Shark 270 Meter Brochure V.1.07 Revenue Energy E159710
User Manual: Pdf Shark-270-revenue-energy-meter-brochure E159710
Open the PDF directly: View PDF 
.
Page Count: 12
| Download | |
| Open PDF In Browser | View PDF |
SOCKET FORM REVENUE METER
www.electroind.com
Economical and Highly Featured
Revenue Meter
Power Quality Meter
• 0.15% Energy Accuracy
• Power Quality Analyzer with Limits, %THD
Monitoring and Harmonics Recording
• Compliant with ANSI C12.20 Class 0.2 and IEC
62053-22 Class 0.2S
• 512 Samples/Cycle Waveform Recorder on Surges
and Sag Events
• Time of Use, Transformer/Line Loss Compensation,
and Test Mode
• Real Time SCADA Communication Capability:
Modbus RTU Modbus TCP/IP, Level 2 DNP3,
and IEC 61850
• Onboard Storage to Retain Data for Later Retrieval
• Extensive Logging and Recording
New
• 3 Communication Ports
• Ethernet Communication Offers Data Push to
Cloud Servers
• Enhanced Security with IP Whitelisting
• Rugged Design with New Advanced Primary
Surge Suppression
Electro Industries/GaugeTech™
The Leader in Power Monitoring and Smart Grid Solutions™
MV90
Compatible
DESCRIPTION
The Shark® 270 is a socket form revenue meter designed for
both critical meter applications and basic commercial/industrial
metering applications. It is a significant departure from existing
technology, incorporating high-end revenue metering functions in
an economical design.
The Shark® 270 meter is a full four quadrant, bidirectional
revenue meter that can also be used for inter-tie metering. Its
0.15% metrology accuracy meets and exceeds all the accuracy
requirements of ANSI C12.20 Class 0.2% and IEC 62053-22
CL 0.2S. The meter has advanced revenue metering features
that allow it to be used not only for measuring basic energy, but
also for providing a full complement of necessary tools, such
as transformer/line loss compensation, CT/PT compensation,
advanced test mode, perpetual TOU, and extensive logging for
interval energy storage.
The Shark® 270 meter is designed to be field upgradeable. When
enabled, the meter will provide extensive power quality features,
including the ability to measure harmonics to the 40th order. In
addition, it will provide a captured waveform of voltage surges
and sags; current fault events; imbalance analysis, including
symmetrical components; and much more.
All data can be analyzed using EIG’s software, or converted to
PQDIF® or COMTRADE® formats for analysis by third
party systems.
The Shark® 270 meter also has one of the industry’s most
comprehensive communication capabilities, including extensive
Ethernet functionality. It can send out data via a host of protocols,
including Modbus, DNP3, and IEC 61850, to help in solving any
metering data dilemma.
FROM THE SIMPLE TO THE COMPLEX
• 0.15% revenue certifiable energy and demand metering
• Meets ANSI C12.20 Class 0.2% and IEC 62053-22 CL 0.2S
Accuracy
Parameters
Accuracy
Voltage L-N [V]
0.1% of reading
• Transformer/line loss and CT/PT compensation
Voltage L-L [V]
0.2% of reading
• Test mode and energy presets
Current Phase [A]
0.1% of reading
Current Neutral (calculated) [A]
2% of Full Scale
Active Power Total [W]
0.15% of reading
Active Energy Total [Wh]
0.15% of reading
• Configurable pulse accumulators and aggregators
Reactive Power Total [VAR]
0.2% of reading
• Ten logs, including six historical logs for trending data
Reactive Energy Total [VARh]
0.2% of reading
• Up to 128 MB memory for logging and data storage
and analysis
Apparent Power Total [VA]
0.2% of reading
Apparent Energy Total [VAh]
0.2% of reading
Power Factor
0.2% of reading
Frequency [Hz]
+/- 0.007 Hz
Harmonic Distortion (1 to 99.99)%
+/- 2%
• Time of Use functionality
• Multifunction measurement including voltage, current, power,
frequency, energy, etc.
• Power quality measurement of %THD and alarm limits,
symmetrical components, voltage and current unbalance
• Sampling rate of up to 512 samples per cycle for
waveform recording
• Multiple standard and optional communication ports
• Optional 100BaseT Ethernet with embedded web server*
• Optional IEC 61850 Protocol server*
• Cyber security, including multilevel passwords and physical
sealing switch
* Only one Ethernet card (INP100S or INP300S) can be used in
the meter.
