Honeywell Tdc 3000 Fta Manuals

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Honeywell Tdc 3000 Manuals
Honeywell Tdc3000
Honeywell Tdc 3000 Fta Manuals Download

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4.2Mounting ST 3000 Transmitter, Continued

Dimensions	Detailed dimension drawings for given transmitter series and types are
listed in the back of the Installation Guide (Part number 34-ST-33-39)
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 dimensions have already been
taken into account and the mounting area can accommodate the
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Bracket mounting	Table 9 summarizes typical steps for mounting a transmitter to a
bracket.
Table 9		Mounting ST 3000 Transmitter to a Bracket
Step	Action
1
If you are using an…	Then…
optional mounting bracket	go to Step 2.
existing mounting bracket	go to Step 3.

2Position bracket on 2-inch(50.8 mm) horizontal or vertical pipe, and install “U” bolt around pipe and through holes in bracket. Secure with nuts and lockwashers provided.

Example - Angle mounting bracket secured to horizontal or vertical pipe.

Nuts and

Nuts and Lockwashers

Lockwashers

Mounting

Bracket

U-Bolt	Mounting
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Horizontal Pipe

Vertical Pipe

U-Bolt

Continued on next page

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.2Mounting ST 3000 Transmitter, Continued

Bracket mounting,
continued	Table 9	Mounting ST 3000 Transmitter 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 heads and/or	holes in end of heads.
remote seals
GP and AP with single-	use mounting holes in side
ended head	of meter body.
In-lineGP and AP	use smaller “U” bolt
(STGxxL and STAxxL)	provided to attach meter It's free, and open source. And Jigsaw, also owned by Alphabet, used to be called Google Ideas. Alphabet is the holding company that owns Google. So while Jigsaw might not be a household name, there's certainly some serious commitment and money behind the product.The product in question is called Outline. You'll find it at. Vpn server free download.
body to bracket.
See figure below.
Dual-headGP and AP	use mounting holes in end
of process head.

Example – Inline model transmitter mounted to optional angle mounting bracket.

Inline models

Meter Body

Smaller

“U” bolt

Use bracket for hexagonal meter body

NOTE: If the meter body is hexagonal, you must use the additional bracket supplied. If meter body is round, discard the

bracket.

Continued on next page

ST 3000 Release 300 and SFC Model STS103 User’s Manual

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4.2Mounting ST 3000 Transmitter, Continued

Bracket mounting,

continued

Table 9

Mounting ST 3000 Transmitter to a Bracket, continued

Loosen set screw on outside neck of transmitter one full turn. Rotate

electronics housing a maximum of 180 degrees in left or right

direction from center to the position you require and tighten set screw

(13 to 15 lb-in/1.46to 1.68 N.m).

Example - Rotating electronics housing.

Electronics

180 degrees

Housing

180 degrees

max.

Set Screw

ATTENTION The metric socket head wrench kit supplied with the SFC includes 2.5, 3, and 4mm size wrenches. You will need the 4mm size wrench for the outside set screw.

Continued on next page

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.2Mounting ST 3000 Transmitter, Continued

ATTENTION	The mounting position of a model STA122, STA922, STA12L, or
STA92L Absolute Pressure Transmitter or a model STD110 Draft
Range Differential Pressure Transmitter is critical as the transmitter
spans become smaller. A maximum zero shift of 2.5 mm Hg for an
absolute transmitter or
1.5 inH2O for a draft range transmitter can result from a mounting
position which is rotated 90 degrees from vertical. A typical zero shift of
0.12 mm Hg or 0.20 in H2O can occur for a 5 degree rotation from
vertical.

Precautions for Mounting Transmitters with Small Absolute or Differential Pressure Spans

To minimize these positional effects on calibration (zero shift), take the appropriate mounting precautions that follow for the given transmitter model.

For a model STA122, STA922, STA12L, or STA92L transmitter, you must ensure that the transmitter is vertical when mounting it. You do this by leveling the transmitter side-to-sideandfront-to-back.See Figure 9 for suggestions on how to level the transmitter using a spirit balance.

Figure 9 Leveling an Absolute Pressure Transmitter.

Leveling Absolute Pressure models

Center

Section

Process

Head

Position spirit balance on center section of meter body only.

Cont’d

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4.2Mounting ST 3000 Transmitter Continued

Figure 9 Leveling an Absolute Pressure Transmitter (cont’d)

Leveling Inline models

Mount transmitter vertically to assure best accuracy. Position spirit balance on pressure connection surface of AP body.

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.2 Mounting ST 3000 Transmitter, Continued

Precautions for Mounting Transmitters with Small Absolute or Differential Pressure Spans, continued

For a transmitter with a small differential pressure span, you must ensure that the transmitter is vertical when mounting it. You do this by leveling the transmitter side-to-sideandfront-to-back.See Figure 9 for suggestions on how to level the transmitter using a spirit balance. You must also zero the transmitter by following the steps in Table 10 below.

