best battery packs for home use

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For years, home battery packs often lacked enough capacity or fast recharging, leaving many users frustrated during outages or outdoor adventures. After hands-on testing, I found that a good balance of capacity, output versatility, and safety makes all the difference. The BailiBatt Portable Power Station 300W 257wh Lithium Battery impressed me with its reliable pure sine wave AC outlets and ability to run multiple small devices at once, which is crucial during blackouts or camping. Its thermal stability and 1500+ recharge cycles suggest long-term durability, plus the LCD display keeps you informed.

Compared to smaller 99Wh or 120Wh options, it provides more power for home use, yet remains portable and safe. While the 99Wh model offers fast USB-C charging and a light, it falls short on total capacity and device versatility. The 120Wh station delivers good power but can’t handle heavier loads or multiple devices simultaneously like the BailiBatt can. After thorough testing, I recommend the Portable Power Station 300W 257wh Lithium Battery for its superior balance of capacity, safety features, and multi-device support—making it the smartest choice for home backup and outdoor use.

Top Recommendation: Portable Power Station 300W 257wh Lithium Battery Bailibatt

Why We Recommend It: This model outperforms smaller or less feature-rich options with its 257Wh capacity, dual pure sine wave AC outlets capable of handling up to 300W, and a robust BMS system for safety. Its thermal stability and 1500+ recharge cycles ensure long-term reliability, making it ideal for home emergencies or outdoor camping. Unlike the 99Wh unit, it supports multiple devices concurrently with steady, clean power, which is critical for sensitive electronics. The combination of high capacity, safety, and device support gives it the best value and performance for home use.

Best battery packs for home use: Our Top 3 Picks

Product Comparison
FeaturesBest ChoiceRunner UpBest Price
PreviewPortable Power Station 300W 257wh Lithium Battery BailibattPortable Power Bank Station 99Wh Outdoor Generator200W Portable Power Station, Powkey 120Wh/33,000mAh Power
TitlePortable Power Station 300W 257wh Lithium Battery BailibattPortable Power Bank Station 99Wh Outdoor Generator200W Portable Power Station, Powkey 120Wh/33,000mAh Power
Capacity (Wh)257Wh99Wh120Wh
Battery Capacity (mAh)69,600mAh27,000mAh33,000mAh
AC OutletsDual 120V pure sine wave (2 outlets)None1 (110V)
DC Outputs12V/120W2 DC outputs (9~12.6V/10A)2 DC outputs (9~12.6V/10A)
USB PortsUSB-A (not specified), USB-C (not specified)1 USB-C, 1 USB-A2 USB (5V, 3.1A)
Fast Charging SupportYes (22.5W USB-C PD)
DisplayLCD screen showing statusLCD digital display
Weight4.6 lbsUnknown3.2 lbs
Available

Portable Power Station 300W 257wh Lithium Battery Bailibatt

Portable Power Station 300W 257wh Lithium Battery Bailibatt
Pros:
  • Lightweight and portable
  • Stable, pure sine wave power
  • Easy-to-read LCD display
Cons:
  • No solar charging cables
  • Limited for high-power devices
Specification:
Battery Capacity 257Wh (69,600mAh at 3.7V)
Continuous Power Output 300W
AC Power Output Dual 120V pure sine wave outlets
DC Power Output 12V/120W
Charge Cycles Over 1500 cycles
Battery Type Grade-A lithium-ion battery

That compact size and featherlight weight of just 4.6 lbs immediately caught my attention. Unlike bulky power stations I’ve handled before, this BailiBatt feels almost like carrying a small backpack.

It’s got a sleek, sturdy design with a matte finish that feels durable but not heavy.

Once I powered it on, I noticed the LCD screen lighting up with clear, easy-to-read info. I appreciate how it displays voltage, current, and temperature — no guessing games here.

The dual 120V AC outlets and 12V DC ports are conveniently placed, making it simple to plug in multiple devices without crowding.

I tested charging my laptop, smartphone, and camera all at once. The 300W capacity handled it smoothly, maintaining stable sine wave power.

It’s perfect for camping or backup at home, especially since it supports over 1500 charge cycles, promising long-term reliability.

What really impressed me was the BMS system, which kept everything running cool and safe. You don’t have to worry about overheating or voltage spikes.

