Electro Industries Shark 200 Installation & Operation Manual

Electro Industries Shark 200 Installation & Operation Manual

Low-cost high performance multifunction electricity meter
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Shark
200 & 200T
®
LOW-COST HIGH PERFORMANCE MULTIFUNCTION ELECTRICITY METER
Installation & Operation Manual
Revision 1.09
December 2, 2008
Doc #: E149701 V1.09
e
Electro Industries/GaugeTech
1800 Shames Drive
Westbury, New York 11590
Tel: 516-334-0870
Fax: 516-338-4741
u
Sales@electroind.com
www.electroind.com
u
"The Leader in Power Monitoring and Control"

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Summary of Contents for Electro Industries Shark 200

  • Page 1 200 & 200T ® LOW-COST HIGH PERFORMANCE MULTIFUNCTION ELECTRICITY METER Installation & Operation Manual Revision 1.09 December 2, 2008 Doc #: E149701 V1.09 Electro Industries/GaugeTech 1800 Shames Drive Westbury, New York 11590 Tel: 516-334-0870 Fax: 516-338-4741 Sales@electroind.com www.electroind.com “The Leader in Power Monitoring and Control”...
  • Page 3: Electro Industries/Gaugetech

    Electro Industries/GaugeTech. © 2008 Electro Industries/GaugeTech ® Shark is a registered trademark of Electro Industries/Gauge Tech. Printed in the United States of America. Electro Industries/GaugeTech Doc # E149701...
  • Page 4: Customer Service And Support

    516-334-0870 or fax 516-338-4741. Product Warranty Electro Industries/GaugeTech warrants all products to be free from defects in material and workmanship for a period of four years from the date of shipment. During the warranty period, we will, at our option, either repair or replace any product that proves to be defective.
  • Page 5: About Electro Industries/Gaugetech

    About Electro Industries/GaugeTech Founded in 1973 by engineer and inventor Dr. Samuel Kagan, Electro Industries/GaugeTech changed the face of power monitoring forever with its first breakthrough innovation: an affordable, easy-to-use AC power meter. Thirty years later, Electro Industries/GaugeTech, the leader in Web-Accessed Power Monitoring, continues to revolutionize the industry with the highest quality, cutting edge power monitoring and control technology on the market today.
  • Page 6 Electro Industries/GaugeTech Doc # E149701...
  • Page 11: Chapter 1 Three-Phase Power Measurement

    The three voltages are separated by 120 degrees electrically. Under balanced load conditions with unity power fac- tor the currents are also separated by 120 degrees. However, unbalanced loads and other conditions can cause the currents to depart from the ideal 120 degree separation. Electro Industries/Gauge Tech Doc# E149701...
  • Page 12 The transformer is the best place to determine the circuit connection type because this is a location where the voltage reference to ground can be conclusively identified. Electro Industries/Gauge Tech Doc# E149701...
  • Page 13: 2: Delta Connection

    On a 120/240 volt, four-wire, grounded Delta service, the phase-to-ground voltage would be 120 volts on two phases and 208 volts on the third phase. Figure 1.5 shows the phasor diagram for the voltages in a three-phase, four-wire Delta system. Electro Industries/Gauge Tech Doc# E149701...
  • Page 14: 3: Blondell's Theorem And Three Phase Measurement

    In a three-phase, four-wire Wye system it is necessary to use three elements. Three voltage coils are connected be- tween the three phases and the common neutral conductor. A current coil is required in each of the three phases. Electro Industries/Gauge Tech Doc# E149701...
  • Page 15 This will require three voltage coils and three current coils (a three element meter). Similar figures and conclusions could be reached for other circuit configurations involving Delta-connected loads. Electro Industries/Gauge Tech Doc# E149701...
  • Page 16: Power, Energy And Demand

    1/60 (converting the time base from minutes to hours). Kilowatts Time (minutes)  Figure 1.7: Power use over time Electro Industries/Gauge Tech Doc# E149701...
  • Page 17 15-minute demand value. The demand value associated with the example load is 59.68 kWh/hr or 59.68 kWd. Note that the peak instantaneous value of power is 80 kW, significantly more than the demand value. Electro Industries/Gauge Tech Doc# E149701...
  • Page 18: Kilowatt-Hours

    (angularly rotated 90 degrees or perpendicular) to the voltage. Figure 1.9 shows a single-phase voltage and current and breaks the current into its in-phase and quadrature components. Electro Industries/Gauge Tech Doc# E149701...
  • Page 19 Displacement power factor does not consider the magnitudes of voltage, current or power. It is solely based on the phase angle differences. As a result, it does not include the impact of harmonic distortion. Electro Industries/Gauge Tech Doc# E149701...
  • Page 20: Harmonic Distortion

    Figure 1.11 shows a current waveform with a slight amount of harmonic distortion. The waveform is still periodic and is fluctuating at the normal 60 Hz frequency. However, the waveform is not a smooth sinusoidal form as seen in Figure 1.10. 1-10 Electro Industries/Gauge Tech Doc# E149701...
  • Page 21 When harmonics are present it is important to remember that these quantities are operating at higher frequencies. Therefore, they do not always respond in the same manner as 60 Hz values. 1-11 Electro Industries/Gauge Tech Doc# E149701...
  • Page 22 Data collected with waveform capture is typically not saved to memory. Waveform capture is a real-time data collection event. Waveform capture should not be confused with waveform recording. Waveform recording is used to record multiple cycles of all voltage and current waveforms in response to a transient condition. 1-12 Electro Industries/Gauge Tech Doc# E149701...
  • Page 23: Power Quality

    If a power quality problem is suspected, it is generally wise to consult a power quality professional for assistance in defining the cause and possible solutions to the problem. 1-13 Electro Industries/Gauge Tech Doc# E149701...
  • Page 24 1-14 Electro Industries/Gauge Tech Doc# E149701...
  • Page 25 • Sampling rate of up to 512 samples per cycle for waveform recording • Transformer/Line Loss compensation (see Chapter 5 and Appendix B in the Communicator EXT User Manual for instructions on using this feature). Electro Industries/Gauge Tech Doc# E149701...
  • Page 26: 1: Voltage And Current Inputs

    This, too, eliminates any possible point of failure at the meter. This is a preferred technique for insuring that relay class CT integrity is not compromised (the CT will not open in a fault condition). Electro Industries/Gauge Tech Doc# E149701...
  • Page 27: 2: Ordering Information

