Leviton Energy Monitoring Hub A8812 Installation And Operation Manual

Energy Monitoring Hub – Data Acquisition Server

Installation and Operation Manual

Model A8812

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Warranty Information

DANGER

Hazard of Electric Shock, Explosion or Arc Flash

 Follow safe electrical work practices. See NFPA 70E in the USA, or applicable local codes.
 This equipment must only be installed and serviced by qualified electrical personnel.
 Read, understand and follow the instructions before installing this product.
 Turn off all power supplying equipment before working on or inside the equipment. Use properly rated voltage

sensing device to confirm power is off. DO NOT DEPEND ON THIS PRODUCT FOR VOLTAGE INDICATION

 Only install this product on insulated conductors.

Failure to follow these instructions will result in death or serious injury.

NOTICE

 This product is not intended for life safety applications.
 Do not install this product in hazardous or classified locations.
 The installer is responsible for conformance to all applicable codes.

LIMITED FIVE YEAR WARRANTY AND EXCLUSIONS

Leviton warrants to the original consumer purchaser and not for the benefit of anyone else that this product at the time of its
sale by Leviton is free of defects in materials and workmanship under normal and proper use for five years from the
purchase date. This Warranty is limited to repair or replacement of defective equipment returned Freight Pre-Paid to Leviton
Manufacturing at 20497 SW Teton Ave., Tualatin, Oregon 97062, USA. User shall call 1-800-959-6004 and request a return
authorization number to mark on the outside of the returning carton, to assure that the returned material will be properly
received at Leviton.

All equipment shipped back to Leviton must be carefully and properly packed to avoid shipping damage. Replacements or
repaired equipment will be returned to sender freight prepaid, F.O.B. factory. Leviton is not responsible for removing or
replacing equipment on the job site, and will not honor charges for such work. Leviton will not be responsible for any loss
of use time or subsequent damages should any of the equipment fail during the warranty period, but agree only to repair or
replace defective equipment returned to its plant in Tualatin, Oregon.

This Warranty is void on any product that has been improperly installed, overloaded, short circuited, abused, or altered in
any manner. Neither the seller nor Leviton shall be liable for any injury, loss or damage, direct or consequential arising out
of the use of or inability to use the equipment. This Warranty does not cover lamps, ballasts, and other equipment which is
supplied or warranted directly to the user by their manufacturer. Leviton makes no warranty as to the Fitness for Purpose or
other implied Warranties.

Notice

Although the information contained within this operation manual is believed to be accurate at the time of printing, it is not
guaranteed to be without fault and is subject to change without notice. For current information contact:

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FCC Part 15 Information
Note: This equipment has been tested by the manufacturer and found to comply with the limits of a

class A digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide
reasonable protection against interference when the equipment is operated in a commercial
environment. This equipment generates, uses, and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause harmful interference to radio
communications. Operation of this equipment in a residential area is likely to cause harmful
interference in which case the user will be required to correct the interference at their expense.

Modifications of this product without the express authorization of Leviton nullify this statement.

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Table of Contents

Overview .......................................................................................................................................................................................................... 5

Installation Checklist ........................................................................................................................................................................................ 5

Markings and Symbols: .................................................................................................................................................................................... 5

Hardware Overview .......................................................................................................................................................................................... 6

A8812 Features and Specifications ...................................................................................................................................................... 6

Electrical Connections .......................................................................................................................................................................... 7

Hardware Installation ........................................................................................................................................................................... 7

Basic Network Configuration ......................................................................................................................................................................... 10

Laptop/Computer Setup ...................................................................................................................................................................... 11

Energy Monitoring Hub Administration Overview ........................................................................................................................................ 13

Security ........................................................................................................................................................................................................... 14

Modbus ........................................................................................................................................................................................................... 14

Modbus Device List ........................................................................................................................................................................... 14

Device List Options ................................................................................................................................................................ 15

Device Details ........................................................................................................................................................................ 16

Device Configuration ............................................................................................................................................................. 16

Advanced Configuration Options ........................................................................................................................................... 16

Manual Device Add Options .................................................................................................................................................. 17

Internal IO Configuration ....................................................................................................................................................... 18

Troubleshooting Modbus Devices ...................................................................................................................................................... 20

Modbus Setup ..................................................................................................................................................................................... 20

