45
Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November 1995 Function The Integral Orifice Assembly adapts Honeywell’s ST 3000 transmitters for measurement of small flow rates. This assembly economically solves the physical problem of installing an orifice in pipes of 1/2-inch diameter or less by mounting the transmitters meter body either directly or indirectly through an equalizing manifold. Typical applications requiring the measurement of very small flow rates include pilot plants, ratio control systems, and flow lines used to add inhibitors to petroleum products. Description The orifice assembly (Figure 1) consists of an orifice body, an orifice plate, and a positioning sleeve. Bolts and Teflon O-ring gaskets mount the assembly to the meter body. Installation Data The integral orifice assembly (30374613-004) is supplied with oval flanges having 1/2-inch process connections (see Figure 1). Since the orifice assembly mounts directly to the 3-valve manifold or directly to ST 3000, do not specify the optional adapter flanges when ordering ST 3000. The optional 3-valve equalizing manifold mounts between the meter body and the orifice assembly. The manifold, which takes the place of three separate valves and connecting piping, permits the user to equalize the meter for calibration checks or to remove the meter body and transmitter for service without disturbing the process. Figure 1 — Cutaway view of integral orifice assembly. Maintenance Data No special tools or alignment procedures are required to remove the orifice plate for cleaning or replacement. The orifice plate makes metal-to-metal contact with the orifice body; no internal gaskets are used. Teflon O-rings are used at the outer end of the sleeve and at both flanges. To remove the plate, remove the oval flange from the high pressure side and slide out the sleeve and orifice plate; to replace, slide in new (or cleaned) orifice plate, replace sleeve and O-rings, and bolt flange into place. Meter Body Protection Since the orifice assembly mounts outside the meter body, the transmitter can measure fluids at temperatures above the rating of the meter body. The fluid in the passages to the meter body is not flowing, so the temperature inside the meter body is considerably lower than that in the flow lines. The outside mounting also reduces the possibility of entrained solids or corrosive fluids entering the meter body chambers. This significantly reduces downtime for cleaning or replacing the meter body. Flange O-rings HP tap LP tap Orifice body O-ring Flange Sleeve Orifice plate FLOW 22843

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Page 1: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November 1995

Function

The Integral Orifice Assembly adapts Honeywell’s ST 3000

transmitters for measurement of small flow rates. This

assembly economically solves the physical problem of

installing an orifice in pipes of 1/2-inch diameter or less by

mounting the transmitters meter body either directly or

indirectly through an equalizing manifold.

Typical applications requiring the measurement of very

small flow rates include pilot plants, ratio control systems,

and flow lines used to add inhibitors to petroleum products.

Description

The orifice assembly (Figure 1) consists of an orifice body,

an orifice plate, and a positioning sleeve. Bolts and Teflon

O-ring gaskets mount the assembly to the meter body.

Installation Data

The integral orifice assembly (30374613-004) is supplied

with oval flanges having 1/2-inch process connections (see

Figure 1). Since the orifice assembly mounts directly to the

3-valve manifold or directly to ST 3000, do not specify the

optional adapter flanges when ordering ST 3000.

The optional 3-valve equalizing manifold mounts between

the meter body and the orifice assembly. The manifold,

which takes the place of three separate valves and

connecting piping, permits the user to equalize the meter for

calibration checks or to remove the meter body and

transmitter for service without disturbing the process.

Figure 1 — Cutaway view of integral orifice assembly.

Maintenance Data

No special tools or alignment procedures are required to

remove the orifice plate for cleaning or replacement. The

orifice plate makes metal-to-metal contact with the orifice

body; no internal gaskets are used. Teflon O-rings are used

at the outer end of the sleeve and at both flanges.

To remove the plate, remove the oval flange from the high

pressure side and slide out the sleeve and orifice plate; to

replace, slide in new (or cleaned) orifice plate, replace

sleeve and O-rings, and bolt flange into place.

Meter Body Protection

Since the orifice assembly mounts outside the meter body,

the transmitter can measure fluids at temperatures above

the rating of the meter body. The fluid in the passages to

the meter body is not flowing, so the temperature inside the

meter body is considerably lower than that in the flow lines.

The outside mounting also reduces the possibility of

entrained solids or corrosive fluids entering the meter body

chambers. This significantly reduces downtime for cleaning

or replacing the meter body.

FlangeO-rings

HP tap

LP tapOrifice body

O-ring

Flange

Sleeve

Orifice plate

FLOW

22843

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Integral Orifice Assembly to Measure Small Flow Rates 2

Operating Conditions

Operating Pressure 1500 psig (10.34 MPa), tested to 2250 psig (15.51 MPa) maximum

Operating Temperature 350°F (177°C) maximum

Materials Orifice Body: 316 Stainless Steel Sleeve: 316 Stainless Steel Orifice Plate: 316 Stainless Steel Gaskets (O-rings): Molded Teflon

Mounting Mounts on any meter body having taps on 2-1/8-inch centers.

Dimensions See Figure 2.

Flow — Differential Pressure Calculations

Refer to “Equivalent Flow Calculations” paragraphs which permit using Figures 3 and 4 for liquids for gases other than water and air.

Ordering Data

Use Table 1 to specify part numbers for the desired items.

TABLE 1 — Parts and Related Options for Integral Orifice Assembly

1 Orifice Body Assembly with two 1/2” adapter flanges part number

30374613-004

2 Orifice Plate (Kit, part number 30374615-001, contains entire set of 6 orifice plates)

Diameter (inches) 0.3390 0.1960 0.1130 0.0635 0.035 0.0200

Part Number 30689802-001 30689802-002 30689802-003 30689802-004 30689802-005 30689802-006

Water Flow (GPH)

125 to 600 35 to 200 11 to 60 3.5 to 20 1.25 to 6.5 0.5 to 2.5

Air Flow (SCFM) 10.5 to 64 3.1 to 20 1.0 to 66 0.3 to 2.1 0.1 to 0.7 0.04 to 0.3

3 DP Transmitter Model STDXXX-XXA-00000-. See 34-ST-03-60 or -65.

4 Optional Anderson-Greenwood 3-Valve Manifolds

Cast Carbon Steel M4AVIC: 30667597-001 316 Stainless Steel M4AVIS: 30667597-002

Honeywell Services can include installation, system calibration and checkout, system startup, and a choice of maintenance plans.

Meter body

1/2 schedule 80 pipe

3/4

228444-3/16 (closed)

1-7/16

1-3/4

1-1/2

5-5/8

. Figure 2 — Dimensions to nearest 1/8” of the 3-valve manifold and integral orifice.

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Integral Orifice Assembly to Measure Small Flow Rates 3

Equivalent Flow Calculations

Use the equation in one of the following paragraphs to

determine equivalent flow for a specific liquid or gas

referenced to water or air. Then use the appropriate flow

data graph (Figure 3 or 4) to determine the correct orifice

plate and the pressure differential to be measured by the

transmitter.

NOTE: Liquid flows (Figure 3) are based on water at 60°F and differential pressures between 20 and 600 inches of water. Gas flows (Figure 4) are based on dry air flowing at 100 psig at 70°F. Accuracy of uncalibrated orifices is within ±5% for the measured differential (as read from the graph) for water flows, and ±10% for air flows.

Liquid Flow

Determine the equivalent flow of a specific liquid

referenced to water at the base conditions:

1. Identify

Q´gh = desired maximum liquid flow

Gb = specific gravity of liquid at the base

temperature (60°F; 15.6°C)

Gr = specific gravity of liquid at operational flow

temperature. (1.00 = specific gravity of water at

60°F)

Definition: The specific gravity of a liquid is the

value of the liquid’s density divided by the

density of water at 60°F (62.37 lbs/ft3).

2. Convert any metric (SI) value of flow into the

English unit equivalent in standard gallons per

hour (GPH). (Convert any other English unit into

GPH.)

NOTE: Standard GPH is defined at a reference

temperature of 60°F (15.6°C) on which specific gravity of

the fluid is based.

3. The equivalent water flow value (for reference to

Figure 3) is:

Qgh = (Q´gh) x

Gb

1.00 x

1.00

Gr

4. Identify the appropriate orifice diameter and

differential pressure for the equivalent flow value

to specify the correct orifice and transmitter

range.

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Integral Orifice Assembly to Measure Small Flow Rates 4

Figure 3 — Water flow.

700

200

70

20

7

3

150

100

40

30

15

10

4

1.5

1

.6

.5

1000

900

800

700

600

500

400

300

200

150

100

90 80 70 60 50 40 30 20 15 10

.4

600

60

.020

.035

.063

5.1

13.1

96.3

39

Ori

fice

Dia

met

er (I

nche

s)

Differential Pressure—Inches of Water

Gal

lons

per

Hou

r at

60°

F—Fl

owin

g at

60°

F

22845

(Qgh

)

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Integral Orifice Assembly to Measure Small Flow Rates 5

Gas Flow

Determine the equivalent flow of a specific gas

referenced to air at the base conditions:

1. Identify

Q´m = desired maximum gas flow

Pf = absolute pressure of the flowing gas

Tf = absolute temperature of the gas

G = specific gravity of the gas.

2. Convert any metric (SI) values of the previous

parameters into the English unit equivalents

(i.e., flow into Standard Cubic Feet per Minute

(SCFM), absolute pressure into Pounds per

Square Inch Absolute (psia), absolute

temperature into Rankine degrees (°R = °F plus

460).

NOTE: SCFM is defined at reference conditions

of 30 inches of Mercury and 60°F for dry air.

3. The equivalent air flow value (for reference to

Figure 4) is:

Qm =

(G) X )(T

P2.150

m`Q

f

f

4. Identify the appropriate orifice diameter and

differential pressure for the equivalent flow value

to specify the correct orifice and transmitter

range.

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Integral Orifice Assembly to Measure Small Flow Rates 6

Figure 4 — Air flow.

7060

20

15

10

876

4

3

2

1.5

.10

.7

.6

.4

.3

.2

.1

.05

.04

.01

1000

900

800

700

600

500

400

200

150

100

80 70 60 50 40 30 20 10 8 7 6 5 4 3 2

.020

.035

.063

5.1

13.1

96.3

39

Ori

fice

Dia

met

er (

Inch

es)

Sta

nd

ard

Cu

bic

Fee

t p

er M

inu

te a

t 30

" H

g a

nd

60°

F D

RY

Slo

win

g a

t 10

0 p

sig

an

d 7

0°F

Dry

Differential Pressure—Inches of Water

22846

(Qm

)

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Integral Orifice Assembly to Measure Small Flow Rates 7

For More Information

Learn more about how Honeywell’s Integral Orifice

Assembly can be used to measure small flow rates

efficiently, visit our website www.honeywell.com/ps/hfs or

contact your Honeywell account manager.

Honeywell Process Solutions

1860 West Rose Garden Lane

Phoenix, Arizona 85027

Tel: 1-800-423-9883 or 1-800-343-0228 www.honeywell.com/ps

34-ST-03-33November 1995 © 1995 Honeywell International Inc.

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ST 3000 Smart Pressure TransmitterSeries 100 Differential Pressure Models Specifications 34-ST-03-60 August 2011

Introduction

In 1983, Honeywell introduced the first Smart Pressure

Transmitter― the ST 3000®. In 1989, Honeywell launched

the first all digital, bi-directional protocol for smart field

devices. Today, its ST 3000 Series 100UU Differential

Pressure Transmitters continue to bring proven “smart”

technology to a wide spectrum of pressure measurement

applications, from furnace combustion airflow rate to

hydrostatic tank gauging. The ST 3000 Series 100 (S100)

Differential Pressure Transmitter can be used with any

primary flow element to provide proven, repeatable flow

measurement.

Models

STD110 0 to 10 inH2O 0 to 25 mbar

STD120 0 to 400 inH2O 0 to 1,000 mbar

STD125 0 to 600 inH2O 0 to 1,500 mbar

STD130 0 to 100 psi 0 to 7 bar

STD170 0 to 3,000 psi 0 to 210 bar

All ST 3000 transmitters can be ordered to provide one of

the following output communication options.

