Adjusting the OSD Screen (DVI and PC)

7.6Options for OSD Setup

Open the OSD main menu and select the option SETUP MENU, see chapter 7.1:

OSD Main Menu.

The SETUP MENU includes 4 additional items for providing more options for OSD setup and other accessory items.

The submenu contains 4 options:

zOSD H.POSITION

This option is used to set up the horizontal position of the OSD menu.

zOSD V.POSITION

This option is used to set up the vertical position of the OSD menu.

zOSD TIMEOUT

This option is used to set the timeout of the OSD menu. There are seven options for the automatic timeout: 10 – 120 seconds.

zLANGUAGE

This option can be used to select from the following eight languages:

English,

French,

German,

Spanish,

Italian,

Polish,

Czech,

Swedish.

7.7Open the Information

Open the OSD main menu and select the option INFORMATION, see chapter 7.1:

OSD Main Menu.

The INFORMATION menu provides the user with detailed information regarding the version, resolution, H-FREQ and V-FREQ.

7.8Reset to Factory Default Setting

Open the OSD main menu and select the option RECALL, see chapter 7.1: OSD

Main Menu.

The option Recall returns the monitor to its factory default settings.

NOTE

If there is no operation or automatic adjustment within the set time, the screen will be restart automatically.

7.9Exit the OSD Main Menu

The EXIT MENU provides the user to exit the OSD without waiting for timeout.

 

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Siemens Building Technologies

 

Fire Safety & Security Products

10.2006

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Siemens CMTC1920 Options for OSD Setup, Open the Information, Reset to Factory Default Setting, Exit the OSD Main Menu

CMTC1920, CMTC1720 specifications

Siemens has made significant advancements in the realm of industrial automation with its CMTC1920 and CMTC1720 models. These cutting-edge devices are designed to enhance operational efficiency and flexibility in manufacturing environments.

The Siemens CMTC1920 is equipped with a powerful processing unit that allows for high-speed data processing and real-time control functionality. This model features an enhanced graphical user interface that facilitates ease of use, allowing operators to monitor and manage their systems with minimal training. The CMTC1920 supports various communication protocols, including Ethernet, which ensures seamless integration with existing systems and enables connectivity with other industrial devices.

One of the key technologies integrated into the CMTC1920 is the advanced I/O modularity, which allows users to configure and expand the system according to specific requirements. This means that businesses can easily upgrade their systems as they grow, ensuring long-term viability and maximizing return on investment. Additionally, the CMTC1920 incorporates sophisticated diagnostic capabilities that help in predictive maintenance, reducing downtime and increasing overall productivity.

In contrast, the Siemens CMTC1720 offers a more compact solution without compromising on performance. Its smaller footprint makes it ideal for applications where space is at a premium. The device features similar connectivity options and modular capabilities but is tailored for less demanding applications, making it a cost-effective choice for various smaller-scale operations.

Both models are built with robust industrial-grade materials, ensuring durability in challenging environments. They include features like temperature and vibration resistance, making them suitable for a wide range of applications, from factory floors to remote monitoring stations.

Another striking characteristic of both the CMTC1920 and CMTC1720 is their support for advanced data analytics. They enable users to collect and analyze operational data, providing insights that are crucial for process optimization and decision-making. The ability to implement IoT technologies further enhances their functionality, allowing users to harness the power of interconnected systems.

Ultimately, Siemens' CMTC1920 and CMTC1720 are designed not only to meet current demands in industrial automation but also to pave the way for future innovations. Their combination of advanced technologies, modular design, and robust construction makes them a valuable asset for any manufacturing operation looking to enhance efficiency and competitiveness in today's fast-paced industrial landscape.