Introduction:
In an era where renewable energy is more than a buzzword, the AllPowers 2500 Portable Solar Panel Station emerges as a beacon of innovation and convenience. This powerhouse of a station promises to keep your devices charged and your environmental footprint minimal, whether you’re off-grid camping or ensuring backup power at home. This blog post explores the features, benefits, and practical applications of the AllPowers 2500, offering a detailed guide for anyone considering portable solar power.
Key Takeaway Points:
- The AllPowers 2500 offers a sustainable and portable power solution for a variety of needs.
- Its high capacity and compatibility with multiple devices make it a versatile choice.
- The station’s design and build are conducive to both travel and home use.
- Understanding the technical specifications can help maximize its utility.
- Investing in portable solar power stations like the AllPowers 2500 contributes to a greener planet.
- Portable solar panel stations are essential for maintaining power in off-grid scenarios.
- They provide a sustainable and renewable energy source when other systems are down.
- Selecting the right solar panel station requires understanding power needs and device compatibility.
- Durability and portability are key factors in choosing a station for survival situations.
- Incorporating solar power stations into disaster preparedness plans can ensure safety and communication during emergencies.
Why Portable Solar Power?
Portable solar power stations are changing the game for adventurers and homeowners alike, offering a way to harness the sun’s energy for personal use.
Portable solar power stations are revolutionizing energy consumption for outdoor enthusiasts and residential users, providing a convenient and eco-friendly way to tap into the sun’s abundant power. These versatile units are a green substitute for conventional generators, delivering the dual advantages of quiet operation and zero emissions.
They are ideal for a range of applications, from powering a campsite to serving as a backup energy source at home during outages. With the increasing demand for sustainable and off-grid power solutions, portable solar stations are becoming an indispensable tool for a modern, environmentally conscious lifestyle.
Ultimate Survival Gear: Portable Solar Panel Stations for Doomsday Prepping
When it comes to preparing for the worst-case scenarios, whether it’s a natural disaster, a power grid failure, or other end-of-the-world events, having a reliable power source is crucial. Portable solar panel stations have emerged as a must-have in any survivalist’s gear list, offering a lifeline when traditional power sources fail. This blog post delves into the critical role of portable solar panel stations in survival situations, their benefits, and how to choose the best one for your needs.
The Role of Solar Power in Survival Scenarios
In times of crisis, when traditional power grids falter, solar power emerges as a beacon of self-reliance. The AllPowers 2500 portable solar station exemplifies this, providing a lifeline by converting sunlight into usable electricity, even in the most dire circumstances. Its ability to operate independently of infrastructure makes it an invaluable asset for emergency preparedness, ensuring that critical devices remain operational and that there is always access to power when it’s needed most. Whether it’s during natural disasters, power outages, or off-grid living situations, the AllPowers 2500 stands as a testament to the resilience and sustainability of solar technology.
Choosing the Right Solar Panel Station
Not all solar panel stations are created equal. This part would guide readers through the process of selecting a station based on power output, storage capacity, and charging speed, tailored to survival needs.
Features to Look for in a Doomsday-Ready Solar Station
When preparing for the unknown, certain features in a solar panel station can make all the difference. This section would highlight the must-haves, such as rugged build, water resistance, and multiple charging ports.
How to Maximize Your Solar Station’s Efficiency
To get the most out of a solar panel station, users need to understand how to optimize its use. This section would offer tips on positioning, maintenance, and pairing with the right devices.
Solar Panel Stations vs. Traditional Generators
Comparing solar panel stations with traditional generators highlights the advantages of solar in terms of sustainability, cost-effectiveness, and convenience. This comparison would help readers make an informed choice.
Integrating Solar Power into Your Emergency Plan
A comprehensive emergency plan includes a reliable power source. This section would discuss how to incorporate solar panel stations into an existing emergency preparedness strategy.
In the face of disaster, being prepared with a portable solar panel station can mean the difference between vulnerability and resilience. As the world grapples with increasing environmental and geopolitical uncertainties, the wisdom of investing in sustainable, reliable survival tools becomes ever more apparent.
The prospect of ‘end-of-the-world’ scenarios may seem distant until they’re upon us. Portable solar panel stations offer a beacon of hope and security in such times, providing power when it’s most needed. By choosing the right station and understanding its use, you can ensure that you’re ready for anything, come what may. In embracing solar technology, survivalists aren’t just preparing for disaster; they’re also committing to a sustainable future, whatever it holds.
The AllPowers 2500: Power Where You Need It
The AllPowers 2500 is designed to meet the power needs of the modern explorer and eco-conscious individual. With a 2500Wh capacity and a range of output options, it can charge everything from smartphones to refrigerators.
Design and Portability
The AllPowers 2500’s compact design and built-in handles make it easy to transport, while its robust construction ensures durability.
The AllPowers 2500 distinguishes itself with a sleek, compact design that doesn’t skimp on resilience. Built to last, it features sturdy, user-friendly handles that ensure ease of transportation, whether you’re moving it to different locations within your home or taking it on the road.
Its design is a harmonious blend of functionality and aesthetics, with a form factor that allows it to fit into tight spaces and a build quality that can withstand the rigors of outdoor use. This balance of portability and durability makes the AllPowers 2500 an excellent choice for those who need reliable power on the go without the bulk and hassle of traditional generators
Technical Specifications Explained
Understanding the technical aspects of the AllPowers 2500 is key to utilizing it effectively.
The AllPowers 2500 portable solar power station packs a punch with its high-capacity, advanced battery technology, and versatile charging options. Here’s a breakdown of its specifications for those who want the details without the technical jargon:
- Battery Capacity: The heart of the AllPowers 2500 is a 2016Wh Lithium Iron Phosphate (LFP) battery, known for its long life and safety. With 48V and 42Ah, it’s like having a power reservoir that can keep your devices running without a hiccup.
