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Jackery Explorer 2000 Pro review: Lots of emergency power, but is it truly…

Jackery Explorer 2000 Pro review: Lots of emergency power, but is it truly…

    Solar Refrigerator vs. Solar Generator for Refrigerator

    Have you ever thought about which is one of the largest electrical appliances in your home? And which appliance do you need to power first during a power outage? It’s your home refrigerator where you store all your delicious food.

    On average, a home refrigerator consumes 300-800 watts of electricity, depending on the size and type of model. The best way to reduce electricity is by switching to solar energy and using sunlight to power appliances.

    You’ve two options when switching to solar: solar refrigerator or a solar generator for the refrigerator. The former option may or may not be designed to keep all your beverages and food safe, but the latter definitely can.

    Jackery solar generators come in different sizes and are suitable for all small and large refrigerators. Thanks to their portable nature, you can still enjoy healthy food even when away from home.

    Solar Refrigerator Vs. Solar Generator For Refrigerator

    Solar energy is widely available and is one of the best ways to reduce electricity usage. The two best options for using solar energy are either choosing a solar refrigerator or a solar generator for the fridge. In this section, we’ll discuss the pros and cons of solar refrigerators and power backup solutions and which one you should choose.

    Solar-Powered Refrigerator

    A solar-powered refrigerator runs directly on the sun’s energy and includes photovoltaic panels. The PV panels work by converting sunlight into DC electrical power. The energy available is used to cool the refrigerator and keep the inner food safe and healthy.

    People wanting to enjoy off-grid living, camping, or outdoor activities in areas with high sunlight can choose solar-powered refrigerators. However, it is suitable only for areas with long hours of direct sunlight.

    In addition, power production is not uniform and depends on how much sunlight it receives during the day. Therefore, you need another power backup solution ready to charge the freezer during the night.

    • Solar-powered refrigerators use reliable and purest forms of energy; hence they can help you cut electricity bills.
    • It is energy efficient, and you’ll need a 250-watt panel and a couple of deep-cycle batteries to power it.
    • As there is no need for fuel or gas, you don’t have to spend money on its maintenance.
    • Power production is not uniform, as solar radiation is unavailable throughout the day.
    • It is not suitable for areas where the average solar radiation flux is low.
    • You’ll have to install a large collector to produce high solar energy with solar refrigerators.

    Solar Generator For Refrigerator

    Solar generator for refrigerators is a renewable and eco-friendly source of energy. That means you can power your appliances using solar energy even if no electricity is available. It converts sun rays into electricity and stores it in lithium-ion batteries for later use.

    As solar generators are portable, they can be used for various appliances at home or outdoors. You can charge different electrical appliances and charge the solar generator simultaneously. This helps you to enjoy camping, outdoor activities, or off-grid living even when you are not connected to the electrical grid.

    • It is a solar power system. It converts solar energy to power and stores it in a lithium-ion battery of a portable power station. Hence, you can power up your refrigerator even at night.
    • A 1000-watt solar refrigerator generator can power almost 90% of electrical appliances, one to rule them all.
    • Pass-through charging converts solar to electricity and helps you power all appliances and charge the battery simultaneously.
    • As it uses solar energy, no fumes or harmful gases are emitted. Hence, it is safe to use indoors.
    • There are no maintenance costs associated with solar power generators. All you need to do is clean the solar panel with one clean cloth to improve efficiency.
    • Some large-capacity solar generators can be an expensive option compared to solar refrigerators.

    How Many Watts Does A Refrigerator Use?

    As there are different variants of refrigerators available on the market, the wattage required to run a fridge varies considerably. For example, a small refrigerator, mini solar cooler, or compact freezer uses fewer watts, whereas a large refrigerator needs more power.

    Read on to find out how much solar energy you need to run a refrigerator, the starting and running watts, and the different refrigerator types available on the market.

    What Is Watt?

    Watt (or W) is a unit of power used to quantify the energy transfer rate for a moment at a time. On the other hand, watt-hour (Wh) measures energy for a specific period. For instance, energy spent in one hour is termed a watt-hour.

    For instance, if a solar generator has a capacity of 200 watts, the watt-hour will be around 240 Wh. Meanwhile, a larger solar power generator of 1000 watts Pro will have a watt-hour of 1002 Wh.

    How Many Starting Running Watts Refrigerator Use?

    Large appliances like freezers and refrigerators have electric motors present in them. That’s why they need more starting watts than running watts. Starting watt is the amount of energy required to start an appliance; meanwhile, the running watt is the power any device needs to run for hours.

    The actual power requirement of a fridge will significantly depend on energy class, size, temperature difference, etc. Older larger units generally require 700-1000 running watts, while the starting watts are high (up to 2000-3000 watts). Meanwhile, newer units consume less energy and power.

    Generally, starting watts are always four times greater than running watts. Here is the simple formula to calculate starting watts.

    Starting watts = 4 Running watts

    Let us assume that a refrigerator consumes 300 running watts. Here is how you can calculate the starting watts:

    Starting watts = 4 300W = 1200W.

    Here, 1200 watts are the minimum power you need to charge your solar refrigerator for hours. That said, you’ll need to purchase a specific solar power generator that can provide more than 1200W power.

    Pro Tip: Before buying the best solar-powered generator for a refrigerator, it’s vital to check the battery capacity, brand, and manufacturer. There are different solar power generators available in the market. Also, check the power station’s features and ensure they have a robust protection system to keep the large appliance like refrigerator safe.

    How Much Solar Power Do I Need To Run A Refrigerator?

    One of the common questions homeowners ask while buying solar generators is: how much solar power do I need to run a refrigerator. The short answer lies in the type of refrigerator you have.

    For instance, if you have a large refrigerator that consumes around 800W, you’ll have to purchase a solar generator with a high capacity. A solar power generator that can provide 800Wh (watt-hour) or more would be suitable for powering large refrigerators.

