Honeywell ST 3000 manuel d'utilisation

ST 3000 Smart Transmitter Release 300 and SFC Smart Field Communicator Model STS 103 Installation Guide 34-ST-33-39 2/05[...]

Copyright, Notices, and Trademarks Printed in U.S.A. – © Copyright 2005 by Honeywell Inc. February 2005 While this information is presented in good faith and believed to be accurate, Honeywell disclaims the implied warrant ies of merchantability and fitness for a particular purpose and makes no express wa rranties except as may be stated in its [...]

About This Publication This manual is intended as a handy guide for installing ST 3000 ® Release 300 Smart Transm itters. It provides data for checking out, mounting and wiring the transm itter as well as detailed wiring diagrams for reference. Much of this same inform ation is also included in the ST 3000 Smart Transmitter Release 300 and SFC ® [...]

References Publication Title Publication Number Binder Title Binder Number ST 3000 Smart Transmitter Release 300 and SFC Smart Field Communicator Model STS 103 User’s Manual 34-ST-25-14 SCT 3000 Smartline Configuration Toolkit Start-Up and Installation Manual 34-ST-10-08 Smart Field Communicator Model STS103 Operating Guide 34-ST-11-14 For R400 a[...]

Table of Contents REFERENCES .................................................................................................................. IV TECHNICAL ASSISTANCE ............................................................................................. VIII SECTION 1 —GETTING STARTED ......................................................[...]

Figures and Tables Figure 1 Typical Power Supply and SC T/SFC Connections to ST 3000. ............................................ 6 Figure 2 Location of Failsafe Direction Jum per on PW A. .................................................................. 14 Figure 3 Write Protect Jumper Location and Se lections . .................................[...]

Acronyms AP ............................................................................................................................ A bsolute Pressure APM ......................................................................................................... Adv anced Process Ma nager AWG .....................................................[...]

Technical Assistance If you encounter a problem with your ST 3000 Smart Transm itter, check to see how your transmitter is currently configured to verify that all selections are consistent with your application. If the problem persists, you can reach Honeywell’s Solution Support Center for technical support by telephone during normal business hou[...]

 IMPORTANT  Before You Begin, Please Note Transmitter Terminal Blocks Depending on your transmitter options, the transmitter m ay be equipped with either a 3-screw or 5-screw terminal block inside the electronics housing. This may affect how to connect the loop wiring and meter wiring to the transmitter. See Section 4.3 for the terminal block[...]

x ST 3000 Release 300 Installation Guide 2/05[...]

Section 1 —Getting Started 1.1 CE Conformity (Europe) Notice About conformity and special conditions This product is in conformity with the protection requirements of 89/336/EEC , the EMC Directive. Conformity of this product with any other “CE Mark” Directive(s) shall not be assumed. Deviation from the installation conditions specified in th[...]

1.2 Preliminary Checks Checking ST 3000 shipment Along with this Installation Guide you should have received • the ST 3000 Smart Transmitter you ordered, and • an optional mounting bracket assembly, if applicable. Before you dispose of the shipping container, be sure you have removed all the contents and visually inspected the transmitter for s[...]

1.2 Preliminary Checks, Continued Series and model number data, continued For a complete breakdown of the table selections in your model num ber, please refer to the appropriate Specification and Model Selection Guide that is provided as a separate document. A TTENTI ON Previous models of the ST 3000 transmitter with designations of Series 100, Ser[...]

1.2 Preliminary Checks, Continued Communicating w ith the ST3000 Transmitter, continued Using the SFC: If you ordered an SFC along with your transmitter, locate it and follow the instructions supplied with the SFC Model STS103 to prepare it for operation. Otherwise, be sure you have a fully charged SFC Model STS103 on hand to check the operation of[...]

Section 2 —Optional Bench Check 2.1 Connecting Power and SCT/SFC About the bench check The bench check is an optional procedure for checking your transmitter before you install it by: • Connecting a power source and an SFC (or a PC running SCT 3000 software) to the transmitter • Running a communication test with an SFC (or SCT 3000) • Check[...]

2.1 Connecting Power and SCT/SFC, Continued CAUTION Do not try to remove the transmitter housing end-cap before loosening the end-cap lock on the transmitter housing. Table 1 Connecting Power Supply and SFC to ST 3000 Step Action 1 Use a 1.5 mm allen wrench to loosen the end-cap lock on the terminal side of the transmitter housing. Unscrew and remo[...]

2.2 Testing Communications Background Once you connect power and the SCT or SFC to the transmitter, you are ready to test communications with the transm itter. Procedure The procedure in Table 2 outlines the steps using an SFC for initiating communications with an ST 3000 transm itter without an assigned tag number. Table 2 Testing Communications w[...]

2.2 Testing Communications, Continued Procedure, continued Table 2 Testing Communications with Transm itter, Continued Step Press Key Read Display or Action Description 5 TA O N. G SF C W O R K IN G . . . LI N AG N O . DP T _ OR DE X T M TA O G. RN _ – OR TA G O OR XT O NM E S N. NS RP E Message exchange is taking place Note that communications w[...]

