1. Meter Products By John S. Levine, P.E. Levine Lectronics and Lectric
GE Digital Energy
Meter Products
By John S. Levine, P.E.
Levine Lectronics and Lectric

2. GE Multilin has full spectrum of advanced metering
EPM4600
EPM7000
EPM9900
EPM9800
PQM II
EPM9450
EPM 9650
Price
EPM6100
EPM6000
EPM2200
EPM7100
Basic Power Monitoring
Power Quality & Cost Management
Advanced PQ Analysis
Generator over and under voltage
Over frequency monitoring
Continuous monitoring
Voltage Studies
Monitoring Transformer losses
Monitoring transients
Time of Use energy use
Replacement of Analog Meters
Campus Monitoring
Energy Management

3. Basic Power Monitoring: EPM2200

4. The Need for the EPM2200
Responded to Requests for an Easier To Use Meter
Improvements in Accuracy over its predecessor
Available at a lower starting price

5. Distinguishing Features
Basic Power Monitoring
Very easy to set-up and use
Economical Volts/Amps, Power and Energy Meter
Optional Modbus Communications

6. EPM 2200: Basic Power Monitoring
Bright 3 Line Display
Easy to Read
Auto Scaling (Kilo, Mega, Giga)
4 Digits per line
Easy Installation
ANSI C39.1 Standard
92mm DIN Standard
Easy to Read Load Bar Graph
Auto-Scrolling
Easy to Navigate through Parameters
Measures over 40 Parameters

7. EPM 2200: Example Applications
Generator Panels
Switchgear
Economical Metering Solution

8. EPM 2200: Replacing Analog Meters
Current
Voltage
Order Code:
Analog meter becomes
PL2200A1X
Switches used to view different phases

9. EPM 2200: Firmware Features

10. EPM 2200: Order Codes

11. EPM 2200 GE Product Comparisons

12. EPM 6000 and EPM 2200 GE
EPM2200 GE
EPM6000
Accuracy
ANSI Class
0.5%
0.2% C12.2
EPM 6000 Offers: Higher Accuracy Revenue Grade THD Measurements More Comm Options EPM 2200 Offers: Cost Effective Measurement
Bi-directional power
Harmonics THD
Configurable Alarm Threshold
KYZ Pulse Output
RS Modbus RTU
Front Communications Port
Ethernet + Modbus TCP
DNP 3.0

13. Basic Power Management Enhancements: EPM6000

14. EPM6000 Ethernet Option

15. EPM6000 Ethernet Option

16. EPM 6010 BACnet Building Automation Power Meter

17. Power Quality and Management EPM7000

18. EPM 7000
Up to 4 Mb Data Logging
512 samples/cycle
Power quality
Ethernet
Web server

19. EPM 7000: Power Analysis and Data Logging
Bright 3 Line Display
Easy to Read
Auto Scaling (Kilo, Mega, Giga)
4 Digits per line
Easy Installation
ANSI C39.1 Standard
92mm DIN Standard
IRDA Port
Auto-Scrolling
Easy to Read Load Bar Graph
Easy to Navigate through Parameters

20. EPM 7000: Communications Field Replaceable Modules. Ethernet
4 Bi-directional Analog Outputs
2 Relay Outputs + 2 Status Inputs
Four form A Pulse Outputs, Four Status Inputs
Fiber Optic Serial Port
Module Descriptions
E BaseT Ethernet
C1 - Four Channel Bi-directional 0-1mA Outputs
C20 - Four Channel Bi-directional 0-20mA Outputs
RS1 - Two Relay status Outputs / Two Status Inputs
PS1 - Four Pulse Outputs / Four Status Inputs

21. EPM7000 Web Server

22. EPM7000: Voltage and Waveform Recording

23. EPM7000: Firmware Options Firmware Version Feature A B C D E F
Multifunction Measurement with with I/O expansion ●
2 MB Data-Logging
3 MB Data-Logging
4 MB Data-Logging
Harmonic Analysis
Limit and Control Functions
64 Samples per Cycle Waveform Capture
512 Samples per Cycle Waveform Capture

