Betriebsanleitung SICLOCK GPS1000

3.2. Einschlaggefährdete Bereiche bei Gebäuden

Die Ermittlung der potentiellen Blitzeinschlagsbereiche kann nun auf einfache Weise dadurch ermittelt werden, indem man die Blitzkugel in Gedanken über alle Flächen und Kanten des zu untersuchenden Gebäudes rollt (siehe Abbildung 7 und Abbildung 8).

Überall dort, wo die Blitzkugel Flächen oder Kanten berührt, liegen einschlaggefährdete Bereiche (rot dargestellt).

Abbildung 7: Ermittlung der potentiellen Blitzeinschlagsbereiche (normales Gebäude)

Abbildung 8: Ermittlung der potentiellen Blitzeinschlagsbereiche (Industriegebäude)

3.3. Induktionswirkung bei Blitzeinschlägen

Bestellnummer 2XV9450-1AR82-BA

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Siemens 2XV9450-1AR82 user manual Einschlaggefährdete Bereiche bei Gebäuden, Induktionswirkung bei Blitzeinschlägen

2XV9450-1AR82 specifications

The Siemens 2XV9450-1AR82 is a versatile component designed for various industrial applications, known for its reliability and efficiency. Part of Siemens’ extensive portfolio, this device plays a critical role in optimizing system performance and ensuring sustainable operations in numerous environments.

One of the main features of the 2XV9450-1AR82 is its ability to function under diverse conditions while maintaining high operational efficiency. This component is engineered to operate at a wide temperature range, allowing it to perform reliably in both extreme heat and cold without compromising on functionality.

The technology utilized in the Siemens 2XV9450-1AR82 includes advanced electronic circuitry that enhances its performance capabilities. This feature enables seamless integration with other components in a system, promoting coordinated operations and enhanced reliability. Moreover, the use of state-of-the-art materials in its construction ensures durability, contributing to its longevity and low maintenance costs.

Another significant characteristic of the 2XV9450-1AR82 is its energy efficiency. In an era where energy conservation is critical for both environmental and economic reasons, this component is designed to minimize energy consumption. This not only reduces operational costs but also helps companies meet sustainability goals, making it an attractive option for businesses focused on minimizing their ecological footprint.

The flexibility of the Siemens 2XV9450-1AR82 allows it to be used in a variety of sectors, including manufacturing, transportation, and energy management. Its adaptability means that it can meet the specific needs of different industries, thereby enhancing operational effectiveness across various applications.

Additionally, the built-in diagnostic features of the 2XV9450-1AR82 provide users with essential information regarding performance status and potential issues. This proactive approach to maintenance ensures that potential problems are addressed before they escalate, reducing downtime and improving overall productivity.

In summary, the Siemens 2XV9450-1AR82 stands out for its robust features, advanced technology, and efficiency, making it an invaluable asset in modern industrial applications. Its ability to adapt to various environments and its focus on energy savings reflect Siemens' commitment to innovation and sustainable development in the industry. As industries continue to evolve, the Siemens 2XV9450-1AR82 remains a key component in driving progress and enhancing operational capabilities.