2.2 Testing Communications, Continued Procedure, continued Table 2 Testing Communications with Transm itter, Continued Step Press Key Read Display or Action Description 7 ^ SHIFT DE READ A ID DE X T M TA O G. RN F – SH I T – TA O N. G S F C W O RK I N G –. 33 % LI N AG N O . DP T _ Initiates shift key select ion. Begins upload of configuratio[...]

2.3 Verifying Configuration Data Procedure Use the procedure in Table 3 to display all the basic transmitter database parameters to be sure they are correct. Note that the values/selections shown in displays are for example purposes only. ATTENTION • This procedure assumes that you have established communications with the transmitter as outlined [...]

2.3 Verifying Configuration Data, Continued Procedure, continued Table 3 Verifying Transmitter’s Configuration Data, Continued Step Press Key Read Display or Action Description 3 B CONF NON-VOL ENTER (Yes) CLR (No) NEXT H NON-VOL ENTER (Yes) ENTER (YE S ) NO N -V OL CLR (No) NG O IT Y OR M I ST C F CO N F ? IT Y OR M CO N F LI N E A R NG O IT Y O[...]

2.3 Verifying Configuration Data, Continued Procedure, continued Table 3 Verifying Transmitter’s Configuration Data, Continued Step Press Key Read Display or Action Description 5 E LRV 0% LR V 1 ØØ Ø . ØØ " H2O _ 39 F P T 1 ØØ1 S Present Lower Range Value setting. 6 URV 100% F UR V 1 3 . ØØ ØØ " H2 O _ 39 F P T 1 ØØ1 S Pres[...]

2.4 Changing Default Failsafe Direction Background Transmitters are shipped with a default failsafe direction of upscale. This means that the transmitter’s output will be driven upscale (m aximum output) when the transmitter detects a critical status. You can change the direction from upscale to downscale (minim um output) by cutting jumper W1 on[...]

2.4 Changing Default Failsafe Direction, Continued Procedure, continued Table 4 Cutting Failsafe Direction Jumper Step Action 1 With transmitter on bench and no power applied. Loosen end-cap lock and unscrew end cap from electronics side of transmitter housing. 2 • If applicable, unsnap Local Smart Meter from PWA mounting bracket and unplug cable[...]

2.5 Optional Write Protect Jumper Write protect option The ST 3000 transmitters are available with a “write protect option”. It consists of a jumper located on the transmitter’s PW A that you can position to allow read and write access or read only access to the transmitter’s configuration database. W hen the jumper is in the read only posi[...]

2.6 Setting Range Values Using Local Adjustments Local zero and span option For transmitter applications that do not require an SFC nor digital integration with Honeywell’s TPS systems, ST 3000 transmitters are available with optional local zero and span adjustments. About local adjustments The transmitter’s range values can be set by using the[...]

Section 3 —Preinstallation Considerations 3.1 Considerations for ST 3000 Transmitter Evaluate conditions The ST 3000 transmitter is designed to operate in comm on indoor industrial environments as well as outdoors. To assure optimum performance, evaluate these conditions at the mounting area relative to published transmitter specifications and ac[...]

3.1 Considerations for ST 3000 Transmitter, Continued Temperature limits Table 5 lists the operating temperature limits for the various types of transmitters with silicone fill fluids. See transm itter specifications for temperature limits of transmitter with alternative fill fluids. Table 5 Operating Temperature Limits (Transm itters with Silicone[...]

3.1 Considerations for ST 3000 Transmitter, Continued Pressure ratings Table 6 lists maximum working pressure for a given transmitter Upper Range Limit (URL). The maximum allowable working pressure (MAWP) is the pressure used for the approval body safety calculations. Table 6 Transmitter Maximum Allowable Working Pressure (MAWP) Ratings Transmitter[...]

3.2 Considerations for SFC/SCT Install SFC battery pack If the SFC battery pack was removed for shipping and/or storage, you will have to install the battery pack and charge the batteries before you can operate the SFC. The procedure in Table 7 outlines the steps for the battery pack. Table 7 Installing and Charging SFC Battery Pack Step Action 1 T[...]

3.2 Considerations for SFC/SCT, Continued Install SFC battery pack, continued Table 7 Installing and Charging SFC Battery Pack, Continued Step Action 5 Plug battery charger into any standard 120 Vac outlet or universal- European 240 Vac outlet as applicable for charger power rating. If 240 Vac charger is supplied with stripped leads instead of univ[...]

3.3 Considerations for Local Smart Meter Option Smart meter reference specifications If your ST 300 transmitter is equipped with a Local Smart Meter option, you may want refer to the design and operating specifications for this option. See Appendix A  Smart Meter Reference in the back of this guide. 22 ST 3000 Release 300 Installation Guide 2/05[...]

Section 4 —Installation 4.1 Mounting ST 3000 Transmitter Summary You can mount all transmitter m odels (except flush mount models and those with integral flanges) to a 2-inch (50 millim eter) vertical or horizontal pipe using our optional angl e or flat mounting bracket, or a bracket of your own. Flush mount models are m ounted directly to the pr[...]

4.1 Mounting ST 3000 Transmitter, Continued Dimensions Detailed dimension drawings for given transm itter series and types are listed in Section 5 for reference. Note that abbreviated overall dimensions are also shown in the specification sheets for the given transmitter models. This section assumes that the mounting dim ensions have already been t[...]

