Micro Motion 5700 Specifications

Product Data Sheet

PS-001885, Rev G

November 2017

Micro Motion® Model 5700 Transmitters with
MVD™ Technology

Repeatable, reliable, accurate measurements

■

Faster processing speed delivers the best response even in the most challenging applications such as
meter proving, filling & dosing, and batching

■

Smart Meter Verification provides you with the confidence you need in your meter performance

■

Zero verification confirms the calibration and indicates when it’s time to re-zero the meter

■

Approved for custody transfer and certified for SIL2 and SIL3, which provides measurement confidence
and reliability

A window into your process

■

Easy access to detailed measurement history gives you valuable insight into your process for better
troubleshooting and optimization

■

Real-time indication of multi-phase flow events allow for greater process control

■

High-accuracy density measurement reduces or eliminates waste in your process while the embedded
historian records upsets and process deviations

Productivity through simplified solutions

■

Designed to minimize the time and expertise needed to install and operate the flowmeter

■

Up to five fully configurable input/output channels that can be easily upgraded with changing needs

■

Ethernet version includes multiple protocols on dual channels, plus a configurable I/O channel

■

FOUNDATION™ Fieldbus version includes IEC-61158-2 FOUNDATION Fieldbus output, a fixed mA output
channel, and a configurable frequency / discrete output channel.

■

Offline configuration and auditing through new file shuttling capability

Model 5700 Transmitters

November 2017

Micro Motion Model 5700 transmitters

Model 5700 transmitters deliver the best measurement technology and offer unparalleled support – ensuring total measurement
confidence, valuable process insight and greater operational efficiency. These transmitters provide the scalability, compatibility and
performance that your application demands.

Simplified installation and commissioning

An intuitive interface, spacious side-access wiring compartment and convenient mounting brackets.

Smart Meter Verification: advanced diagnostics for your entire system

Our online tool verifies that your meter performs as well as the day it was installed, giving you assurance in less than 90 seconds.

Measurement history for easier troubleshooting and optimization

Detailed history files deliver key time-stamped information about your process from configuration changes and alerts to process
events and statistics.

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Discrete input

2 Ethernet ports

1 configurable
I/O channel for
mA, frequency,
or discrete output

Fieldbus output

mA output

Configurable channel
for frequency or
discrete output

November 2017

Model 5700 Transmitters

Unmatched system connectivity and services interfaces

Configurable I/O version Up to five fully configurable I/O channels with multiple mA, discrete and frequency

outputs, and several powerful service interfaces.

Ethernet version Two Ethernet outputs with EtherNet/IP, Modbus TCP, or PROFINET — plus one config-

urable output.

Fieldbus version Fieldbus output, mA output, and a configurable channel for frequency or discrete

output.

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Model 5700 Transmitters

November 2017

Model 5700 enhancements

Internal memory

The Model 5700 transmitter provides a backup of:

■ Transmitter configurations

■ Meter verification baseline and history

■ Data log

■ Licensing key

If you need to replace your transmitter, move your old memory to the new transmitter without losing any data or licensing
information.

Software licensing

Software licensing makes it possible to:

■ Purchase permanent features and add them later

■ Trial features, such as concentration measurement, for 60 days before buying

■ Order up to five input/output channels through the license

Large graphical display

■ Supports multiple languages

■ Supports full configuration capabilities directly from the display

■ Provides understandable alert codes

Two-phase flow detection

Two-phase flow detection provides clear, concise information about fluid conditions, including notification about the following
three fluid regimes:

■ Single phase

■ Moderate two-phase flow

■ Severe two-phase flow

Physical design

■ Conduit and terminal compartments are accessible from the sides

■ Modular board stack design

■ Spacious wiring compartments

■ Remote mounting bracket

■ A Universal Service Port (USP) connects and transfers data using standard, easily available equipment

Troubleshooting tools

The Model 5700 transmitter stores data in non volatile memory with Real Time Clock, including:

■ Meter fingerprint

■ Audit trail

■ Alert log

■ Long term data historian: 5-minute Min, Max, Avg, Std Dev (10 years)

■ Short term data historian: 1-second data (30 days)

The Model 5700 transmitter contains descriptive alerts describing the issue and recommended steps for resolution.

■ Follows NE 107 Standard

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November 2017

Model 5700 Transmitters

Applications

Applications are custom designed programs and software that offer additional functionality and
performance to transmitters. These applications are available through options in the transmitter model
code, see the ordering information section for details.

Smart Meter Verification

Provides a quick, complete assessment of a Micro Motion Coriolis meter, determining whether the meter
has been affected by erosion, corrosion, or other influences affecting meter calibration. No secondary
references are required to perform this operation, and the meter can continue normal process
measurement while the test is in progress.

Smart Meter Verification Professional on the Model 5700 transmitter also offers coating detection,
installation verification, detection of optimal flow range, and two-phase flow detection. A 90-day trial
version is included with all Model 5700 transmitters with enhanced core processors. After the 90-day trial, a
basic version of Smart Meter Verification will provide simple pass/fail results, and simple diagnostics that
run without interrupting your processes.