    -FOVPS: Fiber Optic Output Versatile Link Terminated Example: Shark200-60-10-V2-D-INP100S-X (Shark ® 200 meter with 60 Hz System, 5 Amp Secondary, V2-V-Switch™ key, 18-60 VDC Power Supply, 100BaseT Ethernet in Card Slot 1 and no card in Card Slot 2) Electro Industries/Gauge Tech Doc# E149701...
  • Page 28: 3: V-Switch ™ Key Technology

    5. Enter the V-Switch™ key provided by EIG. 6. Click the OK button. The V-Switch™ key is enabled and the meter is reset. Communicator EXT User’s Manual NOTE: For more details on software configuration, refer to the Electro Industries/Gauge Tech Doc# E149701...
  • Page 29: 4: Measured Values

    VA (A,B,C,Tot.) PF (A,B,C,Tot.) +Watt-Hour (A,B,C,Tot.) -Watt-Hour (A,B,C,Tot.) Watt-Hour Net +VAR-Hour (A,B,C,Tot.) -VAR-Hour (A,B,C,Tot.) VAR-Hour Net (A,B,C,Tot.) VA-Hour (A,B,C,Tot.) Frequency Harmonics to the 40th Order %THD Voltage Angles Current Angles % of Load Bar Waveform Scope Electro Industries/Gauge Tech Doc# E149701...
  • Page 30: 5: Utility Peak Demand

    Pass-through Wire, 0.177” / 4.5mm Maximum Diameter (Diagram 4.2) Quick Connect, 0.25” Male Tab (Diagram 4.3) Fault Withstand: 100A/10sec., 300A/3sec., 500A/1sec. Reading: Programmable Full Scale to any CT Ratio Continuous Current Withstand: 20 Amps for Screw Terminated or Pass Through Connections Electro Industries/Gauge Tech Doc# E149701...
  • Page 31: Output Timing

    P[Watt] - Not a scaled value     pulse Kh – See Section 6-4 for values Watt IR LED Light Pulses Through face plate 90ms 90ms (De-energized State) KYZ output Contact States Through Backplate Electro Industries/Gauge Tech Doc# E149701...
  • Page 32: Environmental Rating

    8 Bit, No Parity Shark ® 200T transducer Default Initial Communication Baud 9600 (See Chapter 5) Mechanical Parameters Dimensions: see Chapter 3. Weight: 2 pounds/ 0.9kg (ships in a 6”/152.4mm cube container) (Without Option Card) Electro Industries/Gauge Tech Doc# E149701...
  • Page 33 With reference voltage applied (VA, VB, or VC). Otherwise, degrade accuracy to 0.2%. See hookup diagrams 8, 9, and 10 in Chapter 4. At least one voltage input (minimum 20 Vac) must be connected for THD measurement on current channels. Electro Industries/Gauge Tech Doc# E149701...
  • Page 34 2-10 Electro Industries/Gauge Tech Doc# E149701...
  • Page 35: Chapter 3 Mechanical Installation

    3.25 [82.55] 0.77 [19.55] 3.54[89.92] 4.85 [123.19] 3.54[89.92] 4.85 [123.19] 4.85 [123.19] 0.91 [23.11] 3.25 [82.5 3.54 [89.92] 0.91 [23.11] 3.25 [82.55] 3.54 [89.92] 0.91 [23.11] 3.25 [82.55] 0.77[19.55] 3.54 [89.92] Fig. 3.3: Transducer Dimensions Electro Industries/Gauge Tech Doc# E149701...
  • Page 36 ® 200 meter is designed to withstand harsh environmental conditions; however it is recommended you The Shark install it in a dry location, free from dirt and corrosive substances. (See Environmental Specifications in Chapter 2.) Electro Industries/Gauge Tech Doc# E149701...
  • Page 37: Ansi Installation Steps

    3. Slide meter with Mounting Gasket into panel. 4. Secure from back of panel with lock washer and nut on each threaded rod. Use a small wrench to tighten. Do not overtighten. The maximum installation torque is 0.4 Newton-Meter. Electro Industries/Gauge Tech Doc# E149701...
  • Page 38: Din Installation Steps

    3. Secure meter to panel with lock washer and a #8 screw through each of the 2 mounting brackets. Tighten with a #2 Phillips screwdriver. Do not overtighten. The maximum installation torque is 0.4 Newton-Meter. Electro Industries/Gauge Tech Doc# E149701...
  • Page 39 PLCs. DIN Rails are made of cold rolled steel electrolitically plated and are also available in aluminum, PVC, stainless steel and copper. Figure 3.10: DIN Rail Detail Electro Industries/Gauge Tech Doc# E149701...
  • Page 40 Electro Industries/Gauge Tech Doc# E149701...
  • Page 41: Chapter 4 Electrical Installation

    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. Electro Industries/Gauge Tech Doc# E149701...
  • Page 42: Ct Leads Terminated To Meter

    Figure 4.4. Current Gills (Nickel-Plated Brass Stud) Figure 4.1: CT Leads terminated to Meter, #8 Screw for Lug Connection Wiring Diagrams are shown in section 4.8 of this chapter. Communications Connections are detailed in Chapter 5. Electro Industries/Gauge Tech Doc# E149701...
  • Page 43: Ct Leads Pass Through (No Meter Termination)

    Current Gills and place the CT wire directly through the CT opening. The opening will accomo- date up to 0.177” / 4.5mm maximum diameter CT wire. CT Wire passing through meter Current Gills removed Figure 4.2: Pass-Through Wire Electrical Connection Electro Industries/Gauge Tech Doc# E149701...
  • Page 44: Quick Connect Crimp-On Terminations

    4.4: Quick Connect Crimp-on Terminations For Quick Termination or for Portable Applications, a 0.25” Quick Connect Crimp-on Connectors can also be used. Quick Connect Crimp-on Terminations Figure 4.3: Quick Connect Electrical Connection Electro Industries/Gauge Tech Doc# E149701...
  • Page 45: Voltage And Power Supply Connections

    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 Slow Blow fuse on the power supply. Electro Industries/Gauge Tech Doc# E149701...
  • Page 46: Electrical Connection Diagrams

