Accuenergy AcuRev 2100 User Manual

AcuRev 2100

Web Manual

Smart Metering System

Copyright © 2021 V1.00

This manual may not be altered or reproduced in whole or in part by any means

without the expressed written consent of Accuenergy.

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The information contained in this document is believed to be accurate at the time

of publication, however, Accuenergy assumes no responsibility for any errors which may

appear here and reserves the right to make changes without notice. Please ask the local

representative for latest product specications before ordering.

Please read this manual carefully before installation, operation and maintenance of the

AcuRev 2100 Series Power Meter. The following symbols in this manual are used to provide

warning of danger or risk during the installation and operation of the meters.

Electric Shock Symbol: Carries information about procedures which must be

followed to reduce the risk of electric shock and danger to personal health.

Safety Alert Symbol: Carries information about circumstances which if not

considered may result in injury or death.

Prior to maintenance and repair, the equipment must be de-energized and grounded. All

maintenance work must be performed by qualied, competent accredited professionals who

have received formal training and have experience with high voltage and current devices.

Accuenergy shall not be responsible or liable for any damages or injuries caused by improper

meter installation and/or operation.

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Table of Contents

Chapter 1 - Introduction .......................................................................................5

1.1 Introduction to Ethernet .............................................................................................. 6

Chapter 2 - Functional Description of the Ethernet module ............................7

Chapter 3 - Installation Method ...........................................................................9

3.1 Denition of RJ45 ....................................................................................................... 10

Chapter 4 - Initializing the Ethernet Module ....................................................11

4.1 Cable ............................................................................................................................12

Chapter 5 - Connection Method .........................................................................13

5.1 Direct Connect to a Computer .................................................................................. 14

5.2 Direct Connect to a Router/Switch ........................................................................... 17

5.3 Connect through WiFi ................................................................................................18

5.4 Description of Modbus-TCP Protocol ....................................................................... 18

5.4.1 Protocol ............................................................................................................18

a. Data Frame Format ........................................................................................ 18

b. Modbus Application Header (MBA Header) Field ......................................19

c. Function Field .................................................................................................. 19

d. Data Field ........................................................................................................20

5.4.2 Format of communication .............................................................................. 20

Explanation of frame .........................................................................................20

Chapter 6 - Web Interface Readings and Parameter Settings ........................22

6.1 User Access Login ....................................................................................................... 23

6.2 Dashboard ................................................................................................................... 24

6.3 Metering web page ..................................................................................................... 25

6.3.1 Basic Metering .................................................................................................26

6.3.2 Demand ............................................................................................................ 27

6.3.3 Energy ............................................................................................................... 28

6.3.4 Harmonics ........................................................................................................ 29

6.3.5 I/O ...................................................................................................................... 30

6.4 Logs ..............................................................................................................................31

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6.4.1 Trend Log ..........................................................................................................32

6.4.1.1 Real-Time Parameters ........................................................................... 33

6.4.1.2 Energy .....................................................................................................34

6.4.2 Data log ............................................................................................................. 35

6.4.3 Alarm Log .........................................................................................................36

6.4.4 Event Log .......................................................................................................... 37

6.5 About ........................................................................................................................... 37

6.6 Settings ........................................................................................................................38

6.6.1 Meter ................................................................................................................. 38

Chapter 7 - Communications ..............................................................................39

7.1 Network .......................................................................................................................40

7.1.1 Network Settings .............................................................................................40

7.2 Email ............................................................................................................................. 44

7.3 Time/Date .................................................................................................................... 48

7.4 Data Log ....................................................................................................................... 49

7.5 Post Channel ...............................................................................................................52

7.6 AcuCloud ...................................................................................................................... 54

7.7 BACnet/IP ..................................................................................................................... 56

7.8 SNMP ............................................................................................................................ 57

7.9 MQTT ............................................................................................................................ 58

7.9.1 MQTT General Settings ................................................................................... 58

7.9.2 MQTT Authentication ...................................................................................... 59

7.9.3 MQTT Encryption ............................................................................................. 60

7.9.4 Last Will & Testament .....................................................................................60

7.9.5 Topic and Parameter Selection ...................................................................... 61

7.10 Remote Access .......................................................................................................... 62

Chapter 8 - Management ....................................................................................64

8.1 Parameter Reset ......................................................................................................... 65

8.2 Reboot Meter & Communications Module .............................................................65

8.3 Change Password ...................................................................................................... 66

8.4 SSH ...............................................................................................................................66

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8.5 Debug Diagnostic .......................................................................................................66

8.6 Diagnostic File ............................................................................................................. 67

Chapter 9 - Network Diagnostic .........................................................................68

9.1 Network Status ...........................................................................................................69

9.2 Host Lookup ................................................................................................................ 70

9.3 Connection Test .......................................................................................................... 70

Chapter - 10 Firmware .........................................................................................71

10.1 Module Firmware Update .......................................................................................72

10.1.1 Manual Update .............................................................................................. 73

10.1.2 Remote Update..............................................................................................74

Chapter 11 - Config Management ......................................................................77

11.1 Backup Conguration ..............................................................................................79

11.2 Export/Apply Conguration ....................................................................................80

11.3 Import Conguration ............................................................................................... 81

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AcuRev 2100

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Chapter 1: Introduction

1.1 Introduction to Ethernet

AcuRev 2100 Series Power Meter: Web Manual

Chapter 1: Introduction

The AcuRev 2100 meter provides a dual Ethernet and WiFi communication channel. Users will

be able to use both Ethernet ports and WiFi simultaneously with dierent networks and data

acquisition systems.

1.1 Introduction to Ethernet

Ethernet was originally developed by Xerox and then further developed by DEC and Intel. This

networking technology uses Carrier Sense Multiple Access with Collision Detection (CDSM/CD)

protocol and provides transmission speeds up to 100Mbps.

Ethernet is not a network but more of a standard. It is the most current communication

standard Local Area Network (LAN). This standard denes the type of cable that is used and

the method of Signal Processing. The AcuRev 2100 meter supports two Ethernet channels.

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Chapter 2: Functional Description

Chapter 2: Functional Description

of the Ethernet Module

AcuRev 2100 Series Power Meter: Web Manual

Chapter 2:
Functional Description of the Ethernet module

The AcuRev 2100 meter supports a wide range of communication protocols. Some of the

more commonly used protocols are briey explained below.

This module supports the Modbus-TCP protocol. When connected to the AcuRev 2100 series

meter, it is a slave device that can only respond to queries. The default value for the Modbus

Port is 502. The user-dened range is 2000~5999.

The AcuRev 2100 grants users the ability to send emails based on a time interval or when

there is a triggered event using the SMTP protocol. It can send mail from encrypted servers

and servers that use dierent SMTP ports.