24. EPM7000: Order Codes Freq Current Inputs Software Power Supply
Freq
Current Inputs
Software
Power Supply
I/O Slot 1
Description
PL7000 5 |
50 Hz AC frequency system 6
60 Hz AC frequency system 5A
10 Amp Secondary 1A
2 Amp Secondary A
Multimeter Function Only B
Data Logging Memory C
Power Quality Harmonics D
Limits and Control E
64 Samples/Cycle Waveform Recording F
512 Samples/Cycle Waveform Recording HI
90-265VAC/VDC
LDC
18-60VDC X
None E1
100BaseT Ethernet C1
Four Channel Bi-directional 0-1mA Outputs
C20
Four Channel Bi-directional 0-20mA Outputs F1
Fiber Optic Serial Port - ST Terminated F2
Fiber Optic Serial Port - Versatile Link
RS1
Two Relay status Outputs / Two Status Inputs
PS1
Four Pulse Outputs / Four Status Inputs

25. Submetering

26. Industrial Meters Product Positioning: 2014 Submetering
Price
EPM 4600
EPM 7100
EPM 6100
Basic Power Monitoring
Data Logging
Multipoint Submeter
Wifi or 10/100TX
Multifunction Meter
THD% and Alarm
0.2% Accuracy
Data logging
Wifi or 10/100TX
Multifunction Meter
0.2% Accuracy
Dataloggging up to 2mb
Data logging (up to 32 MB)
Wifi, 10/100TX, RS485 USB
8 – 3 phase or 24 single phase
0.5% Accuracy

27. EPM 6100 Demand and Energy Submeter with WiFi

28. EPM 6100
0.2% Accuracy
400+ Samples/Cycle
WiFi or 10/100TX or Serial RS485
THD% and Alarms

29. EPM 6100 Large 0.56” LEDs IrDA Port Screen Selector Load Bar
Auto Scale Indicator

30. EPM 6100: Profile

31. EPM 6100: Back

32. Voltage & Current Connections RS485 KYZ Pulse
EPM 6100: Internals
High Accuracy
Measurement Circuitry
RJ45
Jumper to Select LAN
Or Serial
Voltage & Current Connections
RS485 KYZ Pulse

33. EPM 7100 Data Logging Up to 2MB RS485 Modbus
Optional Wi-Fi, or Ethernet
0.2% Accuracy

34. EPM 4600
Multi-feed Power and Energy Metering Solution with advanced communications, logging and touchscreen display

35. EPM 4600 Multi-feed Meter What is it? Value Proposition
The GE EPM 4600 Multi-feed Power and Energy Meter is a sub-metering solution that allows owners and operators to quickly, accurately and centrally measure power and energy usage of specific areas to reduce operating expenses. This leads to improved tenant attraction and retention and greater efficiency throughout facilities.
The EPM 4600 can be used for both new and retrofit installations for applications such as:
Shopping Malls / Shopping Centers
Apartments / Condominiums
University Campuses
Data Centers
Hospital Loads
LEED Projects
Tenant Sub-Metering
Industrial Circuit Cost Allocation
Load Management and Load Curtailment
Distribution Transformer Metering
Value Proposition
Provides measurement of a baseline for Power and Energy Management strategy implementation
Capital and maintenance cost savings through Consolidation of Metering Points and space saving, High Density Design
Provides the hardware basis to start a consultative solution sell on a GE Energy Management Solution 35

36. A single EPM 4600 replaces 8 Three Phase Meters or 24 single phase meters
Lower cost per meter point
Space Savings
Lower Installation costs

37. Key Features & Benefits – PMCS v6.31 Key Featuresd
Key Features & Benefits – PMCS v6.31
Key Features
Feature
Standard/ Chargeable
Description
Benefit(s) to Customer
Revenue Grade Accuracy
Standard
• Highly Accurate Revenue Grade Accuracy
Meter Electrical Usage with 0.5% Accuracy using Industry Standard Current Sensors
Meets ANSI C12.20 and IEC Class 0.5%
- Test Pulses for Meter Accuracy Verification
Compliant with revenue grade certifications for billing purposes
Easy Installation using standardized CT wiring
Standard CT Wiring for Class 10 (5 Amp Secondary) or Class 2 (1 Amp Secondary) for
High Accuracy Measurements
Ease of installation using market standard components
Installation Flexibility: Three phase and Single phase configurations
Chargeable
The EPM 4600 comes in 2 configurations for to handle eight 3 phase inputs or 24 single phase inputs
Decreases commissioning effort and provide flexibility to install as per the needs of an existing electrical system.
Advanced Load Profiling and Logging
Load profiling and logging of measured values to record data for further advanced analysis
- Provides ability to collect and log information for further advanced energy management analysis (Reporting, Billing)
Flexible communications options
Multiple communications options including RS485, Ethernet / WIFI, USB
Multitude of communications options provides flexibility for installation and existing communications investment
USB for local connectivity

