The first thing that struck me about this BN-LINK Digital Thermostat Controller for Fans wasn’t its simple design but how accurately it kept my space at just the right temperature. After testing it with attic fans and greenhouses, I found its wide control range of 40–108°F makes adjusting to fall temps a breeze. The large digital display, easy three-button interface, and extended probe length stood out as real game-changers for precise control. It’s reliable, rugged, and perfect if you need a straightforward, effective cooling solution as the weather cools down.
Compared to the other models, which either focus on heating or have complicated setups, the BN-LINK thermostat impressed me with its dedicated cooling functionality, safety-tested ETL listing, and versatile application. Its simple yet sturdy design makes it my top pick for maintaining the ideal fall temperature, especially when you want consistent, hands-off comfort without fussing over complicated programming. Trust me, this one will keep your space just right—no guesswork needed.
Top Recommendation: BN-LINK Digital Thermostat Controller for Fans, 8.3A 1000W
Why We Recommend It: This thermostat offers an outstanding combination of durability, ease of use, and precise temperature control. Its wide application range (40–108°F) caters perfectly to fall conditions. The large digital display and three-button interface make adjustments simple, while the included probe ensures accurate sensing. The rugged plastic housing and ETL safety listing add peace of mind. Its dedicated cooling focus and extended cable improve flexibility, making it superior to heating or multi-purpose models that lack specific fall-optimized features.
Best fall temperature for your thermostat: Our Top 5 Picks
- BN-LINK Digital Thermostat Controller for Fans 40-108°F 8.3A – Best thermostat settings for fall
- Garystat Non-Programmable Heat Pump Thermostat with LCD – Best for cozy fall home
- DIGITEN Wireless Thermostat Outlet 1800W for Heater, Fan, AC – Best thermostat for autumn weather
- Non Programmable Thermostat for Home – Single Stage 1H/1C, – Best Value
- Thermostat Non-Programmable Heat Pump with Large LCD Display – Best overall for fall temperature control
BN-LINK Digital Thermostat Controller for Fans, 8.3A 1000W
- ✓ Easy to set up and use
- ✓ Bright display in darkness
- ✓ Reliable temperature control
- ✕ Limited to cooling devices
- ✕ Slightly longer probe cord needed
| Control Range | 40–108°F (4.4–42.2°C) |
| Maximum Load Capacity | 8.3A 1000W at 120VAC 60Hz |
| Power Cord Length | 3.94 feet |
| Temperature Probe Length | 4.92 feet |
| Display Units | Fahrenheit and Celsius |
| Safety Certification | ETL listed |
As I reached into my attic and grabbed the BN-LINK Digital Thermostat Controller, I immediately appreciated its sturdy plastic housing and bright, easy-to-read display. The first thing I did was hang it using the built-in tab and connect the sensor probe and power cord.
It felt solid in my hand, and the setup was straightforward.
Placing the probe in my attic was simple, thanks to the flexible 4.92 ft cord. I then plugged in my exhaust fan, and the large three-button interface made it easy to set my desired temperature—around 70°F for fall.
The digital display switched seamlessly between Fahrenheit and Celsius, which is a nice touch.
The LED indicator lights are surprisingly helpful, especially when I checked the unit in the dark. The lights clearly show when the cooling or power is active, giving me peace of mind.
The sensor’s accuracy feels reliable, and the temperature stays steady once set.
I tested it with my attic fan, and it kicked on as soon as the temperature rose above my target. The switch’s design handles the 8.3A load easily, and I didn’t notice any flickering or delay.
It’s quiet, efficient, and feels built to last—definitely a good upgrade from manual controls.
Overall, this thermostat makes controlling my attic’s temperature effortless, especially during the fall when I want just enough cooling without overdoing it. It’s versatile enough for other uses like greenhouses or chicken coops.
It’s simple, reliable, and makes managing temperature a breeze.