- Rated Power: It offers a continuous power supply of 2500W, with the ability to peak at 4000W for those devices that need an extra surge of energy to start up.
- AC Input: You can charge it up at home with a standard AC outlet, whether you’re on a 100-120V or 220-240V grid, accommodating up to 15A and 7A input respectively.
- Solar Input: Embracing the sun’s power, it can handle up to 1000W of solar energy, with a voltage range from 12V to 150V, making it a solar enthusiast’s dream for off-grid charging.
- Car Charger Input: For on-the-go convenience, it can also be charged using your car’s 12V or 24V DC outlet.
- Outputs: It’s equipped with four AC outlets and one 30A RV AC output, supporting both 100-120V and 220-240V, which means you can power a wide range of appliances, from blenders to power tools.
- USB Ports: With two standard USB-A ports, two quick-charge USB-A ports, and two USB-C ports, it can charge everything from smartphones to laptops at impressive speeds.
- DC Outputs: The two DC5525 and car ports are perfect for devices that run on 12V, like portable coolers or air pumps.
- Connectivity: Wi-Fi and Bluetooth support mean you can monitor and manage the power station remotely.
- UPS Function: It also supports an Uninterruptible Power Supply (UPS) feature, ensuring that your essential devices keep running even during a power outage.
- Charging Modes: Choose from Fast Mode for rapid charging, Standard Mode for everyday use, or Mute Mode for quiet operation when noise is a concern.
- Size and Weight: At approximately 64 lbs and with dimensions of 17.9514.1713.62 inches, it’s substantial yet manageable, designed for both stationary use and portability.
Real-World Applications: Case Studies
From emergency preparedness to outdoor events, the AllPowers 2500 has a wide range of uses.
Hurricane Havoc Averted with Solar Resilience
During Hurricane Irma’s rampage through Florida in 2017, a family in Miami experienced a power outage that lasted for several days. With no electricity to power their home, they turned to their AllPowers 2500 portable solar power station. The family was able to keep their lights on, charge their communication devices, and run essential medical equipment for an elderly relative. The solar power station became their lifeline, ensuring safety and comfort until the grid was restored.
Tornado Aftermath: A Beacon of Hope
In the wake of a devastating tornado that hit Oklahoma in 2019, emergency response teams utilized portable solar power stations to coordinate rescue efforts. The AllPowers 2500 units provided a reliable power source for the teams’ radios, laptops, and medical equipment as they worked tirelessly in areas where the power lines were destroyed. The solar units were particularly crucial for night operations, powering lights and charging tools that helped locate and assist survivors during the critical hours following the disaster.
Charging Capabilities and Device Compatibility
The versatility of the AllPowers 2500 is one of its strongest selling points.
The AllPowers 2500 portable solar power station is a versatile powerhouse, designed to keep a wide array of devices and appliances running smoothly. With its impressive fast-charging capabilities and a broad range of compatible devices, it stands out as a reliable source of power for both indoor and outdoor use.
Fast and Efficient Charging The AllPowers 2500 boasts an integrated MPPT charge controller, allowing for up to 1000W of solar input. This, combined with the proprietary AP-POWER fast charging technology, eliminates the need for bulky power supply adapters. A single cable can fully charge the power station within 1.3 hours, thanks to the 1500W max charging power, which surpasses other similar power stations. Additionally, it supports simultaneous solar and AC charging, significantly reducing the total charging time.
Powering a Wide Range of Appliances With a substantial rated power of pure sine wave 2500W (peaking at 4000W), the AllPowers 2500 is ready to power 99% of indoor and outdoor appliances. Whether it’s an electric vehicle, TV, coffee maker, air conditioner, toaster, microwave oven, CPAP machine, drill, juicer, or hairdryer, this power station can handle it for an extended period. Its 2016Wh battery pack features 4 AC outlets, 1 RV outlet, 2 PD 100W USB-C ports, 4 USB-A ports, 2 DC ports, and 1 Car socket. The 30A RV Outlet is particularly suitable for long-distance outdoor RV travel, making it a versatile choice for various power needs.
Long Lifespan with LiFePO4 Battery The AllPowers 2500 is equipped with a 2016Wh LiFePO4 battery, renowned for its longevity and efficiency. The battery maintains over 80% capacity after 3500 charging cycles and 50% after 6500 cycles. This translates to a lifespan of more than 10 years, ensuring that the power station will be a long-term investment for users. The R2500 also features an Eco mode that can shut down the power station at a predetermined time, further conserving energy and extending its lifespan.
Advanced Safety Features Safety is paramount when it comes to power stations, and the AllPowers 2500 is equipped with an advanced Battery Management System (BMS). This system monitors voltage, current, and temperature to prevent overcharging, overheating, and other potential hazards. The BMS ensures that the AllPowers 2500 operates safely under all circumstances, providing peace of mind for users relying on it for their power needs.
In conclusion, the AllPowers 2500 portable solar power station is a robust, efficient, and versatile solution for anyone needing reliable power on the go or during power outages. Its compatibility with a wide range of devices, fast charging capabilities, long battery life, and safety features make it an excellent choice for a variety of power requirements.
Sustainability and Environmental Impact
Choosing a portable solar power station is a step towards sustainable living.
Opting for the AllPowers 2500 portable solar power station is more than a convenience; it’s a commitment to environmental stewardship. Solar power stations like the AllPowers 2500 play a crucial role in reducing reliance on fossil fuels, cutting down carbon emissions, and promoting renewable energy use. By choosing solar over gas-powered generators, users contribute to a cleaner, healthier planet, ensuring that the energy they consume for their adventures or emergencies leaves a minimal environmental footprint.
Maintenance and Care
To ensure longevity, the AllPowers 2500 requires proper maintenance.
