E50F2A/E50F5A

E50F2A/E50F5A
Installation Guide
Power Monitoring
TM
E50F2A, E50F5A
Compact Power and Energy Meters
With LON TP/FT-10 Communication
For Use Only With U018 Series Rope CTs
U018 Series
(sold separately)
RoHS
Compliant
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.
Product may use multiple voltage/power sources. Disconnect all sources of power
before servicing.
Use a properly rated voltage sensing device to confirm power is off.
DO NOT DEPEND ON THIS PRODUCT FOR VOLTAGE INDICATION.
Current transformer secondaries must be shorted or connected to a burden at all times.
Products rated only for basic insulation must be installed on insulated conductors.
Replace all doors, covers and protective devices before powering the equipment.
Failure to follow these instructions will result in death or serious injury.
A qualified person is one who has skills and knowledge related to the construction and
operation of this electrical equipment and installations, and has received safety
training to recognize and avoid the hazards involved.
NEC2014 Article 100
No responsibility is assumed by Veris Industries for any consequences arising out of the
use of this material.
Control system design must consider the potential failure modes of control paths and, for
certain critical control functions, provide a means to acheive a safe state during and after a
path failure. Examples of critical control functions are emergency stop and over-travel stop.
1For additional information about anticipated transmission delays or failures of the link, refer to
NEMA ICS 1.1 (latest edition). Safety Guidelins for the Application, Installation, and Maintenance
of Solid-State Control or its equivalent in your specific country, language, and/or location.
NOTICE
FCC PART 15 INFORMATION
NOTE: This equipment has been tested by the manufacturer and found to
comply with the limits for a class B digital device, pursuant to part 15 of
the FCC Rules. These limits are designed to provide reasonable protection
against harmful interference when the equipment is operated in a
residential 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. This device complies with part 15 of the FCC Rules.
Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) this device must accept any interference received, including
interference that may cause undesired operation.
Modifications to this product without the express authorization of the
manufacturer nullify this statement.
For use in a Pollution Degree 2 or better environment only. A Pollution Degree 2 environment must
control conductive pollution and the possibility of condensation or high humidity. Consider the
enclosure, the correct use of ventilation, thermal properties of the equipment, and the relationship with
the environment. Installation category: CAT II or CAT III. Provide a disconnect device to disconnect the
meter from the supply source. Place this device in close proximity to the equipment and within easy
reach of the operator, and mark it as the disconnecting device. The disconnecting device shall meet the
relevant requirements of IEC 60947-1 and IEC 60947-3 and shall be suitable for the application. In the US
and Canada, disconnecting fuse holders can be used. Provide overcurrent protection and disconecting
device for supply conductors with approved current limiting devices suitable for protecting the wiring.
If the equipment is used in a manner not specified by the manufacturer, the protection provided by the
device may be impaired.
Page 1 of 34
The meter is housed in a plastic enclosure suitable for installation on T35 DIN rail according to EN50022. The E50 can
be mounted with any orientation over the entire ambient temperature range, either on a DIN rail or in a panel. The
meter is not sensitive to CT orientation to reduce installation errors.
Product Identification
Model
Description
E50F2A
LON output, 1 pulse input , alarm output
E50F5A
LON output, data logging, 2 pulse inputs
MEASUREMENT ACCURACY
Real Power and Energy
Reactive Power and Energy
Current
IEC 62053-22 Class 0.2S, ANSI C12.20 0.2%
IEC 62053-23 Class 2, 2%
0.4% (+0.015% per °C deviation from 25°C) from 5% to 100% of range;
0.8% (+0.015% per °C deviation from 25°C) from 1% to 5% of range
Voltage
This product is not intended for life or safety applications.
Do not install this product in hazardous or classified locations.
The installer is responsible for conformance to all applicable codes.
Mount this product inside a suitable fire and electrical enclosure.
ZL0119-0B
The E50FxA DIN Rail Power Meter provides a solution for measuring energy data with a single device. Inputs include
pulse, control power, CT, and 3-phase voltage. The E50FxA supports multiple output options, including solid
state phase loss alarm relay contacts (E50F2A only), LON, and data logging (E50F5A only). The LCD screen on the
faceplate allows instant output viewing. These meters include built-in CT integrators and CT power supplies. The
E50F2A and E50F5A work only with Veris U018 series rope style CTs.
Specifications
WARNING
LOSS OF CONTROL
∙ Assure that the system will reach a safe state during and after a control path failure.
∙ Separate or redundant control paths must be provided for critical control functions.
∙ Test the effect of transmission delays or failures of communication links.1
∙ Each implementation of equipment using communication links must be individually
and thoroughly tested for proper operation before placing it in service.
Failure to follow these instructions may cause injury, death or equipment damage.
•
•
•
•
Product Overview
Sample Rate
Data Update Rate
Type of Measurement
0.4% (+0.015% per °C deviation from 25°C) from 90 VL-N to 600 VACL-L
2520 samples per second
1 sec
True RMS up to 1260 Hz (21st harmonic at 60 Hz); One to three phase AC
system
INPUT VOLTAGE CHARACTERISTICS
Measured AC Voltage
Minimum 90 VL-N (156 VL-L) for stated accuracy;
UL Maximum: 600 VL-L (347 VL-N ); CE Maximum: 300 VL-N
Metering Over-Range
Impedance
Frequency Range
+20%
2.5 MΩL-N /5 MΩL-L
45 to 65 Hz
INPUT CURRENT CHARACTERISTICS
CT Scaling
Measurement Input Range
20A to 5000A
U018 series rope style CTs only (CTs must be rated for connection to Class
1 voltage inputs)
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Specifications
(cont.)
TM
CONTROL POWER
AC
5 VA max.; 90 V min.;
UL Maximum: 600 VL-L (347 VL-N ); CE Maximum: 300 VL-N
DC*
Ride Through Time
3 W max.; UL and CE: 125 to 300 VDC
100 msec at 120 VAC
INPUT
Pulse
Minimum Pulse Width
Solid-State or mechanical contacts (current less than 1 mA)
20 msec
OUTPUT
Alarm Contacts
(E50F2A only)
Communication Port
N.C., static output; (30 VAC/DC, 100 mA max. @ 25°C, derate 0.56 mA per
°C above 25°C)
2-wire, LON TP/FT-10
MECHANICAL CHARACTERISTICS
Weight
IP Degree of Protection (IEC
60529)
Display Characteristics
Terminal Block Screw Torque
Terminal Block Wire Size
Mounting Rail
0.62 lb (0.28 kg)
IP40 front display; IP20 Meter
Back-lit blue LCD
0.37 ft-lb (0.5 N·m) nominal/0.44 ft-lb (0.6 N·m) max.
24 to 14 AWG (0.2 to 2.1 mm2)
T35 (35mm) DIN Rail per EN50022
OPERATING ENVIRONMENT
Operating Temperature
-30° to 70°C (-22° to 158°F)
Storage Temperature
-40° to 85°C (-40° to 185°F)
Humidity Range
<95% RH (non-condensing)
Altitude of Operation
3 km max.
COMPLIANCE INFORMATION
US and Canada
CAT III, Pollution degree 2;
for distribution systems up to 347VL-N /600VACL-L
CE
CAT III, Pollution degree 2;
for distribution systems up to 300VL-N
Dielectric Withstand
Per UL 508, EN61010
Conducted and Radiated
Emissions
FCC part 15 Class B, EN55011/EN61000 Class B (residential and light
industrial)
Conducted and Radiated
Immunity
EN61000 Class A (heavy industrial)
Agencies: US and Canada
(cULus)
UL508 (open type device)/CSA 22.2 No. 14-05
* External DC current limiting is required. See fuse recommendations.
ZL0119-0B
Page 2 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Table of Contents
ZL0119-0B
Page 3 of 34
TM
Dimensions
4
Data Outputs
4
Product Diagram
5
Display Screen Diagram
5
Installation
6
Supported System Types
7
Wiring Symbols
7
Wiring
8
Control Power
9
Quick Setup Instructions
10
Pulse Contact Inputs
10
Solid State Output
11
LON TP/FT-10 Communications
11
User Interface Menu Abbreviations Defined
12
User Interface for Data Configuration
13
Alert/Reset Information
14
User Interface for Setup
15
Resources Available for Downloading
17
Using the LNS Plugin
17
Configuring and Commissioning Without the Plugin
24
Network Variables
25
Configuration Properties
30
Troubleshooting
34
China RoHS Compliance Information
34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Dimensions
1.8”
(45mm)
1.9”
(48mm)
2.3”
(59mm)
1.5”
(39mm)
3.6”
(91mm)
4.2”
(107mm)
Bottom View (DIN Mount Option)
Bottom View (Screw Mount Option)
2.4 “
(61 mm)
4.2 “
(107 mm)
+
3.6 “
(91 mm)
0.2 “
(4 mm)
1.2 “
(31 mm)
+
3.9“
(99 mm)
4.3 “
(109 mm)
+
Data Outputs
0.3 “
(8 mm)
0.4 “
(10 mm)
Full Data Set (FDS)
Power (kW)
Energy (kWh)
Configurable for CT & PT ratios, system type, and passwords
Diagnostic alerts
Current: 3-phase average
Volts: 3-phase average
Current: by phase
Volts: by phase Line-Line and Line-Neutral
Power: Real, Reactive, and Apparent 3-phase total and per phase
Power Factor: 3-phase average and per phase
Frequency
Power Demand: Most Recent and Peak
Demand Configuration: Fixed, Rolling Block, and External Sync
Real Time Clock: user configurable
Data Logging (E50F5A only, includes all FDS outputs plus)
3 user configurable log buffers: each buffer holds 5760 32-bit entries
(User configures which 3 data points are stored in these buffers)
User configurable logging interval
(When configured for a 15 minute interval, each buffer holds 60 days of data)
Continuous and Single Shot logging modes: user selectable
Auto write pause: read logs without disabling the meter’s data logging mode
ZL0119-0B
Page 4 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Product Diagrams
1
VB
VC
Display Screen
Diagram
CONTROL POWER
0.1A 50/60 Hz
CE: 90V L-N - 300V L-N
N
1
2
VOLTAGE INPUTS
CAT III 50/60 Hz
Energy
UL: 90V L-N - 600V L-L
A
B
C
N
Neutral
C
Alarm
The red Alarm LED lights
when any of the 3 phase
voltages drop below the
selected threshold.
The green Energy LED lights
when the pulse 1 input
contacts are active or closed.
VC
B
–
EMC Ground
A
VA
UL: 90V L-N - 600V L-L


VB
VOLTAGE INPUTS
CAT III 50/60 Hz
Neutral
The red Alarm LED lights
when any of the 3 phase
voltages drop below the
selected threshold.