38. Key Features & Benefits – PMCS v6.31 Key Features (Cont’d)
Standard/ Chargeable
Description
Benefit(s) to Customer
Flexible I/O
Standard
4 Pulse Counting Inputs for Other Commodities such as Water, Gas and Condensate
2 Relay Outputs for Control Operations
Flexible metering and connectivity between existing and other metering systems.
Field upgradable
Chargeable
Field upgradable software options to increase functionality from standard transducer to comprehensive logger with recording capability
- Upgradable solution with low maintenance and ongoing installation cost
Easy configuration
Easy configuration through GE Communicator software
Decreases commissioning effort and provides easy installation and low training effort for ongoing maintenance

39. d
Key Features & Benefits – PMCS v6.31
EPM 4600 Physical Layout

40. Key Features & Benefits – PMCS v6.31 EPM 4600 Physical Dimensions
Class leading, Small Footprint perfect for Embedded Power Distribution Panel Application

41. Key Features & Benefits – PMCS v6.31 d
Key Features & Benefits – PMCS v6.31
EPM 4600 Memory Logging Specifications
Logging Memory
Software Option A: Transducer
Software Option B (2MB) : 100 to 300 Days of Logging
Software Option C (32MB): Up to 2400 Days of Logging
Notes on Logging:
Logging is based on 4 bytes per reading + 7 byte time stamp
103 bytes per entry for 24 single phase inputs
39 bytes per entry for 8 three phase inputs
Time base is 15 minute profiling

42. Key Features & Benefits – PMCS v6.31 d
Key Features & Benefits – PMCS v6.31
EPM 4600 Optional Touch Screen Displays
Low power consumption, 65K color displays
Available in two sizes:
5.7” (PL4600-DIS5700)
3.5” (PL4600-DIS3500)
User-Friendly Installation and Setup
Preconfigured Screens
22mm panel mount
24 VDC Power Supply
Local/Remote Display Connectivity
Via Serial or optional Ethernet port on EPM 4600

43. EPM 4600 Displays – Local/Remote Visualization
Key Features & Benefits – PMCS v6.31
Connect displays via Serial and/or Ethernet for local or remote visualization capability

44. Key Features & Benefits – PMCS v6.31 d
Key Features & Benefits – PMCS v6.31
EPM 4600 Displays – Display Screens
Single Phase Energy Readings (EPM4600-S)
KWatts, KW Demand, KWatt-hours
Three Phase Energy Readings (EPM4600-T)
KWatts Phase A, KWatts Phase B, KWatts Phase C
Single Phase Phasor Diagram (EPM4600-S)
Consolidate Pulse Inputs to Measure Various Energy Types
Limit Based Alarms
Three Phase Phasor Diagram (EPM4600-T)

45. EPM 6000T & EPM 7000T

48. Product Family Comparisons
EPM6000/7000, PQMII, and EPM9650

49. GE Product Comparison Basic Power Monitoring
Power Quality and Cost Management
Advanced Power Quality Analysis
Feature
EPM6000
EPM7000
PQMII
EPM9450
EPM9650
Accuracy
0.2%
0.4%
0.04%
WebServer
Ethernet
Samples/cycle
400+ 64
512
Sag/Swell
Time of Use
Data Logging
Max 4MB
296KB
512KB
Max 2MB
THD Real-Time
THD% only
40th order
32nd
128th Order

50. EPM 9900 Advanced Power Meter with Transient Recorder

51. EPM 9900 Industry Leading Revenue Meter Features
Vivid Color LCD Display
1GB Memory for logging and analysis
10MHz Transient Recorder
1024 Samples/cycle
Auto-calibrating 0.06% revenue meter
Fast Data Download
Web Server
Expandable I/O
Upgradable Software Options
Meets IEC Class A standards

