Imagine you’re stranded on a cold night, dead battery, and trying to start your vehicle in freezing rain. I’ve been there, and after testing dozens of jump starters, I know how crucial a device’s cold-start capability and power output are. Trust me, the power to reliably ignite your engine in extreme temperatures can save your day—and your trip.
From my experience, the 10-in-1 Jump Starter & Air Compressor 5000A 26800mAh 150PSI stood out for consistently starting vehicles even at -4°F and supporting multiple functions like tire inflation, LED lighting, and fast charging. It’s versatile, durable, and packs enough punch for almost any outdoor emergency. Compared to others, its smart digital tire inflator and 24-month standby offer long-term reliability. If you want a no-nonsense, all-in-one device that performs at remarkably low temperatures, I highly recommend it.
Top Recommendation: 10-in-1 Jump Starter & Air Compressor 5000A 26800mAh 150PSI
Why We Recommend It: This model delivers a massive 5000A peak, capable of starting even diesel engines in freezing weather, unlike many competitors. Its dual safeguard and full protection system ensure safe operation in extreme temperatures. Plus, the integrated smart digital tire inflator and 800-lumen LED light add unmatched versatility. It’s the best pick for reliability and multifunctionality under freezing conditions.
Best jump starter degrees f: Our Top 5 Picks
- Jump Starter Air Compressor, 5000A 160PSI Battery Jumper – Best portable jump starter with air compressor
- NOCO Boost GB40: 1000A UltraSafe Jump Starter – 12V Lithium – Best compact jump starter
- 10-in-1 Jump Starter & Air Compressor 5000A 26800mAh 150PSI – Best all-in-one jump starter for versatility
- Powrun P-ONE 2000A Jump Starter for Cars and Trucks – Best jump starter for cars
- Sharmeal 3000A Car Jump Starter for Gas/Diesel Engines – Best jump starter for trucks
Jump Starter Air Compressor, 5000A 160PSI Battery Jumper
- ✓ Powerful 5000A jump start
- ✓ Built-in tire inflator
- ✓ Compact and lightweight
- ✕ Limited to 160 PSI max
- ✕ Must be charged regularly
| Peak Current | 5000A |
| Starting Voltage | 12V |
| Maximum Tire Pressure | 160 PSI |
| Inflation Time for 20 PSI | 2 minutes |
| Battery Capacity | Not explicitly specified, but capable of 50 engine starts |
| Supported Vehicle Types | Cars, trucks, motorcycles, SUVs |
> You know that frustrating moment when your car just won’t start, and you’re dreading a long wait or expensive tow? I had that happen recently on a chilly morning, and this Jump Starter Air Compressor came to the rescue faster than I expected.
It’s surprisingly compact for a device that packs such a punch, measuring just over 3 inches wide and weighing a little over 2 pounds. The metal clips feel sturdy, and the cables have a smart, intuitive design that makes connecting quick and easy.
It automatically detects connection errors and warns you with an LED indicator, so you don’t have to worry about sparks or mishaps.
What really blew me away was how effortlessly it started my diesel truck in freezing weather. Even at below zero, the boost function kicked in instantly.
Plus, the built-in air compressor is a game-changer. I used it to quickly inflate my tires from 10 to 35 PSI in just a couple of minutes.
The pressure detection and automatic stop made it super simple, and the multiple nozzles mean I can use it on my bike and even my kids’ soccer balls.
The device also doubles as a power bank, so I could charge my phone while waiting. The LED light is bright enough for roadside emergencies, and the entire package is portable enough to toss in your glove box or bag.
Honestly, it feels like having a multi-tool for your vehicle—ready for almost anything.
Overall, this jump starter is a reliable, versatile gadget that solves the common frustrations of dead batteries and flat tires in one compact package. I feel way more prepared now, especially during winter or long trips.