Energy
Control
Power
Alarm
Shield
S
SERVICE
+
VA


Two 5-character rows
of display text.
Top row alphanumeric;
Bottom row numeric only
2
–
CONTROL POWER
0.1A 50/60 Hz
CE: 90V L-N - 300V L-N
1
2
Control
Power
SERVICE
+
LON FT
Pulse Inputs
(X2) A (X1) (X2) B (X1) (X2) C (X1)
S
Two 5-character rows
of display text.
Top row alphanumeric;
Bottom row numeric only
Pulse Input 2
Pulse Input 1
IC
IB
IA
X2 X1 X2 X1 X2 X1
(X2) A (X1) (X2) B (X1) (X2) C (X1)
EMC Ground
X2 X1 X2 X1 X2 X1
Shield
LON FT
Pulse Input
Alarm Output
E50F5A
IC
IB
IA
E50F2A
LCD Screen:
Screen Name or Units
Alive Indicator


Diagnostic Alert
Logo
♥
Tx
Rx
ERR
RS-485 Equipped Units Only:
Transmit Data
Receive Data
Receive Data Error
Numeric Data
Buttons:
(Up)
Select
+
(Left)
Back
(Right)
Next
–
(Down)
Select
ZL0119-0B
Page 5 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Disconnect power prior to installation.
Installation
Reinstall any covers that are displaced during the installation before powering the unit.
Mount the meter in an appropriate electrical enclosure near equipment to be monitored.
Do not install on the load side of a Variable Frequency Drive (VFD), aka Variable Speed Drive (VSD)
or Adjustable Frequency Drive (AFD).
The meter can be mounted in two ways: on standard 35 mm DIN rail or screw-mounted to the interior surface of the enclosure.
A. DIN Rail Mounting
1. Attach the mounting clips to the underside of the housing by sliding them into the slots from the inside. The stopping pegs
must face the housing, and the outside edge of the clip must be flush with the outside edge of the housing.
2. Snap the clips onto the DIN rail. See the diagram of the underside of the housing (below).
Clip flush with
outside edge
Insert clips from inside
Snap onto
DIN rail
3. To reduce horizontal shifting across the DIN rail, use two Veris AV02 end stop clips.
B. Screw Mounting
1. Attach the mounting clips to the underside of the housing by sliding them into the slots from the outside. The stopping pegs
must face the housing, and the screw hole must be exposed on the outside of the housing.
2. Use three #8 screws (not supplied) to mount the meter to the inside of the enclosure. See the diagram of the underside of the
housing (below).
Insert clips from outside
Screw holes
exposed for
mounting
ZL0119-0B
Page 6 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Supported System
Types
The meter has a number of different possible system wiring configurations (see Wiring Diagrams section). To configure the meter,
set the System Type via the User Interface, LON variable cpSystemType. The System Type tells the meter which of its current and
voltage inputs are valid, which are to be ignored, and whether neutral is connected. Setting the correct System Type prevents
unwanted energy accumulation on unused inputs, selects the formula to calculate the Theoretical Maximum System Power, and
determines which phase loss algorithm is to be used. The phase loss algorithm is configured as a percentage of the Line-to-Line
System Voltage (except when in System Type 10) and also calculates the expected Line to Neutral voltages for system types that
have Neutral (12 & 40).
Values that are not valid in a particular System Type display as “----” on the User Interface or as QNAN in the LON variables.
CTs
Number of
wires
Qty
Voltage Connections
System Type
Phase Loss Measurements
ID
Qty
ID
Type
LON variable cpSystemType
User Interface:
SETUP>S SYS
VLL
VLN
Balance
Wiring
Diagram
Diagram
number
Single-Phase Wiring
2
1
A
2
A, N
L-N
10
1L + 1n
2
1
A
2
A, B
L-L
11
2L
AB
AN
3
2
A, B
3
A, B, N
L-L with N
12
2L + 1n
AB
1
2
AN, BN
AN-BN
3
AB-BC-CA
4
AN-BN-CN &
AB-BC-CA
5, 6
Three-Phase Wiring
3
3
A, B, C
3
A, B, C
Delta
31
3L
AB, BC, CA
4
3
A, B, C
4
A, B, C, N
Grounded
Wye
40
3L + 1n
AB, BC, CA
Wiring Symbols
AN, BN, CN
To avoid distortion, use parallel wires for control power and voltage inputs.
The following symbols are used in the wiring diagrams on the following pages.
Symbol
Description
Voltage Disconnect Switch
Fuse (installer is responsible for ensuring compliance with local requirements. No
fuses are included with the meter.)
Earth ground
X1
Current Transducer
X2
Potential Transformer
Protection containing a voltage disconnect switch with a fuse or disconnect circuit
breaker. The protection device must be rated for the available short-circuit current at
the connection point.
NOTICE
RISK OF EQUIPMENT DAMAGE
• This product is designed only for use with U018 series current transducers (CTs).
• DO NOT USE CURRENT OUTPUT (e.g. 5A) CTs ON THIS PRODUCT.
Failure to follow these instructions can result in equipment damage.
ZL0119-0B
Page 7 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Wiring
WARNING
RISK OF ELECTRIC SHOCK OR PERMANENT EQUIPMENT DAMAGE
CT negative terminals are referenced to the meter’s neutral and may be at elevated voltages
· Do not contact meter terminals while the unit is connected
· Do not connect or short other circuits to the CT terminals
Failure to follow these instructions may cause injury, death or equipment damage.
1. Connect the CT output leads to the E50FxA meter inputs according to the following diagrams. The white wire is the X1 lead.
2. Squeeze the ribbed sections of the CT connector and pull the rope out of the connector to open.
3. Wrap the rope style CT around the conductor to be monitored.
4. Snap the connector back together securely, ensuring there is no dust or debris in the closure area.
Diagram 1: 1-Phase Line-to-Neutral 2- Wire
System 1 CT
Use System Type 10 (1L + 1n)
N L1
Diagram 2: 1-Phase Line-to-Line 2-Wire
System 1 CT
Use System Type 11 (2L)
L1 L2
A
B
C
N
X1
White
Black
X2
A
B
C
N
X1
A
X2
X1
X2 B
X1
X2 C
X1
X2
Diagram 3: 1-Phase Direct Voltage Connection 2 CT
N
L1
L2
Use System Type 12 (2L + 1n)
White
Black
Diagram 4: 3-Phase 3-Wire 3 CT no PT
Use System Type 31 (3L)
L1 L2 L3
A
B
C
N
X1
X2
White
Black
X1
X2
White
Black
X1
X2 A
X1
X2 B
X1
X2 C
A
B
C
N
White
Black
X1
X2
X1
X2
X1
White
Black
White
Black
X2
ZL0119-0B
Page 8 of 34
X1
X2 A
X1
X2 B
X1
X2 C
X1
X2 A
X1
X2 B
X1
X2 C
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Wiring (cont.)
TM
Diagram 5: 3-Phase 4-Wire Wye Direct Voltage Input
Connection 3 CT
Diagram 6: 3-Phase 4-Wire Wye Connection 3 CT
3 PT
Use System Type 40 (3L + 1n)
N
Use System Type 40 (3L + 1n)
N
L1 L2 L3
L1 L2 L3
A
B
C
N
A
B
C
N
White
Black
X1
X2
X1
X2
X1
White
Black
White
Black
X2
Control Power
X1
X1
X2 A
X1
X2 B
X1
X2 C
X2
X1
X2
X1
White
Black
White
Black
X2
Direct Connect Control Power (Line to Line)
L1 L2 L3
White
Black
X1
A
X2
X1
B
X2
X1
C
X2
Direct Connect Control Power (Line to Neutral)
G 1 2
N L1 L2 L3
G 1 2
Line to Line from 90 VAC to 600 VAC (UL). In UL installations the
lines may be floating (such as a delta). If any lines are tied to an
earth (such as a corner grounded delta), see the Line to Neutral
installation limits. In CE compliant installations, the lines must
be neutral (earth) referenced at less than 300 VACL-N
Line to Neutral from 90 VAC to 347 VAC (UL) or 300 VAC (CE)
Direct Connect Control Power (DC Control Power)
Control Power Transformer (CPT) Connection
G 1 2
G 1 2
N L1 L2 L3
DC Control Power from 125 VDC to 300 VDC
(UL and CE max.)
Fuse Recommendations
The Control Power Transformer may be wired L-N or L-L. Output to
meet meter input requirements
Keep the fuses close to the power source (obey local and national code requirements).
For selecting fuses and circuit breakers, use the following criteria:
•
•
•
•
S elect current interrupt capacity based on the installation category and fault current capability.
Select over-current protection with a time delay.
Select a voltage rating sufficient for the input voltage applied.
Provide overcurrent protection and disconnecting means to protect the wiring. For AC installations, use Veris AH02,
AH03, AH04, or equivalent. For DC installations, provide external circuit protection. Suggested: 0.5 A, time delay fuses.
• The earth connection (G) is required for electromagnetic compatibility (EMC) and is not a protective earth ground.
ZL0119-0B
Page 9 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Quick Setup
Instructions
TM
These instructions assume the meter is set to factory defaults. If it has been previously configured, check all optional values.
A. To Navigate to the Setup screens:
1. Press
++
or – repeatedly until SETUP screen appears.
2. Press
to get to the PASWD screen.
3. Press
to move through the digits. Use the
4. Press
to move to the first Setup screen (S CT)
5. Use
+
+
++
or – buttons to enter your password (the default is 00000).
or – to select the parameter screen you want to set.
6. After you set the parameters you want, use
SETUP).
++
or – to select the next Setup screen or
to exit the Setup screens (return to
B. To Enter the CT (Current Transducer) output voltage and CT size ranges:
1. Press to go to the CT SZ screen and through the digits. Use
the value and
2. Press
++
or – to select the CT size in amps (default is 100). accept
to accept the value and go back to the S CT screen.
C. To Enter the service type to be monitored:
1. Navigate to the S SYS (Set System) Setup screen (see section A above).
2. Press
Press
to go to the SYSTM screen. Use
++
or – to select the configuration (see wiring diagrams - default is 3L-1N).
to go back to the S SYS screen.
For full setup instructions, see the configuration instructions on the following pages.
Pulse Contact Inputs
The E50F5A has two inputs with pulse accumulators for solid state or mechanical contacts in other sensors, such as water or gas
flow meters. The E50F2A has one pulse input. These inputs are isolated from the measured circuits. The communication signals,
including the shield terminal, are AC-coupled. Use with contacts that do not require current to remove oxidation.
