| Attribute | Value |
|---|---|
| Manufacturer | NELES AUTOMATION / METSO AUTOMATION |
| Model | IOB 65428977A / 65428977B |
| Part Number | 65428977 |
| Name | I/O Motherboard 1E-17 |
| Maker Reference | S420154 |
| Maker | CAE VALMARINE A/S |
| Object | HO_0002779 Automation System, Damatic DNA 4.1 |
| Additional Reference | 05 23958382 |
| Version | 1V0 |
| Origin | Made in Finland |
| Weight | 650 gm |
| Reference Numbers | 51560 |
What is an I/O Backplane?
Understanding an I/O backplane before reading about the specific NELES Automation S420154 is crucial. An I/O backplane represents a central platform for module interfacing in any automation system. It ensures distribution of power and routing of data, along with providing a steady interface between controllers or processors and input/output modules.
Important Characteristics of NELES Automation S420154
High Reliability
Built with industrial-grade materials, the S420154 ensures durability and minimal downtime, even in harsh operating conditions.
Scalability:
Its modular design makes it easy to scale automation systems, accommodating expanding operational requirements without extensive reconfiguration.
Efficient Communication:
Equipped with advanced communication protocols, the S420154 facilitates seamless data exchange across connected devices and systems.
Compact Design:
The space-saving design allows for easy integration into existing setups, maximizing efficiency in confined spaces.
Ease of Maintenance:
The modules and the modular components with labelled connection points help greatly in trouble and maintenance reduction during operations.
Applications of NELES Automation S420154 I/O Backplane
Process Automation: Versatile in many industrial applications including processes automation such as oil, gas and chemical processing with accurate control and chemical manufacturing process requiring precise handling.
Manufacturing: Automotive electronics manufacturing line by providing real time monitoring and controls.
Energy Industry: In power plants, it is used for monitoring and controlling critical systems in order to ensure safe and efficient energy production.
Advantages
The backplane optimizes communication and control, leading to better system performance and productivity.
Cost-Effective:
Its durability and scalability reduce long-term maintenance and upgrade costs.
Improved System Stability:
The robust design minimizes the risk of system failures, ensuring uninterrupted operations.
Future-Ready:
With support for modern automation standards, the S420154 is designed to integrate with future technologies seamlessly.