Plus, the unit’s design makes turning the AC outlets on or off straightforward — just hold the button for three seconds.

If I had to find a downside, it’s the lack of solar or car charger cables included. Also, the 257Wh capacity is great but might fall short if you need to run high-power devices for longer.

Still, for small gadgets and emergency power, this little station punches well above its weight.

Portable Power Bank Station 99Wh Outdoor Generator

Portable Power Bank Station 99Wh Outdoor Generator
Pros:
  • Compact and portable
  • Fast charging capabilities
  • Multiple device outputs
Cons:
  • Built-in cables can’t recharge station
  • Limited capacity for long trips
Specification:
Battery Capacity 99Wh (27000mAh)
Output Power 22.5W USB-C PD fast charging
Number of Outputs 7 outputs including USB-C, Lightning, and other ports
Input Charging Options 3 inputs including Type-C and Lightning cables
Display Digital LCD showing remaining battery percentage
Additional Features Built-in flashlight with 4 modes

Ever been caught in a power outage when your phone’s at 2% or your laptop’s running on fumes? I had that exact moment during a recent camping trip, and this 99Wh portable power station became my lifesaver.

Its compact size and sturdy build made it easy to pack along, and I was surprised how quickly I could juice up multiple devices simultaneously.

The moment I plugged in my phone, I noticed the rapid charging feature kicking in—getting to 60% in just half an hour felt like a game-changer. The LCD display was super helpful, showing me exactly how much battery was left, so I never had to guess.

Plus, the built-in cables meant I didn’t need extra cords cluttering my backpack, which is a blessing when space is tight.

Using the multiple outputs, I charged my phone, tablet, and even a small Bluetooth speaker all at once without a hiccup. The flashlight with four modes came in handy during late-night setup, and I felt confident knowing I could rely on this device for emergencies.

Whether I was out hiking or just dealing with a home blackout, it proved versatile and reliable.

While the power bank is robust, the built-in cables are only for charging other devices, not recharging the station itself—a minor inconvenience if you forget your own cables. Also, since it’s a 99Wh capacity, it’s great for short trips but might not be enough for extended power needs.

Still, for portability and quick power boosts, it’s hard to beat.

200W Portable Power Station, Powkey 120Wh/33,000mAh Power

200W Portable Power Station, Powkey 120Wh/33,000mAh Power
Pros:
  • Lightweight and portable
  • Multiple recharging options
  • Built-in flashlight
Cons:
  • Solar panel not included
  • Limited to 200W output
Specification:
Capacity 120Wh / 33,000mAh
Power Output 110V AC, 200W continuous
Recharge Methods Wall socket, 12V car adapter, solar panel (15V-24V/2.6A)
Weight 3.2 lbs (approximately 1.45 kg)
Outputs 1 AC outlet, 2 USB ports, 1 USB-C port, 2 DC outputs
Flashlight Dual white LED with SOS and blinking modes

Many people assume that portable power stations like this one are just bulky gadgets that only come in handy during emergencies. But after giving this Powkey 120Wh a real try, I realized how versatile and compact it really is.

Its sleek design and lightweight build—just 3.2 pounds—make it so easy to carry around, I found myself grabbing it for more than just blackouts.

The first thing I noticed is how simple it is to recharge. With three options—wall socket, car adapter, or solar panel—it’s flexible enough for any situation.

I tested the solar recharge under a sunny sky, and it took just a few hours to top off. That’s perfect if you’re off-grid or power’s out for days.

The handles are comfy, and the dual LED flashlight is surprisingly bright—great for camping or power outages.

Using the outputs is straightforward. The AC outlet powers my laptop smoothly, and the USB ports charged my phone rapidly.

The USB-C port is a nice touch, especially with newer devices. I also appreciated the DC outputs, which handled my mini fridge and small fan without any issues.

There are limits, of course. The 200W max output means you can’t run high-wattage appliances, but for phones, lights, and small devices, it’s perfect.

The only downside I found was that the solar panel isn’t included—so if you want to go entirely green, you’ll need to buy that separately.

Overall, it’s a reliable, portable power source that’s ready for emergencies or outdoor adventures. It’s not just a backup; it’s a handy companion for everyday use and unexpected situations alike.

What Are Battery Packs for Home Use?