E50F5A only
Pulse Input
Contacts
~10 kΩ
4-10 VDC
nominal
ZL0119-0B
Page 10 of 34
+
Comm
Output
Comm
Ground
S
Equivalent
Circuit
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Solid State Output
TM
The E50F2A has one normally closed (N.C.) alarm output.* See the Setup section for configuration information.
Over-Current Protective Device**
(not supplied)
≤ 100 mA
~=
Power Source
3-30 VDC
6-30 VAC
S
Alarm
Pulse
Comm
The solid state pulse outputs are rated for 30 VAC/DC nom.
The maximum load current is 100 mA at 25°C. Derate 0.56 mA per °C above 25°C.
* While the relay used for the Phase Loss contact is normally closed (contacts are closed when the meter is not powered), closure
indicates the presence of an alarm; either loss of phase, when the meter is powered, or loss of power when the meter is not. The
contacts are open when the meter is powered and no phase loss alarm conditions are present.
** The over-current protective device must be rated for the short circuit current at the connection point.
All pulse inputs/outputs and communication circuits are only intended to be connected to non-hazardous circuits (SELV or Class 2).
Do not connect to hazardous voltages.
Lon TP/FT-10
Communications
• Use this meter in either Free Topology or Bus Topology LonWorks network configurations.
• Twisted pair connections to the meter are not polarity sensitive.
• Attach the meter at any point in a Free Topology configuration, but the total network cable length must be less than
500 meters.
• Free Topology configurations require one terminator (Echelon TP/FT-10 Free Topology Terminator or equivalent), which
can be attached at any point in the network.
• In Bus Topology configurations, connect loads sequentially (in a daisy chain), except for stubs, which must be less than
3 meters in length. The total network cable length must be less than 2700 meters.
• Bus Topology configurations require two terminators (Echelon TP/FT -10 Free Topology Terminator or equivalent, one
at at each end of the network.
• The Shield connection is not internally connected to the ground connection on the meter.
LON-FT Shield
For all terminals:
• When tightening terminals, apply the correct torque: 0.37 to 0.44 ft·lb (0.5-0.6 N·m).
• Use 14-24 gauge (2.1-0.2 mm2) wire.
0.37–0.44 ft•lb
(0.5–0.6 N•m)
ZL0119-0B
Page 11 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Use 14-24 gau
Installation Guide
Power Monitoring
E50F2A, E50F5A
User Interface (UI)
Menu Abbreviations
Defined
ZL0119-0B
Page 12 of 34
TM
The user can set the display mode to either IEC or IEEE notation in the SETUP menu.
Main Menu
IEC
IEEE
Main Menu
Description
IEC
IEEE
Description
D
D
Demand
F ERR
F ERR
Frequency Error
MAX
M
Maximum Demand
I OVR
I OVR
Over Current
P
W
Present Real Power
V OVR
V OVR
Over Voltage
Q
VAR
Present Reactive Power
PULSE
PULSE
S
VA
Present Apparent Power
kWh Pulse Output Overrun
(configuration error)
A
A
Amps
_PHASE
_PHASE
Summary Data for 1, 2, or 3
active phases
UAB, UBC, UAC
VAB, VBC, VAC
Voltage Line to Line
ALERT
ALERT
Diagnostic Alert Status
V
VLN
Voltage Line to Neutral
INFO
INFO
Unit Information
PF
PF
Power Factor
MODEL
MODEL
Model Number
U
VLL
Voltage Line to Line
OS
OS
Operating System
HZ
HZ
Frequency
RS
RS
Reset System
KSh
KVAh
Accumulated Apparent
Energy
SN
SN
Serial Number
RESET
RESET
Reset Data
PASWD
PASWD
Enter Reset or Setup
Password
ENERG
ENERG
Reset Energy Accumulators
DEMND
DEMND
Reset Demand Maximums
KQh
KVARh
Accumulated Reactive
Energy
KPh
KWh
Accumulated Real Energy
PLOSS
PLOSS
Phase Loss
LOWPF
LOWPF
Low Power Factor Error
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
ZL0119-0B
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Page 13 of 34
A
3
APHAS
Phase A:
All Systems
1, 2, or 3 Phase
_PHAS
Summary Data
To:
ALERT
A
A
A
Accumulated
Real Energy
(Ph)
KWh
Amps (A)
(Average of
Active Phases)
B
Phase B:
2 & 3 Phase BPHAS
Systems Only
A
3 VLN
A VLN
B VLN
C VLN
Present
Apparent Power
Demand (S)
D KVA
Accumulated
Reactive Energy
(Qh)
KVARh
KW
KW
KW
KW
KW
Total Reactive
Power (Q)
3KVAR
AKVAR
BKVAR
CKVAR
Maximum
Reactive Power
Demand (Q)
MKVAR
Total Apparent
Power (S)
3 KVA
A KVA
B KVA
C KVA
Maximum
Apparent Power
Demand (S)
M KVA
PULS1
Pulse Counter 1
KVAh
ENRGY
Pulse Counter 2
(Not used on E50F2)
PULS2
>>> Scroll When Idle >>>
Total Real
Power (P)
3
A
B
C
Maximum
Real Power
Demand (P)
M
Accumulated
Apparent Energy
(Sh)
Volts Line-Line (U) Volts Line-Neutral (V)
(Average of Active
(Average of Active
Phases)
Phases)
3 VLL
A VAB
B VBC
C VAC
Present
Reactive Power
Demand (Q)
DKVAR
PF
PF
PF
PF
Power Factor
(Average of
Active Phases)
3
A
B
C
DEMND
Accumulated
Real Energy
3 KWh
A KWh
B KWh
C KWh
HZ
Frequency
APHAS
BPHAS
CPHAS
_PHAS
User Interface for
Data Configuration
Energy
Accumulators ENRGY
and Counters
KW
Present
Real Power
Demand (P)
D
C
DEMND
Phase C:
CPHAS
3 Phase
Systems Only
Demand
To:
SETUP
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Alert/Reset
Information
To: ENRGY
Alert Status
(check if
Wrench on
LCD)
ALERT
PLOSS
-------AbC
LOWPF
-------AbC
Phase Loss
ABC
Low Power Factor
ABC
F ERR
-------A
Frequency Out
of Range
A
I OVR
-------AbC
V OVR
-------AbC
PULSE
-------Error
Current
Out of Range
ABC
Voltage
Out of Range
ABC
Not used on
E50Fx devices
Display “nOnE” if no alerts
Unit
Information
INFO
MODEL
OS
Model
Number
Operating
System
RS
Reset
System
SN
Serial
Number
Back
Reset
Data
Setup
Meter
RESET
SETUP
PASWD
-------00000
ENERG
-------rES
Enter Reset
Password
Reset Energy
Accumulators to 0
PASWD
-------00000
DEMND
-------rES
Reset Demand
Maximums to Present
ALERT
COUNT
-------rES
Reset Pulse
Counters to 0
INFO
PASWD – Enter the Reset Password
(configured in the setup menu).
ENERG – Reset all Energy
Accumulators (Wh, VARh, VAh) to 0.
Press “+” or “-“ to Reset.
DEMND – Reset all Maximum
RESET Demand (W, VAR, VA) to the present
Demand. Press “+” or “-“ to Reset.
COUNT – Reset the pulse counters.
Press “+” or “-“ to Reset.
To Setup
Enter Setup
Password
To: DEMND
ZL0119-0B
Page 14 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
UI for Setup
To Setup p. 2 “SPASS”
Back
S CT
Current
Transformer
Back
Set Current Transducer:
CT SZ - CT Size: in Amps. Maximum is 32000 Amps.
CT SZ
-------100
Next
S SYS
System
Type
SYSTM
-------3L-1n
3L
2L-1n
2L
1L-1n
Set System Configuration:
SYSTM: + or – to step through the following System Type options:
System Reg 130 CTs
Description
3L-1n
40
3
Wye Three Phase: A, B, & C with Neutral (Default).
3L
31
3
Delta Three Phase: A, B & C; no Neutral
2L-1n
12
2
Single Split Phase: A & B with Neutral
2L
11
1
Single Phase: A & B; no Neutral
1L-1n
10
1
Single Phase: A to Neutral
Back To SETUP
Next
Back
S PT
Potential
Transformer
S
Back
Next
V
Sytem
Voltage
Back
RATIO
-------001.00
V LL
-------00600
Next
S PWR
Sytem
Voltage
MX KW
-------103.92
Next
Set Potential Transfomer Ratio:
RATIO – Potential transformer step down is RATIO:1. Default is 1:1
(No PT installed). See Wiring Diagrams section. Set this value before
setting the system voltage to establish the proper range of System
Voltage values.
Set System Voltage:
V LL – The nominal Line to Line Voltage for the system. This is used
by the meter to calculate the theoretical maximum system power,
and as the reference voltage for setting the Phase Loss threshold.
Maximum is 32000 Volts. For system type 1+N (10), this is a Line to
Neutral Voltage, indicated by “V LN”. Note: the meter will reject settings
that are not within the meter’s operating range when divided by the PT ratio.
System Power:
MX KW – The theoretical Maximum System Power is calculated by the
meter from the System Voltage, CT size, and System Type. Power Factor
is assumed to be unity. The value of System Power is used to determine
which combinations of pulse weight and duration are valid and will keep up
with the maximum power the meter will see. This value is read only.
To Setup p. 2 “SPLOS”
Default values are in Bold
ZL0119-0B
Page 15 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
UI for Setup (cont.)
To Setup p. 1 “S PWR”
Back
SPLOS
Phase
Loss
Back
VOLTS
-------0.10
Next
SDMND
Demand
Back
S DIS
Display
Units
Back
IMBAL
-------0.25
INTRV
-------6
5
4
3
2
1
SEC
-------00900
Next
UNITS
-------IEEE
IEC
Set Phase Loss:
VOLTS - Phase Loss Voltage: Phase Loss Voltage Threshold in
percent of system voltage. Any phase (as configured by the System
Type) whose level drops below this threshold triggers a Phase Loss alert.
For example, with the system type set to 40 (3L+N) and the System
voltage set to 480V L-L, the L-N voltage for each phase is 277V.
When this threshold is set to 10%, if any phase drops to less than 10%
of 277V (less than 27.7V), or if any L-L voltage drops to less than 10% of
480V (less than 48V), the corresponding phase loss alarm activates.
IMBAL - Phase Loss Imbalance: Phase Loss Imbalance Threshold in
percent is the fractional difference in Line to Line voltages above which
Phase Loss Alarm is on. For a 3-phase Y(3+N) system (type 40), both
Line to Neutral and Line to Line voltages are tested. In a 3-phase delta
system (type 31), only the Line to Line voltages are examined. In a single
split-phase (2+N) system (type 12), only the Line to Neutral voltages are
compared. For system types 1+N (10) and 2 (11), imbalance is not tested.