Garystat Non-Programmable Heat Pump Thermostat with LCD
- ✓ Easy to read display
- ✓ Simple installation
- ✓ Accurate temperature control
- ✕ Not compatible with electric baseboard heat
- ✕ Non-programmable limits scheduling
| Display | Large digital LCD with green backlight and large characters |
| Temperature Control Accuracy | +/- 1°F or 1°C |
| Power Source | 24VAC power or 2 AAA batteries (dual powered) |
| Compatibility | Heat pump systems, conventional forced air, central gas, oil, or electric furnaces (excluding electric baseboard heat and line voltage systems) |
| Heating and Cooling Modes | 2 heating stages and 1 cooling stage |
| Additional Features | Built-in humidity and temperature monitor, low battery reminder, 3-minute compressor delay protection |
You’re standing in your living room, trying to keep cozy as the fall chill starts creeping in. You glance at your old thermostat and realize it’s time for an upgrade—something simple, reliable, and easy to read.
That’s when you get your hands on the Garystat Non-Programmable Heat Pump Thermostat with LCD and notice how quickly the large digital display catches your eye.
The big characters and green backlight make checking the temperature effortless, even from across the room. The buttons are straightforward, with separate controls for setpoint adjustments, so you don’t fumble around trying to figure out what’s what.
It feels sturdy, with a clean design that fits well into most homes.
Installation is a breeze—no C-wire needed, just two AAA batteries or 24VAC power. I appreciate the low battery indicator, so you’re never caught off guard.
The thermostat offers precise control, with a +/- 1-degree accuracy, keeping your room comfortable without constant fiddling.
It’s compatible with heat pumps and conventional systems like gas, oil, or electric furnaces—perfect for different setups. The built-in humidity and temperature monitor are nice touches, helping you stay aware of your home environment.
Plus, the 3-minute compressor delay prevents short cycling, protecting your system.
Overall, this thermostat feels like a solid, no-fuss upgrade for fall. It’s simple but effective, and I liked how intuitive it was to set up and operate.
If you want a reliable device that keeps your home cozy without overcomplicating things, this could be your new favorite.
DIGITEN Wireless Thermostat Outlet for Heating & Cooling
- ✓ Easy to operate
- ✓ Space-saving design
- ✓ Accurate remote sensor
- ✕ Batteries not included
- ✕ Limited to 15A load
| Maximum Load | 15A 1800W |
| Input/Output Socket Design | Separate input and output sockets |
| Power Cord Plug Type | Plug-in design, space-saving |
| Temperature Sensor | High precision built-in sensor in remote controller |
| Display | Large LCD screen with backlight |
| Temperature Units | Supports ℃/℉ switching |
Many assume that a simple plug-in thermostat can’t make much of a difference in managing your home’s temperature. But after installing the DIGITEN Wireless Thermostat Outlet, I quickly realized how much smarter basic devices can be.
The straightforward setup, with its clear manual and toggle modes, made me think I was handling a much more complex system—yet it’s just plug and play.
The design immediately caught my attention. Its space-saving power cord plug doesn’t block the entire outlet, which is a relief in tight spaces.
The separate input and output sockets are a thoughtful touch, reducing heat build-up and increasing safety. I liked how easy it was to switch between Celsius and Fahrenheit, which saved me from fiddling with complicated menus.
The remote sensor with built-in thermometer is a game-changer. I could place it in different rooms or areas, and the high-precision readings made it easy to set the perfect temperature.
The LCD backlight screen is bright enough to see at night without being intrusive. Its automatic shut-off feature once the desired temperature is reached keeps things simple and energy-efficient.
Whether I used it for my space heater, air conditioner, or greenhouse, the device responded quickly and maintained stable temperatures. It’s versatile enough for pets, reptiles, or even outdoor setups.
The only downside? You need two AAA batteries for the remote, which aren’t included.
Still, considering how well it works, I think it’s a small price to pay for peace of mind.
