Micro Motion 3700, 3500 Specifications
Product Data Sheet
Platform architecture designed for flexibility
Transmitter and/or controller in field-, rack-, or
panel-mount design
Wide range of I/O channels for maximum
functionality
Broadest range of application coverage
Advanced density options enable measurement
of concentration, petroleum, net volume, water
cut, and associated net oil/water flow
Provides powerful and easy one-stage or two-
stage batch control with ticket printing output
Delivers effective security capabilities suitable for
custody transfer applications
Single operator interface for easy setup, control,
and operation
Full configuration capabilities eliminate the need
for external tools
Large display provides easy-to-read menus and
descriptive alarms
Enables Smart Meter Verification for quick,
complete meter diagnosis without process
interruption
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PS-00291, Rev. H
February 2016
Micro Motion® Series 3000 Transmitters with
MVD
TM
Technology
Series 3000 Transmitters with MVD™ Technology
Table of Contents
Applications ..................................................................3
Electrical connections ...................................................4
Sensor cabling ...............................................................5
Input signal detail ..........................................................5
Output signal detail .......................................................6
Digital communications ................................................7
Power supply .................................................................7
Environmental limits .....................................................8
Environmental effects ................................................... 8
Model 3100 accessory specifications ............................ 8
Hazardous area classifications ....................................... 8
Marine approval classifications .................................... 10
Physical specifications ................................................. 10
Dimensions ................................................................. 12
Ordering Information .................................................. 16
February 2016
Micro Motion® Series 3000 transmitters
Series 3000 transmitters electronics combine transmitter functions and PLC capabilities in one instrument.
Series 3000 models feature MVD™ technology, enabling high-speed digital signal processing (DSP)
capabilities and a broad range of specialty applications.
MVD technology makes your
Micro Motion meter work smarter
Front end signal processing gives faster response
time and dramatically reduces signal noise
Provides reduced wiring costs through use of
standard 4 wire instrument cable
On-board signal processing results in the
cleanest, most accurate signal delivered, even
with tough measurement conditions such as
entrained gas
Smart Meter Verification: advanced
diagnostics for your entire system
A comprehensive test that can be run locally or
from the control room to provide confidence in
your meter functionality and performance
Verifies that your meter performs as well as the
day it was installed, giving you assurance in less
than 90 seconds
Mounting and Installation flexibility
to fit your exact needs
Form factors include rugged field mount, rack
mount, and panel mount designs
Local User Interfaces provide detailed operator
feedback and accessibility
Connection to new or existing Micro Motion
sensors easily achieved through flexible
configurations
Control and Application Tailored
Software
3500 and 3700 transmitters Measure and Control
based on direct input from a Micro Motion
Coriolis Meter
3300 and 3350 models Control based on a
frequency input from a remote transmitter
Specialty application software available such as
batch control, petroleum measurement, net oil
measurement, and custody transfer security
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February 2016
Series 3000 Transmitters with MVD™ Technology
Applications
Application are custom designed programs and software available to 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.
Process monitor/totalizer
Process monitoring and totalizing for multiple variables,
including mass flow, volume flow, density, and temperature,
reported in the user’s choice of unit. Unit options include all
common units, plus °API, SCF, beer barrels, etc., and the ability
to define a special unit for mass, volume, or gas standard
volume.
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.
Discrete batch control
Configuration of up to six preset batch recipes
One-stage or two-stage batch control
End-of-batch warning and batch-overrun alarms
Automatic overshoot compensation
Weights and measures custody transfer
Physical and software security
Security-alarm posting
Mass or volume totalizer that can be configured by the user
Compliant with MID 2004/22/EC Annex MI-002 and Annex
MI-005
Certified by NTEP and OIML
Concentration measurement
Provides concentration measurement based on either industryspecific 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 %HNO
, %NaOH).
3
Petroleum measurement
Adds the following calculations to the standard software:
Calculates base density (corrected API Gravity) and Ctl (the
correction for the effect of temperature on a liquid)
Calculates gross volume at standard temperature
Calculates flow-weighted average temperature and flowweighted average observed gravity (flowing density)
Net Oil (NOC)
Designed for use with two-phase, three-phase, or compact
separators
Supports up to 48 wells, three well tests per well (well test
mode), or continuous measurement of one well
Measures and reports net oil and net water production
Real-time water cut data based on process density or read
from water cut probe
Optionally reports gas production
Manages two-phase flow via patented Transient Bubble
Remediation Manages two-phase flow via patented
Transient Bubble Remediation (TBR) and Transient Mist
Remediation (TMR)
Enables recalculation of stored NOC data for different
reference values
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Series 3000 Transmitters with MVD™ Technology
February 2016
Electrical connections
Connection type Model 3300/3500 rack-mount Model 3300/3500 panel-mount Model 3350/3700 remote field-mount
Input/Output
Power
Service port Two clips for temporary
Type D connectors per DIN
standard 41612 (IEC 603-2)
Solder tails (standard)
Screw terminals (optional);
accept wire 24 to 16 AWG
(0.25 to 1.5 mm2)
Screw terminals are fixed to
Screw terminals (standard);
accept wire 24 to 16 AWG
(0.25 to 1.5 mm
I/O cable with remote DIN rail-
2
)
mount screw terminals
(optional) – attach to any of
four rail types. I/O cable is
available in lengths of 2, 5 and
10 feet (0.6, 1.5, and 3
meters)
Screw terminals Screw terminals
Two color-coded wiring compartments:
Compartment with intrinsically safe
terminals has two 3/4-inch NPT or M20
× 1.5 conduit openings
Compartment with non-intrinsically
safe terminals has three 3/4-inch NPT
or M20 × 1.5 conduit openings
Screw terminals accept wire 22 to 16
AWG (0.34 to 1.5 mm
rack chassis
Ground makes first and
breaks last
All power supply screw terminals accept wire 22 to 16 AWG (0.34 to 1.5 mm
One pair of terminals supports Modbus/
connection to the service port
RS-485 signal or service port mode. On
device power-up, user has 10 seconds to
connect in service port mode. After 10
seconds, the terminals default to
Modbus/RS-485 mode.