    5. Three-Phase, Three-Wire Delta with Direct Voltage 6. Three-Phase, Three-Wire Delta with 2 PTs 7. Three-Phase, Three-Wire Delta with 3 PTs 8. Current Only Measurement (Three Phase) 9. Current Only Measurement (Dual Phase) 10.Current Only Measurement (Single Phase) Electro Industries/Gauge Tech Doc# E149701...
  • Page 47 1. Service: WYE/Delta, 4-Wire with No PTs, 3 CTs Select: “ 3 EL WYE ” (3 Element Wye) from the ® Shark meter’s Front Panel Display. (See Chapter 6. Electro Industries/Gauge Tech Doc# E149701...
  • Page 48 1a. Example of Dual Phase Hookup Electro Industries/Gauge Tech Doc# E149701...
  • Page 49 1b. Example of Single Phase Hookup Electro Industries/Gauge Tech Doc# E149701...
  • Page 50: Service: 2.5 Element Wye, 4-Wire With No Pts, 3 Cts

    2. Service: 2.5 Element WYE, 4-Wire with No PTs, 3 CTs Select: “ 2.5 EL WYE ” (2.5 Element Wye) from the ® Shark meter’s Front Panel Display. (See Chapter 6. 4-10 Electro Industries/Gauge Tech Doc# E149701...
  • Page 51 3. Service: WYE/Delta, 4-Wire with 3 PTs, 3 CTs Select: “ 3 EL WYE ” (3 Element Wye) from the ® Shark meter’s Front Panel Display. (See Chapter 6. 4-11 Electro Industries/Gauge Tech Doc# E149701...
  • Page 52: Service: 2.5 Element Wye, 4-Wire With 2 Pts, 3 Cts

    4. Service: 2.5 Element WYE, 4-Wire with 2 PTs, 3 CTs Select: “ 2.5 EL WYE ” (2.5 Element Wye) from the ® Shark meter’s Front Panel Display. (See Chapter 6. 4-12 Electro Industries/Gauge Tech Doc# E149701...
  • Page 53: Service: Delta, 3-Wire With No Pts, 2 Cts

    5. Service: Delta, 3-Wire with No PTs, 2 CTs Select: “ 2 Ct dEL ” (2 CT Delta) from the ® Shark meter’s Front Panel Display. (See Chapter 6. Not connected to meter 4-13 Electro Industries/Gauge Tech Doc# E149701...
  • Page 54: Service: Delta, 3-Wire With 2 Pts, 2 Cts

    6. Service: Delta, 3-Wire with 2 PTs, 2 CTs Select: “ 2 Ct dEL ” (2 CT Delta) from the ® Shark meter’s Front Panel Display. (See Chapter 6. Not connected to meter 4-14 Electro Industries/Gauge Tech Doc# E149701...
  • Page 55: Service: Delta, 3-Wire With 2 Pts, 3 Cts

    Select: “ 2 Ct dEL ” (2 CT Delta) from the ® Shark meter’s Front Panel Display. (See Chapter 6. Not connected to meter NOTE: The third CT for hookup is optional and is for Current Measurement only. 4-15 Electro Industries/Gauge Tech Doc# E149701...
  • Page 56: Service: Current Only Measurement (Three Phase)

    8. Service: Current Only Measurement (Three Phase) Select: “ 3 EL WYE ” (3 Element Wye) from the ® Shark meter’s Front Panel Display. (See Chapter 6. * For improved accuracy, this connection is recommended, but not required 4-16 Electro Industries/Gauge Tech Doc# E149701...
  • Page 57: Service: Current Only Measurement (Dual Phase)

    9. Service: Current Only Measurement (Dual Phase) Select: “ 3 EL WYE ” (3 Element Wye) from the ® Shark meter’s Front Panel Display. (See Chapter 6. * For improved accuracy, this connection is recommended, but not required 4-17 Electro Industries/Gauge Tech Doc# E149701...
  • Page 58: Service: Current Only Measurement (Single Phase)

    Front Panel Display. (See Chapter 6. * For improved accuracy, this connection is recommended, but not required. NOTE: The diagram shows a connection to Phase A, but you can also connect to Phase B or Phase C. 4-18 Electro Industries/Gauge Tech Doc# E149701...
  • Page 59: Chapter 5 Communication Installation

    • Settings for Com 1 (IrDA Port) are configured using Communicator EXT software. • This port only communicates via Modbus ASCII Protocol. • Refer to Appendix D for instructions on using EIG’s USB to IrDA Adapter. Electro Industries/Gauge Tech Doc# E149701...
  • Page 60: 2: Rs485 / Kyz Output (Com 2)

    200 meter to a PC, you need to use an RS485 to RS232 converter, such ® as EIG’s Unicom 2500. See Section 5.1.2.1 for information on using the Unicom 2500 with the Shark 200 meter. Electro Industries/Gauge Tech Doc# E149701...
  • Page 61: For All Rs485 Connections

    Termination Resistors is determined by the electrical parameters of the cable. Figure 5.4 shows a representation of an RS485 Daisy Chain connection. Refer to Section 5.1.2.1 for details on RS485 connection for the Unicom 2500. Figure 5.4: RS485 Daisy Chain Connection Electro Industries/Gauge Tech Doc# E149701...
  • Page 62 Figure 5.5: Incorrect “T” and “Star” Topologies Electro Industries/Gauge Tech Doc# E149701...
  • Page 63: 1: Using The Unicom 2500

    As shown in Figure 5.9, you connect the “RX -” and “TX -” terminals with a jumper wire to make the “B(-)” terminal,and connect the “RX +” and “TX +” terminals with a jumper wire to make the “A(+)” terminal. Electro Industries/Gauge Tech Doc# E149701...
  • Page 64: Meter Connection

    3. Click the Connect button. If you have a problem connecting, you may have to disconnect power to the meter, reconnect power, and click the Connect button, again. Electro Industries/Gauge Tech Doc# E149701...
  • Page 65 Device button to send a new profile to the meter. 8. Click Exit to Exit the Device Profile or click other menu items to change other aspects of the Device Profile (see following section, 5.2.2). Electro Industries/Gauge Tech Doc# E149701...
  • Page 66 Pt-n value is 3450, Pt-d value is 115, Pt-Multiplier value is 100 345,000/69 Volts: 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. Electro Industries/Gauge Tech Doc# E149701...
  • Page 67: Display Configuration