    Meanwhile, if you want to charge a mini cooler for camping or other outdoor activities, consider purchasing a solar generator with a capacity of 1000 watts. With a 1000 W solar generator, you can power different appliances with clean and green energy.

    Here are a few different types of refrigerators with their starting and running watts.

    • Large home refrigerators require 200-400 running watts and 800-1600 starting watts. This refrigerator is usually present in homes and businesses.
    • Average home refrigerators require 100-250 running watts and 500-1000 starting watts.
    • Small home refrigerators require 75-150 running watts, whereas starting watts are 400-600. An average solar power generator can keep your small power generator charged for long hours.
    • Mini coolers or fridges require 50-100 running watts and 200-400 starting watts. The portable refrigerator and solar generator combo will help keep your food cool and healthy.
    • Compact home or RV refrigerators require only 40-50 running watts, with starting watts around 80-120. These refrigerators are portable and perfect for camping and outdoor activities.

    Another question that solar generator buyers ask is: how many solar panels to run a refrigerator or freezer? The answer to this depends on your requirements and the wattage your electrical appliance consumes per hour.

    On average, the refrigerator takes around one to four solar panels to run. However, it will directly depend on the panel’s solar generation capacity and the refrigerator’s size. You can choose the number of solar panels depending on the power generator size and the estimated daily energy consumption.

    Here is the breakdown of how many watts different refrigerator types consume.

    Refrigerator Types

    Estimated Watt

    Length of Time Powered each day

    Estimated daily energy consumption (Watt-hours)

    Single Door Large Refrigerator

    Double Door Large Refrigerator

    Single Door Small Refrigerator

    jackery, explorer, 2000, review, lots

    Double Door Small Refrigerator

    Solar Generator For Refrigerator

    Jackery power solar generators are a great way to use clean solar energy to power your appliances. For example, you can power a large refrigerator during a power outage, off-grid living, or carry the generator during camping to charge a mini cooler.

    Several types of solar power generators are available at Jackery, depending on your power requirements and the number of appliances. For example, you can purchase a Jackery solar generator 2000 pro to charge a large refrigerator, whereas the Jackery solar generator 1500 or 1000 can power small appliances, freezers, and more.

    Here are what the users of Jackery solar generator say about the product:

    This is awesome! Bought it as a backup generator with 2 solar panels. When plugged into the power outlet, it charges really fast and even runs while being charged. This is a powerful beast. It can run my big fridge for days. I have several Jackerys from 240 to 1500, and it gives me peace of mind for outages in a hurricane area where we are living without loud engines running or having to install anything on my roof. A little heavy, but where we store it that is not a problem. I recommend getting an extension cord with it. That allows some distance between the solar panels and the generator. Jackery is great. The customer service is incredible. They always have solutions. As I said. I have several of them. Never regretted the purchase-Shannon

    In south Florida, we deal with a lot of power outages. And my work requires me to be out working when these occur. Though I have good generators, my wife is unable to operate them. This unit solves that issue. She runs a few cords and can restore enough power to abide till I can get the generators up. That’s worth every penny to me. Dax Skywalker

    To help you understand better the best solar generators for refrigerators, here is a detailed breakdown of the tech specs and features of different Jackery products.

    Output Ports

    Refrigerator Running Watts

    Supported Working Hours

    (When the Portable power station is fully charged)

    AC Output: 120V, 60Hz, 220W (4400W Peak)

    USB-A Output: Quick Charge 3.0, 18W Max

    USB-C Output: 100W Max, (5V, 9V, 12V, 15V, 20V up to 5A)

    Single Door Large Refrigerator. 100-200 Watt

    Double Door Large Refrigerator. 350-780 Watt

    Single Door Small Refrigerator. 75-150 Watt

    Double Door Small Refrigerator. 200-350 Watt

    Triple Door Refrigerator. 300-600 Watt

    Compact Refrigerator. 40-50 Watt

    Mini or Compact Refrigerator. 15 H or more.

    Single Door Large Refrigerator. 6 H or more

    Double Door Large Refrigerator. 4 H or more

    Single Door Small Refrigerator. 15 H or more

    Double Door Small Refrigerator. 3 H or more

    Triple Door Refrigerator. 5 H or more

    AC Output: 110V, 60Hz, 1800W (3600W Peak)

    Quick Charge 3.0, 18W Max, 5-6.5V, 3A / 6.5-9V, 3A / 9-12V, 1.5A

    USB-C Output: PD60W, (5V, 9V, 12V, 15V, 20V up to 3A)

    Single Door Large Refrigerator. 100-200 Watt

    Double Door Large Refrigerator. 350-780 Watt

    Single Door Small Refrigerator. 75-150 Watt

    Double Door Small Refrigerator. 200-350 Watt

    Triple Door Refrigerator. 300-600 Watt

    Compact Refrigerator. 40-50 Watt

    Mini or Compact Refrigerator. 13 H or more.

    Single Door Large Refrigerator. 4 H or more

    Double Door Large Refrigerator. 3 H or more

    Single Door Small Refrigerator. 10 H or more

    Double Door Small Refrigerator. 7 H or more

    Triple Door Refrigerator. 4 H or more

    AC Output: 120V, 60Hz, 1000W (2000W Peak)

    USB-A Output: Quick Charge 3.0, 18W Max

    Car Port: 120V, 60Hz, 15A Max

    Single Door Large Refrigerator. 100-200 Watt

    Single Door Small Refrigerator. 75-150 Watt

    Compact Refrigerator. 40-50 Watt

    Single Door Small Refrigerator. 2 H or more

    Single Door Large Refrigerator. 3 H or more

    Compact Refrigerator. 6 H or more

    AC Output: 110VAC, 60Hz, 500W (1000W Surge)

    Single Door Small Refrigerator. 75-150 Watt

    Compact Refrigerator. 40-50 Watt

    Single Door Small Refrigerator. 5 H or more

    Compact Refrigerator. 9 H or more

    One of the most vital features of Jackery solar power generators is pass-through charging. That being said, you can recharge and power appliances at the same time. With this, you’ll never run out of power in any condition if you have a Jackery power solar generator with you.