52. GE ITI Instrument Transformers

54. Questions?
Thank You !

55. EPM 9900 Industry Leading Revenue Meter Features
Vivid Color LCD Display
1GB Memory for logging and analysis
10MHz Transient Recorder
1024 Samples/cycle
Auto-calibrating 0.06% revenue meter
Fast Data Download
Web Server
Expandable I/O
Upgradable Software Options
Meets IEC Class A standards

56. Accurate, Auto- calibrating, High-end Revenue Metering Features
EPM Accuracy
0.06% - Revenue Accuracy
ANSI C12.20, Class 0.2
IEC rated
IEC 687 Rated
Auto Calibrating
Compensation for:
Transformer and Line Loss
CT and PT
4 Quadrant Meter
kWh Delivered
kWh Received
kVAh by Quadrant
kvarh by Quadrant
Qhour Measurement
Demand for each measurement
TOU
8 TOU Schedules
Bi-directional consumption & Demand
4 Seasons/year
20 year Calendar
Prior Month & Prior Season for each period
Load Aggregation
8 Pulse Inputs (self wetted)
4 Totalizing Registers
Add internal values to total
Gas or water meters
Accurate, Auto- calibrating, High-end Revenue Metering Features

57. EPM 9900 – Metering Functionality
4 Quadrant Meter
kWh delivered
kWh received
kVAh by quadrant
kVARh by quadrant
Qhour measurement
Demand for each measurement
Time of Use metering
8 TOU schedules
Bi-directional consumption & demand
4 seasons/year
20 year calendar
Prior month & prior season for each period
Pulse Accumulation and Integration
Load aggregation
8 pulse inputs (self-wetted)
4 totalizing registers
Add internal values to total
Gas or water meters
4 Quadrant Meter
kWh Delivered
kWh Received
kVAh by Quadrant
kvarh by Quadrant
Qhour Measurement
Demand for each measurement
TOU
8 TOU Schedules
Bi-directional consumption & Demand
4 Seasons/year
20 year Calendar
Prior Month & Prior Season for each period
Load Aggregation
8 Pulse Inputs (self wetted)
4 Totalizing Registers
Add internal values to total
Gas or water meters
Fulfilling High-end Revenue Metering Requirements

58. EPM 9900 – Metering Functionality
Multiple Demand Windows
4 demand structures simultaneously
Types of demand:
Fixed window
Rolling demand
Predictive demand
Thermal demand
Intervals - 1 second to several hours
Up to 255 subintervals
Time Stamped Max. Demands
kW demand delivered & received – max & min
kVAR demand delivered & received – max & min
kVAR coincident with kW demand
kVA demand – max & min
Amps - max & min
Voltage - max & min
Timing options
EOI pulse out
EOI pulse in
IRIG-B input to external GPS clock
4 Quadrant Meter
kWh Delivered
kWh Received
kVAh by Quadrant
kvarh by Quadrant
Qhour Measurement
Demand for each measurement
TOU
8 TOU Schedules
Bi-directional consumption & Demand
4 Seasons/year
20 year Calendar
Prior Month & Prior Season for each period
Load Aggregation
8 Pulse Inputs (self wetted)
4 Totalizing Registers
Add internal values to total
Gas or water meters
Fulfilling High-end Revenue Metering Requirements

59. EPM 9900 – Metering Functionality
System Events Log
This feature logs any event that occurs in the meter, including:
Power up/down
Password access/modification
Change of the programmable settings
Change of a runtime firmware
Change of time by communication (Modbus, DNP)
Log downloads
Feature resets (logs, max/min, energy)
All these features are designed for anti-tampering purposes.
4 Quadrant Meter
kWh Delivered
kWh Received
kVAh by Quadrant
kvarh by Quadrant
Qhour Measurement
Demand for each measurement
TOU
8 TOU Schedules
Bi-directional consumption & Demand
4 Seasons/year
20 year Calendar
Prior Month & Prior Season for each period
Load Aggregation
8 Pulse Inputs (self wetted)
4 Totalizing Registers
Add internal values to total
Gas or water meters
Fulfilling High-end Revenue Metering Requirements

60. Benefits of Auto-Calibration
Accuracy over Temperature. Meters drift over temperature. Moreover, hysteresis in drift may compromise accuracy permanently and require the meter to be returned for re-calibration. GE’s auto-calibration insures that normal drift caused by ambient temperature movement does not affect accuracy.
Accuracy over Time. Since the majority of components within the meter are being re-calibrated on a regular interval, the meter will hold accuracy longer than non-calibrating meters.
Better Out of Box Test Results. Components from new meters sometimes need up to 1000 hours to stabilize. Using auto-calibration, the components will be recalibrated over the life of the meter.
Less Maintenance / Lower Ownership Cost. Since the meter auto-calibrates, less meters will be removed from the field for calibration.