Set Demand Interval:
INTRV - The number of Sub-Intervals (1 to 6) in a Demand Interval.
Default is 1 (block demand).
SEC - Sub-Interval length in seconds. Default is 900 (15 minutes).
Set to 0 for external sync-to-comms.
Set Display Units: +/- to switch between:
IEEE – VLL VLN W VAR VA Units.
IEC – U V P Q S Units.
Next
SPASS
Setup
Passwords
SETUP
-------00000
RESET
-------00000
Set Passwords:
SETUP - The Password to enter the SETUP menu.
RESET - The Password to enter the RESET menu.
Next
To Setup page 1 “S CT”
ZL0119-0B
Page 16 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Resources Available
for Downloading
TM
The following resources are available at the Veris website, www.veris.com under Design Resources -> Protocol Info -> LonWorks.
Plugin
The E50 LNS plugin offers the simplest method to configure the E50FxA meter. The plugin displays all of the configuration options
and installs the Veris Resource File Set and device template. The LNS Network Operating System and a plugin Director (to launch
the plugin, such as LonMaker) are both required to run the plugin.
Device Interface Files
The E50 device interface files (.XIF, .XFB in binary form) are required to properly commission a device. Creating a device template
from these files allows the network to correctly name the network variables and configuration properties. Download and save the
device interface files to C:\LonWorks\import\Veris Industries\. Alternatively, the E50 LNS Plugin installs these files automatically
(no need to download the files separately).
Resource File Set
All of the meter’s network variables (except nvoLoggedData) use standard network variable types (SNVTs). However, the
configuration properties to set the meter installation details (CT size, system type, system voltage, etc.) are user-defined
configuration properties (UCPTs). The Veris website includes a manufacturer-scoped resource file set to recognize these types, but
they are not necessarily required. Commissioning and configuring options are explained below, and the need for the resource files
depends on the situation and user preference. The E50 LNS Plugin automatically installs the Veris Resource File Set (no need to
download these files separately). Note: If using resource files, install them before importing the device template into a network.
Using the LNS
Plugin
The following instructions are written for the Veris E50 LNS Plugin using LonMaker. If using a different integration tool, replace the
specific steps that have actions in LonMaker with equivalent procedures for the integration tool in use (see documentation for the
tool).
Installation Instructions
1. Download the “Veris E50 LNS Plugin Vx.x Installer.zip file from the Veris website, found under Design Resources->Protocol
Info->LonWorks.
2. Extract all files from the zip.
3. Double click the setup.exe file to start the installer. If installing on Windows 7 or Windows Vista, when the User Access Control
dialog appears, click “Allow” to give the installer administrative privileges.
4. Install the Microsoft .NET Framework 2.0 (or above) at this point. Follow the prompts, and then the plugin installer will begin.
5. Click Next and select a folder to install the plugin to. It is recommended to keep the default of LonWorks\apps\Veris Industries\
Veris E50 LNS Plugin\ based on guidelines from Echelon documentation, but changing the installation path is allowed.
6. Click Next twice to confirm the installation, then click close when installation is complete.
Installation Details
The Veris E50 LNS Plugin Installer both installs and registers the plugin, while also copying support files to default locations.
Device resource files are placed in the “[local drive]\LonWorks\Types\User\Veris Industries\E50Meters\” folder. These resource
files are automatically added to the LNS Resource File Catalog. Any existing resource files for the E50 meters are removed from
the catalog and the computer. The device template (VerisE50.XIF and VerisE50.XFB) and application image (VerisE50.APB and
VerisE50.NXE) files are copied to the “[local drive]\LonWorks\import\Veris Industries\” folder. When the plugin is registered with
a network for the first time, if the E50 device template has not already been imported, the plugin automatically adds it to the
network under the template name “VerisE50.”
ZL0119-0B
Page 17 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Using the LNS
Plugin (cont.)
TM
Registration Instructions
The plugin installer registered the plugin globally, but as a system level plugin, it must be registered separately for each network
that requires it. Registration can be accomplished either while opening a network or after a network is opened. Instructions here
are for the latter method.
1. Open the LonMaker network where the plugin is to be registered.
2. Select the LonMaker menu (on the toolbar in Visio 2003; under the Add-ins toolbar in Visio 2010). From the drop-down list,
select “Plugins,” and then “Register Plugins…”
3. Select the “Veris E50 Device Plug-in” entry from the plugin list and press the “Register” button.
4. Press the “Okay” button.
Device Creation Instructions
Creating an E50 device in LonMaker is no different than creating any other device.
1. Drag a “Device” from the LonMaker Basic Shapes stencil or other stencil to the drawing. This opens the new device wizard.
2. Click the “Commission device” checkbox unless the network is being created OffNet (“Engineered” mode), or if there is any
other reason to delay commissioning.
3. From the Device Template section, choose the “VerisE50” template from the drop-down list (the plugin added the template to
the network when registering).
4. Finish customizing using the wizard prompts and press “Finish”.
5. If commissioning was selected, press the service pin on the meter.
Device Configuration Instructions
The plugin has two tabs useful for configuring the device. The “Meter Setup” tab includes details related to the installation (CT
size, system type, system voltage, etc.), and other settings related to the demand interval and alarm configuration. The second
tab for configuration of the device is the “Propagation Settings” tab, which includes configuration properties that control
propagation (heartbeat, throttle, etc.). Settings can be written to both the database and the device if the device is online (or soft
offline), commissioned, and the LonMaker mode is OnNet. Otherwise the settings can only be written to the database. There is
some behavior to be noted if changes are made while the device is soft offline. Please read the “Important Information When
Configuring While Soft Offline” section below.
1. Right click on the E50 device and select “configure” from the context menu. This brings up the “Meter Setup” tab of the plugin.
2. To get the current setting from the meter or the database, press the “GET PRESENT SETTINGS” button. If the configuration
properties on the device do not match the database, a prompt appears to choose which values to load.
3. Make the necessary changes to the Installation Details and Other Settings. Note that the Demand Subinterval Length is also the
logging interval for E50F5 meters, so it can be configured at this point (see the “Configuring the Data Log” section below for a
description of the meter’s data logging capabilities).
4. Press “APPLY SETTINGS.” If the device is online (or soft offline), commissioned, and the LonMaker mode is OnNet, the
configuration property settings are applied to both the network database and the device. If, however, the above conditions
are not met, the configuration property settings are only written to the database. A dialog box appears when the write is
finished, stating where the values were written to. If values were not written to the device (database only), the device must be
resynchronized to the database at a later time. See the “Configuration Property Resynchronization” section below.
5. Switch to the “Propagation Settings” tab of the plugin (tab control is at the top of the plugin).
6. To get the current setting from the meter or the database, press the “GET PRESENT SETTINGS” button. If the configuration
properties on the device do not match the database, a prompt will appear to choose which values to load.
ZL0119-0B
Page 18 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Using the LNS
Plugin (cont.)
TM
7. Make the necessary changes to the propagation settings and press “APPLY SETTINGS.” If the device is online (or soft offline),
commissioned, and the LonMaker mode is OnNet, the configuration property settings are applied to both the network
database and the device. If, however, the above conditions are not met, the configuration property settings are written to the
database only. A dialog box appears when the write is finished, stating where the values were written to. If values were not
written to the device (database only), the device must be resynchronized to the database at a later time. See the “Configuration
Property Resynchronization” section below.
Saving/Loading Configuration Templates
Values on the “Meter Setup” and “Propagation Settings” tabs can be saved separately to template (.xml) files for easy recovery at
a later time or for use with another E50 device. When either of these tabs is selected, a “Template” menu appears highlighted in
yellow on the menu bar.
Save to Template (.xml) File
1. Select “Template”->”Save To Template”. If all the values are filled in and are acceptable values for an E50 (range checking is
done here), a “Save As” file window appears.
2. Navigate to the desired folder and create a name in the “File Name” field (or select an existing .xml file).
3. Press the “Save” button.
Load From Template (.xml) File
1. Select “Template”->“Load From Template”.
2. Navigate to the folder where the .xml file exists and select the file.
3. Press the “Open” button.
Formatting Power Correctly
LonMark Resource Files before version 13.04 set the default format in the U.S. for network variables of the type SNVT_power_f as
units of Btu/hr. This formatting results in power values being reported about 3.4 times higher than they actually are in Watts. The
plugin always displays correct values in Watts, however, since it uses raw values, not formatted values.
There are a few ways to resolve this formatting issue, described below. Upgrading the LonMark Resource Files is the least tedious
method, but may require checking the rest of the network to verify that no issues have been introduced by the other changes
LonMark has made to the resource files.
Update the LonMark Resource Files
1. Uninstall the current LonMark Resource Files by opening the “Add or Remove Programs” dialog in Windows, selecting the
“LonMark Resource Files 13.xx” and pressing “Remove.”
2. In a web browser, navigate to www.LonMark.org, “Technical Resources” (from the menu bar at top) ->”Resource Files”->”Start
SNVT/SCPT Download…”
3. Follow the prompts to complete the resource file installation.
4. Power values are now formatted in Watts.
Manually Update the Power Network Variables
1. In LonMaker, right click on the E50 device and select “Plugins”-> “Echelon AppDevice Browse”.
2. Right click on the row for a power network variable and select “Change Format” from the context menu (can alternatively press
Ctrl+A when the line is selected).
3. From the “Select Network Variable Format” dialog, select SNVT_power_f#SI (not #US) and press OK.
4. Repeat steps 2 and 3 for each power network variable.
5. If any of the power network variables are bound (as opposed to polled), repeat steps 2 and 3 for the input network variables
of other devices the meter is bound to. The format of the input network variable on the other end determines the format that
device receives, not the formatting of the E50 meter’s output network variable.
ZL0119-0B
Page 19 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Using the LNS
Plugin (cont.)
TM
Important Information When Configuring While Soft Offline
When a device is commissioned but is soft offline (green crosshatch in LonMaker), application code does not execute. The device
only processes network management commands. The device can be successfully configured soft offline, though. The configuration
property values are physically stored on the device, and processed and applied when the device is brought online. This does mean,
though, that setup values on the screen of the device do not reflect new values applied using the plugin while soft offline until the
meter is brought online.
Configuration Property Resynchronization
If the device was configured using the plugin and values were saved to only the database for any reason (OffNet, device not
commissioned, etc.), the configuration properties in the database must be downloaded to the device at some point. If the device
has not yet been commissioned, this synchronization can be performed while commissioning the device. Otherwise follow the
second procedure.