Maintaining the AllPowers 2500 is straightforward and essential for its longevity. Regular cleaning of the solar panels with a soft, damp cloth ensures maximum efficiency, while storing the unit in a cool, dry place prolongs battery life. It’s also important to fully charge the battery every three to six months during prolonged storage to keep the battery health optimal. Following these simple care instructions will ensure that the AllPowers 2500 remains a reliable power source for years to come.
Hot Take:
The AllPowers 2500 isn’t just a product; it’s a statement. It represents a shift towards renewable energy sources that are accessible, reliable, and user-friendly. As the demand for clean energy solutions grows, products like the AllPowers 2500 will become increasingly vital in the global effort to combat climate change.
Conclusion:
The AllPowers 2500 Portable Solar Panel Station stands as a testament to the potential of solar technology. It offers a blend of convenience, power, and environmental stewardship that resonates with the needs of today’s consumers. Whether for daily use or emergency situations, the AllPowers 2500 is a smart investment in a future where clean energy is not just preferred but essential.
this going to be probably a relatively long video I’m going to do a demo unboxing and we’re going to try out and
0:07tear down and go through a brand new Power Station from all powers with solar charging capabilities let’s check it out
0:14I received the big box from all powers that’s going to be a new power station
0:20that we’re going to do a tear down on and review and I got a giant solar panel also with this one that we’re going to
0:26do a test on and check it out not a sunny day today so I don’t know how the
0:33solar panel is going to perform in an overcast day and they’re calling for rain for the next week so we may have to
0:40do the solar panel test and see how it performs on a clear day but we’re going
0:45to get this one open today give it a charge put it through its paces and tear it down and I’ll show
0:51you guys the the solar panel which will be part of this video so let me get this box open this thing weighs a ton it was
0:57supposed to been sent by post but but it was an overweight item so they had to send it out by FedEx the guy dropped it
1:05at my door uh I watched him on camera literally Drop It Crush the corner of
1:11the box here so hopefully the unit inside is not damaged this thing weighs probably about 80 lb 60 to 80 lb it’s
1:18heavy as hell let’s get this box
1:25open comes with the accessory bag
1:31warranty card and here’s the unit this thing is
1:38Big to give you an idea of the weight of this unit it did have handles molded into the side of the box but the the box
1:44is ripped just in transport inside the accessory bag there’s just going to be power cords I’m
1:51sure what do we have in here we have an AC power cord and a DC power cord to
1:57charge from solar uses a stand standard AC
2:02cord first things first I’m going to plug this into power and I’m going to plug it directly in to to power not
2:08through my isolation Transformer because a unit like this is going to draw a fair number of amps to charge so I’m going to
2:14plug this in directly to the Main’s power we’ll get this unit charged up
2:20fully I’m going to put it on a load test we’re going to load this thing down and see what it can do but as I do that
2:28we’ll go over some of the features that this has and I’ll look up the specifications on the back we have
2:34the charging door so it’s got AC receptacle it’s got
2:39solar panel input and what’s that third one there the third one is an extended battery port so it’s got a couple of
2:45extended battery ports here that you can put additional battery packs on it’s got a circuit breaker here solar charging is
2:5312 to 150 volts 20 amps maximum so you can charge this with 150 volt solar
2:59panel P we’re going to plug this in it takes 15 amps to charge at 120 volts so
3:04let’s plug it in and get this thing charging and then we’ll take a look at what’s on the front right now the battery is at
3:1369% it is charging at 529 Watts you need to use the app to switch it up to 1500
3:19watt here’s our output on this it’s a sinewave output so we’ve got two USBC
3:26ports 100 WS we’ve got got a USB a port two usba a ports 18 wats and a usba a 12
3:36wat so we’ve got a total of of four usba two 12 wat 2 18 wat and two 100 wat USBC
3:44we also have a 12 amp or 12vt 10 amp dc
3:51output but here’s here is the uh the bread and butter
3:56here 20 amp AC Outlets four of
4:02them of your conventional outlets and a 20
4:08amp output it says recreational use
4:14only it’s a 30 amp plug but it’s a 20 amp output that’s total 20 amps not 20
4:20amps per output So in theory I could plug my car
4:26into this and charge it on 12 volts doesn’t have a 240 volt output it’s just
4:33120 the output power on this is 2500 watts so guess what we’re going to load
4:39up on this thing when it’s charged I’m going to put a couple heaters on there and we’re going to drive this thing up and see how much power I can get out of
4:46this thing once it’s fully charged and then once I fully discharge it then
4:51we’re going to open this unit up and take a look at the inside but I got to do that when it’s fully discharged I’m
4:56not going to open up something with this many batteries in it that uh could potentially be a problem if there was a
5:03short circuit that’s not going to happen but I’m just saying it’s a little safer to take them apart when they are
5:09completely discharged what I want to know on this is does it operate like a
5:15UPS so looks like the AC Outlets are on right now let me just plug in oh I don’t
5:21know let me grab a heater we’ll plug a heater and while it’s running I just see what happens when I plug in this space
5:28heater the should draw a few amps I would think will it
5:35run so it’s drawing 1,000 Watts right
5:41now that’s what this heater draws I’m charging at
5:464115 and I’m discharging at uh 1100 WTS right now according to the manual I’m
5:53just in standard charging mode because it can support 1,000 WTS of charging but
5:59I have to use the app to change that so I’m going to have to hook up the app in
6:05order to do that but it’s supports they call actually no this is in mute mode
6:12500 watts it can fast mode can reach 1500 watts which is the maximum input uh
6:19charging of standard mode was 1,000 watts and mute mode is 500 watts this a self self adjusting to reach mute mode
6:26all right reading the instructions it tells me to use the up function have to turn on the AC outlet
6:34first so let’s turn on the AC outlet and then connect the AC
6:47power that turns the unit on into UPS mode and it says do not exceed 1500
6:53watts again I I have not put this into uh turbo mode it’s just in the normal
