Micro Motion Flowmeters: Specifications Summary
Micro Motion Flowmeters: Specifications Summary
Micro Motion Flowmeters: Specifications Summary
PS-00232, Rev. A
October 2003
Micro Motion
TM
Contents
Micro Motion Coriolis flowmeters . . . . . . . . . . . 2 Working together, Micro Motion sensors and
transmitters provide mass flow, volume flow,
Overview of Micro Motion sensors . . . . . . . . . . 3 density, and temperature measurement, all in real-
Overview of Micro Motion transmitters . . . . . . . 5 time, without the need for additional equipment.
Eight sensor product lines and eight transmitter
Sensor feature comparison. . . . . . . . . . . . . . . . 7 models provide a wide variety of functionality and
features to suit your needs. For comparison
Transmitter feature comparison . . . . . . . . . . . . 8 between product lines, this document provides
Accuracy specifications on brief specifications for all Micro Motion sensors
liquids and slurries . . . . . . . . . . . . . . . . . . . . . . 9 and transmitters. Complete specifications for each
product line are available separately, in Product
Accuracy specifications on gases. . . . . . . . . . 10 Data Sheets. Contact us or visit our Web site at
www.micromotion.com.
Zero stabilities. . . . . . . . . . . . . . . . . . . . . . . . . 11
All Micro Motion sensors have exceptional
Sensor specifications (English units) . . . . . . . 13 accuracy and repeatability, for a low life-time cost
Sensor specifications (metric units) . . . . . . . . 15 of ownership. In addition, all Micro Motion sensors
share these features:
Typical gas flow specifications . . . . . . . . . . . . 17 • No special mounting requirements
• No moving parts
• No straight pipe run or flow conditioning
Micro Motion Coriolis requirements
Micro Motion flowmeters consist of Coriolis Micro Motion’s extensive offering of transmitters
sensors and microprocessor-based transmitters includes those with MVD™ Technology, models
that provide mass flow measurement of liquids, for installation in explosion-proof areas, and
gases, and slurries — simply and directly. models that can be integrally mounted to
sensors. Micro Motion transmitters also support
HART ®, Modbus ®, FOUNDATION™ Fieldbus, and
Profibus-PA communications protocols.
Specialty sensors
• Continuous-single-tube design
• Approved for use in 3-A sanitary applications
Model DL
• Self draining
• Nominal line sizes from 1/4″ to 2″ (6 to 50 mm)
CNG sensor • For use in automobile or light and heavy duty vehicle dispenser design
• NTEP and OIML approved
• /2″ (12 mm) nominal line size
1
Models: CNG050
Digital transmitters
Series 2000 • Multivariable measurement of mass flow, volume flow, density, and
temperature
• Optional measurement of enhanced density variables such as
Consentration, Brix, and Net Solids
• Output options include frequency, milliamp, discrete in, discrete out,
HART, or Modbus. Field-mount Model 2700 available with FOUNDATION
fieldbus H1 or Profibus-PA, or intrinsically safe outputs with one frequency
and two milliamp outputs