The AcuRev 2100 supports HTTPS protocol. It is used as an HTTPS server and where the

default value of the protocol port is 443. Using the HTTPS protocol, the AcuRev 2100 can send

post requests to both HTTP and HTTPS servers.

The following are all the protocols supported by the AcuRev 2100:

• Modbus TCP

• BACnet-IP

• SNMP V2

• HTTP/HTTPs

• FTP

• sFTP

• Wi-Fi WPA, WPA Enterprise

• NTP

• SMTP

• MQTT

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Chapter 3: Appearance and Dimensions

Chapter 3: Installation Method

3.1 De󳆂nition of RJ45

AcuRev 2100 Series Power Meter: Web Manual

Chapter 3: Appearance and Dimensions

3.1 Denition of RJ45

The AcuRev 2100 uses two standard RJ45 connectors to access the Ethernet network. The

mechanical and electrical characteristics of the connector are consistent with the requirements

of IEC 603-7.

LED_L (Yellow): Displays the speed status. When the LED is on it indicates 100Mpbs, whiles an

o LED represents a speed of 10Mbps.

LED_R (Green): Displays the link and activity status. When the LED is on it indicates the link

status. When the LED is ashing it indicates that there is activity.

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Chapter 4: Installation

Chapter 4: Initializing the Ethernet Module

4.1 Cable

AcuRev 2100 Series Power Meter: Web Manual

Chapter 4: Initializing the Ethernet module

The default settings in the AcuRev 2100 meter series meter are as follows:

Ethernet 1 (Static IP address)

• IP Address (192.168.1.254)

• Subnet Mask (255.255.255.0)

• Gateway (192.168.1.1)

• DNS Server 1 (8.8.8.8)

• DNS Server 2 (8.8.4.4)

• Modbus Port 502

4.1 Cable

An RJ45 cable is needed to connect the meter to the network.

A shielded twisted pair cable (standard 568A or standard 568B) is recommended as a

reference to the EIA/TIA standard.

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Chapter 5: LED Description

Chapter 5: Connection Method

5.1 Direct Connect to a Computer

5.2 Direct Connect to a Router/Switch

5.3 Connect through WiFi

5.4 Description of Modbus-TCP Protocol

AcuRev 2100 Series Power Meter: Web Manual

Chapter 5: Connection Method

5.1 Direct Connect to a Computer

The AcuRev 2100 can be connected to a computer using a crossover cable (standard 568A).

The AcuRev 2100 module supports Modbus-TCP and HTTPS Functions for this method of

connection.

To connect the meter directly to the computer, the computer's IP must be within the same

subnet as the meter's IP address. The following steps outline how to change the computers IP

using a computer running the Windows OS:

• Manually connect the meter via Ethernet cable to the computer

• Right-click on the connection icon

• Select "Open Network Sharing Center"

• Click on Change adapter options

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Chapter 5: Connection Method

• Once there, right-click on the local area connection icon and select properties.

• Select the icon that says Internet Protocol Version 4 TCP/IP

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• The Internet Protocol Version 4 (TCP/IP) Properties box will pop up

• Click on ''Use the following IP address'' and enter an IP number so that the meter and

computer are in the same local network range. For example, if the meter has an IP

address of 192.168.1.254, then the computer must be assigned with an IP 192.168.1.xxx,

where xxx can be any number but cannot be the same as the value the meter has.

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Chapter 5: Connection Method

• Once you have entered in the IP address, press the Tab key on your keyboard until you

hit the bottom and click OK

• Before selecting the OK button make note of the IP address you have assigned to the

meter and then press OK.

NOTE: The meter and computer cannot have the same IP address, they must be dierent.

5.2 Direct Connect to a Router/Switch

The AcuRev 2100 can be connected to a router or switch using a patch cable. The DHCP can be

congured to Auto to have the router assign the meter with an IP address or the DHCP can be

congured to Manual to set an IP address and network settings manually.

AcuRev 2100 has two Ethernet ports, Ethernet 1 is set to have the static DHCP, and Ethernet 2

is set to have the dynamic DHCP. Both of the Ethernet ports have the same functionalities, you

can use either of them according to the requirement.

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5.3 Connect through WiFi

The AcuRev 2100 can be connected through a WiFi network.

By default, the AcuRev 2100 will be in Access Point mode with the default IP address of

192.168.100.1. Ensure the device connecting to the AcuRev 2100 has DHCP enabled or it

should be in the same subnet as the AcuRev 2100. The module will appear in the WiFi network

as AcuRev 2100-WIFI-(serial number of the module) as the SSID or name of the wireless

network. By default, the network key or password will be ''accuenergy''.

• Once connected to the network, open an internet browser and type in the IP address of

the WIFI module: 192.168.100.1

• Log in at Admin access level, using the default password of 'admin'.

5.4 Description of Modbus-TCP Protocol

The Modbus-TCP protocol is used as one of the communication protocols in the AcuRev 2100.

The protocol establishes a master and slave connection in Ethernet. The master device (client)

rst sets up a TCP-IP link with the slave device(server). The master device then sends a request

to the slave device and the slave device in return sends a response to the master device. The

gure below shows how the Modbus-TCP protocol works.

5.4.1 Protocol

a. Data Frame Format

MBAP Header Function Data

7x8 bits 8-bits Nx8 bits

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Chapter 5: Connection Method

b. Modbus Application Header (MBA Header) Field

The Modbus application header eld is the start of the data frame and consists of seven bytes.

Field Length Description

Transaction Identier 2 Bytes

Identication of a Modbus Request/Response

transaction

Protocol Identier 2 Bytes Modbus Protocol = 0

Length 2 Bytes Number of following bytes

Unit Identier 1 Bytes Slave address, in the range of 0-247 decimal

c. Function Field

The function code eld of a message frame contains eight bits. Valid codes are in the range of

1-255. When a message is sent from a client to a server device, the function code eld tells the

server what kinds of action to perform.

Code Meaning Action

05 Control Single Relay Output Force Relay to a state of ON or OFF

01 Read Relay Output Status Obtain current status of Relay Output

02 Read Digital Input (DI) Status Obtain current status of Digital Input

03 Read Data Obtain current binary value in one or more registers

16 Write Multiple Registers

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Place specic value into a series of consecutive

multiple registers

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d. Data Field

The data eld is constructed using sets of two hexadecimal digits, in the range of 00 to FF. The

data eld of messages sent from a master to a slave contains additional information that the

slave must use to take the action dened by the function code. This can include information

such as the register addresses, the number of registers to query and the count of the actual

number of data bytes. For example, if the master requests a slave to read a group of holding

registers (function code 03), the data field specifies the starting register and how many

registers are to be read.

If the master needs to write data (function code 10 hexadecimal) to a group of registers in the

slave, the data eld species the starting register, how many registers to write, the count of

data bytes to follow in the data eld and the data to be written into the registers.