Communications options

4-20 mA

Honeywell Digitally Enhanced (DE)

HART® (versions 5.x or 6.x)

FOUNDATION™ Fieldbus

Figure 1 - Series 100 Differential Pressure Transmitters feature field-proven piezoresistive sensor technology

When digitally integrated with Honeywell’s Experion®

Process Knowledge System or other TDC/TPS systems,

ST 3000 instruments provides local measurement accuracy

to the system level without adding typical A/D and D/A

converter inaccuracies as well as providing advantages

from the many other on-board advanced diagnostic

features. Honeywell’s high-performance ST 3000 S100

transmitters lead the industry in:

Accuracy

Stability

Reliability

Rangeability

Warranty

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2 ST 3000 Smart Pressure Transmitter

ST 3000 Lifetime™ Transmitter Benefits

Total Accuracy = ±0.0375%

Stability = ±0.01% per year

Reliability = 470 years MTBF

Rangeability = 400 to 1

Lifetime Warranty = 15 years

The devices provide comprehensive self-diagnostics to help users maintain high uptime, meet regulatory requirements, and attain high quality standards. S100 transmitters are ideal for critical applications, such as custody transfer of natural gas and energy and material balances, where accuracy and stability are important.

Description

The ST 3000 transmitter can replace any 4 to 20 mA output transmitter in use today and operates over a standard two-wire system.

The measuring means is a piezoresistive sensor, which actually contains three sensors in one. It uses a differential pressure sensor, a temperature sensor and a static pressure sensor in delivering the most comprehensive compensated output signal available today.

Microprocessor-based electronics provide higher span-turndown ratio, improved temperature and pressure compensation, and improved accuracy.

The transmitter’s meter body and electronics housing resist shock, vibration, corrosion, and moisture. The electronics housing contains a compartment for the single-board electronics, which is isolated from an integral junction box. The single-board electronics is replaceable and interchangeable with any other ST 3000 Series 100 or Series 900 model transmitters.

Advanced Diagnostics

ST 3000 is now available for both HART® 6 and

FoundationTM Fieldbus with advanced diagnostics that

minimize unplanned plant outages, minimize maintenance

costs and by providing the industry’s most reliable

transmitter.

Provide advanced warning of possible failure events

and avoid costly shutdowns.

Three levels of failure reporting

Comprehensive list of on-board diagnostics

(Ref. ST 3000 User manual with HART® 6, 34-ST-25-

17 Rev: June 09 and FoundationTM Fieldbus option

manual 34-ST-25-15 Rev: June 09)

Configuration Tools

Like other Honeywell transmitters, the ST 3000 features

two-way communication and configuration capability

between the operator and the transmitter through several

Honeywell field-rated portable configuration devices,

including the Smartline Configuration Toolkit and the

Multiple Communication Configurator (MC ToolKit). While

both are made for in-field use, the MC Toolkit also can be

ordered for use in intrinsically safe, Class I, Div. 1

environments.

The SCT 3000 Smartline® Configuration Toolkit provides an

easy way to configure instruments using a personal

computer as the configuration interface. The toolkit enables

configuration of devices before shipping or prior to field

installation. The SCT 3000 can operate in the off-line mode

to pre-configure an unlimited number of devices. This

database can then be loaded down-line during instrument

commissioning.

Features

Choice of linear or square root output conformity is a

simple configuration selection.

Direct digital integration with Experion PKS and other

control systems provides local measurement accuracy

to the system level without adding typical A/D and D/A

converter inaccuracies.

Unique piezoresistive sensor automatically

compensates input for real-world temperature and

static pressure variations.

Added “smart” features include configuring lower and

upper range values, simulating accurate analog output,

and selecting preprogrammed engineering units for

display.

Smart transmitter capabilities with local or remote

interfacing means significant manpower efficiency

improvements in commissioning, start-up, and ongoing

maintenance functions.

ST 3000 transmitters feature full Dual-Seal certification

based on ANSI/NFPA 70-202 and ANSI/ISA 12.27.01

requirements without the use of additional seal

protection elements.

ST 3000 transmitters are available fully compliant to

SIL 2/3 requirements as a standard option.

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ST 3000 Smart Pressure Transmitter 3

Operating Conditions – All Models

Parameter Reference Condition

Rated Condition Operative Limits Transportation and Storage

C F C F C F C F

Ambient Temperature

STD110 25±1 77±2 -15 to 65 5 to 150 -40 to 70 -40 to 158 -40 to 70 -40 to 158

STD125 25±1 77±2 -40 to 85 -40 to 185 -40 to 85 -40 to 185 -55 to 125 -67 to 257

STD120, STD130, STD170 25±1 77±2 -40 to 85 -40 to 185 -40 to 93 -40 to 200 -55 to 125 -67 to 257

Meter Body Temperature

STD110 25±1 77±2 -15 to 65 5 to 150 -40 to 70 -40 to 158 -40 to 70 -40 to 158

STD125 25±1 77±2 -40 to 85 -40 to 185 -40 to 85 -40 to 185 -55 to 125 -67 to 257

STD120, STD130, STD170 25±1 77±2 -40 to 1101 -40 to 2301 -40 to 125 -40 to 257 -55 to 125 -67 to 257

Humidity %RH 10 to 55 0 to 100 0 to 100 0 to 100

Vac. Region – Min. Pressure All Models Except STD110 mmHg absolute inH2O absolute

AtmosphericAtmospheric

25 13

2 (short term ) 2 1 (short term ) 2

Supply Voltage, Current, and Load Resistance

Voltage Range: 10.8 to 42.4 Vdc at terminals Current Range: 3.0 to 21.8 mA Load Resistance: 0 to 1,440 ohms (as shown in Figure 2)

Maximum Allowable Working Pressure (MAWP)4

(ST 3000 products are rated to Maximum Allowable Working Pressure. MAWP depends on Approval Agency

and transmitter materials of construction.)

STD110 = 50 psi, 3.45 bar

STD120, STD125, STD130 and STD170 = 4,500 psi, 310 bar 3

Static Pressure Limit = Maximum Allowable Working Pressure (MAWP) = Overpressure Limit for ST 3000 Differential Pressure Transmitters

1 For CTFE fill fluid, the rating is -15 to 110C (5 to 230F) 2 Short term equals 2 hours at 70C (158F) 3 MAWP applies for temperature range -40 to 125C. However, Static Pressure Limit is de-rated to 3,000 psi from -26C to -40C.

Use of graphite o-rings de-rates transmitter to 3,625 psi. Use of adaptor with graphite o-rings de-rates transmitter to 3,000 psi. 4 Consult factory for MAWP of ST 3000 transmitters with CSA approval.

Note: A minimum of 250 ohms of loop resistance is necessary to support communications. Loop resistance equals barrier resistance plus wire resistance plus receiver resistance.

= Operating Area

0 10.8 16.28 20.63 25 28.3 37.0 42.4

1440

1200

800

650

450

250

Operating Voltage (Vdc)

LoopResistance

(ohms)

Note: A minimum of 250 ohms of loop resistance is necessary to support communications. Loop resistance equals barrier resistance plus wire resistance plus receiver resistance.

= Operating Area

0 10.8 16.28 20.63 25 28.3 37.0 42.4

1440

1200

800

650

450

250

Operating Voltage (Vdc)

LoopResistance

(ohms)

Figure 2 - Supply voltage and loop resistance chart

Page 11: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

4 ST 3000 Smart Pressure Transmitter

Performance Under Rated Conditions* - Model STD110 (0 to 10 inH2O) Parameter Description

Upper Range Limit inH2O mbar

10 (39.2F/4C is standard reference temperature for inH2O range.) 25

Minimum Span inH2O mbar

0.4 1

Turndown Ratio 25 to 1

Zero Elevation and Suppression No limit except minimum span within ±100% URL.

Accuracy (Reference – Includes combined effects of linearity, hysteresis, and repeatability)

• Accuracy includes residual error after averaging successive readings.

• For FOUNDATIONTM Fieldbus use

Digital Mode specifications. • For HART® use Analog Mode specifications.

In Analog Mode: ±0.1% of calibrated span or upper range value (URV), whichever is greater, terminal based. For URV below reference point (1.5 inH2O), accuracy equals:

OinHspan

OinH1.50.0750.025

2

2 or

mbar span

mbar 3.750.0750.025 in % of span

In Digital Mode: ±0.0875% of calibrated span or upper range value (URV), whichever is greater, terminal based. For URV below reference point (1.5 inH2O), accuracy equals:

OinHspan

OinH1.50.0750.0125

2

2 or

mbar span

mbar 3.750.0750.0125 in % of span

Zero Temperature Effect per 28C (50F)

In Analog Mode: ±0.2625% of span. For URV below reference point (10 inH2O), effect equals:

OinHspan

OinH100.250.0125

2

2 or

mbar span

mbar 250.250.0125 in % of span

In Digital Mode: ±0.25% of span. For URV below reference point (10 inH2O), effect equals:

OinHspan

OinH100.25

2

2 or

mbarspan

mbar250.25 in % of span

Combined Zero and Span Temperature Effect per 28C (50F)

In Analog Mode: ±0.4875% of span. For URV below reference point (10 inH2O), effect equals:

OinHspan

OinH100.250.2375

2

2 or

mbar span

mbar 250.250.2375 in % of span

In Digital Mode: ±0.4625% of span. For URV below reference point (10 inH2O), effect equals:

OinHspan

OinH100.250.2125

2

2 or

mbar span

mbar 250.250.2125 in % of span

* Performance specifications are based on reference conditions of 25C (77F), zero (0) static pressure, 10 to 55% RH, and 316 Stainless Steel barrier diaphragm.

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ST 3000 Smart Pressure Transmitter 5

Performance Under Rated Conditions* - Model STD120 (0 to 400 inH2O) Parameter Description Upper Range Limit inH2O mbar

400 (39.2F/4C is standard reference temperature for inH2O range.) 1,000

Minimum Span inH2O mbar

1 Note: Recommended minimum span in square root mode is 20 inH2O (50 mbar).2.5

Turndown Ratio 400 to 1

Zero Elevation and Suppression

No limit except minimum span within ±100% URL. Specifications valid from -5 to +100% URL.

Accuracy (Reference – Includes combined effects of linearity, hysteresis, and repeatability)

• Accuracy includes residual error after averaging successive readings.

• For FOUNDATIONTM Fieldbus use

Digital Mode specifications. • For HART® use Analog Mode specifications.

In Analog Mode: ±0.0525% of calibrated span or upper range value (URV), whichever is greater, terminal based. For URV below reference point (25 inH2O), accuracy equals:

OinHspan

OinH250.02750.025

2

2 or

mbar span

mbar 620.02750.025 in % of span

In Digital Mode: ±0.0375% of calibrated span or upper range value (URV), whichever is greater, terminal based. For URV below reference point (25 inH2O), accuracy equals:

OinHspan

OinH250.0250.0125

2

2 or

mbar span

mbar 620.0250.0125 in % of span

* For High Accuracy (HA) option: ±0.025% of calibrated span or upper range value (URV), whichever is greater, terminal based.

Zero Temperature Effect per 28C (50F)

In Analog Mode: ±0.0625% of span. For URV below reference point (50 inH2O), effect equals:

OinHspan

OinH500.050.0125

2

2 or

mbar span

mbar 1250.050.0125 in % of span

In Digital Mode: ±0.05% of span. For URV below reference point (50 inH2O), effect equals:

OinHspan

OinH500.05

2

2 or

mbarspan

mbar1250.05 in % of span

Combined Zero and Span Temperature Effect per 28C (50

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ST 3000 Smart Pressure Transmitter 7

Performance Under Rated Conditions* - Model STD130 (0 to 100 psi) Parameter Description

Upper Range Limit psi bar

100 7

Minimum Span psi bar

1 0.07

Turndown Ratio 100 to 1

Zero Elevation and Suppression No limit except minimum span within –18 and +100% URL. Specifications valid from –5 to +100% URL.