2
Note: See the Shark® 270 Meter User Manual for full
accuracy specifications.
Applications
• Primary revenue metering
• Industrial and commercial metering and sub-metering
• Advanced metering infrastructure
• Customer power quality
• Grid monitoring and substation metering
• Distribution automation
SHARK®270
METER
PRIMARY REVENUE METERING
Advanced Energy Metrology
Time of Use
Utilities today face many challenges when metering customers.
Installed meters need to be highly accurate and verifiable. Due to
reductions in labor force, modern meters need to be both reliable
and designed for a long operation life. The Shark® 270 meter
meets these requirements with advanced metering technology and
superior engineering to improve reliability.
The Shark® 270 meter uses a perpetual Time of Use
(TOU) calendar that only needs to be set up once. The TOU
implementation allows the user to set up multiple rates to meet
any contractual obligation. It also allows the user to customize any
energy parameter for TOU. The 16 available TOU registers can be
configured not only for TOU built-in energy readings, but also for
any stored data from pulses.
The meter is an ANSI C12.20 Class 0.2% meter that also
conforms to the IEC 62053-22 CL 0.2S standard for accuracy.
The Shark® 270 meter is designed to provide precise and reliable
measurements that are highly stable, and that maintain accuracy
over a long period of time.
• Perpetual TOU calendar – set up only once and use indefinitely
• Up to four seasons - seasons can be customized
• Up to 12 months per year - set independently from seasons
• Flexible billing periods/rates/holidays/schedules setup
• Perform TOU on up to 16 configurable datasets consisting of 38
channels of data, including all energy channels and readings per
quadrant and phase, and pulse aggregators
• Cumulative and continuous cumulative demand are available
KYZ Pulse Outputs/Inputs
In addition to test mode pulses, the meter has one standard KYZ
pulse output, and up to 8 optional pulse outputs, that allow the
meter to deliver energy pulses to a separate recorder, RTU or other
type of energy data collector.
Loss Compensation
The meter can compensate energy readings for transformer and
line losses. This allows a utility to properly bill a customer for
usage, even if the meter is placed on the secondary side of the
transformer.
The meter can also function as a recorder itself, by accepting up
to 8 optional pulse inputs. These energy values can be logged by
the meter’s internal profiling memory, allowing for energy flow
analysis over time, which is useful for billing, planning and/or
circuit efficiency analysis. The input values can also be totalized in
the meter's aggregators.
Test Mode and Energy Presets
Two test pulses located on the meter's face can be used to
simultaneously test watt hour and VAR hour readings for accuracy
verification. When placed into test mode, the unit freezes and
stores all the energy parameters, allowing users to test and verify
energy accuracy without changing meter readings. The meter can
also receive preset energy values, so that it can replace an existing
field installation, without disturbing faceplate monthly energy reads.
Two Programmable
Test Pulses
CT/PT Compensation
For stringent accuracy requirements, the meter can compensate
for the inaccuracies of the instrument transformers. The Shark®
270 meter has built-in features that allow a utility provider to adjust
the energy meter to compensate for these inaccuracies, using both
amplitude and phase angle adjustments.
Display
Shows Test
Status
Test Mode
Button
3
UNIQUE SCREEN DESIGNER
The Shark® 270 meter provides one of the industry’s most
advanced LCD display configuration technologies - the Screen
Designer, which lets you create fully customized display screens
for any specific application. Use the Screen Designer to build user
display screens that provide information on anything the meter
measures. In addition to the custom displays, the meter comes preprogrammed with multiple display screens.
Normal Mode
• Wh delivered and received
• Peak Rolling Window demand
• VAh delivered and received
• Peak Block Window demand
• VARh delivered and received
• Com port settings
3 Display View Modes/250 Screen Slots
The meter’s memory has 250 slots for custom and/or
pre-programmed screens. These slots can be allocated to any view
mode, with any number of slots used in each of the modes.
