EM13X Series Smart Multifunction Meter
“
Specifications:
- Product Name: Smart Multifunction Meter EM13X Series
- Model: EM13X Series
- Warranty: 24-month functional warranty from date of dispatch,
valid for 36 months from production date
Product Usage Instructions:
Installation:
1. Ensure all incoming AC power and other power sources are
turned OFF before starting installation.
2. Protect measurement AC Inputs voltage (V1, V2, V3) with a 2A
external overcurrent protection device and power supply source
inputs with a 5A external overcurrent protection device.
3. Check the labels on the back of the instrument to verify
appropriate power supply voltage, input voltages, and currents
before connecting to the power source.
Operation:
1. Only authorized personnel should open the instrument in a
fully anti-static environment to avoid damaging electronic
components.
2. Follow the manufacturer’s instructions for setting up and
operating the instrument to avoid voiding the warranty.
3. Do not expose the instrument to rain or moisture to prevent
fire or shock hazards.
Maintenance:
1. For maintenance or technical assistance, contact the
manufacturer, local representative, or distributor.
2. Regularly inspect the instrument for any signs of damage or
wear and tear.
FAQ:
Q: What should I do if the instrument malfunctions?
A: In case of malfunction, contact the manufacturer or
authorized service center for assistance. Do not attempt to repair
the instrument yourself to avoid voiding the warranty.
Q: Can I use the instrument in applications not specified by
the manufacturer?
A: It is not recommended to use the instrument in applications
not specified by the manufacturer as it may impair the protection
provided by the equipment.
“`
Smart Multifunction Meter EM13X Series
Installation and Operation Manual
BG0491 Rev. A15
EM13X Series Smart Multifunction Meter_Installation and Operation Manual
1
LIMITED WARRANTY
The manufacturer offers the customer a 24-month functional warranty on the instrument for faulty workmanship or parts from date of dispatch from the distributor. In all cases, this warranty is valid for 36 months from the date of production. This warranty is on a return to factory basis.
The manufacturer does not accept liability for any damage caused by instrument malfunction. The manufacturer accepts no responsibility for the suitability of the instrument to the application for which it was purchased.
Failure to install, set up or operate the instrument according to the instructions herein will void the warranty.
Only a duly authorized representative of the manufacturer may open your instrument. The unit should only be opened in a fully anti-static environment. Failure to do so may damage the electronic components and will void the warranty.
The greatest care has been taken to manufacture and calibrate your instrument. However, these instructions do not cover all possible contingencies that may arise during installation, operation or maintenance, and all details and variations of this equipment are not covered by these instructions.
If the equipment is used in a manner not specified by SATEC LTD, the protection provided by the equipment may be impaired.
For additional information regarding installation, operation or maintenance of this instrument, contact the manufacturer or your local representative or distributor.
For more details concerning technical assistance & support visit manufacturer’s web site: www.satec-global.com
All trademarks are property of their respective owners. August 2024
Copyright 2007-2024 © SATEC Ltd.
EM13X Series Smart Multifunction Meter_Installation and Operation Manual
2
WARNING
Read the instructions in this manual before performing installation and take note of the following precautions:
Ensure that all incoming AC power and other power sources are turned OFF before performing any work on the instrument. Protect the measurement AC Inputs voltage (V1, V2, V3) with 2A external overcurrent protection device and the power supply source inputs with
5A external overcurrent protection device, located close to the equipment.
Before connecting the instrument to the power source, check the labels on the back of the instrument to ensure that your instrument is equipped with the appropriate power supply voltage, input voltages and currents. Failure to do so may result in serious or even fatal injury and/or equipment damage.
Under no circumstances should the instrument be connected to a power source if it is damaged.
To prevent potential fire or shock hazard, do not expose the instrument to rain or moisture.
The secondary of an external current transformer must never be allowed to be open circuit when the primary is energized. An open circuit can cause high voltages, possibly resulting in equipment damage, fire and even serious or fatal injury. Ensure that the current transformer wiring is secured using an external strain relief to reduce mechanical strain on
the screw terminals, if necessary.
Only qualified personnel familiar with the instrument and its associated electrical equipment must perform setup procedures.
Do not open the instrument under any circumstances when it is connected to a power source.
Do not use the instrument for primary protection functions where failure of the device can cause fire, injury or death. The instrument can only be used for secondary protection if needed.
Read this manual thoroughly before connecting the device to the current carrying circuits. During operation of the device, hazardous voltages are present on input terminals. Failure to observe precautions can result in serious or even fatal injury or damage to equipment. This equipment does not require cleaning for proper operation.
EM13X Series Smart Multifunction Meter_Installation and Operation Manual
3
Table of Contents
Quick Start Guide …………………………………………………………………………………………4
Installing the EM13X SERIES………………………………………………………………………………….4
Mounting the EM13X SERIES Unit ………………………………………………………………….. 4 Configuring the EM13X Series remotely……………………………………………………………………9
Chapter 1 General Information…………………………………………………………………..10
1.1 1.2 1.2.1 1.2.2 1.2.3 1.3 1.3.1 1.3.2 1.4 1.5
Features ………………………………………………………………………………………………….12 Available Options……………………………………………………………………………………..14 Digital I/O …………………………………………………………………………………….. 14 Analog Output ……………………………………………………………………………….. 14 Additional Communication Port COM2 …………………………………………………. 15 Customized Options …………………………………………………………………………………15 Device Resolution……………………………………………………………………………. 15 Display Options………………………………………………………………………………. 15 Measured Parameter ………………………………………………………………………………..16 Labelling …………………………………………………………………………………………………19
Chapter 2 Installation ………………………………………………………………………………20
2.1 2.2 2.3 2.3.1 2.3.2 2.3.3 2.4 2.4.1 2.4.2 2.4.3
Site Requirements ……………………………………………………………………………………20 Package Contents ……………………………………………………………………………………20 Mechanical Installation ……………………………………………………………………………..21 Wall Mounting………………………………………………………………………………… 22 DIN Rail Mounting …………………………………………………………………………… 22 Add-On Module Mounting………………………………………………………………….. 23 Electrical Installation …………………………………………………………………………………24 Connecting the wires ……………………………………………………………………….. 24 Typical Installation ………………………………………………………………………….. 26 Terminals ……………………………………………………………………………………… 31
2.4.4 2.4.5 2.4.6 2.4.7 2.5 2.6 2.6.1 2.6.2 2.6.3 2.6.4 2.6.5 2.6.6 2.7
Power Source Connection………………………………………………………………….. 33 Voltage Input connection ………………………………………………………………….. 34 Current Input Connection………………………………………………………………….. 36 Wiring Diagrams …………………………………………………………………………….. 38
Battery Replacement ………………………………………………………………………………..46 I/O Connections ……………………………………………………………………………………….47 2DI/1RO Standard ………………………………………………………………………….. 47 4DI/2RO Module …………………………………………………………………………….. 48 8 DI module ………………………………………………………………………………….. 49 12DI/4RO Module …………………………………………………………………………… 50 4AO Module – Analog Outputs…………………………………………………………….. 53 2G/3G+2 AI Module 2 x Analog Inputs ………………………………………………. 54 Communications Connections ……………………………………………………………………54
2.7.1 2.7.2 2.7.3 2.7.4 2.7.5 2.7.6 2.7.7 2.7.8
RS-485 Connection …………………………………………………………………………. 55 ETH module COM2 Ethernet Connection……………………………………………… 56 PRO module COM2 PROFIBUS Connection…………………………………………… 58 CANopen module COM2 CANopen Connection ……………………………………… 59 RS-232/422-485 module COM2 Connection ………………………………………… 59 Connecting a Cellular module …………………………………………………………….. 60 Connecting an RF module …………………………………………………………………. 62 Connecting a WiFi module …………………………………………………………………. 63
Chapter 3 Using Front Display …………………………………………………………………..64
BG0491 REV. A16
3.1.1 Energy Pulse LED ……………………………………………………………………………. 64 3.1.2 COMPort Activity LEDs ……………………………………………………………………… 64 3.1.3 VOLTAGES LEDs …………………………………………………………………………….. 64 3.1.4 Navigation Buttons ………………………………………………………………………….. 64 3.2 Display Operations …………………………………………………………………………………..65 3.2.1 Navigation Buttons ………………………………………………………………………….. 65 3.2.2 Navigating in Data Display Mode…………………………………………………………. 66 3.2.3 Display Features …………………………………………………………………………….. 66 3.2.4 Measurement Units …………………………………………………………………………. 67 3.3 Data Displays…………………………………………………………………………………………..67 3.3.1 TEST Mode Data Display …………………………………………………………………… 67 3.3.2 Billing Period Energy Data Displays ……………………………………………………… 68 3.3.3 TOU/Maximum Demand Power Data Display ………………………………………….. 71 3.3.4 Instrumentation Measurement Maximum Demand Data Display ………………….. 72 3.3.5 Instrumentation Measurement……………………………………………………………. 73 3.3.6 Status Inputs and Outputs ………………………………………………………………… 76 3.3.7 Device Info Display …………………………………………………………………………. 77 3.4 Programming Mode ………………………………………………………………………………….78 3.4.1 Navigation Buttons ………………………………………………………………………….. 78 3.4.2 Entering Numeric Values …………………………………………………………………… 78 3.4.3 Password Security …………………………………………………………………………… 78 3.4.4 Setup Menus and Access Rights ………………………………………………………….. 79 3.4.5 Viewing and Changing Setup Options …………………………………………………… 80
Chapter 4 Using PAS Software ………………………………………………………………….81
4.1 Installing PAS ………………………………………………………………………………………….81 4.2 Creating a New Site for your Meter …………………………………………………………….81
Chapter 5 Configuring the EM13X Series …………………………………………………….83
5.1 Configuring Communications …………………………………………………………………….83 5.1.1 Setting Up Serial Communication Ports…………………………………………………. 83 5.1.2 Setting up the Ethernet…………………………………………………………………….. 85 5.1.3 Setting up GPRS Network …………………………………………………………………. 86 5.1.4 Setting Up WiFi Network …………………………………………………………………… 87 5.1.5 Setting Up eXpertPower Client ……………………………………………………………. 93 5.1.6 Setting Up TCP Notification Client………………………………………………………… 94 5.2 General Meter Setup ………………………………………………………………………………..95 5.2.1 Basic Meter Setup …………………………………………………………………………… 95 5.2.2 Device Options ………………………………………………………………………………. 98 5.2.3 Configuring Digital Inputs………………………………………………………………… 100 5.2.4 Configuring Relay Outputs……………………………………………………………….. 101 5.2.5 Configuring Analog Outputs……………………………………………………………… 103 5.2.6 Configuring Counters ……………………………………………………………………… 105 5.2.7 Configuring Alarm/Control Setpoints…………………………………………………… 106 5.2.8 Configuring the Display …………………………………………………………………… 108 5.2.9 Local Time Settings ……………………………………………………………………….. 111 5.3 Configuring Meter Security ………………………………………………………………………113 5.4 Configuring Billing/TOU …………………………………………………………………………..114 5.4.1 Configuring Billing/Tariff Registers……………………………………………………… 115 5.4.2 Configuring the Daily Tariff Schedule ………………………………………………….. 117 5.4.3 Configuring the Season Tariff Schedule……………………………………………….. 118 5.5 Configuring Recorders…………………………………………………………………………….119 5.5.1 Configuring Meter Memory ………………………………………………………………. 119 5.5.2 Configuring the Event Recorder ………………………………………………………… 121 5.5.3 Configuring the Data Recorder………………………………………………………….. 122 5.5.4 Factory Preset Data Log Files……………………………………………………………. 124
EM13x Series SMART MULTIFUNCTION METER
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5.6 Configuring Communication Protocols ………………………………………………………125
5.6.1 Configuring Modbus……………………………………………………………………….. 125 5.6.2 Configuring DNP3………………………………………………………………………….. 126
Chapter 6 Device Control and Upgrading …………………………………………………..130
6.1 Resetting Accumulators, Maximum Values and Files ………………………………….130 6.2 Updating the Meter Clock ………………………………………………………………………..131 6.3 Viewing and Clearing Device Diagnostics ………………………………………………….132 6.4 Viewing Communication Status and Statistics ……………………………………………133 6.5 Remote Relay Control …………………………………………………………………………….134 6.6 Upgrading Device Firmware …………………………………………………………………….135
Chapter 7 Monitoring Meters……………………………………………………………………137
7.1 Viewing Real-time Data …………………………………………………………………………..137
7.1.1 7.1.2 7.2 7.3 7.4
Polling Devices……………………………………………………………………………… 137 Viewing a Data Table ……………………………………………………………………… 138
Viewing Real-time Min/Max Log ……………………………………………………………….139 Viewing Real-time Waveforms …………………………………………………………………141 Viewing Real-time Harmonic Spectrum……………………………………………………..143
Chapter 8 Retrieving and Storing Files ………………………………………………………146
8.1 8.2 8.3 8.4 8.4.1 8.4.2 8.5
Uploading Files on Demand …………………………………………………………………….146 Using the Upload Scheduler …………………………………………………………………….147 Viewing Files On-line ………………………………………………………………………………149 Exporting Files ……………………………………………………………………………………….150 Exporting Files in COMTRADE and PQDIF Formats………………………………….. 150 Exporting Files in Excel Format …………………………………………………………. 151 Archiving Files ……………………………………………………………………………………….152
Chapter 9 Viewing Files………………………………………………………………………….153
9.1 Operations with Files ………………………………………………………………………………153 9.2 Viewing Options……………………………………………………………………………………..153
9.2.1 9.2.2 9.2.3 9.3 9.4
Customizing Views ………………………………………………………………………… 153 Working with Tables ………………………………………………………………………. 154 Working with Graphic Windows…………………………………………………………. 154
Viewing the Event Log …………………………………………………………………………….156 Viewing the Data Log ……………………………………………………………………………..157
Appendix A Technical Specifications …………………………………………………………..158
Appendix B Standards Compliance …………………………………………………………….164
Appendix C Analog Output Parameters………………………………………………………..167
Appendix D Setpoint Triggers and Actions ……………………………………………………169
Appendix E Parameters for Data Monitoring and Logging………………………………..173
Appendix F Billing/TOU Profile Log File ……………………………………………………….185
Appendix G Data Scales …………………………………………………………………………..187
Appendix H Device Diagnostic Codes………………………………………………………….188
EM13x Series SMART MULTIFUNCTION METER
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Quick Start Guide
This section can be used by a licensed electrician to install and perform basic EM13X setup. For more detailed EM13X Series setup and use instructions, see the following chapters in this manual. This quick start guide will assist you to have the unit running for the first time. During the operation of the meter, hazardous voltages are present in the input terminals. Failure to observe precautions can result in serious or even fatal injury or damage to equipment. For complete and accurate in-depth instructions, refer to the following chapters in this manual.