Alarm Setup ........................................................................................................................................................................................ 21

Modbus Framework............................................................................................................................................................................ 22

Wireless .......................................................................................................................................................................................................... 22

Sensor List .......................................................................................................................................................................................... 22

ModHopper Map ................................................................................................................................................................................ 22

Networking ..................................................................................................................................................................................................... 23

Network Status ................................................................................................................................................................................... 23

Ethernet setup ..................................................................................................................................................................................... 23

Troubleshooting Ethernet Problems ................................................................................................................................................... 23

System Options ............................................................................................................................................................................................... 24

Status .................................................................................................................................................................................................. 24

Processes ............................................................................................................................................................................................ 24

Date and Time .................................................................................................................................................................................... 24

Universal Time Is Your Friend............................................................................................................................................... 24

System logs ........................................................................................................................................................................................ 25

Firmware Update ................................................................................................................................................................................ 25

Diagnostics ..................................................................................................................................................................................................... 26

Host Lookup ....................................................................................................................................................................................... 26

Connection Test .................................................................................................................................................................................. 26

LCD Console ................................................................ ................................ ................................................................ .................................. 27

Log File Data .................................................................................................................................................................................................. 28

Log File Status.................................................................................................................................................................................... 28

Log File Format .................................................................................................................................................................................. 29

Log Storage Capacity ......................................................................................................................................................................... 30

Uploading data to the LEM website. .................................................................................................................................................. 31

Retrieving Data from the Energy Monitoring Hub ......................................................................................................................................... 32

HTTP Direct from the Energy Monitoring Hub ................................................................................................................................. 32

FTP Direct from the Energy Monitoring Hub .................................................................................................................................... 32

Enertrax download direct from the Energy Monitoring Hub .............................................................................................................. 32

HTTP/Post Upload To Energy Manager ........................................................................................................................................... 33

HTTP/Post Upload To Your Database Server .................................................................................................................................... 34

Removing Data from the Energy Monitoring Hub ............................................................................................................................. 34

Linking to Energy Monitoring Hub Device Status Pages ................................................................................................................... 34

Mechanical Drawings ..................................................................................................................................................................................... 35

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Overview

The Energy Monitoring Hub™ Data Acquisition Server is designed to allow owners and managers of commercial and
industrial facilities with a cost-effective means of gathering crucial information in a timely manner. To meet these
requirements, the Energy Monitoring Hub™ system provides the installer with all the tools necessary to install and
configure the hardware and software with a minimum of time and investment.

Installation Checklist

An Energy Monitoring Hub™ system installation has the following components:
Required hardware

 Energy Monitoring Hub™ A8812 Data Acquisition Server (required)
 Data connection (Ethernet).

 Ethernet Cat 5 cable (required for LAN or direct laptop-to-Energy Monitoring Hub connection)

Optional hardware

 Leviton Series 2000 and 3000 meters (Modbus RTU standard).
 Analog sensors for temperature, humidity, etc.
 Pulse output transducers for measuring gas, electricity, water, etc. from existing meters and sensors.

Next, choose one or more of the following connection methods.
For LAN installations only:

 Ethernet 10/100Mbit connection point (hub or switch)
 IP address and Netmask (check with system administrator)
 Gateway address (check with system administrator)
 DNS server address (check with system administrator)
 HTTP Proxy address (optional), may be required if the Energy Monitoring Hub is behind a firewall (check with

system administrator)

Markings and Symbols:

WARNING: A potential risk exists if the operating instructions are not followed

General Warning Symbol: This symbol indicates the need to consult the operating instructions provided with the

product.

This symbol indicates the presence of electric shock hazards.

This symbol indicates: Do not apply to or remove from hazardous live conductors.

Direct Current symbol.

