Configuring the Island Bus

An Example

For example, if you have an island bus with eight I/O modules:

 

 

 

 

 

 

 

 

1NIM

2STB PDT 3100 24 VDC power distribution module

3STB DDI 3230 24 VDC two-channel digital input module

4STB DDO 3200 24 VDC two-channel digital output module

5STB DDI 3420 24 VDC four-channel digital input module

6STB DDO 3410 24 VDC four-channel digital output module

7STB DDI 3610 24 VDC six-channel digital input module

8STB DDO 3600 24 VDC six-channel digital output module

9STB AVI 1270 +/-10 VDC two-channel analog input module

10STB AVO 1250 +/-10 VDC two-channel analog output module

11STB XMP 1100 island bus termination plate

The NIM would auto-address it as follows. Note that the PDM and the termination plate do not consume island bus addresses:

Module

Physical Location

Island Bus Address

 

 

 

NIM

1

127

 

 

 

STB PDT 3100 PDM

2

not addressed—does not exchange data

 

 

 

STB DDI 3230 input

3

1

 

 

 

STB DDO 3200 output

4

2

 

 

 

STB DDI 3420 input

5

3

 

 

 

STB DDO 3410 output

6

4

 

 

 

STB DDI 3610 input

7

5

 

 

 

STB DDO 3600 output

8

6

 

 

 

STB AVI 1270 input

9

7

 

 

 

STB AVO 1250 output

10

8

 

 

 

890USE17700 April 2004

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Schneider Electric 890USE17700 manual An Example, Module Physical Location Island Bus Address
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890USE17700 specifications

Schneider Electric has long been recognized as a leader in energy management and automation solutions, and one of its innovative offerings is the Schneider Electric 890USE17700. This product is part of the company's comprehensive portfolio aimed at enhancing energy efficiency and operational performance across various sectors.

The 890USE17700 is primarily designed for use in industrial applications, serving as an advanced device that can significantly contribute to smarter energy usage. One of its main features is its ability to optimize energy consumption through intelligent control systems. This is achieved through real-time monitoring and analysis, allowing users to identify inefficiencies and implement corrective actions swiftly.

Equipped with state-of-the-art technology, the 890USE17700 incorporates Schneider Electric's EcoStruxureâ„¢ platform, which leverages the Industrial Internet of Things (IIoT) principles. This platform allows for seamless connectivity of devices and systems, enabling users to collect valuable data that can drive decision-making processes. Moreover, the real-time analytics provided by this technology ensure that organizations can respond promptly to changing operational conditions.

Safety and reliability are other key characteristics of the 890USE17700. The device is built with robust safety features that comply with international standards, ensuring protection against electrical faults and other potential hazards. This not only enhances the operational reliability of industrial systems but also supports compliance with regulatory requirements.

The 890USE17700 also offers flexibility in deployment, allowing it to integrate with existing systems and infrastructure without significant modifications. Its user-friendly interface simplifies setup and programming, making it accessible for various levels of technical expertise. This ease of use encourages widespread adoption across diverse industrial environments.

In summary, the Schneider Electric 890USE17700 stands out as a premier solution for organizations aiming to enhance their energy efficiency and operational performance. Its integration with the EcoStruxure platform, focus on safety, and flexibility make it a compelling choice for modern industrial applications. As industries continue to evolve towards smarter and more sustainable practices, the 890USE17700 is poised to play a crucial role in this transformation.
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