5.4.2 Format of Communication

Explanation of frame

Transaction

identier hi

Transaction

identier lo

Protocol

identier hi

Protocol

identier lo

Length hi Length lo

Unit

identier

00H 00H 00H 00H 00H 06H 01H

Function Code Data start register hi Data start register lo Data # of registers hi Data # of registers lo

03H 40H 00H 00H 48H

The meaning of each abbreviated eld above is:

Transaction identier hi: High byte of the transaction identier

Transaction identier lo: Low byte of the transaction identier

Protocol identier hi: High byte of the protocol identier

Protocol identier low: Low byte of the protocol identier

Length hi: High byte of length

Length lo: Low byte of length

Unit identier: Slave address

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Chapter 5: Connection Method

Fun: Function code

Data start register hi: High byte of starting register address

Data start register lo: Low byte of starting register address

Data # of registers hi: High byte of number of registers

Data # of registers lo: Low byte of number of registers

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Chapter 6: Web Interface Readings

and Parameter Settings

6.1 User Access Login

6.2 Dashboard

6.3 Metering Web Page

6.4 Logs

6.5 About

6.6 Settings

Chapter 6: Web Interface Readings and Parameter Settings

Chapter 6:
Web Interface Readings and Parameter Settings

The AcuRev 2100 supports the HTTPS protocol to allow for the use of a web interface. The user

will need to access the AcuRev 2100 interface to congure the module and use its functions.

The web interface allows for remote initial setup of the AcuRev 2100 meter.

The AcuRev 2100 interface allows for dierent user access levels.

To access the web interface the IP address for the AcuRev 2100 either Ethernet 1, Ethernet 2

or a WiFi IP address must be known.

6.1 User Access Login

Enter the correct IP address of the module in the search bar of the internet browser to access

the web interface of the AcuRev 2100.

The user will be redirected to a web page prompting to select the Access Level and enter the

appropriate password for that level.

The User level is ideal for users who need only to take readings and view status from the meter.

The default password for the User level is view.

It is recommended that no more than 5 users are logged in at the same time for this level to

ensure the optimal performance of the web interface.

The Admin level is ideal for users who need access to congurations on the meter or the web

interface and to view readings.

The default password for the Admin level is admin.

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AcuRev 2100 Series Power Meter: Web Manual

The two dierent access levels are summarized below:

Access Level Default Password Read Parameter/Status Congure Settings

User view Yes No

Admin admin Yes Yes

6.2 Dashboard

In the dashboard, the user will nd the tabs to access dierent pages in the web interface such

as Metering, Logs, and Settings. The dashboard is the rst page the user will see once they

have entered the correct password for the appropriate access level and is the same for both

access levels.

The dashboard displays the basic metering page which allows users to view the real time

readings such as voltage, current, power and power factor. This table is a summary of all user

channels (circuits) connected to the AcuRev 2100 meter.

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Chapter 6: Web Interface Readings and Parameter Settings

By clicking on "Select Channel" under the chart, the user will be able to see each input

channel’s reading or three-phase User reading below.

The parameters on this page are updated every 5 sec.

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6.3 Metering Web Page

Click on the Metering menu option to visit the metering data web pages. There are 5 kinds of

metering parameter web pages. They are "Basic Metering", "Demand", "Energy", 'Harmonics'

and ''I/O''. Each web page shows data from the AcuRev 2100 meter.

6.3.1 Basic Metering

The Basic Metering webpage includes the data of real-time parameters for the AcuRev 2100

meter. This includes the Line Voltages, Phase Voltages, Current, Active, Reactive and Apparent

Power, Power Factor, Frequency and Load type.

The parameters on this page are updated every 5 sec.

Users can use the select a channel drop down menu to select a desired channel or circuit.

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Chapter 6: Web Interface Readings and Parameter Settings

6.3.2 Demand

The demand page shows the Current Demand, Active Power Demand, Reactive Power

Demand and Apparent Power Demand for each phase.

The demand table also includes the peak demand, the peak demand timestamp, and the

demand prediction. This table provides the overall demand for all circuits connected to the

AcuRev 2100 meter.

User can select and view the demand for specic circuits by using the drop down menu option

on the demand page. The demand table for the specic circuit will be displayed below the

meter demand readings.

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AcuRev 2100 Series Power Meter: Web Manual

6.3.3 Energy

The Power & Energy webpage shows the energy data for the AcuRev 2100 meter such as the

Active, Reactive and Apparent energy that is consumed. The energy data is displayed as the

total as well as per phase. If users have congured TOU (Time of Use) on the meter, the TOU

energy can be viewed from the energy page as well.

The AcuRev 2100 does not support bi-directional energy and is only able to view the consumed energy.

The parameters on this webpage are updated every 5 sec.

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Chapter 6: Web Interface Readings and Parameter Settings

Users can select and view the energy for each circuit by using the drop-down menu below the

main energy table. The individual circuit energy table is presented below the main table.

6.3.4 Harmonics

The Harmonics web page will show the harmonics of the voltage and the current waveform

being measured. It will display the harmonics of each phase in graphical and tabular format.

Select between voltage and current to view their respective harmonics.

In the harmonic page users can view the THD, Voltage/Current unbalance factor, Even/Odd

THD, Crest Factor and THFF readings.

The parameters on this web page are updated every 15 sec.

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6.3.5 I/O

There are 18 digital inputs for AcuRev 2100 series meter. Each digital input channel can be

programmed as either a status indicator or a DI pulse input counter. Users can view the pulse

count or digital status as well as reset the DI count from this page.

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Chapter 6: Web Interface Readings and Parameter Settings

There are also two Relay Outputs that can be toggled On/O or congured as an alarm output.

NOTE: The DI and RO settings must be congured on the Acuview software.

6.4 Logs

Click on the 'Logs' tab to visit the metering logs web pages.

There are four kinds of logs that can be viewed, they are "Trend Log", "Data Log, "Alarm Log",

and "Event Log".

Each web page shows data from the AcuRev 2100 meter series meter.

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6.4.1 Trend Log

The Trend Log web page includes the real-time and energy trend diagram. The real-time trend

log diagram can be selected to show the following parameters phase voltage, line voltage,

current, active power, reactive power, apparent power and power factor for each phase as well

as the totals. The energy trend log shows the imported and exported active energy, reactive

energy, total energy, net energy and apparent energy.

The data of the trend log can be previewed and downloaded as a .csv le by clicking the 'Data

Review' and 'Data' icons on the right top side of the diagram. The trend log diagram can also

be saved as an image by clicking the 'Image' icon. See the icons outlined (red box) in the

image below.