Time of Use Mode
• Wh and W demand delivered and received, total
• VARh and VAR demand delivered and received for each
register
Screen Designer to Create Exactly What's Needed
• Make custom screens that display any meter readings
• Customize screen labels
• Customize screen numbering and order
• Display water, gas and other types of usage
• Add diagnostic information
• Provide ambient and transformer temperature, or any other
desired critical operational data
• Use the meter as an aggregator and display total usage
• VAh delivered and received for each register
• VAh delivered and received, total
• Present season, past season
• Present month, past month
• Any other needed TOU measurements
Pre-Configured Diagnostic Screens
Select from a large offering of diagnostic screens, such as:
• Voltage phase angles
• Harmonic magnitudes
• Firmware versions
• Meter status
• Phasor diagram
• Per phase current and power measurements
• Segment checks
• Meter configuration
• Many additional diagnostic screens available
4
SHARK®270
METER
DATA TRENDING AND ANALYSIS
The Shark® 270 meter has up to 128 MB of memory for data
logging, used for historical trends, limit alarms, I/O changes and
sequence of events. The meter's advanced storage means the
unit can be programmed to store historical and waveform data for
many years. The unit's real-time clock allows for time stamping
of all the data in the instrument when log events are created. The
clock is accurate to 3 ppm and is very stable over temperature.
I/O Change Log
Historical Logs
• Provides magnitude and duration
of an event
• 6 assignable historical logs
• Provides a time stamped log of any relay output
• Provides a time stamped log of input status changes
• 2048 events available
Limit/Alarm Log
• Includes time stamps &
alarm value
• Independently programmed
trending profiles
Alarm Log
• 2048 events available
• Up to 64 parameters per log
Historical Trending
System Events Log
To protect critical billing information, the meter records and logs
the following with a time stamp:
• Demand resets
• System startup
• Energy resets
• Log resets
• Critical data repairs
• Programmable settings changes
• Password requests/
sealing switch changes
• Email on alarm capability
with INP100S Ethernet card
Limit Alarms and Control
Capability (V4 Option)
Limit Setup
Limit Events:
• Any measured parameter
• Up to 16 limits
• Voltage unbalance
• Current unbalance
• Based on % of full scale settings
POWER QUALITY MEASUREMENT AND ANALYSIS
The Shark® 270 meter records up to 512 samples per cycle for a
voltage sag or swell, or a current fault event. The unit provides the pre
and post-event recording capability shown in the table below. Waveform
records are programmable to the desired sampling rate. V5 provides up
to 128 MB of storage.
basic oscilloscope throughout a power system.
The meter's advanced DSP design allows power quality triggers to be
based on a 1 cycle updated RMS. Hundreds of events can be stored
until the memory fills. The meter stores waveform data in a first-in/firstout circular buffer to insure data is always recording.
Harmonic Recording to the 40th Order
Optional Waveform Recorder
V4
V5
Samples
per Cycle
Pre Event
Cycles
32
64
128
256
512
16
8
4
2
1
Post Event
Cycles
48
24
12
6
3
The meter stores an independent CBEMA log for magnitude and
duration of voltage events. This allows a user to quickly view total
surges, total sags and duration, without retrieving waveform data.
The Shark® 270 meter provides advanced harmonic analysis to the
40th order for each voltage and current channel, in real time. Using
the stored waveforms, harmonic analysis is available to the 255th
order.
Max Waveform
per Event
128
64
32
16
8
Note: Sampling rate based on 60 Hz systems. For 50 Hz systems, multiply
by 1.2.
Waveform Scope
The unit uniquely offers a
waveform scope to view the real
time waveform for voltage and
current. The waveform scope
allows the meter to be used as a
Independent CBEMA Log Plotting
Waveform Scope Display
Harmonic Spectrum
(40th Order)
Waveform
Zoomed
6 Channels of Waveforms
5
STANDARD AND OPTIONAL COMMUNICATION CAPABILITY
The meter has a standard RS485 serial port that can be used for
either Modbus RTU /ASCII or Level 2 DNP3. The optional INP100S
Ethernet card allows the meter to speak multiple sessions of
Modbus TCP and DNP3. The optional INP300S Ethernet card allows
the meter to speak via Modbus TCP and IEC 61850. The meter
supports a comprehensive array of different communication options,
including serial, Ethernet, and optical through the IR port. Using the
Ethernet and/or serial port, the meter can be easily connected to
multiple third party systems and to EIG’s meter reading software,
Energy Manager EXT.
