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Emerson Micro Motion 5700 Installation Manual

Ethernet transmitter
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Installation Manual
MMI-20029768, Rev AA
March 2016
®
Micro Motion
Model 5700 Ethernet
Transmitters
Ethernet Installations
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Summary of Contents for Emerson Micro Motion 5700

  • Page 1 Installation Manual MMI-20029768, Rev AA March 2016 ® Micro Motion Model 5700 Ethernet Transmitters Ethernet Installations...
  • Page 2 Emerson Flow customer service Email: • Worldwide: [email protected] • Asia-Pacific: [email protected] Telephone: North and South America Europe and Middle East Asia Pacific United States 800-522-6277 U.K. 0870 240 1978 Australia 800 158 727 Canada +1 303-527-5200 The Netherlands +31 (0) 704 136 666 New Zealand...

  • Page 3: Table Of Contents

    Contents Contents Chapter 1 Planning ...........................1 About this document ........................1 Related documentation ......................... 1 Installation checklist ........................2 Additional considerations for retrofitting existing installations ............3 Power requirements ........................4 Model 5700 transmitters in Ethernet networks ................5 Chapter 2 Mounting and sensor wiring .....................8 Mounting and sensor wiring for integral-mount transmitters ............
  • Page 4 Contents Micro Motion ® Model 5700 Ethernet transmitters...

  • Page 5: Chapter 1 Planning

    Planning Planning Topics covered in this chapter: • About this document • Related documentation • Installation checklist • Additional considerations for retrofitting existing installations • Power requirements • Model 5700 transmitters in Ethernet networks About this document This manual provides information on planning, mounting, wiring, and initial setup of the transmitter.

  • Page 6: Installation Checklist

    Planning Table 1-1: Additional documentation and resources (continued) Topic Document Hazardous area installation See the approval documentation shipped with the transmitter, or download the appropriate documentation from the Micro Motion web site at www.micromotion.com. Installation checklist □ Safety messages are provided throughout this content to protect personnel and equipment.

  • Page 7: Additional Considerations For Retrofitting Existing Installations

    Planning Table 1-2: Possible transmitter orientation Preferred orientation Alternate orientations □ Mount the meter in a location and orientation that satisfies the following conditions: Allows sufficient clearance to open the transmitter housing cover. Micro Motion recommends 8–10 inches (200–250 mm) clearance at the wiring access points. Provides clear access for installing cabling to the transmitter.

  • Page 8: Power Requirements

    Planning Variable Setting Frequency output (optional) Power (Internal or External): Source: Scaling (LRV, URV): Fault Action: Dual output: Discrete output (optional) Power (Internal or External): Source: Scaling (LRV, URV): Fault Action: Discrete input (optional) Power (Internal or External): Source: Scaling (LRV, URV): Fault Action: Calibration parameters (for 9-wire installations only) Flow calibration factor...

  • Page 9: Model 5700 Transmitters In Ethernet Networks

    Planning • L: cable length (in Ω/ft) Typical power cable resistance at 68 °F (20 °C) Wire gauge Resistance 0.0050 Ω/ft 14 AWG 16 AWG 0.0080 Ω/ft 18 AWG 0.0128 Ω/ft 0.0204 Ω/ft 20 AWG 2.5 mm 0.0136 Ω/m 1.5 mm 0.0228 Ω/m 0.0340 Ω/m 1.0 mm...
  • Page 10 Planning • Connect the Model 5700 transmitter to the host system via a LAN (Local Area Network) and not a WAN (Wide Area Network). • Follow all network security best practices. 1.6.1 Star topology Model 5700 transmitters can be installed in a star network. Figure 1-1: Model 5700 star network Programmable Logic Controller (PLC)
  • Page 11 Planning Figure 1-2: Model 5700 ring network Programmable Logic Controller (PLC) Model 5700 with Ethernet output 1.6.3 Daisy-chain topology Model 5700 transmitters can be installed in a daisy-chain network. Figure 1-3: Model 5700 daisy-chain network Programmable Logic Controller (PLC) Model 5700 with Ethernet output Installation Manual...