7:00quiet mode here I’ll just turn on my heat gun
7:08drawing what 600 something 700
7:14Watts okay now when I unplug the AC power that should continue to
7:22run AC power unplugging
7:28now okay it works that’s how it’s supposed to work I
7:35said I didn’t turn on the AC first before plugging it in AC power
7:42restored and the UPS light will come back on there you go there’s the UPS
7:48light unplug the power again nothing
7:54changed we’ll go back to full power and I’m going to turn on another load
8:14drawing 1,600 wats now I’m over the maximum input so it’s back on battery
8:19but if I shut off this other one it should switch into UPS mode again
8:27right now we’re in UPS mode it is pluged into AC I’m running at 118 volts I’m going to disconnect the
8:37power and the power dropped to 110 volts which is coming off the
8:45inverter back to AC power going back up to 118 volts which is probably what I’m
8:51getting on the outlet right now that’s more than likely what my voltage is if I were to measure it I probably see the
8:57same voltage right now today uh I’m going to charge this up now shut the heater off we’re going to
9:04let the battery fully charge and then we’re going to put this thing through its Paces we’ll time it we’ll look at the waveform and so forth off of the AC
9:12output and uh we’ll put it through its paces and time it and see how long it’s going to go for with a full charge and
9:19then I’ll do the tear down I am going to install the owl Powers app on my phone because I do want to turn this into
9:24turbo mode so I can charge it at full power and uh to do that I need to install the app so hopefully I won’t
9:31have to register anything but they probably will make me register an email account so I click plus and I should see
9:38turn on the device it’s on here and uh Next Step so I should see allow access
9:46to the devic’s location only when using the app or deny I guess I have to allow
9:51when I’m using the app there I see it I see it showing up here I have not had to register anything other than connect my
9:58phone to the device itself and here we go
10:03so I’ve got my AC set on and I’ve got my output power set let
10:10me see what we can figure out on this app how’s this work I can turn my outlets on and off here it can select 50
10:16or 60 htz output uh if I tap on here what does that do oh please choose your
10:21login had to log in with my throwaway account all right so I’m logged in if I
10:27click on here will this let me uh mute mode let’s turn mute mode off
10:35let’s put it in fast [Music] mode and
10:41uh that should crank up the charging power which it has we are now charging at 1225 1300
10:49watt so this is going to go to full power so you need to use the app and if you want to turn this thing into the the
10:55the fastest charging possible which uh we want to and you can Al have eco mode
11:01shut down so in other words if you’re not using it you can have it shut down in 1 hour 2 Hour 4 hour or 6 hour
11:10if you turn on eco mode that’s that we won’t turn that on so fast mode is 1444 Watts right now if
11:18I put it in standard mode this should drop down to about
11:271,000 there here we go so obviously we want to charge this
11:35thing as quickly as possible so I’ll put it into fast mode and hopefully it’ll stay there I won’t have to use the appan
11:41once it’s set you can also connect it to your Wi-Fi network I just did it with Bluetooth but you could connect it with
11:47Wi-Fi as well and control it over your Wi-Fi network so you could control this if you weren’t at home here it is right
11:53here it’s a 2 Kow battery 2,160 W hours
11:59so it’s a 2 kilowatt battery that’s in here so what that means is you’ll be
12:06able to draw 2,000 Watts for 1 hour 1,000 Watts for 2 hours 500 watts for 4
12:12hours Etc that gives you your your relative runtime or in other words if I plug my
12:17car into it it would give me about what 6 miles of range something
12:23like that if I were to if I were to plug my electric car into this and completely deplete this B battery and put it into
12:29the battery of my car I’d get about 6 mil uh 1525 wat so it’s it’s cruising
12:35along here pretty good one thing I wanted to confirm was I shut it off I completely shut it down I unplugged it
12:41and I plugged it back in I want to see whether it’s going to go back into that fast charge mode or whether I have to
12:46select it with the app it looks like it’s
12:52a charging at 500 WS is it going to kick up or do I have to load the the app
12:59every time to kick it into turbocharging all right okay it is in
13:05mute mode so it does it does switch back if you unplug
13:13it now I kicked it back up to fast mode so if you want to take advantage of the
13:18fast charging you need to use the app if the fast charging is not important then you can do it without the app and again
13:26it’ll work with Wi-Fi or Bluetooth so if you’re using this for camping for example or in your
13:32trailer and you don’t have a Wi-Fi network you can connect your phone by bluetooth it doesn’t have to be
13:37connected to the network other than to initially sign in a funny thing happened
13:44when I was out having lunch this completely charged so it only
13:49took only maybe took an hour and a half to fully charge and I wasn’t gone that long went out and grabbed my lunch and
13:56it’s fully charged so so I can unplug this now we’re going to load it up and we’re going to see how long it runs and
14:06then maybe we’ll be able to get the solar panel going so while I test this
14:12I’m going to hook up my scope so we can take a look at the the uh the waveform
14:17off of it got a great uh nice clean waveform we’re going to start adding power to this so first thing I’m going
14:22to do is I’m going to turn on the first electric
14:27heater so this is drawing 1100
14:34WTS the waveform is perfectly
14:40clear next I’m going to add the heat gun that’s going to add another 700 or
14:47so Watts on low power now we are
14:55drawing 1,600 WTS can I kick this to high or will it trip 2200 WTS now okay I’m drawing 2200
15:04WTS that’s maximum power way form which clean I’m starting the stopwatch
15:12up so we can see how long this is going to run for according to this it’s going to run for 46 minutes so while I let
15:21this run it’s not plugged into power as you can see the AC is disconnected we’re going to uh
15:29monitor this unit and watch the power consumption 60 HZ 46 minutes but it’s
15:37telling me it’s going to run we’ll see if it does we’re at 98% we’re going to run this at 2200 WTS which is fairly
15:45close to us 2500 watt maximum which is for the sustain it’s got 4,000 watts of
15:51surge power and 2500 WS continual power we’re going to run it at 2200 or just