Installing the EM13X SERIES
Mounting the EM13X SERIES Unit
To mount the EM13X SERIES on Din rail:
· Hang the EM13X Series unit on the DIN Rail by positioning the upper side first then lower side.
· Push up the DIN rail brackets to lock the EM13X Series on the rail.
SATEC
EM133
RX TX COM1
COM3
L1 L2 L3 Wh
A
A ( 2 : 1 )
DIN RAIL Brackets Push up to lock
Use flat screwdriver to disassemble the EM133 from the rail, by inserting the screwdriver to the plastic window to pull down the black plastic DIN RAIL retainer
Mounting the EM13X Series on DIN-Rail
EM13x Series SMART MULTIFUNCTION METER
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To mount the EM13X Series on flat surface: · Locate the EM13X Series on the surface to · Push up the DIN rail brackets to lock the EM13X Series on the rail.
EM13x Series SMART MULTIFUNCTION METER
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Connecting the EM13X Series Unit · Ensure that all incoming power sources are OFF. · Check that you have the appropriate power supply. · For direct connection, connect to CT wires through the meter CT terminals. Observe the arrow
that indicates the current direction. · In case of a retrofit application or high current external SATEC CT (or Split Core) where each
external CT ends with two wires: · Connect the wire to the meter current termination screws. · Connect the measured voltage inputs · Connect COM1 RS-485 communication port · In case of EM132/133 model with Aux. Power supply connect the Power Supply inputs using
1.5 mm2/14AWG-dedicated wires.
EM133 Model, typical Transformer Operated Installation
LK
+ +-
LOAD
LK –
L
K
+-
SW2 SHORTING SWITCHES
SW1 2A
LINE 1 (A)
LINE 2 (B)
LINE 3 (C) N
NOTE: CT Polarity MARKINGS
K
S1 P1
S2
L
P2
N.U.
N.U.
CM NO
N.U.: Not Used
9
10
CM/SH. ST1 ST2
SW3 2A
LINE AC or DC(+) 40-318V AC/DC
N or DC (-)
N.U.
R1 + –
ETC or PC (MATSER)
+ –
Up to 31 x EM133 or other PMeters
EM13x Series SMART MULTIFUNCTION METER
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EM133-SE Model, typical Transformer Operated Installation
LK
+ +-
LOAD
LK –
L
K
+-
SW2 SHORTING SWITCHES
SW1 2A
LINE 1 (A)
LINE 2 (B)
LINE 3 (C) N
NOTE: CT Polarity MARKINGS
K
S1 P1
S2
L
P2
N.U.
N.U.
CM NO
N.U.: Not Used
9
10
N.U.
N.U.
CM/SH. ST1 ST2
N.U.
R1 + –
ETC or PC (MATSER)
+ –
Neutral
Line 3 Line 2 Line 1
Common Wiring Mode: EM13x and EM13x-SE 4LL3 or 4Ln3 EM13x-SE: Self Energized Meter model
N.U.
N.U.
CM NO
Up to 31 x EM133 or other PMeters
EM133-SE Model
9
10
N.U.
N.U.
N.U.
CURRENTS DIRECT CONNECTION WITH INTERNAL CT
50A (100A)
LOAD
EM13x Series SMART MULTIFUNCTION METER
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LOAD
Neutral Line 3 Line 2 Line 1
(+) (-)
(+) (-)
(+)
V3
(-)
V2 V1
CURRENTS TRANSFORMER
CONNECTION WITH
EXTERNAL CT 40MA SECONDARY
Solid Core CT red wire: (+) Split Core CT white wire: (+) Solid Core CT orange wire: (-) Split Core CT black wire: (-)
9
10
To connect an Option module:
CT wiring
· Assemble the module on the meter.
· Power the EM13X Series unit on.
Assembly a small module
EM13x Series SMART MULTIFUNCTION METER
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Assembling the 12DI/4RO module To operate the EM13X Series: · Perform device diagnostics. · Configure the device through the EM13X Series unit front panel display
Configuring the EM13X Series remotely
· Install the PAS application software on your PC. · Configure the PAS database for your meter. · Configure the PAS communications settings. · Upgrade the meter firmware if a new version is available. · Set up the meter using the PAS application software. · Configure your security settings through the meter security setup. · Configure your communication protocol settings. · Configure Billing/TOU registers. At this stage, the EM13X Series should be ready for operation.
EM13x Series SMART MULTIFUNCTION METER
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Chapter 1 General Information
Configuring the EM13X Series remotely
Chapter 1 General Information
The EM13X Series is a compact, multi-function, three-phase AC Powermeter specially designed to meet the requirements of users ranging from electrical panel builders to substation operators.
The EM13X Series measuring and power supply inputs comply with Measuring Category III
The EM13X Series offers standard voltage, current, power and frequency measurements, amp-demand, energy measurements and data logging, harmonic analysis and control capabilities. The EM13X Series consists of three different models series:
· EM132/EM133 with AC/DC Auxiliary Power Supply (40-318V AC/DC)
– EM132/EM133-5, internal CT, transformer operated configuration with current inputs: In = 5A, Imax = 10A
– EM132/EM133-1, internal CT, transformer operated configuration with current inputs: In = 1A, Imax = 2A
– EM132/EM133-RS5, external CT, transformer operated configuration with current inputs (secondary current): In = 2.mA, Imax = 5mA
– EM132/EM133-50, internal CT, direct connection configuration with current inputs: In = 50A, Imax = 63A1
– EM132/EM133-HACS, external CT, direct connection configuration with current inputs (secondary current): In = 20mA, Imax = 40mA
· EM133-SE self energized device with 3 Phase Power Supply, operating from any combination of the measured phases
– EM133-SE-5, internal CT, transformer operated configuration with current inputs: In = 5A, Imax = 10A
– EM133-SE-1, internal CT, transformer operated configuration with current inputs: In = 1A, Imax = 2A
– EM133-SE-RS5, external CT, transformer operated configuration with current inputs (secondary current): In = 2.mA, Imax = 5mA
– EM133-SE-50, internal CT, direct connection configuration with current inputs: In = 50A, Imax = 63A2
– EM133-SE-HACS, external CT, direct connection configuration with current inputs (secondary current): In = 20mA, Imax = 40mA
1 Imax= 63A at 60°C max. amb. temperature, Imax=100A at 55°C max. amb. temperature 2 Imax= 63A at 60°C max. amb. temperature, Imax=100A at 55°C max. amb. temperature
EM13x Series SMART MULTIFUNCTION METER
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Chapter 1 General Information
Configuring the EM13X Series remotely
· EM132/EM133-21DC with DC Auxiliary Power Supply (9.5-36 VDC)
– EM132/EM133-21DC-5, internal CT, transformer operated configuration with current inputs: In = 5A, Imax = 10A
– EM132/EM133-21DC-1, internal CT, transformer operated configuration with current inputs: In = 1A, Imax = 2A
– EM132/EM133-21DC-RS5, external CT, transformer operated configuration with current inputs (secondary current): In = 2.mA, Imax = 5mA
– EM132/EM133-21DC-50, internal CT, direct connection configuration with current inputs: In = 50A, Imax = 63A1
– EM132/EM133-21DC-HACS, external CT, direct connection configuration with current inputs (secondary current): In = 20mA, Imax = 40mA
All models series include the following units:
· 2 lines of 16 characters LCD display.
· A standard RS-485 communication port, Infra-Red Communication port and an additional optional Ethernet, Profibus or RS-232/RS-422/RS-485 or RF Modem port. These ports allow local and remote automatic meter readings and setup through the supplemental communication or user data acquisition software
· Different communication options for remote communications with the meter. These options enable LAN and Internet communication with the unit.
· Two digital inputs with 10-ms scan time and one relay output with 1-cycle update time
The EM13X Series is suitable for mounting on both standard DIN-Rail and wall-mount. The EM13X firmware Series consists of various firmware implementations and resources as described in following table:
Communication protocols
App.
Storage memory
CPU memory
Versions MODBUS /
RT U ASCII SATEC DNP Profibus CAN WiFi 60870
A R 8 MB 512 kB
V12.02.xx
V
V
V
V
V
V12.05.xx
V
V
V
V
V
V12.06.xx
V
V
V
V12.07.xx
V
V
V
V
V
V
V12.08.xx
V
V
V
V
V
V
V12.22.xx
V
V
V
V
V12.28.xx
V
V
V
V
V
EM13x Series SMART MULTIFUNCTION METER
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Chapter 1 General Information
Features
1.1 Features
Multifunctional 3-phase Power Meter · 3 voltage inputs and 3 current transformer-isolated AC inputs for direct connection to power
line or via potential and current transformers · True RMS, volts, amps, power, power factor, neutral current, voltage and current unbalance,
frequency · Ampere/Volt demand meter · 25/50/60/4003 Hz measurement capabilities Billing/TOU Energy Meter · IEC 62053-22 Class 0.5S /ANSI C12.20 Acc. Class 0.5, four-quadrant active and reactive
energy polyphase static meter · Three-phase total and per phase energy measurements; active, reactive and apparent energy
counters · Time-of-Use, 4 totalization and tariff energy/demand registers x 8 tariffs, 4 seasons x 4 types
of days, 8 tariff changes per day, · Onetime easy programmable tariff calendar schedule · Automatic daily energy and maximum demand profile log for total and tariff registers · Voltage and current THD, current TDD and K-Factor, up to 40th order harmonic · Voltage and current harmonic spectrum and angles Real-time Waveform Capture · Real-time “scope mode” waveform monitoring capability · Simultaneous 6-channel one-cycle waveform capture at a rate of 64 samples per cycle Programmable Logical Controller · Embedded programmable controller · 16 control setpoints; programmable thresholds and delays · Relay output control · 1-cycle response time · Non-volatile memory for long-term event and data recording · Event recorder for logging internal diagnostic events and setup changes · Two data recorders; programmable data logs on a periodic basis; automatic daily energy and
maximum demand profile log
3 25Hz and 400Hz options are available only with internal CT.
EM13x Series SMART MULTIFUNCTION METER
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Chapter 1 General Information
Features
Digital I/O
· 2 digital inputs (standard) and four to twelve digital inputs (optional) with 1/2 cycle scan time; automatic recording of last five digital input change events with timestamps (see the EM13X Series MODBUS Reference Guide)
· 1 relay output (standard) and two to four relay outputs (optional) with 1-cycle update time; unlatched, latched, pulse and KYZ operation; energy pulses
Display
· Easy to read 2×16 characters LCD display, adjustable update time
· Auto-scroll option with adjustable page exposition time; auto-return to a default page
· Programmable display auto-scroll sequence Communications
· Standard 2-wire RS-485 communication port; MODBUS RTU, DNP3, SATEC ASCII and IEC 60870-5-101 communication protocols
· Optional second communication port; MODBUS RTU, MODBUS/TCP, DNP3, DNP3/TCP, SATEC ASCII, PROFIBUS DP, CANopen and IEC 60870-5-104 (over TCP) communication protocols
· eXpertPower client for communicating with the SATEC proprietary eXpertPower Internet services (with the Ethernet/GPRS module)
· TCP notification client for communicating with a remote MODBUS/TCP server on events or periodically on a time basis (with the Ethernet/GPRS module)
Meter Security
· Password security for protecting meter setups and accumulated data from unauthorized changes
Upgradeable Firmware
· Easy upgrading device firmware through a serial or Ethernet port. Software Support
· PASTM meter configuration and data acquisition SATEC Software tool · eXpertPowerTM SATEC proprietary Internet services
EM13x Series SMART MULTIFUNCTION METER
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Chapter 1 General Information
Available Options
1.2 Available Options
The EM13X Series can be provided with an optional expansion module from the following list:
· Digital I/O
· Analog outputs
· Ethernet communication port
· PROFIBUS DP communication port
· CANopen communication port · RS-232/RS-422/RS-485 communication port
· Cellular communication port based on ENFORA GPRS or TELIT 3G or 4G engine
· RF communication port
· WiFi module, wireless Ethernet communication port
1.2.1 Digital I/O
The EM13X Series digital I/O expansion module provides:
4DI/2RO Module
· 4dry contact digital inputs (DI) for monitoring external contacts and receiving pulses from energy, water, and gas meters; Programmable de-bounce time; 1-ms scan time.
· 2 electro-mechanical or solid-state relay outputs (RO) for alarms and controls, and for output energy pulses; unlatched, latched and pulse operations, failsafe operation for alarm notifications; programmable pulse width; direct remote relay control through communications; 1-cycle update time.
8DI module
· 8 dry contact digital inputs (DI) for monitoring external contacts and receiving pulses from energy, water, and gas meters
· Programmable de-bounce time; 1-ms scan time.
12DI/4RO Module
· 12 dry contact digital inputs (DI) for monitoring external contacts and receiving pulses from energy, water, and gas meters; Programmable de-bounce time; 1-ms scan time.
· 4 electro-mechanical relay outputs (RO) for alarms and controls, and for output energy pulses; unlatched, latched and pulse operations, failsafe operation for alarm notifications; programmable pulse width; direct remote relay control through communications; 1-cycle update time.
1.2.2 Analog Output
The EM13X Series analog output (AO) expansion module provides:
· 4 optically isolated analog outputs with an internal power supply;
· Options for 0-20mA, 4-20mA, 0-1mA, and 1mA output; 1-cycle update time.
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Chapter 1 General Information
Customized Options
1.2.3 Additional Communication Port COM2
A second COM2 communication port can be ordered as an expansion module. COM2 options available: · Ethernet 10/100BaseT port; MODBUS/TCP, DNP3/TCP or IEC 60870-5-104 communications
protocols · WiFi module, wireless Ethernet communication port · PROFIBUS DP port · CANopen port · RS-232/RS-422/RS-485 port; MODBUS RTU, DNP3 or IEC 60870-5-101, and SATEC ASCII
communication protocols; · GPRS or 3G/4G cellular communications port; MODBUS/TCP protocol · RF communication; MODBUS RTU protocol
1.3
Customized Options
Presentation of data on the front display and via communications can be customized to best suit the user application.
1.3.1 Device Resolution
A low or high-resolution option can be selected for the presentation of voltage, current, and power for use in high and low power applications.
1.3.2 Display Options
Different display options are available for customization to be used in dark or non-safe locations, or in places that are hardly accessible for observation.