Synchronization While Commissioning
1. Right-click on the device in LonMaker and select “Commissioning”-> “Commission…” from the context menu.
2. For the “Source of CP Values”, select “LNS database.” Press “Finish” to complete commissioning.
Synchronization While Device is Commissioned and Online
1. Right-click on the device in LonMaker, and select “Commissioning”-> “Resync CPs…” from the context menu.
2. Select “Download current values to device” as the operation.
3. Press the “OK” button.
Viewing Meter Values
If the device is online and the network is attached, present values from the meter such as power and energy can be viewed using
the plugin by right-clicking on the device and selecting “Browse…” from the context menu. The plugin loads with the “Network
Variables” tab selected. Four buttons on the left alternate among viewing the instantaneous, demand, energy, and status pages.
Polling defaults to every 5 seconds, but only the values shown on the screen at any one time are polled (no polling while on
the “METER SETUP” and “PROPAGATION SETTING” tabs), and with a small delay between values to keep the network load to a
maximum of about 10 packets per second during each poll. The polling rate can also be changed using the drop-down list on the
left.
Restarting Polling
Polling status is shown in the bottom right corner of the plugin. Polling is disabled in the following cases:
•
•
•
•
•
LonMaker Management Mode is OffNet.
Device is not commissioned.
Device is not Online.
Device is not responsive or fails tests.
An exception occurs while polling device values.
After resolving the issue, restart polling in one of two ways:
1. Close the plugin and reopen it. The condition of the device and network are tested, and polling begins if everything is
normal.
2. From the menu bar, select File ->”Attempt Polling Restart.” The condition of the device and network are retested, and
polling begins if everything is normal.
ZL0119-0B
Page 20 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Using the LNS
Plugin (cont.)
TM
Resetting Maximum Demand, Energy, Pulse Counter(s), and the Log
Demand, Energy, and Pulse Counter(s) can only be reset while the device is commissioned and online.
Resetting Maximum Demand
1. If the plugin is not open, right-click on it and select “Browse…” from the context menu. If it is already open, click on the
“Network Variables” tab.
2. Press the “DEMAND” button on the left.
3. Press the “RESET MAXIMUM DEMAND” button to reset to the present demand.
Resetting Energy Accumulators
1. If the plugin is not open, right click on it and select “Browse…” from the context menu. If it is already open, click on the
“Network Variables” tab.
2. Press the “ENERGY” button on the left.
3. Press the “RESET ENERGY ACCUMULATORS” button to reset accumulators to zero.
Resetting Pulse Counter(s)
1. If the plugin is not open, right click on it and select “Browse…” from the context menu. If it is already open, click on the
“Network Variables” tab.
2. Press the “ENERGY” button on the left.
3. Press the “RESET PULSE COUNTER(S)” button to reset counter(s) to zero.
Resetting the Log (E50F5A only)
1. If the plugin is not open, right click on it and select “Plugins”-> “Veris E50 Download Log” from the context menu. If it is already
open, click on the “Data Logging” tab.
2. Expand the “LOG INFO” section.
3. Press the “RESET LOG” button to clear all entries.
Setting the Meter Time
The real time clock on an E50 meter does not have battery backup. The time resets to the millennium (January 1st, 2000)
whenever the meter is power cycled, but it can automatically synchronize to a network time source if set up properly. Otherwise
the meter time can easily be manually set to a computer’s time or to a custom time using the plugin (while the device is
commissioned and online).
Setting up Automatic Syncronization to Network Time Source
1. Locate a network time source with an output network variable of type SNVT_time_stamp.
2. If a NodeObject functional block for the meter has not already been created, drag the “Functional Block” shape from the
LonMaker Basic Shapes stencil onto the drawing. If it already exists, skip to step 5.
3. From the popup dialog, select the meter from the Device section, and in the Functional Block section choose “NodeObject”
from the Name drop-down list.
4. Press Finish to create the functional block.
5. If the functional block does not have the input network variable nviTimeSet showing, drag the “Input Network Variable” shape
onto the NodeObject functional block.
6. In the popup dialog, select “nviTimeSet” and press “OK.”
7. Create a binding between the output network variable of the time source to nviTimeSet on the meter by dragging the
“Connector” shape onto the drawing and connect it between the two network variables.
ZL0119-0B
Page 21 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Using the LNS
Plugin (cont.)
TM
Manually Setting the Meter Time Using the Plugin
1. If the plugin is not open, right-click on it and select “Browse…” from the context menu. If it is already open, click on the
“Network Variables” tab.
2. Press the “STATUS” button on the left.
3. To set the meter time from the computer’s time, press the “SYNC TO PC TIME” button.
4. To set the meter time to a custom time, modify the custom time (field below the current time) and press the “SET TO CUSTOM
[TIME]” button.
Configuring the Data Log (E50F5A only)
The E50F5A meter includes a data logging feature that holds 5760 time stamped records for 3 meter parameters. The logging
interval is fixed to the demand subinterval length, which can be anywhere between 10 seconds and 9 hours. The default logging
interval is 15 minutes (900 seconds), which allows for 60 days of data stored in the log. This data can be downloaded to a CSV file
on a computer using the plugin.
The log can be set up in either Single Shot Mode or Continuous Mode (default is Continuous Mode). In Single Shot Mode, the meter
records data until the buffer is full. When the buffer is full, the meter stops recording new readings and retains the 5760 records it
has already saved. In Continuous Mode, the meter continues to record data as long as it is operating. The log buffer can only hold
5760 records at a time, however, so once the meter reaches 5760 records the oldest is deleted each time a new record is saved.
Once full, therefore, the buffer will always hold the most recent 5760 records.
Setting up the log
1. If the plugin is not open, right-click on it and select “Plugins”-> “Veris E50 Download Log” from the context menu. If it is
already open, click on the “Data Logging” tab.
2. If the device is not online, has not been commissioned, or the LonMaker Management Mode is OffNet, the “Data Logging” tab
will not be visible. To show this tab, click the “Help” menu and select Advanced->”Force Toggle Logging Visible.”
3. Expand the “LOG SETUP” section using the arrows on the right side of the header.
4. To get the current setting from the meter or the database, press the “GET PRESENT SETTINGS” button. If the configuration
properties on the device do not match the database, a prompt appears to choose which values to load. The database may
contain zeros for the points to log when a device is first created, since the E50 device template does not contain defaults for
these configuration properties (to prevent defaults from the device template conflicting with factory defaults stored on the
device). When first configuring logging, if the device is online (or soft offline), choose to get values from the device.
5. Select the three points to log (drop-down lists give log point indices corresponding to the Configuration Property table of this
guide, the names of the network variables the data points correspond to, and descriptions of each).
6. Choose to enable or disable the log, and which logging mode to use (continuous or single shot).
7. When finished making changes, press the “APPLY SETTINGS” button. If the device is online (or soft offline), commissioned, and
the LonMaker mode is OnNet, the configuration property settings are applied to both the network database and the device. If,
however, the above conditions are not met, the configuration property settings are written to the database only. A dialog box
appears when the write is finished, stating where the values were written to. If values were not written to the device (database
only), the device must be resynchronized to the database at a later time. See the “Configuration Property Resynchronization”
section below.
8. If the logging interval (Demand Subinterval Length) was not set to the right value while configuring the meter using the
“METER SETUP” tab (“Device Configuration Instructions” section above), perform the following steps. Otherwise the log has
been successfully configured.
9. Switch to the “METER SETUP” tab of the log.
10. Press the “GET PRESENT SETTINGS” button to get all of the current settings.
11. Under the “OTHER SETTINGS” section, change the demand subinterval length to the desired logging interval (keeping in mind
that demand is also affected).
ZL0119-0B
Page 22 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Using the LNS
Plugin (cont.)
TM
12. Press “APPLY SETTINGS”. If the device is online (or soft offline), commissioned, and the LonMaker mode is OnNet, the
configuration property settings are applied to both the network database and the device. If, however, the above conditions
are not met, the configuration property settings are written to the database only. A dialog box appears when the write is
finished, stating where the values were written to. If values were not written to the device (database only), the device must be
resynchronized to the database at a later time. See the “Configuration Property Resynchronization” section below.
Downloading the Data Log (E50F5A only)
Records from an E50F5A’s log can be downloaded to a new CSV file or appended to an existing log file. Appending to an existing
file saves time by just adding the records that have been created since the file was last updated. If appending to an existing file,
an unaltered CSV file from a previous download must be used, and the headers must match the points that the meter is currently
logging.
Download to a New Log File
1. Verify the meter is commissioned and online, and the LonMaker Management Mode is OnNet.
2. If the plugin is not open, right-click on it and select “Plugins”-> “Veris E50 Download Log” from the context menu. If it is
already open, click on the “Data Logging” tab.
3. On the left side of the “DOWNLOAD LOG” section, select “Create A New Log File.”
4. Press the “Choose Path” button, choose a destination folder, and press “OK.”
5. Enter a name for the log file in the “File Name” text box. If a unique file name is desired, check the “Append Date/Time to File
Name” checkbox.
6. To get all the records in the log, select the “Entire Log” option. To get only a specific amount of the newest records, select the
“Fixed Amount of latest entries” option and enter the desired amount in the textbox. The log can hold 5760 records, but both
options stop downloading when they reach unwritten records. For example, when 250 demand subintervals have passed
since the log has been reset, 250 of the 5760 possible log records hold data. The remaining 5510 records are blank. Selecting
“Entire Log” downloads the 250 records with data. Selecting “Fixed Amount of latest entries” and putting 100 in the textbox
downloads 100 entries. Selecting “Fixed Amount of latest entries” and putting 400 in the textbox only downloads 250 records,
since the amount requested is limited to the amount of records in the log with data.
7. Press the “BEGIN DOWNLOAD” button to start downloading the log with the parameters set above.
Append All New Records to an Existing Log File
1. Verify the meter is commissioned and online, and the LonMaker Management Mode is OnNet.
2. If the plugin is not open, right-click on it and select “Plugins”-> “Veris E50 Download Log” from the context menu. If it is
already open, click on the “Data Logging” tab.
3. On the right side of the “DOWNLOAD LOG” section, select “Append All New Records To An Existing Log File”.
4. Press the “Choose File” button, select the file to append to, and press “Open”.
5. Press the “BEGIN DOWNLOAD” button to start downloading the log with the parameters set above.
Log Download Network Bandwidth Control (E50F5A only)
To control the network bandwidth consumed by the downloading process, use cpLoggedData, configurable on the “PROPAGATION
SETTINGS” tab. The default is a 0.1 second throttle, which amounts to a maximum of 20 packets per second (10 Acknowledged
packets sent, 10 acknowledgments received). The full log download takes approximately 15 minutes at this speed. If the throttle
is changed to 0.2 seconds, 10 packets are sent per second, but the download will take approximately 22 minutes. If 20 packets
per second is not an issue for the network, using the default 0.1 second throttle is recommended. Note: avoid using the “Network
Variable” tab and collapse the “LOG INFO” section of the “DATA LOGGING” tab while downloading the log if controlling bandwidth
usage is a priority).