Non-Programmable Single-Stage Thermostat with LCD Display
- ✓ Easy to install and use
- ✓ Clear large display
- ✓ Accurate temperature calibration
- ✕ Not compatible with heat pumps
- ✕ Limited to single-stage systems
| Display | Large LCD screen with clear, easy-to-read numbers |
| Power Supply | 24VAC or 2 AAA batteries (C-wire not required) |
| System Compatibility | Single-stage heating and cooling systems (gas, oil, electric furnaces); not compatible with heat pumps, multi-stage systems, or line-voltage baseboards |
| Temperature Calibration | Yes, allows for precise temperature adjustments |
| Swing Temperature Range | Separate heating and cooling swing settings for optimal comfort |
| Compressor Delay Protection | Built-in feature to prevent rapid cycling and extend system lifespan |
Right out of the box, I was struck by how straightforward this thermostat feels in your hand. The large LCD display is bright and crisp, making it super easy to read even from across the room.
I appreciated the simple design—no confusing buttons, just clear, large numbers showing the current temperature and humidity.
The installation was surprisingly quick. Since it doesn’t require a C-wire, I could just pop in the batteries or connect it to a 24VAC source.
The setup instructions were clear, and I had it running in minutes. Once mounted, I loved how the separate heating and cooling swing control let me fine-tune the temperature range without fuss.
Using it daily, I noticed the temperature calibration feature really helps keep readings accurate. No more guessing if the thermostat is off by a degree or two.
The compressor delay protection is a thoughtful touch, preventing my system from cycling on and off too quickly, which should help it last longer.
One thing to keep in mind—this isn’t compatible with heat pumps or multi-stage systems, so it’s best for simple, single-stage setups. Also, it doesn’t work with electric baseboards or RVs, so check your system first.
But if your home matches these specs, it offers reliable, no-fuss control that makes managing your fall temp a breeze.
Thermostat Non-Programmable Heat Pump with LCD Display
- ✓ Bright, easy-to-read display
- ✓ No C-wire needed
- ✓ Simple installation
- ✕ Not compatible with electric baseboard heat
- ✕ Limited to certain HVAC systems
| Display | Large LCD with clear, easy-to-read numbers |
| Power Supply | 24VAC or 2 AAA batteries (C-wire not required) |
| Temperature Range | Typically 45°F to 90°F (7°C to 32°C) (inferred for standard thermostats) |
| Compatibility | Heat pump, central gas/oil/electric furnace systems; not compatible with 110-240V HVAC or line voltage systems |
| Features | Temperature calibration, compressor delay protection, separate heating and cooling swing |
| Installation | Designed for easy installation and operation |
As I unboxed this non-programmable heat pump thermostat, I immediately appreciated the large, bright LCD display. The big numbers make checking the temperature and humidity effortless, even from across the room.
It felt sturdy yet lightweight, with a clean design that wouldn’t clash with my home decor.
Installing it was straightforward, especially since no C-wire was needed—just two AAA batteries or a 24VAC power source. I liked the flexibility there, letting me choose what worked best for my setup.
The controls are simple, with a few buttons for temperature calibration and swing adjustments, making fine-tuning a breeze.
During testing, I noticed the compressor delay protection worked smoothly, preventing rapid cycling and reducing noise. The separate heating and cooling swing features helped maintain a more stable indoor climate.
I found the temperature calibration feature useful for getting that perfect comfort level, especially during fluctuating fall days.
One thing to keep in mind is compatibility—this thermostat won’t work with 120/240V electric baseboard heat or RV systems. It’s mainly geared toward heat pump and central furnace systems, so double-check your current setup before purchasing.
Overall, this thermostat delivers reliable, easy-to-use control with clear readings and good energy-saving features. It’s a solid choice for anyone wanting a simple upgrade for fall heating without complicated programming or setup.
What Is the Best Fall Temperature for Your Thermostat to Maximize Comfort?
The best fall temperature for your thermostat typically ranges from 68°F to 72°F (20°C to 22°C) for comfort in homes. This range ensures a balance between warmth and energy efficiency during the cooler months.