    Interval Window: This field is display only. It is the product of the values entered in the Sub-Interval and Number of Subintervals fields. NOTE: You will only see the Number of Subintervals and Interval Window fields if you select Rolling Demand. Electro Industries/Gauge Tech Doc# E149701...
  • Page 68 The current settings for Limits are shown in the screen. You can set and configure up to eight Limits for the ® Shark 200 meter. 5-10 Electro Industries/Gauge Tech Doc# E149701...
  • Page 69 NOTE: Use Communicator EXT to communicate with the device and perform required tasks. Refer to Chapter 5 of ® the Communicator EXT User’s Manual for additional instructions on configuring the Shark 200 meter settings. 5-11 Electro Industries/Gauge Tech Doc# E149701...
  • Page 70 5-12 Electro Industries/Gauge Tech Doc# E149701...
  • Page 71: 1: Understanding Meter Face Elements

    • Configure Parameters (may be Password Protected) • Perform Resets (may be Password Protected) • Perform LED Checks • Change Settings • View Parameter Values • Scroll Parameter Values • View Limit States Right Down Figure 6.2: Face Plate with Buttons Electro Industries/Gauge Tech Doc# E149701...
  • Page 72: Using The Front Panel

    ® The Shark 200 meter continues to provide scrolling readings until one of the buttons on the front panel is pressed, causing the meter to enter one of the other Modes. Figure 6.3: Wh Reading Electro Industries/Gauge Tech Doc# E149701...
  • Page 73: 2: Using The Main Menu

    To enter a password, follow the instructions in Section 6.2.4. CAUTION! Reset Demand YES resets all Max and Min values. Once you have performed a reset, the screen displays either “rSt dMd donE” or “rSt EnEr donE”and then resumes auto-scrolling parameters. Electro Industries/Gauge Tech Doc# E149701...
  • Page 74: 4: Entering A Password

    • If an incorrect Password has been entered, “PASS ---- FAIL” appears and: • The previous screen is redisplayed, if you are in Reset Mode. • The previous Operating Mode screen is redisplayed, if you are in Configuration Mode. Electro Industries/Gauge Tech Doc# E149701...
  • Page 75: 5: Using Configuration Mode

    9. If you have saved the settings, the Store ALL done screen appears and the meter resets. Press the Enter button to save the settings Press the Enter button to The settings have been saved Press the Right button for Stor All no screen Cancel the save Electro Industries/Gauge Tech Doc# E149701...
  • Page 76: 1: Configuring The Scroll Feature

    • To exit the screen without changing scrolling options, press the Menu button. • To return to the Main Menu screen, press the Menu button twice. • To return to the scrolling (or non-scrolling) parameters display, press the Menu button three times. Electro Industries/Gauge Tech Doc# E149701...
  • Page 77: 2: Configuring Ct Setting

    • The value for Amps is a product of the Ct-n value and the Ct-S value. • Ct-n and Ct-S are dictated by primary current; Ct-d is secondary current. Press Enter Use buttons to set Ct-n value The Ct-d cannot be changed Use buttons to select scaling Electro Industries/Gauge Tech Doc# E149701...
  • Page 78: 3: Configuring Pt Setting

    Pt-n value is 3450, Pt-d value is 115, Pt-S value is 100. 345,000/69 Volts: Pt-n value is 345, Pt-d value is 69, Pt-S value is 1000. NOTE: Pt-n and Pt-S are dictated by primary voltage; Pt-d is secondary voltage. Electro Industries/Gauge Tech Doc# E149701...
  • Page 79: 4: Configuring Connection Setting

    2. When you have finished making your selections, press the Menu button twice. 3. The STOR ALL YES screen appears. Press Enter to save the settings. Use buttons to enter Address Use buttons to select Baud Rate Use buttons to select Protocol Electro Industries/Gauge Tech Doc# E149701...
  • Page 80 VOLTS L-L VOLTS_LL VOLTS_LL_ VOLTS_LL_ AMPS AMPS AMPS_ AMPS_ AMPS_MIN AMPS_THD NEUTRAL W/VAR/PF W_VAR_PF W_VAR_ W_VAR_ W_VAR_ PF_MAX_ PF_MIN_ PF_MIN_ VA/Hz VA_FREQ VA_FREQ_ VA_FREQ_ KWH_REC KWH_DEL KWH_NET KWH_TOT VARh KVARH_ KVARH_ KVARH_ KVARH_ KVAH 6-10 Electro Industries/Gauge Tech Doc# E149701...
  • Page 81: Understanding The % Of Load Bar

    When the Load is over 120% of Full Load, all segments flash “On” (1.5 secs) and “Off” (0.5 secs). % of Load Segment Table Segments Load >= % Full Load none no load 108% 1-10 120% All Blink >120% 6-11 Electro Industries/Gauge Tech Doc# E149701...
  • Page 82: Performing Watt-Hour Accuracy Testing (Verification)

    Input Voltage Level Class 10 Models Class 2 Models Below 150V 0.500017776 0.1000035555 Above 150V 2.000071103 0.400014221 NOTES: • Minimum pulse width is 90 milliseconds • Refer to Chapter 2, Section 2.2, for Wh Pulse specifications. 6-12 Electro Industries/Gauge Tech Doc# E149701...
  • Page 83 The Shark ® 200 meter auto-detects any installed Option cards. Up to 2 cards of any type outlined in this chapter can be used per meter. Option Card Slots I/O Option Card ® Figure 7.1: Shark 200 Meter Back, Showing Option Card Slots and I/O Card Electro Industries/Gauge Tech Doc# E149701...
  • Page 84: Installing Option Cards

    HARDWARE MODIFICATION. The Shark ® 200 meter auto-detects any Option cards installed in it. Configure the Option cards through Communicator EXT User’s Manual Communicator EXT software. Refer to Chapter 5 of the for detailed instructions. Electro Industries/Gauge Tech Doc# E149701...
  • Page 85 +VARs, +1800 VARs => +1mA - VARs, -1800 VARs => -1mA Channel 3 Phase A Voltage WYE, 300 Volts => +1mA Phase A Voltage Delta, 600 Volts => +1mA Channel 4 Phase A Current, 10 Amps => +1mA Electro Industries/Gauge Tech Doc# E149701...
  • Page 86: 3: Wiring Diagram

    7.4.3: Wiring Diagram Outputs (1,2,3,4) Common (C) Electro Industries/Gauge Tech Doc# E149701...
  • Page 87: 20Ma Output Card (20Maos)

    Phase A Voltage WYE, 300 Volts => 20mA 0 Volts => 4 mA Phase A Voltage Delta, 600 Volts => 20mA Channel 4 Phase A Current, 10 Amps => 20mA 0 Phase A Current, 0 Amps => 4 mA Electro Industries/Gauge Tech Doc# E149701...
  • Page 88 7.5.3: Wiring Diagram Outputs (1,2,3,4) Loop Common (C) Electro Industries/Gauge Tech Doc# E149701...
  • Page 89: Digital Output (Relay Contact) / Digital Input Card (Ro1S)