ANSI Optical Port
RS485 Port
•
•
Modbus RTU/ASCII
•
Level 2 DNP3
•
Up to 57.6k baud
•
Convertible to USB using
RS485 to USB cable,
E159343
ANSI Type 2 Optical port
for laptop PC read and
programming
•
Modbus RTU/ASCII
•
Up to 57.6k baud
FIELD EXPANDABLE I/O AND COMMUNICATION CAPABILITIES
The Shark® 270 meter offers unequaled I/O expandability. Using the two universal option slots, the unit can be easily configured to accept
new I/O cards even after installation. The unit auto-detects installed I/O option cards. Up to 2 cards of any type* can be used per meter. For
metering applications, it is imperative to not only measure the energy data, but also to be able to communicate this real time data, in order
to meet many operational needs. The Shark® 270 meter is able to send data to many different systems, using multiple open protocols.
These protocols include Modbus RTU/ASCII/TCP, DNP3 and IEC 61850. The meter’s communication architecture is flexible, and designed to
integrate directly into most existing systems.
1. INP100S: 100BaseT Ethernet Capability
• Max. Load Impedance 10 kΩ
Provides the meter with 100BaseT Ethernet functionality.
• Range +/- 0-1 mA
• Embedded web server, smartphone compatible
• Designed for RTUs and generating stations
• Network Time Protocol (NTP) support (Network Clock Sync)
• 12 simultaneous Modbus TCP/IP connections
• 5 simultaneous DNP3 over TCP/IP connections
• Supports alarm emails and periodic email notification of meter
status/reading data
New
• Offers enhanced security to protect from unauthorized
programming
4. 20mAOS: Four Channel 4-20 mA Outputs
• Assignable to any parameter
• 0.1% of full scale
• 850 Ω at 24 V DC
• Loop powered using up to 24 V DC
• Ideal for any process control application
• Supports data push to cloud servers
5. PO1S: Four Pulse Outputs / Four Status Inputs
2. INP300S: IEC 61850 Protocol Ethernet Card
• Programmable to any energy parameter and pulse value
• Simultaneous Modbus TCP/IP and IEC 61850
• Form A: Normally open contacts
• 5 simultaneous MMS clients
• Also used for End of Interval pulse
• Multiple Logical Nodes, including LLN0, LPHD, MMXU,
MHAI, MMTR, and others.
• 120 mA continuous load current
• Polled operation mode (queried reports)
• Buffered and unbuffered reports
• Configurable .CID file
• Offers enhanced security to protect from unauthorized
programming of meter settings
• Status inputs - dry contact status detection, only
• Provides KY outputs and pulse input counting
6. RO1S: Two Relay Outputs / Two Status Inputs
• 30 V AC / 30 V DC - 0.25 A relays, form C
• Trigger on user set alarms
3. 1mAOS: Four Channel Bi-directional 0-1 mA Outputs
• Set delays and reset delays
• Assignable to any parameter
• Status inputs – dry contact status detection, only
• 0.1% of full scale
• Allows for control, alarm and status (must be at V4 or
higher for limit alarms and control)
6 *Only one Ethernet card (INP100S or INP300S) can be used.
SHARK®270
METER
V-SWITCH™ KEY TECHNOLOGY
The Shark® 270 meter is equipped with EIG's V-Switch™ key
technology. This technology uses an algorithm to generate a code
that activates more advanced features for the meter. This code can
be applied in the field, without needing to remove the meter from
installation.
Features
V1
V2
V3
V4
V5
Multifunction Measurement
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
Programmable Display
Time of Use
System Events
The base Shark® 270 meter with V1 provides basic features,
including highly accurate energy measurement and Time of Use.
Many users will find this sufficient for base applications. But
when applications become more complex, addressing the need
for advanced features is simple. The user only needs to contact
EIG and purchase a V-Switch™ key for whichever meters need
upgrading.
Input Status Change
Limits
Harmonics
2 MB Memory*
P
4 MB Memory*
P
10 MB Memory**
The minimum V-Switch™ key for load profiling is the V2 option.
This option allows up to 3 assignable logs and more than 3
months of storage. If the need for additional logs and storage
arises, the unit can be easily upgraded to allow for more features
and memory allocation.
P
Waveform 128 Samples per
Cycle
P
Waveform 512 Samples per
Cycle
CT/PT Compensation
V-Switch™ key technology is important to conserve economic
resources, because cost-effective solutions can be massdeployed, and then units can be upgraded on an as-needed basis.
The chart on the right explains the V-Switch™ keys available for
the Shark® 270 meter.
P
128 MB Memory**
TLC Compensation
P
P
IEC 61850 Protocol
Level 2 DNP3
Modbus Protocol
P
P P P
P P P
P P
P P
P P P
P
P
P
P
P
P
* Enables up to 3 Historical logs. **Enables up to 6 Historical logs.