• Field-mount and DIN rail models available
Analog transmitters
General
High-precision purpose
multivariable sensors sensors Specialty sensors
ELITE F H T R D DT DL CNG
Straight tube ✦
Integral transmitter ✦ ✦ ✦ ✦ ✦
Self draining ✧ ✦ ✦ ✦ ✦ ✦ ✧
Case options
Purge fittings ✧ ✧ ✧ ✧ ✧
Rupture disk ✧ ✧
Secondary containment ✦ ✧ ✧ ✦
Applications
Liquids and slurries ✦ ✦ ✦ ✦ ✦ ✦ ✦ ✦
Gas ✦ ✦ ✦ ✧ ✧ ✦ ✦
CNG ✧ ✦
Sanitary (CIP/SIP) ✦ ✦ ✦
High temperature ✧ ✦
High pressure ✧ ✧ ✧ ✦
Process fittings
Wafer ✧
ANSI ✦ ✦ ✦ ✦ ✦ ✦ ✦
DIN ✦ ✦ ✦ ✦ ✦ ✦ ✦
JIS ✦ ✦ ✦ ✦ ✧ ✦
Union ✧ ✧ ✧ ✧ ✧ ✧ ✦
Sanitary ✧ ✦ ✦ ✦ ✧ ✦
Wetted parts
316L stainless steel ✦ ✦ ✦ ✦ ✦ ✦ ✦
Nickel alloy ✧ ✧ ✦
316L/Tefzel lining ✧
Tantalum ✧
Titanium ASTM Grade 9 ✦
304L stainless steel ✧
4–20 mA 1A 1E 1 or 2 A 1 E or 2 A 2A 2A 2A
Frequency/pulse 1E 1E 1E 1E 1A 1A 1P
Discrete 1 or 2 E 1 or 2 E 3E 1A
Digital outputs
Bell 202 ✦ ✦ ✦ ✧ ✧ ✦ ✦
RS-485 ✦ ✧ ✦ ✧ ✧ ✦
FOUNDATION fieldbus or ✦
Profibus-PA
Communications
HART ✦ ✦ ✧ ✧ ✧ ✦ ✦
Modbus ✦ ✦ ✦ ✦ ✧ ✦
FOUNDATION fieldbus ✧
Profibus-PA ✧
ProLink® software ✦(1) ✦ (1) ✦(1) ✦(1) ✧(1) ✦ ✦
AMS® software ✦ ✦ ✦ ✧ ✧ ✦ ✦
Plantweb® compatible ✦ ✦ ✦ ✦ ✧ ✦ ✦
Specialty applications
Custody transfer (2) ✦ ✦ ✦ ✦
Discrete batch control ✧ ✦ ✧ ✦
Net oil ✦
Petroleum measurement ✦ ✦ ✧ ✦
Enhanced density ✧ ✧ ✦
Housing options
Mounting DIN rail Field DIN rail Field Rack, panel, or Rack or field Field
field
NEMA 4X (IP65) ✦ ✦ ✧ ✧ ✦
Explosion-proof C1D1 ✦ ✦ ✧
ATEX Zone 1 ✦ ✦
ELITE ±0.10% ±1 °C ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.002 (±2.0)
CMF010P ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) ±0.008 (±8.0)
F-Series ±0.20% ±1 °C ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0)
H-Series ±0.15% ±1 °C ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0)
T-Series (2) ±0.15% ±1 °C ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) N/A N/A
General purpose
flow-only sensors
R-Series ±0.5% ±1 °C Flow only Flow only N/A N/A Flow only
Specialty sensors
Model D ±0.15% ±1 °C
DH100, DH150 ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0) ±0.002 (±2.0)
DH25, DH38 ±0.004 (±4.0) ±0.004 (±4.0) ±0.004 (±4.0) ±0.004 (±4.0) ±0.004 (±4.0)
D150, DH300 ±0.001 (±1.0) ±0.001 (±1.0) ±0.001 (±1.0) ±0.001 (±1.0) ±0.002 (±2.0)
D300 ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.002 (±2.0)
D600 ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.0005 (±0.5) N/A
Model DT ±0.15% ±1 °C ±0.001 (±1.0) ±0.001 (±1.0) ±0.001 (±1.0) ±0.001 (±1.0) N/A
Model DL ±0.15% ±1 °C
DL65 ±0.001 (±1.0) ±0.001 (±1.0) ±0.001 (±1.0) ±0.001 (±1.0) ±0.002 (±2.0)
DL100, DL200 ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.0005 (±0.5) ±0.002 (±2.0)
(1) Flow rate accuracies are base percentages. For total accuracy see the box on page 10. Accuracy includes the combined
effects of repeatability, linearity, and hysteresis. Specifications for liquids are based on reference conditions of water at 68 to 77 °F
(20 to 25 °C) and 15 to 30 psig (1 to 2 bar).
(2) The Series 3000 transmitter is only compatible with models T075, T100, and T150.