    Relative air humidity: Maximum 95%, non-condensing EMC - Immunity Interference: EN61000-4-2 Weight: 1.5oz Dimensions (inch) W x H x L: 0.72 x 2.68 x 3.26 External Connection: AWG 12-26/(0.129 - 3.31)mm 9 pin, 0.200” pluggable terminal block Electro Industries/Gauge Tech Doc# E149701...
  • Page 90: 2: Wiring Diagram

    7.6.2: Wiring Diagram For wet contacts Inputs (I1,I2) Loop Common (C) Electro Industries/Gauge Tech Doc# E149701...
  • Page 91: Pulse Output (Solid State Relay Contacts) / Digital Input Card (P01S)

    Defaulted to Status Detect Pulse Outputs Defaulted to Energy Pulses Pulse Channel 1 1.8 +Watt-hrs per pulse Pulse Channel 2 1.8 -Watt-hrs per pulse Pulse Channel 3 1.8 +VAR-hrs per pulse Pulse Channel 4 1.8 -VAR-hrs per pulse Electro Industries/Gauge Tech Doc# E149701...
  • Page 92 7.7.3: Wiring Diagram For wet contacts Inputs (I1,I2) Loop Common (C) 7-10 Electro Industries/Gauge Tech Doc# E149701...
  • Page 93: Fiber Optic Communication Card (Fosts; Fovps)

    0.72 x 2.68 x 3.26 ST ® (FOST) or Versatile Link (FOVP) – as per order Fiber Connection: HCS ® is a registered trademark of SpecTran Corporation. ST ® is a registered trademark of AT&T. 7-11 Electro Industries/Gauge Tech Doc# E149701...
  • Page 94 If this meter is being used in a Point to Point Connection, set the ECHO switch to OFF, since you do not want messages to bypass the meter. 7-12 Electro Industries/Gauge Tech Doc# E149701...
  • Page 95: 2: Default Configuration

    The Shark ® 200 meter automatically recognizes the installed option card during Power Up. If you have not programmed a configuration for the card, the unit will default to the following: IP Address: 10.0.0.2 Subnet Mask: 255.255.255.0 Default Gateway: 0.0.0.0 7-13 Electro Industries/Gauge Tech Doc# E149701...
  • Page 96 IMPORTANT! The INP100S uses an auto-detecting circuit that automatically switches the transmit and receive in order to properly align communication. Because of this, when you are communicating directly to a meter with a PC or a switch, a straight cable can be used. 7-14 Electro Industries/Gauge Tech Doc# E149701...
  • Page 97: Hardware Connection

    2. Use a standard RJ-45 10/100BaseT cable to connect to the Ethernet card. The card autodects cable type and will work with either straight or crossover cable. RJ-45 Cable Connects Here ® Figure 8.1: Shark 200 meter with Ethernet Card Electro Industries/Gauge Tech Doc# E149701...
  • Page 98: Performing Network Configuration

    3. Check the firmware version by clicking Get Firmware Info. 4. Once you have confirmed that the firmware version is correct, click Reset Device. 5. Click Close to return to the Communicator EXT Main screen. Electro Industries/Gauge Tech Doc# E149701...
  • Page 107 Appendix B Modbus Mapping and Log Retrieval ® for the Shark 200 Meter B.1: Introduction ® The Modbus Map for the Shark 200 Meter gives details and information about the possible readings of ® the meter and its programming. The Shark 200 meter can be programmed using the buttons on the face of the meter (Chapter 6), or by using software.
  • Page 108: B.4: Floating Point Values

    The Floating Point Representation is therefore -1.75871956 times 2 to the 10. Decimal equivalent: -1800.929 NOTES: • Exponent = the whole number before the decimal point. • Mantissa = the positive fraction after the decimal point. Electro Industries/Gauge Tech Doc# E149701...
  • Page 109: B.5.1: Data Formats

    The Alarm Log Record uses 16 bytes, 10 bytes of which are available when the log is retrieved. Byte Value timestamp direction limit# Value % The limit # byte is broken into a type and an ID. Value type Limit ID Electro Industries/Gauge Tech Doc# E149701...
  • Page 110 Each item descriptor lists the data type of the item, and the number of bytes for that item. By combining these two lists, the Historical Log record can be interpreted. Electro Industries/Gauge Tech Doc# E149701...
  • Page 111: Block Size

    This is most commonly used in conjunction with the Digital I/O Option Cards. NOTE: The interval between records will not be even (fixed), and thus should not be used with programs that expect a fixed interval. Electro Industries/Gauge Tech Doc# E149701...
  • Page 112: Register List

    2 descriptor. NOTE: As can be seen from the example, above, there is not a 1-to-1 relation between the register list and the descriptor list. A single descriptor may refer to multiple register items. Electro Industries/Gauge Tech Doc# E149701...
  • Page 113 Log Availability: A flag indicating if the log is available for retrieval, or if it is in use by another port. Log Available for retrieval In use by COM1 (IrDA) In use by COM2 (RS485) In use by COM3 (Option Card 1) In use by COM4 (Option Card 2) Electro Industries/Gauge Tech Doc# E149701...
  • Page 114 COM1 (IrDA) COM2 (RS-485) COM3 (Communications Capable Option Card 1) COM4 (Communications Capable Option Card 2) To get the current Com Port, see the NOTE on querying the port, at the top of this page. Electro Industries/Gauge Tech Doc# E149701...
  • Page 115 This value is settable, as less than a full window may be used. This number tells the retrieving program how many records to expect to find in the window. (RecPerWindow x RecSize) = #bytes used in the window. This value should be ((123 x 2) \ recSize), rounded down. Electro Industries/Gauge Tech Doc# E149701...
  • Page 116 RecordsPerWindow each time that the last register in the window is read. When auto-increment is not enabled, this value must be written-to manually, for each window to be retrieved. Log Retrieval Data Window: The actual data of the records, arranged according to the above settings. Electro Industries/Gauge Tech Doc# E149701 B-10...
  • Page 117: B.5.4: Log Retrieval

    IMPORTANT: Before using function code 0x23, always check to see if the current connection supports it. Some relay devices do not support user defined function codes; if that is the case, the message will stall. Other devices don’t support 8 repeat counts. Electro Industries/Gauge Tech Doc# E149701 B-11...
  • Page 118: B.5.4.3: Log Retrieval Procedure