15:57under 2200 because that what these uh little two heaters that I’ve got
16:02going are drying one of them is this heater here that heater is
16:08running and as is this one here and this one went off just because I just uh I
16:15just picked it up so I tripped the uh the anti tip so we’ll just get it back going there
16:27again okay while this is doing its thing
16:33heating my garage with battery power essentially I’m going to get the solar panel unpacked so we can try that out
16:41because the sun’s actually come out today so this is the all powers AP SP
16:48037 solar panel this is folded up we’re going to unfold the panel I’m going to
16:55set it up well I’ve still got a bit of sun and see if kind of power we can draw off this to charge up the uh battery
17:02system that I’m currently discharging while I’m setting this up so this has got like five panels that fold out so
17:08let me just get this folded out there’s the panels fully deployed
17:13each panel is approximately 18 in I’ve got a a ruler down there so we got five
17:20of them 19 in across we got five of them so
17:25that gives you a total of about just about 9 ft of Real Estate state is what you’re going to need to lay out your
17:32panels let’s check the charging voltage charging voltage is well 45 volts 44.2 volts we’ll find out when I bring the
17:39unit outside and plug it in even though it’s still discharging right now I think I might interrupt the discharge cycle
17:46just so I can bring it out and show you guys the charging voltage while I’ve got some sun and charging current while I’ve
17:51got some sun okay now we’re charging from solar oh I’m blocking it a bit I
17:56got a bit of shade hitting it move the I’m going move this over a bit because I am shading the panel a little bit okay
18:02so I’m getting about 189 Watts right now again my panels aren’t
18:08really there a bit of overcast it’s not a clear day there is some High Cloud but uh it’s about as good as I can
18:15expect for November the 1st just going to adjust this panel here that’s just a little bit off
18:20angle so 190 watts is what I’m getting out of these
18:25panels there’s High Cloud today so this is not optimal
18:32charging but it’s better than a cloudy day the sun is
18:38out but there is High Cloud up in the sky so we are looking at
18:44a bit of filtered sunshine and we’re still getting 195
18:50Watts that’s working pretty good Sun’s actually getting a little bit
18:56stronger so we might see that that yeah see now we’re at 200 WTS let’s just watch this while the uh the Sun comes
19:04outz clouds are parting a bit so we’ll see what type of power this panel will put out and then we’ll go back in and
19:12finish draining the battery for the uh the discharge test I know that this is going to skew my numbers a little bit as
19:19far as the run time by a minute or two because I’m putting a bit of energy back in so we’ll have to take that into
19:25consideration but I felt that it was important that was able to do the solar panel test at the same time as the uh
19:34the the tear down and discharge test just because the weather has to cooperate and again being November here
19:41in Canada Vancouver area the weather right now this is when we hit the rain
19:48the rainy season so just just so happened that this arrived today tomorrow they’re
19:55calling for a downpour and I can already see the clouds the high clouds but doing okay right now
20:03considering the circumstances now also keep in mind that if you had the AC
20:09Outlets turned on you could be drawing up to around 200 Watts if you were
20:15getting 200 WTS from the solar panel and your battery was charged you could be using 200 WTS to power AC appliances
20:24such as your laptop or your TV or whatever else you might need to operate
20:30during a power failure or when you’re you’re camping so if you’ve got the solar panels deployed without tapping into the
20:38battery you can still operate equipment while it’s charging or while it’s running looks like we’re at 221 220
20:46Watts now the sun is uh as should say starting to shine a little brighter we’re now up to 200 well it was
20:54227 but 225 watts is what we’re able to get today and I’m having to adjust the
21:00panels just because as the sun moves I’m having Shadows creep over like for example if I put my hand in front we’ll
21:08see the power will probably drop down a bit there we go I just put my hand in
21:14front dropped 189 Watts I’ll show you what I just did just to give you an idea
21:19of how sensitive I just went like that and the power dropped to 189
21:27Watts and then if I remove my hand it’ll go back
21:32up there we go that gives you an idea that the solar panels have to be in
21:39direct sun with no obstructions even over a portion of the panel they have to
21:44be in full sun and if you’ve got full exposure
21:50solar panels can generate a lot of free Power I think we’ve done what I can on the solar panels I’ll show you guys the
21:57back side of them so the solar panels just unfold and I’ve just set them up like
22:03that see I’m starting to get a bit of a shadow right there but it doesn’t take much to really reduce the power
22:11output but they just unfold they have little stands built on these are waterproof so they can be out left outside all the
22:19time you could install this on your house lay it flat on the roof and anchor
22:26it down there are anchors right here on all the
22:31panels that you could use to Anchor it down so as a backup power solution you
22:39could put this on your roof leave it there and run the DC cable into the house and into the power station so it’s
22:46always fully charged and ready to go in the event of a power failure strip down if the panels is pretty quick because
22:52they fold up you always start on the right side you know which is the right side well first of all if you put them
22:58upside down the supporting legs will be opening the wrong way but you always
23:05start with the side the power cord comes out of this is the left and it’s also
23:11got the largest gap here to strip the panel down you just simply fold it
23:18up just like
23:25this and then fold this one in and then there’s buckles that go around the back it’s uh
23:3337.4 volts underload I measured what 45 under no load and it’s 400 watts but
23:40when I measured it I was only getting 227 but remember this is what I’m this is what I’m working with
23:45today as you can see I don’t have a clear sky so if this was a a full sun
23:51clear day we would expect to see the output much closer to 400 WTS but I’m on
23:56an overcast date today in November
24:02so the power output that I got is would be would be expected clear up here the
24:09problem is the sun’s not up there the sun’s down here so that’s uh that’s why my output was a little lower than it