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Chapter 6: Web Interface Readings and Parameter Settings

6.4.1.1 Real-Time Parameters

The real-time parameters can be trended at dierent time intervals depending on the Time

Frame selected. Listed below are the time intervals for each possible time frame setting:

Time Frame Time Intervals

Last 1 Hour 1 minute

Last 30 days

Last Month

Last 10 minutes

Today

Yesterday

1 hour

1 day

1 hour

1 day

15 seconds

1 minute

15 seconds

1 hour

15 seconds

1 hour

15 minutes

Last 7 days

1 hour

1 day

Custom Range Dependent on range specied

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6.4.1.2 Energy

Similarly, the energy parameters can be trended at dierent time intervals depending on the

Time Frame selected. The table below displays the time intervals:

Time Frame Time Intervals

Last 10 minutes

Last 1 Hour 1 minute

15 seconds

1 minute

Today

Yesterday

15 seconds

1 hour

15 seconds

1 hour

15 minutes

Last 7 days

1 hour

1 day

Last 30 days

This Month

Last Month

Last Year

1 hour

1 day

1 hour

1 day

1 hour

1 day

1 day

1 month

Custom Range Dependent on range specied

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6.4.2 Data Log

Chapter 6: Web Interface Readings and Parameter Settings

The data log web page includes all the data les for three dierent loggers and AcuCloud.

Users can select the dierent loggers by clicking the logger tab. After the logger is selected, the

log le for this logger will show on the screen with the update time and le size. To download

the le, click on the download icon to save the le on the computer. The data log will be saved

as a compressed CSV le.

To delete the data logs users can check the box next to the data log file and click on the

'Delete Selected' button at the bottom of the page.

Users will be prompted by a window asking to conrm the data log delete.

NOTE: Deleting the data log is permanent, this cannot be undone once deleted.

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6.4.3 Alarm Log

The Alarm Log web page provides the user with a summary of the alarm events that have

occurred with the meter. It will show the status of up to 16 alarm events indicating the alarm

ID, status, parameter, value that exceeded or went below the threshold and the timestamp of

the alarm event.

Once all 16 alarm events are full, the newest alarm event will then wrap around to alarm 1.

The parameters in the alarm status web page are updated every 10 seconds.

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Chapter 6: Web Interface Readings and Parameter Settings

6.4.4 Event Log

The event log web page will display the event log that involved in the parameter and setting

changes.

The event log parameters are updated every 10 sec.

6.5 About

The About tab located at the top right corner of the web interface allows users to view the

Device Information page. This page provides users with information about the AcuRev 2100

series meter. The Device Information contains the model of the AcuRev 2100 meter, serial

number, firmware version and the meter addresses. It also contains the serial number,

rmware version, hardware version and the MAC addresses of the AcuRev 2100 web module.

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6.6 Settings

6.6.1 Meter

The basic metering configurations needed to set up the meter can be applied from the

web interface by clicking on the Settings and selecting the Meter. The meter settings page

includes the following settings:

• Device Description: A description for the meter can be provided in this eld which will

display on the Dashboard page.

• Device Transformer: Users can select the secondary output of the CTs being used on the

meter. Users can select RCT or 333mV for the mV model and 80mA/100mA/200mA for

the mA model.

NOTE: Users cannot mix and match CTs, for example if users have the mV current input model they

cannot mix and match RCT and 333mV CTs.

• Wiring of Three Phase User: Select the type of wiring that the meter will be monitoring

from the modes available. Users can select 1LN, 2LN, 3LN.

• CT Ratio: Set the rating of the CT that is connected to the meter to measure the current

for each channel. For example if a 200A:333mV CT is being used, “200” must be entered

in the CT ratio setting.

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Chapter 8: System Settings

Chapter 7: Communications

7.1 Network

7.2 Email

7.3 Time/Date

7.4 Data Log

7.5 Post Channel

7.6 AcuCloud

7.7 BACnet/IP

7.8 SNMP

7.9 MQTT

7.10 Remote Access

AcuRev 2100 Series Power Meter: Web Manual

Chapter 7: Communications

The communication setting web page will allow the user to configure settings related to the

Ethernet networks and the Wireless network. The functions and protocols that the AcuRev

2100 supports can be congured by selecting the corresponding tab such as Emails, Time/Date,

Datalog, AcuCloud Post for communicating with the AcuCloud software, BACnet-IP, SNMP.

7.1 Network

The rst page the user will see after selecting the Communications option under the Settings

tab is the Network page. The network settings allow users to congure all network-related

settings including both Ethernet 1 and Ethernet 2 as well as WiFi.

7.1.1 Network Settings

The settings for the Ethernet 1 and Ethernet 2 are as follows:

• Ethernet 1 DHCP: Select 'Manual' to manually configure the IP address to access the

meter. If set to 'Manual', you'll also need to set the Subnet Mask and Gateway. By default,

the IP address for ETH1 will be 192.168.1.254. By default Ethernet port 1 is set to Manual.

Select “Auto” to have the meter assigned an IP address automatically. With this selection,

the Subnet Mask, and Gateway will also be automatically assigned.

NOTE: After changing DHCP to Auto, check the display of the meter (N02 NET Settings) to obtain the

new IP address that has been assigned. The new IP address will be displayed only after a module

reboot is performed and completed.

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• IP Address: If the DHCP is congured to “Manual”, the IP address can be congured from

this page. Default is 192.168.1.254

• Subnet Mask: If the DHCP is congured to “Manual”, the Subnet Mask can be congured

from this page. Default is 255.255.255.0

• Gateway: If the DHCP is congured to Manual, the Gateway can be congured from this

web page. Default is 192.168.1.1

The status of the Ethernet 1 port will display if it is connected or disconnected.

• Ethernet 2 DHCP: By default, the Ethernet 2 port is congured to have its DHCP set to

“Auto”. If congured to “Manual” the default Manual IP address is 192.168.1.253. Users

can congure the IP address to any IP once the DHCP is congured for “Manual”, users

will also need to set the Subnet Mask and Gateway if using this method.

NOTE: The IP address of the Ethernet 2 can be found on page N12 of the NET Settings. The AcuRev 2100

meter protocol setting must be congured to AcuRev 2100 to view this from the meters NET settings.

• IP Address: By default, the IP address is congured by DHCP, this eld will be grayed out.

If the DHCP is congured to Manual, the IP address can be congured from this page.

• Subnet Mask: If the DHCP is congured to Manual, the Subnet Mask can be congured

from this page.

• Gateway: If the DHCP is congured to Manual, the Gateway can be congured from this

web page.

The status of the Ethernet 2 port will display if it is connected or disconnected.

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The AcuRev 2100 also supports WIFI communication where the WIFI setttings can also be

congured on the Network settings page. The following WIFI settings are congurable from

the interface:

• WiFi Enabled: Select the Enable or Disable communication through WiFi.

• WiFi Mode: The WiFi can be configured to work in two modes just like any other WIFI

device. It can be congured as either Access Point (AP) or Station mode.

• Access Point: Default conguration for AcuRev 2100. The AcuRev 2100 will act as a wireless

access point and will allow other wireless devices to connect and access the AcuRev 2100.