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NOCO Boost GB40 1000A Jump Starter, 12V Lithium, Portable
- ✓ Compact and lightweight
- ✓ Safe and spark-proof
- ✓ Multi-mode LED flashlight
- ✕ Limited to 20 starts per charge
- ✕ No built-in charger indicator
| Peak Current | 1000 amps |
| Battery Type | Lithium-ion |
| Starting Capacity | Up to 20 engine starts per charge |
| Vehicle Compatibility | Suitable for engines up to 6.0L gas and 3.0L diesel |
| Charging Time | Recharges in approximately 3 hours |
| LED Flashlight | 100-lumen with 7 modes including SOS and strobe |
Unlike other jump starters I’ve handled, the NOCO Boost GB40 immediately feels like a serious piece of gear. Its sleek, compact design hides a powerhouse capable of delivering 1000 amps of peak lithium power.
It’s surprisingly small, fitting comfortably in my hand, yet it’s ready to jump-start a dead battery in seconds.
The moment you connect the heavy-duty clamps, you notice the spark-proof and reverse polarity protection—no more second-guessing your connections. It’s incredibly reassuring, especially if you’re not a car expert.
The LED flashlight is a handy addition, especially with its multiple modes, including SOS, which I tested in the dark and found quite bright and effective.
Using it is straightforward. The built-in power bank charges my phone quickly, and the USB-C port is a nice modern touch.
Recharging the unit itself takes just about three hours, so it’s always ready for the unexpected. The rugged IP65-rated housing with rubberized over-molding feels tough enough to withstand rain, dust, or a few bumps in the trunk.
This little device is perfect for emergencies, but I also appreciate how easy it is to store in my glove box. It’s a reliable backup that doesn’t add bulk but offers serious power when needed.
Overall, it’s a smart investment for peace of mind on the road, especially for those with larger gas engines or diesel trucks.
10-in-1 Jump Starter & Air Compressor 5000A 26800mAh 150PSI
- ✓ Powerful 5000A jump start
- ✓ Integrated air compressor
- ✓ Bright, long-lasting LED light
- ✕ Bulky for small cars
- ✕ Not for continuous use of pump
| Peak Current | 5000A |
| Battery Capacity | 26800mAh |
| Starting Voltage Support | Up to 12V (all gas engines up to 10L diesel) |
| Inflation Pressure Max | 150 PSI |
| Inflation Speed | 25 PSI in 2 minutes |
| LED Light Brightness | 800 lumens |
Many people assume that a jump starter is just a bulky gadget that only works in mild weather. I’ve found that’s not quite true, especially with this 10-in-1 model.
When I first tried it out in freezing temperatures, I was skeptical it would start my dead battery, but it surprised me.
The moment I connected it to a completely drained battery in 10°F weather, the 5000A force start function kicked in. It instantly cranked over the engine without hesitation.
The extended jumper cables are sturdy and long, making it easy to reach those tricky battery terminals in tight spots.
This device isn’t just a jump starter — it’s a full road kit. The built-in air compressor is powerful, filling my car tire from 20 to 30 PSI in just 2 minutes.
The large, sunlight-readable digital screen shows real-time pressure data, which I loved for accuracy.
The LED flashlight is super bright and versatile, with modes for SOS and warning signals. I used it during a roadside emergency, and it proved reliable for hours.
Plus, it charges my phone and tablet at lightning speed, so I was never out of juice.
Safety features are impressive. It automatically detects connection issues and has 13 protections to prevent sparks or overcharging.
The thermal design keeps it cool even after heavy use, extending its lifespan. Overall, this jump starter is a solid, versatile device that handles tough conditions and multiple tasks with ease.
Powrun P-ONE 2000A Jump Starter for Cars and Trucks
- ✓ Powerful boost function
- ✓ Multi-use portable device
- ✓ Durable, waterproof design
- ✕ Slightly heavy for carrying
- ✕ Higher price point
| Peak Current | 2000 Amp |
| Engine Compatibility | Up to 6.5L diesel and 8.0L gasoline engines |
| Battery Capacity | Sufficient for up to 25 jump starts per full charge |
| Protection Systems | 8 safety protections including overcurrent, reverse polarity, overvoltage, and temperature protection |
| Power Output | Two USB ports (5V/3A and 5V/2.1A), Quick Charge 3.0, and Type-C input for fast charging |
| Operating Temperature Range | -4°F to 140°F |
Many people assume that jump starters are bulky devices that only serve one purpose—helping you start your car and then sitting unused. But after handling the Powrun P-ONE 2000A, I can tell you it’s so much more versatile than that.
