About the controls on the air conditioner

Features and appearance will vary.

Lights next to the touch pads on the air conditioner control panel indicate the selected settings.

NOTE: The display always shows the room temperature except when setting the Set temperature or the Delay timer.

(on some models)

Light indicates the unit is in the temperature or

delay time Set

.

Light indicates the delay timer is set.

Delay 1–24hr

 

 

 

Delay timer

 

 

Delay timer

Decrease

 

 

Increase

Mode select

 

 

Auto Fan

 

 

 

on

Fan speed

Fan

Fan

Fan speed

Decrease

 

 

Increase

Temperature

 

 

Unit power

set Increase

 

 

on/off

and Decrease

 

 

 

Air Conditioner Controls

Controls

Power Pad

Turns air conditioner on and off. When turned on, the display will show the room temperature.

Remote Control

Mode Pad

Use to set the air conditioner to Cool, Energy Saver or Fan Only mode.

Display

Shows the room temperature or time remaining on the Delay timer. Shows the Set temperature while setting the temperature in Cool or Energy Saver modes. The Set light will turn on while setting.

Temp Increase /Decrease Pads

Use to set temperature when in Cool or Energy Saver mode. The Set light will turn on while setting.

Delay Timer Increase(+) /Decrease (–)

Pads

Each touch of the Increase / Decrease pads on the unit or the Increase + / Decrease

pads on the remote control will set the delay time when using the Delay 1–24hrtimer. The Set light will turn on while setting.

Fan Speed Pads

Use to set the fan speed to Low, Med, High or Auto on the unit. NOTE: On the remote control, use the fan speed Increase + / Decrease pads to set the fan speeds to Low, Med or High. Use the Auto pad to turn Auto fan on.

Delay Pads/Delay 1-24hr Pad

Delay ON—When the air conditioner is off, it can be set to automatically come on in 1 to 24 hours at its previous mode and fan settings.

Delay OFF—When the air conditioner is on, it can be set to automatically turn off in 1 to

24hours.

How to set:

Press the Delay 1–24hrpad on the unit or the Delay pad on the remote control. Each touch of the Increase / Decreasepads on the unit or the Increase + / Decrease pads on the remote control will set the timer in 1-hour intervals. The Set light will turn on while setting.

To review the remaining time on the Delay 1–24hrtimer, press the Delay 1–24hrpad on the unit or the Delay pad on the remote control. Use the Increase / Decrease pads on the unit or the Increase + / Decrease pads on the remote control to set a new time if desired.

To cancel the timer, press the Delay 1–24hr pad until the light on the Delay 1–24hr pad goes off.

Note: The default temperature reading on the display is degree Fahrenheit ( °F) . To change the display to degree Celcius (°C), press the Temp Increase and Temp Decrease buttons together and hold for 3 seconds . Repeat the process to change back to degree Fahrenheit (°F)

4

Page 4
Image 4
GE AEQ25, AEM25 operating instructions About the controls on the air conditioner

AEM25, AEQ25 specifications

The GE AEQ25 and AEM25 are advanced aircraft engines that exemplify General Electric's commitment to innovation and efficiency in aviation technology. These engines are designed to power a range of medium-range aircraft, with a focus on providing superior performance, reliability, and sustainability.

One of the standout features of the AEQ25 and AEM25 engines is their state-of-the-art turbofan design. The engines incorporate advanced aerodynamics that enhance fuel efficiency while delivering powerful thrust. This turbofan architecture allows for a significant reduction in fuel consumption compared to older engine models, aligning with global efforts to lower carbon emissions in the aviation industry.

The AEQ25 and AEM25 engines utilize cutting-edge materials and manufacturing techniques. Timeless superalloys and composite materials are strategically employed to endure high temperatures and reduce weight. This combination not only enhances performance but also contributes to overall maintenance efficiency. The engines' design includes modular components, allowing for easy inspection and repairs, which minimizes downtime for aircraft operators and enhances the operational readiness of fleets.

A noteworthy technological advancement in these engine models is the introduction of digital monitoring and analytics capabilities. With integrated sensors, the AEQ25 and AEM25 engines provide real-time data on performance metrics, allowing for predictive maintenance. This technology helps operators anticipate potential issues before they become significant problems, ensuring that aircraft remain in optimal operating condition.

In terms of noise reduction, the AEQ25 and AEM25 engines are engineered to comply with stringent regulatory standards. Acoustic liners and optimized fan designs contribute to significantly lower noise levels during takeoff and landing, minimizing the impact on surrounding communities. This focus on noise abatement is increasingly essential as airports strive to balance growth with community concerns.

The AEQ25 and AEM25 engines are also designed with future sustainability in mind. They are compatible with sustainable aviation fuels (SAFs), further enhancing their environmental credentials. These bio-derived fuels can significantly reduce lifecycle greenhouse gas emissions, making these engines a preferred choice for environmentally conscious airlines.

Overall, the GE AEQ25 and AEM25 engines represent a blend of innovative technology, efficiency, and sustainability, poised to meet the demands of modern air travel while paving the way for a greener future in aviation. With their reliable performance, reduced operational costs, and commitment to environmental stewardship, these engines are set to play a crucial role in the evolving landscape of the aerospace industry.