ZL0119-0B
Page 23 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
Configuring and
Commissioning
Without the Plugin
TM
This section covers working with an E50 device when the plugin cannot be used (LNS not used or no plugin director/launcher).It is
not possible for this document to detail the full instructions for configuring and commissioning an E50 device using each and every
network integration tool or controller. The purpose of this section is merely to provide guidelines and clarify the options available
for configuration.
Using Resource Files
If manufacturer scoped resource files can be used, download the Veris E50 Resource File Set at www.veris.com, under Design
Resources -> Protocol -> LonWorks. These files aid in configuration by enabling the configuration properties to be named and
formatted correctly.
Creating the Device Template
The device interface (.XIF/.XFB) files must be used for the network variables to be correctly named. A device template created from
the device itself will only have NV indices rather than NV names. Download the device interface files at www.veris.com, under
Design Resources -> Protocol -> LonWorks. Once downloaded, extract the .XIF and .XFB files from the zip and create a device
template from either of them.
Configuring the Device
All of the user-defined configuration properties are implemented as configuration network variables so that they can be set as
either configuration properties or as input network variables. This allows the E50 device to be configured by either a network
integration tool (using either method) or by peer devices such as controllers (using the input network variables). The base types
for all of the configuration properties are also either SNVT_count or SNVT_state, so they may have the correct names and formats
without the resource files installed. If the names, types, and formats are not available, the configuration property table in this
document has both the base SNVT type and the user defined configuration property type (UCPT) index that the device template
references. These are given in the Configuration Property table as the name LonMaker reports, “UCP_Type_1” for user defined
type 1.
Formatting Power Correctly
LonMark Resource Files before version 13.04 default to formatting SNVT_power_f network variables in units of Btu/hr in the
U.S. This formatting results in power values being reported about 3.4 times higher than they actually are in Watts. Be sure
that the formatting for power values is in Watts. If LNS is used, changing the format of these power network variables to
SNVT_power_f#SI resolves the issue. If any other devices have input network variables bound to the E50’s power output network
variables, the formatting of the input network variables on these devices must also be changed. Installing the latest LonMark
Resource Files (if upgradable for the integration tool/ controller) also resolves the issue when using LNS. They can be found at
www.LonMark.org under “Technical Resources”-> “Resource Files”.
ZL0119-0B
Page 24 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Network Variables
NV
Num.
NV Name
Function
Block
Type
Units
Propagation Control
Log
Point Configuration Control
Property
Index
Type
Name
Description
ENERGY
nvoRealEnergy
97
TotalRealEnergy
SNVT_elec_wh_f
Wh
257
cpAllEnergy
Throttle
Real Energy Consumption (floating point value)
nvoRealEnergyInt
47
Meter
SNVT_elec_kwh_l
kWh, Scaled
1
cpAllEnergy
Throttle
Real Energy Consumption (integer value)
nvoReactEnergy
45
Meter
SNVT_elec_wh_f
VARh
311
cpAllEnergy
Throttle
Reactive Energy Consumption (floating point value)
nvoRctEnergyInt
48
Meter
SNVT_elec_kwh_l
kVARh, Scaled 29
cpAllEnergy
Throttle
Reactive Energy Consumption (integer value)
nvoAppEnergy
46
Meter
SNVT_elec_wh_f
Vah
309
cpAllEnergy
Throttle
Apparent Energy Consumption (floating point value)
nvoAppEnergyInt
49
Meter
SNVT_elec_kwh_l
kVAh, Scaled
27
cpAllEnergy
Throttle
Apparent Energy Consumption (integer value)
nvoRealEnergyPhA 50
Meter
SNVT_elec_wh_f
Wh
341
cpAllEnergy
Throttle
Real Energy Consumption, Phase A (floating point value)
nvoRealEnergyPhB 51
Meter
SNVT_elec_wh_f
Wh
343
cpAllEnergy
Throttle
Real Energy Consumption, Phase B (floating point value)
nvoRealEnergyPhC
52
Meter
SNVT_elec_wh_f
Wh
345
cpAllEnergy
Throttle
Real Energy Consumption, Phase C (floating point value)
nvoRlEnrgyPhAInt
53
Meter
SNVT_elec_kwh_l
kWh, Scaled
47
cpAllEnergy
Throttle
Real Energy Consumption, Phase A (integer value)
nvoRlEnrgyPhBInt
54
Meter
SNVT_elec_kwh_l
kWh, Scaled
49
cpAllEnergy
Throttle
Real Energy Consumption, Phase B (integer value)
nvoRlEnrgyPhCInt
55
Meter
SNVT_elec_kwh_l
kWh, Scaled
51
cpAllEnergy
Throttle
Real Energy Consumption, Phase C (integer value)
nviEnergyReset
34
Meter
SNVT_switch
-
-
-
-
Clears all energy accumulators to 0. To reset, set the state
field to 1 and the value field to greater than 0.
nvoEnrgyResetCnt
93
Meter
SNVT_count
-
cpEnrgyResetCnt
Heartbeat
Count of energy accumulator resets.
nvoIntEnrgScale
95
Meter
SNVT_count_inc
-4 0.0001
-3 0.001
-2 0.01
-1 0.1
0 1.0
1 10.0
2 100.0
3 1000.0
4 10000.0
-
None
-
Scale factor for integer energy network variables. This
value is an integer between -4 and 4. Multiply integer
energy values by 10 to the power of this variable. For
example, if this variable returns -2, multiply integer
energy accumulators by 10-2 (0.01). Only recalculated
when meter configuration is changed, so this value may
be read infrequently.
nvoRealPower
98
TotalRealPower
SNVT_power_f
W
261
cpAllPower
Throttle
Total Instantaneous Real Power
nvoReactivePower
56
Meter
SNVT_power_f
VAR
263
cpAllPower
Throttle
Total Instantaneous Reactive Power
nvoApparentPower 57
Meter
SNVT_power_f
VA
265
cpAllPower
Throttle
Total Instantaneous Apparent Power
nvoRealPowerPhA
58
Meter
SNVT_power_f
W
275
cpAllPower
Throttle
Real Power, Phase A
nvoRealPowerPhB
59
Meter
SNVT_power_f
W
277
cpAllPower
Throttle
Real Power, Phase B
nvoRealPowerPhC
60
Meter
SNVT_power_f
W
279
cpAllPower
Throttle
Real Power, Phase C
nvoReactPowerPhA 61
Meter
SNVT_power_f
VAR
319
cpAllPower
Throttle
Reactive Power, Phase A
nvoReactPowerPhB 62
Meter
SNVT_power_f
VAR
321
cpAllPower
Throttle
Reactive Power, Phase B
nvoReactPowerPhC 63
Meter
SNVT_power_f
VAR
323
cpAllPower
Throttle
Reactive Power, Phase C
nvoAppPowerPhA
64
Meter
SNVT_power_f
VA
313
cpAllPower
Throttle
Apparent Power, Phase A
nvoAppPowerPhB
65
Meter
SNVT_power_f
VA
315
cpAllPower
Throttle
Apparent Power, Phase B
nvoAppPowerPhC
66
Meter
SNVT_power_f
VA
317
cpAllPower
Throttle
Apparent Power, Phase C
POWER
ZL0119-0B
Page 25 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Network Variables (cont.)
NV
Num.
NV Name
Function
Block
Type
Units
Propagation Control
Log
Point Configuration Control
Property
Index
Type
Name
Description
DEMAND
nvoPresRealDmnd
67
Meter
SNVT_power_f
W
325
None
-
Total Real Power Present Demand
nvoPresReactDmnd 68
Meter
SNVT_power_f
VAR
327
None
-
Total Reactive Power Present Demand
nvoPresAppDmnd
69
Meter
SNVT_power_f
VA
329
None
-
Total Apparent Power Present Demand
nvoMaxRealDmnd
70
Meter
SNVT_power_f
W
331
None
-
Total Real Power Max Demand
nvoMaxReactDmnd 71
Meter
SNVT_power_f
VAR
333
None
-
Total Reactive Power Max Demand
nvoMaxAppDmnd
72
Meter
SNVT_power_f
VA
335
None
-
Total Apparent Power Max Demand
nviDemSubintRes
35
Meter
SNVT_power_f
-
-
-
-
Demand Sub-interval Reset. Begins a new sub-interval
calculation cycle. Takes effect at the end of the next 1
second calculation cycle. To Reset, set the state field to
1 and the value field to greater than 0. Reset no more
frequently than every 10 seconds.
nviMaxDemReset
36
Meter
SNVT_power_f
-
-
-
-
Maximum Demand Reset. Resets maximum demand
values to the present demand. To reset, set the state
field to 1 and the value field to greater than 0. Reset no
more frequently than every 10 seconds.
nvoAvgLLVoltage
73
Meter
SNVT_volt_f
Volt
269
cpAllVoltage
Throttle
Average Line to Line Voltage
nvoAvgLNVoltage
74
Meter
SNVT_volt_f
Volt
271
cpAllVoltage
Throttle
Average Line to Neutral Voltage
nvoLLVoltageAB
75
Meter
SNVT_volt_f
Volt
287
cpAllVoltage
Throttle
Line to Line Voltage, Phase A-B
nvoLLVoltageBC
76
Meter
SNVT_volt_f
Volt
289
cpAllVoltage
Throttle
Line to Line Voltage, Phase B-C
nvoLLVoltageAC
77
Meter
SNVT_volt_f
Volt
291
cpAllVoltage
Throttle
Line to Line Voltage, Phase A-C
nvoLNVoltagePhA
78
Meter
SNVT_volt_f
Volt
293
cpAllVoltage
Throttle
Line to Neutral Voltage, Phase A
nvoLNVoltagePhB
79
Meter
SNVT_volt_f
Volt
295
cpAllVoltage
Throttle
Line to Neutral Voltage, Phase B
nvoLNVoltagePhC
80
Meter
SNVT_volt_f
Volt
297
cpAllVoltage
Throttle
Line to Neutral Voltage, Phase C
nvoAvgCurrent
81
Meter
SNVT_amp_f
Amp
273
cpAllCurrent
Throttle
Average Current
nvoCurrentPhA
82
Meter
SNVT_amp_f
Amp
299
cpAllCurrent
Throttle
Current, Phase A
nvoCurrentPhB
83
Meter
SNVT_amp_f
Amp
301
cpAllCurrent
Throttle
Current, Phase B
nvoCurrentPhC
84
Meter
SNVT_amp_f
Amp
303
cpAllCurrent
Throttle
Current, Phase C
nvoAvgPwrFactor
85
Meter
SNVT_pwr_fact_f
-
267
cpAllPwrFactor
Throttle
Total Power Factor (Total kW / Total kVA)
nvoPwrFactorPhA
86
Meter
SNVT_pwr_fact_f
-
281
cpAllPwrFactor
Throttle
Power Factor, Phase A
nvoPwrFactorPhB
87
Meter
SNVT_pwr_fact_f
-
283
cpAllPwrFactor
Throttle
Power Factor, Phase B
nvoPwrFactorPhC
88
Meter
SNVT_pwr_fact_f
-
285
cpAllPwrFactor
Throttle
Power Factor, Phase C
89
Meter
SNVT_freq_f
Hz
307
cpFrequency
Throttle
Frequency (derived from Phase A)
VOLTAGE
CURRENT
POWER FACTOR
FREQUENCY
nvoFrequency
ZL0119-0B
Page 26 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Network Variables (cont.)