4.1 Mounting ST 3000 Transmitter, Continued Bracket mounting, continued Table 8 Mounting ST 3000 Transm itter to a Bracket, continued Step Action 3 Align appropriate mounting holes in transmitter with holes in bracket and secure with bolts and washers provided. If transmitter is … Then … DP type with double-ended use alternate mounting process [...]

4.1 Mounting ST 3000 Transmitter, Continued Bracket mounting, continued Table 8 Mounting ST 3000 Transm itter to a Bracket, continued Step Action 4 Loosen set screw on outside neck of transmitter one full turn. Rotate Transmitter housing in maximum of 180 degree increment in left or right direction from center to position you require and tighten se[...]

4.1 Mounting ST 3000 Transmitter, Continued ATTENTION The mounting position of a model STA122 or STA922 Absolute Pressure Transmitter or a model STD110 Draft Range Differential Pressure Transmitter is critical as the transmitter spans becom e smaller. A maximum zero shift of 2.5 mm Hg for an absolute transm itter or 1.5 in H 2 O for a draft range t[...]

4.1 Mounting ST 3000 Transmitter, Continued Precautions for Mounting Transmitters w ith Small Absolute or Differential Pressure Spans, continued For a transmitter with a small differential pressure span, you m ust ensure that the transmitter is vertical when mounting it. You do this by leveling the transmitter side-to-side and front-to-back. See Fi[...]

4.1 Mounting ST 3000 Transmitter, Continued Flange mounting To mount a flange mounted transmitter m odel, bolt the transmitter’s flange to the flange pipe on the wall of the tank. ATTENTION On insulated tanks, remove enough insulation to accomm odate the flange extension. Figure 7 shows a typical installation for a transmitter with the flange on [...]

4.1 Mounting ST 3000 Transmitter, Continued Flush mounting To mount a flush mounted transm itter model, cut a hole for a 1-inch standard pipe in the tank or pipe where the transmitter is to be mounted. Weld the 1-inch mounting sleeve to the wall of the tank or to the hole cut on the pipe. Insert the meter body of the transmitter into the mounting s[...]

4.1 Mounting ST 3000 Transmitter, Continued High Temperature Transmitter Mounting You can mount the high temperature transm itter directly to the process flange connection or the process piping. Figure 9 shows typical pipe and flange mounted transmitter installations for com parison. To mount a flange mounted transm itter model, bolt the transmitte[...]

4.1 Mounting ST 3000 Transmitter, Continued Remote seal mounting Use the procedure in Table 10 to mount a remote diaphragm seal transmitter model. Figure 10 shows a typical installation f or a remote diaphragm seal transmitter f or reference. ATTENTION Mount the transmitter flanges within the limits stated here for the given fill-fluid in the capil[...]

4.1 Mounting ST 3000 Transmitter, Continued Remote seal mounting, continued Table 10 Mounting Remote Diaphragm Seal Transmitter, continued Step Action 3 If Transmitter Model Then Connect Remote Number is… Seal on… STR93D or STR12D low pressure (LP) side of transmitter to upper flange mounting on tank wall for fixed or constant head H2. STR13D h[...]

4.2 Piping ST 3000 Transmitter Summary The actual piping arrangement will vary depending upon the process measurement requirem ents and the transmitter model. Except fo r flanged and remote diaphragm seal connections, process connections are made to ¼ inch or ½ inch NPT female connections in the process head of the transmitter’s meter body. For[...]

4.2 Piping ST 3000 Transmitter, Continued Piping Arrangements, continued Another piping arrangement uses a block-off valve and a tee connector in the process piping to the transmitter as shown in Figure 12. Figure 12 Typical Arrangement for ½” NPT Process Connection Piping Block-off Valve 1/2" NPT Connect ion Tan k W a ll Transmitter locati[...]

4.2 Piping ST 3000 Transmitter, Continued ATTENTION Care must be taken when installing transm itters on hot processes. The operating temperature limits for the device (as listed in Table 6) m ust not be exceeded. Impulse piping may be used to reduce the tem perature of the process that comes into contact with the transmitter m eter body. As a gener[...]

4.2 Piping ST 3000 Transmitter, Continued Flange descriptions Table 13 describes the available flange connections for flange mounted liquid level transmitters. Table 13 Flange Description Transmitter Type Description Flush or Extended Diaphragm 2-inch 150# serrated–face flange with 4 holes 19 mm (3/4 in) diameter on 120.7 mm (4.75 in) diameter bo[...]

4.2 Piping ST 3000 Transmitter, Continued Installing flange adapter Table 14 gives the steps for an optional flange adapter on the process head. ATTENTION Slightly deforming the gasket supplied with the adapter before you insert it into the adapter may aid in retaining the gasket in the groove while you align the adapter to the process head. To def[...]

4.3 Wiring ST 3000 Transmitter Summary The transmitter is designed to operate in a two-wire power/current loop with loop resistance and power supply voltage within the operating range shown in Figure 13. Figure 13 Operating Range for ST 3000 Transmitters. 0 10.8 16.28 20.63 25 28.3 3 7.0 42.4 250 450 650 800 1200 1440 O p erati ng V oltage (V dc) =[...]