UNIQUE SURGE SUPPRESSION MODULE TO PROTECT AGAINST DAMAGING SURGES
The Shark® 270 meter is designed to withstand harsh electrical
environments. Revenue meters are often placed in remote
locations that can be susceptible to transient events, surges,
sags and other electrical anomalies. The Shark® 270 meter
uniquely filters these events from damaging the electronics of the
instrument, while still providing the ability to record the waveforms
of their occurrence.
The meter has a protection module consisting of a combination
of high power metal oxide varistor, gas-tube and high power
resistors, to attenuate powerful surges the meter may receive.
The unique network created by these parts assures that the
energy from the surges is well-absorbed before it can reach the
meter’s sensitive electronic circuitry. The heat dissipation from the
surges is distributed evenly between the protective components,
which increases the transient suppression device's longevity and
effectiveness.
In addition, immunity against high frequency interference signals
is enhanced by additional filtering circuits, which are included in
the protection module. The protection module was created to be
an independent hardware, dedicated to dealing with the offending
signals, and housed separately from the rest of the circuits, in a
compartment just large enough for it to perform its function.
7
UTILITY METERING
Highly Accurate Measurements for Grid Metering and
Power Generation
Power Quality and Fault Analysis
The Shark® 270 meter is designed with the latest DSP technology,
providing highly accurate measurements that allow users to obtain
reliable data for inter-tie billing, power generators and alternative
energy solutions. The meter provides a versatile, reliable solution
for measuring energy and providing accurate cost analysis and
allocation.
The Shark® 270 meter’s power quality features allow a user to not
only analyze real time data, but to have access to fault data and
power quality information, via a host of analytical tools. These tools
provide easy conversion to COMTRADE and PQDIF formats, making
the meter very helpful in standardizing fault data power system-wide.
The meter measures and records critical power quality data such as
harmonics, PF and phase imbalance, to provide advanced analysis
options for improving power system reliability.
Better Communication for Advanced Smart
Substation Applications
With the Shark® 270 meter, the user obtains advanced
communication usually found only in higher-end, more costly,
solutions. Whether it’s communicating DNP3 or IEC 61850 in smart
substation applications, the meter has the ability to send data
to multiple software systems, providing real time information as
well as stored interval data. The Shark® 270 meter is capable of
communicating with an RTU to bring SCADA information back via
one protocol, while itself being evaluated by other software systems
for interval or power quality analysis.
Waveform Zoomed
8
SHARK®270
METER
INDUSTRIAL AND COMMERCIAL ENERGY METERING
The Perfect Upgrade Solution to Existing Mechanical
Meters
Diagnose Power Quality Events at Incoming Circuts
The Shark® 270 meter is an ideal upgrade to existing, noncommunicating mechanical, or older solid state, meters. By just
replacing the existing meter with the new Shark® 270 unit, the
basic metering capability is transformed into a communicating
solution. With the standard Shark® 270 unit, the meter is provided
with an RS485 Modbus port. With the optional Ethernet module,
the meter is capable of communicating over Ethernet to send
Modbus data to most standard energy management and building
automation systems.
With the Shark® 270 meter, a facility manager or engineer can
view power quality events that occurred at the incoming service
point, allowing him or her to analyze the cause of these events
and implement remediation. With the Shark® 270 meter’s power
quality information, users will be able to see how many events
occurred and what types of events were experienced, and also
be able to determine if these events could affect their installed
sensitive equipment.
Power quality events include records of faults, voltage surges
and sags, harmonics, imbalances, power factor and many other
indices. This data is automatically collected and stored in remote
databases for system-wide analysis.
Email and Data Push Features Perfect for Cloud
and IOT (Internet of Things) Solutions
The Ethernet capability of the Shark® 270 meter offers many
advanced features that are useful for industrial and commercial
applications. In addition to communicating via Modbus TCP, the
meter can be configured to send emails on alarm conditions.
These emails allow facility managers to be made aware of high
demand conditions, alarms and other issues that affect both energy
reliability and cost.
The email feature also allows users to send periodic notifications
of values, such as demand and energy consumption. This is useful
for energy dashboards and other cloud software applications,
which can receive data on usage and alarms in this way. And it is
essential for IOT applications, in which a user wants to integrate
many, or all, electrical appliances and pieces of apparatus.
The Shark® 270 meter also supports data push to cloud servers
that use the JSON structure, such as Lucid BuildingOS® Data
Push. The meter can send up to 15 meter readings to the cloud
service, to support cloud-based building management applications.