    What Size Of Solar Generator To Power Refrigerator?

    The size of the solar generator to power the refrigerator will depend on multiple factors, including the refrigerator’s age, features, size, temperature, amount of time it remains open, and more.

    Here is the simple mathematical formula to calculate the size of a solar generator for your refrigerator.

    Let us assume that you are using a solar generator 1000 pro that has a capacity of 1002 Wh.

    Working time = 1002Wh 0.85 / operating wattage of your device.

    For instance, suppose your refrigerator consumes 200 watts of power. (You can find the power consumption of the freezer in the user manual).

    Then you can calculate the working time by substituting the value in the formula.

    Working time = 1002Wh 0.85 / 200W = 4 hours.

    However, this does not mean you can power your appliance for only one hour. Due to the pass-through feature, you can even keep it plugged in for charging and power appliances simultaneously.

    Note: This is a rough calculation to determine the power consumption and working hours. If you’re unsure which Jackery model will suit your needs, feel free to consult Jackery experts.

    FAQs About Solar Generator For Refrigerator

    Can a 100-watt solar panel run a refrigerator?

    A single 100-watt solar panel can efficiently run several small devices, including phones, laptops, fans, lamps, etc. However, you’ll need to purchase a solar power station to pair with the panels and charge appliances like refrigerators, CPAP and so on.

    How many solar panels to run a refrigerator?

    The expected number of solar panels to run a refrigerator will depend on several factors, including:

    • The power rating of the solar panels
    • The capacity of the solar power generator
    • Amount of peak sunlight hours you receive
    • Energy consumption or wattage requirements of your refrigerator

    A 200-watt solar panel is an excellent choice as you can collect and store enough energy to keep your appliance running for hours.

    Remember, solar panels won’t work independently, and you must connect them to portable solar power generators. The right combination will help you power all your appliances, including the refrigerator, and prevent the items from degradation.

    How long will a solar generator power a refrigerator?

    There are different sizes and models of solar generators available on the market. Two best Jackery solar generators that can power your refrigerator for hours include Jackery solar power 1500 and 2000 Pro.

    • Jackery Solar Generator 1500 and 4 SolarSaga 100-watt panels can keep your large refrigerator running for nearly 3 hours. Meanwhile, you can keep your mini cooler (60W) charged for 21 hours.
    • Jackery Solar Generator 2000 Pro can power a 520W refrigerator for 3.3 hours, while it charges a mini cooler (90W) for 15 hours.

    If you intend to enjoy camping or other outdoor activities, purchase Jackery solar generator 1500 to power all your devices. Meanwhile, people who want a backup solution for power outages or off-grid living can choose Jackery solar generator 2000 Pro.

    Can you run a refrigerator on a solar generator?

    The short answer is yes. You can efficiently run a small or large-sized refrigerator on a solar generator. However, you should consider a few things while buying a solar generator model.

    • Calculate the wattage that your refrigerator consumes.
    • Consider the estimated number of hours you might need a solar generator to power your appliance.

    Pro Tip: Always purchase a power generator that renders more wattage than your refrigerator needs. You can find the wattage requirements of your fridge written on the user manual or on the sidewalls of the appliance.

    Conclusion

    If you’re planning to use clean and renewable energy for your home, a solar generator for the refrigerator is all you need. Besides the solar fridge, you can power other appliances, including a coffee maker, mini cooler, electric grills, and electric blanket, to name a few.

    Purchasing a solar power generator is all you need to go solar and cut connections from your electricity grid.

    Instead of purchasing a solar-powered refrigerator, you can buy a solar generator to charge your traditional freezer. Jackery Solar Generator 1000 Pro, Jackery Solar Generator 1500, and Jackery Solar Generator 2000 Pro are the three most popular solar generators to power all your home appliances at home or during camping.

    They are portable solutions that help you charge your appliances while away from home. If you want more exciting news about Jackery products, subscribe to our newsletter and get every information about deals and offers in your inbox.

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    Jackery Explorer 2000 Pro review: Lots of emergency power, but is it truly portable?

    Six 200W panels and 2200W of generating power put the Jackery Explorer 2000 Pro at the top of the heap for portable solar power systems, but how easy and quick is it to set up and disassemble?

    jackery, explorer, 2000, review, lots

    When Jackery approached me and asked if I would like to look at their new 6,200 six-panel, 2200W portable solar generator. I admit that I had some selfish motives in mind.

    Over the past few years, I planned to go off the grid and put solar panels on my roof, which would also act as backup power during a large-scale infrastructure failure, such as one that a major hurricane would cause.

    But the rising costs of a residential solar buildout due to supply chain issues during the pandemic and the uncertain future of Florida’s net metering situation (which was only recently resolved), plus the need for a total roof replacement caused me to cancel my plans to spend over 100,000 on a new solar roof, batteries, and electrical upgrades.

    6,200 is a lot less than 100,000, especially if I’m talking about a product that I would mainly be using during an emergency. The question is, how well does it work?

    Jackery 2000 Pro

    pros and cons

    • Lots of power for campers and emergency use
    • Plenty of power ports
    • Compact for storage
    • Multi-panel setup can be complicated
    • System isn’t waterproof
    • Six panel system weighs 150lbs

    The tech

    The Explorer 2000 Pro is eighth in the line of portable solar power generator products released by the company and is also its most powerful, with a total power generation capacity of 2200W (2.2 kWh). The kit sent to us as configured comprises six (6) 200W 18V solar panels, supplying 1200W peak power to the generator.