EM13x Series SMART MULTIFUNCTION METER
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Chapter 1 General Information
Measured Parameter
1.4 Measured Parameter
Table 1: Measured and Displayed Parameters
Parameter
1-cycle Real-time Measurements RMS Voltage per phase RMS Current per phase kW per phase kvar per phase kVA per phase Power Factor per phase Total kW Total kvar Total kVA Frequency Neutral Current Total Power Factor Voltage & Current unbalance 1-sec Average Measurements RMS Voltage per phase RMS Current per phase kW per phase kvar per phase kVA per phase Power Factor per phase Total kW Total kvar Total kVA Total Power Factor Frequency Neutral Current Voltage & Current unbalance Amps & Volt Demands Ampere & Volt Demand per phase Ampere Maximum Demand per phase Voltage Maximum Demand per phase Power Demands kW Accumulated Demand Import & Export kvar Accumulated Demand Import & Export kVA Accumulated Demand kW Demand Import & Export kvar Demand Import & Export
Display
Comm.
Analog
Pulse
Alarm
133 133-R 133 133-R 133 133-R 133 133-R 133 133-R
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Chapter 1 General Information
Measured Parameter
Parameter
kVA Demand kW Sliding Demand Import & Export kvar Sliding Demand Import & Export kVA Sliding Demand kW Predicted Demand Import & Export kvar Predicted Demand Import & Export kVA Predicted Demand kW Maximum Demand Import kW Maximum Demand Export kvar Maximum Demand Import kvar Maximum Demand Export kVA Maximum Demand Total Energy Total kWh Import & Export Total kvarh Import & Export Total kvarh Net Total kVAh Energy per Phase kWh Import per phase kWh Export per phase kvarh Import per phase kvarh Export per phase kVAh per phase TOU Registers 4 TOU energy registers (kWh and kvarh import & export, kVAh, 14 pulse sources) 8 TOU energy registers (kWh and kvarh import & export, kVAh, 14 pulse sources) 4 TOU maximum demand registers 8 TOU maximum demand registers 8 tariffs, 4 seasons x 4 types of day Harmonic MeasurementsEH Voltage THD per phase Current THD per phase Current TDD per phase K-factor per phase Voltage harmonics per phase up to order 40 Current harmonics per phase up to order 40 Voltage harmonic angles up to order 40 Current harmonic angles up to order 40
Display
Comm.
Analog
Pulse
Alarm
133 133-R 133 133-R 133 133-R 133 133-R 133 133-R
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Chapter 1 General Information
Fundamental Component Voltage and Current per phase kW, PF per phase kvar, KVA per phase Total kW, PF Total kvar, KVA Min/Max Logging Min/Max A, V, total kW, kvar, kVA, PF Min/Max Frequency, Neutral current Phase Rotation Voltage and Current Phase Angles Day and Time Pulse Counters Digital Inputs (optional) Relay Outputs (optional) Remote Relay Control (optional) Alarm Triggers/Setpoints Self-diagnostics
Measured Parameter
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Chapter 1 General Information
1.5 Labelling
Labelling
Figure 1-1 EM133 label UL marking
Figure 1-2 EM133 label NMI marking
Figure 1-3 EM133 label CE MID marking
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Chapter 2 Installation
Site Requirements
Chapter 2 Installation
This chapter discusses the following types of physical installations for the EM13X Series SMART MULTIFUNCTION METER: · Mechanical Installation · Electrical Installation · I/O Connections · COM Port Connections.
2.1 Site Requirements
· Environmental conditions: as specified in Technical Specifications in Appendix A · Electrical requirements: as specified in Technical Specifications in Appendix A See Technical Specifications in Appendix A for more details
2.2 Package Contents
The EM13X Series SMART MULTIFUNCTION METER package contains the following items: · EM13X Series SMART MULTIFUNCTION METER unit · Technical Documentation CD · EM13X Series Quick Start guide
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Chapter 2 Installation
Mechanical Installation
2.3 Mechanical Installation
Refer to the figures provided in this section to properly perform the mechanical installation.
Figure 2-1 Dimensions
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Chapter 2 Installation
Mechanical Installation
2.3.1 Wall Mounting
To mount the meter on the wall:
Position the meter on the wall according to hole locations as shown in figure 2-2 Affix the meter using washers and nuts.
Figure 2-2. Surface Mounting
2.3.2 DIN Rail Mounting
The EM13X Series can be mounted on a standard 35-mm DIN rail as shown in figure 2-3
Figure 2-3. EM13X Series DIN Rail Mounting
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Chapter 2 Installation
Mechanical Installation
2.3.3 Add-On Module Mounting
Before Add-On Module installation ensure that all incoming power sources are shut OFF. Failure to observe this practice can result in serious or even fatal injury and damage to equipment.
Turn off the EM13X Series auxiliary power supply or voltage supply inputs (SE model). Remove the module connector cover from the EM13X Series to access the module connector as shown in figure 2-4below
Figure 2-4. EM13X Series module connector location
Figure 2-5. EM13X Series module assembly
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Chapter 2 Installation
Electrical Installation
2.4
Electrical Installation
The equipment installation shall conform to the following instructions:
a) a switch or circuit-breaker shall be included in the building installation as close as possible to the equipment supply voltage;
b) It shall be in close proximity to the equipment and within easy reach of the OPERATOR;
c) It shall be marked as the disconnecting device for the equipment.
d) Before installing, ensure that all incoming power sources are shut OFF. Failure to observe this practice can result in serious or even fatal injury and damage to equipment.
e) The current sensors may not be installed in a panel where they exceed 75% of the wiring space of any cross-sectional area within the panel.
2.4.1 Connecting the wires
All conductors must be stranded copper. All conductors and insulation systems and crimped devices must be appropriate for the application. SATEC requires using crimped ferrules on stranded wire.
Table 3 below summarizes the different conductors’ sizes to be used in the EM133 external connections.
Table 2: Wiring Characteristics
Terminals
Aux. Power Supply Inputs L/+, N/-
Conductor size EM133 model
N/A in EM133-SE models
Torque
Minimum Maximum [Nm]
Notes
AWG (mm²) AWG (mm²)
22 (0.5)
12 (4.0)
0.5-0.7
Use 600V insulated conductors Required crimped ferrule: Panduit (22AWG) F75-10-M Panduit (12AWG) F81-15-M
Voltages Inputs N/A in EM133-SEV1, V2, V3, Vn 100A
22 (0.5)
Current Inputs EM133/SE-1A, 5A,
22 (0.5)
I1, I2, I3, N
HACS
12 (4.0) 10 (6.0)
Use 600V insulated conductors
Required crimped ferrule: 0.5-0.7
Panduit (22AWG) F75-10-M Panduit (12AWG) F81-15-M
1.8-2
Use 600V insulated conductors Required crimped ferrule: Panduit (22AWG) F75-10-M Panduit (10AWG) F82-15-M
Current Inputs EM133/SE-63A or
I1, I2, I3, N
100A
6 (16)
4 (25)
2-2.7
Use 600V insulated conductors Required crimped ferrule: Panduit (6AWG) F84-15-M Panduit (4AWG) F85-15-M
COM1, I/O connections
All Models
22 (0.5)
12 (4.0)
Use 600V insulated conductors
Required crimped ferrule: 0.5-0.7
Panduit (22AWG) F75-10-M Panduit (12AWG) F81-15-M
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Chapter 2 Installation
Electrical Installation
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Chapter 2 Installation
Electrical Installation
2.4.2 Typical Installation
LOAD
SW2 SHORTING SWITCHES
+-
LK
+ +-
LK –
L
K
SW1 2A
LINE 1 (A)
LINE 2 (B)
LINE 3 (C) N
NOTE: CT Polarity MARKINGS
K
S1 P1
S2
L
P2
N.U.
N.U.
CM NO
N.U.: Not Used
CM/SH. ST1 ST2
N.U.
R1 + –
ETC or PC (MATSER)
SW3 2A
LINE AC or DC(+) 40-318V AC/DC
N or DC (-)
+ –
Up to 31 x EM133 or other PMeters
Figure 2-6a Typical Installation Diagram with Auxiliary Power Supply
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Chapter 2 Installation
Electrical Installation
*
* 1. SATEC RF chokes to be installed between CBR and Meter Voltage Inputs in residential area or other places require ANCI C12.20 compliance. Otherwise it may be bypassed. 2. AC0242 shall be routed with the voltage lines (bundled), separately from communication & I/O lines
Figure 2-6b Typical Installation Diagram with Self Energized Power Supply direct connection with HACS
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Chapter 2 Installation
Electrical Installation
Figure 2-6c Typical Installation Diagram with Self Energized Power Supply direct connection
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Chapter 2 Installation
Electrical Installation
*
* 1. SATEC RF chokes to be installed between CBR and Meter Voltage Inputs in residential area or other places require ANCI C12.20 compliance. Otherwise it may be bypassed. 2. AC0242 shall be routed with the voltage lines (bundled), separately from communication & I/O lines
Figure 2-6d Typical Installation Diagram with Self Energized Power Supply Transformer Operated (indirect connection)
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Chapter 2 Installation
Electrical Installation
Figure 2-6e Typical Installation Diagram with 12/24 VDC Auxiliary Power Supply
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Chapter 2 Installation
Electrical Installation
2.4.3 Terminals
The EM132/133/133-SE terminals are constructed as a built-in part of the meter equipment. The terminals are divided in two different terminal categories:
1) High power terminal, dedicated to current terminals only, with a torque rating of 2.0-2.3Nm
2) Low power terminal, dedicated to voltage, Digital Inputs, COM1 and Relay output terminals only with a torque rating of 0.5-0.7Nm
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Chapter 2 Installation
CT terminal screws
PS terminal screws
PS cable terminals CT cable terminals COM1 cable terminals
Electrical Installation
COM1 terminal screws OPTIONAL Module Connector
Figure 2-7a Terminals View EM133 Model
CT terminal screws
EM133-SE Model
PS terminal screws
CT cable terminals COM1 cable terminals
COM1 terminal screws OPTIONAL Module Connector
Figure 2-7b Terminals View EM133-SE Model
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Chapter 2 Installation
Electrical Installation
2.4.4 Power Source Connection
The equipment installation shall conform to the following instructions: a) a switch or circuit-breaker shall be included in the building installation as close as possible to the equipment supply voltage; b) It shall be in close proximity to the equipment and within easy reach of the OPERATOR; c) It shall be marked as the disconnecting device for the equipment. d) Before installing, ensure that all incoming power sources are shut OFF. Failure to observe this practice can result in serious or even fatal injury and damage to equipment. e) The current sensors may not be installed in a panel where they exceed 75% of the wiring space of any cross-sectional area within the panel.
The power source can be a dedicated fuse or a monitored voltage if it is within the instrument power supply range. To connect an AC Auxiliary Power Supply (EM133 model only): · Connect the Line wire to terminal (L/+ or 9). · Connect the Neutral wire to terminal (N/- or 10) To connect to a DC Auxiliary Power Supply (EM133 and EM133-21DC models only): · Connect the positive wire to terminal (L/+ or 9) · Connect the negative wire to terminal (N/- or 10)
Auxiliary power supply AC/DC
connection
Auxiliary power supply DC connection
9
10
9
10
SW3 2A
CM/SH.
SW3 2A
CM/SH.
LINE AC or DC(+) 40-318V AC/DC
N or DC (-)
(+) 9-36V DC
(-)
Figure 2-8 EM13X Series Auxiliary Power Supply connection
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Chapter 2 Installation
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2.4.5 Voltage Input connection
The equipment installation shall conform to the following instructions:
a) a switch or circuit-breaker shall be included in the building installation as close as possible to the equipment supply voltage;
b) It shall be in close proximity to the equipment and within easy reach of the OPERATOR;
c) It shall be marked as the disconnecting device for the equipment.
d) Before installing, ensure that all incoming power sources are shut OFF. Failure to observe this practice can result in serious or even fatal injury and damage to equipment.
e) The current sensors may not be installed in a panel where they exceed 75% of the wiring space of any cross-sectional area within the panel.
EM13x Series (with Aux. Power Supply) 690V Inputs (Standard)
690V
690V
400V 690V
400V
400V
VOLTAGES
Figure 2-9EM13X Series (with Aux. Power Supply) measured Voltage connections 690V inputs are usually used with direct connection. Use any of the seven wiring configurations shown in Figures 2-8 through 2-15.
EM13X-SE model Voltage connections
Figure 2-10 EM13X-SE model measured Voltage connections
EM133-SE model with measuring nominal current 1A or 5A or 2.5mA (using RS5), indirect connection nominal voltage input is 120(207) to 277 (480) VAC.
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Chapter 2 Installation
Electrical Installation
EM133-SE model with measuring nominal current 50A or 20mA (using HACS), direct connection nominal voltage input is up to 230(400) VAC.
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Chapter 2 Installation
Electrical Installation
2.4.6 Current Input Connection
The EM13X Series consists of five different models according to the current inputs measurement:
· 1A nominal current (2A maximum) using internal CT transformer operated Connection
· 5A nominal current (10A maximum) using internal CT transformer operated Connection
· 50A 4 nominal current (63A/100A maximum) using internal CT Direct Connection, in EM133SE model Current Inputs and Voltage Inputs are internally connected together
· 20mA nominal current (40mA maximum) using HACS (external CT provided by SATEC) Transformer Connection
· 2.5mA nominal current (5mA maximum) using RS5 (external CT provided by SATEC) Transformer Connection
Neutral Line 3 Line 2 Line 1
V3
CURRENTS DIRECT
CONNECTION WITH
INTERNAL CT 1A/5A/50A
LOAD
LOAD
Neutral Line 3 Line 2 Line 1
RED (+) ORANGE (-)
RED (+) ORANGE (-)
V3 ORANGE (-)
V2 V1
RED (+)
CURRENTS TRANSFORMER
CONNECTION WITH
EXTERNAL CT 40MA SECONDARY
4 Imax= 63A at 60°C max. amb. temperature, Imax=100A at 55°C max. amb. temperature
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Chapter 2 Installation
N.U.
N.U.
CM NO
Electrical Installation
LOAD
EM133-SE Model
9
10
N.U.
N.U.
N.U.
CURRENTS DIRECT CONNECTION WITH INTERNAL CT 50A (100A)
Figure 2-11 EM13X Series measured Current connections
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Chapter 2 Installation
Electrical Installation
2.4.7 Wiring Diagrams
For AC input ratings, see Technical Specifications in Appendix A for more details. Table 3 presents the available wiring configurations in the meter.