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Hardware Overview

A8812

A8812 Features and Specifications

Processor Arm9 embedded CPU, Arm7 io coprocessor
Operating System Linux 2.6
Memory 32 MB ram, 16 MB flash
LED 8x input, 4 modem activity, Modbus TX/RX, power, system, io status
Console 2 x 16 character LCD, two pushbuttons
LAN RJ45 10/100 Ethernet, full half duplex, auto polarity
Protocols Modbus/RTU, Modbus/TCP, TCP/IP, PPP, HTTP/HTML, FTP, NTP, XML, SNMP-Trap
Power Supply 24VDC, 1A, class 2 wall brick transformer.
North America: 110-120VAC, 60hz, primary. (standard, included)
CE/Europe: 100-240VAC, 50-60hz, primary, with interchangeable plug adapters. (optional)
Interval Recording User selectable 1-60 minutes. Default 15 minute interval
Serial Port1 RS-485 Modbus, supports up to 32 external devices (expandable)
Inputs1 8 flex-io inputs with multiple modes: voltage, current, resistance, pulse and status.
Voltage mode: 0-10vdc (min/max/average/instantaneous data)
accuracy: +- 0.25% of full scale at 20ºc
Current mode: 4-20mA (min/max/average/instantaneous data)
accuracy: +- 0.25% of full scale at 20ºc
Resistance mode: 100 ohms to 100k.

accuracy: 100 -1k +- 1% of 1k at 20ºc
1k – 10k +- 1% of 10k at 20ºc
10k – 47.5k +- 1% of 47.5k at 20ºc

47.5k – 100k +- 1% of 100k at 20ºc
100k 10M accuracy unrated.

Pulse mode: intended for use with dry contact outputs. (consumption/rate/runtime/status)
Standard and KYZ modes for form A and C relay outputs
Input terminal supplies 3V ~ 5V at 5mA sense voltage to detect contact closures.
Maximum rate: 10hz, minimum pulse width 50ms.

Adjustable contact closure threshold: 100 to 5k , broken wire sense above 10k optional.
Pulse count and runtime values are stored in non-volatile memory.
Outputs1: 2 optically isolated outputs type: opto-fet, dry contacts. Rating: 30vdc, 150mA max.
Isolation2: The RJ45 Ethernet, RJ11 Modem, pulse outputs, and the primary side of the power adapter are

electrically isolated from the Energy Monitoring Hub main PCB board and inputs.
Environmental North America: Indoor, temperature 0º - 50ºc, 0 - 95% humidity, non-condensing.
CE/Europe: Indoor, temperature 5º - 40ºc, 0 - 90% humidity, non-condensing.
EMC FCC CFR 47 Part 15, Class A

EN 61000, EN 61326
Size 8” x 9.25” x 2.5” (203mm x 235mm x 64mm)
Mass 5lbs (2.3kg)

1

inputs are intended for low voltage class 2 outputs.

2

if the product is used in a manner not specified by the
manufacture, the protection provided by the equipment
may be impaired.

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Electrical Connections

Not available with

this model

A8812 Internal View

Hardware Installation

Step 1 - Unpack materials: Remove all materials from shipping box and verify all required components are available
Step 2 - Mount the Energy Monitoring Hub on the wall or other appropriate location.

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Step 3 – (optional) Connect any analog or pulse output sensors you may have. For Analog sensors, 0-10V or 4-20mA sensor

Energy Monitoring Hub

Energy Monitoring Hub A8812

types are allowed. The combined power consumption of all the analog sensors attached to the Energy Monitoring Hub must
not exceed 200mA. If more current is required, use an external power supply as shown in the wiring diagram for each input
type later in this section.

Step 4 (optional) - Connect the Modbus network loop as shown in the wiring diagram. Follow the manufacturer‟s
instructions for installing and powering the Modbus devices. Verify that the Modbus address settings are unique for each
device (i.e., no two devices with the same address) and power up the device. Connect each device in the chain by “daisy­chaining” the devices together. Observe + and - polarity on the Modbus devices.

Low Voltage analog, pulse, and RS485 wiring that enter electrical panels must have a minimum insulation rating that
exceeds the voltage inside the panel. In addition, other regulations may apply; consult the building codes in your area prior
to installation.

The RS485 port on the A8812 has a built in terminator. A 150 ohm termination resistor should be placed at the other end of
the RS485 loop, between the + and – wires.

Note: Some Modbus devices do not use the same label notation as the Energy Monitoring Hub.
The Energy Monitoring Hub A8812 internal IO module (Analog and pulse inputs) uses Modbus address 250, and will show

up in the Modbus device count as a single Modbus device. Additional analog or pulse input IO modules may be added to the
Modbus loop as needed.

Modbus loop as needed.