R-Series ±1 °C
R025, R050, R100 ±0.75% ±1.0%
R200 Not rated for gas Not rated for gas
Specialty sensors
Model D ±1 °C
DH38 ±0.50% ±0.50%
DH25, D150 ±0.65% ±0.65%
D300, DH300 Not rated for gas Not rated for gas
D600 ±0.65% ±0.65%
(1) Flow accuracies are base percentages. For total accuracy, see the box on this page. Accuracy includes the combined effects of
repeatability, linearity, and hysteresis.
Total accuracy
Series 1000 and 2000 transmitters: All other transmitters:
zero stability
If flow rate ≥ ------------------------------------------------------------------ total accuracy =
( base accuracy % ) ÷ 100
±( base accuracy % ) ± --------------------------------- × 100 % of rate
zero stability
flow rate
Then total accuracy = ± base accuracy % of rate
zero stability
If flow rate < ------------------------------------------------------------------
( base accuracy % ) ÷ 100 NOTE:
For zero stabilities, see page 11.
Then total accuracy = ± --------------------------------- × 100 % of rate
zero stability
flow rate
High precision
multivariable sensors
1
ELITE CMF010P /8 to 1/2 4 0.4 3 0.4 –400 to +400 (3)(4) 6000
1
CMF010 /8 to 1/2 4 0.4 3 0.4
CMF025 1
/4 to 1/2 80 10 40 5 SST:
CMF050 1
/2 to 1 250 30 125 15 1450
–400 to +400(3)(4)
CMF100 1 to 2 1000 120 500 60 Nickel alloy:
CMF200 2 to 3 3200 385 1600 192 2160
CMF300 3 to 4 10,000 1200 5000 600
CMF300A 3 to 4 10,000 1200 5000 600 +32 to +650 1159 at 650 °F
CMF400 4 to 6 20,000 2400 15,000 1800 –400 to +400(3)(4) 1450
F-Series F025P 1
/4 to 1/2 100 12 50 6 –150 to +356(3)(5) 2300
1
F025 /4 to 1/2 100 12 50 6
1
F050 /2 to 1 300 36 150 18
–150 to +356(3)(5) 1450
F100 1 to 2 1200 144 600 72
F200 2 to 3 3200 384 1600 192
1
H-Series H025 /4 to 1/2 76 9 38 4.5
1
H050 /2 to 1 180 22 90 11
–150 to +356(3)(5) 1450
H100 1 to 2 820 98 410 49
H200 2 to 3 2350 282 1175 141
1
T-Series T025 /4 to 1/2 25 3 25 3
1
T050 /2 to 3/4 140 17 140 17
T075 3
/4 to 1 500 60 500 60 –60 to +300(3) 1450
T100 1 to 11/2 1100 132 1100 132
T150 11/2 to 2 3200 384 3200 384
(1) For reference conditions, see footnote 1 on page 9 and footnote 2 on page 11.
(2) Temperature rating may be affected by hazardous area classification.
(3) For sensors with integral core processor or transmitter, the temperature range is –60 to +257 °F.
(4) For sensors with extended core processor, the temperature range is –60 to +400 °F.
(5) For sensors with extended core processor, the temperature range is –60 to +356 °F.
General purpose
flow-only sensors
1
R-Series R025 /4 to 1/2 100 12 50 6
1
R050 /2 to 1 300 36 150 18
R100 1 to 2 1200 144 600 72 –58 to +257 (3)(4) 1450
R200 2 to 3 3200 384 1600 192
Specialty sensors
Model D D150 1 to 11/2 2800 336 1400 168 1500
1 (5)
D300 1 /2 to 3 7000 840 7000 840 –400 to +400 740
D600 3 to 6 25,000 3000 25,000 3000 625
1
DH25 /8 to 1/2 25 3 25 3 4000
1
–400 to +350
DH38 /8 to 1/2 50 6 25 3 5200
1
DH100 /2 to 1 800 96 400 48 5600
DH150 1 to 11/2 2800 336 1400 168 –400 to +400 5400
DH300 11/2 to 3 7000 840 7000 840 4000
1
Model DT DT65 /4 to 1/2 300 36 150 20 900 at 800 °F
DT100 1
/2 to 1 800 96 400 48 +32 to +800 900 at 800 °F
DT150 1 to 11/2 1400 168 700 84 600 at 800 °F
1
Model DL DL65 /4 to 1/2 250 30 125 15 –400 to +350 1500
1
DL100 /2 to 1 800 96 500 60 –400 to +350 900
DL200 1 to 2 3500 420 2500 300 –400 to +400 740
(1) For reference conditions, see footnote 1 on page 9 and footnote 2 on page 11.