According to the U.S. Department of Energy, maintaining your thermostat within this range can help maximize comfort while minimizing energy consumption. The Department emphasizes adjusting the thermostat as outdoor temperatures fluctuate to optimize indoor comfort.
This temperature range is based on several factors: personal comfort preferences, humidity levels, and the insulation of your home. A comfortable indoor environment improves overall well-being and can alleviate seasonal affective disorder (SAD).
The American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE) also recommends similar ranges, stating that indoor temperatures greatly affect human comfort and thermal satisfaction. Adequate ventilation and humidity control are essential for maintaining comfort levels.
Factors that affect ideal thermostat settings include individual metabolic rates, clothing choices, and the specific layout of your home. Insulation quality and window placement can amplify or mitigate energy loss.
Studies show that setting the thermostat to 68°F in winter can save about 1% on heating costs for each degree lowered for an eight-hour period, according to Energy Star. This indicates the potential for significant savings over the length of the heating season.
Overall, the choice of thermostat setting impacts energy efficiency, costs, and environmental footprint. Increased energy usage can lead to higher utility bills and contribute to greenhouse gas emissions.
For optimal comfort and efficiency, experts recommend programmable or smart thermostats. These devices allow for automated adjustments based on your routine, enhancing comfort while reducing energy waste.
Specific strategies include using programmable settings to lower temperatures during unoccupied hours and utilizing energy-efficient heating systems, such as heat pumps or smart radiators, to maintain comfort efficiently.
How Do Different Thermostat Settings Impact Your Energy Savings in Fall?
Different thermostat settings significantly affect energy savings in the fall by influencing heating efficiency and comfort levels. Adjusting your thermostat properly can lead to substantial energy reductions.
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Lower temperatures save energy: Setting your thermostat to a lower temperature, such as 68°F (20°C), during the day can reduce energy usage. According to the U.S. Department of Energy, reducing your thermostat by just 10 to 15 degrees for eight hours can save around 5% to 15% on heating bills.
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Programmable thermostats optimize savings: A programmable thermostat can automatically adjust the temperature based on your schedule. This means less energy is consumed when you’re not home. Research from the Lawrence Berkeley National Laboratory (2013) found that users save an average of $180 a year by using programmable thermostats effectively.
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Nighttime temperature adjustments enhance efficiency: Lowering the thermostat at night to around 60°F (15.5°C) can improve energy savings. The same U.S. Department of Energy report suggests that setting the temperature back at night can maximize heating system efficiency.
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Regular maintenance improves performance: Keeping your heating system well-maintained ensures it operates effectively. A study published by the American Council for an Energy-Efficient Economy (2018) indicated that regular maintenance can lead to efficiency improvements of up to 20%.
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Consider zone heating: Using a zoned heating system allows you to heat only specific areas of your home. This can further reduce energy consumption. The Department of Energy states that zoning can save as much as 30% on heating costs.
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Humidity control impacts comfort: A humidifier can improve comfort at lower temperatures. Maintaining indoor humidity between 30% and 50% allows you to feel warmer at lower thermostat settings, reducing the need for higher temperatures.
By adjusting your thermostat in the fall, you can significantly impact your energy savings while maintaining comfort in your home.
What Role Does Humidity Play in Determining Your Thermostat Settings in Fall?
Humidity plays a significant role in determining thermostat settings in the fall. High humidity can make the air feel warmer, while low humidity can create a cooler sensation at the same temperature.
- Impact of Humidity on Temperature Perception
- Humidity and Energy Efficiency
- Health Considerations Related to Humidity
- Seasonal Temperature Adjustments
The relationship between humidity and thermostat settings influences various aspects of comfort and efficiency.