Table 3: Wiring Configurations
Wiring Configuration 3-wire 2-element Delta direct connection using 2 CTs 4-wire 3-element Wye direct connection using 3 CTs 4-wire 3-element Wye connection using 3 PTs, 3 CTs 3-wire 2-element Open Delta connection using 2 PTs, 2 CTs 4-wire 2½-element Wye connection using 2 PTs, 3 CTs 3-wire 2½-element Open Delta connection using 2 PTs, 3 CTs 4-wire 3-element Delta direct connection using 3 CTs 3-wire 2½-element Broken Delta connection using 2 PTs, 3 CTs
Setup Code 3dir2 4Ln3 or 4LL3 4Ln3 or 4LL3 3OP2 3Ln3 or 3LL3 3OP3 4Ln3 or 4LL3 3bLn3 or 3bLL3
Figure 2-12 2-13 2-14 2-15 2-16 2-17 2-18 2-19
EM-133 Model
LOAD
SW2 SHORTING SWITCHES
+-
LK
L
K
+ +-
SW1 2A
LINE 1 (A) LINE 2 (B) LINE 3 (C)
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Chapter 2 Installation
LOAD
SW2 SHORTING SWITCHES
EM-133SE Model
LK
+ +-
+-
L
K
SW1 2A
Indirect connection
Electrical Installation
LINE 1 (A) LINE 2 (B) LINE 3 (C)
SW1 2A
Direct connection
LINE 1 (A) LINE 2 (B) LINE 3 (C)
LOAD
Figure 2-12 3-Wire 2-Element Delta Direct Connection Using 2 CTs (Wiring Mode = 3dir2)
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Chapter 2 Installation
EM-133 Model
LOAD
SW2
SHORTING SWITCHES
+ +-
LK
LK –
L
K
+-
+
+
+
+
+
+
SW1 2A
Electrical Installation
LINE 1 (A) LINE 2 (B) LINE 3 (C) N
Figure 2-13 4-Wire Wye 3-Element Direct Connection Using 3 CTs (Wiring Mode = 4LL3 or 4Ln3)
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Chapter 2 Installation
LOAD
SW2
SHORTING SWITCHES
+ +-
LK
LK –
L
K
+-
+
+
+
+
+
+
SW1 2A
Electrical Installation
LINE 1 (A) LINE 2 (B) LINE 3 (C) N
Figure 2-14 4-Wire Wye 3-Element Connection Using 3 PTs, 3 CTs (Wiring Mode = 4LL3 or 4Ln3)
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Chapter 2 Installation LOAD
LK
L
K
++-
Electrical Installation
LINE 1 (A) LINE 2 (B) LINE 3 (C)
SW2
SHORTING SWITCHES
+
+
+
+
SW1 2A
Figure 2-15a 3-Wire 2-Element Open Delta Connection Using 2 PTs, 2 CTs (Wiring Mode = 3OP2)
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Chapter 2 Installation
Electrical Installation
LOAD
SW2
SHORTING SWITCHES
LK
++-
L
K
+
+
+
+
+
+
SW1 2A
LINE 1 (A) LINE 2 (B) LINE 3 (C)
V1
V2
V3
NO CM VN
1
2
I1
3
4
I2
5
6
I3
7N
8
RX TX COM1
SCROLL
SELECT ENTER
L1 L2 L3 Wh
2500 Imp/kWh S/N 12345678 Group III IEC 62053-22 Class 0.5S 3 x 57-400 V 50/60 Hz 3N 3E
SATEC Nominal Current Input:In(Imax=2 xIn)
50A 5A 1A 20mA EM133 PS:40-318V ,3VA max
9
I1 10 11
I2
12
13
I3 14 15
N
16
L/(+)
N/(-) CM/ SH.
ST1 ST2
X(+) X(-) RS-485 COM1
Figure 2-15b 3-Wire 2-Element Open Delta Connection Using 3 PTs, 2 CTs (Wiring Mode = 3OP2)
LK
LINE 1 (A)
+ +-
LOAD
LK –
L
K
+-
LINE 2 (B) LINE 3 (C)
SW2
SHORTING SWITCHES
+
+
+
+
SW1 2A
This configuration provides accurate power measurements only if the voltages are balanced. Figure 2-16 4-Wire Wye 2½-Element Connection Using 2 PTs, 3 CTs (Wiring Mode = 3LL3 or 3Ln3)
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Chapter 2 Installation
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Figure 2-17 3-Wire 2½-Element Open Delta Connection Using 2 PTs, 3 CTs (Wiring Mode = 3OP3)
LOAD
SW2 SHORTING SWITCHES
+-
LK
LK –
L
K
+ +-
SW1 2A
POWER TRANSFORMER
DELTA CONNECTION
L1*
L2*
240VAC
240VAC 120VAC
L3*208VAC 240VAC
N*
120VAC
L2 (B)*
LINE 1 (A) LINE 2 (B) LINE 3 (C) N
208V
120V 120V
L1 (A)*
N*
L3 (C)*
VOLTAGES DISPLAYED:
1. Line to neutral voltages: 120V; 208V; 120V. 2. Line to line voltages: 240V; 240V; 240V.
Figure 2-18 4-Wire 3-Element Delta Direct Connection Using 3 CTs (Wiring Mode = 4LL3 or 4Ln3)
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Chapter 2 Installation
LOAD
SW2
SHORTING SWITCHES
+ +-
LK
LK –
L
K
+-
+
+
Electrical Installation
+
+
SW1 2A
LINE 1 (A)
LINE 2 (B)
LINE 3 (C) N
V1
V2
V3
NO CM VN
L/(+)
N/(-) CM/ SH.
ST1 ST2
X(+) X(-) RS-485 COM1
Figure 2-19 3-Wire 2½-Element Broken Delta Connection Using 2 PTs, 3 CTs (Wiring Mode = 3bLn3 or 3bLL3)
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Chapter 2 Installation
Battery Replacement
2.5 Battery Replacement
WARNING!
Only qualified personnel familiar with the instrument and its associated electrical equipment must perform the RTC battery backup replacement.
The battery replacement must be performed while equipment power supply is “ON”
To replace the CR2032 RTC battery: 1) Remove the EM13X Series cover
2) Remove the old battery by lifting up the battery holder retractable tab. 3) Place the new CR2032 battery into the battery holder while holding up
the battery holder retractable tab in such a way that the (+) battery pole is toward the battery holder, as shown in Figure 2-7.
Figure 2-7 EM13X Series Battery Replacement
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Chapter 2 Installation
I/O Connections
2.6
I/O Connections
Before I/O Module installation ensure that all incoming power sources are shut OFF. Failure to observe this practice can result in serious or even fatal injury and damage to equipment.
For I/O ratings, see Technical Specifications in Appendix A.
2.6.1 2DI/1RO Standard
Relay Output
The EM13X Series basic provides one dry contact relay (SSR FORM A) for energy pulsing, alarms or remote control.
Figure 2-8 EM13X Series Relay output connection
Digital Inputs
Two optically isolated status inputs are provided for status monitoring, pulse counting, external power demand period, and time synchronization.
Figure 2-9 EM13X Series Digital Input connections
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Chapter 2 Installation
I/O Connections
2.6.2 4DI/2RO Module
Before I/O Module installation ensure that all incoming power sources are shut OFF. Failure to observe this practice can result in serious or even fatal injury and damage to equipment.
SATEC
EM133
RX TX COM1
COM3
L1 L2 L3 Wh
Figure 2-10 4DI/2RO Module Assembly
Relay Outputs
There are two relay outputs provided for energy pulsing, alarms, or remote control
RELAY OUTPUT (DO) TERMINALS
+
120-230VAC or 125VDC
–
10A FUSE
MODULE 4 ANAL OG OUT.
0-1mA
+/-1mA
0-20mA
4-20mA
OTHER
MOD.4 DI/2DO .DOR DOS
MODULE E THERNET
OTHER
S/N
Out1
1
2
Out2 3
LOAD
LOAD
4
K1
K2
4DI/2DO
2 RELAY OUTPUTS
(DIGITAL OUTPUT)
Figure 2-11 Relay Output Connection
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Chapter 2 Installation
I/O Connections
Digital Inputs
Four optically isolated status inputs are provided for status monitoring, pulse counting, external power demand period, and time synchronization.
MODULE 4 ANAL OG OUT.
0-1mA
+/-1mA
0-20mA
4-20mA
OTHER
MOD.4 DI/2DO .DOR DOS
MODULE E THERNET
OTHER
S/N
STATUS INPUT (DI) TERMINALS
Input1 Input2 Input3 Input4
4DI/2DO 4 STATUS INPUTS
DIGITAL INPUT 24V +-
1
2
3
4
Common
Figure 2-12 4 DI/2DO – Digital Input Connection
2.6.3 8 DI module
Eight optically isolated status inputs are provided for status monitoring, pulse counting, external power demand period, and time synchronization.
Figure 2-13 8 DI – Digital Input Connection
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Chapter 2 Installation
I/O Connections
2.6.4 12DI/4RO Module
The 12DI/4RO module can be equipped with optional communication port COM2 ETHERNET or RS422/485.
Figure 2-14 12DI/4RO Module
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Chapter 2 Installation
I/O Connections
Relay Outputs
There are four electro-mechanic relay outputs provided for energy pulsing, alarms, or remote control.
RELAY OUTOUTS TERMINALS
120-230VAC or 125VDC
+
10A FUSE
Out1
1
2
K1
Out2
3
4
Out3
5
6
K2
K3
12DI/4RO
4 RELAY OUTPUTS
Out4
7
8
K4
LOAD LOAD LOAD LOAD
Figure 2-15 Relay Output Connection
Digital Inputs
12 optically isolated status inputs are provided for status monitoring, pulse counting, external power demand period, and time synchronization.
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Chapter 2 Installation
I/O Connections
DIGITAL INPUTS TERMINALS
+24V
12DI/4RO 12 STATUS INPUTS – DIGITAL INPUTS
CM 4
32
1 CM 4
3
2
1 CM
4
32
1
220v
Figure 2-16 12 Digital Input Connection
Input1 Input2 Input3 Input4
Input5 Input6 Input7 Input8
Input9 Input10 Input11 Input12
+
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Chapter 2 Installation
I/O Connections
2.6.5 4AO Module – Analog Outputs
The 4AO module has four optically isolated analog outputs with an internal power supply and current output options of 0-20 mA and 4-20 mA (current loop load of up to 500 Ohm), 0-1 mA and ±1 mA (2mA 100% overload, current loop load of up to 5 kOhm).
1
23
45
67
8
V1
I1
V2
I2
V3
NO COM
VN
I3
I1
I2
I3 RS-485 COM1
L/+
N/- CM/SH.
ST1 ST2
X+ X-
9
10 11
12 13
14 15
16
Figure 2-17 4AO Module Assembly
MODULE 4 ANAL OG OUT.
0-1mA
+/-1mA
0-20mA
4-20mA
OTHER
MOD.4 DI/2DO .DOR DOS
MODULE E THERNET
OTHER
S/N
4AO 4 ANALOG OUTPUTS
1
23
4
Common
Output1 Output2 Output3 Output4
ANALOG OUTPUT (AO) TERMINALS
LOAD LOAD LOAD LOAD
Figure 2-18 Analog Output Connection It is recommended to connect unused Analog output channels to Common terminal.
· The 4AO module TERMINAL is for use only with equipment which has no live parts which are ACCESSIBLE
· The RATING of the insulation of the external equipment for use with the 4AO module, shall comply according to Installation Category III for insulation to be suitable for SINGLE FAULT CONDITION
· The external equipment TERMINAL connection type is normally terminal block for wire size 14 AWG (up to 1.5 mm2)
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Chapter 2 Installation
Communications Connections
· The type of equipment that might be connected to the TERMINAL is:
– Programmable Logic Controller for automation PLC – Digital or Analog meter
2.6.6 2G/3G+2 AI Module 2 x Analog Inputs
The 2G/3G+2AI module has two optically isolated analog inputs with an internal power supply and current input measurement of 4-20 mA (current loop load of up to 500 Ohm), that could be interfaced to a 4-20mA Temperature sensor.
2.7
Communications Connections
Before installing the Communication Module installation ensure that all incoming power sources are shut OFF. Failure to observe this practice can result in serious or even fatal injury and damage to equipment.
Several communication options are available for the EM13X Series:
· COM1 (standard): RS-485
· COM2 (optional module):
– Ethernet 10/100BaseT – PROFIBUS DP – CANopen
– RS-232 or RS-422/485 – 2G/3G/4G – 2G/3G+2AI – RF
· COM3 (standard): IR
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A full description of the communication protocols is found in the EM13X Series protocol guides that come with your meter.
2.7.1 RS-485 Connection
EM133 COM1 RS-485
#1
14 X+ 15 X11 SH
Shield
#2
14 X+ 15 X11 SH
· · · · ·
#31
RS-485 COM1
Shield R1
PC or ETC serial COM port RS-485 (MASTER)
R1, R2 = 120 – 500, ½ W
14 X+
15 X-
11 SH
R2
Figure 2-19 COM1 RS-485 2-Wire Connection Communication cable Specification: Shielded, #22AWG.
Note: pay attention to GND connection (SH->GND).
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2.7.2 ETH module COM2 Ethernet Connection
The EM13x ETHERNET module can be used in three different modules form factors:
– Regular ETHERNET Module that can be used in PM13x & EM13x – DIN Rail ETHERNET module that can only be used in EM13x.
– Combined with 12DI/4DO module that can be used in PM13x & EM13x
SATEC
EM133
RX TX COM1
COM3
L1 L2 L3 Wh
Figure 2-20a Regular Ethernet module
Figure 2-21b DIN Rail Ethernet module
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Figure 2-22c 12DI/4DO Combined Ethernet module
Figure 2-23 COM2 Ethernet Connection · The ETH module TERMINAL is for use only with equipment which has no live parts which are
ACCESSIBLE
· The RATING of the insulation of the external equipment for use with the ETH module, shall comply according to Installation Category III for insulation to be suitable for SINGLE FAULT CONDITION
· The external equipment TERMINAL connection type is RJ-45
· The type of equipment that might be connected to the TERMINAL is:
– Personal Computer PC or LAPTOP – 10/100Base-T LAN HUB and/or Switch
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2.7.3 PRO module COM2 PROFIBUS Connection
V1
I1
2 V2
I2 4
V3 I3
6
7
VN
N
SATEC
EM133
COM3
L1 L2 L3 Wh
RX TX COM1
I1
I2
I3 N RS-485
L/+
N/- 11
12 13
X+ X-
16
Wire Color TB Pin Number
Signal
RED BLACK GREEN WHITE SHIELD
1
5 V BUS
2
A-Line (-) RS- RxD TxD
3
B-Line (+) RS- RxD TxD
4
RTS Request To Send
5
GND BUS
5p screw terminal plug
MODULE 4 ANAL OG OUT.