Accuracy (Reference – Includes combined effects of linearity, hysteresis, and repeatability) • Accuracy includes residual error

after averaging successive readings.

• For FOUNDATIONTM Fieldbus use

Digital Mode specifications. • For HART® use Analog Mode specifications.

In Analog Mode: ±0.075% of calibrated span or upper range value (URV), whichever is greater, terminal based. For URV below reference point (15 psi), accuracy equals:

psispan

psi150.050.025 or

bar span

bar 10.050.025 in % of span

In Digital Mode: ±0.0625% of calibrated span or upper range value (URV), whichever is greater, terminal based. For URV below reference point (15 psi), accuracy equals:

psispan

psi150.050.0125 or

bar span

bar 10.050.0125 in % of span

Zero Temperature Effect per 28C (50F)

In Analog Mode: ±0.0625% of span. For URV below reference point (30 psi), effect equals:

psispan

psi300.050.0125 or

bar span

bar 20.050.0125 in % of span

In Digital Mode: ±0.05% of span. For URV below reference point (30 psi), effect equals:

psispan

psi300.05 or

barspan

bar20.05 in % of span

Combined Zero and Span Temperature Effect per 28C (50F)

In Analog Mode: ±0.10% of span. For URV below reference point (30 psi), effect equals:

psispan

psi300.050.05 or

bar span

bar 20.050.05 in % of span

In Digital Mode: ±0.075% of span. For URV below reference point (30 psi), effect equals:

psispan

psi300.050.025 or

bar span

bar 20.050.025 in % of span

Zero Static Pressure Effect per 1,000 psi (70 bar)

±0.075% of span. For URV below reference point (30 psi), effect equals:

psispan

psi300.06250.0125 or

bar span

bar 20.06250.0125 in % of span

Combined Zero and Span Static Pressure Effect per 1,000 psi (70 bar)

±0.15% of span. For URV below reference point (30 psi), effect equals:

psispan

psi300.06250.0875 or

bar span

bar 20.06250.0875 in % of span

Stability ±0.04% of URL per year.

* Performance specifications are based on reference conditions of 25C (77F), zero (0) static pressure, 10 to 55% RH, and 316 Stainless Steel barrier diaphragm.

Page 14: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

8 ST 3000 Smart Pressure Transmitter

Performance Under Rated Conditions* - Model STD170 (0 to 3,000 psi) Parameter Description

Upper Range Limit psi bar

3,000 210

Minimum Span psi bar

30 2.1

Turndown Ratio 100 to 1

Zero Elevation and Suppression No limit except minimum span within –0.6 and +100% URL. Specifications valid over this range.

Accuracy (Reference – Includes combined effects of linearity, hysteresis, and repeatability) • Accuracy includes residual error

after averaging successive readings.

• For FOUNDATIONTM Fieldbus use

Digital Mode specifications. • For HART® use Analog Mode specifications.

In Analog Mode: ±0.15% of calibrated span or upper range value (URV), whichever is greater, terminal based. For URV below reference point (300 psi), accuracy equals:

psispan

psi3000.100.05 or

bar span

bar 210.100.05 in % of span

In Digital Mode: ±0.125% of calibrated span or upper range value (URV), whichever is greater, terminal based. For URV below reference point (300 psi), accuracy equals:

psispan

psi3000.100.025 or

bar span

bar 210.100.025 in % of span

Zero Temperature Effect per 28C (50F)

In Analog Mode: ±0.1125% of span. For URV below reference point (500 psi), effect equals:

psispan

psi5000.100.0125 or

bar span

bar 350.100.0125 in % of span

In Digital Mode: ±0.10% of span. For URV below reference point (500 psi), effect equals:

psispan

psi5000.10 or

barspan

bar 350.10 in % of span

Combined Zero and Span Temperature Effect per 28C (50F)

In Analog Mode: ±0.175% of span. For URV below reference point (500 psi), effect equals:

psispan

psi5000.100.075 or

bar span

bar 350.100.075 in % of span

In Digital Mode: ±0.15% of span. For URV below reference point (500 psi), effect equals:

psispan

psi5000.100.05 or

bar span

bar 350.100.05 in % of span

Zero Static Pressure Effect per 1,000 psi (70 bar)

±0.075% of span. For URV below reference point (500 psi), effect equals:

psispan

psi5000.06250.0125 or

bar span

bar 350.06250.0125 in % of span

Combined Zero and Span Static Pressure Effect per 1,000 psi (70 bar)

±0.15% of span. For URV below reference point (500 psi), effect equals:

psispan

psi5000.06250.0875 or

bar span

bar 350.06250.0875 in % of span

Stability ±0.03% of URL per year.

* Performance specifications are based on reference conditions of 25C (77F), zero (0) static pressure, 10 to 55% RH, and 316 Stainless Steel barrier diaphragm.

Page 15: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 Smart Pressure Transmitter 9

Performance Under Rated Conditions – All Models Parameter Description

Output (two-wire)

Digital communications :

Analog : 4 to 20 mA (Normal signal range is ≥ 3.8 mA and ≤ 20.8 mA. Transmitter failure values are: is ≥ 3.6 mA and ≤ 20.9 mA

Honeywell DE mode, FOUNDATIONTM

Fieldbus or HART® protocol (selectable versions 5.x or 6.x available).

Supply Voltage Effect 0.005% span per volt.

Damping Time Constant Adjustable from 0 to 32 seconds digital damping.

NAMUR NE 43 Compliance (Option “NE”)

Transmitter failure information is generated when the measuring information is invalid or no longer present. Failure information is transmitted as a current signal but outside the normal 4-20 mA measurement signal level. Transmitter failure values are: ≤ 3.6 mA and ≥ 21.0 mA. The normal signal range is ≥ 3.8 mA and ≤ 20.5 mA.

SIL 2/3 Compliance (Option “SL”)

SIL certified to IEC 61508 for non-redundant use in SIL 2 related Safety Systems (single use) and for redundant (multiple) use in SIL 3 Safety Systems through TÜV Nord Sys Tec GmbH & Co. KG under the following standards: IEC61508-1: 1998; IEC 61508-2: 2000; IEC61508-3: 1998.

Lightning Protection Option

(Option “LP”)

Leakage Current: 10 microamps max. @ 42.4 VDC, 93°C

Impulse Rating: 10/20 µ sec. 5,000 Amps (50 strikes) 10,000 Amps (20 strikes) (rise/decay) 10/1,000 µ sec. 250 Amps (1,000 strikes) 500 Amps (400 strikes)

Physical and Approval Bodies Parameter Description

Barrier Diaphragms Material STD125, STD110 STD120, STD130, STD170

316L SS, Gold-plated 316L SS 316L SS, Hastelloy® C-2762, Monel® 400 3, Tantalum, Gold-plated 316L SS, Gold-plated Hastelloy® C-276, Gold-plated Monel® 400

Process Head Material STD125, STD110 STD120, STD130, STD170

316 SS4, Carbon Steel (Zinc-plated) 5 316 SS4, Carbon Steel (Zinc-plated) 5, Hastelloy® C-2766, Monel® 400 7

Vent/Drain Valves & Plugs 1 316 SS4, Hastelloy® C-2762, Monel® 400 8

Head Gaskets Glass-filled PTFE standard. Viton® and graphite are optional. See MSG.

Meter Body Bolting Carbon Steel (Zinc plated) standard. Options include 316 SS, NACE A286 SS bolts and 304 SS nuts and B7M.

Optional Adapter Flange and Bolts Adapter Flange materials include 316 SS, Hastelloy® C-276 and Monel® 400. Bolt material for flanges is dependent on process head bolts material chosen. Standard adaptor o-ring material is glass-filled PTFE. Viton® and graphite are optional.

Mounting Bracket Carbon Steel (Zinc-plated) or Stainless Steel bracket or Carbon Steel flat bracket available (standard options).

Fill Fluid Silicone DC® 200 oil or CTFE (Chlorotrifluoroethylene). Note that Model STD110 is only available with silicone fill fluid.

Electronic Housing Epoxy-Polyester hybrid paint. Low Copper-Aluminum. Meets NEMA 4X (watertight) and NEMA 7 (explosion proof). All stainless steel housing is optional.

Mounting Can be mounted in virtually any position using the standard mounting bracket. Bracket is designed to mount on 2-inch (50 mm) vertical or horizontal pipe. See Figure 3.

Process Connections 1/4-inch NPT; 1/2-inch NPT with adapter (standard option, meets DIN requirements)

Wiring Accepts up to 16 AWG (1.5 mm diameter).

Dimensions See Figure 4.

Net Weight 9.0 pounds (4.1 Kg). 1

Vent/Drains are sealed with Teflon® or PTFE 2 Hastelloy® C-276 or UNS N10276 3 Monel® 400 or UNS N04400 4 Supplied as 316 SS or as Grade CF8M, the casting equivalent of 316 SS.

5 Carbon Steel heads are zinc-plated and not recommended for water service due to hydrogen migration. For that service, use 316 stainless steel wetted Process Heads.

6 Hastelloy® C-276 or UNS N10276. Supplied as indicated or as Grade CW12MW, the casting equivalent of Hastelloy® C-276 7 Monel® 400 or UNS N04400. Supplied as indicated or as Grade M30C, the casting equivalent of Monel® 400

8 Monel 400® or UNS N04400 or UNS N04405

Page 16: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

10 ST 3000 Smart Pressure Transmitter

Certifications

Type of Protection Comm. Option Field Parameters Temp. Codes

Explosionproof: Class I, Division 1, Groups A, B, C, D locations Dust Ignition Proof: Class II, III, Division 1, Groups E, F, G locations, Enclosure Type 4X

All All T5 Ta = 93ºC

4-20 mA / DE

Vmax = 42.4V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC Intrinsically Safe: Class I, II, III, Division 1, Groups A, B, C, D, E, F, G locations, Enclosure Type 4X

4-20 mA /

Vmax = 30V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

Fieldbus – Entity (Not FISCO)

Vmax = 32V Imax = 120mA Ci = 4.2nF Li = 0 Pi =0.84W

T4 Ta = 40ºC T3 Ta = 93ºC

Fieldbus – Entity (Not FISCO)

Vmax = 24V Imax = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T4 Ta = 40ºC T3 Ta = 93ºC

Intrinsically Safe: Class I, II, III, Division 1, Groups A, B, C, D, E, F, G locations; Class 1, Zone 0, AEx ia Group IIC, Enclosure Type 4X / IP 66/67

FISCO

Vmax = 17.5V Imax = 380mA Ci = 4.2nF Li = 0 Pi =5.32W

T4 Ta = 40ºC T3 Ta = 93ºC

4-20 mA / DE

Vmax = 42.4V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC Nonincendive: Class I, Division 2, Groups A, B, C, D locations, Enclosure Type 4X

4-20 mA / HART

Vmax = 30V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

Fieldbus – Entity (Not FNICO)

Vmax = 32V Imax = 120mA Ci = 4.2nF Li = 0 Pi =0.84W

T4 Ta = 40ºC T3 Ta = 93ºC

Fieldbus – Entity (Not FNICO)

Vmax = 24V Imax = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T4 Ta = 40ºC T3 Ta = 93ºC

FM ApprovalsSM

Nonincendive: Class I, Division 2, Groups A, B, C, D; Suitable for: Class II, Division 2, Groups F&G; Class III, Division 2; Class I, Zone 2, Group IIC, Enclosure Type 4X / IP 66/67

FNICO Vmax = 32V Ci = 4.2nF Li = 0

T4 Ta = 40ºC T3 Ta = 93ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

FM ApprovalsSM is a service mark of FM Global

Page 17: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 Smart Pressure Transmitter 11

Type of Protection Comm. Option Field Parameters Temp. Codes

Explosion Proof: Class I, Division 1, Groups B, C, D locations Dust Ignition Proof: Class II, III, Division 1, Groups E, F, G locations, Enclosure Type 4X

All All T4 Ta = 93ºC

4-20 mA / DE

Vmax = 42V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

4-20 mA / HART

Vmax = 42V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

Intrinsically Safe: Class I, II, III, Division 1, Groups A, B, C, D, E, F, G locations, Enclosure Type 4X

Fieldbus – Entity (Not FISCO)

Vmax = 24V Imax = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T4 Ta = 40ºC T3 Ta = 93ºC

4-20 mA / DE

Vmax = 42.4V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

4-20 mA / HART

Vmax = 30V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

Nonincendive: Class I, Division 2, Groups A, B, C, D locations, Enclosure Type 4X

Fieldbus – Entity (Not FNICO)

Vmax = 24V Imax = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T4 Ta = 40ºC T3 Ta = 93ºC

Canadian Standards

Association (CSA)

Canadian Registration Number (CRN):

All ST 3000 models except STG19L, STG99L, STG170 and STG180 have been registered in all provinces and territories in Canada and are marked CRN: 0F8914.5C.