    The 43 lb generator itself, which resembles a UPS battery backup unit (and essentially is, with modifications), and features a large carrying handle, has 2160W of battery storage, three sinewave 120V AC ports, dual USB-PD 100W ports, and a single 12V carport. It has a color LED display that indicates the current level of charge for the generator/battery, the current wattage input from the panel array, and the current output.

    Each 18.3 lb SolarSaga 200W panel is about 7’7 long by 2′ high when unfolded from its ballistic fabric carrying case. It comprises four-panel segments, which fold into a square measuring 2′ x 2′ and 2 thick.

    Setting it up (and tearing it down)

    The use case scenario for all of the Jackery products to date has been for outdoors and camping, in which the entire setup can be unpacked and set up in a matter of minutes. Typically, these are one or two-panel scenarios for its SolarSaga 60 and SolarSaga 100 products, which are ⅓ to ½ the size and weight of each SolarSaga 200 foldable panel. The Explorer 240. 500. 1000. and 1500 generators are also considerably smaller (and lighter) than this product is.

    Jackery maintains that camping and outdoor activities are still the prime use case for the product. However, while the SolarSaga 200W panels are IP67 rated for water immersion or resistance, the company does not recommend their use in the rain because water can damage their connection ports.

    Of course, this is easily solvable by wrapping the connection ports and cable connectors in good ‘ol duct tape, which I ended up doing. But the company could have easily designed or licensed/sourced a connector hood on the panel (and the generator) that encloses the cable and a connector that seals out the elements. Why Jackery bothered with an IP67 rating for the panels and did not do this for the cables and connectors, I do not know.

    The generator is not guaranteed to be waterproof.- although my test unit did get rained on several times, and nothing happened to it. The company recommends that in the event of rain, the generator be retrieved and put indoors and that the panels also are retrieved.

    This presents some interesting use case issues and challenges for the Explorer 2000 Pro. While the setup is portable, all the components’ combined weight is over 150 lbs. For a single person to do setup or takedown, this is easily a 30-minute procedure, involving the unpacking of each panel from its fabric carrying case, placing it on the ground or propping it up on its integrated stands, and connecting it with a cable home ran to a splitter dongle that is connected to the generator which can accommodate two dongles total.

    The generator performs the DC to AC inversion internally, as the panels do not require separate inverters as residential and commercial panels have for fixed configuration setups.

    The panels cannot be connected in a serial fashion. There is only one connection port per panel on the upper left (in a sun-facing position). Each panel has a 10′ 18V DC power cable, which connects directly to the 2′ splitter/dongle, which can accommodate up to three cable connections.

    Setup is a cumbersome process as sufficient space needs to be available for panel placement and cable layout, especially if the generator is to be removed from the elements.

    The system requires panel input to be fully load-balanced.- if you want to run in sub-capacity, with less than the full six-panel configuration, then you can run one panel (direct), two panels (direct), three panels connected via one dongle, or four panels (two dongles, with one connection on each dongle capped).

    For a single or dual-panel config for one of the previous generation products, or even this product, it’s no big deal. However, for a six-panel deployment, with over 150 lbs worth of equipment, setup and panel placement is not a trivial activity. I eventually placed the panels on my pool deck, in an L-shaped configuration, with the cables coming into my back patio doggie door and the generator propped up under cover in the patio, away from the rain.

    It took about 40 minutes to achieve the best working setup with the most efficient cabling the second time around.

    This is the most likely and most useful scenario for how I would deploy this at home after a post-hurricane infrastructure failure. I contemplated how I might place the panels on my front lawn and the generator on my front foyer undercover, with extension cords leading into the house, but it was not workable.

    Realistically speaking, I don’t see how in environments where this might be used for emergency power, or even in a camping scenario, how the average person is going to rush outside and disassemble 109 lbs worth of solar panels and cables and drag them inside in the event of a sudden rainstorm.

    States like Florida, Georgia, Texas, Louisiana, Mississippi, and the Carolinas are the perfect use cases for a large emergency solar generator like this. All of these are hot weather states and would need a higher generation capacity to power small refrigerators, fans, and other cooling appliances. All of these are also subject to sudden capricious weather when they would need the solar panels in the first place, particularly during the immediate aftermath of a major storm.

    Using the generator

    That being said, I feel that this product can do a fantastic job when needed. It employs a proprietary battery conditioning system and dual power management chipset to keep its lithium-ion battery packs healthy and fresh, like those seen on EVs. When the generator unit arrived, it only had about a 20 percent charge on the battery, and I let it continue to charge for the next two days via the panels as devices were plugged into it. However, in a pre-storm situation, the generator and other battery-powered components in my household would be charged directly via AC power to provide enough buffer for continuous power draw. In fact, the company does suggest that the generator’s charge be topped off at least every three months to maintain battery life.

    To test the generator, I used a variety of household appliances to see how much continuous power I would get, including a small commercial refrigerator, a small 15L refrigerator for car/12V use, various fans, and a portable induction burner cooktop.

    While the system has a maximum 1200W input capacity from the six 200W panels and a possible 2.5-hour recharge rate, that is a best-case scenario. During the week in early May of 2022, when I tested it in South Florida, where I had intermittent rain, I had partly sunny skies at best. So I saw a fluctuating range of energy generation between 200W and 900W at any given time, and I never saw peak performance from the panels, which is realistic.

    However, that is more than sufficient power to recharge the 2200W battery over the day completely. The 15L AstroAI refrigerator/freezer, which I hooked up, draws about 60W to run the compressor for several hours to get it to cooling level and only 3W-16W of power to maintain 34-degree temperatures. The generator estimated about 30-50 hours of use on that one appliance while it was plugged in, assuming no power regeneration.