  • Page 12: Mounting And Sensor Wiring

    Mounting and sensor wiring Mounting and sensor wiring Topics covered in this chapter: • Mounting and sensor wiring for integral-mount transmitters • Mount the 4-wire or 9-wire remote-mount transmitters • Wire the 4-wire or 9-wire remote-mount transmitter to the sensor •...
  • Page 13 Mounting and sensor wiring • If you are mounting the transmitter to an instrument pole: Ensure that the instrument pole extends at least 12 inches (305 mm) from a rigid base, and is no more than 2 inches (50.8 mm) in diameter. Confirm that you have the necessary tools, and the instrument-pole mounting kit shipped with the transmitter.
  • Page 14 Mounting and sensor wiring Figure 2-2: Wall-mounting bracket dimensions A. 2.8 in (71.4 mm) B. 2.8 in (71.4 mm) • For pole-mount installations, attach the U-bolt mounting piece to the instrument pole. Micro Motion ® Model 5700 Ethernet transmitters...
  • Page 15 Mounting and sensor wiring Figure 2-3: Pole-mounting bracket attachment Place and attach the transmitter-mounting bracket to the mounting bracket secured to the wall or instrument pole. Installation Manual...

  • Page 16: Wire The 4-Wire Or 9-Wire Remote-Mount Transmitter To The Sensor

    Mounting and sensor wiring Figure 2-4: Attaching and securing transmitter to mounting bracket To ensure the mounting bracket holes are aligned, insert all attachment bolts into place before tightening. Wire the 4-wire or 9-wire remote-mount transmitter to the sensor Prerequisites •...
  • Page 17 Mounting and sensor wiring Figure 2-5: Removal of the transmitter-to-sensor wiring compartment cover Installation Manual...
  • Page 18 Mounting and sensor wiring Feed the sensor wiring cable into the transmitter wiring compartment. Figure 2-6: Sensor wiring feedthrough Connect the sensor wires to the appropriate terminals. Note Terminate the 4-wire cable drain wires only at the sensor/core processor end of the cable. See the sensor installation manual for more detail.
  • Page 19 Mounting and sensor wiring Figure 2-7: 4-wire transmitter-to-sensor wiring connections Installation Manual...

  • Page 20: Ground The Meter Components

    Mounting and sensor wiring Figure 2-8: 9-wire transmitter-to-sensor wiring connections Note Connect the 4 drain wires in the 9-wire cable to the ground screw located inside the junction box. Replace the transmitter-to-sensor wiring compartment cover and tighten the screws to 14-16 in-lbs. Ground the meter components In 4-wire or 9-wire remote installations, the transmitter and sensor are grounded separately.
  • Page 21 Mounting and sensor wiring Prerequisites CAUTION! Improper grounding could cause inaccurate measurements or meter failure. WARNING! Failure to comply with requirements for intrinsic safety in a hazardous area could result in an explosion. Note For hazardous area installations in Europe, refer to standard EN 60079-14 or national standards. If national standards are not in effect, adhere to the following guidelines for grounding: •...
  • Page 22 Mounting and sensor wiring Figure 2-9: Internal ground screw • The external ground screw is located on the side of the transmitter located below the transmitter tag. Micro Motion ® Model 5700 Ethernet transmitters...

  • Page 23: Rotate The Transmitter On The Sensor (Optional)

    Mounting and sensor wiring Figure 2-10: External ground screw Rotate the transmitter on the sensor (optional) In integral installations, you can rotate the transmitter on the sensor up to 360º in 45º increments. Using a 4 mm hex key, loosen and remove the clamp securing the transmitter head in place.
  • Page 24 Mounting and sensor wiring Figure 2-11: Removal of the sensor clamp Gently lift the transmitter straight up, and rotate the transmitter to the desired position. You can rotate the transmitter to any of the eight positions, but a stop exists that will not allow a full 360°...
  • Page 25 Mounting and sensor wiring Figure 2-12: Rotation of the transmitter head Gently lower the transmitter onto the base, confirming that the transmitter is in a locked position. Replace the clamp in its original position and tighten the cap screw. Torque to 28 to 30 in-lbs (2.3 to 3.4 N-m).

  • Page 26: Rotate The User Interface On The Transmitter (Optional)

    Mounting and sensor wiring Figure 2-13: Re-attachment of the sensor clamp Rotate the user interface on the transmitter (optional) The user interface on the transmitter electronics module can be rotated 90°, 180°, or 270° from the original position. Micro Motion ®...
  • Page 27 Mounting and sensor wiring Figure 2-14: Display components Transmitter housing Sub-bezel Display module Display screws End-cap clamp Cap screw Display cover Procedure Shut off power to the unit. WARNING! If the transmitter is in a hazardous area, wait five minutes after disconnecting the power before opening the enclosure.