Page 18: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

12 ST 3000 Smart Pressure Transmitter

Type of Protection Comm. Option Field Parameters Temp. Codes

Flameproof, Zone 1: Ex d IIC, Enclosure IP 66/67

All All T5 Ta = –50 to 93ºC T6 Ta = –50 to 78ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

IECEx International

Electrotechnical Commission

(LCIE)

Intrinsically Safe, Zone 0/1: Ex ia IIC, Enclosure IP 66/67

Fieldbus (Not FISCO)

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

Type of Protection Comm. Option Field Parameters Temp. Codes

Flameproof, Zone 1: Ex d IIC, Enclosure IP 66/67

All All T5 Ta = –50 to 93ºC T6 Ta = –50 to 78ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

Intrinsically Safe, Zone 0/1: Ex ia IIC, Enclosure IP 66/67

Fieldbus (Not FISCO)

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

SAEx (South Africa) Multiple Marking:

Flameproof, Zone 1: Ex d IIC, Enclosure IP 66/67 Intrinsically Safe, Zone 0/1: Ex ia IIC, Enclosure IP 66/67 The user must determine the type of protection required for installation of the equipment. The user shall then check the box [√] adjacent to the type of protection used on the equipment certification nameplate. Once a type of protection has been checked on the nameplate, subsequently the equipment shall not be reinstalled using any of the other certification types.

Fieldbus (Not FISCO)

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

Page 19: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 Smart Pressure Transmitter 13

Type of Protection Comm. Option Field Parameters Temp. Codes

Flameproof, Zone 0: , Ex tD

Enclosure IP 66/67 All All

A20 IP6X T95ºC Ta = 93ºC or T80ºC Ta = 78ºC

Flameproof, Zone 1: , Ex d IIC, Ex tD

Enclosure IP 66/67 All All

T5 Ta = –50 to +93ºC T6 Ta = –50 to +78ºC, A21 IP6X T95ºC Ta = 93ºC or T80ºC Ta = 78ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

Intrinsically Safe, Zone 0/1:

, Ex ia IIC, Enclosure IP 66/67

Fieldbus (Not FISCO)

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

Non-Sparking, Zone 2:

,Ex nA IIC (Honeywell), Enclosure IP 66/67

Fieldbus (Not FNICO)

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

ATEX (LCIE)

Multiple Marking: Flameproof, Zone 1: , Ex d IIC Intrinsically Safe, Zone 0/1: , Ex ia IIC Non-Sparking, Zone 2: , Ex nA IIC NOTE: The user must determine the type of protection required for installation of the equipment. The user shall then check the box [ √ ] adjacent to the type of protection used on the equipment certification nameplate. Once a type of protection has been checked on the nameplate, subsequently the equipment shall not be reinstalled using any of the other certification types.

Fieldbus (Not FISCO/FNICO)

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

Page 20: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

14 ST 3000 Smart Pressure Transmitter

Type of Protection Comm. Option Field Parameters Temp. Codes

Flameproof, Zone 1: BR-Ex d IIC Enclosure IP 66/67

All All T5 Ta = –50 to 93ºC T6 Ta = –50 to 78ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

INMETRO (CERTUSP)

Brazil

Intrinsically Safe, Zone 0/1: BR-Ex ia IIC Enclosure IP 66/67

Fieldbus (Not FISCO)

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

This certificate defines the certifications covered for the ST 3000 Pressure Transmitter family of

products, including the SMV 3000 Smart Multivariable Transmitter. It represents the compilation of

the five certificates Honeywell currently has covering the certification of these products into marine

applications.

For ST 3000 Smart Pressure Transmitter and SMV 3000 Smart Multivarible Transmitter

American Bureau of Shipping (ABS) - 2009 Steel Vessel Rules 1-1-4/3.7, 4-6-2/5.15, 4-8-3/13 &

13.5, 4-8-4/27.5.1, 4-9-7/13. Certificate number: 04-HS417416-PDA

Bureau Veritas (BV) - Product Code: 389:1H. Certificate number: 12660/B0 BV

Det Norske Veritas (DNV) - Location Classes: Temperature D, Humidity B, Vibration A, EMC B,

Enclosure C. For salt spray exposure; enclosure of 316 SST or 2-part epoxy protection with 316

SST bolts to be applied. Certificate number: A-11476

Korean Register of Shipping (KR) - Certificate number: LOX17743-AE001

ST 3000 Pressure

Transmitter Marine

Certificate

(MT Option)

Lloyd's Register (LR) - Certificate number: 02/60001(E1) & (E2)

Page 21: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 Smart Pressure Transmitter 15

The ST 3000 Smart Pressure Transmitters are in conformity with the essential requirements of the Pressure Equipment Directive.

Honeywell ST 3000 Smart Pressure Transmitters are designed and manufactured in accordance with the applicable portions of Annex I, Essential Safety Requirements, and sound engineering practices. These transmitters have no pressurized internal volume, or have a pressurized internal volume rated less than 200 bar (2,900 psig), and/or have a maximum volume of less than 0.1 liter (Article 3, 1.1.(a) first indent, Group 1 fluids). Therefore, these transmitters are not subject to the essential requirements of the directive 97/23/EC (PED, Annex I) and shall not have the CE mark applied.

For transmitters rated > 200 bar (2,900 psig) < 1,000 bar (14,500 psig) Honeywell maintains a technical file in accordance with Annex III, Module A, (internal production control) when the CE mark is required. Transmitter Attachments: Diaphragm Seals, Process Flanges and Manifolds comply with Sound Engineering Practice.

European Pressure

Equipment Directive (PED)

(97/23/EC)

NOTE: Pressure transmitters that are part of safety equipment for the protection of piping (systems) or vessel(s) from exceeding allowable pressure limits, (equipment with safety functions in accordance with Pressure Equipment Directive 97/23/EC article 1, 2.1.3), require separate examination.

A formal statement from TÜV Industry Service Group of TÜV America, Inc., a division of TÜV Süddeutschland, a Notified Body regarding the Pressure Equipment Directive, can be found at www.honeywell.com. A hard copy may be obtained by contacting a Honeywell representative.

CE Mark Electro Magnetic Compatibility (EMC) (2004/108/EC) All Models: EN 50081-1: 1992; EN 50082-2:1995; EN 61326-1:1997 + A1, A2, and A3 – Industrial Locations

Dual Seal Certification

Dual Seal Certification based on ANSI/NFPA 70-202 and ANSI/ISA 12.27.01 requirements without the use of additional seal protection elements.

Recommended Frequency of Calibration

Honeywell recommends verifying the calibration of these devices once every four years.

Approved Manufacturing

Locations

Honeywell Process Solutions - York, PA USA Honeywell (Tianjin) Limited – Tianjin, P.R. China Honeywell Automation India Ltd. – Pune 411013 India

FoundationTM Fieldbus is a trademark of the Fieldbus Foundation. Viton® is a registered trademark of DuPont HART® is a registered trademark of HART Communications Foundation. Teflon® is a registered trademark of DuPont. Hastelloy® C-276 is a registered trademark of Haynes International. DC® 200 is a registered trademark of Dow Corning. Monel® 400 is a registered trademark of Special Metals Corporation. FM ApprovalsSM is a service mark of FM Global ST 3000 and Experion are registered trademarks of Honeywell International Inc.

Page 22: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

16 ST 3000 Smart Pressure Transmitter

Mounting

Figure 3 – Examples of typical mounting positions

Reference Dimensions: millimeters

inches

Figure 4 – Typical mounting dimensions of STD110, STD120, STD125, STD130 & STD170 for reference

Page 23: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 Smart Pressure Transmitter 17

Options

High Accuracy (Option HA)

Extends applicable S100 models to ±0.025% analog

reference accuracy.

Mounting Bracket (Options MB, MX, SB, SX, FB)

The mounting bracket is available in either zinc-plated

carbon steel or stainless steel and is suitable for

horizontal or vertical mounting on a two inch (50

millimeter) pipe, as well as wall mounting. An optional

flat mounting bracket is also available in carbon steel for

two inch (50 millimeter) pipe mounting. An option also

exists for Marine approved mounting brackets used with

Marine certification options.

Indicating Meter (Options ME and SM)

Two integral meter options are available. An analog

meter (option ME) is available with a dual 0 to 10 square

root and 0 to 100% linear scale. The Smart Meter

(option SM) provides an LCD display for both analog

and digital output and can be configured to display

pressure in selected engineering units.

HART® Output Protocol (Options HC and H6)

Optional electronic modules for the ST 3000 provide

HART® Protocol compatibility in either HART® 5.x or 6.x

formats. Transmitters with a HART® Option are

compatible with any HART® enabled system that

provides 5.x or 6.x format support.

Digital Enhanced Output (Option DE)

A communications protocol used together with TDC and

Experion system solutions to provide a higher level and

more secure data interface between instruments and the

control system.

FoundationTM Fieldbus Output (Option FF)

Equips transmitter with FF protocol for use in 31.25

kbit/s FF networks. See document 34-ST-03-72 for

additional information on ST 3000 Fieldbus transmitters.

SIL2/SIL3 Certification (Option SL)

This ST 3000 product is available for use with safety

systems. With the SL option, we are fully certified to SIL

2 capability for single transmitters and SIL 3 capability

for multiple transmitter use through TÜV Nord Sys Tec

GmbH & Co. KG. We are in compliance with the

following SIL standards:

IEC 61508-1: 1998;

IEC 61508-2: 2000;

IEC 61508-3: 1998

Lightning Protection (Option LP)

A terminal block is available with circuitry that protects

the transmitter from transient surges induced by nearby

lightning strikes.

NAMUR NE43 Compliance (Option NE)

This option provides software the meets the NAMUR

NE43 requirements for failsafe software. Transmitter

failure information is generated when the measuring

information is no longer valid.

Transmitter failure values are ≤ 3.6 mA and ≥ 21.0 mA.

The normal ST 3000 ranges are ≤ 3.8 mA and ≥ 20.8 mA.

Write Protection (Options WP and WX)

Provides the capability to hardwire write-protect

installed transmitter configurations.

Stainless Steel Tagging (Option TG)

Up to 30 characters can be added on the stainless

steel nameplate mounted on the transmitter’s

electronics housing at no extra cost. A stainless steel

wired on tag with additional data of up to 4 lines of 28

characters is also available. The number of characters

for tagging includes spaces.

Transmitter Configuration (Options TC and FC)

With Option TC, the factory can configure the analog,

DE or HART® transmitter’s linear/square root

extraction, damping time, LRV, URV and mode

(analog/digital) and enter an ID tag of up to eight

characters and scratchpad information as specified.

With Option FC, the Device ID, Transmitter Tag, Unit

Level Node Address, Output Mode and Damping Time

Constants can be specified.

Custom Calibration and ID in Memory (Option CC)

The factory can calibrate any range within the scope of

the transmitter’s range and enter an ID tag of up to

eight characters in the transmitter’s memory.