    Similarly, with the Vornado fans I also saw about 60W at peak (high) use, so I could easily have a few of these hooked up via extension cords and surge suppressor units to expand the three AC ports on the generator, and have the power to spare through the next morning if I used them all day before it restarted the recharge cycle. LED lamps such as my Philips bulbs also did not have that much power draw; I only saw between 6W and 13.5W of power draw per bulb total depending on the dim level.

    I saw extreme power draw from cooking appliances, such as the portable induction burner that I used for my cooking demonstration in the review video. At 100 percent power (stockpot water boiling level), the Duxtop draws over 1700W, which would fully deplete the generator in perhaps 75 minutes of use. But I only needed to use it for about 10 minutes to cook breakfast and never ran it more than 50 percent power.

    While induction burners are highly efficient appliances, as they directly conduct energy to the pan, and do not consume much power at all when the pan is not conducting to the burner (about 5W total when in standby mode), I probably would not choose to use this method for cooking food in an emergency scenario. Most likely, I would be using propane gas and a side burner on one of my BBQ grills, or perhaps I might investigate solar cooking, such as one of the GOSUN units. But it’s good to know that a green and renewable solution like this works, should propane or natural gas become increasingly scarce.

    Small air conditioners, such as 12,000 BTU/1000W mini-splits, seem out of the question, as you could maybe get two hours of use. I also didn’t bother trying to plug in my 120V Level 1 charger that came with my Polestar 2 that I recently purchased.- I know from experience that would only give us about 1 mile per hour recharge rates. To get higher than that, I’d need my Level 2.- which requires a 240V 50A connection.

    Perhaps with the Jackery Explorer 4800 Pro, which has twelve 400W panels and comes out in 2030. Just kidding.

    When the generator hits 100% charge, the input power from the panels registers as zero watts.- and it did this for as long as 30 minutes when devices were connected to the generator and consuming power. I don’t know if this is a software bug or if the system is designed such that the panels do not supply energy until the generator dips below a certain level, such as 90%. Still, I wonder if there is sufficient surplus energy; perhaps it should be used to charge another large battery or portable power station to capture it for use with other smaller appliances.

    What I would like to see improved

    In addition to the water-resistance/waterproofing concerns I addressed earlier and the lack of cable serialization that prevents more flexible panel placement, I would like to see more diagnostics capabilities in the main display.

    Specifically, I’d like more details about individual panel performance on a large system such as this. Currently, from the generator itself, there is no way to tell if any single panel is or isn’t supplying energy. Instead, what you get on the display is an aggregate calculation of wattage across the entire array.

    In an ideal scenario, at full sunlight, with no atmospheric obstructions or diffusion, and with clear skies, one might get over 1000W of aggregate power generation, but that’s not realistic. So at any given time, with clouds passing overhead and interfering with the sun, you’ll see fluctuating totals nowhere near the peak system capacity.

    The display can only tell you if the array supplies power, period, and wattage. For debugging purposes, it would be nice to know which panel is supplying what; otherwise, it becomes a round-robin plug-and-play process to ensure each panel is functioning. Alternatively, the dongles could implement an indicator (such as a tiny e-ink display or LED) that shows power coming from each input.

    An app that helps the user calculate energy consumption and plan for plugged-in device usage would benefit a system of this size. Naturally, this would require some communication mechanism that the product does not currently have. This could be implemented via Bluetooth Low Energy, as the data transfer speeds do not need to be high for simple telemetry functions from the generator and panels. Such a component would have minimal system cost and power consumption impact.

    Ideally, with such an app, I’d like to see a way to record each device that gets plugged in, what their approximate consumption is, and how many hours/minutes the generator has left as it happens. This would be particularly useful at night when the panels cannot recharge the generator, and priorities need to be made. It would also be helpful if notifications were sent if large consumption spikes occur and how it impacts the remaining battery and expected charge.

    Conclusion

    Despite its shortcomings and setup complexity, I think the Jackery Explorer Pro 2000 could be beneficial to many folks who live in areas that are at risk of infrastructure failure. This product can power many appliances for more extended periods than less capable portable solar power generation systems.

    But I do not think this is a camping or outdoorsman product unless we are talking about UN field deployments in the hottest and driest parts of Africa (and I would suggest they keep the generator itself in the shade, as it’s only rated to 149 degrees F) or extreme explorers in the 24/7 sunlight in the summer months in the arctic circle. For campers that don’t need such heavy power generation requirements, and for a simpler single or dual-panel setup, I’d recommend the Jackery Explorer 1500. the Jackery Explorer 1000. or buying an Explorer Pro 2000 with only two panels, which would theoretically charge the generator in under eight hours.

    Jackery Solar Generator 1000

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    • 1002Wh capacity, 1000W (2000W peak) Output
    • Multiple Output Ports
    • Pure sine wave AC outlets
    • Portable and compact
    • Green, Quiet, Easy to Use

    Fast Delivery

    2 1 Years Warranty

    30-Day Money back

    Jackery Solar Generator 1000 is a solar solution that combines Jackery Explorer 1000 Portable Power Station with SolarSaga 100W solar panels. It converts sun energy captured by SolarSaga 100W solar panels into electrical power and then stores it in the Explorer 1000 Portable Power Station for later use. This solar generator is a reliable and clean power source for campers, RVs, or as an emergency backup if your power goes out.

    To power with Explorer 1000 (1002Wh Capacity) Please enter the wattage of the appliance (not exceeding 1002W)

    Safe BMS to Fully Protect You

    The industry-leading BMS (Battery Management System) provides 12 layers of protection against short circuits, overvoltages, and more. The pure sine wave inverter delivers stable power to safeguard your appliances. Additionally, with the drop-proof feature, take the solar power station with your anywhere!

