SECTION 4: MASTER FILE ENTRY

4-25

 

 

Power Fail. Optional. Enter the power fail report number if a report has been created (see

applicable ACU manual). The report states the actions that will be taken by the ACU should a power failure occur. Default is 0.

"Override. Optional. Enter the operator override report number if a report has been created (see applicable ACU manual). The report states the actions that will be taken by the ACU if, for example, a manual unlock or a shunt occurs. Default is 0.

#Type. Optional. Enter the number for the key type used. Default is 0.

NOTE

The valid key types are as follows:

0 — None

1 — 1030

2 — 1040

3 — 1050

4 — 1060

5 — 1050 / 1060 / Digital Keys

$Aux. Type. Conditional. Auxiliary key type. A second key type, other than the one entered in the previous field, can be entered here if applicable. Default is 0.

0 — None

1 — 1030

2 — 1040

Note: the previous two fields are applicable only to devices that support multiple key types.

%Facility. Required for key types 1 and 2 (previous field). Enter the facility code assigned to the keys. Defaults to **** if omitted.

&Alt Facility. Conditional. Enter a second facility code to allow a different set of keys to be used with this ACU. Defaults to **** if omitted.

'Auto Forgive. Optional. Up to four time codes can be entered that execute the forgive command at the ACU. Default is 0 (feature disabled if all auto-forgive time codes are 0).

:; 808 Modem Definition. Not used.

Number of Retry Times. Not used.

:XON/XOFF. Not used.

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Westinghouse SE 6000 manual Modem Definition. Not used Number of Retry Times. Not used

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.