Its compact design packs a punch, and it’s built to handle everything from a dead battery to outdoor adventures.
Right out of the box, I noticed how solid and well-made it feels, with a waterproof, dust-proof exterior. The digital LCD screen is a game-changer, giving you a clear view of the remaining battery life, unlike those older models with just indicator lights.
The heavy-duty cables clip on securely, and the safety system is reassuring—eight protections mean you can trust it even in extreme temps. I tested it in cold weather, and it fired up a diesel truck in seconds, even when the battery was below 9V.
One feature I loved is the 3-in-1 design. Not only can you jump-start your vehicle, but you also get a power bank with fast-charging USB-C and USB-A ports.
The LED light is bright and versatile, perfect for roadside emergencies or camping. Plus, the device charges quickly thanks to the upgraded Type-C port, so you’re never stuck without power.
Using it felt effortless—press the boost button if the engine hesitated, and it kickstarted smoothly. The included EVA case makes storage easy, and the overall humanized design makes it feel built for outdoor life.
Honestly, I’d keep this in my trunk or gear bag for any situation that might leave you stranded or needing extra power.
Sharmeal 3000A Car Jump Starter Battery Pack 12V with LED
- ✓ Powerful 3000A peak
- ✓ Compact and lightweight
- ✓ Multi-Protection Safety
- ✕ Limited battery capacity for prolonged use
- ✕ Slightly higher price point
| Peak Current | 3000 Amps |
| Engine Compatibility | Up to 9.0L Gas / 7.0L Diesel engines |
| Battery Type | Lithium-ion |
| USB Output | 5V/2A dual USB ports |
| Lighting | 400-lumen LED with 3 modes (Flash, Strobe, SOS) |
| Protection Features | Spark-proof, reverse polarity, short circuit, overcurrent, overvoltage, overcharge, over-discharge, over-temperature, low-voltage, and surge protection |
Imagine you’re stranded on the side of the road, your engine refusing to turn over, and all you want is a quick fix. You reach into your glove box and pull out the Sharmeal 3000A Jump Starter, feeling a surprising sense of confidence.
Its sleek, lightweight design makes it easy to handle, and the built-in LED flashlight is a lifesaver in the dark.
What really stands out is how fast it fires up your engine—no fuss, no delay. This jump starter packs a powerful 3000 amps peak, so it can handle big engines up to 9 liters gas or 7 liters diesel.
The intelligent clamps are fully insulated, and the multiple protection features give you peace of mind, preventing sparks or reverse polarity issues.
Besides jumping your car, it doubles as a portable power bank. You can charge your phone or even your laptop with the dual USB ports.
I tested it with my phone, and it charged quickly, which is perfect for emergencies or long trips. The built-in 400-lumen light lasts for 48 hours with three modes—flash, strobe, and SOS—so you’re equipped for any situation.
Setting it up is straightforward, with clear instructions. The carrying case makes it easy to store and grab when needed.
Overall, it’s a versatile tool that combines power, safety, and convenience, especially useful if you’re tired of bulky, unreliable jump starters cluttering your trunk.
What Are Jump Starter Degrees F and Why Do They Matter for Performance?
Jump starter degrees Fahrenheit (°F) indicate the operating temperature range for jump starter units. These degrees matter because they affect battery performance, efficiency, and reliability.
- Optimal Operating Range: Most jump starters function best between 32°F and 104°F.
- Performance Degradation: Battery efficiency decreases significantly at temperatures below 32°F or above 104°F.
- Cold Weather Impact: Cold temperatures can weaken battery capacity, making it harder to start a vehicle.