    Safe BMS to Fully Protect You

    The industry-leading BMS (Battery Management System) provides 12 layers of protection against short circuits, overvoltages, and more. The pure sine wave inverter delivers stable power to safeguard your appliances. Additionally, with the drop-proof feature, take the solar power station with your anywhere!

    How Many Solar Panels Do I Need

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    Choose One Type of Solar Panel

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    Product Details

    Note: 1. Solar panel types and quantity depends on your purchase.

    Solar recharging time varies from a different locations, temperatures, weather, etc. The actual time may be extra.

    During solar recharging, keep your portable power station away from heat and direct sunlight to extend its life span.

    Store in a dry and cool place, avoid contact with corrosive substances and keep away from fire and heat sources. Avoid storing with sharp objects at the same time.

    FAQ

    Q: I purchased two Jackery items (Explorer 1000Saga 100W), why did I just receive one package? Where is my stuff?

    Your purchase order (including purchases on Solar Generator Bundles) will be shipped separately if the order contains more than one item. This shipping rule is additionally applicable for Amazon orders.2. You can only find one tracking number in your order even if the order contains more than one package. We are pleased to email you with all tracking numbers when requested.3. Please feel free to contact us through this email address: hello@Jackery.com or via Amazon.

    Q: What is the maximum watts of solar panels can be used to charge Explorer 1000? Also how long will it take to recharge from a fully discharge batery?

    The maximum input wattage of Explorer 1000 is 200w(12~30V,7.5~8.33A ). As for recharging time, it depends on which panel you are using and weather conditions, for example, the Explorer 1000 can be quickly recharged within 8 hours by connecting two SolarSaga 100W solar panels together with an adapter cable. If connecting only one single panel, the approximate recharging time is 17 hours. Recharging time may varies from different location, temperature, weather etc, the actual time may be different.

    Q: What devices can Explorer 1000 power?

    Please note that the AC output ports can only charge/power devices that operate at less than 1000-Watts, besides, the whole wattage should be under 1000 watts as well. Once exceeding, the Explorer 1000 will shut off automatically. Please refer to your device specification before purchase

    Q: How to know the working times for my device?

    Working time = 1002Wh 0.85 / operating wattage of your deviceFor reference, assuming power consumption of your device is 60W (might be a box fan), working time will be 1002Wh0.85/60w=14.2hrs (rough calculated).Please note: actual power consumption varies from different usages, please consult Jackery for better purchase decision.

    Q: Is the solar panel waterproof?

    The Saga 100W is not waterproof. To maximize the lifespan of the module,Please don’t make it get wet.

    Q: Why the solar can not produce 100W power when charging to Explorer 1000 power station?

    As you know. the solar panels are affected by many factors, such as the intensity of the light and the angle of the panel put on the ground. 100W is tested in an ideal laboratory. However, the intensity of the light constantly changes. In addition, the angle of the light illuminating the solar panel also changes with the rotation of the sun. Please try test your solar panel under the full sunlight to see, and make sure there is no shadow cast on the panel.

    Q: How to clean the solar panel surface?

    We mentioned this point in the manual. Please use a soft cloth to remove the dust and dirt on the surface. Use a damp cloth to wipe the surface of the solar module to remove any remaining dust or dirt. Any guano or other adhesive should be removed as soon as possible from the solar surface to avoid a reduction in performance.

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    The Ultimate Guide to Solar Panel Output

    Solar panels have been around for decades, helping people access clean and renewable energy to power their electrical appliances. They are the light-absorbing, energy-producing powerhouses available on the market. The solar panel output varies from model to model and determines how efficiently the solar panels can convert sunlight into electricity.

    If you plan to invest in solar panels or a complete solar power generator (i.e., solar power station and solar panels), it’s worth noting the energy it can produce. Jackery Portable Solar Panels are lightweight and foldable energy-producing sources that are easy to carry and use.

    Teaming them up with Jackery power stations allows you to store the power produced and keep all your gear charged even when the sun’s energy is unavailable.

    In this article, we’ll walk you through the basics of solar panel power output, why it matters while buying solar panels, how to calculate energy production, and the top solar panels in 2023.

    What Is The Solar Panel Output

    Let’s start off with the basics – what is solar panel output?

    Solar panel output is expressed in watts (W) and represents the amount of direct current (DC) power production in standard test conditions.

    Most residential solar panels today have power output ratings from 250-400 watts per hour, with an efficiency of 15-20%.

    However, there are a few other solar panels with an efficiency that exceeds 20%.

    The Jackery SolarSaga Solar Panels have 23-25% efficiency, making them the best solar panels available. These easy-to-carry solar panels range from 80-200 watts and can combine with portable power stations to produce more power and charge appliances than their competitors.

    The power station and solar panels combination is ideal for helping you charge home appliances and carry clean power sources on the go to enjoy outdoor adventures.

    Why Solar Panel Output Matters

    When deciding on the right solar panel, the most important metric you’ll need to consider is the output of a photovoltaic panel. A solar panel with high output can help you utilize maximum solar energy and save money.

    Besides, the price you pay for the solar panel will depend on its output (expressed in watts) and efficiency. For instance, you’ll need to pay more for a 200-watt solar panel than a 100-watt panel as the former has higher solar panel output. Hence, choosing wisely can help you save dollars and utilize the sun’s energy.

    The Key Terms Of Solar Panel Output

    Before calculating the solar panel output, it’s vital to understand its key terms.

    • Kilowatt (kW): The electrical energy produced by solar systems or solar panels is expressed in kilowatts. It is the measurement of electrical power that equals 1000 watts.
    • Kilowatt Hour (kWh):It measures the electrical energy equivalent to the power consumption of 1000 watts in 1 hour.
    • Direct Current Power (DC): The form of power that the solar panels will initially produce is DC current.
    • Alternating Current Power (AC):All the DC power generated by solar power panels is converted into AC to charge the home appliances.
    • Efficiency (E):It measures the ability of solar panels to convert sunlight into usable electricity.
    • Watts (W):The output of the solar panel is measured in watts.

