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3.3: Secure the Cover
1. Close the cover, making sure that power and communications wires exit the submeter through the openings at the base.
Screw
CAUTION!
To avoid damaging components on the board assembly, make sure the front cover support is in the upright position before closing the front cover.
2. Using the 3 enclosed screws, secure the cover to the base in three places.
Do not overtighten (you may damage the cover).
The unit can be sealed after the front cover is closed. To seal the unit, thread the seal tag through the housing located between the bottom access holes.
3. Reattach the antenna, if appropriate.
Seal Housing
Figure 3.5: Shark® 100-S Meter Closed
Q
Recommended Tools for Shark® 100-S Meter Installation: #2 Phillips screwdriver and wire cutters. e
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Chapter 4
Electrical Installation
4.1: Considerations When Installing Meters
Q
Installation of the Shark® 100-S meter must be performed by only qualified personnel
who follow standard safety precautions during all procedures. Those personnel
should have appropriate training and experience with high voltage devices.
Appropriate safety gloves, safety glasses and protective clothing are recommended.
Q
During normal operation of the Shark® 100-S meter, dangerous voltages flow through
many parts of the meter, including: Terminals and any connected CTs (Current
Transformers) and PTs (Potential Transformers), all I/O Modules (Inputs and
Outputs) and their circuits. All Primary and Secondary circuits can, at times, produce
lethal voltages and currents. Avoid contact with any current-carrying surfaces.
Q
Do not use the meter or any I/O Output Device for primary protection or in an
energy-limiting capacity. The meter can only be used as secondary protection. Do
not use the meter for applications where failure of the meter may cause harm or death.
Do not use the meter for any application where there may be a risk of fire.
Q
All meter terminals should be inaccessible after installation.
Q
Do not apply more than the maximum voltage the meter or any attached device can
withstand. Refer to meter and/or device labels and to the Specifications for all
devices before applying voltages. Do not HIPOT/Dielectric test any Outputs, Inputs
or Communications terminals.
Q
EIG recommends the use of Shorting Blocks and Fuses for voltage leads and power
supply to prevent hazardous voltage conditions or damage to CTs, if the meter needs
to be removed from service. CT grounding is optional.
NOTE: IF THE EQUIPMENT IS USED IN A MANNER NOT SPECIFIED
BY THE MANUFACTURER, THE PROTECTION PROVIDED BY THE
EQUIPMENT MAY BE IMPAIRED.
NOTE: THERE IS NO REQUIRED PREVENTIVE MAINTENANCE OR
INSPECTION NECESSARY FOR SAFETY. HOWEVER, ANY REPAIR OR
MAINTENANCE SHOULD BE PERFORMED BY THE FACTORY.
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DISCONNECT DEVICE: The following part is considered the equipment disconnect device.
A SWITCH OR CIRCUIT-BREAKER SHALL BE INCLUDED IN THE END-USE
EQUIPMENT OR BUILDING INSTALLATION. THE SWITCH SHALL BE IN
CLOSE PROXIMITY TO THE EQUIPMENT AND WITHIN EASY REACH OF THE
OPERATOR. THE SWITCH SHALL BE MARKED AS THE DISCONNECTING
DEVICE FOR THE EQUIPMENT.
4.2: Electrical Connections
Q
All wiring for the Shark® 100-S meter is done through the front of the unit (lifting the cover
with the power to the unit OFF) so that the unit can be surface mounted. Connecting
cables exit the unit via two openings in the base plate.
Wireless Ethernet Connection
Current
Inputs
Electronic Circuits
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vn L1 L2 PE
Z K Y A B SH
(+)(-)
Voltage
Inputs
Power Supply
Inputs (Inputs are unipolar)
Access Holes for
Wiring
Figure 4.1: Submeter Connections
Ethernet, RJ-45
Jack
RS-485 Output
(Do not put the
Voltage on these terminals!)
RS-485
KYZ Pulse
Output
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4.3: Ground Connections
Q The meter’s Ground Terminal (PE) should be connected directly to the installation’s protective earth
ground.
4.4: Voltage Fuses
Q EIG recommends the use of fuses on each of the sense voltages and on the control power, even
though the wiring diagrams in this chapter do not show them.
Use a 0.1 Amp fuse on each voltage input.
Use a 3 Amp fuse on the power supply.
4.5: Electrical Connection Diagrams
Choose the diagram that best suits your application. Make sure the CT polarity is correct.