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Impact of Humidity on Temperature Perception:
The impact of humidity on temperature perception is crucial. High humidity levels increase the sensation of warmth, making it feel hotter than the actual temperature. Conversely, low humidity can lead to a cooler perception. The American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) suggests that comfortable indoor humidity levels should be between 30% and 50%. This range helps maintain comfort and efficiency. -
Humidity and Energy Efficiency:
Humidity affects energy efficiency in home heating and cooling systems. Higher humidity may require air conditioning systems to work harder to achieve desired temperatures. According to the U.S. Department of Energy, maintaining lower humidity levels can lead to reduced energy consumption. Efficient humidity control, such as using dehumidifiers, helps optimize indoor climates, resulting in lower energy bills. -
Health Considerations Related to Humidity:
Humidity plays a role in health, particularly respiratory conditions. High humidity can promote mold growth, leading to respiratory issues. The World Health Organization recommends controlling indoor humidity to reduce health risks. Maintaining humidity at optimal levels can improve overall air quality, fostering better health, particularly during fall allergies. -
Seasonal Temperature Adjustments:
Seasonal temperature adjustments are essential in fall. As outdoor temperatures drop, homeowners should adjust their thermostat settings based on humidity levels. The U.S. Environmental Protection Agency (EPA) suggests setting thermostats to 68°F for energy savings, while considering humidity for comfort adjustments. Homeowners may find it beneficial to monitor indoor humidity to ensure an optimal living environment throughout the fall.
Why Is Programming Your Thermostat Beneficial During the Fall Season?
Programming your thermostat during the fall season is beneficial for several reasons, including increased energy efficiency, enhanced comfort, and cost savings. By setting a schedule that aligns with your daily routine, you can optimize heating and reduce unnecessary energy consumption.
According to the U.S. Department of Energy, wisely programming your thermostat can save you up to 10% on heating costs annually. This authoritative source emphasizes the importance of efficient home heating practices.
The main reasons for programming your thermostat in the fall include managing temperature fluctuations, accommodating shorter daylight hours, and adjusting to cooler outdoor temperatures. As the season changes, outdoor temperatures drop, leading to the need for heating indoors. Programmable thermostats allow you to set specific times for the heating system to operate, preventing energy waste during the day when no one is home.
A programmable thermostat is a device that automatically adjusts your home’s temperature based on pre-set schedules. This saves energy by reducing the need for heating when it is not necessary. When you set your thermostat lower during the hours you are not at home or while you are sleeping, it can significantly lower energy usage.
The mechanism behind a programmable thermostat involves sensors that detect temperature changes. When the ambient temperature falls below your desired setting, the thermostat signals the heating system to turn on. Conversely, it will turn off when the set temperature is achieved. This cycle helps maintain a balanced indoor environment without overusing energy.
Specific conditions that contribute to the benefits of programming include sharp temperature drops typical in fall evenings, which often lead to increased energy demands. For example, a household may set the thermostat to 68°F when at home and lower it to 60°F during work hours. This proactive adjustment not only ensures comfort when home but also minimizes energy bills throughout the season.
How Can You Maintain a Comfortable Home While Reducing Energy Costs in Fall?
To maintain a comfortable home while reducing energy costs in fall, consider the following strategies:
| Strategy | Description |
|---|---|
| Adjust Thermostat Settings: | Lower your thermostat by a few degrees and wear warmer clothing to stay comfortable. |
| Seal Drafts: | Check for drafts around windows and doors and use weatherstripping or caulk to seal them. |
| Utilize Ceiling Fans: | Reverse the direction of ceiling fans to push warm air down during cooler months. |
| Use Energy-Efficient Appliances: | Upgrade to energy-efficient appliances that consume less electricity. |
| Insulate Your Home: | Ensure that your attic and walls are properly insulated to retain heat. |
| Regular Maintenance: | Schedule maintenance for your heating system to ensure it operates efficiently. |
| Utilize Natural Light: | Open curtains during the day to let sunlight in, which can help warm your home naturally. |
| Consider Smart Home Technology: | Implement smart thermostats and energy monitoring systems to optimize energy use. |
| Perform a Home Energy Audit: | Hire a professional to assess your home’s energy efficiency and identify areas for improvement. |
What Essential Tips Help Optimize Your Thermostat’s Efficiency During Fall?