In Access Point mode, users can congure the SSID, Network Key and IP of the AcuRev

2100 as well as the DHCP DNS servers.

• Station: The AcuRev 2100 will behave like a wireless client and bridge to another

wireless network that is available.

In Station mode, users can select the Wireless network to connect to under the

"Connect to SSID" setting. Click on "Select from Available Networks" and enter the

Network Key for the wireless network that the AcuRev 2100 will bridge to.

If users are connecting to an open Wireless network that is not password protected, the

password eld can be left blank.

AcuRev 2100 also supports Enterprise WiFi, where users can connect using an enterprise-level

WiFi network which is common in many colleges/universities, hospitals, etc. When attempting

to connect to an enterprise-level WiFi network the interface will show options to connect to

the network with a username and password.

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In station mode the DHCP can be congured as either manual or auto.

• If manual, users can congure the IP, Subnet Mask and Gateway and DNS Servers.

• If auto, users can check the meter's display to get the IP address and all other network

configurations assigned by the wireless network. The user can also configure the DNS

servers if the DHCP is set to Auto.

NOTE: The WiFi IP address for the AcuRev 2100 will be in parameter N11 of the NET settings.

• DNS Server 1: Enter the address of DNS server 1 in this eld. Default DNS1 is 8.8.8.8

• DNS Server 2: Enter the address of DNS server 2 in this eld. Default DNS2 is 8.8.4.4

• HTTPS Port: Enter the HTTPS port number of the meter. By default, this setting is

congured to 443. The range can be from 6000 to 9999.

• HTTP Enable: Enable HTTP so the AcuRev 2100 can be accessed through the HTTP

protocol, by default the HTTP port is 80 but it can be congured from 6000-9999.

• Modbus TCP Port: Enter the Modbus port number of the meter. By default, this setting is

congured to 502. The range can be from 2000 to 5999.

• Proxy Server Enable: Select enable to allow for forwarding of data log files to pass

through the Proxy server rst and then the data post server. IE. AcuCloud.

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After making any changes on the network settings page, click 'Save'. Users will be prompted

to reboot the AcuRev 2100 immediately or later. If later is chosen the AcuRev 2100 will need to

be rebooted from the 'Management' page in order for the settings to take eect.

7.2 Email

The AcuRev 2100 supports the SMTP protocol where users can congure the meter to send

emails based on a specific time interval or whenever there is an alarm, System Event or a

combination of both. The Email conguration page can be accessed by clicking on the Email

tab under Communications.

There are three modes available for sending emails that the user can enable.

The rst mode is Real Time Email Reporting where emails are sent immediately when there

is a new alarm, or System event.

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The second mode is Periodic Email Reporting where users can receive emails at a certain

period of time based on the time interval congured. The email will include the data that is

selected to be sent.

The third mode is when both of the above are enabled.

Users must know their SMTP server provider and details regarding their SMTP server, which

can be provided by users' IT personnel.

The following settings must be congured for email reporting:

• SMTP Enabled: Select 'Enable' to enable and to further congure the settings related to

the SMTP function.

• Start Time to Send Email: Select the date and time for when the emails should begin to send.

• Click on the icon to congure the time and date.

• Click on the icon in the bottom right to clear the time and date.

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• SMTP Server: Enter the URL of a valid SMTP server. I.E. mail.accuenergy.com or smtp.

gmail.com

• SMTP Port: Enter the port number associated with the SMTP server.

• SMTP From: Enter a name or phrase which will appear to let you know who the mail is

from. I.E. 'Technical Support'

• SMTP Subject: Enter a subject line for the emails

• Authentication: Users can have email authentication on or o. If authentication is on

users will need to provide the SMTP username and password.

• SMTP Username: Enter the SMTP user name for the SMTP server set above.

• SMTP Password: Enter the SMTP user password for the username set above.

• TLS/SSL: Users have the option to send emails using TLS/SSL protocols

• SMTP To Address 1/2/3: Enter up to three recipients that you wish to have the email sent

to in “SMTP To Address 1/2/3”.

• Test Address 1/2/3: Test the if the email can be sent to “SMTP To Address 1/2/3”.

NOTE: If the test address function fails, users can view the email post-failure by clicking on the

'Details' option from the test post screen.

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After conguring the above settings, the next step is to select the content for the emails.

The content of the emails can either be time-based triggered or event-based triggered.

For receiving emails on a time based under Enable Periodic Email Reporting:

Enter a time between 5-1440 mins in the Set time interval

• Check o the box beside the parameters for the content the user should receive.

• Real Time: Report on Real-time voltage, current, power and etc.

• Energy Data: Report on energy parameters.

• Alarm: Report of the alarm log.

• Demand: Report demand data.

• System Event: Report of the SOE log.

• DI: Report DI status/counters.

The user will receive an email report in a CSV file attachment. The report will include the

readings and/or the real time triggered event.

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7.3 Time/Date

The device clock of the AcuRev 2100 meter series meter can be set through the web interface

of the AcuRev 2100. The AcuRev 2100 supports NTP (Network Time Protocol) so that the

module can update the meter's device clock by synchronizing with a time server.

The module can sync with up to three time servers. If a time server is down, the module will

synchronize with the second or the third time server if they are congured.

The settings for the time and date can be found by clicking on Settings and selecting the

Communications tab. Users can select Date & Time to congure the time settings.

The following must be congured to set the time/date and NTP settings:

• NTP Enabled: Select enable to further congure the settings related to the NTP (Network

Time Protocol) function

• Device Clock: Congure the date and time on the meter

• Click on the icon to congure the date and time.

• Click on the icon in the bottom right to clear the time and date.

• Sync Time: Click on Force Update to have the AcuRev 2100 sync its time with the NTP

server

• NTP Server 1/2/3: Enter up to 3 NTP servers in the "NTP Server 1", "NTP Server 2" and

"NTP Server 3"

0.us.pool.ntp.org

1.us.pool.ntp.org

2.us.pool.ntp.org

3.us.pool.ntp.org

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For more NTP servers based on region, visit the following site: http://www.pool.ntp.org/en/

• Time Zone: Select the time zone the meter is in or the time zone in which you would like

the meter's time to be synchronized to from the drop-down list. Users can also select the

time zone by clicking on the region on the map.

Click “Save” after conguring the time settings. Users will be prompted to reboot the AcuRev

2100 immediately or later. If later is chosen the AcuRev 2100 must be rebooted from the

“Management” page in order for the settings to take eect.

7.4 Data Log

The AcuRev 2100 supports logging data onto its onboard memory, where the module has 8GB

of memory.

The module supports three loggers for dierent parameters and requirements.

The data can be downloaded as a .csv le from the “data log” page in the logs section or by

using an HTTP/FTP client.

• Logger Enable: To use the data log function to log the data onto the module, select

'Enable' to view and congure the settings that are applicable.