    Understanding the terms associated with the solar panel will help you calculate the output and invest in the right size solar panel.

    How To Calculate The Solar Panel Output

    Every solar panel model is different, meaning they produce a varied amount of electricity. However, a few simple calculations can help you estimate the system’s potential output.

    Calculate how much electricity (in kilowatt-hours) your solar panel will generate each day using the below-mentioned formula.

    Output = [Solar Panel Size (in square meters) × 1000] × Solar Panel Efficiency (percentage as a decimal) × Number of peak sun hours per day

    Suppose the solar panel size is 1.6 square meters.

    If the panel is 20% efficient, the energy produced will be 1600 × 20% = 320.

    Now that you have the power generated, suppose your area gets peak sun rays for 4 hours (in a day).

    Output = 320 × 4 = 1280 watt-hour.

    Divide it by 1000 to convert watt-hour to kilowatt-hour.

    1280 watt-hour / 1000 = 1.28 kWh per day.

    Note: The number of peak sun rays in an area will significantly depend on the location, season (winter or summer), etc.

    Now that you understand how to calculate solar panel output for one day, multiply the figure by 30.

    Monthly solar panel output = 1.28 kWh × 30 = 38.4 kWh per month.

    To calculate the solar panel output per m2, use this formula:

    Capacity = Number of solar panels × Solar panel system capacity

    Next, Solar panel output = Capacity ÷ Total system size (one-panel size × number of panels)

    Suppose there are 10 panels of 250 W each.

    The capacity will be 10 × 250 = 2500 W in this case.

    Then, you can calculate the solar panel output will be 2500 ÷ 16 (10 panels of 1.6 m2 each) = 157 W per m2.

    How To Test The Solar Panel Output

    When testing the solar panel power output, you may need a multimeter to measure open circuit voltage, short circuit current, and operating current. Let’s understand the process in detail.

    Step 1: Measure Voc (Open Circuit Voltage)

    jackery, explorer, 2000, review, lots

    On the back of the solar panel’s specs label, you can find open circuit voltage (Voc). Prepare the multimeter to measure the direct current volts by plugging the black probe into the COM terminal.

    Next, set your multimeter to the DC voltage setting. You can find the setting next to the letter V on your solar panel. It is indicated by a solid line above the dotted line.

    Now place the solar panel in direct sunlight and locate the positive and negative cables. The positive cable is connected with a male MC4 connector.

    Touch the multimeter’s red probe to the metal pin of the positive MC4 connector and the black probe to the negative MC4 connector. Now, read the voltage and compare it to Voc. They can be the same or close to each other, indicating that the solar panel is highly efficient.

    Step 2: Measure Isc (Short Circuit Current)

    Similar to Voc, it’s time to measure the short circuit current. Prepare your multimeter to measure amps by setting it up to amp settings.

    Similarly, make the connections by touching the red probe with a positive MC4 connector. Read the current on the multimeter and compare it with Isc. If it’s close, the solar panels are in good condition.

    Step 3: Measure PV Current or Operating Current

    To measure the PV current, you’ll need a charge controller, battery, and a multimeter. You can start the measurement by connecting the solar charge connector to the battery and adapter cables to the charge controller.

    In this case, you need to connect the negative solar cable and adapter cable together. However, you don’t have to join the positive solar cables. Follow step 2 and prepare the multimeter to measure amps.

    Be sure the solar panel is not producing any electricity during the measurement by covering the PV cells with a cloth. Touch the red probe to the male MC4 connector, whereas the black probe should be connected to the female MC4 connector (attached to the charge controller).

    Once the connection is complete, remove the cloth and read the amperage on the multimeter. Compare this number to the current at max power (Imp) to see how much output the solar panels can produce.

    Note: Solar panels do not produce 100% rated power output. Therefore, if the solar panel power output is 75-85% of their rated power output, consider them highly efficient.

    Factors Affect The Solar Panel Output

    Now that we’ve discussed how to test solar panel output, it’s time to understand the factors that affect the output.

    The conversion efficiency indicates the percentage of received light it can convert into usable energy. Most residential panels have 15-20% efficiency, though some advanced models like Jackery SolarSaga Solar Panels exceed 23%. The more efficient the solar panel is, the higher the solar panel output.

    Solar panels consist of photovoltaic (PV) cells that convert solar energy. The larger the panel size, the more solar energy it can absorb. However, efficiency is still the primary player, as a highly efficient 100-cell panel is a better choice than a 200-cell panel with low efficiency.

    The number of sunlight hours and the location will directly impact the solar panel’s output. Homeowners living in areas that receive longer, brighter periods of sunlight can produce maximum solar power with the help of solar panels. Additionally, the orientation and tilt of the solar panel define how much energy will be absorbed and converted.

    Excessive dust and debris collected on the solar panel can reduce its efficiency and output. That’s why it’s essential to wipe the dust off the solar panels with a clean cloth regularly.

    How Much Energy Does A Solar Panel Produce

    Solar panels contain photovoltaic or solar cells that capture the sun’s power and transform it into DC (or direct current) electricity. The energy produced is measured in watts.

    Most common solar panels typically produce a few hundred watts per hour to 400 watts per hour, depending on the location, panel size, and the sunlight condition.

    You can determine the approximate solar panel output by multiplying the panel’s wattage with the average number of direct sunlight hours.

    How Does A Solar Panel Generator Work

    Solar panels and a power station work to capture solar energy, convert it into electricity, and store it to charge the electronics.