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Step 5 - Power-up and diagnostics: Attach the power supply to the power input jack on the Energy Monitoring Hub, and

AcquiSuite Ready

192.168.40.50

[Main Menu]
TCP/IP Config

[Main Menu]
Modbus Status

X devices OK
X fail, X new

plug the power brick into a wall outlet. The power brick should be in a location that is accessible for connection and
disconnection. After power is applied, the green “Alive” light in the upper right of the Energy Monitoring Hub should come
on and the LCD display will display a series of diagnostic screens ending with the following message on the LCD display
(this boot sequence may require up to 20 seconds to complete):

This indicates that the Energy Monitoring Hub has loaded properly and is ready for configuration and connection to the

network and sensors. If the “Alive” light does not come on or the LCD display does not cycle to the above screen, verify

that the power cord is plugged in. If after cycling the power the unit still does not power up (or if an error message appears
in the LCD display), contact technical support. After the A8812 has been powered up for a minute, the green Alive LED
should blink slowly once per second during normal operation.

 Modbus TX/RX: The Modbus TX and RX LEDs blink to indicate data on the RS485/Modbus loop. The

RX led blinks only when data is received by the Energy Monitoring Hub

 Modem RTS: the modem is being monitored or operated by the Energy Monitoring Hub, off when the

modem is idle. This LED will be on when a dialout call is in progress, or when dial in is enabled and
waiting for an inbound call.

 Modem CD: the modem has a carrier connection to a remote system.
 Modem TX/RX: data is being sent or received on the modem.
 Alive: blinks once per second while the system is operating correctly.
 Alarm: blinks to indicate a problem.
 Inputs 1-8: in pulse or status mode, the LED is on when contacts are closed. In analog 4-20mA and 0-

10V mode, the led blinks quickly (2 Hz) to indicate an over-range alarm error. In 4-20mA mode when the
input current is less than 4mA, or in resistance mode where the input resistance is above 10Mohm, the led
will blink a pattern (blink, blink, off) to indicate a broken wire alarm.

 Ethernet Link/Act: On when connected to a hub or switch, off when not connected. Blinks when LAN

traffic is being sent or received.

 RS485 RX/TX. The 485TX led should blink slowly once per second during normal operation. The RX

led will blink when external Modbus devices communicate with the Energy Monitoring Hub.

 RF TX / RF RX: If the A8812 has a built-in ModHopper option with an on-board radio, the RF LEDs

will blink showing transmit and receive packets.

Step 6 - Verify connected devices: To verify that the Modbus devices are installed and reporting correctly, use the Modbus
status utility on the Energy Monitoring Hub server. To do this test, follow these steps:

A. Press and release the menu (top) button on the Energy Monitoring Hub. The following will appear on the
LCD display:

B. Press the menu (top) button several more times until the LCD display shows the following message:

C. Press the select (bottom) button on the server and the unit will begin the diagnosis of the Modbus loop.

After the check is completed, the unit will display the following message:

D. Verify that the number of devices located by the server (the total of OK, fail and new) matches the number

of devices actually installed and connected. For a first time installation, all devices should appear as “new”.

The Energy Monitoring Hub A8812 Internal IO (pulse and analog inputs) appear as one device in this list.

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(Note: A “device” is the Modbus connected device, not necessarily the sensor. For example, an A8923-4 I/O

Static IP Address

DHCP

Direct Connection to Laptop

IP address: ___.___.___.___
Netmask: ___.___.___.___
Gateway: ___.___.___.___
DNS server: ___.___.___.___
DNS server: ___.___.___.___
HTTP Proxy _____________
proxy server port: ______

IP address: (dhcp assigned)
Netmask: (dhcp assigned)
Gateway: (dhcp assigned)
DNS server: (dhcp assigned)
HTTP Proxy _____________
proxy server port: ______

IP Address: 192.168.40.50
Netmask: 255.255.255.0
Gatway: 192.168.40.1
DNS: 70.99.203.62
HTTP Proxy: [blank]

(factory default settings)

AcquiSuite Ready

192.168.40.50

[Main Menu]
TCP/IP Config

[TCP/IP Config]
IP Address

module with 4 sensors connected is only one Modbus device, not four.) For further information on the LCD
console, please review the console section of this manual.

E. The Energy Monitoring Hub completes a background scan for new Modbus devices every 2-5 minutes.
Increasing the RS485 Modbus timeout may increase the time required to detect new devices. If the Modbus
devices are connected after the server is booted up, the devices may not appear on the screen for several
minutes. In the worst case, allow up to 5 minutes for the Energy Monitoring Hub to locate all the connected
devices.