• Post Channel: Select the channel to push the data log to an external HTTP/FTP server.

Only an enabled post channel can be selected here. A post channel can be enabled in the

'Post Channel' tab on the settings page.

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• Log Param Type: Users can select the type of parameters they wish to log into logger.

Use the '>' button to add selected parameters into the data log and use the '<' button to remove

selected parameters from the data log. Users can also use the 'All' or 'Clear' buttons to add all

or clear all parameters to and from the data log. The supported parameter types include real-

time readings, energy readings, demand readings, power quality readings and I/O readings.

• Timestamp Format: Select the format of the timestamp for the data that is logged. The

format for the timestamp can be based on the Local Time, UTC Seconds or based on

ISO8601 Format.

• Log File Name Format: Select the format of the log le name for the data that is logged.

The format for the log le name can be based on the UTC timestamp or based on Time

Interval Format.

• Log Interval: Select how frequently the meter will log data to the file that will be

uploaded to the server from the drop-down list. The logging interval can be from 1 second

to 1 month. The minimum time interval option is according to the selected parameter.

• The Real-time & IO's min Log Interval is 15 seconds

• The Energy's min Log Interval is 1 minute

• The Demand & Power Quality's min Log Interval is 1 min

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NOTE: If the selected parameters are Real-time and I/O, the min log interval is 15 seconds. If the

selected parameters are Real-time and Energy, the min log interval is 1 minute.

• Post File Length: Select how frequently the log le will be uploaded to the server from

the drop-down list The log le length can be from 1 minute to 1 month.

• Log File Name Prex: Provide a name for the log le posted to the post channel which

will be appended to the beginning of the log le. By default "logger1" will be appended to

the beginning of the log le.

• Local Log File Length: Select the length of the local log le as 1 hour, 1 day, 7 days or 1

month of data from the drop-down list.

• Local Log File Name Prex: Provide a name for the local log le which will be appended

to the beginning of the log le. By default "logger1" will be appended to the beginning of

the log le.

NOTE: The Post File Length and Local Log File Length must be less than or equal to the log interval selected.

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• SFTP Enable: To download the logged data from the module using an FTP client, select

Enable. The log le will then be available to be downloaded using an FTP client using the

following credentials:

Host: sftp://IPaddressofthemeter

Username: sftpuser

SFTP Password: accuenergy

Port: 22

By default the password for retrieving the backup log files is accuenergy. The user can

congure any password or can reset to the default of accuenergy by clicking on the "Reset

SFTP Password".

NOTE: After enabling the SFTP function the user must reboot the communication module in order

to access the data logs with the default password of 'accuenergy'.

Click 'Save' after changing any settings. Users will be prompted to reboot the AcuRev

2100 immediately or later. If later is chosen, the AcuRev 2100 must be rebooted from the

'Management' page in order for the changes to take eect.

7.5 Post Channel

The AcuRev 2100 supports the HTTP and FTP Post functions to send data from the meter to

an HTTP/FTP server. The AcuRev 2100 can post .csv les to three dierent HTTP or FTP servers

using HTTP Post or FTP Post.

In the case when there is no connection to the server, the AcuRev 2100 will store the posts and

send it out after the connection is restored. A maximum of 3000 les will be buered on the

module. The Clear Post Channel Logs button will allow users to clear the buered les on the

meter.

The AcuRev 2100 can post data to a server at intervals of time ranging from 1 minute to 1 month.

The settings for conguring the post channels to post the data can be found by clicking on

Settings and then selecting the Communications tab. Click Post Channels to congure any

of the three post channels.

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• Post Channel 1/2/3 Enable: Enable the Post Channel 1 in order to congure the settings

needed to post data via the HTTP(S)/FTP post functions

• Post Method: Select the method for posting the les, the user can choose HTTP/HTTPS

or FTP

• Post Name Fixed: This conguration needs to be enabled in order for the user to control

the name of the le that will be posted. Otherwise, the le name will be based on the Log

File Name Format conguration from the Data Log settings

• Post File Name: Users can enter a name for the le that will be posted as if 'Post Name

Fixed' is enabled

If the HTTP/HTTPs post method is selected:

• HTTP/HTTPS URL: Enter the URL for the HTTP/HTTPS server. The URL needs to begin with

the prex http:// or https://

• HTTP/HTTPS Port: Enter the port number the server will be listening on

• HTTP/HTTPS Meter ID: Enter a name or description for the meter to be identied on

the server

If the FTP post method is selected:

• FTP URL: Enter the URL for the FTP server. The URL needs to begin with the prex ftp://

• FTP Port: Enter the port number the server will be listening on

• FTP Username: Enter the username required to log into the FTP server

• FTP Password: Enter the password required to log into the FTP server

NOTE: The 'TEST Post Channel' button should only be utilized after clicking the 'Save' button

otherwise a fail response will be observed. If a fail response occurs after clicking 'Save' conrm the

network settings or credentials for the server.

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Click 'Save' after changing any settings. Users will be prompted to reboot the AcuRev

2100 immediately or later. If later is chosen the AcuRev 2100 must be rebooted from the

'Management' page in order for the settings to take eect.

7.6 AcuCloud

The AcuRev 2100 can directly interface with the Accuenergy Cloud software AcuCloud, where

the meter can post data to the cloud every ve minutes.

AcuCloud will require the serial number of the AcuRev 2100 which will then provide a token

that will be used to congure the AcuRev 2100 so it can send its data to AcuCloud.

The settings for the AcuCloud post function can be found by clicking on the Settings tab and

selecting Communications. Select AcuCloud to access the settings to congure the AcuRev

2100 to send data to the cloud.

• AcuCloud Enable: Select 'Enable' to enable the function and to further configure the

settings related to AcuCloud.

• AcuCloud Token: Copy and paste the token provided by the AcuCloud software into this eld.

NOTE: The "TEST AcuCloud" button should only be utilized after clicking the 'Save' button otherwise

a fail response will be observed. If a fail response occurs after clicking 'Save', please double-check

the serial number entered in AcuCloud, the token pasted in the web page as well viewing the test

post details by clicking on the 'Details' option.

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Users can use the 'Link to AcuCloud' to access the cloud software and congure the required

settings on that platform. Users must have sucient access to add devices on their account

in order to correctly congure the meter on the software.

NOTE: For inquiries on creating your AcuCloud account please contact Accuenergy Technical

Support.

Click 'Save' after changing any settings. Users will be prompted to reboot the AcuRev

2100 immediately or later. If later is chosen the AcuRev 2100 must be rebooted from the

'Management' page for the settings to take eect.

The AcuRev 2100 will post the data continuously every 5 minutes after the reboot.

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7.7 BACnet/IP

The AcuRev 2100 supports the BACnet/IP protocol. The settings for the BACnet/IP protocol

can be found on the web by clicking on the Settings tab and selecting Communications. Once

on the communications page select BACnet/IP to access the settings to congure the AcuRev

2100 to communicate with a BACnet client.