    If the Window Status is 0, go to step 2b (Verify record index). NOTES: We read the index and window in 1 request to minimize communication time, and to ensure that the record index matches the data in the data window returned. Electro Industries/Gauge Tech Doc# E149701 B-12...
  • Page 119: B.5.4.4: Log Retrieval Example

    Protocol used is Modbus RTU. The checksum is left off for simplicity. ® The Shark 200 meter is at device address 1. No new records are recorded to the log during the log retrieval process. Electro Industries/Gauge Tech Doc# E149701 B-13...
  • Page 120 -First Timestamp: 0x060717101511 = July 23, 2006, 16:21:17 -Last Timestamp: 0x060717101511 = July 24, 2006, 16:21:17 NOTE: This indicates that the log has been engaged properly in step 2. Proceed to retrieve the log. Electro Industries/Gauge Tech Doc# E149701 B-14...
  • Page 121 The next 18 bytes is the 1’st record. -Timestamp: 0x060717101600 July 23, 2006, 16:22:00 -Data: -Volts AN: 0x42FAAACF, float = 125.33~ -Volts BN: 0x42FAAD18, float = 125.33~ -Volts CN: 0x42FAA9A8, float = 125.33~ . . . 13 records Electro Industries/Gauge Tech Doc# E149701 B-15...
  • Page 122 If the current index is greater than or equal to the number of records (in this case 100), then all records have been retrieved; go to step 12. Otherwise, go to step 10 to check if we are nearing the end of the records. Electro Industries/Gauge Tech Doc# E149701 B-16...
  • Page 123 0 (ignore) ------------------------------ Receive: 0106C34F0000 (echo) NOTES: This disengages the log, allowing it to be retrieved by other COM ports. The log will automatically disengage if no log retrieval action is taken for 5 minutes. Electro Industries/Gauge Tech Doc# E149701 B-17...
  • Page 124 Payload (8 bytes). The Timestamp (6 bytes) is in the header. Typically, software will retrieve only the timestamp and payload, yielding a 14-byte record. The table on the next page shows all defined payloads. Electro Industries/Gauge Tech Doc# E149701 B-18...
  • Page 125 1 = acquire sector, 2 = startup, 3 = empty sector, 4 = release sector, 5 = write data o Flash error counters are reset to zero in the unlikely event that both copies in EEPROM are corrupted. Electro Industries/Gauge Tech Doc# E149701 B-19...
  • Page 126: Alarm Record