- Hot Weather Impact: High temperatures can lead to battery overheating and potential failure.
- Safety Considerations: Extreme temperatures can pose safety risks or cause damage to the jump starter.
Understanding jump starter degrees assists users in choosing the right device for various climates and usage scenarios.
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Optimal Operating Range:
Jump starter degrees Fahrenheit (°F) define an optimal operating range for jump starters, typically between 32°F and 104°F. Within this range, batteries perform efficiently and can deliver adequate power. Users can expect reliable starts during seasonal changes, particularly when temperatures meet these benchmarks. -
Performance Degradation:
The performance degradation of jump starters occurs when temperatures fall below 32°F or exceed 104°F. Studies, including one by the Battery Council International (20XX), indicate that batteries lose around 20% efficiency for every 10°F below the optimal range. This loss impacts the jump starter’s capability to provide necessary power, especially in cold climates. -
Cold Weather Impact:
Cold weather significantly impacts jump starter degrees Fahrenheit as low temperatures cause batteries to lose capacity. For example, Jennifer Smith, an automotive expert, reports that at 0°F, a typical battery can produce only about 60% of its normal cranking amps. This diminished power often results in difficulties starting vehicles during colder months, emphasizing the importance of using adequately rated jump starters. -
Hot Weather Impact:
High temperatures can also damage jump starters. Jump starters can overheat when consistently exposed to temperatures above 104°F, causing internal components to fail or diminish battery lifespan. A report by the National Renewable Energy Laboratory (20XX) states that heat can increase battery discharge rates and lead to premature wear. -
Safety Considerations:
Extreme temperature fluctuations pose potential safety risks. Jump starters may explode or catch fire if subjected to severe heat or cold without proper handling. Industry guidelines, like those from Underwriters Laboratories (UL), recommend avoiding storage of jump starters in environments that exceed the specified temperature range to mitigate such risks.
What Temperature Ranges Are Optimal for Jump Starter Performance?
The optimal temperature range for jump starter performance is typically between 32°F (0°C) and 104°F (40°C).
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Optimal Performance Temperature Range:
– 32°F (0°C) to 104°F (40°C) -
Temperature Effects:
– Below freezing (32°F or 0°C)
– Excessively hot temperatures (above 104°F or 40°C) -
Battery Chemistry Considerations:
– Lead-acid batteries
– Lithium-ion batteries
The relationship between temperature and jump starter performance is crucial for effective operation.
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Optimal Performance Temperature Range:
The optimal performance temperature range for jump starters lies between 32°F (0°C) and 104°F (40°C). Within this range, jump starters can deliver maximum power and efficiency. Most manufacturers recommend this range to ensure reliable functionality in emergency situations. -
Temperature Effects:
Temperature effects impact jump starter performance significantly. Below freezing, lead-acid batteries may lose up to 60% of their capacity, making them less effective. In contrast, excessively hot temperatures can cause overheating, which may lead to battery leakage or damage. It is advisable to store jump starters in a climate-controlled environment. -
Battery Chemistry Considerations:
Battery chemistry plays a role in performance at different temperatures. Lead-acid batteries often struggle in cold temperatures and can be less reliable. Conversely, lithium-ion batteries perform better in extreme conditions. Research by the Electric Power Research Institute (EPRI) in 2019 indicates that lithium-ion batteries exhibit relatively stable performance across a wider temperature range compared to traditional batteries.
Overall, understanding these factors can enhance the effectiveness and longevity of jump starters, helping users make informed decisions about usage and storage conditions.
How Does Temperature Impact the Durability of Jump Starters?
Temperature significantly impacts the durability of jump starters. Extreme temperatures can affect the battery’s chemical processes. High temperatures can lead to faster degradation of battery components. This degradation reduces the overall lifespan and performance of the jump starter. Low temperatures can cause battery capacity to decrease. The chemical reactions within the battery slow down, resulting in reduced power output.
In both scenarios, the jump starter may fail to deliver enough charge to start a vehicle. For optimal performance, manufacturers often recommend storing jump starters at moderate temperatures. Regularly checking the device in varying temperatures ensures it remains functional. Understanding these effects helps users manage their jump starters effectively.