1. Three Phase, Four-Wire System Wye with Direct Voltage, 3 Element
2. Three Phase, Four-Wire System Wye with Direct Voltage, 2.5 Element
3. Three-Phase, Four-Wire Wye with PTs, 3 Element
4. Three-Phase, Four-Wire Wye with PTs, 2.5 Element
5. Three-Phase, Three-Wire Delta with Direct Voltage (No PTs, 2 CTs)
6. Three-Phase, Three-Wire Delta with Direct Voltage (No PTs, 3 CTs)
7. Three-Phase, Three-Wire Delta with 2 PTs, 2 CTs
8. Three-Phase, Three-Wire Delta with 2 PTs, 3 CTs
9. Current Only Measurement (Three Phase)
10. Current Only Measurement (Dual Phase)
11. Current Only Measurement (Single Phase)
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1. Service: WYE, 4-Wire with No PTs, 3 CTs
A B C N
Wireless Ethernet Connection
Ic
Ib
Ia
Electronic Circuits
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Power Supply Inputs
A B C N
C
Select: “3 EL WYE” (3 Element Wye) in Meter Programming setup.
B
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2. Service: 2.5 Element WYE, 4-Wire with No PTs, 3 CTs
A B C N
Wireless Ethernet Connection
Ic
Ib
Ia
Electronic Circuits
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Power Supply Inputs
A B C N
C
.
A
B
Select: “2.5 EL WYE” (2.5 Element Wye) in Meter Programming setup.
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3. Service: WYE, 4-Wire with 3 PTs, 3 CTs
A B C N
Wireless Ethernet Connection
Ic
Ib
Ia
Electronic Circuits
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vn L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Power Supply Inputs
A B C N
C
.
A
Select: “3 EL WYE” (3 Element Wye) in Meter Programming setup.
B
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4. Service: 2.5 Element WYE, 4-Wire with 2 PTs, 3 CTs
A B C N
Wireless Ethernet Connection
Ic
Ib
Ia
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Power Supply Inputs
A B C N
C
B
Select: “2.5 EL WYE” (2.5 Element Wye) in Meter Programming setup.
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5. Service: Delta, 3-Wire with No PTs, 2 CTs
A B C
Wireless Ethernet Connection
Ia
Ic
Electronic Circuits
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Power Supply Inputs
A B C
C
or
B
.
A B
Select: “2 Ct dEL” (2 CT Delta) in Meter Programming setup.
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A
4-8
6. Service: Delta, 3-Wire with No PTs, 3 CTs
A B C
Wireless Ethernet Connection
Ia
Ib
Ic
Electronic Circuits
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Power Supply Inputs
A B C
C
or
B
.
A B
Select: “2 Ct dEL” (2 CT Delta) in Meter Programming setup.
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A
4-9
7. Service: Delta, 3-Wire with 2 PTs, 2 CTs
A B C
Wireless Ethernet Connection
Ia
Ic
Electronic Circuits
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Power Supply Inputs
A B C
C
or
B
.
A B
Select: “2 Ct dEL” (2 CT Delta) in Meter Programming setup.
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A
4-10
8. Service: Delta, 3-Wire with 2 PTs, 3 CTs
A B C
Wireless Ethernet Connection
Ia
Ib
Ic
Electronic Circuits
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Power Supply Inputs
A B C
C
or
B
.
A B
Select: “2 Ct dEL” (2 CT Delta) in Meter Programming setup.
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A
4-11
9. Service: Current Only Measurement (Three Phase)
A B C N
Wireless Ethernet Connection
Ic
Ib
Electronic Circuits
Ia
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Voltage AN
Input needed for
Frequency
Reference
Power Supply Inputs
A B C N
Select: “3 EL WYE” (3 Element Wye) in Meter Programming setup.
NOTE:
Even if the meter is used for only amp readings, the unit requires a Volts AN reference.
Please make sure that the voltage input is attached to the meter.
AC Control Power can be used to provide the Reference Signal.
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10. Service: Current Only Measurement (Dual Phase)
A B N
Wireless Ethernet Connection
Ib
Electronic Circuits
Ia
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Voltage AN
Input needed for
Frequency
Reference
Power Supply Inputs
A B N
Select: “3 EL WYE” (3 Element Wye) in Meter Programming setup.
NOTE:
Even if the meter is used for only amp readings, the unit requires a Volts AN reference.