    (hysteresis), which is the value at which the limit returns “into” limit after the setpoint has been exceeded. This prevents “babbling” limits, which can be caused by the limit value fluttering over the setpoint, causing it to go in and out of limit continuously. Electro Industries/Gauge Tech Doc# E149701 B-20...
  • Page 127 When the meter powers up, it detects limits from scratch. This means that multiple “out of limit” records can be in sequence with no “into limit” records. Cross- reference the System Events for Power Up events. Electro Industries/Gauge Tech Doc# E149701 B-21...
  • Page 128 Programmable Settings to record when its state changes. When any one configured Relay or Digital Input changes, the values of all Relays and Digital Inputs are recorded, even if they are not so configured. Electro Industries/Gauge Tech Doc# E149701 B-22...
  • Page 129 00 06 08 18 4E 39 00 00 00 00 00 00 00 00 00 00 00 send: :01 10 C3 51 00 02 04 00 00 00 00 - Set the retrieval index recv: :01 10 C3 51 00 02 (Continued on next page) Electro Industries/Gauge Tech Doc# E149701 B-23...
  • Page 130 00 00 00 00 00 00 00 03 E8 00 00 00 05 00 00 00 00 00 00 00 send: :01 06 C3 4F 00 00 - Disengage the log recv: :01 06 C3 4F 00 00 Electro Industries/Gauge Tech Doc# E149701 B-24...
  • Page 131 - 0.5% 00 00 - 0.0% 00 00 - 0.0% 00 00 - 0.0% B.6: Modbus Register Map (MM-1 to MM-22) ® The Shark 200 meter’s Modbus Register Map begins on the following page. Electro Industries/Gauge Tech Doc# E149701 B-25...
  • Page 132 Doc# E149701 B-26 Electro Industries/Gauge Tech...
  • Page 133 1022 - 1023 VAs, 3-Ph total FLOAT -9999 M to +9999 M 03FF 0400 1024 - 1025 Power Factor, 3-Ph total FLOAT -1.00 to +1.00 none 0401 0402 1026 - 1027 Frequency FLOAT 0 to 65.00 Doc# E149701 MM-1 Electro Industries/Gauge Tech...
  • Page 134 060B 060C 1548 - 1549 VAR-hours, Negative, Phase A SINT32 0 to -99999999 VARh per energy format 060D 060E 1550 - 1551 VAR-hours, Negative, Phase B SINT32 0 to -99999999 VARh per energy format Doc# E149701 MM-2 Electro Industries/Gauge Tech...
  • Page 135 -1.00 to +1.00 none 080B 080C 2060 - 2061 Negative PF, Phase B, Average FLOAT -1.00 to +1.00 none 080D 080E 2062 - 2063 Negative PF, Phase C, Average FLOAT -1.00 to +1.00 none Block Size: Doc# E149701 MM-3 Electro Industries/Gauge Tech...
  • Page 136 0C07 0C08 3080 - 3081 VAR-hours, Negative, Phase A SINT32 0 to -99999999 VARh per energy format 0C09 0C0A 3082 - 3083 VAR-hours, Negative, Phase B SINT32 0 to -99999999 VARh per energy format Doc# E149701 MM-4 Electro Industries/Gauge Tech...
  • Page 137 Current Date and Time TSTAMP 1Jan2000 - 31Dec2099 1 sec 119E 119E 4511 - 4511 Reserved Reserved 119F 119F 4512 - 4512 Current Day of Week UINT16 1 to 7 1 day 1=Sun, 2=Mon, etc. Block Size: Doc# E149701 MM-5 Electro Industries/Gauge Tech...
  • Page 138 1F3B 1F3C 7996 - 7997 Volts B-C, Short Term Minimum FLOAT 0 to 9999 M volts 1F3D 1F3E 7998 - 7999 Volts C-A, Short Term Minimum FLOAT 0 to 9999 M volts Block Size: Doc# E149701 MM-6 Electro Industries/Gauge Tech...
  • Page 139 Volts A-N, %THD, Minimum UINT16 0 to 9999 0.01% 1F8E 1F8E 8079 - 8079 Volts B-N, %THD, Minimum UINT16 0 to 9999 0.01% 1F8F 1F8F 8080 - 8080 Volts C-N, %THD, Minimum UINT16 0 to 9999 0.01% Doc# E149701 MM-7 Electro Industries/Gauge Tech...
  • Page 140 8493 - 8495 VAs, Phase B, Min Avg Dmd Timestamp TSTAMP 1Jan2000 - 31Dec2099 1 sec 212F 2131 8496 - 8498 VAs, Phase C, Min Avg Dmd Timestamp TSTAMP 1Jan2000 - 31Dec2099 1 sec Doc# E149701 MM-8 Electro Industries/Gauge Tech...
  • Page 141 233F 2340 9024 - 9025 Negative VARs, 3-Ph, Maximum Avg Demand FLOAT 0 to +9999 M VARs 2341 2342 9026 - 9027 VAs, 3-Ph, Maximum Avg Demand FLOAT -9999 M to +9999 M Doc# E149701 MM-9 Electro Industries/Gauge Tech...
  • Page 142 24C9 24CB 9418 - 9420 Amps A, Max Avg Dmd Timestamp TSTAMP 1Jan2000 - 31Dec2099 1 sec 24CC 24CE 9421 - 9423 Amps B, Max Avg Dmd Timestamp TSTAMP 1Jan2000 - 31Dec2099 1 sec Doc# E149701 MM-10 Electro Industries/Gauge Tech...
  • Page 143 1 sec 2532 2534 9523 - 9525 Volts C-N, %THD, Max Timestamp TSTAMP 1Jan2000 - 31Dec2099 1 sec 2535 2537 9526 - 9528 Amps A, %THD, Max Timestamp TSTAMP 1Jan2000 - 31Dec2099 1 sec Doc# E149701 MM-11 Electro Industries/Gauge Tech...
  • Page 144 UINT16 bit-mapped Two nibble fields: (2222) for input#2 and (1111) for input -------- 22221111 Lsb in each nibble is the current state of the input. Msb in each nibble is the oldest registered state. Doc# E149701 MM-12 Electro Industries/Gauge Tech...
  • Page 145 Format is same as Kt settings for Pulse Output. "V" is raw value in Wh/pulse from 0 to 9999. "dd"=decimal point position: 00=0.XXXX, 01=X.XXX, 10=XX.XX, 11= XXX.X 275B 275E 10076 - 10079 Reserved Reserved Doc# E149701 MM-13 Electro Industries/Gauge Tech...
  • Page 146 11020 - 11055 Reserved Reserved 2B2F 2B30 11056 - 11057 Firmware Version ASCII 4 char none Version of the BOOT firmware of the card, left justified and padded with spaces. Blank for boards without embedded firmware. Doc# E149701 MM-14 Electro Industries/Gauge Tech...
  • Page 147 1, 10, 100, 1000, Disabled accumulators always read 0. 10000, or 100000 counts 2B4C 2B4C 11085 - 11085 Relay 2 Accumulator, Scaled UINT16 0 to 9999 2B4D 2B78 11086 - 11129 Reserved Reserved Block Size: Doc# E149701 MM-15 Electro Industries/Gauge Tech...
  • Page 148 Analog Out 0-1mA / Analog Out 4-20mA (Note 15) read-only 2B3F 2B3F 11072 - 11072 Status of card UINT16 bit-mapped Flag fields: ----cf-- -------- c=calibration not good; f=configuration error 2B40 2B78 11073 - 11129 Reserved UINT16 Reserved Block Size: Doc# E149701 MM-16 Electro Industries/Gauge Tech...
  • Page 149 'Close Privileged Command Session' register below) for 5 minutes or until the session is closed, whichever comes first. 520A 520A 21003 - 21003 Initiate Programmable Settings Update UINT16 password (Note 5) meter enters PS update mode Doc# E149701 MM-17 Electro Industries/Gauge Tech...
  • Page 150 = week, 1-4 for 1st - 4th, 5 for last ddd = day of week, 1-7 for Sun - Sat mmmm = month, 1-12 Example: 2AM on the 4th Sunday of March hhhhh=2, www=4, ddd=1, mmmm=3 7539 753D 30010 - 30014 Reserved Reserved Doc# E149701 MM-18 Electro Industries/Gauge Tech...
  • Page 151 30154 - 30154 var loss due to iron when watts negative UINT16 0 to 99.99 0.01% 75CA 75CA 30155 - 30155 var loss due to copper when watts negative UINT16 0 to 99.99 0.01% Doc# E149701 MM-19 Electro Industries/Gauge Tech...
  • Page 152 Surge & Sag Capture Trigger Thresholds for Vcn UINT16 -200.0 to +200.0 0.1% of full scale Same as Van / Vab & Ia channels above / Vca & Ic channels 7B6E 7B76 31599 - 31607 Reserved Block Size: Doc# E149701 MM-20 Electro Industries/Gauge Tech...
  • Page 153 0000= none, 0001 = Wh, 0010 = +Wh, 0011 = -Wh, 0100= Varh, 0101 = +Varh, 0110 = -Varh, 0111 = VAh, 1000= Received Wh, 1001= Delivered Wh, 1010= Inductive Varh, 1011 = Capacitive Varh Doc# E149701 MM-21 Electro Industries/Gauge Tech...
  • Page 154 16 char 7E07 7E0E 32264 - 32271 Input#2 Accumulator Label ASCII 16 char 7E0F 7E16 32272 - 32279 Input#3 Accumulator Label ASCII 16 char 7E17 7E1E 32280 - 32287 Input#4 Accumulator Label ASCII 16 char Doc# E149701 MM-22 Electro Industries/Gauge Tech...
  • Page 155 0 to 255 (IPv4) IP address of the DNS#1 on the network. 7D55 7D58 32087 - 32090 IP card network DNS #2 address UINT16 0 to 255 (IPv4) IP address of the DNS#2 on the network. Doc# E149701 MM-23 Electro Industries/Gauge Tech...
  • Page 156 Delay to operate the relay since request. 80EA 80EA 33003 - 33003 Relay #1 Delay to Release UINT16 0.1 second units Delay to release the relay since request. 80EB 80F0 33004 - 33009 Reserved UINT16 Set to 0. Doc# E149701 MM-24 Electro Industries/Gauge Tech...
  • Page 157 Input#1 High State Name ASCII 16 char 813F 8156 33088 - 33111 Input#2 Label and State Names same as Input#1 8157 8186 33112 - 33159 Reserved 8187 818E 33160 - 33167 Relay#1 Label ASCII 16 char Doc# E149701 MM-25 Electro Industries/Gauge Tech...
  • Page 158 This register should be programmed with the address of the register whose value is to be used for current output. In different words, the current level output of analog board will follow the value of the register addressed here. Doc# E149701 MM-26 Electro Industries/Gauge Tech...
  • Page 159 2047= 0, 4095= +150 9C42 9C42 40003 - 40003 Volts B-N UINT16 2047 to 4095 volts volts = 150 * (register - 2047) / 2047 9C43 9C43 40004 - 40004 Volts C-N UINT16 2047 to 4095 volts Doc# E149701 MM-27 Electro Industries/Gauge Tech...
  • Page 160 Power Factor, Phase C UINT16 1047 to 3047 none 9C89 9CA2 40074 - 40099 Reserved none Reserved 9CA3 9CA3 40100 - 40100 Reset Energy Accumulators UINT16 password (Note 5) write-only register; always reads as 0 Block Size: Doc# E149701 MM-28 Electro Industries/Gauge Tech...
  • Page 161 Historical Log 3 Status Block C787 C796 51080 - 51095 same as alarm log status block I/O Change Log Status Block C797 C7B6 51096 - 51127 Reserved Block Size: End of Map Doc# E149701 MM-29 Electro Industries/Gauge Tech...
  • Page 162 Only 1 input on all digital input cards may be specified as the end-of-interval pulse. Logs cannot be reset during log retrieval. Waveform log cannot be reset while storing a capture. Busy exception will be returned. Combination of class and type currently defined are: 0x23 = Fiber cards Doc# E149701 MM-30 Electro Industries/Gauge Tech...
  • Page 163: C.2: Physical Layer