4.3 Wiring ST 3000 Transmitter, Continued Summary, continued Barriers can be installed per m anufacturer’s instructions for transmitters to be used in intrinsically safe applications. Figure 14 ST 3000 Transmitter Terminal Block - S I G N A L + + - T E S T Termin al Block El ectroni c s Hous ing Internal Gr ound Termin al 3-Screw Terminal Block +[...]

4.3 Wiring ST 3000 Transmitter, Continued Wiring connections The procedure in Table 15 shows the steps for connecting power to the transmitter. For loop wiring and external wiring diagrams, refer to the installation drawings presented in Section 5. Detailed drawings are provided for transmitter installation in non-intrinsically safe areas and for i[...]

4.3 Wiring ST 3000 Transmitter, Continued Approval body requirements If your transmitter was ordered with Table III option 3N for self- declared approval per 94/9/EC (ATEX4), you must use a power supply that includes a voltage limiting device that will keep the voltage to the transmitter from exceeding 42 Vdc. You can achieve this by using a batter[...]

4.3 Wiring ST 3000 Transmitter, Continued Conduit seal Transmitters installed as explosionproof in a Class I, Division 1, Group A Hazardous (Classified) Location in accordance with ANSI/NFPA 70, the US National Electrical Code (NEC), require a “LISTED” explosionproof seal to be installed in the conduit, within 18 inches of the transmitter. Crou[...]

4.3 Wiring ST 3000 Transmitter, Continued Existing meter connections Existing analog meters and SM 3000 Smart Meters can be connected to Release 300 transmitters. Examples of each m eter type are shown below. Analog Meter 8 0 1 0 0 6 0 4 0 2 0 0 % 10 2 4 6 8 1 0 Analog Meter Connections —You can connect the analog meter (2-wires) integrally to Re[...]

Section 5 —Reference Drawings 5.1 Wiring Diagrams and Dimension Drawing List Contents This section contains external wiring diagrams for guidance in wiring the transmitter and remote m eters in hazardous and nonhazardous locations. Tables listing the available dimension drawings for ST 3000 transmitters are provided for reference. External Wiring[...]

5.1 Wiring Diagrams and Dimension Drawings, Continued Dimension Draw ings The tables on the following pages list available dimension drawings for reference. If you need a copy of a drawing, please determine the appropriate drawing number from the following tables and contact your Honeywell representative to obtain a copy. Dimension Draw ings - Seri[...]

5.1 Wiring Diagrams and Dimension Drawings, Continued Dimension Draw ings - Series 100 and Series 900, Continued Transmitter Type and Table Mounting Drawing Key Number Selections Angle Bracket (MB), (SB) Flat Bracket (FB) Number Vertical Pipe Horizontal Pipe Vertical Pipe Horizontal Pipe Gauge and Absolute Pressu re STG944, STG974 See Key Number 51[...]

5.1 Wiring Diagrams and Dimension Drawings, Continued Dimension Draw ings – Series 100 and Series 900, Continued Transmitter Type and Table Mounting Drawing Key Number Selection s Number Flange Mount STF128, ST F132 Table II (Flush) 0_1F0, 0_2F0, 0_3F0 – 51500404 Table II (Ext ended) 0_5_0 – 51500405 Table I Z_ _ (Sanitary) Table II 0S0_0 –[...]

Transmitter Type and Table Mounting Drawing Key Number Selections Angle Bracket (MB), (SB) Flat Bracket (FB) Number Vertical Pipe Horizontal Pipe Vertical Pipe Horizontal Pipe Remote Seals STR14A** – 51500415 51500413 ⇐ – 51500414 51500412 ⇐ STR12D**, ST R13D** Table I 2_ _ 51500399 51500397 ⇐ 51500398 51500396 ⇐ Table I 51500403 515004[...]

5.1 Wiring Diagrams and Dimension Drawings, Continued Dimension Draw ings - Series 100 and Series 900, Continued Transmitter Type and Key Number Table Selections Mounting Draw ing Number **STR_ _ _ Table II Flush Flange 3.5” diaphragm _ _ _A_ _ _ _ _ _ _ _ – 51305141-000 Off Line Flange 2.4” diaphragm _ _ _B _ _ _ _ _ _ _ 51305138-000 Off Lin[...]

Appendix A  Smart Meter Reference A.1 Introduction Smart Meter Option Depending upon your transmitter model, you can equip the ST 3000 transmitter with the Smart Meter option (option SM). This new integral smart meter is designed for ST 3000 Release 300 Transm itters and provides functionality not available with other smart m eter designs. The s[...]

A.2 Smart Meter Display Display description Figure A-1 shows a smart meter display with all its indicators and segments lit for reference. Table A-1 shows a smart meter with the pushbuttons highlighted and a brief description of each pushbutton. The pushbuttons are used for setting up the smart meter display and m aking zero and span adjustments. F[...]

A.3 Smart Meter Specifications Operating Conditions and Specifications Before installing a transmitter equipped with a sm art meter or installing the smart meter in an existing transm itter, please note the specifications and operating limits of the meter in Table A-2. Table A-2 Smart Meter Specifications. Operating Conditions ————— Param[...]

A.4 Setting Range Values (Local Zero and Span) Local zero and span option ST 3000 Release 300 transmitters are available with optional local zero and span adjustments. This option is for applications that do not require an SFC nor digital integration with our TPS system. About local adjustments You must apply equivalent zero and span pressures to m[...]