Please make sure that the voltage input is attached to the meter.
AC Control Power can be used to provide the Reference Signal.
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11. Service: Current Only Measurement (Single Phase)
A N
Wireless Ethernet Connection
Electronic Circuits
Ia
Ethernet, RJ-45
Jack
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vref L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
KYZ Pulse
Output
Voltage AN
Input needed for
Frequency
Reference
Power Supply Inputs
A N
Select: “3 EL WYE” (3 Element Wye) in Meter Programming setup.
NOTE:
Even if the meter is used for only amp readings, the unit requires a Volts AN reference.
Please make sure that the voltage input is attached to the meter.
AC Control Power can be used to provide the Reference Signal.
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Chapter 5
Communication Installation
5.1: Shark
®
100-S Communication
Q The Shark® 100-S submeter provides two independent Communication Ports plus
KYZ Pulse Output. (For information on Ethernet configuration, see Chapter 6.)
The first port, Com 1, is an IrDA Port, which uses Modbus ASCII. The second port,
Com 2, provides RS-485 or RJ-45 Ethernet or WI-FI Ethernet Communication.
5.1.1: IrDA Port (Com 1)
Q The Shark® 100-S submeter’s Com 1 IrDA Port is on the face of the submeter. The
IrDA Port allows the unit to be set up and programmed with any device capable of
IrDA communication, including a PDA with CoPilot, some laptops and USB/IrDA
wands (such as the USB to IrDA Adapter [CAB6490] described in Appendix E).
Just point at the meter with an IrDA-equipped PC or PDA and configure it.
Q
Communicator EXT CoPilot is a Windows Mobile software package for a PDA that
can communicate with the meter to configure settings and poll readings. Refer to
the Communicator EXT User’s Manual for details on programming and accessing
readings.
Q
IrDA port settings are:
Figure 5.1: Simultaneous Dual Communication Paths
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5.1.1.1: USB to IrDA Adapter
PC
USB
Port
USB
Extension
Cable
USB to IrDA Adapter
IrDA
Enabled
Device
IrDA
Module
Figure 5.2: USB to IrDA Adapter
The USB to IrDA Adapter (CAB6490) enables IrDA wireless data communication
through a standard USB port. The adapter is powered through the USB bus and
does not require any external power adapter. The effective data transmission
distance is 0 to .3 meters (approximately 1 foot).
The USB to IrDA Adapter enables wireless data transfer between a PC and the
Shark. The adapter can also be used with other IrDA-compatible devices.
The adapter is fully compatible with IrDA 1.1 and USB 1.1 specifications.
System Requirements: IBM PC 100 MHz or higher (or compatible system),
available USB port, CD-ROM drive, Windows
® 98, ME, 2000 or XP.
See Appendix E for instructions on using the USB to IrDA Adapter.
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5.1.2: RS485 Communication Com 2 (485 Option)
The Shark® 100-S submeter’s RS485 port uses standard 2-Wire, Half Duplex
Architecture. The RS485 connector is located on the front of the meter, under the cover.
A connection can easily be made to a Master device or to other Slave devices, as shown
below.
Care should be taken to connect
+
to
+
and
-
to
-
connections.
Wireless Ethernet Connection
Electronic Circuits
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vn L1 L2 PE
Z K Y A B SH
(+)(-)
JP2: Must be in
position 1-2 for
RS485
RS485
To Other
Devices
Pulse Contacts
The Shark® 100-S submeter’s RS485 can be programmed with the buttons on the
face of the meter or by using Communicator EXT software.
Standard RS485 Port Settings:
Baud Rate:
Protocol:
9.6, 19.2, 38.4 or 57.6
Modbus RTU, Modbus ASCII, DNP 3.0
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5.1.3: KYZ Output
The KYZ Pulse Output provides pulsing energy values that verify the submeter’s
readings and accuracy.
The KYZ Pulse Output is located on the face of the meter, under the cover
and just below the RS485 connection.
See section 2.2 for the KYZ Output Specifications.
See section 7.3.1 for Pulse Constants.
Wireless Ethernet Connection
Electronic Circuits
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vn L1 L2 PE
Z K Y A B SH
(+)(-)
RS-485
To Other
Devices
Pulse Contacts
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5.1.4: Ethernet Connection
In order to use the Ethernet capability of the Shark
®
100-S submeter, the Ethernet
Module must be installed in your meter, and the JP2 must be set to positions 2-3. You can use either wired Ethernet, or Wi-Fi.