  • Page 28: Rotate The Sensor Wiring Junction Box On A Remote-Mount Transmitter (Optional)

    Mounting and sensor wiring Carefully loosen the semi-captive display screws while holding the display module in place. Carefully pull the display module out of the main enclosure. Rotate the display module to the desired position. Gently press the display module back onto the connector. Tighten display screws.
  • Page 29 Mounting and sensor wiring Figure 2-15: Removal of the clamp Gently rotate the junction box to the desired position. You can rotate the junction box plus or minus 180º to any position. Installation Manual...
  • Page 30 Mounting and sensor wiring Figure 2-16: Rotation of the sensor wiring junction box Gently set the junction box into its new position, confirming that the position is locked. Replace the clamp in its original position and tighten the cap screw. Torque to 28 to 30 in-lbs (2.3 to 3.4 N-m).
  • Page 31 Mounting and sensor wiring Figure 2-17: Re-attachment of the clamp Installation Manual...

  • Page 32: Wiring The Channels

    Wiring the channels Wiring the channels Topics covered in this chapter: • Wire the I/O channel • Wire the Ethernet channels Wire the I/O channel The Channel C I/O can be configured as: • mA Output • Frequency Output • Discrete Output •...
  • Page 33 Wiring the channels Prerequisites Important Meter installation and wiring should be performed only by suitably-trained personnel using the appropriate government and corporate safety standards. Procedure Wire to the appropriate output terminal and pins. Figure 3-1: Internally-powered mA Output wiring A. mA Output B.
  • Page 34 Wiring the channels Figure 3-3: Externally-powered mA Output: maximum loop resistance 1100 1000 15.0 22.5 30.0 A. Maximum resistance (Ω) B. External supply voltage (V) 3.1.3 Wire the Frequency Output Wire the Frequency Output in explosion-proof, nonincendive, or nonhazardous installations. Prerequisites Important Meter installation and wiring should be performed only by suitably-trained personnel using the...
  • Page 35 Wiring the channels Figure 3-4: Internally-powered FO wiring A. Frequency Output B. Channel C C. See Figure 3-5 D. Counter Figure 3-5: Internally-powered FO: output amplitude versus load resistance [24 VDC (Nom) open circuit] 1000 A. Output amplitude (V) B. Load resistor (Ω) Installation Manual...
  • Page 36 Wiring the channels Figure 3-6: Externally-powered FO wiring A. Frequency Output B. Channel C C. 5–30 VDC (maximum) D. 500 mA current (maximum) E. Counter 3.1.4 Wire the Discrete Output Wire the Discrete Output in explosion-proof, nonincendive, or nonhazardous installations. Prerequisites Important Meter installation and wiring should be performed only by suitably-trained personnel using the...
  • Page 37 Wiring the channels Figure 3-8: Internally-powered DO: output amplitude versus load resistance [24 VDC (Nom) open circuit] 1500 2250 3000 A. Output amplitude (V) B. Load resistor (Ω) Figure 3-9: Externally-powered DO wiring A. Discrete Output B. Channel C C. 3–30 VDC (maximum) D.
  • Page 38 Wiring the channels 3.1.5 Wire the Discrete Input Prerequisites CAUTION! Wire the Discrete Input in explosion-proof, nonincendive, or nonhazardous installations. Important Meter installation and wiring should be performed only by suitably-trained personnel using the appropriate government and corporate safety standards. Procedure Wire to the appropriate input terminal and pins.
  • Page 39 Wiring the channels 3.1.6 Wire the I/O channel using an M12-terminated cable (optional) Use this procedure if you are using an M12-terminated cable to wire the I/O channel. Prerequisites Obtain an A-coded M12-terminated cable. Procedure Attach the M12-terminated cable to the configuration I/O connector on the Model 5700 transmitter.