0-1mA
+/-1mA
0-20mA
4-20mA
OTHER
MOD.4 DI/2DO .DOR DOS
MODULE E THERNET
OTHER MOD. PROFIBUS
S/N
PROFIBUS TERMINALS
1 2 3 4 5
5p Terminal Block Plug in connector
DB9 Connector
DB9 connector
Pin
Signal
1
N C
2
N C
3
B-Line Positive RS 485RxD TxD
4
RTS Request To Send
5
GND BUS
6
5 V BUS
7
N C
8
A-Line Negative RS 485RxD TxD
9
N C
Figure 2-24 COM2 PROFIBUS Connection · The PRO module TERMINAL is for use only with equipment which has no live parts which are
ACCESSIBLE
· The RATING of the insulation of the external equipment for use with the PRO module, shall comply according to Installation Category III for insulation to be suitable for SINGLE FAULT CONDITION
· The external equipment TERMINAL connection type is DB9
· The type of equipment that might be connected to the TERMINAL is:
– Programmable Logic Controller for automation PLC
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2.7.4 CANopen module COM2 CANopen Connection
V1
I1
2
V2
I2
4
V3 I3
6
7
VN
N
SATEC
EM133
COM3
L1 L2 L3 Wh
RX TX COM1
I1
I2
N I3 RS485-
L
N- 11
12 13
X X-
16
MODULE 4 ANALO G OUT
– mA
1-
mA
– mA
–
mA
OTHER
MOD4 DI2 DO DOR DOS
MODULE ETHERNE T
OTHER MOD PROFIBUS
S/N
CANopen TERMINALS
54321
1 2 3 4 5
5p screw terminal plug
1 6 2 7 3 8 4 9 5
DB9 connector
2.7.5 RS-232/422-485 module COM2 Connection
Figure 2-25 COM2 RS-232 connection
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EM133 RS-422 plug
1 2 3 4 5
1 2 3 4 5
1 2 3 4 5
PM130 PLUS RS-485 EM133pRluSg-422 plug
1 2 3 4 5
1 2 3 4 5
1 2 3 4 5
Figure 2-26 COM2 RS-422/485 connection · The RS-232/422-485 module TERMINALS are for use only with equipment which has no live
parts which are ACCESSIBLE
· The RATING of the insulation of the external equipment for use with The RS-232/422-485 module, shall comply according to Installation Category III for insulation to be suitable for SINGLE FAULT CONDITION
· The external equipment TERMINAL connection type is normally terminal block for wire size 14 AWG (up to 1.5 mm²) RS-422/485 port and DB9 male-to-female cable more than 22 AWG (0.3mm²)
· The type of equipment that might be connected to the TERMINAL is:
– Personal Computer PC or LAPTOP
2.7.6 Connecting a Cellular module
The EM13x series can be equipped with 2G/3G/4G module for remote communication using public cellular network to a remote MODBUS/TCP server.
It consists of three types of Cellular module:
1) 2G/3G module, mainly for GSM network (Regular or DIN rail form factor) 2) 2G/3G+2AI module, including 2 x Analog Inputs 4-20mA (DIN Rail form
factor) 3) 4G LTE module for following service providers (Regular or DIN rail form
factor): – Verizon (US), using Module 4G Verizon LE910-SV V2
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– AT&T (US), using Module 4G AT&T LE910-NA V2 – Telstra (AU), using Module 4G Telstra LE910-AU V2 – Europe (EU), using Module 4G Europe LE910-EU V2
The EM13x Cellular module can be used in two different form factors:
– Regular Cellular Module that can be used in PM13x & EM13x – DIN Rail Cellular module that can only be used in EM13x.
V1
I1
2 V2
I2 4
V3 I3
6
7
VN
N
SATEC
EM133
COM3
L1 L2 L3 Wh
RX TX COM1
I1
I2
I3 N RS-485
L/+
N/- 11
12 13
X+ X-
16
Figure 2-27a COM2 2G/3G/4G Regular module Connection
Figure 2-28b COM2 2G/3G+2AI DIN Rail module Connection
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Figure 2-29b COM2 2G/3G/4G DIN Rail module Connection · The Cellular SIM must not have any incoming voice call. The customer must require from the
Service Provider for DATA services only
· The Cellular module can be equipped with two different antennas: internal Antenna for installation into plastic closet or no-metallic environment. For metallic installation use external antenna
See Setting up GPRS Network in Chapter 5 for information on configuring Cellular communications in your meter.
2.7.7 Connecting an RF module
V1
I1
2 V2
I2 4
V3 I3
6
7
VN
N
SATEC
EM133
COM3
L1 L2 L3 Wh
RX TX COM1
I1 I2 I3 N RS-485
L/+
N/- 11
12 13
COM1
X+ X-
16
RF Antenna SMA Connector
· The RF modem module can be equipped with two different antennas: internal Antenna for installation into plastic closet or no-metallic environment. For metallic installation use external antenna
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2.7.8 Connecting a WiFi module
A WiFi module can be connected to the meter COM2 port to provide communications with the remote MODBUS/TCP server via a WiFi
See Setting Up WiFi Network in Chapter 5 for information on configuring WiFi communications in your meter.
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Chapter 3 Using Front Display
This chapter provides EM13X Series SMART MULTIFUNCTION METER front panel information and operating procedures.
Figure 3-1: EM13X Series Unit
3.1.1 Energy Pulse LED
The EM13X Series has a red “Energy Pulse” LED. It flashes at a constant rate when a load is applied to the meter.
There are two modes of LED operation:
· NORMAL mode: the LED pulses indicate imported Wh at a rate of 1,000 pulses per kWh
· TEST mode: the LED pulses indicate either imported Wh, or imported (inductive) varh at a rate of 10,000 pulses per kWh/kvarh
The energy test mode can be enabled through the Device Options setup. When in test mode, the energy and demand accumulators do not account for consumed energy.
3.1.2 COMPort Activity LEDs
The meter has two yellow LEDs “RX” and “TX”, which indicate activity on the COM1 communication port. The LEDs flash when the port is receiving or transmitting data.
3.1.3 VOLTAGES LEDs
The meter has three green LEDs “L1, “L2” and “L3”, which indicate voltage measurement input presence. When LEDs are “ON”, that means that the voltage measurement inputs exist in the meter
3.1.4 Navigation Buttons
The EM13X Series is provided with two push buttons that are normally used to navigate between different measurement displays.
The “UP” and “DOWN” function of buttons changes depending on what operating mode the display is in. In programming mode, the buttons access the device setup menus where the default factory-set device settings can be changed.
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Display Operations
3.2 Display Operations
The EM13X Series has a high-contrast graphical LCD display with backlight for local data read outs, meter setup and servicing.
The display operates in two modes:
· Multi-page data display mode with Auto-Scroll feature allows you to scroll through display screens and pages to view various billing, instrumentation and status data.
· Programming mode allows you to enter menu-driven device setups for inspecting and changing factory set meter parameters, or resetting maximum demands, counters and device diagnostics messages. The display is normally updated once per second except of the clock display where the update rate changes to twice per second.
3.2.1 Navigation Buttons
The EM13X Series is provided with two navigation buttons,
SELECT/ENTER button and
SCROLL button.
You can perform three types of actions with each button:
· Short press, or “press and release”
· Long press, or “press and hold for 1 to 2 seconds”
· Extended press, or “press and hold for 5 seconds or longer ”
The function of each button changes depending on what operating mode the display is in.
The SCROLL button operates once it is briefly pressed. It has two functions:
· In data display mode, it scrolls through the display pages.
· In programming mode, it scrolls through the menu items and allows changing a selected digit when entering numbers.
The SELECT/ENTER button normally operates once it’s released. The button function changes depending on the time the button is pressed:
· In data display mode, when pressed briefly and released, it scrolls through the display views; a long press for more than 5 seconds switches to programming mode.
· In programming mode, when pressed briefly and released, it moves from one menu item to another; a long press for one second selects a highlighted menu item allowing to enter a submenu or to store a changed item.
In data display mode, when the SCROLL and SELECT/ENTER buttons are briefly pressed together and then released, the current display returns to the start page; in some pages, an extended press for more than 5 seconds is used as a “shortcut” for immediate entering a specific programming menu.
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3.2.2 Navigating in Data Display Mode
The following table gives a summary of the button operations in data display mode.
Button SCROLL SELECT/ENTER SELECT/ENTER SELECT/ENTER
Short press Short press Long press Extended press
Press
Operations Scroll through pages Scroll through displays Enter programmed parameter Enter programming mode
The EM13X Series provides 7 different multi-page data displays. See Data Displays for the full displays list and enumeration.
3.2.3 Display Features
The EM13X Series display has a number of programmable features that can be disabled, enabled and adjusted via the meter Display Setup (see Display Setup in Chapter 5).
Backlight
A short press on any button while the display backlight is off switches the backlight on.
The backlight stays on as long as you selected in the display setup and then dims to conserve power. The backlight time is factory set to 1 minute and can be programmed from 1 to 10 minutes. You can temporarily set the backlight to continuous operation if you need to work in dark for more time.
Auto-Return
If the Auto-Return feature is enabled and no button is pressed for the programmable Auto-Return interval (1 to 30 minutes for data displays; fixed at 5 minutes for setup menus), the display automatically returns to the default page from any other data display or a setup menu.
If the Auto-Scroll feature is enabled, the display immediately enters the auto scroll sequence.
Auto-Scroll
If the Auto-Scroll feature is enabled, the data display automatically scrolls through all pages of all data displays that are included into the programmable auto-scroll sequence. The scroll interval is adjustable in the range of 2 to 30 seconds. The scroll sequence may include all or only selected displays.
The display automatically enters auto scrolling if no button is pressed for the Auto-Return interval when the Auto-Return feature is enabled or in 1 minute if this feature is disabled. In the last case, the scroll sequence is restored from the point where it was interrupted.
To stop auto scrolling, press briefly any button if the backlight is on; else press briefly any button twice since the first press only sets the backlight on and does not affect auto scrolling.
Auto-Scroll is not operational in TEST mode.
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3.2.4 Measurement Units
The following table shows the display resolution for common displayed quantities. All measured data is displayed in primary units.
Measured Quantity Energy
Voltage Connection
Power
Direct (PT = 1.0) Transformer (PT>1.0)
Units and Display Resolution kWh, kvarh, kVAh with one decimal place. The number of digits is programmable (see Device Options and Mode control in Chapter 5).
kW, kvar, kVA with three decimal places
MW, Mvar, MVA with three decimal places
Voltage Current
Direct (PT = 1.0) Transformer (PT>1.0)
Volts with one decimal place Kilovolts with three decimal places Amperes with two decimal places
3.3 Data Displays
The EM13X Series has 7 multi-page data displays listed in the following table.
Display Sequence 1 2 3 4 5 6
7
Display type Billing/TOU reg. TOU/Max. DEMAND
Energy MAX. DEMAND Measurement Phase Rotation
Diagnostics
Display Contents Energy billing period data Max. DMD Power billing period data Total and Phase Energy data Engineering maximum demands Instrumentation data Phase, I/O and Counter data Device diagnostics messages and Device service data
3.3.1 TEST Mode Data Display
The TEST data display is shown in TEST mode in place of the billing period data displays, “NORM” is replaced by “TEST”. See Device Options and Mode control in Chapter 5 on how to enter the meter TEST mode.
DISPLAY
Description
11:13:11 TEST 20/09/2011 T1 –
TEST mode display: test LED pulse rate in secondary Wh/imp, test kWh and kvarh energy registers readings in primary units with an extended 0.001 kWh resolution.
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3.3.2 Billing Period Energy Data Displays
The EM13X Series provides billing period data displays for energy and general purpose volume data as m³, cf or Ccf calculated using Digital Input for water and/or gas meter application.
Only registers you selected in the billing/TOU register setup and tariff rates listed in the TOU daily profiles are included (see Configuring Billing/Tariff Registers and
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Configuring the Daily Tariff Schedule in Chapter 5).
The following example demonstrates the present billing period displays for two configured billing registers (kWh imported and kvarh imported) and for three active tariff rates. The actual register contents in your installation may be different depending on your selection of register sources.
DISPLAY
Description
Reg 1 Imp 725 kWh
Total Import Active energy data.
Billing period according to TOU predefined profile (Reg1 for TOU active energy and Reg2 for TOU reactive energy are predefined TOU/Register factory setup, can be changed by user, see Configuring Billing/Tariff Registers and
Schedule Configuring the Daily Tariff
in Chapter 5)
Reg 1/T1 Imp 517 kWh
Tariff 1 Import Active energy data.
Reg 1/T2 Imp 114 kWh
Tariff 2 Import Active energy data.
Reg 1/T3 Imp 94 kWh
Tariff 3 Import Active energy data.
Reg 2 Imp 221 kvarh
Total Import Reactive energy data.
Reg 2/T1 Imp 165 kvarh
Tariff 1 Import Reactive energy data.
Reg 2/T2 Imp 35 kvarh
Tariff 2 Import Reactive energy data.
Reg 2/T3 Imp 21 kvarh
Tariff 3 Import Reactive energy data.
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Single Phase billing data5 Total Import Phase 1 active energy data Tariff 1 Import Phase 1 active energy data. Tariff 2 Import Phase 1 active energy data. Tariff 3 Import Phase 1 active energy data. Total Import Phase 2 active energy data Tariff 1 Import Phase 2 active energy data. Tariff 2 Import Phase 2 active energy data. Tariff 3 Import Phase 2 active energy data. Total Import Phase 3 active energy data Tariff 1 Import Phase 3 active energy data. Tariff 2 Import Phase 3 active energy data. Tariff 3 Import Phase 3 active energy data.
Data Displays
5 Only from S/W V12.2.1
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3.3.3 TOU/Maximum Demand Power Data Display
The following example demonstrates the TOU/Maximum Demand displays for three configured registers (MAX kW imported, MAX kvar imported and MAX kVA imported) and for three active tariff rates. The actual register contents in your installation may be different depending on your selection of register sources.
DISPLAY
Description
Reg 1 Imp MAX 0.008 kW
Total Import Max. DMD active power data
(Reg1 for TOU/Max. DMD actve power, Reg2 for TOU/Max. DMD reactve power predefined TOU/Register factory setup, can be changed by user, see Configuring Billing/Tariff Registers and
Schedule Configuring the Daily Tariff
in Chapter 5)
Reg 1/T1 Imp MAX 0.008 kW
Tariff 1 Import max. active power dmd data.