For wired Ethernet, use Standard RJ-45 10/100Base T cable to connect to the
Shark
®
100-S submeter. The RJ-45 line is inserted into the RJ-45 Port of the meter.
For Wi-Fi connections, make sure you have the correct antenna attached to the meter.
Wireless Ethernet Connection
Electronic Circuits
Ia Ia Ib Ib Ic Ic
(+) (-) (+) (-) (+) (-)
Va Vb Vc Vn L1 L2 PE
Z K Y A B SH
(+)(-)
Ethernet Module
RJ-45 Port
RS-485
JP2: Must be in position 2-3 for
Ethernet (RJ-45 or
WiFi)
To Other
Devices
Refer to Chapter 6 of this manual, Ethernet Configuration, for instructions on how to set up the Network Module for the Shark
®
100-S Submeter.
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5.2: Meter Communication and Programming Overview
Q
Programming and communication can utilize the RS485 connection as shown in Section 5.1.2 or the
RJ-45/Wi-Fi connection as shown in Section 5.1.4. Once a connection is established,
Communicator EXT software can be used to program the meter and communicate to other devices.
Q
Meter Connection
To provide power to the meter, use one of the wiring diagrams in Chapter 4 or attach an Aux cable to GND, L(+) and N(-).
The RS485 cable attaches to SH, B(-) and A(+) as shown in Section 5.1.2.
5.2.1: How to Connect
Connect Button
1. Open Communicator EXT software.
2. Click the Connect button on the Icon bar.
The Connect screen opens, showing the Initial settings.
Make sure your settings are the same as those shown here.
NOTE: The settings you make will depend on whether you are connecting to the meter via Serial Port or Network. Use the pulldown windows to make any necessary changes.
Serial Port Connection
Network Connection
3. Click the Connect button on the screen.
You may have to Disconnect power,
Reconnect power and then click Connect.
The Device Status screen appears, confirming a connection.
Click OK. e
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Profile
Button
The main screen of Communicator EXT software reappears.
4. Click the Profile button on the toolbar.
You will see the Shark
® meter’s Profile screen.
5.2.2: Shark
®
Meter Device Profile Settings
Click the tabs to access the settings for the Shark
® meter’s Device Profile.
Q
Communication Settings
COM1 (IrDA)
Response Delay (0-750 msec)
COM2:
(For RS485)
Address (1-247)
Protocol (Modbus RTU, ASCII or DNP)
Baud Rate (9.6 to 57.6)
Response Delay (0-750 msec)
(For Ethernet)
Address (1)
Protocol (Modbus RTU)
Baud Rate (57600)
Response Delay (No Delay)
Use pull-down menus to change settings, if desired.
6. When changes are complete, click the
Update button to send the new profile to the Shark
® meter.
7. Click Cancel to exit the Profile; click other tabs to update other settings of the Profile. e
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Q
Scaling (CT, PT Ratios and System Wiring)
CT Numerator:
CT Denominator:
CT Multiplier:
CT Face Plate Value:
Calculation Based on Selections
PT Numerator:
PT Denominator:
PT Multiplier:
PT Face Plate Value
Calculation Based on Selections
System Wiring:
Number of Phases: One, Two or Three
NOTE: VOLTS FULL SCALE = PT Numerator x PT Multiplier
Example:
A 14400/120 PT would be entered as:
Pt Numerator
Pt Denominator
1440
120
Pt Multipler 10
This example would display a 14.40kV.
WARNING: You must specify Primary and Secondary Voltage in Full Scale. Do not use ratios!
Q
Example CT Settings:
200/5 Amps:
800/5 Amps:
2,000/5 Amps:
10,000/5 Amps:
Set the Ct-n value for 200, Ct-Multiplier value for 1.
Set the Ct-n value for 800, Ct-Multiplier value for 1.
Set the Ct-n value for 2000, Ct-Multiplier value for 1.
Set the Ct-n value for 1000, Ct-Multiplier value for 10.
Q
Example PT Settings:
277/277 Volts
14,400/120 Volts:
138,000/69 Volts:
345,000/115 Volts:
345,000/69 Volts:
Pt-n value is 277, Pt-d value is 277, Pt-Multiplier value is 1.
Pt-n value is 1440, Pt-d value is 120, Pt-Multiplier value is 10.