• BacNet Enabled: Select Enable to enable the BACnet protocol.

• BACnet Port: Enter the BACnet or UDP port number. The default port is 47808.

• Device Instance: Enter the instance number for the device in the BACnet system. It must

be unique within the system.

• Device Name: Enter a name for the device to distinguish it from other devices within the

network.

Under the "Enable Foreign Device Function", select 'Enable' to communicate with a BACnet

device from another subnet.

• Enter the IP of the BACnet Broadcast Management Device (BBMD) under the 'BBMD IP'

eld for the device which will receive broadcast messages on one subnet and forward

them to another subnet.

• Enter BACnet Port of the BBMD in "BBMD Port"

• Enter a value between 5-1440 min in the "Time To Live" for how often the foreign device

will register in the BBMD's foreign device table.

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Click 'Save' after changing any settings. Users will be prompted to reboot the AcuRev

2100 immediately or later. If later is chosen the AcuRev 2100 must be rebooted from the

'Management' page in order for the settings to take eect.

7.8 SNMP

The AcuRev 2100 supports the Simple Network Management Protocol (SNMP) for reporting

the metering data to the management station. The AcuRev 2100 uses a public community

string for read-only access. By default, the module will communicate using SNMP port 161.

The settings for the SNMP protocol can be found by clicking on the Settings tab and selecting

Communications. From the communications page, select the SNMP tab to access the settings

to congure the AcuRev 2100 for communication with an SNMP management station.

• SNMP Enable: Select 'Enable' to enable the function and to further congure the settings

related to the SNMP protocol.

• SNMP Port: By default, the SNMP Port is congured to 161. The SNMP Port can be any

value from ranging from 16100 to 16199.

• Read Only Community: By default the community string is Public, this conguration is

similar to a password that allows only authorized users to access the meters data.

Click 'Save' after changing any settings. Users will be prompted to reboot the AcuRev

2100 immediately or later. If later is chosen the AcuRev 2100 must be rebooted from the

'Management' page in order for the settings to take eect.

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7.9 MQTT

AcuRev 2100 supports the MQTT protocol where the gateway can publish device data to a

subscriber using an MQTT broker. The MQTT broker is a central server where all MQTT clients

would connect to. The broker/server manages all message topics and updates new messages

to all clients that are subscribed to a particular topic. All related MQTT settings can be

congured in the MQTT page under the Communication tab.

7.9.1 MQTT General Settings

Under the General tab in the MQTT page, users can enable the MQTT protocol and congure

the broker settings.

• Enable MQTT: Select Enable to enable MQTT protocol

• Broker Address: Enter the broker address of the MQTT server

• Broker Port: Enter the port number for the MQTT Broker

• Client ID: Enter the Client ID for the AcuRev 2100; must be a unique ID number

• Keep Alive: The client communicates a time interval in seconds to the broker, “Keep-

Alive” is the maximum length of time in seconds that the broker and the client cannot

communicate with each other.

• Facility ID: Users can specify the facility ID

Once all settings are configured click Save. The connection to the broker can be tested by

using the Test MQTT button.

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7.9.2 MQTT Authentication

The User Credential tab allows users to configure a “User Name” and “Password”

authentication if the broker is able to support it.

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7.9.3 MQTT Encryption

The SSL/TLS tab allows users to use the MQTT protocol with encryption.

On this page, users will be able to upload the required certicate and key les.

7.9.4 Last Will & Testament

The AcuRev 2100 supports Last Will and Testament messages via the MQTT protocol. These

settings can be congured under the Last Will & Testament tab.

The last will and testament message are used to notify other clients regarding other

disconnected clients. The message is an MQTT message that contains a topic, a QoS level and

a payload.

• Topic: Refers to the path used to access the MQTT message.

• QoS: Stands for Quality of Service and refers to the reliability of the message delivery

between the publisher and subscriber. There are three types of quality of service:

• QoS 0 - is the lowest level, and is dened as “at most once” delivery. This level has the

fastest message delivery but the success rate of delivery is not reliable.

• QoS 1 - is dened as “at least once” delivery. These types of messages are reliable and

are guaranteed, however, the messaged may be sent as duplicates several times.

• QoS 2 - Is the highest level, and is dened as “exactly once” delivery. These messages

are more reliable and are guaranteed to be sent once without any duplicates. This

type of messaging sends the most reliable message however it has a slower message

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delivery. Each client can optionally specify its own LWT message when it connects to a

broker. The broker stores this message so that if the client disconnects ungracefully,

the broker will send the disconnected client’s LWT message to all the other clients that

are subscribed to that last will message topic.

7.9.5 Topic and Parameter Selection

Under the Topic and Parameter Selection tab users can congure the sending interval and

devices data they want to publish to the broker.

• Topic: Users can enter the Topic, which is usually a base topic followed by the serial

number of the device.

• QoS: Users can congure the quality of service level, where Qos 0 is the lowest level and

Qos 2 is the highest level.

• Retained: Users have the option to retain messages or not. If a client retains messages

that were published to the topic, a second client that is subscribed to the same topic will

be able to see the retained message.

Users will need to specify the data they want to publish under the parameter selection box.

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7.10 Remote Access

The AcuRev 2100 supports a remote access function that allows users to access the meters

web interface remotely from anywhere using a special url. Users will have full functionality

and access to all meter readings and settings with this function.

• Remote Access Enable: Select 'Enable' to enable the function and allow for Remote

Access.

• Current Status: Will provide the user with a status of the Remote Access on whether it is

“Registered” or “Unregistered”.

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Users can click on the 'Manual Register' button to register the remote access. The following

page will be displayed.

NOTE: The module must be rebooted in order for the remote access connection to work properly.

• Registration Status: Displays the status as 'Registered' or 'Unregistered'

• Remote Access Information: Lets users know if the remote access status is online or

oine.

• Remote Access URL: The URL used to access the meters web server remotely. This URL

can be copied and shared with all users that require remote access.

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Chapter 8: Management

8.1 Parameter Reset

8.2 Reboot Meter & Communications Module

8.3 Change Password

8.4 SSH

8.5 Debug Diagnostic

8.6 Diagnostic File

Chapter 8: Management

Chapter 8: Management

8.1 Parameter Reset

The Management web page allows the user to clear and reset certain parameters in the meter.

The following parameters can be reset from the Management page:

• Demand

• Energy

• Alarm Record

• Device Run Time

• API Token

8.2 Reboot Meter & Communications Module

Users can also reboot the web module and meter which is required after any communication

or meter setting is changed if a module reboot is not performed the settings will not be saved

to the meter and will go back to its default settings. This not only resets the communication

module, it also performs a soft reboot on the AcuRev 2100 meter.