Multi-Cycle Fault Events
9
DIMENSIONAL DRAWINGS
7.03 in
17.87 cm
7.51 in
19.08 cm
6.96 in
17.68 cm
8.75 in
22.23 cm
Shark® 270 Meter S-Base Side View
Shark® 270 Meter S-Base Front View
0.87 in
2.21 cm
6.96 in
17.68 cm
7.51 in
19.08 cm
10.4 in
26.42 cm
2.02 in
5.13 cm
6.84 in
17.37 cm
Shark® 270 Meter A-Base Front View
10
9.46 in
24.03 cm
Shark® 270 Meter A-Base Side View
SHARK®270
METER
WIRING DIAGRAMS
FORM: 9S (TRANSFORMER RATED)
SERVICE: WYE / DELTA, 4 WIRE
NO PTs, 3 CTs
3
FORM: 36S (TRANSFORMER RATED)
SERVICE: WYE, 4 WIRE
NO PTs, 3 CTs
V3
V3
V2
V1
N
*REFFER TO SHORTING BLOCK
INSTRUCTIONS TO APPLY
SHORTS
V2
3
1
LINE
1
LINE
3
V1
*REFFER TO SHORTING BLOCK
INSTRUCTIONS TO APPLY
SHORTS
N
2
1
2
2
*
*
*
*
*
*
Earth Ground
Earth Ground
N
V1
V1
V2
N
V3
FUSES
V3
FUSES
LOAD
LOAD
Earth Ground
Earth Ground
Form 9S WYE/DELTA, 4 WIRE
Form 36S WYE, 4 WIRE
FORM: 45S (TRANSFORMER RATED)
SERVICE: DELTA, 3 WIRE
NO PTs, 2 CTs
3
LINE
V3
V2
V1
*REFFER TO SHORTING BLOCK
INSTRUCTIONS TO APPLY
SHORTS
1
*
*
Earth Ground
V1
V2
V3
FUSES
LOAD
Earth Ground
Form 45S DELTA, 3 WIRE
11
Specifications
Sense Inputs Electrical Ratings
Current
•
•
•
•
•
•
•
•
Transformer rated
Two or three current inputs
depending on Form (Ia,
Ib, Ic)
Class 2 - 1 A nominal,
burden 0.0112 VA at 2 A
Input/phase
Class 20 - 5 A nominal,
burden 0.0112 VA at 20 A
Input/phase
Pickup Current: Shall begin
reading at 0.001 A (1 mA)
for Class 2 and 0.005 A (5
mA) for Class 20
Continuous maximum
ratings: Class 2 - 5 A AC
Class 20 - 30 A AC
Overcurrent ratings as the
factor of Current Class: 5x
- for 10 seconds, 15x - for 3
seconds, 25x - for 1 second
The current inputs are only
to be connected to external
CTs
connection: 0.09 VA/input
at 600 V AC (4 MΩ/input);
Unit powered from voltage
blades: see power supply
ratings
Power Supply
•
•
•
•
•
•
Voltage
•
•
•
•
•
Absolute Maximum
rating, between any voltage
inputs: Unit with external
power connection: 720
V AC; Unit powered from
voltage blades ("-S" option):
576 V AC
Supported common Power
Mains with direct voltage
connections: Forms 9S,
36S, 45S with blade ("-S")
or external ("-SE") power
option; 57.7/100 V, 69/120
V, 120/208 V, 230/400 V,
277/480 V; Form 45S with
external ("-SE") power
option only: 347/600 V; for
lower or higher voltage
Power Mains use voltage
transformers
Input Impedance: 4 Mohm
per phase
Surge withstand. See compliance section for details
Burden: with external power
Input Voltage range:
Absolute maximum continuous: 576 V AC (between
any voltage inputs in blade
powered units, "-S" option);
277 V AC or 400 V DC
(externally powered units,
"-SE" option)
Absolute minimum startup/
dropout voltage for blade
powered, fully loaded unit
("-S" option), at 60 Hz. All
applicable blades are
symmetrically energized:
4W Wye service, Form
9S, 3 x L-N: 45/35 V AC
4W Wye service, Form
36S, 2 x L-N: 50/45 V AC
4W Delta service, Form
9S, 3 x L-N: 70(40)/52(30)
V AC - high (low) phase
3W Delta service, Form
45S, 3 x L-L: 65/55 V AC
Absolute minimum startup/
dropout voltage for externally powered , fully loaded
unit ("-SE" option), at 75/70
V AC or DC
Frequency range: (45 to 65)
Hz or DC
Ride through characteristics