Pt-n value is 1380, Pt-d value is 69, Pt-Multiplier value is 100.
Pt-n value is 3450, Pt-d value is 115, Pt-Multiplier value is 100
Pt-n value is 345, Pt-d value is 69, PT-Multiplier value is 1000.
NOTE: Settings are the same for Wye and Delta configurations.
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Q
Energy and Display
Power and Energy Format
Power Scale
Energy Digits
Energy Decimal Places
Energy Scale
(Example Based on Selections)
Power Direction: View as Load
Demand Averaging
Averaging Method: Block or Rolling
Interval (Minutes)
Sub Interval
Auto Scroll: Click to Activate
Display Configuration:
Click Values to be displayed.
NOTE: You MUST have at lease ONE selected.
NOTE: If incorrect values are entered on this screen the following message appears:
WARNING: Current, CT, PT and Energy Settings will cause invalid energy accumulator values.
Change the inputted settings until the message disappears.
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Q
Settings
Password
(Meter is shipped with Password Disabled and there is NO DEFAULT PASSWORD)
Enable Password for Reset
Enable Password for Configuration
Change Password
Change VSwitch
(Call Electro Industries for Update Information)
Change Device Designation
Q
Limits (VSwitch
TM
Key 4 Only)
For up to 8 Limits, Set:
Address: Modbus Address (1 based)
Label: Your Designation
High Set Point: % of Full Scale
Example: 100% of 120VFS = 120V
90% of 120V FS = 108V
Return Hysteresis: Point to go back in Limit
Example: High Set Point = 110%
(Out of Limit at 132V)
Return Hysteresis = 105%
(Stay Out until 126V)
Low Set Point: % of Full Scale
Return Hysteresis: Point to go back in Limit
Settings appear in the Table at the bottom of the screen
NOTE: If Return Hysteresis is > High Set Point, the Limit is Disabled.
Click Update to send a new Profile.
NOTE: If the Update fails, the software will ask you if you want to try again to Update.
Click Cancel to Exit the Profile.
Use Communicator EXT to communicate with the device and perform required tasks.
NOTE: Refer to the Communicator EXT User’s Manual for more details and additional instructions.
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Chapter 6
Ethernet Configuration
6.1: Introduction
The Shark® 100-S submeter has an option for a Wi-Fi (Wireless) or RJ-45 Ethernet connection. This option allows the submeter to be set up for use in a LAN (Local Area
Network), using standard Wi-Fi base stations. Configuration for these connections is easily accomplished through your PC using Telnet connections. Then you can access the submeter to perform meter functions directly through any computer on your LAN: the Shark® 100-S meter does not need to be directly connected (wired) to these computers for it to be accessed.
This chapter outlines the procedures you use to set up the Shark® 100-S submeter to function via its Ethernet configuration.
IMPORTANT!
• These instructions are for Shark® 100-S meters that have a Reset button, located on
the main board. You can easily tell whether or not your meter has a Reset button: open the front cover of the Shark
®
100-S meter. The Reset button is located at the top, right of the main board. Refer to the figure below.
• Some earlier versions of the Shark® 100-S meter are not equipped with a Reset
button. The instructions for Ethernet configuration are slightly different for these meters.
If your meter does not have a Reset button, please call EIG’s Technical Support department (at 516-334-0870) to obtain configuration instructions for your meter’s
Ethernet connection.
Reset button on the Main Board
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6.2: Factory Default Settings
The settings shown in Section 6.2.1 are the default settings for your Shark® 100-S meter: they are the settings programmed into your meter when it is shipped to you. You may need to modify some of these settings when you set up your Ethernet configuration.
NOTES:
Change Settings 1 and 6 ONLY. Settings 2, 3, and 4 must be the same as shown in
Section 6.2.1. If they are not, reset them to the values shown in Section 6.2.1.
If setting 3 is not CP0..! Defaults (In), the procedure for Network Module Hardware
Initialization (Section 6.3.4) will not work.