Indicator Configuration (Option CI)

Provides custom configuration of Smart Meters

Lifetime Warranty (Option WL)

Extends limited 1-year warranty policy to 15 years for

ST 3000 S100 pressure transmitters. See Honeywell

Terms and Conditions.

Page 24: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

18 ST 3000 Smart Pressure Transmitter

Model Selection Guides are subject to change and are inserted into the specifications as guidance only. Prior to specifying or ordering a model check for the latest revision Model Selection Guides which are published at: http://hpsweb.honeywell.com/Cultures/en-US/Products/Instrumentation/ProductModelSelectionGuides/default.htm

Model Selection Guide

34-ST-16U-01Issue 65Page 1 of 5

ST 3000 Smart Transmitter Model Selection GuideDifferential Pressure (DP)Series 100

Instructions ● Select the desired Key Number. The arrow to the right marks the selection available. ● Make one selection from each Table (I, II and IV) using the column below the proper arrow. ● Select as many Table III options as desired plus a communications option selection. ● A ( ● ) denotes unrestricted availability. A letter denotes restricted availability. ● Restrictions follow Table IV.

- - +

KEY NUMBER

Important Note:

TABLE I - METER BODY

A _ _ ● ● ● ● ●B _ _ ● ● ●C _ _ 19 19 19

D _ _ ● ● ●E _ _ ● ● ● ● ●F _ _ ● ● ●G _ _ 19 19 19

H _ _ ● ● ●J _ _ ● ● ●K _ _ ● ● ●L _ _ 19 19 19

_ 1 _ ● ● ● ● ●_ 2 _ ● ● ● ●

● ● ● ● ●t t t t t

1 Carbon Steel heads are zinc-plated and not recommended for water service due to hydrogen migration. Use 316 wetted process heads instead.2 Vent/Drains & Plugs are sealed with Teflon® or PTFE3 Hastelloy® C-276 or UNS N102764 Monel 400® or UNS N044005 Supplied as 316 SS or as Grade CF8M, the casting equivalent of 316 SS.6 Supplied as indicated or as Grade CW12MW, the casting equivalent of Hastelloy® C-2767 Supplied as indicated or as Grade M30C, the casting equivalent of Monel 400®

9 Monel 400® or UNS N04400 or UNS N04405

_ _, _ _III (Optional)

316 SS

Monel 400® 4

Tantalum

STD110

Process Wetted HeadsVent/Drain Valves and

Plugs2 Barrier Diaphragms

Body Rating: 4,500 psi (315 bar)

STD125

Monel 400® 4

Hastelloy® C-276 3

Hastelloy® C-276 3, 6 Tantalum

Selection

_ _ H

Base STD models no longer include a default communications option. All units now require the selection of a communication option from Table III (AN, DE, HC, H6 or FF).

STD120

STD130

STD170

¼ NPTProcess Head Configuration

316 SS

DC®200 SiliconeCTFE

Monel 400® 4, 7

316 SS 5

Monel 400® 4

316L SS

Hastelloy® C-276 3, 6 Hastelloy® C-276 3

Hastelloy® C-276 3

_ _ A½ NPT with Adapter (on ¼ NPT Head)

Carbon Steel 1

Hastelloy® C-276 3

316 SS 5

316 SS316 SS316 SS 5

316 SS

Body Rating: 50 psi (3.5 bar) Compound Characterized

316L SS316 SS

Tantalum

Carbon Steel 1

Carbon Steel 1316 SSCarbon Steel 1

Materials of Construction

316 SS 5

Availability

0-6" to 0-600" H2O / 0-15 to 0-1,500 mbar

0-0.4" to 0-10" H2O / 0-1 to 0-25 mbar Body Rating: 4,500 psi (315 bar)

Body Rating: 4,500 psi (315 bar)

Span

_ _ _ _ _ _ Key Number

X X X XIV

0 0 0 0 0

Hastelloy® C-276 3316 SS

II

Selection

0-1" to 0-400" H2O / 0-2.5 to 0-1,000 mbar

Body Rating: 4,500 psi (315 bar)

0-30 to 0-3,000 psi / 0-2.1 to 0-210 bar

I_ _ _-

0-1 to 0-100 psi / 0-0.07 to 0-7 bar

Fill Fluid

Monel 400® 9

Page 25: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 Smart Pressure Transmitter 19

34-ST-16U-01Issue 65Page 2 of 5 STD1xx

TABLE II 20 30 70 25 10

● ● ● ● ●

● ● ● ● ●● ● ● ● ●

HC ● ● ● ● ●● ● ● ● ●

FF r r r r r

ME ● ● ● ● ●SM ● ● ● ● ●CI e e e e e

ZS m m m m

LZ x x x x

SH n n n n n

i i i i i

● ● ● ● ●

● ● ● ● ●

● ● ● ● ●● ● ● ● ●● ● ● ● ●● ● ● ● ●● ● ● ● ●

NE 15 15 15 15 15

SL p p p p p

LP ● ● ● ● ●CC ● ● ● ● ●

15 15 15 15 1521 21 21 21 21

● ● ● ● ●● ● ● ● ●

● ● ● ● ●

TB ● ● ● ● ●d18 18 18

SS ● ● ● ● ●B7 ● ● ● ● ●CR ● ● ● ● ●S2 c c c c c

S3 c c c c c

S4 c c c c c

S5 c c c c c

T2 c c c

T3 c c c

V2 c c c

V3 c c c

B3 ● ● ● ● ●B4 ● ● ● ● ●B5 ● ● ● ● ●B6 ● ● ● ● ●SV ● ● ● ● ●CV ● ● ● ●

3 Hastelloy® C-276 or UNS N10276 Table III Options continued on next page4 Monel 400® or UNS N044005 Supplied as 316 SS or as Grade CF8M, the casting equivalent of 316 SS.6 Supplied as indicated or as Grade CW12MW, the casting equivalent of Hastelloy® C-2767 Supplied as indicated or as Grade M30C, the casting equivalent of Monel 400®

8 Viton® or Fluorocarbon Elastomer

0 0 0 0 0

A1

A2

A4 1/2 NPT Zinc-plated Certified Conduit Plug (ATEX, CSA & IECEx)

1/2 NPT Male to M20 Female 316 SS Certified Conduit Adapter ( ATEX, CSA & IECEx)

1/2 NPT Male to 3/4 NPT Female 316 SS Certified Conduit Adapter (ATEX, CSA & IECEx)

Indicating Meter Options

1/2 NPT Non-certified Conduit plug (Zinc-plated carbon steel, general use) A8

Side Vent/Drain (End Vent Drain is standard) 316 SS Center Vent Drain and Bushing

316 SS5 Electronics Housing - (with M20 to 1/2 NPT 316 SS Conduit Adaptor, for use with FM and CSA Approval codes)

Local ZeroTransmitter Housing & Electronics Options No housing conduit plugs or adaptors come standard with the ST 3000. For certain approval codes, you must select a certified conduit plug from below and it will come packaged in the box with your transmitter.

Hastelloy® C-276 3, 6 Adapter Flange - 1/2 NPT with CS Bolts

1/2 NPT 316 SS Certified Conduit Plug (ATEX, CSA & IECEx) M20 316 SS Certified Conduit Plug (ATEX, CSA & IECEx)

M20 Male to 1/2 NPT Female 316 SS Certified Conduit Adaptor (ATEX, CSA & IECEx)

b

b

b

Low Temperature ( -50°C Ambient Limit)

b

WX

TG

Write Protection (Delivered in the "enabled" position) Transmitter Configuration - (Fieldbus)

Write Protection (Delivered in the "disabled" position)

FCWP

Steel Customer Wired-On Tag (4 lines, 26 characters per line, customer supplied information)

HALT

NACE A286 SS Bolts and 304 SS Nuts for Process Heads

316 SS 5 Adapter Flange - 1/2 NPT with B7M Bolts

316 SS 5 Adapter Flange - 1/2 NPT with CS Bolts

High Accuracy

Meter Body Options

Analog Meter (0-100 Even 0-10 Square Root)

DE

316 SS5 Electronics Housing - (with M20 Conduit Connections)

TC

A5A6A7

H6

316 SS 5 Adapter Flange - 1/2 NPT with 316 SS Bolts

316 SS Bolts and 316 SS Nuts for Process Heads B7M Bolts and Nuts for Process Heads

Stainless Steel Customer Wired-On Tag (blank)

316 SS 5 Blind Adapter Flange with 316 SS Bolts

316 SS 5 Blind Adapter Flange with B7M Bolts

316 SS 5 Blind Adapter Flange with CS Bolts

SIL 2 - TÜV Certified transmitter (requires HC or H6 and WP options)

316 SS 5 Blind Adapter Flange with NACE A286 SS Bolts

Monel 400® 4, 7 Adapter Flange - 1/2 NPT with 316 SS Bolts Monel 400® 4, 7 Adapter Flange - 1/2 NPT with CS Bolts

316 SS 5 Adapter Flange - 1/2 NPT with NACE A286 SS Bolts

Hastelloy® C-276 3, 6 Adapter Flange - 1/2 NPT with 316 SS Bolts

Transmitter Configuration - (non-Fieldbus)

AN

Availability

A3

Custom Calibration and I.D. in Memory

Analog only (can be configured using appropriate Honeywell DE tool)

Smart Meter

DE Protocol communications

Local Zero & Span

HART® 5.x Protocol compatible electronics

FOUNDATIONTM Fieldbus Communications

NAMUR Failsafe Software

Lightning Protection

HART® 6.x Protocol compatible electronics

Communication Options (Must choose a communications option)

Selection

SelectionTABLE III - OPTIONS

Custom Configuration of Smart Meter

No Selection

b

b

b

b

b

Page 26: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

20 ST 3000 Smart Pressure Transmitter

34-ST-16U-01Issue 65Page 3 of 5

Availability

STD1xx

TABLE III - OPTIONS (continued) 20 30 70 25 10

VT ● ● ● ● ●● ● ● ● ●

VF 17 17 17 17 17

MB ● ● ● ● ●MX ● ● ● ● ●SB ● ● ● ● ●SX ● ● ● ● ●FB ● ● ● ● ●

d d d d dg g g

● ● ● ● ●0X j j j jTP ● ● ● ● ●F1 ● ● ● ● ●F3 ● ● ● ● ●F5 ● ● ● ● ●

22 22 22 22 22o o o o o● ● ● ● ●● ● ● ● ●

MT 2 2 2 2 2

W1 ● ● ● ● ●W2 ● ● ● ● ●W3 ● ● ● ● ●W4 ● ● ● ● ●

● ● ● ● ●

9X ● ● ● ● ●

● ● ● ● ●

● ● ● ● ●

● ● ● ● ●

Approvals continued on next page

Selection

Viton® 8 Process Head Gaskets (adapter gaskets ordered separately) Graphite Process Head & Adaptor Flange Gaskets GF Viton® 8 Adapter Flange Gaskets

● ●

●●Ex ia IIC T4, T5, T6Ex d IIC T5, T6 Enclosure IP 66/67

Intrinsically Safe, Zone 0/1Flameproof, Zone 1

Z2

Multiple Marking 11

Flameproof, Zone 1ZAIntr. Safe, Zone 0/1, or

6D

6S

Flameproof, Zone 1

BR- Ex ia IIC; T4, T5, T6 (See CERTUSP certificate for

detailed temperature codes by Communications option)

Canadian Standards

Association (CSA)

IECEx

Flameproof, Zone 1

Dust-Ignitionproof

Intrinsically Safe

Non-IncendiveIntrinsically Safe

Explosion Proof

2424

24

24 24

f

●●

b24

24

b

b

SIL Certificate (SIL 2/3) (FC33337)

G2

G1

FG

FEF7

24

FX

CA 24

2J

1C

UM

Location or Classification Selection

Flat Mounting Bracket - Carbon Steel

Additional Warranty - 2 years

Marine Type Approvals (DNV, ABS, BV, KR & LR) (FC33340)