at 120 V maximum power
consumption: ~33 ms
Power consumption (burden), maximum: 8 VA/4.5 W
per Phase – with 3 phase
supply; Typical burden with
1 Ethernet Card installed:
3.3 VA/1.7 W per phase – at
3 phase 120 V AC
•
•
•
•
•
•
•
•
•
•
Between human accessible
I/O connections and power,
voltage, current inputs:
2500 V AC
Between power and voltage
and current inputs: 2500
V AC
Between human accessible
I/O connections: 500 V AC
Isolation is Hi-Pot test verified in factory
•
•
•
•
•
•
•
•
•
Memory
•
Up to 128 MB of Flash
memory
•
Standard Communication
•
•
•
•
•
LCD display
ANSI Type 2 Optical port
RS485 serial port
Modbus® RTU, Modbus
ASCII and DNP3 protocols
Data Speeds of up to 57600
bps
•
Optional Communication
•
INP100S: 10/100BaseT
Ethernet with Total Web
Solutions
INP300S: IEC 61850
Protocol server
Modbus TCP/IP, DNP3, IEC
61850
•
•
Standard KYZ/RS485 Card
Specifications
•
•
•
•
Graphical back-illuminated
TFT LCD programmable
display
Pre-configured screens and
•
Isolation
Display
•
Screen Designer for fully
customized screens
Size: 2.7"
Resolution: 400 X 240
•
•
•
•
Clock Timing
•
Internal Clock Crystal accuracy better than 15
seconds per month
Line Frequency Clock
Synchronization - accuracy
better than 1 second per
month
Internet synchronization
with optional Network card
(SNTP Protocol)
•
•
Internal Battery (for Time Only)
•
•
Operating Temperature: (-40
to +70)°C
Display Operating
Temperature: (-30 to +60)°C
Humidity: 95% RH noncondensing
Storage Temperature: (-40
to +85)°C
Raintight Lexan Cover, UV
protected
Protection Class: front IP65,
rear IP51
•
•
•
•
•
3V Lithium Battery maintains time during outages
- part #BATT21214
Battery life 10 years from
date of manufacture when
properly installed in meter
Compliance
•
•
•
•
•
•
•
•
•
•
•
•
•
Environmental (Temperature
Specifications to Indirect Light) •
•
RS485 Port:
RS485 Transceiver;
meets or exceeds EIA/
TIA-485 Standard
Type: Two-wire, half
duplex
Min. input impedance:
96 kΩ
Max. output current:
±60 mA
Wh Pulse
KYZ output contacts, and
infrared LED light pulses
through face plate - "P"
light port, Kh value is
user definable
Pulse Width: 100 ms,
fixed
Full Scale Frequency:
~5 Hz
Contact type:
SPDT (NO – C – NC)
Relay type: Solid state
Peak switching voltage:
AC/DC 30 V
Continuous load current:
120 mA
Peak load current: 350
mA for 10 ms
On resistance, max.:
35 Ω
Leakage current: 1 μA
maximum
Isolation: 3750 V AC
Reset state: (NC - C)
Closed: (NO - C) Open
ANSI C12.18 (Type 2
Optical Port)
ANSI C12.20 0.2% Accuracy
Class (METLAB tested)
CE (IEC 61000-6-2 & IEC
61000-6-4)
EU Directive 2014/32/EU
(Measuring Instruments
Directive)
EU Directive 2011/65/EU
(RoHS 2 Directive)
FCC Class B (Radiated*
and Conducted Emissions)
IEC 61000-4-2 (Electrostatic
Discharge)
IEC 61000-4-3 (Radiated EM
Immunity)
IEC 61000-4-4 (EFT)
IEC 62052-11 (General
Requirements; Mechanical
Properties; Climactic
Influences)
IEC 62053-22 CL 0.2S (0.2%
Accuracy)
IEC/CISPR 11 (Radiated
Emissions)
IEEE C37.90.1 (Surge
Withstand)
IEEE C62.41 (Surge
Immunity)
•
REACH Compliant
•
RoHS Compliant
* With no I/O card installed. Other
tests are pending. Contact
factory for details.