(2) Temperature rating may be affected by hazardous area classification.
(3) For sensors with extended core processor, the temperature range is –60 to +300 °F.
(4) For R-Series sensors with integral IFT9703 transmitters, the temperature range is –40 to +257 °F.
(5) D150 and D300 sensors with Tefzel lining have a temperature range of 32 to 250 °F.
High precision
multivariable sensors
ELITE CMF010P 3 to 6 108 82 –240 to +204 (3)(4) 413
CMF010 3 to 6 108 82
CMF025 6 to 12 2180 1090 SST:
CMF050 12 to 25 6800 3400 100
–240 to +204(3)(4)
CMF100 25 to 50 27,200 13,600 Nickel alloy:
CMF200 50 to 80 87,100 43,550 148
CMF300 80 to 100 272,160 136,080
CMF300A 80 to 100 272,160 136,080 0 to +343 80 at 343 °C
CMF400 100 to 150 545,500 409,000 –240 to +204(3)(4) 100
(1) For reference conditions, see footnote 1 on page 9 and footnote 3 on page 11.
(2) Temperature rating may be affected by hazardous area classification.
(3) For sensors with integral core processor or transmitter, the temperature range is –50 to +125 °C.
(4) For sensors with extended core processor, the temperature range is –50 to +204 °C.
(5) For sensors with extended core processor, the temperature range is –50 to +180 °C.
General purpose
flow-only sensors
R-Series R025 6 to 12 2720 1360
R050 12 to 25 8160 4080
R100 25 to 50 32,650 16,325 –50 to +125 (3)(4) 100
R200 50 to 75 87,100 43,550
Specialty sensors
Model D D150 25 to 40 76,200 38,100 103
D300 40 to 80 190,500 190,500 –240 to +204 51
D600 80 to 150 680,400 680,400 43
DH25 3 to 6 680 680 276
–240 to +177
DH38 3 to 6 1360 680 358
DH100 12 to 25 21,780 10,890 386
DH150 25 to 40 76,200 38,100 –240 to +204 (5) 372
DH300 40 to 80 190,500 190,500 276
(1) For reference conditions, see footnote 1 on page 9 and footnote 3 on page 11.
(2) Temperature rating may be affected by hazardous area classification.
(3) For sensors with extended core processor, the temperature range is –50 to +150 °C.
(4) For R-Series sensor with integral IFT9703 transmitter, the temperature range is –40 to +125 °C.
(5) D150 and D300 sensors with Tefzel lining have a temperature range of 0 to 121 °C.
Flow rates that produce approximately 10 psid (0.68 bar) pressure drop on air at 68 °F (20 °C) and 100 psi (6.8 bar)
H-Series H025 2 55 27 42
H050 6 182 89 141
H100 33 904 442 699
H200 78 2376 1162 1840
(1) Standard (SCFM) reference conditions are 14.7 psia and 68 °F. Normal (Nm3/hr) reference conditions are 1.013 bara and 0 °C.
Flow rates that produce approximately 50 psid (3.4 bar) pressure drop on natural gas (MW 16.675) at 68 °F (20 °C) and
500 psi (34.0 bar)
ELITE CMF010 1 32 28 44
CMF025 16 445 378 598
CMF050 42 1135 965 1526
CMF100 184 5016 4263 6741
CMF200 560 15,239 12,950 20,478
CMF300 1856 50,500 42,913 67,861
CMF400 4698 127,864 108,654 171,822
(1) Standard (SCFM) reference conditions are 14.7 psia and 68 °F. Normal (Nm3/hr) reference conditions are 1.013 bara and 0 °C.
Due to Micro Motion’s commitment to continuous improvement of our products, all specifications are subject to change without notice.
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Micro Motion
TM