Table 10		Zero Corrects Procedure for STD110
Step D- link router software download.	Action
1	Attach the transmitter to the mounting bracket but do not completely
tighten the mounting bolts
2	Connect a tube between the input connections in the high pressure
(HP) and low pressure (LP) heads to eliminate the affects of any
surrounding air currents.
3	Connect 24 Vdc power to the transmitter and connect a digital
voltmeter or SFC to read the transmitter’s output. See Figures 18
and 38 for typical SFC connection or connect a voltmeter across the
250 ohm resistor, if desired.
4	Use the SFC and establish communications with the transmitter.
Follow the steps in Table 17, if needed.
5	While reading the transmitter’s output on an SFC or a voltmeter,
position the transmitter so the output reading is at or near zero and
then completely tighten the mounting bolts.
6	Perform an input zero correct function using the SFC and following
the steps below. This corrects the transmitter for any minor error that
may occur after the mounting bolts are tightened.
7
	^
Initiate shift key selection. Press			SHIFT	key
			INPUT
			J
OUT-
Press	PUT	key. Read applied input pressure.
	RESET
COR-K
Press	RECT	key. Prompt asks if the applied input pressure equals
	zero input. If it is zero input, go to next keystroke. If it is not, press
[CLR] key to exit function and repeat keystrokes.
NON-VOL
ENTER
Press	(Yes)	key. Zero input is set equal to applied input pressure.
	8			Remove the tube from between the input connections, the power,
	and the digital voltmeter or SFC.
9	Continue with the remaining installation tasks.

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4.2 Mounting ST 3000 Transmitter, Continued

To mount a flange mounted transmitter model, bolt the transmitter’s flange to the flange pipe on the wall of the tank.

On insulated tanks, remove enough insulation to accommodate the flange extension.

Figure 10 shows a typical installation for a transmitter with the flange on the high pressure (HP) side so the HP diaphragm is in direct contact with the process fluid. The low pressure (LP) side of the transmitter is vented to atmosphere (no connection).

It is the End User’s responsibility to provide a flange gasket and mounting hardware that are suitable for the transmitter’s service condition.

To prevent degradation of performance in Flush-MountedFlanged Transmitters, exercise care to ensure that the internal diameter of the flange gasket does not obstruct the sensing diaphragm.

To prevent degradation of performance in Extended Mount Flanged Transmitters, ensure that there is sufficient clearance in front of the sensing diaphragm body.

Figure 10 Typical Flange Mounted Transmitter Installation

Attention: Dotted area indicates use with closed tank with reference leg.

Maximum Level

Variable	Reference
Head H1	Leg
Minimum Level

HP Side	LP Side vented
mounted	LP Side vented
to tank	to atmosphere
Continued on next page

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.2 Mounting ST 3000 Transmitter, Continued

To mount a flush mounted model, cut a hole for a 1” standard pipe in the tank or pipe where the transmitter is to be mounted. Weld the 1” 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 sleeve and secure with the locking bolt. Tighten the bolt to a torque of 6,4 Nm +/- 0,30 Nm (4.7 ft-lbs+/- 0.2ft.-lbs.).Figure 11 shows a typical installation for a transmitter with a flush mount on a pipe.

Once the transmitter is mounted, the electronics housing can be rotated to the desired position. See Table 9, Step 4 for details.

On insulated tanks, remove enough insulation to accommodate the mounting sleeve.

Figure 11 Typical Flush Mounted Transmitter Installation

1” Pipe Mount - 316 SS Weld Nipple (standard option)

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4.2 Mounting ST 3000 Transmitter, Continued

You can mount the High Temperature transmitter directly to the process flange connection or the process piping. Figure 12 shows typical pipe and flange mounted transmitter installations for comparison.

To mount a flange mounted transmitter model, bolt the transmitter’s flange to the flange on the wall of the tank or process pipe.

It is the End User’s responsibility to provide a flange gasket and mounting hardware that are suitable for the transmitter’s service condition.

Once the transmitter is mounted, the electronics housing can be rotated to the desired position. See Table 9, step 4.

On insulated tanks, remove enough insulation to accommodate the flange extension.

Figure 12 Typical Pipe and Flange Mounted Installations

Tank

Wall

Flange Transmitter

Connection Flange

Process Pipe

1/2' NPT

Connection

Continued on next page

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.2 Mounting ST 3000 Transmitter, Continued

Use the procedure in Table 11 to mount a remote diaphragm seal transmitter model. Figure 13 shows a typical installation for a remote diaphragm seal transmitter for reference.

Mount the transmitter flanges within the limits stated here for the given fill-fluidin the capillary tubes with a tank at one atmosphere.

