wall charger draws, which is a generous safety factor. If you choose to use a smart outlet, I suggest you follow this plan. We had a brief power outage during the night, the first week I had the AC200P. The only way I know this is that the clock on the stove and microwave were blinking when I got up. The CPAP never stopped, because it wasn’t plugged into the grid. Prior to getting the AC200P, I was using a Bluetti EB150 for the CPAP. While the EB150 has nominally 500 watts less than the AC200P, I get a couple more nights of CPAP use out of it under the same conditions described above. I believe, although I can’t prove, that the 12 volt regulation circuitry is more efficient in the EB150 and thus the drain during the day is less. Again, in a long-term power outage or boondocking situation, I would turn either battery off during the day to avoid parasitic loss. Either of these – the AC200P or the EB150 – would do the job for my CPAP over a week’s use or more. I see the EB150 as better for 12 volt usage, and the AC200P as optimized for AC. For that reason, I will be moving the AC200P downstairs where I would have a need for AC in a power outage, and return the EB150 to CPAP service. Full disclosure: I received an AC200P from Maxoak in order to do this review. The testing is all mine, and they did not ask to see this review before it was published. You might be seeing it before they do. I hope this review is helpful for all of my fellow CPAP users. I will also be testing other power stations, such as the newer Bluetti AC30, a light-weight, mid-range power station with different applications. That’s all for now. ... show more
Reviewed in the United States on January 2, 2021 by Dr. Bruce

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