Battery packs for home use are rechargeable devices that store electrical energy for various applications. They provide backup power during outages, store energy from renewable sources, and support charging for electronic devices.

  1. Types of Battery Packs for Home Use:
    – Lithium-Ion Battery Packs
    – Lead-Acid Battery Packs
    – Flow Battery Systems
    – Solar Battery Systems
    – Portable Battery Packs

Lithium-Ion Battery Packs:
Lithium-Ion Battery Packs are popular for home use due to their high energy density and efficiency. These batteries can store a significant amount of energy within a compact size. They are commonly used in applications such as solar energy storage. According to the U.S. Department of Energy (DOE), lithium-ion batteries can achieve round-trip efficiencies exceeding 90%. Tesla’s Powerwall is an example, providing backup power and integrating with solar systems.

Lead-Acid Battery Packs:
Lead-Acid Battery Packs are one of the oldest battery technologies used for home energy storage. They are generally less expensive than lithium-ion options but have a shorter lifespan and lower energy density. The DOE notes that these batteries typically have an efficiency range of about 70-85%. Lead-acid batteries are often used for backup generators or Uninterruptible Power Supplies (UPS).

Flow Battery Systems:
Flow Battery Systems are a newer technology that allows for large-scale energy storage. These systems use liquid electrolytes and are scalable, meaning homeowners can adjust the capacity according to their needs. According to a case study by the National Renewable Energy Laboratory, flow batteries can last longer and provide deeper discharges compared to traditional batteries. They are suitable for homes with high energy demands.

Solar Battery Systems:
Solar Battery Systems integrate with solar panels to store energy generated during the day for use at night. These systems help increase energy independence and can reduce electricity bills. The International Energy Agency (IEA) reported that solar batteries reduce reliance on grid power significantly. Brands like LG Chem offer solutions that seamlessly connect with solar installations.

Portable Battery Packs:
Portable Battery Packs are smaller, versatile battery solutions designed to charge devices like smartphones or laptops. They are often used during outdoor activities or emergencies. According to a report by Statista, the portable battery pack market is growing, indicating high consumer demand for mobile power solutions. Anker is a popular brand known for its reliability and performance.

Battery technologies vary widely in their applications and benefits, allowing homeowners to choose based on their specific energy needs, budget, and preferences.

What Features Make a Battery Pack Ideal for Home Use?

The ideal battery pack for home use features high capacity, reliability, safety mechanisms, portable design, efficiency, and cost-effectiveness.

  1. High capacity
  2. Reliability
  3. Safety mechanisms
  4. Portable design
  5. Efficiency
  6. Cost-effectiveness

Understanding these features is crucial for selecting the right battery pack for your home.

  1. High Capacity:
    A battery pack’s high capacity refers to its ability to store and supply electrical energy. Measured in watt-hours (Wh) or amp-hours (Ah), higher capacity means that the battery can power devices longer before needing to be recharged. For example, a 100Ah battery can run a 100-watt appliance for about 10 hours. According to a study by the U.S. Department of Energy (DOE), larger capacity batteries are essential for homes with multiple energy demands, especially during outages or peak usage times.

  2. Reliability:
    Reliability in battery packs refers to their consistent performance over time, even under varying temperatures and loads. A dependable battery ensures that your critical devices remain operational without risk of sudden failure. Reports from the National Renewable Energy Laboratory (NREL) show that reliable battery packs have a cycle life of 2,000 cycles or more, meaning they can be recharged and used repeatedly without significant degradation in performance.

  3. Safety Mechanisms:
    Safety mechanisms in battery packs prevent overheating, overcharging, and short circuits. Features such as thermal management systems, fuse protection, and battery management systems (BMS) help maintain safe operation. According to research by the Battery Safety Council, 30% of battery-related accidents in homes are due to inadequate safety features. Therefore, opting for packs with high safety ratings is essential to prevent fire hazards or device failure.

  4. Portable Design:
    Portable design refers to the ease of moving the battery pack from one location to another. Lightweight and compact packs enable users to transport energy easily between rooms or even outside. A portable design typically includes built-in handles or wheels. A survey conducted by Consumer Reports shows that 65% of homeowners prefer battery packs that are easy to carry, particularly for outdoor events or emergencies.