Discrete batch control

■

Simple batch control based on totalizer values

■

Frequency output configured as discrete output for transmitters with analog or intrinsically safe outputs

■

Automatic overshoot compensation

■

Single and dual stage batching available on the configurable I/O version when ordered with the Batching
Software (BS) package option

■

Batch ticket printing available if Channel E is enabled (supports Terminal Window, Generic, Epson TM88v,
Epson TMU-295 and Digitec 6610A printers)

Note

Discrete batch control is not available with Model 5700 FOUNDATION Fieldbus models.

Petroleum measurement and API correction option

■

Accepts inputs from temperature and pressure devices

■

Calculates values as per May, 2004 API Chapter 11.1

-

Relative density (specific gravity and API gravity) at reference temperature from observed density and
temperature

-

Volume corrected to reference temperature and pressure

■

Calculates flow-weighted average temperature and flow-weighted average observed density (specific
gravity and API gravity)

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Model 5700 Transmitters

November 2017

Concentration measurement

Provides concentration measurement based on either industry-specific or liquid-specific units and
relationships. Standard measurement options include:

■

Industry-specific:

-

°Brix

-

°Plato

-

°Balling

-

°Baumé at SG60/60

-

Specific gravity

■

Liquid-specific:

-

%HFCS

-

Concentration derived from reference density

-

Concentration derived from specific gravity

Additionally, the application can be customized for site-specific concentration measurement (such as
%HNO3, %NaOH).

Advanced Phase Measurement

■

Accurately measures liquid or gas flow in limited multiple-phase conditions

-

Immediate and continuous access to production or process data

-

Real time reporting of Gas Void Fraction (GVF)

■

Facilitates reliable measurement at a fraction of the cost of true multi-phase meters

-

Historian automatically captures all production data

-

Little to no maintenance or calibration

■

Combines with Net Oil Computer (NOC) or Concentration Measurement to measure two liquids in the
presence of gas

-

Provides single well real-time Net Oil and Net Water measurements

-

Improves Concentration Measurement in processes with intermittent entrained gas

Electrical connections

Configurable I/O version

Connection

Input/Output Up to five pairs of wiring terminals for transmitter I/O and communications

Power

Sensor

Service port (HART) Two clips for temporary connection to the service port

Universal Service Port (USP) A USP connected to commercially-available USB equipment and cables

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Description

■ One pair of wiring terminals accepts AC or DC power

■ One internal ground lug for power-supply ground wiring

■ 4-wire remote mount – 4 terminals for connection to 4-wire sensor

■ 9-wire remote mount – 9 terminals for connection to 9-wire sensor

November 2017

Model 5700 Transmitters

Ethernet version

Connection Description

Ethernet ports Two Ethernet ports for EtherNet/IP, Modbus TCP, PROFINET, and web server connec-

tions

Input/Output One configurable channel for mA output, frequency output, discrete output, or dis-

crete input

Power

Sensor

Universal Service Port (USP) A USP connected to commercially-available USB equipment and cables

Embedded web server Connect to embedded web server via Ethernet connection for on-board configuration

■ One pair of wiring terminals accepts AC or DC power

■ One internal ground lug for power-supply ground wiring

■ 4-wire remote mount – 4 terminals for connection to 4-wire sensor

■ 9-wire remote mount – 9 terminals for connection to 9-wire sensor

or data transfer

FOUNDATION Fieldbus version

Connection

Input/Output

Power

Sensor

Universal Service Port (USP) A USP connected to commercially-available USB equipment and cables

Note

■ Each screw terminal connection accepts one or two solid conductors, 24 to 12 AWG (0.20 to 3.3 mm2) or one or two stranded
conductors, 22 to 14 AWG (0.38 to 2.3 mm2). Each plug type connector accepts one stranded or solid conductor, 24 to 12 AWG
(0.20 to 3.3 mm2).

■ For integral mount transmitters (mounting code I), the connection between the transmitter and the sensor is not normally
accessed.

Description

■ One fixed channel for mA output

■ One configurable channel for frequency output or discrete output

These outputs are available as intrinsically safe, or non-intrinsically safe, based on
the output option selected.

■ One pair of wiring terminals accepts AC or DC power

■ One internal ground lug for power-supply ground wiring

■ 4-wire remote mount – 4 terminals for connection to 4-wire sensor

■ 9-wire remote mount – 9 terminals for connection to 9-wire sensor

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Model 5700 Transmitters

November 2017

Input/output signal detail

Configurable I/O channels (output board code A)

Signal Channel A Channel B Channel C Channel D Channel E

Wiring termi­nals

mA inputs
and outputs

Frequency
outputs

Discrete
outputs

Discrete
inputs

Frequency
inputs

(1) Frequency Output 2 can be mapped to Channel B or D. For multiple frequency outputs, use Frequency 1 on Channel C and Frequency 2 on either

Channel B or D.