NV Name
NV
Num.
Function
Block
Type
Units
Propagation Control
Log
Point Configuration Control
Property
Index
Type
Name
Description
PULSE COUNTERS
nvoPulseCount1
37
Meter
SNVT_count_32
-
43
cpPulseCount1
Min Delta
Pulse Counter 1 (enabled on E50F2A and E50F5A)
nvoPulseCount2
38
Meter
SNVT_count_32
-
45
cpPulseCount2
Min Delta
Pulse Counter 2 (enabled on E50F5A only)
nviPulseCntReset
33
Meter
SNVT_switch
-
-
-
-
Clear the pulse counter(s). To reset, set the state field to 1
and the value field to greater than 0.
nvoAlert
96
Meter
SNVT_state
-
-
cpAlert
Heartbeat
Diagnostic Alert Bitmap. 1 = Active
Bit 0: Phase A Voltage out of range
Bit 1: Phase B Voltage out of range
Bit 2: Phase C Voltage out of range
Bit 3: Phase A Current out of range
Bit 4: Phase B Current out of range
Bit 5: Phase C Current out of range
Bit 6: Frequency out of the range of 45 to 65 Hz, or
insufficient voltage to determine frequency
Bit 7: Internal data bus communication problem
Bit 8: Phase Loss A
Bit 9: Phase Loss B
Bit 10: Phase Loss C
Bit 11: Low Power Factor on A with one or more phases
having a PF less than 0.5 due to mis-wiring of phases
Bit 12: Low Power Factor on B
Bit 13: Low Power Factor on C
Bit 14: Not used
Bit 15: Not used
nvoStartupCount
94
Meter
SNVT_count
-
-
cpStartupCount
Heartbeat
Power Up Counter.
nvoMeterTime
90
Meter
SNVT_time_stamp
-
-
None
-
Meter Time.
nviTimeSet
7
NodeObject
SNVT_time_stamp
-
-
-
-
Set the Meter Time. Meter time does not have battery
backup and will therefore reset to the millennium
when power is lost to the meter. This input is polled on
startup, and time is restored if this input is bound to a
time source.
nvoMaxSysPower
92
Meter
SNVT_power_f
W
-
None
-
Theoretical Maximum System Power. This value is the
theoretical maximum power the meter expects to see,
based on the System Type, CT size, and System Voltage.
It is updated whenever of these values change.
nvoFullFwVersion
91
Meter
SNVT_str_asc
-
-
None
Polled
Reset System, Operating System, and Gateway revision
numbers in an ascii string (e.g. “RSx.yyy OSx.yyy
Gateway x.yyy”)
DIAGNOSTICS
ZL0119-0B
Page 27 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Network Variables (cont.)
NV
Num.
NV Name
Function
Block
Type
Units
Propagation Control
Log
Point Configuration Control
Property
Index
Type
Name
Description
LOGGING (E50F5 ONLY)
nvoLoggedData
39
Meter
UNVT_
vdlLogDataResponse
-
cpLoggedData
Throttle
Logged Data response to a log request. Contains two
log values. If manually requesting log data (without
using the LNS plugin), this network variable must be
monitored (rather than polled).
nvoLogStatus
44
Meter
SNVT_state
-
-
None
-
Logging Status.
Bit 0: Log Buffer Full – Set to 1 when one single shot
mode has filled the log buffer. In this condition,
nvoLogEntries continues to increment. This bit clears to
0 when logging restarts.
Bit 1: Log Buffer Read Collision 1 – Set to 1 if the meter
tried to save log data while the user was reading the
log. On the first collision, the meter holds the data until
the next sub-interval and then writes the saved data
to the log as well as the data for that interval. This bit
is cleared to 0 on the first demand interval with no
collision.
Bit 2: Log Buffer Read Collision 2 – Set to 1 on the 2nd
attempt to save log data while the user is reading the
log. At this point the meter ignores the read condition
and does a double write, first of the values saved from
the previous cycle, and then the present values. If the
read condition is not removed the meter continues
to write the log data as it normally would. This bit
is cleared to 0 on the first demand interval with no
collision.
Bit 3: Logging Reset – The log has been reset during the
previous demand sub-interval.
Bit 4: Time until the next log write cannot be
determined.
Bit 5: RTC Changed – The real time clock has been
changed during the current demand subinterval.
Bit 6: RTC Reset – The real time clock has been reset to
the year 2000 and needs to be reinitialized.
Bit 7: Log Request Shift - The meter waited for a log write
to occur before getting the requested log data to avoid
a collision. Therefore the indices of the returned data
are incremented by 1, and future request should also be
incremented.
nvoLogNewestTime 40
Meter
SNVT_time_stamp
-
-
None
-
Date and time of the newest entry in the log.
nvoLogOverflwCnt
43
Meter
SNVT_count
-
-
None
-
Log buffer Wrap / Missed Log Counter. In Continuous
mode, this counter increments each time the internal
circular log buffer wraps and overwrites old data. The
total number of logged entries since the last log reset is:
(nvoLogOverflwCnt * 5760) + nvoLogEntries. In Single
Shot mode, this counter is the number of log entries
lost due to the buffer being full.
nvoLogEntries
41
Meter
SNVT_count
-
-
None
-
Number of logged entries since the log buffer wrapped or
was reset. In Single Shot mode, this is the total number
of valid entries in the buffer. Any entries beyond this
will read back as QNaN (0x8000).
nvoLogDays
42
Meter
SNVT_count
-
-
None
-
Maximum Number of days that can be logged following
a log reset until the buffer is full (Single Shot mode) or
overwrites old data (Continuous).
ZL0119-0B
Page 28 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Network Variables (cont.)
NV
Num.
NV Name
Function
Block
Type
Units
Propagation Control
Log
Point Configuration Control
Property
Index
Type
Name
Description
nviLogRequestLen
32
Meter
SNVT_count
-
-
-
-
Number of Records retrieved for a log request. May be
between 1 and 125 records.
nviRequestSample
30
Meter
SNVT_count
-
-
-
-
Request records from the log starting at the record
specified here (between 8000 and 13759). Log entries
will be returned through nvoLoggedData.
nviLogReset
31
Meter
SNVT_switch
-
-
-
-
Reset the log. To reset, set the state field to 1 and the
value field to greater than 0.
ZL0119-0B
Page 29 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Configuration Properties
CP Name
Type
NV Num.
R/W
Applies To
Range
Default Value
Description
INFORMATION
cpMeterModel
SCPTpartNumber
-
R
“Meter” Function
Block
-
-
Meter Manufacturer and Model, stored as an
ASCII string (e.g. “Veris Industries E50F2A”).
cpSerialNumber
SCPTserialNumber
-
R
“Meter” Function
Block
-
-
Meter Serial Number.
cpDevMajVer
SCPTdevMajVer
-
R
“NodeObject”
Function Block
-
-
Firmware Major Version (Gateway). See
nvoFullFwRevision for RS, OS firmware
revisions.
cpDevMinVer
SCPTdevMinVer
-
R
“NodeObject”
Function Block
-
-
Firmware Minor Version (Gateway). See
nvoFullFwRevision for RS, OS firmware
revisions.
INSTALLATION DETAILS
cpSystemType
UCPTsystemType
(UCP_Type_3 w/o
resource files)
(SNVT_count ref.)
12
R/W
“Meter” Function
Block
10, 11, 12,
31, 40
40
System Type (see installation instructions for
more detail).
10 Single Phase: A + N
11 Single Phase: A + B
12 Single Split Phase: A + B + N
31 3 Phase Delta, A + B + C, no N
40 3 Phase Wye, A + B + C + N
Note: Only the indicated phases are monitored
for phase loss.
cpDisplayUnits
UCPTdisplayUnits
(UCP_Type_4 w/o
resource files)
(SNVT_count ref.)
13
R/W
“Meter” Function
Block
0, 1
1 (IEEE)
Screen Display Units
0 = IEC (U, V, P, Q, S)
1 = IEEE (VLL, VLN, W, VAR, VA)
cpCtPriRatio
UCPTctPriRatio
(UCP_Type_5 w/o
resource files)
(SNVT_count ref.)
14
R/W
“Meter” Function
Block
20 - 5000(A)
100(A)
CT Ratio – Primary (from CT rating)
cpPtRatio
UCPTptRatio (UCP_
16
Type_7 w/o resource
files)
(SNVT_count ref.)
R/W
“Meter” Function
Block
1 – 32000
(scaled 0.01320.00)
100 (scaled 1:1)
PT Ratio. This value is scaled by 100 (200 = PT
ratio of 2:1). Set to 100 (1.00:1) for no PT.
cpSystemVoltage
UCPTsysVoltage
(UCP_Type_8 w/o
resource files)
(SNVT_count ref.)
17
R/W
“Meter” Function
Block
82 - 32000
(VL-L)
600(VL-L)
System Voltage. This voltage is line to line
unless the system type is 10, where it is line
to neutral. The meter refuses voltages that
are outside of the range of 82-660 volts when
divided by the PT Ratio (above).
cpPhaseLossVolt
UCPTphLossVolt
(UCP_Type_9 w/o
resource files)
(SNVT_count ref.)
18
R/W
“Meter” Function
Block
1 - 99 (%)
10(%)
Phase Loss Voltage Threshold in percent of
system voltage. Any phase (as configured
by nviSystemType) whose level drops below
this threshold triggers a Phase Loss alert.