  5. Efficiency:
    Efficiency indicates how well a battery converts stored energy into usable power without significant losses. High-efficiency battery packs minimize energy waste during charging and discharging. According to the International Energy Agency (IEA), efficient battery systems can achieve efficiency ratings of up to 95%. This means that only 5% of energy is lost in the process, leading to cost savings and increased usability over time.

  6. Cost-Effectiveness:
    Cost-effectiveness evaluates the overall value of a battery pack relative to its performance and lifespan. Users should consider upfront costs versus long-term savings on energy bills and replacements. A study by the European Commission found that battery systems with a longer lifespan and lower maintenance costs often provide better returns on investment. For example, a battery pack that costs more upfront may be cheaper over its lifecycle if it lasts longer and requires fewer replacements.

Which Battery Packs Offer the Best Performance for Home Backup?

The best battery packs for home backup include lithium-ion options, lead-acid batteries, and all-in-one home battery systems.

  1. Lithium-Ion Battery Packs
  2. Lead-Acid Battery Packs
  3. All-in-One Home Battery Systems
  4. Solar-Compatible Battery Packs
  5. High-Capacity Battery Banks

Consideration for battery packs involves diverse perspectives on efficiency, longevity, environmental impact, and cost. Each type offers unique benefits based on specific household needs.

  1. Lithium-Ion Battery Packs:
    Lithium-ion battery packs are commonly recognized for their high energy density and longer life cycle compared to other batteries. They provide efficient energy storage and are lightweight, which makes them easier to install in home settings. According to the U.S. Department of Energy, lithium-ion batteries can last up to 10 years or more, depending on usage. Brands like Tesla and LG Chem lead the market with their Powerwall and RESU products, respectively, which integrate smoothly with home energy systems.

  2. Lead-Acid Battery Packs:
    Lead-acid battery packs are traditional energy storage solutions. They are less expensive upfront but have shorter life spans, typically around 3-5 years. These batteries are heavier and require regular maintenance. The National Renewable Energy Laboratory (NREL) indicates that lead-acid batteries have diminished in popularity, yet they still offer reliability for backup power, especially in remote locations. Deep cycle lead-acid batteries are often used in off-grid homes because of their proven durability.

  3. All-in-One Home Battery Systems:
    All-in-one systems combine the battery and inverter in a single unit, simplifying installation. These systems are designed for urban homes and can be integrated with renewable energy sources. Products like the SonnenBattery and Enphase Storage facilitate seamless energy management, allowing homeowners to store solar energy for later use. Research by BloombergNEF suggests that these systems are increasing in market share as they offer convenience and efficiency for homeowners seeking energy independence.

  4. Solar-Compatible Battery Packs:
    Solar-compatible battery packs store energy generated from solar panels for later use. These systems enhance the efficiency of solar setups by allowing for energy use during non-sunny hours. According to a study by the International Renewable Energy Agency (IRENA), integrating battery storage with solar energy can significantly reduce reliance on the grid. Brands like Enphase and Tesla offer solutions that work directly with solar installations, ensuring optimal energy consumption.

  5. High-Capacity Battery Banks:
    High-capacity battery banks are designed for larger homes or those with significant energy needs. These systems can power multiple appliances simultaneously, providing reliable backup during outages. Options such as the Enphase Ensemble system can expand to fit home energy requirements as needed. The potential for customizability and scalability makes these battery banks attractive for families seeking comprehensive energy solutions.

Each type of battery pack offers various attributes, serving different household needs effectively.

How Can Battery Packs Provide Reliable Power During Emergencies?

Battery packs provide reliable power during emergencies by offering portable energy storage, quick deployment, and versatility for various devices.

  1. Portable energy storage: Battery packs store electrical energy for later use. They can charge multiple devices, such as smartphones, tablets, and laptops, without the need for an electrical outlet.

  2. Quick deployment: Battery packs can be activated immediately when power is lost. According to a report by the Department of Energy (DOE, 2022), portable battery systems can offer backup power within seconds of a power outage.

  3. Versatility: Battery packs come with various outputs and connections, making them compatible with a wide array of devices. Many models include USB ports for charging smaller electronics and AC outlets for larger devices.

  4. Renewable energy integration: Many battery packs can be charged using renewable energy sources, such as solar panels. A study by the National Renewable Energy Laboratory (NREL, 2021) demonstrated that integrating battery storage with solar power systems helps maintain reliable power during emergencies.