1 2 3 4 5 6 7 8 9 10

mA Output 1 (HART) mA Output 2 mA Output 3 mA Input RS-485

Frequency Output

(1)

2

Discrete Output 1 Discrete Output 2 Discrete Output 3

Frequency Output 1 Frequency Output 2

Discrete Input 1 Discrete Input 2

Frequency Input

Ethernet channels (output board code C)

Signal

Channel options EtherNet/IP

(1) The same protocol must be ordered on both Channel A and B. ProLink III and the Integrated Webserver can always be connected to either Channel

A or B.

Channel A Channel B Channel C

(1)

Modbus TCP Modbus TCP Frequency Output

PROFINET PROFINET Discrete Output

EtherNet/IP mA Output

Discrete Input

FOUNDATION Fieldbus channels (output board code E with intrinsically safe H1 outputs)

Signal

Channel options FOUNDATION Fieldbus (FISCO “ia”

Channel A Channel C Channel D

IS mA Output IS Frequency Output

or FISCO “ic”)

IS Discrete Output

FOUNDATION Fieldbus channels (output board code N with H1 outputs)

Signal

Channel options FOUNDATION Fieldbus mA Output Frequency Output

Channel A Channel C Channel D

Discrete Output

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November 2017

Model 5700 Transmitters

Channel A specifications

Configurable I/O (output board code A)

Specification mA output mA output max loop resistance

Internal voltage (active power) 24VDC (nom) 820 ohm

External voltage (passive power) 30VDC (max) 1080 ohm @ 30VDC

Scalable range 4-20mA

Downscale fault Configurable from 1.0 – 3.6 mA, default

value = 2.0 mA

Upscale fault Configurable from 21.0 – 23.0 mA, de-

fault value = 22.0 mA

Linearity 0.015 % Span, Span = 16mA

Note

mA output is linear with process from 3.8 to 20.5 mA, per NAMUR NE-43 (February 2003).

Ethernet (output board code C)

Specifications:

■ 10BASE-T

■ 100BASE-TX

FOUNDATION Fieldbus (output board code E)

Specifications:

■ FOUNDATION Fieldbus H1 output

■ Wiring is intrinsically safe with intrinsically safe power supply

■ Transmitter fieldbus circuit is passive, and draws power from the fieldbus segment — current draw is 13 mA

■ Manchester encoded digital signal conforms to IEC 61158-2

FOUNDATION Fieldbus (output board code N)

Specifications:

■ FOUNDATION Fieldbus H1 output

■ FOUNDATION Fieldbus wiring is non-incendive

■ Transmitter fieldbus circuit is passive, and draws power from the fieldbus segment — current draw is 13 mA

■ Manchester encoded digital signal conforms to IEC 61158-2

Channel B specifications

Configurable I/O (output board code A)

mA output max loop

Specification

Internal voltage
(active power)

mA output

24VDC (nom) 820 ohm 24VDC (nom)

resistance Frequency output (2) Discrete output (1)

24VDC (nom)

22mA sourcing

7mA sourcing

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Model 5700 Transmitters

mA output max loop

Specification mA output

External voltage
(passive power)

Scalable range 4-20mA 0.01 Hz – 10 kHz

Downscale fault Configurable from 1.0 – 3.6

Upscale fault Configurable from 21.0 – 23.0

Linearity 0.015 % Span, Span = 16mA Output is linear with

Resolution +/- 1 pulse

30VDC (max) 1080 ohm @ 30VDC 30VDC (max)

mA, default value = 2.0 mA

mA, default value = 22.0 mA

Ethernet (output board code C)

Specifications:

■ 10BASE-T

■ 100BASE-TX

resistance Frequency output (2) Discrete output (1)

500mA (max) sinking

0Hz

Configurable from 10
Hz to 14.5 kHz, default
value = 14.5 kHz

flow rate to 12.5 kHz

November 2017

30VDC (max)

500mA (max) sinking

FOUNDATION Fieldbus

Output board code ETable 1:

Specification mA Output mA Output max loop resistance

External voltage (passive power) 30VDC (max)

10VDC (min)

Scalable range 4-20mA

Downscale fault Configurable from 1.0 – 3.6 mA, default

value = 2.0 mA

Upscale fault Configurable from 21.0 – 23.0 mA, de-

fault value = 22.0 mA

Linearity 0.015 % Span, Span = 16mA

Entity parameters

■ Ui=30V

■ Ii=484mA

■ Pi=2.05W

■ Ci=0.27nF

■ Li=5uH

869 ohms @ 30V

Output board code NTable 2:

Specification mA Output mA Output max loop resistance

External voltage (passive power) 30VDC (max)

869 ohms @ 30V

10VDC (min)

Scalable range 4-20mA

Downscale fault Configurable from 1.0 – 3.6 mA, default

value = 2.0 mA

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