  • Page 40: Wire The Ethernet Channels

    Wiring the channels Wire the Ethernet channels To meet the EC Directive for Electromagnetic Compatibility (EMC), use a suitable shielded Cat5e, or higher-rated instrumentation cable to connect the meter. The instrumentation cable should have an overall screen to cover all cores. Where permissible, connect the overall screen to earth at the host end (360°...
  • Page 41 Wiring the channels Daisy chain and ring topologies Feed two RJ45 cables through the conduits on the Model 5700 transmitter. Since two cables will not fit into one conduit, you will need to use separate conduits for each cable. Connect the external switch or previous transmitter to Channel A or Channel B. Functionality is identical for both Channel A and Channel B as the Model 5700 transmitter contains an internal Ethernet switch.
  • Page 42 Wiring the channels 3.2.2 Wire the Ethernet I/O using M12-terminated cables (optional) Prerequisites Obtain two D-coded M12-terminated Ethernet cables. Procedure Attach both M12-terminated Ethernet cables to the Ethernet I/O connectors on the Model 5700 transmitter. See Figure 3-13. Attach the other cable end using the pinouts described in Table 3-2.
  • Page 43 Wiring the channels Figure 3-13: M12 cables to the Ethernet I/O Note Depending on what type of M12 Ethernet option you have, your transmitter may have only the two Ethernet I/O connectors. Table 3-2: M12 Ethernet I/O pinouts Pin identi- fication Wire color Outputs on RJ45...

  • Page 44: Power Supply Wiring

    Power supply wiring Power supply wiring Topics covered in this chapter: • Wiring the power supply • Wire the power supply using an M12-terminated cable (optional) Wiring the power supply You can install a user-supplied switch in the power supply line. Important For compliance with the Low Voltage Directive 2014/35/EU (European installations), a switch in close proximity to the transmitter is required.

  • Page 45: Wire The Power Supply Using An M12-Terminated Cable (Optional)

    Power supply wiring Figure 4-1: Location of power supply wiring terminals and equipment ground A. Power supply wiring terminals (+ and -) B. Equipment ground Connect the power supply wires: • For DC power: connect to terminals + and –. •...
  • Page 46 Power supply wiring Prerequisites Obtain an S-coded M12-terminated cable. Procedure Attach the M12-terminated cable to the power connector on the Model 5700 transmitter. See Figure 4-2. Attach the other cable end using the pinouts described in Table 4-1. Figure 4-2: M12-terminated cable to power supply Table 4-1: M12 power supply pinouts...

  • Page 47: Power Up The Transmitter

    Power up the transmitter Power up the transmitter The transmitter must be powered up for all configuration and commissioning tasks, or for process measurement. Ensure that all transmitter and sensor covers and seals are closed. WARNING! To prevent ignition of flammable or combustible atmospheres, ensure that all covers and seals are tightly closed.

  • Page 48: Chapter 6 Guided Setup

    Guided Setup Guided Setup At initial startup of the transmitter, the guided configuration screen appears on the transmitter display. This tool guides you through basic configuration of the transmitter. The guided setup allows you to upload configuration files, set the transmitter display options, configure channels, and review sensor calibration data.

  • Page 49: Using The Display Controls

    Using the Display controls Using the Display controls The transmitter display interface includes a display (LCD panel) and four optical switches – left, up, down, and right arrow keys – used to access the display menus and navigate the display screens. To activate an optical switch, block the light by holding your thumb or finger in front of the opening.
  • Page 50 Using the Display controls Figure 7-1: Proper finger positioning for activating an optical switch Use the arrow indicators on the display screen to identify which optical switch to use to navigate the screen (see examples 1 and 2). Important When using the arrow keys, you must first activate the optical switch then release the same switch by removing your finger from the glass to move up, down, right, left or to make a selection.
  • Page 51 Using the Display controls Figure 7-2: Example 1: Active arrow indicators on the transmitter display Installation Manual...
  • Page 52 Using the Display controls Figure 7-3: Example 2: Active arrow indicators on the transmitter display Micro Motion ® Model 5700 Ethernet transmitters...

  • Page 53: Available Service Port Connection

    Available Service Port connection Available Service Port connection You can interface with the transmitter through the service port connection, located under the transmitter cap. To interface with the service port, you can use commonly available USB hardware, such as a USB drive or USB cable. Use the service port connection to download or upload data from/to the transmitter.
  • Page 54 © Micro Motion Japan 2016 Micro Motion, Inc. All rights reserved. Emerson Process Management The Emerson logo is a trademark and service mark of Emerson 1-2-5, Higashi Shinagawa Electric Co. Micro Motion, ELITE, ProLink, MVD and MVD Direct Shinagawa-ku Connect marks are marks of one of the Emerson Process Tokyo 140-0002 Japan Management family of companies.

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