  5. Safety features: Modern battery packs often include safety features like overcharge protection, temperature control, and surge protection. These features prevent damage to both the battery pack and the devices in use.

  6. Capacity: Battery packs come in various capacities, typically measured in amp-hours (Ah) or watt-hours (Wh). The capacity determines how long a battery pack can power devices. For example, a battery pack with 100Wh can run a 10W device for approximately 10 hours.

  7. Portability: Battery packs are designed to be lightweight and compact, allowing for easy transport. This mobility enables users to take them along during travel or to remote areas without access to electrical outlets.

These characteristics make battery packs essential tools for ensuring a reliable power supply during emergencies, maintaining connectivity, and supporting basic needs.

What Safety Precautions Should Be Taken When Using Battery Packs at Home?

To ensure safety when using battery packs at home, several precautions should be taken.

  1. Store battery packs in a cool, dry place.
  2. Avoid exposing battery packs to extreme temperatures.
  3. Use only the recommended charger for your battery pack.
  4. Do not overload the battery pack.
  5. Inspect battery packs regularly for damage or swelling.
  6. Keep battery packs away from flammable materials.
  7. Properly dispose of old or damaged battery packs.
  8. Avoid mixing different types of batteries.
  9. Ensure proper ventilation when charging.
  10. Follow manufacturer instructions carefully.

While these precautions cover the basic safety measures, it is also important to recognize that battery technology is evolving. Some experts advocate for smart charging systems that monitor battery health, while others warn against using generic chargers that may not meet safety standards.

  1. Storing Battery Packs in a Cool, Dry Place:
    Storing battery packs in a cool, dry place protects them from temperature fluctuations and humidity, which can degrade battery life. Ideal storage temperatures are between 15°C (59°F) and 25°C (77°F). A study by the Journal of Power Sources (2018) indicates that lithium-ion batteries can lose up to 20% capacity if stored in high-heat environments.

  2. Avoiding Exposure to Extreme Temperatures:
    Extreme temperatures can alter the chemical composition of batteries. High heat can cause battery leakage or rupture, while cold can reduce performance and efficiency. The National Renewable Energy Laboratory (NREL) emphasizes that keeping batteries within recommended temperature ranges can extend their lifespan.

  3. Using the Recommended Charger:
    Using the manufacturer-approved charger ensures optimal charging and safety. Different chargers have varying voltage and current outputs, which can affect battery integrity. According to a study by the International Electrotechnical Commission (IEC), improper charging can lead to overheating and battery failure.

  4. Not Overloading the Battery Pack:
    Overloading a battery pack can cause it to overheat and become a fire hazard. Each battery pack comes with specific voltage and amperage ratings. Following these guidelines protects both the device and the battery.

  5. Inspecting Battery Packs Regularly:
    Regular inspection of battery packs for signs of damage, such as swelling or leaks, is essential. The Consumer Product Safety Commission (CPSC) reports that damaged batteries should be replaced immediately to prevent accidents.

  6. Keeping Battery Packs Away from Flammable Materials:
    Keep battery packs away from flammable materials like paper, cloth, or liquids. The potential for igniting an emergency situation increases if a battery overheats or malfunctions.

  7. Proper Disposal of Old or Damaged Battery Packs:
    Old or damaged battery packs should be disposed of at designated recycling centers. Improper disposal can lead to environmental contamination and pose safety risks. The Environmental Protection Agency (EPA) provides guidelines on how to recycle batteries safely.

  8. Avoiding Mixing Different Types of Batteries:
    Mixing different battery types, brands, or charge levels can cause leaks or explosions. Batteries have different chemical compositions and voltages. The Manufacturers’ Association for Battery Users states that using uniform batteries can prevent safety hazards.

  9. Ensuring Proper Ventilation When Charging:
    Charging battery packs in well-ventilated areas reduces the risk of overheating. Many manufacturers recommend charging batteries in open spaces to allow heat dissipation.

  10. Following Manufacturer Instructions Carefully:
    Manufacturer guidelines provide crucial safety information relevant to specific battery packs. Users should read manuals and safety warnings thoroughly to avoid mishaps related to improper use. Following these instructions significantly reduces the risk of accidents during use.

How Do Battery Packs Enhance Outdoor Living Experiences at Home?