A.4 Setting Range Values (Local Zero and Span), Continued Procedure, continued Table A-3 Setting Range Values Using Local Zero and Span Adjustments, Continued Step Action 3 Loosen end-cap lock and remove end-cap from PWA side of electronics housing to expose local zero and span assembly or smart meter with zero and span adjustments. Example – Loc[...]

A.4 Setting Range Values (Local Zero and Span), Continued Procedure, continued Table A-3 Setting Range Values Using Local Zero and Span Adjustments, Continued Step Action 4 Turn ON transmitter power and let it warm up for a few minutes. Using an accurate pressure source, apply desired zero equivalent pressure to transmitter. ATTENTION For different[...]

A.4 Setting Range Values (Local Zero and Span), Continued Procedure, continued Table A-3 Setting Range Values Using Local Zero and Span Adjustments, Continued Step Action 7 Using an accurate pressure source, apply pressure equivalent to desired upper range value to transmitter. ATTENTION For differential pressure transmitters, apply pressure to the[...]

A.4 Setting Range Values (Local Zero and Span), Continued Procedure, continued Table A-3 Setting Range Values Using Local Zero and Span Adjustments, Continued Step Action 10 Wait 30 seconds so that changes have been copied to the transmitter’s non-volatile memory. 11 Remove applied pressure and turn OFF transmitter power. 12 Replace end-cap on PW[...]

A.5 Configuring Smart Meter Using Pushbuttons Using Pushbuttons on Meter to Configure Smart Meter Display The smart meter can be set to show the PV out in engineering units that are appropriate for your process application. You can select an available engineering unit or enter a custom one including upper and lower display limit settings for the sm[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Transmitter Output Conformity and Smart Meter Configuration, continued • If you select pressure type engineering units, you cannot set the lower or upper display limits. These values are automatically set when you select the engineering units. • You can set only the upper display limit wh[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Selecting Engineering Units The procedure in Table A-5 outlines the steps for selecting the desired engineering units for a smart meter using its local adjustm ents on the face of the meter. You will be selecting the unit of measurement that you want the smart meter to indicate during normal [...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Selecting Engineering Units, continued Table A-5 Selecting Engineering Units, continued Step Action Meter Display 4 Press UNITS SET button to lock in selected code. ATTENTION If you select an invalid code according to the selections in Step 3, the meter display will show an error code Er1 for[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting Low er and Upper Display Values The Table A-6 shows the restrictions on setting the display values for given engineering units and output conformity selections. Table A-6 Smart Meter Restrictions for Setting Display Values Engineering Output Set Units code Conformity Low er Display Va[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting Low er Display Values, continued Table A-7 Setting Lower Display Values for Smart Meter Display Step Action Meter Display 1 You have completed units selection in Table A-5 and U-L appears on the display. Press LOWER VALUE button to initiate lower display limit setting function. ATTENT[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting Low er Display Values, continued Table A-7 Setting Lower Display Values for Smart Meter Display, continued Step Action Meter Display 3 Press Increase  button to call up next available magnitude range selection or Decrease  button to call up previous magnitude range selection. NO[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting low er display values, continued Table A-7 Setting Lower Display Values for Smart Meter Display, continued Step Action Meter Display 5 Press Increase  button to select the next available digit value or Decrease  button to select the previous digit value. Repeat this action until[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting low er display values, continued Table A-7 Setting Lower Display Values for Smart Meter Display, continued Step Action Meter Display 9 Press Increase  button to select the next available digit value or Decrease  button to select the previous digit value. Repeat this action until[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting Upper Display Values The procedure in Table A-8 outlines the steps for setting the upper display limit to represent the 100 percent (URV) output of the transmitter. ATTENTION This procedure applies only for Flow units (GPM or GPH) in a transmitter configured for SQUARE ROOT output con[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting Upper Display Values, continued Table A-8 Setting Upper Display Value for Smart Meter Display, continued Step Action Meter Display 3 Press Increase  button to call up next available magnitude range selection or Decrease  button to call up previous magnitude range selection. NOTE[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting Upper Display Values, continued Table A-8 Setting Upper Display Value for Smart Meter Display, continued Step Action Meter Display 5 Press Increase  button to select the next available digit value or Decrease  button to select the previous digit value. Repeat this action until d[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting Upper Display Values, continued Table A-8 Setting Upper Display Value for Smart Meter Display, continued Step Action Meter Display 8 Press UPPER VALUE button to loc k-in second digit and activate next active digit. Readout now displays next active digit which will be zero unless upper[...]

A.5 Configuring Smart Meter Using Pushbuttons, Continued Setting Upper Display Values, continued Table A-8 Setting Upper Display Value for Smart Meter Display, continued Step Action Meter Display 12 Press UPPER VALUE button to lock-in “1” digit and activate sign segment. 13 Press Increase  button to set sign segment to minus sign for negativ[...]

A.6 Configuring Smart Meter Using SFC Using the SFC to Configure the Smart Meter Display You can select an available engineering unit or enter a custom one including upper and lower limit settings for the smart m eter’s digital readout using the SFC. Transmitter Output Conformity and Smart Meter Configuration Normally when using a differential ty[...]

