Radiant Surface Units

Safety Instructions

IMPORTANT SAFETY INFORMATION.

READ ALL INSTRUCTIONS BEFORE USING.

WARNING!

Use care when touching the cooktop. The glass surface of the cooktop will retain heat after the controls have been turned off.

Troubleshooting Tips Care and Cleaning Operating Instructions

■Avoid scratching the glass cooktop.

The cooktop can be scratched with items such as sharp instruments, rings or other jewelry.

■Never use the glass cooktop surface as a cutting board.

■Do not place or store items on top of the glass cooktop surface when it is not in use.

■Be careful when placing spoons or other stirring utensils on glass cooktop surface when it is in use. They may become hot and could cause burns.

■Avoid heating an empty pan. Doing so may damage the cooktop and the pan.

■Do not allow water, other liquids or grease to remain on the cooktop.

■Do not operate the glass surface units if the glass is broken. Spillovers or cleaning solution may penetrate a broken cooktop and create a risk of electrical shock. Contact a qualified technician immediately should your glass cooktop become broken.

■Spilled or burnt-on foods may cause accidental activation or deactivation of the keypad. Clean the keypad thoroughly, and controls will resume normal operation.

■To prevent accidental activation of the cooktop, do not place any objects on or near the keypad.

■Clean the cooktop with caution. Always lock the control panel using the control lock feature and wait until the entire glass surface is cool before attempting to clean

the cooktop. See the Locking the Cooktop section for details. If a wet sponge or cloth is used to wipe spills on a hot surface unit, be careful to avoid steam burns. Some cleansers can produce noxious fumes if applied to a hot surface.

■NOTE: We recommend that you avoid wiping any surface unit areas until they have cooled and the indicator light has gone off. Sugar spills are the exception to this. Please see the Cleaning the glass cooktop section.

■When the cooktop is cool, use only CERAMA BRYTE® Ceramic Cooktop Cleaner and the CERAMA BRYTE® Cleaning Pad to clean the cooktop.

■To avoid possible damage to the cooking surface, do not apply the cleaning cream to the glass surface when it is hot.

■After cleaning, use a dry cloth or paper towel to remove all the cleaning cream residue.

■Read and follow all instructions and warnings on the cleaning cream labels.

■Large scratches or impacts to cooktops can lead to broken or shattered glass.

■Use care when touching the cooktop. The glass surface of the cooktop will retain heat after the controls have been turned OFF.

■Do not stand on the glass cooktop.

Consumer Support

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JP939, JP969 specifications

The GE JP969 and JP939 are advanced jet engine variants designed to power the next generation of regional and narrow-body aircraft. With a commitment to enhanced efficiency, reliability, and performance, these engines incorporate cutting-edge technologies that significantly improve the overall flying experience while meeting stringent environmental regulations.

One of the defining features of the JP969 and JP939 is their high bypass ratio, which not only optimizes fuel efficiency but also minimizes noise pollution. By maximizing the amount of air that flows around the engine core, these engines achieve a perfect balance between thrust and environmental sustainability. This characteristic is essential for modern aviation as airlines seek to reduce their carbon footprints while maintaining operational efficiency.

Incorporating advanced materials technology, both the JP969 and JP939 benefit from lightweight composite fan blades and advanced alloys that can withstand extreme temperatures. This not only enhances the engines' durability but also contributes to their ability to maintain performance at high altitudes and during diverse operating conditions.

The engine control systems of the JP969 and JP939 are equipped with sophisticated digital engine control technology, enabling real-time monitoring and adjustments to optimize performance. This system enhances the operational flexibility of the engines, allowing them to adapt to varying flight profiles without compromising on efficiency or reliability.

Another key characteristic of these engines is their maintenance-friendly design. With an emphasis on reducing downtime, the JP969 and JP939 allow for easier access to critical components, thereby streamlining maintenance procedures. This feature is crucial for airlines aiming to maximize fleet availability and reduce operational costs.

Moreover, both engines incorporate state-of-the-art aerodynamics, with intricately designed fan blades and internal airflow paths that reduce drag and enhance overall performance. The thoughtful engineering behind these designs not only improves thrust but also contributes to reduced fuel consumption, making the JP969 and JP939 highly appealing for modern operators.

In conclusion, the GE JP969 and JP939 embody an impressive blend of efficiency, reliability, and advanced technology. Their high bypass ratio, innovative materials, sophisticated control systems, maintenance-friendly design, and aerodynamically optimized structures make them ideal choices for airlines looking to enhance their fleet's performance while adhering to environmental and operational standards. As aviation continues to evolve, these engines represent a significant leap forward in the pursuit of sustainable and efficient air travel.