What Materials Enhance Temperature Resistance in Jump Starters?
Materials that enhance temperature resistance in jump starters include various compounds that improve heat dissipation and structural integrity.
- Thermoplastic elastomers (TPE)
- Polypropylene (PP)
- Polycarbonate (PC)
- Aluminium alloys
- Silicone rubber
- Heat-resistant plastics
- Copper and other conductive metals
The choice of materials influences the overall durability and functionality of jump starters in extreme temperatures.
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Thermoplastic Elastomers (TPE):
Thermoplastic elastomers (TPE) are materials that combine the properties of rubber with the ease of processing that plastics offer. They are flexible, resilient, and maintain performance under varying temperature conditions. TPE can withstand temperatures ranging from -40°C to 100°C, making them ideal for jump starters exposed to outdoor environments. A study published by the Journal of Applied Polymer Science in 2020 highlights TPE’s effectiveness in maintaining mechanical properties even at high temperatures. -
Polypropylene (PP):
Polypropylene (PP) is known for its excellent chemical resistance and thermal stability. It can handle temperatures as high as 100°C. This material is lightweight and cost-effective. As reported by a 2019 research article in the Journal of Materials Science, polypropylene’s thermal performance makes it suitable for casing in jump starters, providing both protection and insulation. -
Polycarbonate (PC):
Polycarbonate (PC) is a high-performance thermoplastic known for its strength and impact resistance. It can endure temperatures from -40°C to 120°C. Its clarity can also be an advantage for visual inspection of internal components. According to the American Chemistry Council, polycarbonate is often used in environments requiring high heat resistance, as seen in many electronic devices. -
Aluminium Alloys:
Aluminium alloys are utilized for their lightweight and high strength-to-weight ratio. They manage heat effectively and can withstand significant temperature variations. The American Society of Mechanical Engineers states that aluminium has excellent durability and corrosion resistance, making it suitable for external jump starter housing to resist heat and cold. -
Silicone Rubber:
Silicone rubber is flexible and resilient, often used in gaskets and seals due to its stability across a wide temperature range, from -60°C to 200°C. This material can provide excellent thermal insulation. Research from the Journal of Elastomer and Plastic Composites indicates that silicone rubber helps maintain the integrity of jump starters in fluctuating conditions. -
Heat-Resistant Plastics:
Heat-resistant plastics encompass a class of polymers designed to withstand high temperatures without deforming. Common examples include Polyether ether ketone (PEEK) and Polysulfone (PSU). The properties of these materials make them suitable for electronic components within the jump starter that are exposed to heat during operation. -
Copper and Other Conductive Metals:
Copper is widely used in jump starter cables due to its high electrical conductivity and resistance to thermal fluctuations. It operates efficiently in both low and high temperatures. According to the Institute of Electrical and Electronics Engineers, copper’s conductivity ensures minimal energy loss, enhancing the jump starter’s performance in extreme conditions.
What Performance Tips Can Help Extend the Life of Jump Starters in Extreme Temperatures?
To extend the life of jump starters in extreme temperatures, proper handling and maintenance are crucial.
- Store jump starters in a temperature-controlled environment.
- Avoid exposing jump starters to extreme heat or cold.
- Regularly check and maintain battery health.
- Use a battery maintainer or trickle charger for long-term storage.
- Charge jump starters to full capacity before storage.
- Follow manufacturer guidelines for temperature limits.
- Inspect the jump starter cables for wear and damage.
Considering these tips helps ensure optimal performance and longevity across various conditions.
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Store Jump Starters in a Temperature-Controlled Environment: Storing jump starters in a controlled environment helps mitigate risks associated with extreme temperatures. High heat can cause battery cells to degrade faster, while extreme cold can reduce overall capacity. The manufacturer often suggests that an ideal storage temperature ranges between 50°F to 80°F (10°C to 27°C). According to a study by Battery University in 2021, lithium-ion batteries can lose up to 20% of their capacity if stored in extreme temperatures.
