www.GEAppliances.com

¡PELIGRO! RIESGO DE QUE

UN NIÑO PUEDA QUEDAR ATRAPADO

DESHACERSE DEBIDAMENTE DE SU REFRIGERADOR

Seguridad

El atrapamiento y la sofocación de los niños no son un problema del pasado. Los refrigeradores abandonados son un peligro…aunque sea sólo por “pocos días.” Si se deshace de su viejo refrigerador, por favor siga las instrucciones abajo para ayudarnos a prevenir algún accidente.

Antes de deshacerse de su viejo refrigerador o congelador:

Quite las puertas.

Deje los entrepaños en su sitio para que los niños no se suban.

Deshacerse del CFC

Su antiguo refrigerador puede tener un sistema de refrigeración que usó CFC (clorofluorocarbonos). Se cree que los CFC son nocivos para el ozono estratosférico.

Si se deshace del antiguo refrigerador, asegúrese de que se deshaga del refrigerante con CFC correctamente por un técnico calificado. Si se libera a propósito el refrigerante con CFC puede estar sujeto a las multas y al encarcelamiento bajo las estipulaciones de la legislación ambiental.

Operación

USO DE CABLES DE EXTENSION

Debido a los accidentes potenciales que pudieran ocurrir bajo determinadas condiciones, se recomienda estrictamente no usar cables de extensión.

Sin embargo, si decidiera usarlos, es absolutamente necesario que sea del tipo UL trifilar para aparatos y cuente con una clavija con conexión a tierra y que el cable eléctrico sea de 15 amperios (mínimo) y 120 voltios.

61

Instalación

Solucionar problemas Servicio al consumidor

Page 61
Image 61
GE 197D3351P003 USO DE Cables DE Extension, Antes de deshacerse de su viejo refrigerador o congelador, Deshacerse del CFC

197D3351P003 specifications

The GE 197D3351P003 is a highly regarded component in the realm of electronic systems, particularly used in the aviation and aerospace industries. This product is a vital part of the engine control units (ECUs) that manage various critical functions of modern aircraft engines. Its design reflects advanced engineering principles aimed at ensuring reliability, efficiency, and adaptability.

One of the primary features of the GE 197D3351P003 is its exceptional durability. Built to withstand extreme environmental conditions, this component operates effectively in a wide range of temperatures, pressures, and vibrations. The rugged construction is essential for maintaining performance and safety in demanding aviation scenarios.

The technology incorporated in the GE 197D3351P003 is at the forefront of innovation. It uses advanced algorithms to process data quickly and accurately, allowing for real-time monitoring and control of engine parameters. This enables the engine to operate within optimal performance bounds, enhancing fuel efficiency and reducing emissions. The integration of modern software also means that updates and improvements can be implemented swiftly, keeping the system current with the latest advancements in aviation technology.

Another significant characteristic of this component is its modular design. This feature allows for easy integration into existing systems and facilitates maintenance and upgrades, which are crucial for managing the lifecycle of aircraft. The modularity also contributes to reducing downtime during servicing operations, a vital consideration in aviation where time is of the essence.

Furthermore, the GE 197D3351P003 is built with redundancy in mind. In aviation environments, the failure of any single component can have serious consequences. Therefore, this part incorporates multiple layers of backup systems to ensure continuous operation, even in the event of a malfunction. This focus on redundancy enhances the overall reliability of the aircraft, giving operators peace of mind.

In summary, the GE 197D3351P003 stands out due to its durability, advanced technology, modular design, and built-in redundancy. These features make it an essential component for contemporary aviation systems, contributing to safer, more efficient, and environmentally friendly aircraft operations. As technologies continue to evolve, the role of components like the GE 197D3351P003 will be critical in shaping the future of aerospace engineering.