Ajuste VIERA LinkTM

Si conecta el equipo que tiene la función “HDAVI Control” al televisor con un cable HDMI, usted puede disfrutar utilizando la función más conveniente. Consulte “Control VIERA Link” en las pág. 28-33. Antes de utilizar estas funciones, usted necesita poner “VIERA Link” en “Sí” como se muestra más abajo.

Visualice el menú.

Seleccione “Ajuste”

Menú

Ajuste

2/2

Seleccione

 

Ajuste VIERA Link

 

 

 

Eco/ahorro energía

 

 

 

Ajuste avanzado

 

Siguiente

 

Ajuste Inicial

 

Acerca de

Regreso prefijados

Ajusta el Modo de Navegación, Idioma,

Reloj, Canales, Entradas y otros ajustes.

Seleccione “Ajuste VIERA Link”

Menú

Ajuste

2/2

Seleccione

 

Ajuste VIERA Link

 

 

 

Eco/ahorro energía

 

 

 

Ajuste avanzado

 

Siguiente

 

Ajuste inicial

 

Visión Utilización de

Pulse para salir de la pantalla de menú

Para volver a la pantalla anterior

Seleccione “VIERA Link”

Menú

Ajuste VIERA Link

Seleccione

 

VIERA Link

 

 

Prende control

 

No

 

Apaga control

 

 

Modo de Ahorro de energía

 

Inicio Rápido

 

Ahorro energía de equipo no usado

 

No (mantener encendido)

 

Altavoz inicial

Interno

Habilita o deshabilita interoperabilidad de dispositivos HDMI con “HDAVI Control”.

Seleccione “Sí”.

 

(La opción predeterminada es

Cambie

“Sí”)

 

Ahora puede establecer cada función “VIERA Link” según sus preferencias (pág. 30-33)

Nota

Si no se ha conectado un equipo HDMI o si se utiliza un equipo HDMI estándar (sin “VIERA Link”), seleccione “No”.

Para conocer detalles de las conexiones del equipo externo, consulte los manuales de instrucciones del equipo.

VIERA TOOLS

21

Page 21
Image 21
Panasonic TQB2AA0573 quick start Visualice el menú Seleccione Ajuste, Seleccione Ajuste Viera Link, Seleccione Viera Link

TQB2AA0573 specifications

The Panasonic TQB2AA0573 is a versatile and advanced electronic component tailored for a range of applications, particularly in the domain of energy management and automation. This model is particularly notable for its reliability and efficiency, making it a preferred choice for various industries.

One of the standout features of the TQB2AA0573 is its integration capabilities. The component is designed to seamlessly interface with a range of devices, allowing for enhanced connectivity in smart grids and home automation systems. This ensures that users can potentially control and monitor their energy consumption with minimal effort, leading to improved energy efficiency.

The technology underpinning the TQB2AA0573 is equally impressive. It employs advanced semiconductor technology, which allows for high-performance operation while maintaining low power consumption. This is crucial in today's environmentally conscious landscape, where energy-saving solutions are paramount. The component's efficient energy management is supported by a robust architecture that facilitates quick and reliable data processing.

Another significant characteristic of the TQB2AA0573 is its temperature resilience. Designed to operate effectively across a wide range of temperatures, this component ensures consistent performance in various environmental conditions. This durability is essential for applications in industrial settings, where temperature fluctuations can be common.

The TQB2AA0573 also features integrated safety mechanisms, which help to protect connected devices from potential power surges or faults. This reliability is vital for safeguarding investments and ensuring the longevity of the system it is integrated into.

In summary, the Panasonic TQB2AA0573 stands out in the market for its advanced integration capabilities, high-performance semiconductor technology, wide temperature range, and robust safety features. These characteristics make it an ideal choice for applications ranging from smart home systems to more complex industrial automation processes, solidifying its role as a key player in the next generation of energy-efficient solutions. As industries continue to pivot towards smarter energy management, the TQB2AA0573 is well-positioned to meet the growing demands of modern technological applications.