Reg 1/T2 Imp MAX 0.008 kW
Tariff 2 Import max. active power dmd data
Reg 1/T3 Imp MAX 0.002 kW
Tariff 3 Import max. active power dmd data
Reg 2 Imp MAX 0.003 kvar
Total Import Max. DMD reactive power data
Reg 2/T1 Imp MAX 0.003 kvar
Tariff 1 Import max. reactive power dmd data.
Reg 2/T2 Imp MAX 0.003 kvar
Tariff 2 Import max. reactive power dmd data.
Reg 2/T3 Imp MAX 0.001 kvar
Tariff 3 Import max. reactive power dmd data.
Reg 3 Imp MAX 0 kVA
Total Import Max. DMD apparent power data
Reg 3/T1 Imp MAX 0 kVA
Tariff 1 Import max. apparent power dmd data.
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DISPLAY
Description
Reg 3/T2 Imp MAX 0 kVA
Tariff 2 Import max. apparent power dmd data.
Reg 3/T3 Imp MAX 0 kVA
Tariff 3 Import max. apparent power dmd data.
3.3.4 Instrumentation Measurement Maximum Demand Data Display
Maximum demand displays show engineering maximum demands (not billing maximum demands) for import/export powers, voltages, and currents.
DISPLAY
Description
MAX. DMD P Imp 0.008 kW
Total Import Max. DMD active power data
MAX. DMD
P Exp
0 kW
Total Export Max. DMD active power data
MAX. DMD Q Imp 0.003 kvar
Total Import Max. DMD reactive power data
MAX. DMD
Q Exp
0 kvar
Total Export Max. DMD reactive power data
MAX. DMD
S
0.008 kVA
Total Import Max. DMD apparent power data
MAX. DMD
I1
0 A
Max. DMD Phase 1 current data
MAX. DMD
I2
0 A
Max. DMD Phase 2 current data
MAX. DMD
I3
0 A
Max. DMD Phase 3 current data
MAX. DMD
In
0 A
Max. DMD neutral current data
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MAX. DMD
V1
0 V
Max. DMD Phase 1 voltage data
MAX. DMD
V2
0 V
Max. DMD Phase 2 voltage data
MAX. DMD
V3
0 V
Max. DMD Phase 3 voltage data
3.3.5 Instrumentation Measurement
Instrumentation Measurements represent general instrumentation data you can use while installation and inspecting the meter. Use phase angles displays to check the order of phases when connecting wires to the meter terminals.
DISPLAY
Description
V1
0 V
V1 and V2 Phase-to-neutral voltages. Only displayed in 4-wire
V2
0 V
configurations with a neutral.
V3
0 V
V2 Phase-to-neutral voltage
V12 V23
V31
0 V 0 V
0 V
Phase-to-Phase voltages. Phase-to-Phase voltages.
I1
0 A
I2
0 A
Phase currents.
I3
0 A
In
0 A
Phase currents, neutral current is calculated.
P
0 kW
Q
0 kvar Total powers.
S
0 kVA
PF
0
Total apparent power and total power factor
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DISPLAY
L1 P
0 kW
L1 Q
0 kvar
Description Phase 1 active and reactive power
L1 S L1 PF
0 kVA 0
Phase 1 apparent power and power factor
L2 P L2 Q
0 kW 0 kvar
Phase 2 active and reactive power
L2 S L2 PF
0 kVA 0
Phase 2 apparent power and power factor
L3 P L3 Q
0 kW 0 kvar
Phase 3 active and reactive power
L3 S L3 PF
0 kVA 0
Phase 3 apparent power and power factor
H1 P H1 Q
0 kW 0 kvar
First Harmonic Total powers.
H1 S H1 PF
0 kVA 0
First Harmonic Total apparent power and total power factor
H1/L1 H1/L1
0 kW 0 kvar
First Harmonic Phase 1 active and reactive power
H1/L1 H1/L1
0 kVA 0 PF
First Harmonic Phase 1 apparent power and power factor
H1/L2 H1/L2
0 kW 0 kvar
First Harmonic Phase 2 active and reactive power
H1/L2 H1/L2
0 kVA 0 PF
First Harmonic Phase 2 apparent power and power factor
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DISPLAY
Description
H1/L3 H1/L3
0 kW 0 kvar
First Harmonic Phase 3 active and reactive power
H1/L3 H1/L3
0 kVA 0 PF
First Harmonic Phase 3 apparent power and power factor
V1 THD I1 THD
0 % 0 %
Phase 1 voltage and current THD
V2 THD I2 THD
0 % 0 %
Phase 2 voltage and current THD
V3 THD I3 THD
0 % 0 %
Phase 3 voltage and current THD
I1 TDD I2 TDD
0 % 0 %
Total Demand current Distortion
I3 TDD 0 %
Total Demand current Distortion
V Unb I Unb
Freq
0 % 0 %
0 Hz
Voltage and Current unbalance Frequency
V1 Ang
0°
I1 Ang
0°
Voltage and Current Phase 1 angles (relative to V1 voltage)
V2 Ang
0°
I2 Ang
0°
Voltage and Current Phase 2 angles (relative to V1 voltage)
V3 Ang
0°
I3 Ang
0°
Voltage and Current Phase 3 angles (relative to V1 voltage)
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3.3.6 Status Inputs and Outputs
DISPLAY
Description
Phase Rotation: Error
Phase rotation order (Error, Positive, Negative)
DI:
123456
000000 Digital Inputs status
Relays:
123 000
Relays control status
Counter 1:
0
Status/Event Counter 1
Counter 2:
0
Status/Event Counter 2
Counter 3:
0
Status/Event Counter 3
Counter 4:
0
Status/Event Counter 4
Data Displays
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3.3.7 Device Info Display
The device info display provides different service information that may be required for meter identification and inspection, like product and firmware information, communication settings, and so on, and shows device diagnostic messages recorded as a result of the meter self-test diagnostics during start-up and operation.
If there are diagnostic messages, Some of the diagnostics events are cleared automatically as the event source disappears. See Device Diagnostic Codes in Appendix H for a full list of diagnostic messages and their meanings. See Viewing and Clearing Device Diagnostics for information on how to clear the device diagnostics from the display and via PAS.
The diagnostic icon can be disabled or enabled via the Display Setup menu.
DISPLAY
Description
Diagnostics: 8
Power Down message
S/N: 12345744 S/W: V12.1.1
Meter identification info, serial number and device SW version
Boot: V1.1.1 Modem: N/A
Boot SW version and Modem setup
COM1: a221,b115.2 Modbus RTU
Communication port COM1 info
COM2: RF, a221 Modbus RTU
Communication port COM2 info
COM3: a1,b19.2 Modbus RTU
Communication port COM3 info
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Programming Mode
3.4
Programming Mode
To enter programming mode from the data display, press and hold the SELECT/ENTER button for more than 5 seconds.
3.4.1 Navigation Buttons
The following table gives a summary of the button operations in programming mode.
Button
Press
Operations
SCROLL
Short press
Scroll through a menu item list in a highlighted window or increment a highlighted digit in a numeric field
Short press (less than 1
SELECT/ENTER
Highlight a menu window or a digit in a numeric field
second) = SELECT
Long press (1 to 2 Store the changed item or perform an action indicated in a highlighted
SELECT/ENTER
seconds) = ENTER
window
3.4.2 Entering Numeric Values
Basic
PT Ratio Whenever a numeric value is to be changed, use a short press on the SELECT/ENTER button to highlight
100.0 a desired digit, and then use the SCROLL button to change the value of the highlighted digit. A highlighted
SHORT PRESS digit appears in inversed color. If you missed a digit, just continue moving through the rest of digits until
Basic
PT Ratio you reach the desired place.
100.0 Once the number is set to the desired value, press and hold the SELECT/ENTER button for 1-2 seconds
to save your new setting.
Basic
PT Ratio 150.0
To reject your changes and restore the previous value, use a short press on the SELECT/ENTER button
to return to the higher-level window.
LONG PRESS
3.4.3 Password Security
Enter Password 00000000
The setup menus are secured by 8-digit user passwords. Every time you enter programming mode, you are prompted for a correct password. The meter is primarily shipped with all passwords preset to 9 at the factory.
SHORT PRESS It is recommended that you change the factory set passwords as fast as possible to protect your setups
Enter Password 00000009
and accumulated data from unauthorized changes. See Configuring Meter Security in Chapter 5 on how to change passwords in your meter.
LONG PRESS
Enter the password as you enter numeric values. As you move to the next place, the digit entered is saved
and then zeroed. If you missed a digit, you should re-type all preceding digits before you reach the missed
place again.
Once the password is set to the desired value, press and hold the SELECT/ENTER button for more than 1 second. If the password you entered is correct, you move to the main device menu, otherwise you return back to the data display.
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Programming Mode
3.4.4 Setup Menus and Access Rights
The EM13X Series setup is menu-driven. The meter provides 11 menus that allow local accessing a limited number of meter setups and control functions listed in the following table. Access to particular menus is granted depending on the security level of the password you entered.
Menu Label
Reset
RTC Basic Options COM1 COM2 COM3 Local Disp Access Loader
Menu Function
Security Level
View
Change
Reset of billing and engineering maximum demands, device Low
diagnostics, meter and failure counters
See Table below
RTC clock setup
Low
Low
Basic device setup
Low
High
Device options setup
Low
High
COM1 serial port setup
Low
Medium
COM2 serial port setup
Low
Medium
COM3 serial port setup
Low
Medium
Local settings
Low
Medium
Display setup
Low
Low
Meter passwords setup
High
High
Launches flash download via a local serial port
Medium
Medium
Access to the RESET menu entries is allowed depending on your security level.
If your security level does not allow access to a menu, it will not be listed in the main menu list, and you will not be able to highlight menu items that you are not allowed to change, but you can still view their present settings.
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Programming Mode
3.4.5 Viewing and Changing Setup Options
Once you entered a correct password you are moved to the main meter menu.
Enter Password 00000000
SHORT PRESS
Enter Password 00000009
The main menu has two windows: the left window displays a submenu list, while the right window is an assisting Exit window that allows easy returning back to the data display. A currently active menu item is highlighted by flashing.
To select a desired menu entry from the menu list:
LONG PRESS If the left window is not highlighted yet, highlight it by briefly pressing the SELECT/ENTER button.
Reset
Exit
Use the SCROLL button to scroll through the menu list until the desired menu entry appears
SCROLL until Press the SELECT/ENTER button for more than 1 second to enter the selected submenu.
Disp menu
Disp
Exit
Once you entered a submenu, the left window is still showing the menu name, while the upper-right window
represent a submenu options list, and the lower-right window indicates the present option value.
LONG PRESS To select an option you want to view or change:
Disp Autoscroll 5
Use the SCROLL button to scroll through the option list until the desired option’s name appears in the window.
SHORT PRESS
To change the selected option’s value: Disp Autoscroll
5
Press the SELECT/ENTER button briefly to highlight the lower-right window.
SCROLL
If an option is represented by a list of values, use the SCROLL button to scroll through the list until a
Disp Autoscroll Disabled
desired value appears in the window. It an option is represented by a numeric value, use the SCROLL button to adjust each digit to the desired value, and use a short press on the SELECT/ENTER button to
LONG PRESS move through digits.
Disp Autoscroll Disabled
Once the desired value is selected, press the SELECT/ENTER button for more than 1 second to save your new setting. You return to the upper-right window and can continue scrolling through the rest of options or
LONG PRESS can return to the main menu
Disp
Exit
If you wish to leave the option value unchanged, use a short press on the SELECT/ENTER button to return
to the upper-right window.
SHORT PRESS To exit the submenu and return to the main menu:
Disp
Exit
· If the upper-right window is not highlighted yet, highlight it by briefly pressing the
LONG PRESS
10:57:00 NORM 22/09/2011 T1 –
SELECT/ENTER button. · Press the SELECT/ENTER button for more than 1 second. You will return to the main menu. To exit the main menu and return to the data display:
· Press briefly the SELECT/ENTER button to highlight the right-upper Exit window.
· Press the SELECT/ENTER button for more than 1 second. You will return back to the data display.
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Installing PAS
Chapter 4 Using PAS Software
The support PAS software is a configuration and data acquisition tool that allows you to configure all of the EM13X Series features, monitor your meters on-line, retrieve recorded files and view reports. PAS can communicate with your EM13X Series via a serial port and via the Ethernet.
This chapter gives information on how to install and run PAS on your computer, and how to prepare information for your meter using PAS.
4.1 Installing PAS
You need PAS V1.4 Build 5 or higher to take an advantage of the meter data logging options.
To install PAS on your PC:
Insert the installation CD supplied with your meter into CD drive.
Open My Computer on your Desktop.
PAS
Click on your CD drive icon, select the PAS directory, and then double click on Setup (shown as an
Application type file).
Follow InstallShield® Wizard instructions on the screen.
PAS is installed by default to the C:Pas folder.
When installation is complete, the PAS icon appears on your Desktop. Double click on the PAS icon to run PAS.
For general information on how to work with PAS, see the “PAS Getting Started” guide supplied on the installation CD.
4.2
Creating a New Site for your Meter
PAS keeps all communication and configuration data for your meter in a configuration database called a site database. During configuration, store all setup data to the site database so that PAS recognizes device properties regardless of whether the meter is online or offline.
To communicate with the meters, create a separate site database for each device.
To create a new database for your meter:
Select Configuration from the Tools menu.
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Creating a New Site for your Meter
Figure 4-1: Configuration Dialog Box Instrument Setup Tab Click the Sites button on the right-hand-side.
From the Look in box, select the directory where a new database will be stored. By default, it is the Sites directory.
Type a site name for your device in the File name box, click New, and then click OK.
On the Instrument Setup tab, select EM13X Series in the Model box. PAS automatically selects the appropriate instrument options for your meter.
Select a correct CT secondary current (5A or 1A) for your meter.
If you wish to add any comments for your meter, type the comments in the Comment box.
For more device configuration details using PASTM Software refer to PM130 PLUS Installation and Operation Manual BG0425 REV.12
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Chapter 5 Configuring the EM13X Series
This chapter describes how to configure the EM13X Series for your particular environment and application from the front display and via PAS. To access your meter configuration options via PAS, you should create a site database for your device as shown in Chapter 4.