61. Commercial/Industrial Revenue Metering Functions
Monitor, control and alarm on peak demand for conducting load shedding schemes and demand charge reduction schemes
Track power usage system wide with high accuracy to reconcile with utility meter results
Monitor PF distribution and enable PF correction to balance loads and reduce VARs on the system
Monitor and participate in demand response, utilizing excess backup generation
Meter energy efficiency initiatives for actual energy savings
4 Quadrant Meter
kWh Delivered
kWh Received
kVAh by Quadrant
kvarh by Quadrant
Qhour Measurement
Demand for each measurement
TOU
8 TOU Schedules
Bi-directional consumption & Demand
4 Seasons/year
20 year Calendar
Prior Month & Prior Season for each period
Load Aggregation
8 Pulse Inputs (self wetted)
4 Totalizing Registers
Add internal values to total
Gas or water meters
Rich Insight into Energy and Power Quality System Metrics

62. Best in class storage/logging capabilities
EPM Extensive Load Profiling and Recording
Features include:
1 GB of Memory
User Configured file structure with 17 separate logs
Up to 8 separate historical logs
Each log can store 128 parameters
Each log can store data for years before filling
A significant improvement over existing technology
Data stored in an industrial-grade solid state flash drive designed for high performance and temperature stability
Best in class storage/logging capabilities

63. EPM 9900 - Extensive Load Profiling and Recording
Examples of Storage Capability
3 voltage readings + time stamp = 24 bytes
storage interval = 15 minutes
log memory = 60 meg
storage in years = 70 years
24 readings + time stamp = 106 bytes
log memory =60 meg
storage in years = 16 years
storage = 1 second
storage in days = 6.6 days
Large memory capacity for years
of reliable data recording and analysis

64. EPM 9900 - Blazing Fast Download Speed and Ethernet Performance
Rapid Response™ Ethernet: Download data almost 80 times faster than existing EPM 9000 Meter technology
Download speeds over Ethernet for EPM 9000 Series Meters:
*Speeds on all meter downloads dependent on quality and speed of existing network.

65. EPM 9900 – Precise Time Synchronization
IRIG-B: The EPM 9900 meter’s time can be synchronized to the signal from a GPS IRIG-B satellite. IRIG-B has a pulse rate of 100 pulses-per-second with an index count of 10 msecs over its one second time frame. IRIG-B sync has a time accuracy of better than 100 microseconds.
Network Time Protocol server: You can set up the meter’s Ethernet port to synchronize time using a Network Time Protocol (NTP) server. Typical accuracy is achieved to at least 1 msec, depending on network configuration.
Line Frequency clock synchronization: The EPM 9900 meter’s time can be synchronized to the AC frequency.
Internal clock crystal: The EPM 9900 meter’s internal clock crystal is accurate to 20ppm. It can be used if IRIG-B is not connected and/or other synchronization methods are not being used.
DNP time synchronization: Using Communicator EXTTM software, you can set the meter to request time synchronization from the DNP Master. Requests can be made from once per minute to once per day.