F. If all devices are reporting properly, it is now time to connect the server to the network or phone line for
remote reporting and configuration.

Basic Network Configuration

Step 1 - Determine the IP addressing needs: The IP address of the Energy Monitoring Hub server can be implemented using
one of three methods. Check with the network administrator to determine which method applies. For phone installations, use
"direct connection to laptop" to allow initial configuration.

 Static IP address - this is a fixed IP address which is assigned by a network administrator and “hard-coded” into the

Energy Monitoring Hub; or

 Dynamic Host Configuration Protocol (DHCP) address - this process assigns an IP address dynamically to the

Energy Monitoring Hub when it is connected to the network from a host DHCP server; or

 Direct connection between the Energy Monitoring Hub and a single temporary computer such as a laptop. (primary

connection will be dial in or dialout by modem)

You will need the following information from your network administrator: The addresses will be in the form of
“###.###.###.###”), where “#” refers to the numbers 0 to 9.

Step 2 - Configure the IP address as selected from the table above. For Direct Connection to Laptop, the address settings
above are set as the factory default, and you may be able to skip to the "Laptop/Computer Setup" section if the factory
default settings are present.

To begin configuration, make sure that the server displays the start screen:

If this screen does not appear on the LCD display, press and hold the menu (top) button on the server for several seconds
and the message should appear. To change the IP address to the static address assigned by the network administrator, do the
following:

A. Press the menu (top) button once to get the TCP/IP configuration menu

B. Press the select (bottom) button twice to get the IP config menu:

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Network Address Worksheet

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[IP Address]

192.168.40.50

LAN connected EMH

Direct Connect EMH

EMHEMH

C. Press the select button again to see the IP address menu:

D. At this point, the cursor on the display will be blinking on the first number in the IP address on the second

line.

E. To change the number, press the menu (top) button and the display will cycle through the digits 0-9 as well

as “.”. Once the correct digit is displayed, press the select (lower) button to advance to the next digit and

repeat the process until all the digits are correct.

F. Once the IP address on the Energy Monitoring Hub matches the assigned IP address; press the select
(bottom) button once more to return to the main TCP/IP menu.

Step 3 - Set the netmask, gateway, and DNS server(s) addresses as noted in the chart "Network Address Worksheet" using
the same technique as shown above. The only change is that after Step B; press the menu (top) button multiple times to see
the netmask, gateway, and dns setup menu, then push the select button to set the option.

Note: If DHCP configuration is selected, the IP, netmask, gateway, and dns server addresses will be obtained automatically.
Simply select the “Enable DHCP” from the first TCP/IP configuration menu.

Step 4 - After the address information has been set, you must reboot the Energy Monitoring Hub. Select the "(Previous
Menu)" option after step B above. The menu will then state that the Energy Monitoring Hub must be rebooted to take effect.
Press 'select' to allow the Energy Monitoring Hub to reboot.

Once the Energy Monitoring Hub has rebooted, the new IP address will be displayed on the console. If DHCP addressing
was specified, the server assigned address will be displayed.

Note: if DHCP is unable to obtain an IP address, the Energy Monitoring Hub will use the fallback address of 192.168.0.100.

Laptop/Computer Setup

Step 1 - You must have a computer to access and configure the Energy Monitoring Hub. This computer must have an
Ethernet connection (on the LAN or by direct connection) and must have a web browser installed such as Internet Explorer
or Netscape.

Note: If your building already has an existing LAN that the Energy Monitoring Hub is attached to, you can use an existing
computer on that LAN. Check with your network administrator for details. If this option is available, use a LAN connected
computer and skip to the “Energy Monitoring Hub administration overview” section below.

The remainder of this section will assume the installer has brought a laptop to the site, and will connect the laptop to the
building LAN, or directly to the Energy Monitoring Hub. Attach the laptop to the Energy Monitoring Hub or LAN as shown
in figure 6, Ethernet hookup.

Step 2 - Attach the Laptop to the Energy Monitoring Hub or to the LAN. The A8812 will automatically detect whether a
direct or crossover cable is required, and will reverse polarity accordingly. This feature will allow you to use either a
straight Ethernet cable or a crossover Ethernet cable interchangeably.

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