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8.3 Change Password

The access level passwords can be changed from the Management page as well, all new

passwords must be 6 characters or more.

8.4 SSH

The AcuRev 2100 supports the SSH which can be enabled to allow users to remotely log into

the meter using the SSH protocol. When enabled the status will show 'On', when disabled the

status will show 'O'.

8.5 Debug Diagnostic

The debug diagnostic allows the user to enable or disable the debug logs. The current status

will say 'All o' if disabled, 'All On' if enabled.

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Chapter 8: Management

Users can click on the advanced link, to turn on or o specic debug logs. If certain debug logs

are enabled the current status will show 'Partial On'.

NOTE: The system performance may be aected by enabling the debug logs.

8.6 Diagnostic File

The is a diagnostic file on the AcuRev 2100 that users can download which can be used to

analyze the modules diagnostics.

NOTE: Please send the diagnostic le to Accuenergy Technical Support (support@accuenergy.com)

for analysis.

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Chapter 9: Network Diagnostic

9.1 Network Status

9.2 Host Lookup

9.3 Connection Test

Chapter 9: Network Diagnostic

Chapter 9: Network Diagnostic

9.1 Network Status

The Network Diagnostic page can be used to monitor the network status of the module.

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9.2 Host Lookup

In the Host Lookup tab, users can utilize the 'ping' function to test the reach-ability to other

networks. Users can also use the ping6 function to ping an IPv6 address.

9.3 Connection Test

Users can also use the Connection Test function to test the local network that the module

connected to. The test result will show SUCCESS and PASS if there are no issues found.

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Chapter 9: Protocols

Chapter 10: Firmware

10.1 Module Firmware Update

AcuRev 2100 Series Power Meter: Web Manual

Chapter 10: Firmware

10.1 Module Firmware Update

The Module Firmware web page is used for updating the firmware version on the AcuRev

2100. The user can check if the module they are using is up to date and update the module

if needed using the remoter rmware update. Users can also manually update the rmware

by uploading the rmware le. The current version of the rmware will be displayed on the

Module rmware update page and can also be viewed on the 'Device Information' page of the

web interface.

There is an Auto Firmware Update feature available also, this allows users to update the

module automatically without manually going into the webserver and performing the update.

NOTE: Users can also contact Accuenergy Technical Support for the latest rmware.

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Chapter 10: Firmware

10.1.1 Manual Update

Select and upload the AcuRev 2100 rmware le, it is a .a2up le extension.

Once the upload was successfully uploaded you will see the following page conrming that the

le was uploaded.

Click 'Process' to begin the update.

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The meter will reboot itself after the update.

Login to the web interface of AcuRev 2100 after the reboot is complete, and go to the 'About'

page to check if the module rmware version is updated.

10.1.2 Remote Update

Users can also use the remote firmware server to update the module firmware. Click on

'Check' to verify if there is a rmware update available.

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Chapter 10: Firmware

If there is an update available users can proceed to download the rmware.

Once the download is complete the updating process will begin.

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When the rmware update is complete, the module will reboot. The rebooting process will

take 1-2 minutes to complete.

After the module reboots, users will be able to log back into the web interface. When logged

in click on the 'About' tab located on the top right corner of the web page to view the 'Device

Information' page. From the Device Information page, users can ensure that the meter was

updated correctly to the right rmware version.

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Chapter 9: Protocols

Chapter 11: Con󳆂g Management

11.1 Backup Con󳆂guration

11.2 Export/Apply Con󳆂guration

11.3 Import Con󳆂guration

AcuRev 2100 Series Power Meter: Web Manual

Chapter 11: Cong Management

The AcuRev 2100 has a configuration management page that allows users to save all web

settings with the exception of certain settings into a conguration le. This is useful if users

have more than one meter that needs to be programmed with the same settings, and

eliminates any error when trying to congure another AcuRev 2100.

The following settings are saved in the conguration le:

• All Meter settings (Wiring, CT ratio)

• Network settings (Only DNS1, DNS2, Modbus TCP Port, HTTP Proxy)

• All Email settings

• All Time/Date settings

• All Data Log settings

• All Post Channel settings

• All BACnet settings

• All SNMP settings

• Management settings (the View and Admin Access Level passwords, SSH, and Debug

Conguration)

• MQTT settings (General, User Credentials, Last Will & Testament, Topic & Parameter Selection)

The settings that are not included or aected by the Cong Management le is:

• Most Network settings (DHCP, IP, Submask, Gateway, HTTP Port for both Ethernet 1 and 2.

All WiFi settings, HTTP enable, and HTTPS port is not changed)

• AcuCloud

• Remote Access

• MQTT client ID and SSL certicates

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Chapter 11: Config Management

The Cong Management page can be accessed by clicking on the Settings tab and selecting

Cong Management.

11.1 Backup Conguration

Users can create a backup of the current congurations on the AcuRev 2100 interface.

• Backup Current Configuration Description: Enter in a description for the backup

conguration le.

Once the description is entered in click on the Backup button.

The backup is displayed in the List of Local Configurations. The file has a file format that

includes the module serial number, module rmware version, and time stamp that the le was

created.

NOTE: Users cannot have more than 10 congurations in the List of Local Congurations.

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Users can click on Detail to view the description of the conguration le. The details include

the Model name, serial number, time created. rmware version and the description entered

when the backup was created. Users can remove any of the conguration les from the list at

any time by selecting Delete.

11.2 Export/Apply Conguration

Users can export the configuration file and use it on other AcuRev 2100 units. The file is

downloaded as a .ehm le.

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Chapter 11: Config Management

To implement the conguration le click on the green check button to Apply. A prompt warning

the user that the existing .conf.ehm le will be overwritten is shown. Click Yes to continue.

A module reboot is required for the conguration to take eect. if users decided to reboot

later the reboot must be performed from the Management page in order for the settings to

take eect on the device.

11.3 Import Conguration

Import Configuration: Users can import a configuration file (.conf.ehm file format) to the

AcuRev 2100.

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Click on Import to upload the conguration le to the AcuRev 2100.

The newly imported le will now appear in the List of Local Congurations

NOTE: Users cannot import a file that already exists on the local configurations, when the list

already contains 10 cong les, and cannot import a cong le that has been exported from an

AcuRev 2100 with a higher rmware version.

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MAKE ENERGY USAGE SMARTER

ACCUENERGY (CANADA) INC.

2 Lansing Square, Suite 700

Toronto, ON M2J 4P8, Canada

ACCUENERGY SOUTH AFRICA (PTY) LTD

Castle Walk Corporate Park,
Block B, Cnr. Nossob & Swakop Street

Erasmuskloof, Pretoria, 0181
South Africa

TF: 1-877-721-8908
INT: +1-416-497-4100
FAX: +1-416-497-4130

E: marketing@accuenergy.com

TF: +27 (0) 87 802 6136

Revision Date: Jan 2021