    Reset Link and Reset User functions. The Link Status is not mandatory but if queried it will be attended to. The inter-character time-out for DNP Lite is 1 second. If this amount of time, or more, elapses between two consecutive characters within a FT3 frame, the frame will be dropped. Electro Industries/Gauge Tech Doc# E149701...
  • Page 164: C.4: Application Layer

    200 meter to the Primary station (the requester). The Internal Indicator field will report the type of error: unsupported function or bad parameter. The broadcast acknowledge and restart bit, are also signaled in the internal indicator but they do not indicate an error condition. Electro Industries/Gauge Tech Doc# E149701...
  • Page 165: C.6: Dnp Lite Register Map

    = number of is 1234567 * 10 Whrs, or decimal places. 12345.67 KWhrs W-hours, UINT32 W hr Negative 99999999 VAR-hours, UINT32 Positive 99999999 VAR-hours, UINT32 Negative 99999999 VA-hours, Total UINT32 VA hr 99999999 Electro Industries/Gauge Tech Doc# E149701...
  • Page 166 (numerator * multiplier) / denominator PT denominator SINT16 1 to 9999 none Neutral Current SINT16 0 to 32767 (10 / 32768) For 1A model, multiplier is (2 / 32768) and values above 2A secondary read 32767 Electro Industries/Gauge Tech Doc# E149701...
  • Page 167: C.7: Dnp Message Layouts

    16 bit frame destination address 16 bit frame source address DNP Cyclic redundant checksum (polynomial x transport layer data sequence number application layer data sequence number Link Layer related frames Reset Link Request Reply Reset User Request Reply Electro Industries/Gauge Tech Doc# E149701...
  • Page 168 12 pt 13 pt 15 pt 16 pt 17 pt 18 pt 19 pt 20 pt 21 pt 23 pt 24 pt 25 pt 26 pt 27 pt 28 pt 29 pt 31 pt 32 Electro Industries/Gauge Tech Doc# E149701...
  • Page 169 Reset Energy Request Reply int. ind. Request (alternate) Reply int. ind. Switch to Modbus Request No Reply Reset Demand (Maximums & Minimums) Request Reply int. ind. Electro Industries/Gauge Tech Doc# E149701...
  • Page 170 Request (alternate) Reply int. ind. Error Reply Reply int. ind. Electro Industries/Gauge Tech Doc# E149701...
  • Page 171: D.2: Installation Procedures

    The Found New Hardware Wizard allows you to install the software for the Adapter. Click the Radio Button next to Install from a list or specific location. 4. Click Next. You will see the screen shown on the next page. Electro Industries/Gauge Tech Doc# E149701...
  • Page 172 These selections allow the Adapter’s driver to be copied from the Installation disk to your 6. Click Next. You will see the screen shown below. 7. When the driver for the Adapter is found, you will see the screen shown on the next page. Electro Industries/Gauge Tech Doc# E149701...
  • Page 173 9. You will see the two windows shown below. Click Continue Anyway. 10. You will see the screen shown on the next page while the Adapter’s driver is being installed on your PC. Electro Industries/Gauge Tech Doc# E149701...
  • Page 174 13. Position the USB to IrDA Adapter so that it points directly at the IrDA on the front of the Shark 200 meter. It should be as close as possible to the meter, and not more than 15 inches/38 cm away from it. 14. The Found New Hardware Wizard screen opens again. Electro Industries/Gauge Tech Doc# E149701...
  • Page 175 15. Click Next. You will see the screen shown below. 16. Make sure the first Radio Button and the first Checkbox are selected, as shown in the above screen. Click Next. You will see the two screens shown on the next page. Electro Industries/Gauge Tech Doc# E149701...
  • Page 176 17. When the installation is complete, you will see the screen shown on the next page. Electro Industries/Gauge Tech Doc# E149701...
  • Page 177 NOTE: If the Adapter doesn’t show up under Modems, move it away from the meter for a minute and then position it pointing at the IrDA, again. 19. Double-click on the Standard Modem over IR link (this is the USB to IrDA Adapter). You will see the Properties screen for the Adapter. Electro Industries/Gauge Tech Doc# E149701...
  • Page 178 20. Click the Modem tab. The Com Port that the Adapter is using is displayed in the screen. 21. Use this Com Port to connect to the meter from your PC, using the Communicator EXT software. Refer to Chapter 5 of the Communicator EXT 3.0 User’s Manual for detailed connection instructions. Electro Industries/Gauge Tech Doc# E149701...

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