Additional Warranty - 1 year

WL

CERTUSP INMETRO

(Brazil)

SAEx (South Africa)

Approval Body

ZD

Dust-Ignitionproof

Ex ia IIC T4, T5, T6

Ex d IIC T5, T6 Enclosure IP 66/67

Angle Mounting Bracket - 304 SS

FM

ApprovalsSM

User's Manual Paper Copy (Standard, HC/H6, or FF ships accordingly)

NACE Certificate (Process-Wetted only) (FC33338)

Approval Type

Material Traceability Certification per EN 10204 3.1 (FC33341)

Warranty Options

Certificate of Origin (F0195)

Diaphragm Options

Marine Approved Angle Mounting Bracket - Carbon Steel

Meter Body Options (con't)

Services/Certificates/Marine Type Approval Options Gold plated diaphragm(s) on Monel 400® 4 or Hastelloy® C-276 3 ONLY

Marine Approved Angle Mounting Bracket - 304 SS

Gold plated diaphragm(s) on 316 SS

Transmitter Mounting Bracket Options Angle Mounting Bracket - Carbon Steel

Intrinsically Safe, Zone 0/1

Class II, III, Div. 1, Groups E,F,G

Explosion Proof

Intrinsically Safe, Zone 0/1

NACE Certificate (Process-Wetted & Non-Process Wetted) (FC33339)

Clean Transmitter for Oxygen or Chlorine Service with Certificate (50039190) Over-Pressure Leak Test with Certificate (F3392)

Additional Warranty - 4 years

Calibration Test Report and Certificate of Conformance (F3399) Certificate of Conformance (F3391)

Additional Warranty - 3 years

Class I, Div. 1, Groups B,C,D

Lifetime Warranty - 15 years

Class I, Div. 2, Groups A,B,C,DClass I, II, III, Div. 1, Groups A,B,C,D,E,F,G

Ex d IIC; T5 (Ta = -40°C to +93°C), T6 (Ta = -40°C to +78°C)Ex ia IIC; T3, T4, T5 , T6 See Spec for detailed

temperature codes by Communications option.

Class I, II, III, Div. 1, Groups A,B,C,D,E,F,G

No hazardous location approvals Class I, Div. 1, Groups A,B,C,DClass II, III Div. 1, Groups E,F,G

BR- Ex d IIC; T5, T6

b

b

b

b

Page 27: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 Smart Pressure Transmitter 21

34-ST-16U-01Issue 65Page 4 of 5

STD1xx

TABLE III - Approvals Options (continued)

3 Hastelloy® C-276 or UNS N102764 Monel 400® or UNS N04400

10 See ATEX installation requirements in the ST 3000 User's Manual

Selection

3S

Approval Body

Dust-tight Enclosure, Zone 0

Flameproof and Dust-tight Enclosure, Zone 1

2424

shall not be reinstalled using any of the other certification types.

11 The user must determine the type of protection required for installation of the equipment. The user shall then check the box [√] adjacent to the type of protection used on the equipment certification nameplate. Once a type of protection has been checked on the nameplate, subsequently the equipment

24 24

ATEX 10

(LCIE)

3C 24

Intrinsically Safe, Zone 1

2433

24 24

Ex nA, IIC T5 (Ta = –40°C to +93°C), T6 (Ta = –40°C to +78°C); Zone 2 Supply < 42Vdc, 23mA Ex tD A22 IP6X T95°C (at Ta = 93°C) or T80°C (at Ta = 78°C) (Honeywell).Enclosure IP 66/67

Approval Type Location or Classification

Ex d IIC T5 (Ta = –40°C to +93°C), T6 (Ta = –40°C to +78°C)Supply 11- 42VdcEx tD A21 IP6X T95°C (at Ta = 93°C) or T80°C (at Ta = 78°C)Enclosure IP 66/67

●●

20 30

70

25 10

b

●● ●

2424

3NNon-Sparking, Zone 2

Ex tD A20 IP6X T95°C (at Ta = 93°C) or T80°C (at Ta = 78°C)Enclosure IP 66/67

Intrinsically Safe, Zone 0

Multiple Marking 11

Int. Safe, Zone 0/1 and Dust-tight Enclosure,

or

Flameproof, Zone 1 and Dust-tight Enclosure,

or

Non-Sparking, Zone 2

Ex ia IIC T4 (Ta = –50°C to +93°C); T5 (Ta = –50°C to +85°C); T6 (Ta = –50°C to +70°C)Enclosure IP 66/67

Ex nA, IIC T5 (Ta = –40°C to +93°C), T6 (Ta = –40°C to +78°C); Zone 2 Supply < 42Vdc, 23mAEx tD A22 IP6X T95°C (at Ta = 93°C) or T80°C (at Ta = 78°C) (Honeywell) Enclosure IP 66/67

Ex ia IIC T4 (Ta = –50°C to +93°C); T5 (Ta = –50°C to +85°C); T6 (Ta = –50°C to +70°C); Ui = 30V; Ii = 100mAEx tD A20 IP6X T95°C (at Ta = 93°C) or T80°C (at Ta = 78°C)

Ex d IIC T5 (Ta = –40°C to +93°C), T6 (Ta = –40°C to +78°C) Supply 11- 42VdcEx tD A21 IP6X T95°C (at Ta = 93°C) or T80°C (at Ta = 78°C)

Ex ia IIC T4 (Ta = –50°C to +93°C); T5 (Ta = –50°C to +85°C); T6 (Ta = –50°C to +70°C)Enclosure IP 66/67

Page 28: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

22 ST 3000 Smart Pressure Transmitter

34-ST-16U-01Issue 65Page 5 of 5

AvailabilitySTD1xx

TABLE IV 20 30 70 25 10

● ● ● ● ●

RESTRICTIONSRestriction

Letter Table Tablebc _ _ Hde SM

f

gij _ 2 _

mno CR, S4, B5p

r

tx FF, SM

215

Hastelloy® is a registered trademark of Haynes International Viton® is a registered trademark of DuPont Performance Elastomers.Monel 400® is a registered trademark of Special Metals Corporation. Teflon® is a registered trademark of DuPont.HART® is a registered trademark of HART Communication Foundation. FM ApprovalsSM is a service mark of FM GlobalFOUNDATIONTM Fieldbus is a trademark of Fieldbus Foundation. DC® 200 is a registered trademark of Dow Corning

X X X XSelection

22 III SL

FF, 00III

IIIIII FF

18 I _ 1 _19

Ordering Example: STD120-A1A-00000-AN,1C + XXXX

21F7, FG

FB, MB, SBFF

III

III

ME, FF

I

IIIIII

L _ _

1C, 2J

I

I

This approval code requires the selection of a certified conduit plug: A5, A6 or A7

IIIIII

I

B _ _, C _ _, F _ _, G _ _, J _ _, L _ _

A _ _, E _ _

III

III

IIIIII

Available Only With

ISelect only one option from this group

SelectionNot Available With

Selection

1C or 2J

III

IIIIII

S2, S3 ,S4, S5, T2, T3, V2, V3

TC, ME FISCO/FNICO compliance not available with 2J, 3C, 3N, 33, 3S, CA, Z2, ZD, ZA,

6D & 6S

17 III

III

24 IIIThis approval code requires the selection of a

certified conduit plug: A5, A6 or A7

FISCO/FNICO compliance available only with 1C

III

Factory Identification

MX, SX

VT

HC or H6 and WP

Page 29: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 Smart Pressure Transmitter 23

Specifications are subject to change without notice.

For More Information

Learn more about how Honeywell’s ST 3000 Smart

Pressure Transmitters can increase performance,

reduce downtime and decrease configuration costs,

visit our website www.honeywell.com/ps or contact

your Honeywell account manager.

Honeywell Process Solutions

1860 West Rose Garden Lane

Phoenix, Arizona 85027

Tel: 1-800-423-9883 or 1-800-343-0228

http://www.honeywell.com/ps

34-ST-03-60 August 2011 © 2010 Honeywell International Inc.

Page 30: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter Specifications 34-ST-03-72 April 2010

Introduction

The ST 3000 Fieldbus Transmitter is designed as an

enhancement to smart or analog transmitters and may use

the existing transmitter signal lines for power and

communication for ease of field upgrade. In addition to

features currently offered with other smart transmitters, the

following key features are now available with the ST 3000

Fieldbus transmitter:

Fieldbus Foundation™ registration

Backup Link Active Scheduler (LAS).

Analog Input and PID Control Function Blocks.

Custom polynomial for level and flow linearization.

“Electronic Nameplate” data and download via the bus.

ST 3000 Fieldbus transmitters accurately measure

differential, gauge, or absolute pressure. A piezoresistive

sensor is combined with state-of-the-art electronics to

provide a digital output signal proportional to the measured

variable.

Accuracy is enhanced by compensating the output signal

for the effects of ambient temperature and static pressure

changes and for device non-linearities. Typical process

control applications include measuring the fluid flow rate

through a pipe, or measuring the level of a liquid in a tank.

Communication through a fieldbus host system provides

labor saving capabilities such as remote transmitter

adjustments and diagnostics. An operator can adjust and

display operating information, re-range the transmitter

without applied calibration pressures, initiate diagnostic

tests, and read the input pressure and output signal, all

without leaving the control room.

This, when coupled with the transmitter’s wide span

adjustment, means that the ST 3000 Fieldbus transmitter is

extremely adaptable to a variety of applications, and it can

easily be adjusted to meet changing requirements.

When digitally integrated with Honeywell’s Experion®

Process Knowledge System or other TDC/TPS systems,

ST 3000 instruments provides local measurement accuracy

to the system level without adding typical A/D and D/A

converter inaccuracies as well as providing advantages

from the many other on-board advanced diagnostic

features. Honeywell’s high-performance ST 3000 S100

transmitters lead the industry in:

Accuracy

Stability

Reliability

Rangeability

Warranty

Page 31: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 2

Figure 1 -- Typical ST 3000 Fieldbus Transmitter Types and Fieldbus Configurator

As shown in Figures 1 and 2, the ST 3000 Fieldbus family

consists of a full line of pressure transmitters. Model

selection is simplified because the ST 3000 Fieldbus

transmitter provides a versatile range of span

adjustments as listed in Table 1, which result in a

turndown ratio as high as 400 to 1.

And, no matter what model or type of transmitter

selected, the same configuration tool communicates with

all of them.

In-LineGaugePressureTransmitter

AbsolutePressure

Transmitter

Remote DiaphragmSeals Transmitter

Fieldbus ConfiguratorSoftware on YourDesktop or LaptopPersonal Computer

DifferentialPressureTransmitter

Flange MountLiquid LevelTransmitter

Page 32: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 3

Figure 2 -- ST 3000 Fieldbus Transmitter Family Tree

24096B* These models also available with remote diaphragm seals.