6.2.1: Modbus/TCP to RTU Bridge Setup
1) Network/IP Settings:
Network Mode…………Wired Only
IP Address ...............….. 10.0.0.1
Default Gateway ............ --- not set ---
Netmask .................... …255.255.255.0
2) Serial & Mode Settings:
Protocol ................... Modbus/RTU,Slave(s) attached
Serial Interface ........... 57600,8,N,1,RS232,CH1
3) Modem/Configurable Pin Settings:
CP0..! Defaults (In) CP1..! GPIO (In) CP2..! GPIO (In)
CP3..! GPIO (In) CP4..! GPIO (In) CP5..! GPIO (In)
CP6..! GPIO (In) CP7..! GPIO (In) CP8..! GPIO (In)
CP9..! GPIO (In) CP10.! GPIO (In)
RTS Output ................. Fixed High/Active
4) Advanced Modbus Protocol settings:
Slave Addr/Unit Id Source .. Modbus/TCP header
Modbus Serial Broadcasts ... Disabled (Id=0 auto-mapped to 1)
MB/TCP Exception Codes ..... Yes (return 00AH and 00BH)
Char, Message Timeout ...... 00050msec, 05000msec
6) WLAN Settings:
WLAN ....................... Disabled, network:LTRX_IBSS
Topology……………. AdHoc, Country: US, Channel: 11
Security……………… none
TX Data rate………… 11 Mbps auto fallback
Power management….. not supported in ad hoc mode
D)efault settings, S)ave, Q)uit without save
Select Command or parameter set (1..6) to change:
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Table of contents
- 29 1.1: Three-Phase System Configurations
- 29 1.1.1: Wye Connection
- 29 1.1.2: Delta Connection
- 29 1.1.3: Blondell’s Theorem and Three Phase Measurement
- 29 1.2: Power, Energy and Demand
- 29 1.3: Reactive Energy and Power Factor
- 29 1.4: Harmonic Distortion
- 29 1.5: Power Quality
- 30 2.1: Hardware Overview
- 30 2.1.1: Voltage Inputs
- 30 2.1.2: Model Number plus Option Numbers
- 30 ΤΜ Technology
- 30 2.1.4: Measured Values
- 30 2.1.5: Utility Peak Demand
- 30 2.2: Specifications
- 30 2.3: Compliance
- 30 2.4: Accuracy
- 31 3.1: Overview
- 31 3.2: Install the Base
- 31 3.3: Secure the Cover
- 32 4.1: Considerations When Installing Meters
- 32 4.2: Voltage and Power Supply Connections
- 32 4.3: Ground Connections
- 32 4.4: Voltage Fuses
- 32 4.5: Electrical Connection Diagrams
- 33 5.1: Shark® 100-S Meter Communication
- 33 5.1.1: IrDA Port (Com 1)
- 33 5.1.1.1: USB to IrDA Adapter
- 33 5.1.1.2: USB to IrDA Adapter Installation Steps
- 33 5.1.2: RS-485 Communication Com 2 (485 Option)
- 33 5.1.3: KYZ Output
- 33 5.1.4: Ethernet Connection
- 33 5.2: Meter Communication and Programming Overview
- 33 5.2.1: How to Connect
- 33 5.2.2: Shark® Meter Profile Settings
- 61 6.1: Introduction
- 61 6.2: Factory Default Settings
- 61 6.2:1 Modbus/TCP to RTU Bridge Setup
- 61 6.3.: Configure Network Module
- 61 6.3.1: Configuration Requirements
- 61 6.3.2: Configuring the Ethernet Adapter
- 61 6.3.3: Detailed Configuration Parameters
- 61 6.3.4: Setup Details
- 61 6.3.4.1: Encryption Key
- 61 6.4.: Network Module Hardware Initialization
- 62 7.1: Introduction
- 62 7.1.1: Submeter Face Elements
- 62 7.1.2: Submeter Face Buttons
- 62 7.2: % of Load Bar
- 62 7.3: Watt-Hour Accuracy Testing (Verification)
- 62 7.3.1: KYZ Pulse Constants
- 62 7.4: Upgrade the Submeter Using V-Switches
- 63 8.1: Overview
- 63 8.2: Start Up
- 63 8.3: Configuration
- 63 8.3.1: Main Menu
- 63 8.3.2: Reset Mode
- 63 8.3.2.1: Enter Password (ONLY IF ENABLED IN SOFTWARE)
- 63 8.3.3: Configuration Mode
- 63 8.3.3.1: Configure Scroll Feature
- 63 8.3.3.2: Program Configuration Mode Screens
- 63 8.3.3.3: Configure CT Setting
- 63 8.3.3.4: Configure PT Setting
- 63 8.3.3.5: Configure Connection (Cnct) Setting
- 63 8.3.3.6: Configure Communication Port Setting
- 63 8.3.4: Operating Mode