24:16would be capable of and as we saw from the test that I did I measured
24:2244.8 volts or something so 45.3 is your open circuit voltage um 400 WS maximum
24:29power under 400 W load uh 37.4 volts is
24:34the output a short circuit current is 11.45
24:39amps the maximum power in what they call the VMP maximum power voltage 37.4 volts
24:47maximum power current is 10 amps so it will then uh produce 10.6 amps at 37.4
24:54volts which is a fairly substantial amount of power for for a solar panel of this size and it even tells you how to
25:01use it it says how to use place a solar panel under strong sunlight well we
25:07didn’t do that today we put it under filtered sunlight and it says angle the panels
25:13towards the Sun and don’t use it when it’s cloudy
25:18because you’re not going to get any significant power out of it when it’s cloudy okay I did have the power unit
25:25outside while I was uh doing the solar charging demo which is part of this
25:32video so I gained a percent or so which might affect my run time by
25:38seconds maybe a minute so shouldn’t affect it we’ve been running now for eight about 19 minutes according to this
25:46is 27 minutes remaining which is what it said was remaining when I took it out okay I’ve been running now for 27
25:52minutes according to this there’s about 19 minutes to go we’ll see whether we get the rated output so I thought you
26:00guys might be interested in looking at some of the uh the specs on here as you can see the waveform is is clear very
26:06clear 60.4 Hertz is the frequency and we
26:12have an RMF RMS of
26:22[Music] is a switching power
26:29supply that is uh produces a a high voltage DC and then it they converted
26:34into an AC using a sine wave converter and you’re seeing a little bit of the noise from the uh switch here I’m sure
26:42it’s holding steady at 11.7 Vol at 60.4 Hertz here we go watch this the camera
26:49should follow him yep and oh it missed them dropping
26:56it 3 minutes remaining 7% been going for 42 minutes and a half
27:02now [Music]
27:104230 okay you guys just saw it stop there at it got 42 minutes and 59 43
27:16minutes so so so maybe 42 minutes is uh what it did when it shut
27:22down I was just looking for the footage from the oh here he is here’s the FedEx guy can we see him better on this camera
27:29you can tell he doesn’t look like he’s too happy cuz it’s heavy and he just kind of thump dumps it on the corner
27:35crushes the corner in gets out his phone takes his picture and then he’s
27:41gone and it does shut down with 5% remaining I’m imagining that the DC
27:47outputs probably can still be used yes the DC outputs can still be used at
27:53that level so AC shuts down with 5% remaining there’s still a little bit of
27:59juice left that can power your uh phone and something to charge it up but um
28:04we’re going to shut this down now and proceed to take it apart I don’t
28:10exactly know how this comes apart but I have a feeling that uh these are covers
28:16for some screws so we’ll just pop these
28:23out and just start removing screws until the thing falls apart appears to
28:29be standard Phillip screws inside here I just figured I
28:35would show you the the specs on the back here which I didn’t show before I looked in the instruction manual so 2 Kow
28:42basically they’re 48 volt batteries 42 amp hour input of 100 to 120 volts at 15
28:49amps maximum which we were drawing that at 1500 wats solar can be between 12 and 150 volts 20 amps so you can charge at
28:57up to 1,000 Watts maximum so you could put a couple of those solar panels together uh car charger 12 to 24 volt DC
29:06I didn’t show you guys that there’s no point take forever to charge and there’s the operating
29:13temperature so 0 to 40° for charge and – 10 to 40° C or 14 to 104 Fahrenheit 32
29:21to 104 Fahrenheit for people in the excited states that are still on that archaic measuring system
29:28that the rest of the world abandoned in like the 70s more screws here on the side we’ll use the screw gun for that
29:36one okay with the screws out the top will lift off
29:42ah more screws see there was screws that went in through here as well and the screws on the front so that takes the
29:49top off there’s more screws here that need to come out next I think these panels come off
30:10oh there’s more screws in the side here yeah okay so these side panels got to
30:16come off and then there’s more screws in both of the
30:24sides there we go we got more screws here I’m I’m sure they’re on both sides of
30:32it it’s coming apart the front is coming off of it
30:37slowly it is at least on one side it is oh he’s that one last elusive screw that
30:43messes everything up for everyone right
30:48okay that term has more meaning to it than any other
30:56okay what it as Things fall down off the shelf what we’ve got here is we’ve got a
31:02completely shielded inverter there’s four fans to on each
31:07side I got to get the back cover off as I want to open this one up and look inside here as well so I got to get the
31:13back cover separated as well as the front first things first I’m going to unplug the DC and the AC power
31:21connectors and unplug the control cable
31:26and remove the ground wire this way I can remove this front control panel and
31:33get that out of the way I’ll show you guys this while it’s here yeah great big heavy lugs here
31:40Earth connection line and neutral and then the big
31:46plug here so that’s the AC output it’s fed
31:51from this Con this this uh connector here the DC is fed over to this one and
31:56they are are well I guess they are the same connector so you could actually plug them in the wrong but this is the
32:02DC cable and the AC cable is this one here it’s the shorter one is the AC
32:11cable back just pops off okay here we go this one’s 110 volt version now let’s
32:19uh ZIP open this inverter case and take a look at all the goodies
32:26inside now I got to remember this thing still got DC power to it so I got to be careful that I don’t drop any metal
32:33screws the battery pack down here we we’ll be able to see the battery pack
32:38but I’m not I don’t think I’m going to open the battery pack up just for [Music]
32:44safety and the top cover lifts off like that okay now we’ve got
32:52[Music] more
32:57more shielding more Electronics there’s a a a dam here this is going to be the battery
33:05connection I’m sure maybe it is disconnected there’s nothing on there it
33:12might shut everything down there might be a contactor on here this is the one of the this is the inverter board I
33:17guess this is the inverter this is the output and output wire goes here and
33:25that is this one here I think no this is the output wire that’s the DC
33:32output this might be a DC board or a charge board this might be a charge board