DifferentialPressure(STD1xx)

In-LineGaugePressure*(STG1xL)

Gauge andAbsolute*Pressure(STG1xx, STA1xx)

Differential Pressurewith Flange on OneSide (STF1xx)

Flange-MountLiquid Level(STF1xx)

Differential Pressure withRemote DiaphragmSeals (STR1xx)

Series 100

DifferentialPressure(STD9xx)

In-LineGaugePressure*(STG9xL)

Gauge andAbsolute*Pressure(STG9xx, STA9xx)

Differential Pressurewith Flange on OneSide (STF9xx)

Flange-MountLiquid Level(STF9xx)

Differential Pressure withRemote DiaphragmSeals (STR9xx)

Series 900

ST 3000 FF Transmitter

Dual-HeadGaugePressure*(STG9xx)

FlushMount(STG9xP)

HighTemperature(STx14T)

Page 33: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 4

Operating Conditions – All Models

Table 1 -- Summary of ST 3000 Fieldbus Transmitter Family Model Number Selections

Model Number Available Range Minimum Span Turndown Ratio

Differential Pressure Transmitters

STD 110 0 to 10 inH2O (0 to 25 mbar) 0.4 inH2O (1 mbar) 25 to 1

STD 120 0 to 400 inH2O (0 to 1000 mbar) 1 inH2O (2.5 mbar) 400 to 1

STD924 0 to 400 inH2O (0 to 1000 mbar) 10 inH2O (25 mbar) 40 to 1

STD125 0 to 600 inH2O (0 to 1500 mbar) 25 inH2O (62.5 mbar) 24 to 1

STD130, STD930 0 to 100 psi (0 to 7 bar) 5 psi (0.35 bar) 20 to 1

STD170, STD974 0 to 3000 psi (0 to 210 bar) 100 psi (7 bar) 30 to 1

Gauge or Absolute Pressure Transmitters

STG93P 0 to 100 psi (0 to 7 bar) 5 psi (0.35 bar) 20 to 1

STG14T 0 to 500 psi (0 to 35 bar) 0.9 psi (0.063 bar) 550 to 1

STG140, STG14L 0 to 500 psi (0 to 35 bar) 5 psi (0.35 bar) 100 to 1

STG944, STG94L 0 to 500 psi (0 to 35 bar) 20 psi (1.4 bar) 25 to 1

STG170, STG17L 0 to 3000 psi (0 to 210 bar) 100 psi (7 bar) 30 to 1

STG974, STG97L 0 to 3000 psi (0 to 210 bar) 300 psi (21 bar) 10 to 1

STG18L, STG180 0 to 6000 psi (0 to 415 bar) 100 psi (7 bar) 60 to 1

STG98L 0 to 6000 psi (0 to 415 bar) 500 psi (35 bar) 12 to 1

STA122, STA922 0 to 780 mmHgA (0 to 1040 mbarA) 50 mmHgA (67 mbarA) 15 to 1

STA140 0 to 500 psia (0 to 35 barA) 5 psia (0.35 barA) 100 to 1

STA940 0 to 500 psia (0 to 35 barA) 20 psia (1.4 barA) 25 to 1

Flange Mounted Differential Pressure Transmitters

STF128, STF12F 0 to 400 inH2O (0 to 1000 mbar) 10 inH2O (25 mbar) 40 to 1

STF924, STF92F 0 to 400 inH2O (0 to 1000 mbar) 25 inH2O (62.5 mbar) 16 to 1

STF132, STF13F, STF932, STF93F

0 to 100 psi (0 to 7 bar) 5 psi (0.35 bar) 20 to 1

STF14F 0 to 600 inH2O (0 to 1500 mbar) 25 inH2O (62.5 mbar) 24 to 1

STF14T 0 to 500 psi (0 to 35 bar) 0.9 psi (0.063 bar) 550 to 1

Remote Seal Differential or Gauge Pressure Transmitters

STR12D 0 to 400 inH2O (0 to 1000 mbar) 10 inH2O (25 mbar) 40 to 1

STR13D 0 to 100 psi (0 to 7 bar) 5 psi (0.35 bar) 20 to 1

STR93D 0 to 100 psi (0 to 7 bar) 0.9 psi (0.063 bar) 110 to 1

STR14G 0 to 500 psi (0 to 35 bar) 5 psi (0.35 bar) 100 to 1

STR94G 0 to 500 psi (0 to 35 bar) 20 psi (1.4 bar) 25 to 1

STR17G 0 to 3000 psi (0 to 210 bar) 100 psi (7 bar) 30 to 1

STR14A 0 to 500 psia (0 to 35 barA) 5 psia (0.35 barA) 100 to 1

Page 34: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 5

Foundation Fieldbus Functions of the ST 3000 Fieldbus Transmitter

The ST 3000 Fieldbus Transmitter has been designed to fully comply with Fieldbus Foundation specifications. As such, it contains the software architecture defined in the specifications.

Code Download

The ST 3000 Fieldbus transmitter is designed to support code download over the fieldbus. This allows the user to easily update the device software without changing PROMS.

As shown in Figure 3, the ST 3000 Fieldbus transmitter contains following block objects:

1 Resource block

1 Transducer block

1 Analog Input (AI) function block

1 Proportional Integral Derivative (PID) Control function block.

Resource Block

The resource block contains data and parameters related to overall operation of the device and the Function Block Application Process (FBAP). Parameters that reside in the resource block describe the hardware-specific characteristics of the device and support device application download operations.

Transducer Block

In the ST 3000 Fieldbus transmitter, the transducer block:

Takes sensor measurements from the signal

processing software,

Performs a linearization,

Executes additional math functions, if selected.

The transducer block has the ability to put the measured pressure value through a fifth-order polynomial equation. See Figure 4. This processing enables it to closely approximate the volume of an irregularly shaped tank or vessel, or to compensate the flow rate for variations in Reynolds Number. The user must provide the coefficients for this equation, as the device has no knowledge of the shape of the vessel or the type of primary flow element being used.

Analog Input Block

The Analog Input (AI) function block takes the output signal from the transducer block and makes it available to other function blocks as its output. For example, the output of the AI function block may be linked as an input to the transmitter’s PID Control function block.

Transducer Block

channel value

AI Block

Algorithm OUT

Communication Stack

ResourceBlock

read/write

read/write read/write

publish

Resource

SensorPID Block

Algorithm OUT

publish

CAS_IN

subscr.

24108

read

NOTE: Not all parameters are shown.

Figure 3 ST3000 Fieldbus Function Block Application Process (FBAP) Overview

Page 35: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 6

Transducer Block

PRIMARY_VALUE

AI Block

Algorithm

SENSOR_TEMP

status

status

PRIMARY_VALUE_RANGE

XD_SCALE

AUX_VAR1status

Levelpolynomialcalculation

Sensor Pressure

Temperature

CHANNEL

LEVEL_COEFF

Applycalibration

CALC_VALstatus

SENSOR_TEMP_UNIT

24109

OUT

Figure 4 Transducer and Analog Input Function Block Diagram

Referring to the block diagram in Figure 4, two values from the transducer block are supplied as inputs to the AI block:

1. PRIMARY_VALUE or CALC_VAL can be selected using the CHANNEL parameter as the first input. (See Table 2.)

2. SENSOR_TEMP is supplied as the second input to the AI block.

The AI block OUT parameter value can be shown on an optional local meter display in selected engineering units (Option SM).

Table 2 — CHANNEL Parameter Description

When CHANNEL Parameter equals . . .

1

2

Other

The Value Selected (from Transducer Block) is . . .

PRIMARY_VALUE, which is the direct pressure measurement, value from the sensor.

CALC_VAL which is the result of the Level Polynomial calculation.

Error - the AI block remains in (O/S) mode.

Page 36: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 7

PID Control Function Block Table 3 Honeywell PID Parameters

Parameter Name

Description/Parameter Contents

PID_FORM Configuration parameter specifies the IDEAL or ROBUST PID equation to be used:

IDEAL PID (default). Non-Interactive form of a three mode control algorithm that provides Proportional, Integral and Derivative control action. Linear and non-linear gain parameters are available.

ROBUST PID. The same as Ideal PID. Additionally, the algorithm supports a user-configurable lag filter applied to calculated output value. (See OUT_LAG parameter.) Linear and non-linear gain parameters are available.

ALGO_TYPE Configuration parameter specifies algorithm type which can be A,B, or C:

Type “A” equation where Proportional, Integral and Derivative act on ERROR.

Type “B” equation where Proportional and Integral act on ERROR and Derivative acts on PV.

Type “C” equation where Integral acts on ERROR and Proportional and Derivative act on PV.

OUT_LAG Time constant of single exponential lag filter applied to the OUT parameter (primary output). Units (in seconds). The time constant for Ideal PID lag filter is fixed at 1/16 of a second and is not configurable. The time constant is adjustable for the Robust PID.

GAIN_NLIN Dimensionless gain factor. When the gain factor is multiplied by absolute value of the error and added to the linear GAIN, the result is a gain response that is proportional to the deviation.

GAIN_COMP

The composite gain quantity comprising both linear and non-linear gain. Read only parameter.

ERROR_ABS

Absolute value of the difference between WSP and PV. Read only parameter.

The PID Control function block provides you with the choice of either an Ideal (the default) or Robust PID control equation. The Ideal PID equation uses standard parameters that are defined in Fieldbus Foundation specifications. The Robust equation uses the standard fieldbus parameters plus

Honeywell-defined extension parameters for PID control. A description of these parameters is given in Table 3.

The PID output is adjusted by tuning constants. Three tuning constants are used in the Ideal PID equation. The robust PID uses four tuning constants.

1. GAIN is the tuning constant of the Proportional term.

2. RESET is the tuning constant of the Integral term.

3. RATE is the tuning constant of the Derivative term. RATE is usually modified by a lag, which is set at some fixed ratio higher than the rate time, to create a rate gain. There is no lag with the rate in this implementation.

4. OUT_LAG is the fourth tuning constant used in the robust PID, it adds roll off to the output response. The action is similar to PID with rate gain.

Input to the PID block is configurable. For example, any value which is broadcast on the bus can be linked as the input to the PID.

WSP Working setpoint. This is the setpoint value after absolute and rate limits have been applied. Deviation alarms are computed on this value. Read only parameter.

Fieldbus Device Descriptions (DD)

Standardized descriptions and definitions are used to describe field devices that promote the interoperability of fieldbus devices. One of these standardized "tools" is the Device Description (DD).

A typical DD contains information about the device parameters and operation, such as:

Attributes like coding, name, engineering unit, write protection, how to display parameters, etc.

Maintenance, calibration and other necessary operation information. Standard DD’s for function blocks and transducer blocks are maintained by the Fieldbus Foundation. Honeywell and other manufacturers use these DD’s to describe the standard features of their fieldbus devices, as well as providing device-specific extensions that describe custom features unique to that particular device.

Page 37: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 8

Certifications

Type of Protection Comm. Option

Field Parameters Temp. Codes

Explosionproof: Class I, Division 1, Groups A, B, C, D locations Dust Ignition Proof: Class II, III, Division 1, Groups E, F, G locations, Enclosure Type 4X

All All T5 Ta = 93ºC

4-20 mA / DE

Vmax = 42.4V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC Intrinsically Safe: Class I, II, III, Division 1, Groups A, B, C, D, E, F, G locations, Enclosure Type 4X

4-20 mA /

Vmax = 30V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

Fieldbus – Entity

Vmax = 32V Imax = 120mA Ci = 4.2nF Li = 0 Pi =0.84W

T4 Ta = 40ºC T3 Ta = 93ºC

Fieldbus – Entity

Vmax = 24V Imax = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T4 Ta = 40ºC T3 Ta = 93ºC

Intrinsically Safe: Class I, II, III, Division 1, Groups A, B, C, D, E, F, G locations; Class 1, Zone 0, AEx ia Group IIC, Enclosure Type 4X / IP 66/67

FISCO

Vmax = 17.5V Imax = 380mA Ci = 4.2nF Li = 0 Pi =5.32W

T4 Ta = 40ºC T3 Ta = 93ºC

4-20 mA / DE

Vmax = 42.4V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC Nonincendive: Class I, Division 2, Groups A, B, C, D locations, Enclosure Type 4X

4-20 mA / HART

Vmax = 30V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

Fieldbus – Entity

Vmax = 32V Imax = 120mA Ci = 4.2nF Li = 0 Pi =0.84W

T4 Ta = 40ºC T3 Ta = 93ºC

Fieldbus – Entity

Vmax = 24V Imax = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T4 Ta = 40ºC T3 Ta = 93ºC

FM ApprovalsSM

Nonincendive: Class I, Division 2, Groups A, B, C, D; Suitable for: Class II, Division 2, Groups F&G; Class III, Division 2; Class I, Zone 2, Group IIC, Enclosure Type 4X / IP 66/67

FNICO Vmax = 32V Ci = 4.2nF Li = 0

T4 Ta = 40ºC T3 Ta = 93ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected. FM Approvals SM is a service mark of FM Global

Page 38: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 9

Type of Protection Comm. Option Field Parameters

Temp. Codes

Explosion Proof: Class I, Division 1, Groups B, C, D locations Dust Ignition Proof: Class II, III, Division 1, Groups E, F, G locations, Enclosure Type 4X

All All T4 Ta = 93ºC

4-20 mA / DE Vmax = 42V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

4-20 mA / HART Vmax = 42V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

Intrinsically Safe: Class I, II, III, Division 1, Groups A, B, C, D, E, F, G locations, Enclosure Type 4X

Fieldbus – Entity Vmax = 24V Imax = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T4 Ta = 40ºC T3 Ta = 93ºC

4-20 mA / DE Vmax = 42.4V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

4-20 mA / HART Vmax = 30V Imax = 225mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = 93ºC

Nonincendive: Class I, Division 2, Groups A, B, C, D locations, Enclosure Type 4X

Fieldbus – Entity Vmax = 24V Imax = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T4 Ta = 40ºC T3 Ta = 93ºC

Canadian Standards Association (CSA)

Canadian Registration Number (CRN):

All ST 3000 models except STG19L, STG99L, STG170 and STG180 have been registered in all provinces and territories in Canada and are marked CRN: 0F8914.5C.