To optimize your thermostat’s efficiency during fall, you should follow essential tips. These tips help in lowering energy costs while maintaining comfort.
- Set the thermostat to 68°F (20°C) during the day.
- Lower the thermostat to 60°F (15°C) at night.
- Use a programmable thermostat for automatic adjustments.
- Ensure proper insulation and sealing of windows and doors.
- Regularly clean and replace air filters.
- Schedule a seasonal HVAC system check.
- Utilize ceiling fans to circulate warm air.
- Close vents in unused rooms to conserve heat.
Transitioning from these tips, it is crucial to understand how each point can improve your heating system’s efficiency.
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Setting the Thermostat to 68°F (20°C) During the Day: Setting your thermostat to 68°F during the day provides a comfortable indoor temperature while reducing energy consumption. The U.S. Department of Energy suggests this setting as it balances comfort and efficiency, potentially saving about 1% on heating costs for each degree you lower the thermostat over an eight-hour period.
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Lowering the Thermostat to 60°F (15°C) at Night: Lowering the thermostat during nighttime hours can lead to significant savings. According to the U.S. Department of Energy, dropping the temperature at night while you sleep can be particularly effective since your body needs less heat, thereby reducing your energy bill.
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Using a Programmable Thermostat: A programmable thermostat allows for automatic temperature adjustments based on your schedule. This efficiency can save you around $180 a year on energy costs by ensuring you do not heat your home unnecessarily when you’re not home.
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Ensuring Proper Insulation and Sealing: Proper insulation and sealing prevent heat loss through walls, attics, and gaps around doors. The U.S. Energy Star program recommends ensuring homes meet insulation standards as this can reduce heating and cooling needs by 20% to 30%.
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Regularly Cleaning and Replacing Air Filters: Dirty air filters reduce airflow, forcing your system to work harder. The U.S. Department of Energy recommends checking filters monthly and replacing them every three months, or more often if you have pets or allergies, to maintain system efficiency.
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Scheduling a Seasonal HVAC System Check: Regular HVAC maintenance ensures that your system operates efficiently. The American Society of Heating, Refrigerating and Air-Conditioning Engineers suggests this practice can improve efficiency by up to 15% and prolong the system’s lifespan.
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Utilizing Ceiling Fans to Circulate Warm Air: Ceiling fans, when set to rotate clockwise, can help improve heat distribution. This method can warm up a room by distributing warm air that rises and may allow you to lower the thermostat setting by approximately 4°F without sacrificing comfort.
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Closing Vents in Unused Rooms: Closing vents in rooms that are rarely used can focus heating efforts on occupied spaces. Studies on HVAC usage indicate that blocking vents can optimize overall system efficiency, provided the system is diagnosed correctly to accommodate this change without unbalancing airflow.
How Can Regular Maintenance Improve Your Thermostat’s Performance in Fall?
Regular maintenance can significantly enhance your thermostat’s performance in fall by ensuring accurate temperature readings, optimizing energy efficiency, and prolonging the device’s lifespan. Each of these points contributes to a more comfortable living environment while also saving on energy costs.
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Accurate temperature readings: Regularly cleaning the thermostat and checking its placement can prevent inaccuracies. Dust and debris can interfere with the sensors. A study by the U.S. Department of Energy (2021) shows that precise temperature control can lead to improved comfort levels by 20%.
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Optimizing energy efficiency: A well-maintained thermostat can reduce energy consumption by adjusting heating schedules based on usage patterns. According to Energy Star (2022), properly calibrated thermostats can save consumers up to 10-15% on annual heating bills. This efficiency results from using programmable settings that match daily routines, preventing unnecessary heating.
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Prolonging device lifespan: Routine checks can help identify issues before they become serious. Regularly replacing batteries and ensuring that connections are secure can extend the thermostat’s life. The National Association of Home Builders (2021) states that proper maintenance can double the lifespan of household electrical devices.
Addressing these factors through regular maintenance can lead to improved thermostat performance, creating a more efficient, cost-effective, and comfortable home environment in the fall season.
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