Parameters

P052 Tank Dimension A

Dimension A as used in P050 Tank Shape.

Values

Range: 0.0 to 9999

 

 

Preset: 0.000

 

Related

P050 Tank Shape

 

 

 

Enter one of the following:

height of the tank bottom if P050 = 2, 3, 4, or 5

or

length of one end section of the tank if P050 = 7, in Units (P005)

P053 Tank Dimension L

Dimension L as used in P050 Tank Shape.

Values

Range: 0.0 to 9999

 

 

Preset: 0.000

 

Related

P050 Tank Shape

 

 

 

Enter the following:

tank length (excluding both end sections) if P050 = 7

Universal Volume Calculation

P054 and P055 use secondary indices.To access a secondary index:

1.Press DISPLAY to activate primary index. The icon appears under the index field.

2.Enter the values to set the breakpoints.

P054 Level Breakpoints (Universal Volume Calculation)

When the tank shape is too complex for any of the preconfigured shapes, you can specify the volume based on segments.

Primary Index

Breakpoint

Values

Range: 0.0 to 9999

Related

P055 Volume Breakpoints

 

 

 

Enter the following:

up to 32 level breakpoints (where volume is known) if P050 = 9 or 10

Page 34

SITRANS LU01 – INSTRUCTION MANUAL

7ML19985BE02

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Siemens LU01 instruction manual P052 Tank Dimension a, P053 Tank Dimension L, Universal Volume Calculation
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LU01 specifications

The Siemens LU01 is a state-of-the-art train control and signaling system designed to enhance the safety and efficiency of rail networks. This sophisticated system leverages advanced technologies and innovative features to ensure seamless train operations, lower maintenance costs, and improved overall performance.

One of the main features of the Siemens LU01 is its implementation of the European Train Control System (ETCS). ETCS is a vital component in modernizing rail infrastructure across Europe, aiming to standardize various train control systems for enhanced interoperability among different national networks. The LU01 facilitates the integration of ETCS Level 1 and Level 2, allowing for both trackside equipment and onboard systems to work in harmony to manage train movements effectively.

Additionally, the LU01 employs a decentralized architecture that enhances system reliability and minimizes downtime. This design means that it can operate even in the case of individual component failures, ensuring that train operations remain uninterrupted. Furthermore, the LU01 utilizes advanced diagnostic tools and predictive maintenance technologies to monitor system performance continuously. This proactive approach allows for early identification of potential issues and timely maintenance, which contributes to reducing operational costs.

Another critical characteristic of the Siemens LU01 is its capability for real-time data transmission. The system integrates wireless communication technologies, enabling constant connectivity between trains and control centers. This feature allows for real-time updates on train positions, speeds, and other critical operational data, thereby enhancing situational awareness for train operators and maintaining optimal schedules.

Moreover, the LU01 is designed to be compatible with existing rail infrastructure, ensuring a smooth transition for railway operators looking to upgrade their signaling systems without extensive overhauls. This adaptability makes it an appealing choice for both new projects and retrofitting existing rail networks.

In summary, the Siemens LU01 stands out for its cutting-edge features, including support for ETCS, decentralized architecture, real-time data communication, and compatibility with legacy systems. With these technologies and characteristics, the LU01 significantly contributes to the safety, efficiency, and sustainability of modern rail transport systems, making it a pivotal solution in the evolution of railway operations.
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