33:39actually because the the AC output is this wire here and it’s coming from
33:45where is it coming from it’s this one here and it’s coming from this board down here so this is the inverter board
33:51under here this is going to be a charge board more than likely I’m thinking that one’s probably the solar charge
34:01controller yeah this would be a charge board or maybe even the DC board for the uh 12vt output that might be what that’s
34:07for this is the inverter board down here I can see where the AC line comes the
34:12red wire red and black go down to the board there these will be from the battery for sure these big lugs that’s
34:20an input from the battery as would these be this is going to be the DC output and positive let’s
34:27see where this goes this output or this could be the
34:33charge module this might be the charge just seeing where it goes it looks like it goes down to the battery terminals actually so that’s probably the
34:42charge warning you see this this label will turn red when get wet no warranty
34:49if product gets water in it
34:55so best ATT take that label and put some tape over it so that it can’t get wet and then if you get it wet you can open
35:01it up take the tape off it it’ll still be white but I didn’t tell you that we need to see more so I’m going to
35:08zip out a few more screws and see if I can swing this DC board or whatever this
35:13board is I think it’s a DC board or a charge board or whatever it is but we’re going to zip this out of the way I think
35:20it’ll flip up all
35:25right let just get this out of the way I’m just going to put something in here so that it doesn’t
35:32touch to support that here is the board
35:37where all the magic happens this is the inverter
35:43module beauty huh that is a work of art it’s got a
35:49nice big plastic barrier on here that serves two functions one is to direct
35:54the air flow from the fans there’s f fans front and back on your picture
35:59bottom and top left and right but there’s fans here that draw air in blow the air over the heat sinks and then
36:06there’s more fans on the other side that draw the air out I don’t know which way they go but it’s either this way or that
36:12way but there’s fans across here that draw out the excess heat a bunch of
36:18relays on here that’s we heard clicking when it was changing modes but this is the inverter board and uh it looks like
36:24a work of art now I don’t read ch but I do read numbers 2500 watts 110
36:30volts well that’s what we were getting we were getting 110 volts not 120 um it says the out I guess this is
36:38the output is between 90 and 110 volts ac this would be the input 40 to 54
36:43volts DC I’m guessing maybe somebody can uh can
36:49translate that for me I don’t know what this says it says 1500 watts but it also says 2500 now we were drawing 20 what
36:56was it to 2300 uh date of production 2023 uh what’s that June
37:0220th in Q2 is when this board was produced or at least when the sticker
37:08was printed so that is the inverter board and it looks to be really well
37:14built I can see looks like a conformal coating on there they’ve got components
37:19glued down on here such as the fuse there’s a fuse here you can see it under
37:24here they’ve got components glued
37:30down big capacitors and relays and even the main filter caps over here uh these
37:35ones here are pro this is probably the DC todc side of things I’m not 100% sure but I’m going to guess that this is the
37:43side where the DC is stepped up from the 40 volts or 48 volts or whatever the
37:49battery is 42 volts whatever the battery is um this is where it is stepped up to
37:56about 3 300 300 and well about 360 volts I believe is what they would be running
38:02at and then the inverter side is over here this is where the sine wave portion
38:08would be generated from the high DC voltage that comes off of the inverter
38:14itself or maybe I’ve got it backwards maybe this is the AC side and this is
38:19the DC to DC side I’m not sure there’s a couple Transformers in here and there’s
38:25a big choke coil over here so this might be the AC side uh the ac voltage comes off the board right down here you can
38:32see there it’s where the AC comes off the board there’s relays in here that
38:37would switch it between pass through when it’s in UPS mode and operating from the uh inverter and I guess this would
38:45be more along the lines of a um probably
38:50standby Supply bunch of transistors or or mosfets on here on this side I think
38:56there’s probably some more on the other side of this uh maybe not there’s bunch of mosfets on here there’s there big
39:02four big mosfets on this one a couple mosfets over here or maybe these are
39:09dodes probably diodes one of these are going to be diodes to to to uh rectify
39:15the DC coming off of the uh switching inverter anyway it looks to be really
39:21well built the wiring here appears to be silicon insulation on here I can it’s
39:26seems like feels like Silicon insulation that one says
39:33AC this is probably the DC battery right here yeah that’s the DC battery so
39:38there’s got to be a switch down here that shuts it off cuz these are the DC cables and when I measured across
39:46here I had no voltage removed all the screws that hold the cover on the
39:52battery let’s see if we can lift this up and just see whether you can see the battery I don’t I don’t know if I can see it or not uh it’s in a
39:59box it’s all shielded so can’t really see it that easily one
40:07of the reasons I don’t want to start disconnecting plugs is there may be a fail safe in here that shuts it down and it’ll never turn back on if things are
40:12if too many things are disconnected but here’s the battery pack itself if we can open this up maybe if I I open up this
40:20tape you can see but the individual cells here all have uh battery management you can see the wiring here
40:27these are connectors down here that feed down into the battery itself that obviously turn off a contactor to shut
40:32off the power when the unit is turned off which is good so there’s no phantom
40:38power being drawn on the cells when it shut off
40:43completely but uh again they’ve got this all tape shut
40:51if I just cut this tape whether we can can see in here
40:57all right here I I pulled off one of the shield covers so you guys can see the battery so we’ve got a series of cells
41:02in here they are uh wtt that’s the brand of them whatever
41:07that means they are 32700 so 32700 cells
41:136,000 milliamp 3.2 volts is what it says on the side of the cell here I can’t see
41:20anything else date of production March 27th 2023 is when these cells were produced
41:27there are two rows of cells 1 2 3 4 5 6 seven cells this way 1 2 3 4 5 6 seven
41:36cells on the top and we’ll count how many cells there are across okay we look down the front there are eight rows on