5.1 Configuring Communications
5.1.1 Setting Up Serial Communication Ports
Using the Front Display
COM1 Protocol Modbus RTU
Select COM1 through COM3 from the main menu. See Viewing and Changing Setup Options in Chapter 3 for information on navigating in menus.
See the table below for available communication options.
Using PAS
Select Communications Setup from the Meter Setup menu, and then click on the Serial Ports Setup tab. In the Port box, select the desired device port.
Figure 5-1: Communication Setup Dialog Box Serial Ports Setup Tab To change the port settings in your device, select desired port parameters, and then click Send. The following table lists available port options.
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Display Label
Parameter
Table 4: COM Port Options
Options
Default
Description
Protocol
Communication protocol
MODBUS RTU, MODBUS MODBUS
ASCII, DNP3, SATEC
RTU (COM
ASCII, IEC 60870-5
1-3)
The communications protocol for the port
Interface
Port interface
RS485, RS232, IR, GPRS6, ETHERNET, PROFIBUS, CANopen
RS485 (COM1)
RS232 (COM2) IR (COM3)
Not changeable; automatically detected by the meter
Address
MODBUS: 1-247
Device address DNP3: 0-65532
1
IEC 60870-5: 1-4095
Device network address
Baud Rate
Baud rate
COM1: 300-115.2 kbps, COM2: 300-115.2 kbps 19.2 kbps COM3: 9600-38400 kbps
The port baud rate
Data/Parity
Data format and 7E, 8N, 8E
parity
7E data format should not be used with
8N
the MODBUS RTU and DNP3
protocols
Send Delay
Response delay 0-1000 ms
5 ms
The minimum time after the last request character is received to start the transmission.
Chr.Timeout
Character timeout
0-1000 ms
4 ms
The maximum time the line is allowed to idle before closing a connection in the MODBUS RTU and DNP3 protocols
The meter automatically detects replaceable communication modules and does not allow you to change the baud rate and data format for the Dial-up GSM/GPRS3 modem.
6 GPRS also covers 3G & 4G network
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5.1.2 Setting up the Ethernet
Using the Front Display
Net IP Address 192.168.000.203
Select Net from the main menu. See Viewing and Changing Setup Options in Chapter 3 for information on navigating in menus.
See the table below for available network options.
Using PAS
Select Communications Setup from the Meter Setup menu, and then click on the Network Setup tab.
Figure 5-2: Communication Setup Dialog Box Network Setup Tab
The following table lists available network options.
Table 5: Ethernet Setup Options
Display Label IP Address Subnet Mask Def. Gateway
TCPServicePort
Parameter Device IP Address Network Subnet Mask Network Default Gateway 502 = Modbus/TCP 20000 = DNP3/TCP
Default 192.168.0.203 255.255.255.0 192.168.0.1
502
NOTES
· The meter provides the permanent MODBUS TCP server on port 502.
· Selecting the DNP3 TCP service port launches the second DNP3 TCP server allowing simultaneous connections on both TCP ports. Selecting the Modbus TCP port disables the DNP3 TCP server.
The TCP service port can also be changed trough the COM2 serial port setup. Changing the communication protocol for the port automatically changes the TCP port for the Ethernet.
· When you change the device network settings through the Ethernet port, the device port restarts so communication will be temporarily lost. You may need to wait some additional time
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until PAS restores a connection with your device.Setting-Up Dial-Up GPRS Network
5.1.3 Setting up GPRS Network
Using the Front Display
The EM13X Series can provide wireless Cellular communications with the remote Modbus/TCP server via an external Enfora GSM1308 SA-G+ GSM/GPRS modem. See Connecting a Cellular module in Chapter 2 on how to connect a modem to your meter.
Using PAS
· Select Communications Setup from the Meter Setup menu, and then click on the GPRS Setup tab.
· Select Communications Setup from the Meter Setup menu, and then click on the GPRS Setup tab.
Figure 5-3: Communication Setup Dialog Box GPRS Setup Tab The following table lists available GPRS options.
Table 6: GPRS Setup Options
Parameter Access Point Name (APN) User name Password GPRS Mode
internet
Default
Client mode
Description The mobile network APN name Username (if required) Password (if required) Can also be configured as server
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· Configure your mobile network APN, username and password. Consult your network operator regarding proper network settings. Leave the username and password fields blank if network authorization is not required.
· Send your GPRS settings to the meter.
· Select the GPRS interface in the COM2 port setup (see Setting Up Serial Communication Ports).
· Configure your eXpertPower client (see Setting Up eXpertPower Client)or/and TCP Notification client (see Setting Up TCP Notification Client) for communicating with a remote server.
You can check the status of the GPRS communications from the front panel via the Status Display or via the Device Control dialog in PAS (see Viewing Communication Status and Statistics ).
5.1.4 Setting Up WiFi Network
WiFi communications is available in the meters equipped with a WiFi expansion module.
Make sure the power is off before attaching a WiFi expansion module to the meter to avoid damage to sensitive electronic components.
A WiFi module can be configured to work in one of the following modes:
a) as a regular WiFi station for connection of the meter to an existing WiFi network; b) as a WiFi access point/router to create a separate secured WiFi network without using an
additional external router. It also serves as a network gateway for the connected meter.
When access point mode is disabled (see instructions below), the module operates as a regular WiFi station.
Use the accompanying PAS software to configure WiFi communications in your meters.
Configuring WiFi Station Parameters
Skip this section if the WiFi module is to be configured as an access point/router since the network parameters for the meter will be automatically set up.
To connect your meter to the existing wireless network, select Communication Setup from the Meter Setup menu and click on the WiFi Station Setup tab.
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Configure the wireless network parameters as follows:
Network Name (SSID) the wireless network name you want to connect to. The default factory preset network name is DEVICE-NET.
Security/Encryption Type the WiFi security and data encryption method set for the wireless network in the network router.
Security Key the pass phrase to authenticate the meter with your wireless network.
If you connect the meter to a SATEC WiFi network, use same network authentication parameters as you configured for the network access point/router (see Section 3 below).
If you connect the meter to a foreign WiFi network, you can identify the wireless network parameters via the Windows Network and Sharing Center on your PC connected to the WiFi network:
On Windows 7 and 8.1, click the Start button, and then open the Control Panel. Select Network and Internet -> Network and Sharing Center.
On Windows 10, click the Start button, then select Settings -> Network & Internet -> Status -> Network and Sharing Center.
In Network and Sharing Center, next to Connections, select your WiFi network name. In Wi-Fi Status, select Wireless Properties, and then click on the Security tab to see the network security type and encryption method. Check the Show characters check box to see your WiFi network security key.
Configuring WiFi Access Point/Router Mode
To configure a WiFi module as a WiFi access point, select Communication Setup from the Meter Setup menu and click on the WiFi Access Point Setup tab.
The following explains the network parameters you need to configure for your wireless network:
Access Point Enable defines the WiFi module operation mode: Disabled = WiFi station mode, Enabled = WiFi Access Point/Router mode.
Network Name (SSID) the wireless network name (service set identifier) that uniquely identifies your wireless network among other neighboring networks 1 to 15 ASCII characters long. The default network name is DEVICE-NET.
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WiFi Protocol the WiFi physical layer protocol that defines the supported WiFi network technology and network bandwidth. If you find it difficult to choose the right one to cover all technologies supported by your network devices, it’s recommended that you leave the default 802.11b/g/n protocol setting.
WiFi Channel selects the working network channel (frequency band) among 11 available channels. You can select a fixed channel or set it to AUTO mode (factory default) so that the module will automatically select the most reliable channel for your network.
LAN IP Address the network router IP address. It also defines the range of addresses (address segment, or network prefix) to be used across your wireless network. It is recommended to use private (non-routable) address segments you can select from the following ranges:
10.0.0.1 10.255.255.254
172.16.0.1 172.31.255.254
192.168.0.1 192.168.255.254
The default factory set wireless LAN router address is 10.10.1.254.
LAN Subnet Mask specifies the network prefix part of the IP addresses (address segment) for your wireless network. The default 255.255.255.0 mask defines the network prefix as 10.10.1.XXX, where XXX the host part of 1 to 254 you can assign to wireless devices connected to the network.
Security/Encryption Type the WiFi security and data encryption method for your wireless network. The default WPA/AES setting is chosen meaning the support of most available wireless devices. For higher security, select WPA2/AES as the most secure option that is now the current standard for WiFi security.
Security Key the pass phrase (password) that will be used to authenticate connected devices with your wireless network. Depending on the selected security type, the security key length should be as follows:
WEP 5 or 13 ASCII characters (64-bit or 128-bit key respectively)
WPA and WPA2 8 to 15 ASCII characters.
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The factory-set temporary security key is “12345678”. For highest security, use WPA2/AES encryption with a randomly selected security key.
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Configuring Network IP Addresses
SATEC meters use fixed network addresses rather than dynamic address configuration to avoid receiving a random address every time the meter is reconnected to a WiFi network.
NOTE: The meter connected to a WiFi access point/router should be provided with a network address different from the LAN/router IP address like any other WiFi device.
You can configure the network address in your meter either from the meter front display (see the meter operation manual for more information), or via PAS.
To configure the meter address via PAS, select Communication Setup from the Meter Setup menu and click on the Network Setup tab.
Configure the meter’s wireless network address as follows.
If your meter is connected to a SATEC WiFi network, set the default gateway and the network subnet mask to the LAN IP address and LAN subnet mask as you configured for the WiFi network access points in Section 3. For the device IP address, use the WiFi network prefix (address segment) with a host part in the range of 1-99 or 200-254. Host addresses 100 to 199 are reserved for dynamic configuration of the devices and computers connected to the network using DHCP protocol.
If you connect the meter to a foreign WiFi network, you can identify the default gateway address and subnet mask via the Windows Network and Sharing Center on your PC connected to the WiFi network as shown above in Section 2. In Network and Sharing Center, next to Connections, select your Wi-Fi network name. In Wi-Fi Status, select Details. Consult with the network administrator for the applicable host IP addresses, or select one within the network address segment that has not yet been assigned to any host across the WiFi network.
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Monitoring a WiFi Connection
If your WiFi module is properly configured, the meter will automatically connect to the WiFi network any time the meter is restarted.
You can monitor the connection status and signal quality via the meter front display or via PAS.
To check a WiFi connection from the meter display:
In the EM133, move to the Diagnostics display and then scroll to the “WiFi” page where you can see the network connection status and received signal quality. The following page indicates the meter network address.
In the PM130, move to the STA display and then scroll to the “rSSi” page where you can see the received signal quality in percent followed by the network connection status.
In the PM135, move to the Device Info display and then scroll to the “WiFi” page.
To check a WiFi connection via PAS, select Device Control from the Monitor menu and click on the Communications tab. The connection status and received signal quality are indicated under the WiFi Wireless Communications section.
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5.1.5 Setting Up eXpertPower Client
The PM130 PLUS has an embedded eXpertPowerTM client that provides communications with the eXpertPowerTM server the SATEC proprietary Internet services. Connections to the eXpertPowerTM server are handled on a periodic basis.
To set up communications with the eXpertPowerTM server, select Communication Setup from the Meter Setup menu, and then click on the ExpertPower Client Setup tab.
Figure 5-4: eXpertPower Client Setup Tab
The following table lists available options. Refer to your eXpertPower service provider for the correct network settings.
Table 6: eXpertPower Client Setup Options
Parameter
Options
Default
Description
XPW Server IP Address
207.232.60.18 The IP address of the eXpertPower server
XPWServerPort
0-65535 5001
The TCP service port of the eXpertPower server
XPW Client Enabled
NO, YES NO
Enables operations of the eXpertPower client
Time to Next Session, min 1-99999
The time remaining to the next connection session
NOTES 1) Do not enable the eXpertPower client in your meter if you do not use the
eXpertPowerTM service. 2) Do not change the connection time setting. It is for information only. The
eXpertPower server updates it automatically.
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5.1.6 Setting Up TCP Notification Client
The TCP notification client can establish connections with a remote Modbus/TCP server and send notification messages either on events, or periodically on a time basis.
To set up communications with a remote TCP Notification server, select Communication Setup from the Meter Setup menu, and then click on the TCP Notification Client Setup tab.
Figure 5-5: TCP Notification Client Setup Tab The following table lists available client options.
Table 7: TCP Notification Client Setup Options
Parameter
Options Default
Description
Client Enabled
NO, YES NO
Enables operations of the notification client
Server IP Address
192.168.0.3 The IP address of the notification server
ServerPort
0-65535 502
The TCP service port of the notification server
Message Exchange 0-65535 1000
Address
The start address of a block of 16 Modbus registers for receiving notification messages
Connections with a remote server are triggered via programmable setpoints. To send event notifications to a server, configure a setpoint to respond to desired triggers or to periodic time events and put the “Notification” action to the setpoint action list (see Configuring Alarm/Control Setpoints).
See the PM130 PLUS Modbus Reference guide for more information on operation of the notification client and the notification message structure.
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5.2 General Meter Setup
5.2.1 Basic Meter Setup
This section describes how to configure the EM13X Series for your particular environment and application.
Before operating your meter, provide the device with basic information about your electrical network.
Using the Front Display
Select the Basic entry from the main menu. See Viewing and Changing Setup Options in Chapter 3 for information on configuring parameters via the front display.
See the table below for the Basic Setup options.
Using PAS
Select General Setup from the Meter Setup menu. See the table below for the Basic Setup options.
Table 8: Basic Setup Options
Display Label
Parameter
Options
Default
Description
Conf
Wiring Mode
See Table 9
4Ln3
The wiring connection of the device
PT Ratio
PT Ratio
1.0-6500.0
1.0
The phase potential transformer’s primary to secondary ratio
PT Factor
PT Ratio Multiplier ×1, ×10
PT Ratio multiplication factor. Used in extra
×1
high voltage networks to accommodate the
PT ratio for 500 kV and higher networks.
The primary rating of the phase current
CT
CT Primary Current 1-50000 A
5 A
transformer
PowDmdPer
Power block demand period
1, 2, 3, 5, 10, 15, 20, 30, 60 min, 15 min E=external sync
The length of the demand period for power demand calculations. If the external synchronization is selected, a pulse front on the digital input DI1 denotes the start of the demand interval.
Num.Per.
The number of blocks in the sliding demand 1-15 window
The number of blocks to be averaged for 1
sliding window demands
ADmdPer.
Volt/Ampere Demand 0-1800 sec
Period
The length of the demand period for ampere 900 sec
and volt demand calculations
Freq
Nominal Frequency 50,60,25,400 Hz 60 Hz
The nominal line frequency
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Display Label
Parameter
MaxDmdLd
Maximum Demand Load Current
Options 0-50000 A
Default
Description
The maximum demand load current (0 = CT 0
primary current)
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1. Always specify the wiring mode and transformer ratings prior to setting up setpoints and analog outputs.