A.6 Configuring Smart Meter Using SFC, Continued Transmitter Output Conformity and Smart Meter Configuration, continued • You can set both the lower and upper display limits when you have selected custom engineering units (Custom) and the transmitter output conform ity is set to LINEAR . When setting the lower and upper display limits, if you let[...]

A.6 Configuring Smart Meter Using SFC, Continued Procedure, continued Table A-9 Setting Up Smart Meter Configuration Using an SFC, continued Step Press Key Read Display or Action Description 3 ENTER (YE S ) NO N -V OL SC FO W RK N I. G. . C Me n tr o ef ig Pe rt s en Me t r e C Me n tr o ef ig Bd Enters meter configuration function and confirms tha[...]

A.6 Configuring Smart Meter Using SFC, Continued Procedure, continued Table A-9 Setting Up Smart Meter Configuration Using an SFC, continued Step Press Key Read Display or Action Description 5 ENTER (YE S ) NO N -V OL ME NU ITEM I DEC ONF "2 H9 O _ 3 E Me g tr n eU ni F ts MmHg_0C PSI KPa MPa mBAR BAR g/cm^2 Kg/cm^2 mmH2O_4C inHg_32F mH2O_4C G[...]

A.6 Configuring Smart Meter Using SFC, Continued Procedure, continued Table A-9 Setting Up Smart Meter Configuration Using an SFC, continued Step Press Key Read Display or Action Description 7 ENTER (YE S ) NO N -V OL SC FO W E Me g tr n eU ni R ts KN I. G. . Dt ao D E Me g tr n eU ni ts wn o le ad d a SC FO W EH i -o L g nU ni R ts KN I. G. . R &g[...]

A.6 Configuring Smart Meter Using SFC, Continued Procedure, continued Table A-9 Setting Up Smart Meter Configuration Using an SFC, continued Step Press Key Read Display or Action Description 11 ENTER (YE S ) NO N -V OL EL o C Uu st om ET NR E ED N IF C S ET NR E E L g nU ni ts CH N AS G? E H i - o Enters lower display limit in SFC and prompt asks i[...]

A.7 Configuring Smart Meter Using SCT 3000 Using the SCT to Configure Smart Meter Display You can select an available engineering unit or enter a custom one including upper and lower limit settings for the smart m eter’s digital readout using the SCT 3000. To configure the smart meter using the SCT, click on the Local Meter tab in the ST 3000 dev[...]

A.8 Typical Smart Meter Indications Typical operation indications Table A-10 summarizes typical sm art indications. meter Note that other combinations of status messages are possible. Table A-10 Summary of Typical Sm art Meter Indications. Meter Indication What It Means Meter Indication What It Means % 100 0 No power applied. % 100 0 -- - Meter has[...]

A.8 Typical Smart Meter Indications, Continued Operation error codes Table A-11 identifies possible meter error codes and what they mean. Table A-11 Smart Meter Error Codes and Descriptions. If error indication is . . . Then, it means % 100 0 Er ANALOG % 0 UPPER VALUE UNIT S LOWE R VALUE SET VAR SEL. You have tried to set local Zero or Span adjustm[...]

A.8 Typical Smart Meter Indications, Continued Operation error codes, continued Table A-11 Smart Meter Error Codes and Descriptions, continued. If error indication is . . . Then, it means % 100 0 Er ANALOG % 4 UPPER VALUE UNIT S LOWE R VALUE SET VAR SEL. You have tried to set a span value that is outside acceptable limits for your transmitter. % 10[...]

Appendix B —Hazardous Locations Reference Reference Information Information is provided to clarify the Hazardous Location installation requirements in North America and internationally. An explanaition of the applicalbel enclosure classification systems is also provided. B.1 North American Classification of Hazardous Locations Electrical Codes In[...]

B.1 North American Classification of Hazardous Locations, Continued Examples Given the above criteria, the following examples are made: • A Class III, Division 1 location is a location in which easily ignitable fibers or material processing combustible flyings are handled, manufactured or used. • A Class III, Division 2 location is a location i[...]

B.1 North American Classification of Hazardous Locations, Continued Methods of Protection The following table summarizes available m ethods of protection for use in given locations. Protection Concept Designation Permitted Use Principle Explosionproof XP Division 1 & 2 Contains explosion and quenches flame. Intrinsic Safety IS Division 1 & [...]

B.1 North American Classification of Hazardous Locations, Continued Apparatus Parameters The Intrinsically Safe Apparatus Parameters are defined as follows. Parameter Description Vmax Maximum safe voltage which can be applied to the apparatus terminals. Imax Maximum safe current which can be applied to the apparatus terminals. Ci Unprotected capaci[...]

B.1 North American Classification of Hazardous Locations, Continued Entity Concept Under entity requirements, the concept allows interconnection of intrinsically safe apparatus to associated apparatus, not specifically examined in such combination. The criteria for interconnection is that the voltage (Vmax ) and current (Imax ), which intrinsically[...]

B.1 North American Classification of Hazardous Locations, Continued Table B-1 Factory Mutual (FM) Approval, Continued Intrinsic Safety Entity Parameters (1) Class I, II, III , Divisions 1 and 2, Groups A - G V Max ≤ 42.4 V I Max = 225 mA P Max = 1.2 W C i = 4.2 nF L i = 0 With no integral indicator, or with integral Smart Meter, option SM. L i = [...]