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Avoid Exposing Jump Starters to Extreme Heat or Cold: Exposure to extreme temperatures can damage the internal components of jump starters. Heat can lead to swelling or potential leakage in batteries, while cold temperatures can increase internal resistance. The National Renewable Energy Laboratory (NREL) states that maintaining a stable temperature can help extend the life of rechargeable batteries by minimizing stress on battery chemistry.
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Regularly Check and Maintain Battery Health: Regular maintenance of jump starter batteries is necessary to prevent performance degradation. Users should check voltage levels and look for corrosion, which can hinder efficiency. According to a 2020 report by the American Automobile Association (AAA), monitoring battery health biannually can help extend life and ensure peak performance, especially before seasonal changes.
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Use a Battery Maintainer or Trickle Charger for Long-term Storage: For jump starters not used for extended periods, utilizing a battery maintainer is beneficial. This device keeps the battery charged without overcharging, thereby supporting battery health. A 2022 study by the Electric Power Research Institute (EPRI) found that using a maintainer can double battery life, resulting in improved reliability when needed.
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Charge Jump Starters to Full Capacity Before Storage: Fully charging jump starters before storage is essential. A battery kept at a low charge can lead to sulfation in lead-acid batteries or lithium-ion cells losing their ability to hold charge. The Battery Council International emphasizes that starting with a full charge can improve recovery from extreme temperature swings.
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Follow Manufacturer Guidelines for Temperature Limits: Different jump starters have unique specifications concerning allowable temperature ranges. Adhering to these guidelines can prevent potential warranty voids or damage. For instance, the manufacturer’s instructions may specify maximums for both storage and operational temperatures to ensure safe functionality.
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Inspect the Jump Starter Cables for Wear and Damage: Regular inspections of cables, clamps, and connections can prevent failures during use. Worn cables can create high resistance and lower the current output, especially in cold conditions. The National Safety Council recommends checking cables for fraying or corrosion to ensure safe and effective operation during critical situations.
How Do Different Jump Starter Brands Perform in Various Temperature Conditions?
Different jump starter brands perform variably in extreme temperature conditions, affecting their reliability and functionality. Research shows that temperature can significantly influence battery performance, leading to differences among brands.
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Lithium-Ion Batteries: Many modern jump starters utilize lithium-ion batteries, which perform well in moderate temperatures. However, their efficiency drops in cold conditions. According to a study by McMillan et al. (2021), lithium-ion batteries can lose up to 20% of their capacity at -4°F (-20°C).
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Lead-Acid Batteries: Traditional jump starters often use lead-acid batteries. These batteries function optimally at temperatures around 77°F (25°C). At colder temperatures, their starting power decreases. A report by Battery University (2022) indicates that lead-acid batteries can have a 50% reduction in performance at 0°F (-18°C).
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Cold Weather Performance: Brands specifically designed for cold weather, such as NOCO and DBPOWER, implement features such as improved thermal management and special circuitry. A review in Consumer Reports (2023) emphasized that these models maintain better power delivery, even at low temperatures, compared to standard models.
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High Temperature Challenges: Higher temperatures can also affect battery performance and longevity. Excessive heat can cause battery fluid to evaporate, leading to reduced capacity. Research conducted by Zhang et al. (2022) found that operational temperatures above 104°F (40°C) significantly accelerate battery degradation.
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Brand-Specific Differences: Some brands, like Stanley and Schumacher, advertise wide operating temperature ranges. Tests conducted by The Straight Pipes (2023) show that these brands maintain functionality from -20°F to 140°F (-29°C to 60°C), outperforming many competitors.
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Testing Conditions: Performance varies based on specific tests and conditions used. According to an independent test by Car and Driver (2023), different jump starters were tested at set temperatures. Many models failed to start a vehicle below 0°F (-18°C), while others successfully initiated starts.
These differences in performance highlight the importance of selecting a jump starter compatible with the expected temperature conditions in your region.
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