2. The maximum value for the product of the phase CT primary current and PT ratio is 57,500,000. If the product is greater, power readings are zeroed.
Figure 5-6: General Setup Dialog Box Basic Setup Tab Table 9 lists the available wiring modes.
Table 9: Wiring Modes
Wiring Mode
Description
3OP2
3-wire Open Delta using 2 CTs (2 element)
4LN3
4-wire Wye using 3 PTs (3 element), line-to-neutral voltage readings
3DIR2
3-wire Delta Direct Connection using 2 CTs (2 element)
4LL3
4-wire Wye using 3 PTs (3 element), line-to-line voltage readings
3OP3
3-wire Open Delta using 3 CTs (2½ element)
3LN3
4-wire Wye using 2 PTs (2½ element), line-to-neutral voltage readings
3LL3
4-wire Wye using 2 PTs (2½ element), line-to-line voltage readings
3BLN3
3-wire Broken Delta using 2 PTs, 3 CTs (2½ element), line-to-neutral voltage readings
3BLL3
3-wire Broken Delta using 2 PTs, 3 CTs (2½ element), line-to-line voltage readings
In 4LN3, 3LN3 and 3BLN3 wiring modes, Min/Max volts, volt demands and voltage harmonics represent line-to-neutral voltages; otherwise, they will be
line-to-line voltages.
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5.2.2 Device Options
The Device Options setup allows changing user-configurable device options or putting the meter into energy test mode.
Options
Using the Front Display
TestMode Select Options from the main menu. See Viewing and Changing Setup Options in Chapter 3 for OFF information on configuring parameters via the front display.
Using PAS
Select General Setup from the Meter Setup menu, and then click on the Device Options tab.
Table 10 lists available device options.
Table 10: User-configurable Device Options
Display Label Parameter
Options
Default
Description
TestMode
Energy Test Mode
Three options: OFF = disabled Wh pulses varh pulses
Disabled
Setting this option puts the meter into the energy test mode (see Energy Pulse LED in Chapter 3)
PowMode
Reactive = using reactive power
Power Calculation S= f (P, Q),
Mode
Non-Active = using non-active
power Q= f (S, P)
The method used for calculating S=f(P, Q) reactive and apparent powers (see
Power Calculation Modes below)
EngyRoll
10000 = 10000 kWh
100000 = 100000 kWh
1000000 = 1000000 kWh Energy Roll Value
10000000 = 10000000kWh
The value at which energy counters 10000000
roll over to zero
100000000 = 100000000 kWh
1000000000 = 1000000000 kWh
Phs.Engy
Phase Energy Calculation
Disabled Enabled
Disabled Enables phase energy calculations
StrtVolt
Starting Voltage 1.5-5.0%
Resolution
Low Device Resolution
High
1.5% Low
The device starting voltage in percent of FS (120V or 400V)
The voltage, current and power resolution on the front display (see Measurement Units in Chapter 3) and in communications (see communication guides)
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Figure 5-7: General Setup Dialog Box Device Options Tab
Power Calculation Modes
The power calculation mode option allows you to change the method for calculating reactive and apparent powers in presence of high harmonics. The options work as follows:
· When the reactive power calculation mode is selected, active and reactive powers are measured directly and apparent power is calculated as:
S = P2 + Q2
· This mode is recommended for electrical networks with low harmonic distortion, commonly with THD < 5% for volts, and THD < 10% for currents. In networks with high harmonics, the second method is preferable.
· When the non-active power calculation mode is selected, active power is measured directly, apparent power is taken as product S = V x I, where V and I are the RMS volts and amps, and reactive power (called non-active power) is calculated as:
N = S2 – P2
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5.2.3 Configuring Digital Inputs
The EM13X Series can be provided with two digital inputs (standard) and 4, 8 or 12 optional digital inputs that can be linked to control setpoints to give an indication on input status change (see Configuring Alarm/Control Setpoints), or can be linked to general pulse counters to count incoming pulses (see Configuring Counters). They can also be linked to the Billing/TOU registers to count pulses from external wattmeters or gas and water meters.
Using PAS
Select General Setup from the Meter Setup menu, and then click on the Digital Inputs tab.
Figure 5-8: General Setup Dialog Box Digital Inputs Dialog Box The available options are shown in Table 11.
Table 11: Digital Inputs Options
Parameter
Options
Default
Description
NORMAL Input Polarity
INVERTING
For the normal polarity, the open to closed transition is considered NORMAL closed. For the inverting polarity, the closed to open transition is
considered a closed
Pulse Input Mode
PULSE MODE KYZ MODE
PULSE MODE
In pulse mode, either leading, or trailing edge of the input pulse is recognized as an event. In KYZ mode, both leading and trailing edges of the input pulse are recognized as separate events.
NORMAL (N.O.), Pulse Polarity
INVERTING (N.C.)
NORMAL
For the normal polarity, the open to closed transition is considered a pulse. For the inverting polarity, the closed to open transition is considered a pulse. It has no meaning in KYZ mode where both transitions are used.
Debounce Time
1-100 ms
10 ms
The amount of time while the state of the digital input should not change to be recognized as a new state. Too low debounce time could produce multiple events on the input change.
The debounce time is applied the same for all digital inputs. If you change the debounce time for a digital input, the same debounce time is automatically assigned to the others.
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General Meter Setup
5.2.4 Configuring Relay Outputs
The PM130 PLUS can be provided with one relay (standard) and 2 or 4 optional relay outputs. Each relay can be operated either locally from the alarm/control setpoints in response to an event or by a remote command sent through communications. It can also be linked to an internal pulse source to produce energy pulses.
Using PAS
Select General Setup from the Meter Setup menu, and then click on the Relay Outputs tab.
Figure 5-9: General Setup Dialog Box Relay Outputs Tab
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The available relay outputs options are shown in Table 12.
Table 12: Relay Output Options
Parameter
Options
Default
Description
UNLATCHED LATCHED Operation mode PULSE KYZ
Unlatched mode: the relay goes into its active state when the control setpoint is in active (operated) state, and returns into its non-active state when the setpoint is released.
Latched mode: the relay goes into its active state when the control setpoint goes into active state and remains in the active state until it is returned into its non-active state by a remote UNLATCHED command. Pulse mode (normal pulse): the relay goes into its active state for the specified time, goes into non-active state for the specified time and remains in the non-active state.
KYZ mode (transition pulse): the relay generates transition pulses. The relay changes its output state upon each command and remains in this state until the next command.
Polarity Pulse width
Pulse source Pulse rate, kWh/Pulse
NORMAL (N.O.) NORMAL
INVERTING (N.C.)
20-1000 ms
100 ms
NONE Ac.Ei = kWh IMP Ac.EE = kWh EXP rE.Ei = kvarh IMP rE.EE = kvarh EXP rE.Et = kvarh TOT AP.Et = kVAh TOT
NONE
Normal polarity: the relay is normally de-energized in its nonactive state and is energized in its active (operated) state. Inverting polarity: the relay is normally energized in its nonactive state and is de-energized in its active (operated) state. It is called failsafe relay operation. The actual pulse width is a multiple of the 1-cycle time rounded to the nearest bigger value. The pause time between pulses is equal to the pulse width.
Links a pulse relay to the internal energy pulse source. The relay must be set into either pulse, or KYZ mode.
0.1-1000.0
1.0 kWh/Pulse Defines the pulse weight in kWh units per pulse
Generating Energy Pulses through Relay Outputs
To generate energy pulses through a relay output:
1) Set a relay to either pulse, or KYZ mode, and then select a polarity (active pulse edge) for energy pulses and a pulse width.
2) Select a source energy accumulator and the pulse rate for your output 3) Send your new setup to the meter
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5.2.5 Configuring Analog Outputs
The meter can be ordered with four optional analog outputs with options for 0-1mA, ±1mA, 0-20mA and 4-20mA current outputs.
Using PAS
Select General Setup from the Meter Setup menu, and then click on the Analog Outputs tab.
Figure 5-10: General Setup Dialog Box Analog Outputs Tab The available analog output options are described in Table 13.
Table 13: Analog Output Options
Option AO type
Output parameter Zero scale Full scale
Range 0-1mA ±1mA 0-20mA 4-20mA
See Appendix C
Description
The analog output type. When connected to the meter, shows the actual AO type received from the device. When working off-line, select the analog output option corresponding to your analog module.
Selects the measured parameter to be transmitted through the analog output channel. Defines the low engineering scale (in primary units) for the analog output corresponding to a lowest (zero) output current (0 or 4 mA) Defines the high engineering scale (in primary units) for the analog output corresponding to a highest output current (1 or 20 mA)
When you select an output parameter for the analog output channel, the default engineering scales are set automatically. They correspond to the maximum available scales. If the parameter actually covers a lower range, you can change the scales to provide a better resolution on an analog output.
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Scaling Non-Directional Analog Outputs
For non-directional analog outputs with a 0-1mA, 0-20mA or 4-20mA current option, you can change both zero and full engineering scales for any parameter. The engineering scale need not be symmetrical.
Scaling Directional Power Factor
The engineering scale for the signed power factor emulates analog power factor meters.
The power factor scale is -0 to +0 and is symmetrical with regard to 1.000 (-1.000 +1.000). The negative power factor is scaled as -1.000 minus the measured value, and non-negative power factor is scaled as +1.000 minus the measured value. To define the entire power factor range from -0 to +0, the default scales are specified as -0.000 to 0.000.
Scaling ±1mA Analog Outputs
Programming engineering scales for directional ±1mA analog outputs depends on whether the output parameter represents unsigned (as volts and amps) or signed (as powers and power factor) values.
For an unsigned output value, you can change both zero and full engineering scales.
For a signed (directional) value, you should only provide the engineering scale for the +1 mA output current.
The engineering scale for the 0 mA output current is always equal to zero for all values except the signed power factor, for which it is set to 1.000 (see Scaling Directional Power Factor above).
The meter does not allow access to the low scale setting if the parameter is directional. Whenever the sign of the output parameter is changed to negative, the meter automatically uses the full engineering scale setting for +1 mA with a negative sign.
Scaling Analog Outputs for 0-2 mA and ±2 mA
The 0-1mA and ±1mA current outputs provide a 100% overload, and actually output currents up to 2 mA and ±2mA whenever the output value exceeds the engineering scale you set for the 1 mA or ±1mA.
The output scales for 0-1 mA and ±1 mA analog outputs are programmed for 0 mA and +1 mA regardless of the required output current range.
To use the entire output range of 2 mA or ±2 mA, set the analog output scales as follows:
· 0-2 mA: set the 1 mA scale to ½ of the required full scale output for uni-directional parameters, and set the 0 mA scale to the negative full scale and the 1 mA scale to zero for bi-directional parameters.
· ±2 mA: set the 1 mA scale to ½ of the required full-scale output for both uni-directional and bidirectional parameters.
For example, to provide the 0 to 2 mA output current range for Volts measured by the meter in the range of 0 to 120V, set the 1 mA scale to 60V; then the 120V reading will be scaled to 2 mA.
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5.2.6 Configuring Counters
The EM13X Series has four six-digit general counters that can count pulses delivered through the device digital inputs with a programmable scale factor. Each counter can also be incremented in response to any internal or external event, checked and cleared through the Control Setpoints.
Using PAS
Select General Setup from the Meter Setup menu, and then click on the Pulse/Event Counters tab.
Figure 5-11: General Setup Dialog Box Pulse/Event Counters Table 14 lists available counter options.
Table 14: Counter Options
Option
Range Default
Description
Pulse Input
None, DI1 DI2 DI3 DI4 DI5 DI6 DI7 –DI14
None
Links a digital input to the counter
Multiplier
1-9999 1
The value added to the counter when a pulse is detected on the pulse source input
Counter Value
Displays the present counter contents
You can preset a counter to a required value or clear it without affecting the counter setup.
To preset or clear a counter:
1) Click the Online button on the PAS toolbar before accessing the setup dialog box.
2) Type in the required value into the Counter Value field
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3) Click Send
5.2.7 Configuring Alarm/Control Setpoints
The EM13X Series has an embedded logical controller that can perform different actions in response to user-defined internal and external events. Unlike a PLC, the meter uses a simplified programming technique based on setpoints that allows the user to define a logical expression based on measured analog and digital values that produce a required action.
The meter provides 16 control setpoints with programmable operate and release delays. Each setpoint evaluates a logical expression with one trigger argument. Whenever an expression is evaluated as “true”, the setpoint performs a programmable action that can send a command to the output relay, or increment a counter.
The logical controller provides very fast response to events. The scan time for all setpoints is 1 cycle time (16.6 ms at 60Hz and 20 ms at 50/400 Hz).
Using PAS
Select General Setup from the Meter Setup menu, and then click on the Control/Alarm Setpoints tab.
Figure 5-12: General Setup Dialog Box Control/Alarm Setpoints Tab
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The following table lists the available setpoint options.
Table 15: Setpoint Options
Option
Trigger parameter
Range
Description
See Appendix D The trigger parameter that is used as an argument in the logical expression
Operate limit Release limit Operate delay 0.1-999.9 sec
The threshold (in primary units) at which the conditional expression would be evaluated to true. Not applicable for digital triggers.
The threshold (in primary units) at which the conditional expression would be evaluated to false. Defines the hysteresis for analog triggers. Not applicable for digital triggers.
The time delay before operation when the operate conditions are fulfilled
Release delay 0.1-999.9 sec
The time delay before release when the release conditions are fulfilled
Action
The action performed when the setpoint expression is evaluated to true (the See Appendix D
setpoint is in operated state)
Using Numeric Triggers
For numeric (analog) triggers, you can specify two thresholds for each trigger to provide hysteresis (dead band) for setpoint operations.
The Operate Limit defines the operating threshold, and the second Release Limit defines the release threshold for the trigger. The trigger thresholds are specified in primary units.
If you do not want to use hysteresis for the trigger, set the Release Limit to the same value as the Operate Limit.
Using Binary Triggers
Binary (digital) triggers like digital inputs and relays are tested for ON/CLOSED or OFF/OPEN status.
In the PM130, the binary events are level-sensitive events. An event is asserted all the time while the corresponding condition exists.
Delayi
Documents / Resources
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SATEC EM13X Series Smart Multifunction Meter [pdf] Instruction Manual EM132, EM133, EM13X Series Smart Multifunction Meter, EM13X Series, Smart Multifunction Meter, Multifunction Meter, Meter |