B.2 International Electrotechnical Commission (IEC) Classification of Hazardous Locations About IEC The IEC has established a number of recomm endations applying to the construction of explosion protected electrical apparatus identified. These recommendations are found within IEC 79-0 through 79-15 and 79-28. For all EC countries as well as various[...]

B.2 International Electrotechnical Commission (IEC) Classification of Hazardous Locations, Continued IEC Methods of Protection The following table summarizes available m ethods of protection for use in given locations. Protection Concept Designation Permitted Use Principle Flameproof d Zone 1 & 2 Contains explosion and quenches flame. Intrinsic[...]

B.2 International Electrotechnical Commission (IEC) Classification of Hazardous Locations, Continued IEC Temperature Classification Equipment intended for installation directly within the hazardous location must also be classified for the maxim um surface temperature that can be generated under normal or fault conditions as referenced to the maximu[...]

B.2 International Electrotechnical Commission (IEC) Classification of Hazardous Locations, Continued Certification and Conformity Details, continued Table B-4 Standards Australia (LOSC) Certification Code Description 4H Intrinsically Safe Ex ia IIC T4 Class I Zone 0. Flameproof Ex d IIC T6 Class I Zone 1 Non-Sparking Apparatus - Type of Protection [...]

B.3 Enclosure Ratings NEMA and IEC Recognition The NEMA (National Electrical Manufacturer’s Association) enclosure classifications are recognized in the US. The IEC Publication 529 Classifications are recognized throughout Europe and those parts of the world that use the IEC standards as a basis for product certifications. The following paragraph[...]

B.3 Enclosure Ratings , Continued IEC Designations, continued Table B-6 provides an approximate conversion from NEMA enclosure type numbers to IEC enclosure classification designations. The NEMA types meet or exceed the test requirements for the associated IEC classifications; for this reason the Table cannot be used to convert from IEC classificat[...]

Index 2/05 ST 3000 Release 300 Installation Guide 95 Flange mounted, 23 A Flat mounting bracket, 23 Flow engineering units Analog meter connections, 44 Smart meter, 58 Analog mode, 7 , 10 , 13 , 21 Flush mounted transmitter, 30 Angle mounting bracket, 23 G B Ground Barriers, 40 External ground, 42 Battery pack, SFC Ground terminal, 39 Installing an[...]

Index 96 ST 3000 Release 300 Installation Guide 2/05 R Remote seal mounting, 32 S Series designations, 2 Setting range values using local zero and span adjustments., 53 SFC Model STS103, 5 connecting, 5 SM 3000 Smart Meter connections, 44 Smart Field Communicator (SFC), 3 Smart meter Error codes, 80 Meter/transmitter interaction, 81 Typical display[...]

1 of 4 34-ST-99-15 Addendum 4/02 Addendum to ST 3000 Smart Transmitter Release 300 and SFC Smart Fiel d Communicator Model STS 103 Installation Guide 34-ST-33-39 Overvi ew Two new models have been added to the family of ST3000 Sm art Transmitters: Gauge Pressure Model STG19L Gauge Pressure Model STG99L. Each of these has an Upper Range Limit (URL) [...]

4/02 34-ST-99-15 Addendum 2 of 4 Additions to the User Manual The additions to User Manual 34-ST-33-39 that relate to the new Gauge Pressure transmitter models are given in Table 1 of this addendum . Use the information in Table 1 to reference and annotate your Installation Guide. Table 1 – Additions to the User Manual Page # in User Manual Sub-S[...]

3 of 4 34-ST-99-15 Addendum 4/02 Exhibit B –Additions to Table 6 Transmitter Type Upper Range Limit (URL) Maximum Working Pressure Rating Overpressure Rating Draft Range 10 inches H 2 O (25 mbar) 50 psi (3.5 bar) 50 psi (3.5 bar) (No overpressure protection is provided) Differential Pressure 400 inches H 2 O (1 bar) 3000 psi (210 bar) 3000 psi (2[...]

4/02 34-ST-99-15 Addendum 4 of 4 Exhibit C –Additions to Dimension Drawings Dimension Draw ings - Series 100 and Series 900, Continued Transmitter Type and Table Mounting Drawing Key Number Selections Angle Bracket (MB), (SB) Flat Bracket (FB) Number Vertical Pipe Horizontal Pipe Vertical Pipe Horizontal Pipe STG944, STG974 See Key Number 5150041[...]

10/04 34-ST-99-25 (Addendum to 33-S T-33-39) 1 of 4 ST 3000 Smart Transmitter Release 300 and Smart Field Communicator Model STS103 Transmitter Models : STD110, STD120, STD125, STD130, STD170, STD924, STD930 34-ST-99-25 10/04 Addendum (to Installation Guide 34-ST-33-39) Overvie w Replacement Meterbody a nd Heads T he ST 3000 Pressure Tran smitter, [...]

2 of 4 34-ST-99-25 (Addendum to 33-S T-33-39) 10/04 Additions to the Installation Guide The additions to Installatio n Guide 34-ST-33-39 that relate to the newly designed meter body and pr ocess heads are g iven in Table 1 of this addendum . Use the inform ation in Table 1 to re ference and an notate your Use r Manual. Table 1 – Additions to the [...]

