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SECTION 4: MASTER FILE ENTRY

 

 

Proximity Type. Enter the proximity type: 0 = Sensor interface, 1 = DigiKey reader.

The following thirteen fields, DKR/SCR Fail through VIP tamper, require the entry of a report

number. The word report in this context identifies a user-defined action or series of actions that the ACU is to take in response to various events occurring within the system. (The field titles indicate the event types.) See Device Report Definition in this section and the applicable ACU manual for detailed information.

"DKR Configuration. Enter the ID number. Valid range is from 1-9999.

#VIP Enable. Optional. A Y/N/O field to enable/disable the VIP (O indicates VIP only). Default is N.

$VIP Active During Building Modes. Optional. A Y/N field to activate/deactivate the VIP for building modes Open, Limited and Closed. Default is N for all three.

%VIP Active During Time Codes. Optional. Enter up to four time code IDs when the VIP is to be active. Default is 0 for all four.

SE NEXSENTRY READER REPORT DEFINITION [rdr4entr]

1

2

"

#

$

%

Reader Mode. Optional. Enter the appropriate reader mode number. 0 = Normal, 1 = Open, 2 = Closed, 3 = Station. Default is 0.

Proximity Type. Enter the proximity type: 0 = Sensor interface, 1 = DigiKey reader.

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Westinghouse SE 6000 manual SE Nexsentry Reader Report Definition rdr4entr

SE 6000 specifications

The Westinghouse SE 6000 is an advanced digital power management system designed for comprehensive control over electrical grids and power generation facilities. Its versatility and reliability make it a favored choice among utility providers and energy managers. The SE 6000 is equipped with numerous features that enhance efficiency, safety, and operational oversight.

One of the standout features of the Westinghouse SE 6000 is its robust data analytics capability. The system employs state-of-the-art telemetry and monitoring technologies that allow for real-time data collection and analysis. This enables operators to track power usage trends, identify inefficiencies, and make informed decisions regarding energy distribution and consumption.

Another key characteristic of the SE 6000 is its support for multiple communication protocols. This compatibility ensures seamless integration with existing infrastructure and facilitates interoperability among various devices and systems. Whether using DNP3, IEC 61850, or other industry-standard protocols, users can easily connect the SE 6000 to their grid management systems.

The SE 6000 features advanced protection mechanisms that are crucial for maintaining system integrity. Its built-in protection algorithms monitor for fault conditions and automatically execute pre-configured responses, thereby minimizing downtime and ensuring uninterrupted power delivery. This proactive approach to fault management helps safeguard both equipment and personnel.

In terms of user experience, the SE 6000 boasts an intuitive interface that simplifies the complexity of power management. The graphical user interface is designed with operator ergonomics in mind, offering customizable dashboards and clear visualizations of system performance metrics. This makes it easier for operators to monitor operations and respond quickly to potential issues.

Moreover, the SE 6000 is designed to support renewable energy systems, showcasing its adaptability to the evolving energy landscape. With the increasing integration of solar, wind, and other renewable sources, this platform is geared toward facilitating grid stability and reliability in conjunction with fluctuating power outputs.

Overall, the Westinghouse SE 6000 represents a modern solution in the realm of power management systems. By leveraging cutting-edge technologies, it provides utilities with the tools necessary to enhance operational efficiency, increase safety, and embrace the transition toward sustainable energy practices. Its combination of robust features, user-friendly design, and adaptability makes it a leading choice in power system management.