2
)
2
)
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February 2016
Sensor cabling
Specification Value
Requirements
Applies to Model 3500/3700 only.
Sensor cabling not applicable to
Models 3300/3350.
Maximum cable lengths between
sensor and transmitter
With sensor interface code 5
Requires standard 4-wire twisted-pair signal cable between the sensor and the
With Sensor interface code 6
Requires standard 4-wire twisted-pair shielded signal cable between the transmitter and
Requires Micro Motion 9-wire signal cable between the remote core processor and the
Depending on the order, 10 ft (3 m) of 4-wire cable or 10 ft (3 m) of both 4-wire and 9-wire
cable are shipped with the order. For longer cable lengths, contact Micro Motion.
Cable type Wire gauge Maximum length
Micro Motion 4-wire Not applicable 1000 ft (300 m)
Micro Motion 9-wire Not applicable 60 ft (20 m)
User-supplied 4-wire: VDC 22 AWG (0.35 mm
Series 3000 Transmitters with MVD™ Technology
transmitter. Micro Motion recommends using Micro Motion 4-wire cable.
the remote core processor. Micro Motion recommends using Micro Motion 4-wire cable.
sensor.
without Ex-approval
500 ft (150 m) with IIC
rated sensors
1000 ft (300 m) with
IIB rated sensors
2
) 300 ft (90 m)
VDC 20 AWG (0.5 mm
VDC 18 AWG (0.8 mm2) 1000 feet (300 m)
RS-485 22 AWG (0.35 mm
2
) 500 feet (150 m)
2
) or larger 1000 feet (300 m)
Input signal detail
Input Description
One 2-wire frequency/pulse
input
Two discrete momentary
inputs
One 4-wire Coriolis sensor
signal input with ground
Not intrinsically safe
Frequency range: 0–20,00 Hz
Minimum pulse width: 25 -sec
Power: Sourcing or sinking
Voltage: 0–0.8 VDC low state; 3–30 VDC high state
Current: Nominal 5 mA pull-up
Not intrinsically safe
Pulse width: 0.15 sec minimum
Voltage: 0–0.8 VDC low state; 3–30 VDC high state
Dry contacts
Intrinsically safe
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Series 3000 Transmitters with MVD™ Technology
February 2016
Output signal detail
Output Description
Two active 4–20 mA outputs
Three discrete outputs Not intrinsically safe
One 2-wire frequency/pulse
output
Fault actions
When a fault is detected, outputs go to configured states. User can select upscale, downscale, internal zero, or none. Milliamp
outputs conform to NAMUR NE43 (February 2003).
Upscale
Downscale Milliamp: 1 to 3.6 mA, user configurable
Internal zero
None
(1) The crossover frequency depends on the configured value of the pulse width. At the minimum pulse width value of 0.543 ms, the crossover frequency is 922 Hz. At
the maximum pulse width value of 277 ms, the crossover frequency is 1.8 Hz.
Isolated to ±50 VDC from all other outputs and earth ground
Maximum load limit: 100 ohms
Output is linear with process from 3.8 to 20.5 mA per NAMUR NE43 (February 2003)
Configurable for the application
Polarity: Active high or active low, software selectable
Power: Internal pull-up to 24 V
Current: Sourcing at 5.6 mA when V
Not intrinsically safe
Scalable to 10,000 Hz
Output is linear with flow rate to 2,500 Hz
Pulse width: 50% duty cycle above the crossover frequency
= VDC; Sinking up to 500 mA at 30 VDC maximum
out
(1)
; configurable between 0.543 ms
and 277 ms
Polarity: Active high or active low, software selectable
Power: Active or passive, software selectable
Voltage: 24 VDC nominal, active; 30 VDC applied maximum, passive
Current: Sourcing at 10 mA at 3 VDC, active; Sinking at 500 mA, active or passive
Milliamp: 21 to 24 mA, user configurable
Frequency: 15,000 Hz
Frequency: 0 Hz
Drives the mA and frequency
Ignores fault conditions
6 www.micromotion.com
February 2016
Series 3000 Transmitters with MVD™ Technology
Digital communications
Communication type Description
RS-485 One pair of terminals supports Service Port (SP) mode or RS-485 mode. In RS-485 mode the port
HART Bell 202
(1) HART protocol supports configuration of basic transmitter functionality, configuration of the petroleum measurement application, and reading/writing batch
setpoints and totals. HART protocol does not support configuration of the batch, concentration measurement, or NOC applications. Both Modbus and the display
provide configuration and control of all transmitter functionality.
