Schneider Electric EM4800 manual Badge Numbering

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PowerLogicTM EM4800 Series

930-112-01-B.00

PowerLogic configuration tool

01/2011

 

 

To change the current rating for all meter points assigned to a meter:

1.Select a meter from the Meter Points (Circuits) List. The selected meter will appear in the Name field of the middle pane. See Figure 13.

2.In the Alter Current for Probes pane, enter the desired value referenced to the CT primary rating in the Current field, and click on Change Probes in Selected Meter.

To change the current rating for all meter points assigned to all meters:

1.In the Alter Current for Probes pane, enter the desired value referenced to the CT primary rating in the Current field, and click on Change all Probes in all Meters. See Figure 13.

Badge Numbering

Each meter point can be configured with a name defined by the user. The meter point name, known as the badge number, can be up to 13 alphanumeric characters in length. The Badge Numbering pane allows the user to set two types of badge numbers:

sequential, which assigns a badge number to each meter point after the prefix (for example CORP-00000001 to CORP-00000012)

grouped by meter, which uses a base prefix to designate the meter, then assigns a sequential badge number suffix to each meter point assigned to that meter (for example CORP-00001-01 to CORP-00001-12)

The configuration tool provides examples before the badge number is assigned to the meter. In the Badge Numbering pane shown in Figure 14, the following fields and buttons are provided for assigning badge numbers:

Prefix field - an alphanumeric field that prefixes the number field.

Badge Number field - a numeric field that becomes part of the prefix for meter points assigned to that meter, or the first number in the sequence to be assigned to individual meter points.

Badge Number Width field - a numeric field that defines the number of digits in the badge number field. Zeroes (0) are automatically entered at the beginning of the badge number field until the total number of digits in the badge number field equals the number of digits defined in the badge number width field.

Incremental badge numbers button - selecting this button assigns a sequential badge number for each meter point

Single badge number button - selecting this button assigns one badge number prefix followed by a numeric suffix for each meter point assigned to that meter.

Assign Badge Numbers button - selecting this button implements the badge numbering defined by the user in the previous fields.

Reset Dial Readings button - selecting this button resets all registers for all energy types and pulse counts to zero. This function takes effect immediately and does not require a send action.

Send PC Time button - selecting this button configures the meter with the current PC time and UTC. This function takes effect immediately and does not require a send action. This function can be used when access to the network time service is not available.

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© 2011 Schneider Electric All Rights Reserved

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Contents PowerLogicTM Series EM4800 Procedure PowerLogicTM EM4800 Series 930-112-01-B.00 01/2011PowerLogicTM EM4800 Series PowerLogicTM EM4800 Series 930-112-01-B.00 01/2011 Table of Contents Schneider Electric All Rights Reserved EM4805 meters Configuration tool supports the PowerLogic EM4833, EM4880Configuration and Programming PointProgramming access to meter parameters Parameter Read access Write access Activation timeManufacturing Meter and probe pointsDisplay Navigation Normal ModeDiagnostics Mode Injury Communications ConnectionsDirect Connection Ethernet Requirements Network Connection Ethernet Requirements Login To connect to a meter on the same network Available for configuration. See FigureUsed with meters on a different network Proceed to Unit Field Configuration Tab on Discovered Units dialog boxConfiguration tab Unit Field Configuration tab parameters Field Parameter DescriptionReport Parameters 930-112-01-B.00 Parameter Description By selecting the check box930-112-01-B.00 You can set the display format to IEC You can set the BACnet device ID by Manufacturing Tab List of supported metering configurationsPowerLogic EM4805 PowerLogic EM4833 PowerLogic EM4880 Meter Points Circuits Tab Meter Point ConfigurationSee Completing the Meter Configuration on To change the Current, enter the required number. To changeBadge Numbering Badge Numbering pane Pulse Probes Tab Completing the Meter Configuration EM4800 Series meter is ready to be programmedSending the configured settings to the meter Window. See Figure930-112-01-B.00 01/2011
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EM4800 specifications

Schneider Electric, a global leader in energy management and automation, offers advanced power monitoring solutions that enhance energy efficiency and operational effectiveness. The EM4800 and EM400 series are prominent products in Schneider Electric’s energy monitoring line, designed specifically for efficient energy consumption management in various industrial and commercial applications.

The EM4800 is a comprehensive energy meter that caters to larger facilities and energy-intensive operations. One of its main features is its ability to monitor multiple electrical parameters, including voltage, current, frequency, power factor, and total active/reactive energy. The device supports diverse communication protocols such as Modbus, Ethernet, and BACnet, allowing seamless integration into existing building management systems. This diversity in communication enhances visibility into energy usage and supports real-time monitoring, enabling facility managers to make informed decisions.

On the other hand, the EM400 series is designed for smaller applications while still delivering robust functionality. This series is tailored for monitoring power consumption in smaller commercial buildings or branch offices. EM400 meters focus on essential energy metrics but do so with a compact, easy-to-install design. With features like demand forecasting and peak load management, the EM400 provides valuable insights that help organizations optimize their energy usage.

Both models come equipped with advanced technologies such as harmonic analysis, which is crucial for understanding power quality and mitigating potential risks associated with harmonic distortion. The user-friendly interface of these devices facilitates quick access to energy data, making it simple for users to analyze consumption patterns and identify opportunities for energy savings.

In concurrence with Schneider Electric’s commitment to sustainability, both the EM4800 and EM400 series emphasize energy conservation by promoting efficient energy practices. Users can leverage the collected data to reduce energy costs, enhance equipment performance, and contribute to environmental sustainability efforts.

In summary, Schneider Electric’s EM4800 and EM400 energy meters combine innovative technology with practical features aimed at improving energy management. Their advanced monitoring capabilities, versatile communication options, and focus on power quality make them essential tools for organizations seeking to enhance operational efficiency while reducing their carbon footprint. By investing in these cutting-edge energy solutions, businesses can take significant strides towards sustainable energy management and operational excellence.