    The photovoltaic or silicon cells in the solar panels establish an electric field by separating opposite charges. The silicon is doped with other materials to facilitate the flow of current. With the help of a conductive wire, the generated electricity is transmitted to the inverter.

    The inverter’s role is to convert DC into AC, which is then moved to the electric panel. Once the power station is charged, you can easily plug your appliances in and power them.

    How Much Energy Does A Solar Panel Produce

    Let’s understand how much energy will the solar panel produce so you can buy the right power system for your needs:

    The first step is determining how much solar output you need to power appliances. To make your home solar, check the monthly electric bill and note the kWh usage.

    Next, you’ll need to determine how many hours of direct sunlight your home receives. You can purchase a solar power system based on your electricity usage and the number of direct sunlight hours.

    How To Maximize Solar Panel Output

    Investing in best-in-class solar panels is not enough; you’ll need to FOCUS on maximizing its output. Here are the best tips to help you get the maximum benefit from your solar investment.

    • Panel Orientation:Your solar panels should directly face the sun to generate maximum energy. The upper surface of the panel with photovoltaic cells should get direct rays of sunlight during the peak hours.
    • Eliminate Shading:Shades of trees or other objects can block direct sunlight. With that in mind, placing the panels in an area with direct sun rays is best.
    • Keep It Clean: Accumulation of snow, debris, dust, and other particles on the panels can reduce their output. Therefore, wipe them once a month using a cloth or soft brush to boost efficiency.

    The Best Portable Solar Panel With Jackery

    Jackery is the top-selling global solar generator brand helping homeowners with portable, safe, and versatile solar power systems.

    Jackery SolarSaga Solar Panels with varied capacities of 80W, 100W, and 200W work perfectly when combined with the Jackery Explorer Portable Power Station.

    Below we’ve illustrated the three top Jackery SolarSaga Solar Panels available on the market.

    The advanced solar cells on Jackery SolarSaga 200W Solar Panels are built with a higher conversion rate of up to 24.3%. The ETFE-laminated case and IP67 waterproof rating make the solar panels durable and long-lasting.

    You can pair the Jackery SolarSaga 200W Solar Panel with Jackery Explorer 2000 Pro and 1000 Pro to power most of your home electrical devices. It takes 2.5 hours to charge Jackery Explorer 2000 Pro Portable Power Station using 6SolarSaga 200W.

    Conversion Efficiency

    Compatible with Explorer

    Jackery SolarSaga 200W Solar Panels

    Folded: 540 x 615 x 40 mm.

    Unfolded: 540 x 2320 x 25 mm.

    Jackery Explorer 2000 Pro and 1000 Pro

    Jackery SolarSaga 100W Solar Panels are foldable and lightweight monocrystalline solar panels that can be charged with the sun’s power. With a high conversion efficiency of 24.3%, solar panels convert solar energy into usable electricity faster.

    The solar panel is compatible with Jackery Explorer 240/500/1000 Portable Power Stations. The Jackery SolarSaga 100W Solar Panel features two output ports – 1USB-C (5V,3A) and 1USB-A (5V,2.4A) – to charge two small devices directly.

    Conversion Efficiency

    Compatible with Explorer

    Jackery SolarSaga 100W Solar Panels

    Folded: 24 x 21 x 1.4 in (610 x 535 x 35 mm)

    jackery, explorer, 2000, review, lots

    Unfolded: 48 x 21 x 0.2 in (1220 x 535 x 5 mm)

    Jackery Explorer 240/500/1000

    The dual-sided Jackery SolarSaga 80W Solar Panel generates electricity from both sides and is relatively easy to assemble. In addition, the extra-white glass on the back panel boosts the overall conversion rate of the solar panel.

    Jackery SolarSaga 80W Solar Panels are made of 2.8mm low iron full toughened glass, making them highly durable. Additionally, the solar panels are compatible with all the Jackery Explorer power stations and can charge multiple devices simultaneously.

    Conversion Efficiency

    Compatible with Explorer

    Jackery SolarSaga 80W Solar Panels

    All the Jackery Portable Power Stations

    Solar Panel FAQs

    Every homeowner, hiker, camper, or outdoor enthusiast requires solar-powered systems to leverage the power of solar energy. However, each individual has different needs and requires different solar panel output. Here are some frequently asked questions buyers ask before investing in a solar power system.

    Using a multimeter, you can quickly check if your solar panel is efficiently working and generating as much power as it should be.

    Yes. You can store the power generated by solar panels in solar power stations. Jackery Explorer Portable Power Stations are compatible with Jackery SolarSaga Solar Panels. Connecting the portable power station with the solar panels helps you to store the energy for later use.

    The number of solar panels for camping will depend on how many electronic devices you’ll use and the energy required to power them. If you want to charge all your small and large appliances during camping, consider investing in Jackery SolarSaga panels and Explorer power station combination.

    With a power station, you can take full advantage of your solar panel output. The portable, battery-powered power station from Jackery is a rechargeable, safe, and easy-to-use power backup source.

    The combination of Jackery Explorer power stations and solar panels can charge all your devices, including a mini cooler, refrigerator, heater, etc. Some benefits of Jackery Solar Generator include:

    • Safe to use and emit no fumes
    • Portable power source, making it suitable for camping or hiking
    • Requires no extra maintenance

    Final Thoughts

    Homeowners are investing in solar-powered devices to go off-grid and minimize their reliance on the electricity grid. Determining the solar panel output and choosing the best solar system is a great way to harness the power of the sun’s energy and charge your electric appliances.

    Jackery SolarSaga Solar Panels combined with Jackery Explorer Portable Power Station can help you utilize sustainable power. You can combine Jackery Solar Generator 2000 Pro for fast charging and powering most home appliances during off-grid living, camping, or hiking.

    For more information, sign up with the Jackery newsletter and get exclusive deals, promotional offers, and discounts on all Jackery products.

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