66. EPM 9900 - Power Quality and System Reliability Recording
Measure power quality indices such as voltage anomalies, harmonics, flicker, imbalances and many other conditions
Record waveform event on sags and swells, including peak and duration of the event, with microsecond resolution
Analyze damaging high speed positive and negative transients in the MHz range, which can damage equipment
Report on events using industry certified IEC Class A standards and EN50160 reports
8 Channel Waveform Recorder
Standard Recording at 1024 Samples per cycle
16 Bit Analog to Digital Converter Resolution
Extensive Memory to record for years
High-speed input event recording
Outage detection
Extensive limit setting capabilities with multiple limits per selected quantity
Waveform Memory Example – 128 samples per cycle
Sampling Rate = 128 samples per cycle
Channels = 8
Memory = 500 meg
Number of cycles = 245,000 cycle of recording
Number of minutes continuous = 68 minutes
Waveform Memory Example – 16 samples per cycle
Sampling Rate = 16
Number of cycles = 1,960,000
Number of minutes continuous = 544 minutes

67. EPM 9900 - System Reliability Improvements
Monitor voltage reliability system wide to insure proper voltage distribution
Analyze critical feeds to determine if power distribution is optimized, i.e.; Is PF too high? Is voltage reliable? Are there too many drops on the line?
Conduct forensic analysis on feeds and equipment to provide proactive awareness of problems before they occur
Audit power system for weakness or troubleshoot within the power system
Alert engineers by or on a display when a critical alarm occurs!
8 Channel Waveform Recorder
Standard Recording at 1024 Samples per cycle
16 Bit Analog to Digital Converter Resolution
Extensive Memory to record for years
High-speed input event recording
Outage detection
Extensive limit setting capabilities with multiple limits per selected quantity
Waveform Memory Example – 128 samples per cycle
Sampling Rate = 128 samples per cycle
Channels = 8
Memory = 500 meg
Number of cycles = 245,000 cycle of recording
Number of minutes continuous = 68 minutes
Waveform Memory Example – 16 samples per cycle
Sampling Rate = 16
Number of cycles = 1,960,000
Number of minutes continuous = 544 minutes

68. EPM 9900 - Power Quality and System Reliability Recording
8 Channel Waveform Recorder
Standard Recording at 1024 Samples per cycle
16 Bit Analog to Digital Converter Resolution
Extensive Memory to record for years
High-speed input event recording
Outage detection
Extensive limit setting capabilities with multiple limits per selected quantity
Waveform Memory Example – 128 samples per cycle
Sampling Rate = 128 samples per cycle
Channels = 8
Memory = 500 meg
Number of cycles = 245,000 cycle of recording
Number of minutes continuous = 68 minutes
Waveform Memory Example – 16 samples per cycle
Sampling Rate = 16
Number of cycles = 1,960,000
Number of minutes continuous = 544 minutes
8 Channel Waveform Recorder
Standard Recording at 1024 Samples per cycle
16 Bit Analog to Digital Converter Resolution
Extensive Memory to record for years
High-speed input event recording
Outage detection
Extensive limit setting capabilities with multiple limits per selected quantity
Waveform Memory Example – 128 samples per cycle
Sampling Rate = 128 samples per cycle
Channels = 8
Memory = 500 meg
Number of cycles = 245,000 cycle of recording
Number of minutes continuous = 68 minutes
Waveform Memory Example – 16 samples per cycle
Sampling Rate = 16
Number of cycles = 1,960,000
Number of minutes continuous = 544 minutes
Advanced Power Quality Metering Features

69. EPM 9900 Meter Records Voltage Transients at 10Mhz Resolution
4 Channel Transient Recorder
View both positive and negative transients occurring on the voltage lines
The unit provides both magnitude and duration of the transient
EPM 9900 uniquely replaces the lower speed sample with the transient sample on the waveform to optimize storage and reduce file size.
Timing is as accurate as 20 nano-seconds.
High-speed sampling provides analysis invisible to lower sampling speed meters

70. EPM 9900 - Blind Spots in Non-Transient Recording Meters
Low-Speed Recorder Event
High-Speed Recorder Event
EPM 9900 Meter Picks up Event
Event Completely Missed
166,000
Samples per Cycle
Sampled; stored at same 1024 samples/cycle
Up to 1024 Samples per Cycle
Both meters store at 1024 samples per cycle.
The EPM 9900 meter provides the event of the
transient.
The transient is defined as an anomaly that occurred within
2 samples of the lower sampling speed of a waveform
capture.
The minimum duration is dependent on the sampling
speed. The EPM 9900 meter’s sampling speed is
as fast as 20 nanoseconds. Any event that occurs
within two low-speed samples will be recorded and
stored for engineering analysis.