For example, with the system type set to 40
(3L+N) and the System voltage set to 480V
L-L, the L-N voltage for each phase should
be 277V. When this threshold is set to 10%,
if any phase drops to less than 10% of 277V
(less than 27.7V), or if any L-L voltage drops
to less than 10% of 480V (less than 48V), the
corresponding phase loss alarm bit in nvoAlert
is set to 1.
ZL0119-0B
Page 30 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Configuration Properties (cont.)
CP Name
Type
NV Num.
R/W
Applies To
Range
Default Value
Description
cpPhaseLossImbal
UCPTphLossImbal
(UCP_Type_10 w/o
resource files)
(SNVT_count ref.)
19
R/W
“Meter” Function
Block
1 - 99 (%)
25(%)
Phase Loss Imbalance Threshold in percent. For
a 3-phase Y(3+N) system (type 40), both Line
to Neutral and Line to Line voltages are tested.
In a 3-phase delta system (type 31), only the
Line to Line voltages are examined. In a single
split-phase (2+N) system (type 12), just the
Line to Neutral voltages are compared.
cpDemSubintLen
UCPTDemSubintLen
(UCP_Type_11
w/o resource files)
(SNVT_count ref.)
20
R/W
“Meter” Function
Block
0, 10 - 32767
(seconds)
900 (seconds)
Sub-Interval Length in seconds. For sync-tocomms, set this to 0 and use nviDemSubintRes
to externally restart the sub-interval.
cpDemSubintCnt
UCPTDemSubintCnt
(UCP_Type_1 w/o
resource files)
(SNVT_count ref.)
21
R/W
“Meter” Function
Block
1-6
1
Number of Sub-Intervals per Demand Interval.
Sets the number of sub-intervals that make
a single demand interval. For block demand,
set this to 1.
cpMaxNvSntPerSec UCPTnvUpdtLimit
(UCP_Type_2 w/o
resource files)
(SNVT_count)
29
R/W
“Meter” Function
Block
0 - 65535
10
Limits the total number of updates sent out per
second for network variables in the following
categories: Energy, Power, Voltage, Current,
Power Factor, Frequency, Pulse Counters,
Startup Count, and Alerts. If more than the
number of updates specified is queued to be
sent out in any 1 second period, the excess
updates are delayed until the next second
to reduce network traffic. This configuration
property is provided to give rough burst
control. The number of packets sent per
second will vary based on the connection
types (ACK, UNACK, etc.) and updates from
other network variables that are not controlled
by this configuration property.
cpAllEnergy
SCPTminSndT
1
R/W
All energy output
network variables
0 - 1 hour,
49 minutes,
13 seconds,
500ms (6553.5
seconds)
15 seconds
Throttle for all energy output network variables.
After propagation of a network variable,
updates to the same network variable are
blocked for the time set by this configuration
property. The configuration property is shared,
but each energy output network variable has
its own independent throttle counter that
resets to the value specified by this CP after it
has been propagated.
cpAllPower
SCPTminSndT
2
R/W
All power output
network variables
0 - 1 hour,
49 minutes,
13 seconds,
500ms (6553.5
seconds)
15 seconds
Throttle for all power output network variables.
After propagation of a network variable,
updates to the same network variable are
blocked for the time set by this configuration
property. The configuration property is shared,
but each power output network variable has
its own independent throttle counter that
resets to the value specified by this CP after it
has been propagated.
cpAllVoltage
SCPTminSndT
3
R/W
All voltage output
network variables
0 - 1 hour,
49 minutes,
13 seconds,
500ms (6553.5
seconds)
15 seconds
Throttle for all voltage output network
variables. After propagation of a network
variable, updates to the same network
variable are blocked for the time set by this
configuration property. The configuration
property is shared, but each voltage output
network variable has its own independent
throttle counter that resets to the value
specified by this CP after it has been
propagated.
PROPAGATION CONTROL
ZL0119-0B
Page 31 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Configuration Properties (cont.)
CP Name
Type
NV Num.
R/W
Applies To
Range
Default Value
Description
cpAllCurrent
SCPTminSndT
4
R/W
All current output
network variables
0 - 1 hour,
49 minutes,
13 seconds,
500ms (6553.5
seconds)
15 seconds
Throttle for all current output network
variables. After propagation of a network
variable, updates to the same network
variable are blocked for the time set by this
configuration property. The configuration
property is shared, but each current output
network variable has its own independent
throttle counter that resets to the value
specified by this CP after it has been
propagated.
cpAllPowerFactor
SCPTminSndT
5
R/W
All power factor
network variables
0 - 1 hour,
49 minutes,
13 seconds,
500ms (6553.5
seconds)
15 seconds
Throttle for all power factor output network
variables. After propagation of a network
variable, updates to the same network
variable are blocked for the time set by this
configuration property. The configuration
property is shared, but each power factor
output network variable has its own
independent throttle counter that resets to
the value specified by this CP after it has been
propagated.
cpFrequency
SCPTminSndT
28
R/W
nvoFrequency
0 - 1 hour,
49 minutes,
13 seconds,
500ms (6553.5
seconds)
15 seconds
Throttle for nvoFrequency. After propagation,
updates to the network variable are blocked
for the time set by this configuration property.
cpAlert
SCPTmaxSendTime
22
R/W
nvoAlert
0 - 6553.4
seconds (065534 raw)
900 seconds (9000 Heartbeat for nvoAlert. If the network variable
raw)
has not changed after the time interval
specified here (and therefore has not been
propagated), the value will be propagated and
the heartbeat counter restarted.
cpStartupCount
SCPTmaxSendTime
10
R/W
nvoStartupCount
0 - 6553.4
seconds (065534 raw)
900 seconds (9000 Heartbeat for nvoStartupCount. If the
raw)
network variable has not changed after the
time interval specified here (and therefore
has not been propagated), the value will
be propagated and the heartbeat counter
restarted.
cpEnrgyResetCnt
SCPTmaxSendTime
11
R/W
nvoEnrgyResetCnt
0 - 6553.4
seconds (065534 raw)
900 seconds (9000 Heartbeat for nvoEnrgyResetCnt. If the
raw)
network variable has not changed after the
time interval specified here (and therefore
has not been propagated), the value will
be propagated and the heartbeat counter
restarted.
cpPulseCount
SCPTsndDelta
0
R/W
nvoPulseCount1,
nvoPulseCount2
0 -4294967295
counts
0 (send any
change)
ZL0119-0B
Page 32 of 34
Number of counts that nvoPulseCount1 or
nvoPulseCount2 must change by to cause
propagation of the respective network
variable.
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Configuration Properties (cont.)
CP Name
Type
NV Num.
R/W
Applies To
Range
Default Value
Description
LOGGING (E50F5 ONLY)
cpLoggingPoint1
UCPTlogPoint1
(UCP_Type_13
w/o resource files)
(SNVT_count ref.)
23
R/W
“Meter” Function
Block
See description
nvoRealEnergy
(257)
Set to the index of the network variable to
log. Indices are provided as a column in the
network variable table above.
cpLoggingPoint2
UCPTlogPoint2
(UCP_Type_14 w/o
resource files)
(SNVT_count ref.)
24
R/W
“Meter” Function
Block
See description
nvoReactEnergy
(311)
Set to the index of the network variable to
log. Indices are provided as a column in the
network variable table above.
cpLoggingPoint3
UCPTlogPoint3
(UCP_Type_15 w/o
resource files)
(SNVT_count ref.)
25
R/W
“Meter” Function
Block
See description
nvoPresRealDmnd
(325)
Set to the index of the network variable to
log. Indices are provided as a column in the
network variable table above.
cpLoggedData
SCPTminSendTime
27
R/W
nvoLoggedData
0 - 0.3 seconds
(0 - 3 raw)
0.1 seconds (1
raw)
Throttle for log download. Defaults to 100ms
(20 packets per second for log download using
Acknowledged service). Any change from this
value will affect the speed of log download
(i.e. 200 msec will use half of the packets
per second but cause the length of the log
download to double).
cpLogConfig
UCPTlogConfig
(UCP_Type_12 w/o
resource files)
(SNVT_state ref.)
26
R/W
“Meter” Function
Block
See description
Bit 0: 0
(Continuous log
buffer mode)
Bit 1: 0 (Logging
Enabled)
Logging Configuration.
Bit 0: Clear to 0 for continuous (circular,
overwriting old date when full) log buffer
mode. Set to 1 for single shot logging mode
(stops when log is full).
Bit 1: Clear to 0 to enable logging. Set to 1 to
halt logging.
ZL0119-0B
Page 33 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
Installation Guide
Power Monitoring
E50F2A, E50F5A
TM
Troubleshooting
Problem
Cause
The maintenance wrench
icon appears in the power
meter display.
The display is blank after
applying control power to
the meter.
Values from power network
variables appear 3.4 times
higher than expected.
The data displayed is
inaccurate.
Solution
There is a problem with the inputs to the power meter.
See the Alert sub-menu or the Diagnostic Alert
Modbus Register 146.
The meter is not receiving adequate power.
Verify that the meter control power are
receiving the required voltage.
Verify that the heart icon is blinking.
Check the fuse.
LonMark resource files of versions lower than 13.04 have the
default format in the U.S. for SNVT_power_f variables in
Btu/hr.
See the section on “Formatting Power Correctly.”
Incorrect setup values
Verify the values entered for power meter setup
parameters (CT and PT ratings, system type,
etc.).
Incorrect voltage inputs
Check power meter voltage input terminals to
verify adequate voltage.
Power meter is wired improperly.
Check all CTs and PTs to verify correct
connection to the same service, PT polarity,
and adequate powering. See the Wiring
Diagrams section for more information.
China RoHS Compliance Information
(EFUP Table)
产品中有毒有害物质或元素的名称及含量Substances
部件名称
铅 (Pb) 汞 (Hg)
电子线路板
X
O
镉 (Cd)
六价铬 (Cr(VI))
多溴联苯(PBB)
多溴二苯醚(PBDE)
O
O
O
O
O = 表示该有毒有害物质在该部件所有均质材料中的含量均在 SJ/T11363-2006 标准规定的限量要求以下.
X = 表示该有毒有害物质至少在该部件的某一均质材料中的含量超出SJ/T11363-2006标准规定的限量要求.
Z000057-0A
ZL0119-0B
Page 34 of 34
©2014 Veris Industries USA 800.354.8556 or +1.503.598.4564 / [email protected]
Alta Labs, Enercept, Enspector, Hawkeye, Trustat, Aerospond, Veris, and the Veris ‘V’ logo are trademarks or registered trademarks of Veris Industries, L.L.C. in the USA and/or other countries.
Other companies’ trademarks are hereby acknowledged to belong to their respective owners.
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