Shipping Dimensions
•
Size: 10" W x 10" D x 12" H
•
Weight: 5.6 lbs/2.54 kg
•
Meter weight without Option
cards: 4.4 lbs/1.83 kg
Ordering Information - all fields must be filled in to create a valid part number
Form
Model
Option
Numbers:
Example:
Shark270
-
Shark270
(Revenue Meter)
9S
Frequency
-
60
9S
36S
45S
9A
Current Class
-
2
-
V2
S
2
2A
Secondary
V1
Multifunction
Meter
S
Blade
Powered
60
60 Hz
System
20
20 A
V2
Standard Data
Logging Memory
SE
Externally
Powered
I/O Slot 1*
-
INP100S
E159343 – RS485 to USB Converter Cable
Unicom 2500 – RS485 to RS232 Converter
Standalone I/O Module Kits for the
Shark 270 Meter
®
PO1S-KT – 4 Pulses/4 Inputs plus cable
RO1S-KT – 2 Relays/2 Inputs plus cable
Converter
20mAOS-KT – 4 Channel, 4-20 mA, Analog
Outputs plus cable
CONN20163-KT – Terminal Breakout Box Kit
*INP100S-KT – 100BaseT Ethernet plus cable
for I/O (converts RJ45 cable
*INP300S-KT – IEC 61850 Protocol Ethernet
connection to an 8 pole
plus cable
screw terminal receptacle)
V4
128 Samples/
Cycle
Waveform
Recording
V5
512 Samples/
Cycle
Waveform
Recording
Extended
Memory
1800 Shames Drive • Westbury, NY 11590
1- 877-EIMETER (1- 877-346-3837) • E-Mail: sales@electroind.com
Tel: 516-334-0870 • Web Site: www.electroind.com • Fax: 516-338-4741
12
-
X
X
None
PO1S
4 Pulses /
4 Inputs
PO1S
4 Pulses /
4 Inputs
RO1S
2 Relays /
2 Inputs
RO1S
2 Relays /
2 Inputs
1mAOS
4 Channel
Analog Output
0-1 mA
1mAOS
4 Channel
Analog Output
0-1 mA
20mAOS
4 Channel
Analog Output
4-20 mA
20mAOS
4 Channel
Analog Output
4-20 mA
INP100S
100BaseT
Ethernet
INP300S
IEC 61850
Protocol
Ethernet
* Only one Ethernet card, INP100S-KT or INP300S-KT, can be used in a meter.
Electro Industries/GaugeTech
I/O Slot 2*
X
None
V3
Power Quality
Harmonics
Additional Accessories
COMEXT4P – Communicator EXTTM 4.0
Software, Single License
-
Power Supply
50
50 Hz
System
Communication Converters
Software
V-Switch™ Pack
* Only one Ethernet card, INP100S or
INP300S, can be used in a meter.
Shark® 270
Webpage
E159710 032018 V.1.07
Source Exif Data:
File Type : PDF File Type Extension : pdf MIME Type : application/pdf PDF Version : 1.6 Linearized : Yes Author : Electro Industries Create Date : 2018:03:20 12:37:49-04:00 Modify Date : 2018:03:20 12:44:14-04:00 XMP Toolkit : Adobe XMP Core 5.2-c001 63.139439, 2010/09/27-13:37:26 Metadata Date : 2018:03:20 12:44:14-04:00 Creator Tool : Adobe InDesign CS6 (Windows) Instance ID : uuid:458a8620-5731-4f56-ba6a-8334464d6ad0 Original Document ID : adobe:docid:indd:5546d5a8-555a-11e0-a36c-f7b30d6f168b Document ID : xmp.id:31DD11075D2CE811BADFC90540D435C6 Rendition Class : proof:pdf Derived From Instance ID : xmp.iid:E1FEE9F15C2CE811BADFC90540D435C6 Derived From Document ID : xmp.did:E1FEE9F15C2CE811BADFC90540D435C6 Derived From Original Document ID: adobe:docid:indd:5546d5a8-555a-11e0-a36c-f7b30d6f168b Derived From Rendition Class : default History Action : converted History Parameters : from application/x-indesign to application/pdf History Software Agent : Adobe InDesign CS6 (Windows) History Changed : / History When : 2018:03:20 12:37:49-04:00 Format : application/pdf Title : Shark 270 Meter Brochure V.1.07 Creator : Electro Industries Producer : Adobe PDF Library 10.0.1 Trapped : False Page Count : 12EXIF Metadata provided by EXIF.tools