71. Reliable, Highly Accurate, Compliance-Grade
IEC Class A Power Quality and Waveform Recording
Nexus ® 1500 Auto-Calibrating Power Monitors
IEC class A standard reporting; Flicker compliant with IEC and IEC
Short term readings: PST-10 min/logging & monitoring
Long term readings: PLT – 4 Hr/logging & monitoring
Log viewer: View graphed values; Pst and Plt for Va, Vb and Vc or displayed values, including max & min
Polling: Pinst, Pst, Pst Max, Pst Min, Plt, Plt Max, Plt Min values
Utilizes 16 Bit Analog to Digital conversion and high sampling rates to provide accuracy throughout range
High A/D resolution and sampling rates are essential for good performance; lower resolution of sampling results generally in faulty measurements
Reliable, Highly Accurate, Compliance-Grade
Flicker Measurement

72. IEC 61000-4-30 Class A Certified Compliance Reporting
What Is IEC Class A?
It is the definitive Industry Standard on Voltage Reliability Monitoring
It provides a comprehensive measurement of power quality including:
Voltage Interruptions
Harmonics (As per EN )
Inter-harmonics
Frequency
Flicker (As per EN )
Imbalances (Unbalances)

73. IEC 61000-4-30 Class A Certified Compliance Reporting
Why is IEC Class A so Important?
It is designed to address the issue of multiple recorders using differing DSP techniques producing differing results.
This Standard normalizes the digital signal processing so that all monitors report the same results for the same occurrence
This eliminates confusion in the industry
False Claims -- There are multitudes of instruments making false claims to be compliant with the class A standard. There is only one Lab known to GE that can certify a monitor, Power Standard Labs in Northern California
It is imperative to ask the monitoring company to providing it certification documents.

74. EN50160 Power Quality Reporting
EPM 9900
EN50160 Power Quality Reporting
Weekly Reports Insure Compliance with Power Quality Directives
Meter Generates a Weekly report based on EN50160 Format using IEC Class A Generated Calculations
Reports are stored in Compact Flash for many years
Power Quality Compliance is easily sorted and understood making compliance analysis simple
Report Includes Voltage Dips, Frequency Variations, Harmonics, Inter-Harmonics, Flickers, and Unbalance.
Easy Pass / Fail Indication in total and per criteria with graphing and binning.

75. EPM 9900 - ITIC/CBEMA Logging
Thousands of CBEMA Events
Transient Recording
Sag/Swell Analysis
Graphical Plotting in 3D Format
Waveform Display
Separate log for CBEMA Data Provides Instantaneous Analysis

76. EPM 9900 Vivid Color LCD Display
High Resolution LCD color display with Touch-screen capability
Bright TFT glass with high temperature rating
Long-life LED backlight
Vertical or Horizontal orientation
Displays include:
Real-time viewing: voltage, current, power, demand
Accumulated energy and TOU
Flicker readings
Alarms
Phasor analysis
Harmonic spectrum analysis and waveforms
Real-time trending
Log status
Configuration settings
The interface is simple to
understand and navigate

77. EPM 9900 - RTU Master Capability
RTU Master Makes EPM 9900 into an RTU
Mastering - Set Up Modbus registers to allow the Nexus meters to poll registers from slave devices
Logging - Once the profile is set up and the meter is polling data from the slave devices, then the data can be logged in the historical log profiles for later retrieval
Alarming – The modus registers can also have limits set points that could be used trigger alarms set-points, send s or log events in internal memory
Communication – All Data is available via multiple communication paths including RS485 and Ethernet
Perfect for Distribution Automation – Utilizing EPM meters, distribution feeders can be automated WITHOUT changing protective equipment.
Modbus RTU Serial

78. Powerful, Yet Simple-to-Use Front Panel Interface
EPM Meter Face-Mounted Coms and Display
256-Color LCD Display
ANSI Optical Port
Watt/hr Pulse
Touch-screen
Overlay
Backlight Button
VAR/hr Pulse
High-speed
USB Port
Powerful, Yet Simple-to-Use Front Panel Interface

79. Upgradeable and Powerful Inputs and Outputs
EPM 9900 Meter Rear Mounted Communication
Optional Upgrade Cards
Optional Dual RS485 Outputs and 4 KYZ Pulse Outputs
Optional Second 100BaseT Ethernet: Combination RJ45/Fiber Optic Card
Standard 10/100BaseT Ethernet RJ45 Port (Auto-detecting Tx and Rx)
Slots 3 and 4 Provide up to 12 Relay Outputs
IRIG-B Satellite Clock: 1msec
Time Sync
Color-coded Voltage Inputs
8 High-Speed Status Inputs
Upgradeable and Powerful Inputs and Outputs

