ZL0093-0A

EM3555

11/2011

Modbus Point Map

 

 

REGISTER

R/W

NV

Format

Units

Scale

Range

 

 

079

R

NV

ULong

kVAh

E

0 to

Accumulated Apparent

 

MSR

080

0xFFFFFFFF

Energy, Phase A

LSR

 

 

 

 

 

081

R

NV

ULong

kVAh

E

0 to

Accumulated Apparent

MSR

082

0xFFFFFFFF

Energy, Phase B

LSR

 

 

 

 

 

083

R

NV

ULong

kVAh

E

0 to

Accumulated Apparent

MSR

084

0xFFFFFFFF

Energy, Phase C

LSR

 

 

 

 

 

085

R

NV

ULong

kVAh

E

0 to

Accumulated Apparent

MSR

086

0xFFFFFFFF

Energy, Phase A

LSR

 

 

 

 

 

087

R

NV

ULong

kVAh

E

0 to

Accumulated Apparent

MSR

088

0xFFFFFFFF

Energy, Phase B

LSR

 

 

 

 

 

089

R

NV

ULong

kVAh

E

0 to

Accumulated Apparent

MSR

090

0xFFFFFFFF

Energy, Phase C

LSR

 

 

 

 

 

091

R

 

SInt

kW

W

-32767 to

Real Power (P), Phase A

 

 

+32767

 

 

 

 

 

 

 

 

 

092

R

 

SInt

kW

W

-32767 to

Real Power (P), Phase B

 

 

+32767

 

 

 

 

 

 

 

 

 

093

R

 

SInt

kW

W

-32767 to

Real Power (P), Phase C

 

 

+32767

 

 

 

 

 

 

 

 

 

094

R

 

SInt

kVAR

W

-32767 to

Reactive Power (Q), Phase A

 

 

+32767

 

 

 

 

 

 

 

 

 

095

R

 

SInt

kVAR

W

-32767 to

Reactive Power (Q), Phase B

 

 

+32767

 

 

 

 

 

 

 

 

 

096

R

 

SInt

kVAR

W

-32767 to

Reactive Power (Q), Phase C

 

 

+32767

 

 

 

 

 

 

 

 

 

097

R

 

UInt

kVA

W

0 to 32767

Apparent Power (S), Phase A

 

098

R

 

UInt

kVA

W

0 to 32767

Apparent Power (S), Phase B

 

099

R

 

UInt

kVA

W

0 to 32767

Apparent Power (S), Phase C

 

100

R

 

SInt

Ratio

0.0001

-10000 to

Power Factor (PF), Phase A

 

 

+10000

 

 

 

 

 

 

 

 

 

101

R

 

SInt

Ratio

0.0001

-10000 to

Power Factor (PF), Phase B

 

 

+10000

 

 

 

 

 

 

 

 

 

102

R

 

SInt

Ratio

0.0001

-10000 to

Power Factor (PF), Phase C

 

 

+10000

 

 

 

 

 

 

 

 

 

103

R

 

UInt

Volt

V

0 to 32767

Voltage (U), Phase A-B

 

104

R

 

UInt

Volt

V

0 to 32767

Voltage (U), Phase B-C

 

105

R

 

UInt

Volt

V

0 to 32767

Voltage (U), Phase A-C

 

106

R

 

UInt

Volt

V

0 to 32767

Voltage (V), Phase A-N

 

107

R

 

UInt

Volt

V

0 to 32767

Voltage (V), Phase B-N

 

108

R

 

UInt

Volt

V

0 to 32767

Voltage (V), Phase C-N

 

109

R

 

UInt

Amp

I

0 to 32767

Current, Phase A

 

110

R

 

UInt

Amp

I

0 to 32767

Current, Phase B

 

111

R

 

UInt

Amp

I

0 to 32767

Current, Phase C

 

112

R

 

UInt

 

 

 

Reserved (returns 0x8000 - QNAN)

 

 

 

 

 

 

 

 

 

Description

Import

Accumulated

Apparent Energy

(Sh), Per Phase

Export

Real Power (P)

Reactive Power (Q)

Apparent Power (S)

Power Factor (PF)

Line-to-Line voltage (U)

Line-to-Neutral voltage (V)

Current

© 2011 Schneider Electric All Rights Reserved.

29

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Image 33
Schneider Electric EM3555 manual ULong KVAh Accumulated Apparent

EM3555 specifications

Schneider Electric EM3555 is a highly efficient energy monitoring device that plays a crucial role in optimizing energy management across various applications. As part of Schneider Electric’s extensive range of products, the EM3555 is designed for professionals who seek robust solutions for monitoring energy usage and improving operational efficiency.

One of the main features of the EM3555 is its advanced energy consumption monitoring capabilities. It provides real-time data on electrical parameters, including voltage, current, frequency, power factor, and active/reactive power. This level of detailed information helps organizations understand their energy consumption patterns, identify inefficiencies, and take corrective actions to enhance energy performance.

The EM3555 is equipped with a user-friendly display that allows for easy access and navigation through various metrics. This display offers visibility into key performance indicators and alerts users to any anomalies in energy consumption. Enhanced energy visibility is critical for effective decision-making and is particularly beneficial in environments where energy management is paramount.

In terms of technology, the EM3555 incorporates the latest communication protocols, including Modbus RTU. This feature facilitates seamless integration with existing systems, enabling users to collect and analyze data efficiently. Furthermore, the EM3555 can be connected to Schneider's EcoStruxure platform, which offers advanced analytics and insights into energy usage, harnessing the power of IoT for smarter energy management.

Another notable characteristic of the EM3555 is its compact design, making it suitable for various installation environments, including electrical panels and equipment rooms. The device is built to withstand harsh industrial conditions, ensuring long-term reliability and durability.

In conclusion, the Schneider Electric EM3555 is an exemplary energy monitoring solution that combines advanced features, cutting-edge technology, and robust characteristics. By providing real-time insights into energy consumption, the EM3555 empowers organizations to improve their energy efficiency, reduce costs, and contribute to sustainability goals. Its integration capabilities with other systems further underline its value in contemporary energy management practices. With the EM3555, Schneider Electric continues to lead the way in developing innovative solutions for a more sustainable future.