(1)
can be used for Modbus/HART communication or as a printer port.
On device power-up, the user has 10 seconds to connect in SP mode. After 10 seconds, the
terminals switch to RS-485 mode.
Service port mode
Protocol: Modbus RTU
Data rate: 38,400 baud
Parity: no parity
Stop bit: one stop bit
Address: 111
RS-485 for Modbus/HART protocols
The transmitter can communicate via Modbus RTU, Modbus ASCII, or HART
(1)
protocols. The
communication parameters are configurable with ProLink III software, Modbus, or the display. The
shipped default parameters are:
Data rate: 9600 baud
Parity: odd
Stop bit: one stop bit
RS-485 for printer port
When the RS-485 port is configured as a printer port, it cannot be used for any other function.
Requires external RS-232 adapter (not included)
With Epson TM-U295 ticket printer, detects and reports “paper out” conditions
Is approved for use in custody transfer applications
The HART Bell 202 signal is superimposed on the primary mA output, and is available for host
system interface or for polling external measurement devices. The HART Bell 202 communication
parameters are:
Frequency: 1.2 and 2.2 KHz
Amplitude: 0.8 mA peak-to-peak
Data rate: 1200 baud
Resistance: Loop requires 250 to 600 ohms resistance
Power supply
Type Description
AC power supply
DC power supply 18 to 30 VDC
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85 to 265 VAC
8 watts typical, 15 watts maximum
IEC 60127-3 fuse, 0.63 A time-delay
Complies with low voltage directive 2006/95/EC per EN 61010-1 (IEC 61010-1) with
amendment 2; Installation (Overvoltage) Category II, Pollution Degree 2
8 watts typical, 11 watts maximum
IEC 60127-3 fuse, 1.6 A time-delay
The user-supplied power conductors must be appropriately sized to provide 18 VDC minimum
at the power terminals at a load current of 0.7 A.
Series 3000 Transmitters with MVD™ Technology
February 2016
Environmental limits
Environmental factor °F °C
Ambient temperature limits Operating –4 to +140 –20 to +60
Storage –40 to +158 –40 to +70
Humidity limits 5 to 95% relative humidity, non-condensing at 140 °F (60 °C)
Vibration limits Meets IEC 60068-2-6, endurance sweep, 5 to 2000 Hz, 50 sweep cycles at 1.0 g
Housing rating Model 3350/3700 NEMA 4X (CSA) and IP66/IP67 (ATEX/IECEx)
Model 3300/3500 At least IP20
Environmental effects
EMI effects
Complies with EMC directive 2004/108/EC per EN 61326 Industrial
Complies with NAMUR NE-21 (22.08.2007)
Ambient temperature effect
On analog outputs: ±0.005% of span per °C change from temperature at which the outputs were trimmed
Model 3100 accessory specifications
Relays module:
Three relays
Solid state, SPST
Rated at 24–250 VAC, 40 mA to 5 A; or 0–70 VDC, 5 A
Energized by discrete outputs
NEMA 4X (IP65) enclosure (optional)
Hazardous area classifications
Model 3300
UL and CSA
Class I, Div. 2, Groups A, B, C, and D when installed in a suitable enclosure
8 www.micromotion.com
February 2016
Series 3000 Transmitters with MVD™ Technology
Model 3350
UL and CSA
Class I, Div. 2, Groups A, B, C, and D (standard housing)
ATEX
ATEX Zone 1
0575 II 2G Ex de [ib] IIB/IIC T4 Gb
IECEx
IECEx Zone 1
Ex de [ib] IIB/IIC T4 Gb
Model 3500
UL and CSA
Class I, Div. 2, Groups A, B, C, and D when installed in a suitable enclosure
Provides non-incendive sensor outputs for use in Class I, Div. 2, Groups A, B, C, and D, or intrinsically safe sensor outputs for use in
Class I, Div. 1, Groups C and D; Class II, Div. 1, Groups E, F, and G
ATEX
Safe area only. Marked as 0575 II (2) G [Ex ib] IIB/IIC, can be connected to a sensor in Zone 1 area if sensor is marked
as Ex ib IIB/IIC.
Model 3700
UL and CSA
Class I, Div. 2, Groups A, B, C, and D
Provides non-incendive sensor outputs for use in Class I, Div. 2, Groups A, B, C, and D, or intrinsically safe sensor outputs for use in
Class I, Div. 1, Groups C and D; Class II, Div. 1, Groups E, F, and G.
ATEX
ATEX Zone 1
0575 II 2G Ex de [ib] IIB/IIC T4 Gb
IECEx
IECEx Zone 1
Ex de [ib] IIB/IIC T4 Gb
Model 3100 Accessory (relays module)
UL and CSA
Class I, Div. 2, Groups A, B, C, and D
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