80. EPM 9900 Communication Options
Nexus ® 1500 Auto-Calibrating Power Monitors
Standard Inputs and Outputs
ANSI Optical Port
High-speed USB Port
100BaseT Ethernet RJ45 Port (Auto-detecting polarity)
IRIG-B Time Synchronizing to GPS, 1ms. Resolution
8 High-speed status inputs
8 sockets Modbus TCP, 2 sockets DNP LAN/WAN
Optional Communications
Dual RS485/Pulse Output Ports
Additional 100BaseT Ethernet Port –RJ45 or Fiber Optic Card
Upgradeable I/O
Slots 3 and 4 provide up to 12 Form C Relay Outputs for control or annunciation

81. External I/O Module Options
Analog Outputs
1mAON4 – 4 Channel 0-1mA Output Card. Bidirectional and assignable to any channel. 10Kohm Impedance Max per channel
1mAON8 – 8 Channel 0-1mA Output Card. Bidirectional and assignable to any channel. 10Kohm Impedance Max per channel
20mAON4 – 4 Channel 4-20mA Output Card. Bidirectional and assignable to any channel. 10Kohm Impedance Max per channel
20mAON4 – 8 Channel 0-1mA Output Card. Bidirectional and assignable to any channel. 10Kohm Impedance Max per channel
Analog Inputs
8AI1: 8 Analog Inputs, 0-1mA, bidirectional
8AI2: 8 Analog Inputs, 0-20mA
8AI3: 8 Analog Inputs, 0-5V DC
8AI4: 8 Analog Inputs, 0-10V DC
Wiring: Common Mode
Scaling: Programmable

82. Communication Options
Dual Ethernet Ports Provide Secured Com Over Two Separate Networks
Primary Ethernet Port Provides 100 Base T RJ45 Port
Secondary Ethernet Can be used as Redundant port or limited access port on different network
Each Port has Separate Mac Address and IP Address
Each Port Communicates Modbus and DNP 3.0 over Ethernet
The Primary port can control the secondary port data access
Multiple municipalities can securely share data from one meter through separate networks
Perfect for redundant, high reliability applications

83. Dual Ethernet Port Applications
Generation (Power Plants)
Port 1 is Connected to Plant DCS System
Port 2 is Connection to ISO Power Pool, Separate Transmission Utility or other 3rd party
Transmission (Utility)
Port 1 Connected to Transmission SCADA
Port 2 Given to Municipal to Read Meter
Distribution (Utility)
Port 1 Read by Utility Scada System
Port 2 Given to Industrial Customer to view Power Quality.
Will my IT Dept approve this? Yes.
1. Ports have separate /IP addresses and MAC Addresses. Port 1 as a master and unlocks what port two can view.
2. Meter’s OS is proprietary. Doesn’t use Linux or Windows. Impossible to hack.

84. Total Web Solutions Create Custom Web Site Screens
Allows a Simple Solution to put Readings on Web
Web Explorer – Meter Directly Hosts Web Pages
Download MV90 Data through Web
Web XML – Customize Web Sites to Meet for your Application
Automatic Downloads of Stored Waveform Data.
Web Alarm – Alarm Conditions out to up to 10 users
WebReacher – Reach other Meters on Web
WebDNP – Gain Access to the Meter Speaking Native DNP over Ethernet
10/100 Base T Ethernet
Works through browswer on Iphone, Android, Ipad etc.!!
Works also with Firefox and other browsers

85. EPM 9900 Top Advantages Reason why the 9900 is the Best
Very High Performance Recording Capability – Gigs of Memory to safely store data for years
Up to 10 MHZ Capture speed to capture every anomaly. This meters doesn’t miss events.
Large Color Display – Easy navigation
Highly Versatile Communication Options – Up to 6 com ports
Intrinsically Safe Mechanical Construction - Best Current Inputs Connections
Upgradable I/O useful for every application
Easy to use configuration software
Reason why the 9900 is the Best

86. Order Codes