10/04 34-ST-99-25 (Addendum to 33-S T-33-39) 3 of 4 Figure 1 ST 3000 Model STD110, STD120, STD125, STD130, STD17 0, STD924, STD930 (Rev S or greater)[...]

4 of 4 34-ST-99-25 (Addendum to 33-S T-33-39) 10/04 Dimension Drawings The follo wing table provides refe rences to dimension dra wings for newl y designed ST 3000 Pressure Transmitters (Revision S and greater). If you need a cop y of a drawing, pleas e determine th e appropriate drawing number from the following table and contact your Honeyw ell r[...]

10/04 34-ST-99-36 (Addendum to 34-S T-33-39) 1 of 10 ST 3000 Smart Pressure Transmitter, Release 300 and Smart Communicator Model STS 103 34-ST-99-36 10/04 Addendum (to Installation Guide 34-ST-33-39) Overvie w ATEX Directive 94/6/EC The ATEX Directive 94/6/EC is a European CE Mark dire ctive concerning pr oducts that are designed for use in potent[...]

2 of 10 34-ST-99-36 (Addendum to 34-ST-33 -39) 10/04 Purpose and Content of this Addendum This Addendum includes info rmation required under the ATEX Dir ective regarding: 1. The appearance and meaning of each certific ation mark (CE Mark) that appears on the label(s) affixed to the product. 2. Instructions for installation and use of the product. [...]

10/04 34-ST-99-36 (Addendum to 34-S T-33-39) 3 of 10 Marking, ATEX Directiv e Honeywell’s Model ST 3000 Smart Pres sure Transmitter, with the following nameplates attached, has bee n certified to comply with Directive 94/9/EC of the European Parliament and the Coun cil as published in the Official Journal of the European Communities No. L 100/1 o[...]

4 of 10 34-ST-99-36 (Addendum to 34-ST-33 -39) 10/04 Nameplate 51 452618-001, n A, 4-20 m A / DE, is mount ed on the enclo sure. The foll owing is a representation of this nameplate: Nameplate 50003885-001, 4-20 mA / DE, multiple certificatio n nameplate. The following is a representation of this nameplate:[...]

10/04 34-ST-99-36 (Addendum to 34-S T-33-39) 5 of 10 Specific Parameters for Intrinsic Safety Field wiring terminals, ( + , – ): Without local analog meter, ME: With local analog meter, ME: With local smart di gital meter, SM: Ui = 30 V, Ii = 100 mA, Pi = 1.2 W Ci = 4.2 nF, Ri = 0, Li = 0 Ci = 4.2 nF, Ri = 0, Li = 150 µH Ci = 4.2 nF, Ri = 0, Li [...]

6 of 10 34-ST-99-36 (Addendum to 34-ST-33 -39) 10/04 Specific Parameters for Non-Sparking Zone 2 Installation (Honeywell certified) Supply Voltage: Supply Current: Ambient Temperate Limits: Temperature Classification: 11-42 Vdc 23 mA - 50 o C to 93 o C T6 at Ta ≤ 78 o C T5 at Ta ≤ 93 o C Special Conditions for Safe Use, Non-Sparking Zone 2 Inst[...]

10/04 34-ST-99-36 (Addendum to 34-S T-33-39) 7 of 10 51452504 , Revision B DECLARATION OF CONFORMITY ATEX 0344 We declare under our sole responsibility that th e following products, ST 3000 Smart Pressure Transm itters, Series 100 and 900, Release 300 (per attached list) to which this declaration relates, are in conformity with the protectio n requ[...]

8 of 10 34-ST-99-36 (Addendum to 34-ST-33 -39) 10/04 ST3000, R300 Pressure Transmitters Certificate Protection Model Description Factory LCIE 02 ATEX 6099 Ex II 2 G, EE x d IIC, T6 or T5 ST……-3D 4-20 mA / DE / HART / Fieldbus Phoenix LCIE 02 ATEX 6100X Ex II 2 G, EEx ia IIC, T6 to T4 ST……- 3S 4-20 mA / DE Phoenix LCIE 02 ATEX 6101X Ex II 1 [...]

10/04 34-ST-99-36 (Addendum to 34-S T-33-39) 9 of 10 Certificate of Manufacturer II 3 G EEx nA IIC A TEX This certificate applies to the following equipment: ST 3000 Smart Pressure Transmitters, Series 100 and 900, Release 100 an d 900, 4-20 mA, DE, HART, and FOUNDATION TM Fieldbus (per attached list) This equipm ent has no arcing or spar king part[...]

10 of 10 34-ST-99-36 (Addendum to 3 4-ST-33-39) 10/04 ST3000, R300 Pressure Transmitters Model Series Description STA122 100 Absol ute Pressure Transmitter STA140 100 Absol ute Pressure Transmitter STD110 100 Differential Pressure Transmitter STD120 100 Differential Pressure Transmitter STD125 100 Differential Pressure Transmitter STD130 100 Differ[...]

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Industrial Measurement and Control Honeywell International, Inc. 2500 W. Union Hills Drive Phoenix, Arizona 85027[...]