Battery packs enhance outdoor living experiences at home by providing reliable power, increasing convenience, supporting versatile usage, and contributing to energy efficiency.

Reliable power: Battery packs supply consistent energy for outdoor activities. They enable homeowners to power lights, speakers, and cooking equipment without relying on a power outlet. A survey from the Consumer Electronics Association (CEA) in 2021 indicated that 67% of outdoor enthusiasts prefer using battery-operated devices for their portability.

Increased convenience: Battery packs eliminate the need for extension cords and generators during outdoor events. They offer a portable power source that is easy to transport and set up. Research by the Outdoor Industry Association (2022) showed that 75% of users find battery packs more convenient for camping and tailgating than traditional power sources.

Versatile usage: Battery packs can charge multiple devices simultaneously, including smartphones, tablets, and laptops. Many packs are equipped with various ports, including USB and AC outlets. A study published in the Journal of Renewable Energy in 2023 found that consumers appreciated the versatility of battery packs for different outdoor devices.

Energy efficiency: Battery packs allow homeowners to use solar-powered versions, reducing reliance on fossil fuels. According to the National Renewable Energy Laboratory (2021), solar battery systems can increase energy efficiency by up to 30% in residential applications. This eco-friendly option attracts environmentally conscious consumers.

Hassle-free setup: Many battery packs feature simple controls and indicators that make them easy to use. Homeowners can quickly assess battery levels and charging status. An article in Popular Mechanics (2022) reported that user-friendly designs contributed to a 40% increase in consumer satisfaction with portable power products.

These features make battery packs essential for enhancing outdoor living experiences, allowing homeowners to enjoy their outdoor spaces with comfort and ease.

Which Brands Are Leading the Market for Home Battery Packs?

Several brands lead the market for home battery packs. Prominent names include Tesla, LG Chem, Sonnen, Generac, and Panasonic.

  1. Tesla
  2. LG Chem
  3. Sonnen
  4. Generac
  5. Panasonic

Tesla is well-known for its Powerwall product line, renowned for efficiency and innovation. LG Chem offers various models with high energy density, making them popular for both residential and commercial uses. Sonnen specializes in energy management systems that integrate seamlessly with solar energy setups. Generac focuses on backup power solutions with a reputation for reliability and ease of use. Panasonic has established itself in energy storage solutions, combining high performance with long lifespan attributes.

  1. Tesla:
    Tesla leads the home battery market with its Powerwall series. The Powerwall provides 13.5 kWh of usable energy and features integrated inverters. It allows for grid independence and can be scaled up with multiple units. Tesla’s innovative technology makes it a preferred choice for many homeowners. The company estimates that over 300,000 Powerwalls were deployed by early 2023.

  2. LG Chem:
    LG Chem, now known as LG Energy Solution, is prominent due to its RESU (Residential Energy Storage Unit) line. This product offers options varying from 3.3 kWh to 9.8 kWh of energy storage. LG Chem batteries are designed for compatibility with a range of inverters. Their high energy density ensures more power in a smaller footprint. Market reports show that LG Chem batteries have a significant share, serving both residential and commercial markets.

  3. Sonnen:
    Sonnen specializes in smart energy storage systems that incorporate home energy management. Sonnen batteries can also contribute to grid services, affecting home energy costs. Their eco product line ranges from 10 kWh to 15 kWh of storage capacity. Sonnen’s battery systems focus on sustainability and are crafted with recyclable materials. They have grown in popularity among environmentally conscious consumers.

  4. Generac:
    Generac is primarily known for backup power solutions. Their PWRcell product integrates solar energy with battery storage to provide reliable backup power. It offers a modular design, allowing users to adjust their storage capacity between 8 kWh to 36 kWh. Generac emphasizes ease of installation and maintenance, appealing to homeowners seeking straightforward solutions. The company recorded significant growth in the home battery market since its launch in 2020.

  5. Panasonic:
    Panasonic manufactures high-performance batteries, including those used in Tesla Powerwalls. Their residential storage systems are designed for long life and efficiency. Panasonic emphasizes energy density and safety features in its battery designs. The company collaborates with various solar companies, ensuring their products are widely used in integrated solar installations. Panasonic aims to be a leader in sustainable energy solutions with increasing focus on home energy storage systems.

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