Flameproof, Zone 1: Ex d IIC, Enclosure IP 66/67

All All T5 Ta = –50 to 93ºC T6 Ta = –50 to 78ºC

4-20 mA / DE Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

IECEx International

Electrotechnical

Commission (LCIE)

Intrinsically Safe, Zone 0/1: Ex ia IIC, Enclosure IP 66/67

Fieldbus Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

Page 39: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 10

Type of Protection Comm. Option Field Parameters Temp. Codes

Flameproof, Zone 1: Ex d IIC, Enclosure IP 66/67

All All T5 Ta = –50 to 93ºC T6 Ta = –50 to 78ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

Intrinsically Safe, Zone 0/1: Ex ia IIC, Enclosure IP 66/67

Fieldbus

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

SAEx (South Africa) Multiple Marking:

Flameproof, Zone 1: Ex d IIC, Enclosure IP 66/67 Intrinsically Safe, Zone 0/1: Ex ia IIC, Enclosure IP 66/67 The user must determine the type of protection required for installation of the equipment. The user shall then check the box [√] adjacent to the type of protection used on the equipment certification nameplate. Once a type of protection has been checked on the nameplate, subsequently the equipment shall not be reinstalled using any of the other certification types.

Fieldbus

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

Page 40: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 11

Type of Protection Comm. Option Field Parameters Temp. Codes

Flameproof, Zone 1: BR-Ex d IIC Enclosure IP 66/67

All All T5 Ta = –50 to 93ºC T6 Ta = –50 to 78ºC

4-20 mA / DE Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

INMETRO (CERTUSP) Brazil

Intrinsically Safe, Zone 0/1: BR-Ex ia IIC Enclosure IP 66/67

Fieldbus Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

This certificate defines the certifications covered for the ST 3000 Pressure Transmitter family of products, including the SMV 3000 Smart Multivariable Transmitter. It represents the compilation of the five certificates Honeywell currently has covering the certification of these products into marine applications.

For ST 3000 Smart Pressure Transmitter and SMV 3000 Smart Multivarible Transmitter

American Bureau of Shipping (ABS) - 2009 Steel Vessel Rules 1-1-4/3.7, 4-6-2/5.15, 4-8-3/13 & 13.5, 4-8-4/27.5.1, 4-9-7/13. Certificate number: 04-HS417416-PDA

Bureau Veritas (BV) - Product Code: 389:1H. Certificate number: 12660/B0 BV

Det Norske Veritas (DNV) - Location Classes: Temperature D, Humidity B, Vibration A, EMC B, Enclosure C. For salt spray exposure; enclosure of 316 SST or 2-part epoxy protection with 316 SST bolts to be applied. Certificate number: A-11476

Korean Register of Shipping (KR) - Certificate number: LOX17743-AE001

ST 3000 Pressure

Transmitter Marine

Certificate

(MT Option)

Lloyd's Register (LR) - Certificate number: 02/60001(E1) & (E2)

Page 41: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 12

Type of Protection Comm. Option Field Parameters Temp. Codes

Flameproof, Zone 1: , Ex d IIC Enclosure IP 66/67

All All T5 Ta = –50 to 93ºC T6 Ta = –50 to 78ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

Intrinsically Safe, Zone 0/1:

, Ex ia IIC, Enclosure IP 66/67

Fieldbus

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

Non-Sparking, Zone 2:

,Ex nA IIC (Honeywell), Enclosure IP 66/67

Fieldbus

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

4-20 mA / DE

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 85ºC T6 Ta = –50 to 70ºC

4-20 mA / HART

Ui = 30V Ii = 100mA Ci = 4.2nF Li = * Pi =1.2W

T4 Ta = –50 to 93ºC T5 Ta = –50 to 63ºC T6 Ta = –50 to 48ºC

ATEX (LCIE)

Multiple Marking: Flameproof, Zone 1: , Ex d IIC Intrinsically Safe, Zone 0/1: , Ex ia IIC Non-Sparking, Zone 2: , Ex nA IIC NOTE: The user must determine the type of protection required for installation of the equipment. The user shall then check the box [ √ ] adjacent to the type of protection used on the equipment certification nameplate. Once a type of protection has been checked on the nameplate, subsequently the equipment shall not be reinstalled using any of the other certification types.

Fieldbus

Ui = 24V Ii = 250mA Ci = 4.2nF Li = 0 Pi =1.2W

T3 Ta = –50 to 93ºC T4 Ta = –50 to 40ºC

* Li = 0 except Li = 150µH when Option ME, Analog Meter, is selected.

Page 42: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 13

The ST 3000 Smart Pressure Transmitters are in conformity with the essential requirements of the Pressure Equipment Directive.

Honeywell ST 3000 Smart Pressure Transmitters are designed and manufactured in accordance with the applicable portions of Annex I, Essential Safety Requirements, and sound engineering practices. These transmitters have no pressurized internal volume, or have a pressurized internal volume rated less than 200 bar (2,900 psig), and/or have a maximum volume of less than 0.1 liter (Article 3, 1.1.(a) first indent, Group 1 fluids). Therefore, these transmitters are not subject to the essential requirements of the directive 97/23/EC (PED, Annex I) and shall not have the CE mark applied.

For transmitters rated > 200 bar (2,900 psig) < 1,000 bar (14,500 psig) Honeywell maintains a technical file in accordance with Annex III, Module A, (internal production control) when the CE mark is required. Transmitter Attachments: Diaphragm Seals, Process Flanges and Manifolds comply with Sound Engineering Practice.

European Pressure Equipment Directive (PED) (97/23/EC)

NOTE: Pressure transmitters that are part of safety equipment for the protection of piping (systems) or vessel(s) from exceeding allowable pressure limits, (equipment with safety functions in accordance with Pressure Equipment Directive 97/23/EC article 1, 2.1.3), require separate examination.

A formal statement from TÜV Industry Service Group of TÜV America, Inc., a division of TÜV Süddeutschland, a Notified Body regarding the Pressure Equipment Directive, can be found at www.honeywell.com. A hard copy may be obtained by contacting a Honeywell representative.

CE Mark

Electro Magnetic Compatibility (EMC) (2004/108/EC)

All Models: EN 50081-1: 1992; EN 50082-2:1995; EN 61326-1:1997 + A1, A2, and A3 – Industrial Locations

Dual Seal Certification

Dual Seal Certification based on ANSI/NFPA 70-202 and ANSI/ISA 12.27.01 requirements without the use of additional seal protection elements.

Approved Manufacturing Locations

Honeywell Process Solutions - York, PA USA

Honeywell Process Solutions – Phoenix, AZ USA

Honeywell (Tianjin) Limited – Tianjin, P.R. China

Honeywell Automation India Ltd. – Pune 411013 India

FoundationTM Fieldbus is a trademark of the Fieldbus Foundation.

Viton® is a registered trademark of DuPont

HART® is a registered trademark of HART Communications Foundation.

Teflon® is a registered trademark of DuPont.

Hastelloy® C-276 is a registered trademark of Haynes International.

DC® 200 is a registered trademark of Dow Corning.

Monel® 400 is a registered trademark of Special Metals Corporation.

FM ApprovalsSM is a service mark of FM Global

ST 3000® and Experion® are registered trademarks of Honeywell International Inc.

Page 43: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 14

Options

In addition to the comprehensive fieldbus functions, the

ST 3000 Fieldbus transmitter also provides these

features and benefits:

Silicon Sensor and Meter Body

The ST 3000 Fieldbus transmitter uses the extremely

reliable piezoresistive strain gauge. The sensor is an

electric wheatstone bridge circuit ion-implanted onto

a silicon chip. The sensor is sealed in the meter body

from the process by metal diaphragms and silicone

fill fluid. This integrated sensor provides three signals

(process pressure, sensor temperature, and static

pressure) to an interface circuit. The three signals

are converted to digital signals for input to the

microprocessor.

Every meter body is characterized in the factory for

the effects of changing combinations of differential

pressure, static pressure and temperature. This

information is stored in a characterization PROM

(programmable read only memory) located in the

meter body of the transmitter. These factors are

accessed by the microprocessor to compensate the

output signal of the transmitter; providing the user

with a very accurate output signal independent of

changing process conditions.

Improved Accuracy

Reduces maintenance by requiring fewer

recalibrations. Eliminates the need for a spe¬cial

“high accuracy” transmitter.

A High Span Turndown Ratio

Reduces spare parts inventory by eliminating the

need for a number of different transmitters with

intermediate ranges;

Provides range changing flexibility, reducing the

need to replace transmitters to accommodate

variations in process operating conditions.

Improved Temperature and Static Pressure

Compensation

Improves the operating accuracy, repeatability, and

stability of the transmitter.

Reduces the maintenance requirements associated

with recalibrating the transmitter during changing

temperature and static pressure conditions.

FoundationTM Fieldbus Output (Option FF)

Equips transmitter with FF protocol for use in

31.25 kbit/s FF networks.

Diagnostics

Alerts the operator quickly of any detected

diagnostic conditions;

Reduces maintenance time associated with

startups and troubleshooting.

Write Protection

Consists of a jumper located on the electronics

board that the user can set to allow read and

write access, or read only access to device

Remote Adjustability

Allows an operator to select the span, zero,

damping, linear or square root output, and

forward or reverse action accurately from the

control room;

Reduces maintenance time associated with

range change or recalibrations;

Allows an operator to communicate with a

transmitter in a hard-to-reach location, or in

hazardous area without entering the areas.

Lightning Protection - LP

A terminal block with circuitry that protects the

transmitter from transient surges induced by

nearby lightning strikes.

Mounting Bracket - MB, SB, FB

Available in angle or flat style, and is suitable for

either horizontal or vertical mounting on a two-

inch pipe or for wall mounting.

Indicating Meter- SM

A local integrated meter option provides an LCD

display for digital output and can be configured

to display 0 to 100% pressure in selected

engineering units as well as device status

messages.

ST 3000 Fieldbus Operating Power

The ST 3000 Fieldbus transmitter operates in

the range of 9.0 to 32 Vdc @ 20 mA.

Page 44: Integral Orifice Assembly to Measure Small Flow Rates ... Instruments/Product Data... · Integral Orifice Assembly to Measure Small Flow Rates Specifications 34-ST-03-33 November

ST 3000 FF Fieldbus Pressure Transmitter 15

For More Information

Learn more about how Honeywell’s ST 3000 FF Pressure

Transmitters can increase performance, reduce downtime

and decrease configuration costs, visit our website

www.honeywell.com/ps/hfs or contact your Honeywell

account manager.

Honeywell Process Solutions

1860 West Rose Garden Lane

Phoenix, Arizona 85027

Tel: 1-800-423-9883 or 1-800-343-0228 www.honeywell.com/ps

34-ST-03-72 April 2011 © 2011 Honeywell International Inc.