41:44this one by seven across and there are seven on this one by seven
41:49across by my crude math that’s uh 105 cells what do we got we got we got 49
41:56cells on one and 56 cells on the other 105 cells and the warranty now is for sure
42:02void on this because I just ripped the battery pack open but uh that way you guys get to see what’s in here here’s
42:09all the battery management for monitoring the battery and the battery management circuit board there’s another
42:15circuit board up top here if I can get the camera in maybe I can tilt it up to show you guys the battery management
42:21circuit because I’m not going to take this apart anymore than it is but there is a BMS circuit
42:26and it’s right up top there see if I can get a shot of it if by just P this forward a bit because this is the extent
42:33that this is coming apart there’s battery management C circuit in there it’s just and the reason I’m not taking
42:40it apart anymore this when you deal with lithium batteries these things are hazardous you know they they are
42:45hazardous and you know I mean all you got to do is look at the the when when a car catches fire electric car catches
42:51fire because the battery is compromised um so there’s just no putting them out
42:57if they I mean these ones uh lithium iron phosphate are much safer than lithium ion but still you cause a short
43:04circuit on one of these batteries and uh you’re going to have some you’re going
43:10to have problems let’s just say it’s not going to just get it’s not just going to go away if you cause a short on
43:17something like this it’s likely to cause a major fire so that is why I’m not
43:23going to tear this down any further than it is I’m going to start the reassembly process now and then put it on charge so
43:29that I have a yet another battery backup unit for when the lights go out which I
43:38probably will never use I’ve got a few of them sitting here now and uh I’ve only I only use a couple of them I use
43:44one as a UPS and it works great but again quality wise looks to be
43:52very high quality and for what this thing likely costs I don’t know what the cost on it
43:59is I didn’t ask but for what this thing likely costs
44:04um it’s good to see that they are built the way they are and they’re certainly keeping that
44:11in mind with the build quality we’re not talking some cheap thing that’s got
44:16that’s ready to fall apart we’re talking a unit that really looks to be well put
44:22together one place you can see the quality of construction is the actual subframe these are solid chunks of
44:28aluminum in here and it’s quite heavy and that’s to protect the battery the battery
44:34itself has got a metal cage around it that’s to protect the battery so that the unit inadvertently gets dropped
44:42because we all know that that happens out in the field so it’s got these great big bumpers on the side here to protect
44:48the battery from Impact and the battery itself is m is mounted in its own plastic cage inside so it’s got a shock
44:55absor absorber around it to prevent damage in the event that the unit gets dropped because out in the field that’s
45:01exactly what’s going to happen this is a heavy unit someone loses their footing Mis
45:08steps the first thing they’re going to do is they’re going to drop it might not do it any good but um at least you don’t
45:16have to worry about the battery itself taking the brunt of it which is what would
45:22happen on an all plastic design now I know I’ve just set off the grammar police because someone’s going to fire
45:29off a comment and say they’re not batteries they’re cells the combination of all the cells themselves make up the
45:36battery and yes technically that’s correct if it’s a single cell it’s the
45:42battery but if you’ve got multiple cells in this case 105 cells that are put together to make a battery pack so
45:50technically someone the grammar police will will come out and correct me on
45:55that I get a laugh out of it because you
46:01should see what I’m saying to them behind their back when they can’t hear me and I’m not responding to them it’s a
46:07raised middle finger is what it is top
46:18cover put a bunch of screws in for this start to get this thing
46:24resembling what it looked like before I started on this
46:34project got to reconnect the the DC and the AC cables and the control cable to
46:40get the unit back
46:53together DC cable plugs in there the AC cable plugs in here they’re
47:00different length so they don’t one won’t reach to the other so you can’t uh plug them into the wrong
47:06place AC cable plugs in just like that and then there’s the
47:12control cable that also plugs into the front here and it’s keyed so it only goes in one
47:24way we’ll make sure the unit still Powers up
47:30now that it’s reconnected yep excellent
47:37okay now time to put all the screws back in all right there it is back
47:44together plug it in for charge it’s going to charge at uh 3117
47:51Watts that’s going to go to probably 500 and then I got to if I want to kick it
47:56in to the high power mode I got to go into the app load up the all powers
48:04app it’ll connect by bluetooth click on bluetooth Next Step there it
48:12is connecting and then I just go up here and I click
48:18on fast mode and that tells this to go into fast then I can close down the app
48:24and this will kick into high power charge and it will show me how many hours it should only be a couple of
48:30hours I would think well it’s been charging now for 8 minutes we’re at 15%
48:35Now One Last Thing Before I sign off on this one as we’re charging it here you
48:41can string up to six systems together so each is 2 Kow
48:46so 12 12 Kow of power if you have extra batteries or another unit you can plug
48:54them together with a a special cable Ure it says they the in this connection
49:00State the maximum rate of power does not change only the battery capacity is superimposed or
49:09added I’ve got it plugged into my kilowatt meter according to the display it’s
49:16charging at 1431 Watts but according to my kilowatt little meter over here it’s drawing 1237
49:241245 so we’ve been going 50 an hour and 57 minutes so coming up on 2 hours and uh
49:32you can see that the power consumption has dropped we’re at 95% so I would imagine that in the next
49:39few minutes this will hit 100% okay just finished up 2 hours and
49:4612 minutes to 100% now we know from zero or actually
49:535% that’s where it shots off but a full charge so 2 hours and 10 minutes call
49:59it and we’re good anyway thanks for watching I know this video has gone on
50:04far too long but this was quite the unit that we really needed to tear down and give it a good workout thanks for
50:11watching we’ll catch you in the next one bye