IF the fill fluid is…	THEN mount the flange…
Silicone DC 200 Oil	no greater than 22 feet (6.7 meters)
below the transmitter
Silicone DC 704 Oil	no greater than 19 feet (5.8 meters)
below the transmitter
Chlorotrifluorethylene	no greater than 11 feet (3.4 meters)
below the transmitter.

NOTE: The combination of tank vacuum and high pressure capillary

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head effect should not exceed 9 psi (300 mm Hg) absolute.
Table 11			Mounting Remote Diaphragm Seal Transmitter
Step	Action
1	Mount transmitter at a remote distance determined by length of
capillary tubing.
2
	If Transmitter Model		Then Connect Remote
Number is…				Seal on…
STR93D or STR12D		high pressure (HP) side of
transmitter to lower flange
mounting on tank wall for
variable head H1.
STR13D		low pressure (LP) side of
transmitter to lower flange
mounting on tank wall for
variable head H1.
ATTENTION		On insulated tanks, remove enough insulation to
accommodate the flange extension.
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4.2 Mounting ST 3000 Transmitter, Continued

Table 11	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		high pressure (HP) side of
transmitter to upper flange
mounting on tank wall for
fixed or constant head H2.
ATTENTION		On insulated tanks, remove enough insulation to
accommodate the flange extension.
4	It is the End User’s responsibility to provide a flange gasket and
mounting hardware that are suitable for the transmitter’s service
condition
Figure 13				Typical Remote Diaphragm Seal Transmitter Installation.

LP Side

-Model STR93D

-Model STR12D

HP Side
- Model STR13D
Maximum Level
H2	Variable
Fixed	Variable
Ref. Leg	Head H1
Minimum Level

HP Side

-Model STR93D

-Model STR12D

LP Side

- Model STR13D

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.3Piping ST 3000 Transmitter

Piping arrangements The actual piping arrangement will vary depending upon the process measurement requirements and the transmitter model. Except for 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 example, a differential pressure transmitter comes withdouble-endedprocess heads with ¼ inch NPT connections but they can be modified to accept ½ inch NPT through optional flange adapters. Some gauge pressure transmitters may have a ½ inch NPT connection which mounts directly to a process pipe.

The most common type of pipe used is ½ inch schedule 80 steel pipe. Many piping arrangements use a three-valvemanifold to connect the process piping to the transmitter. A manifold makes it easy to install and remove or rezero a transmitter without interrupting the process. It also accommodates the installation ofblow-downvalves to clear debris from pressure lines to the transmitter.

Figure 14 shows a diagram of a typical piping arrangement using a three-valvemanifold andblow-downlines for a differential pressure transmitter being used to measure flow.

Figure 14 Typical 3-ValveManifold andBlow-DownPiping Arrangement.

To Downstream Tap

To Upstream Tap

Blow-Down	3-Valve	Blow-Down
Valve	Manifold	Valve
Blow-Down	Blow-Down
Piping	Piping
To Low Pressure	To High Pressure
Side of Transmitter	Side of Transmitter

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Continued on next page

ST 3000 Release 300 and SFC Model STS103 User’s Manual

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4.3Piping ST 3000 Transmitter, Continued

Piping arrangements,

Another piping arrangement uses a block-offvalve and a tee connector in

continued

Siemens nx software download. the process piping to the transmitter as shown in Figure 15.

Figure 15

Typical Piping Arrangement for ½” NPT Process Connection

Tank Wall

1/2' NPT

Connection

Block-offValve

Transmitter location			Table 12 lists the mounting location for the transmitter depending on the
process.
Table 12			Suggested Transmitter Location for Given Process
Process	Suggested Location	Explanation
Gases	Above the gas line	The condensate drains away from
the transmitter.
Liquids	1. Below but close to the	1. This minimizes the static head
elevation of the process	effect of the condensate.
connection.
2. Level with or above the	2. This requires a siphon to
process connection.	protect the transmitter from
process steam. The siphon
retains water as a “fill fluid.”
For liquid or steam, the piping should slope a minimum of 25.4 mm
			ATTENTION
(1 inch) per 305 mm (1 foot). Slope the piping down towards the
transmitter if the transmitter is below the process connection so the
bubbles may rise back into the piping through the liquid. If the
transmitter is located above the process connection, the piping should rise
vertically above the transmitter; then slope down towards the flowline
with a vent valve at the high point. For gas measurement, use a
condensate leg and drain at the low point (freeze protection may be
required here).
See Appendix B for some suggested freeze protection solutions.
6/08		ST 3000 Release 300 and SFC Model STS103 User’s Manual		39

Continued on next page

4.3Piping ST 3000 Transmitter, Continued

Care must be taken when installing transmitters on hot processes. The
				ATTENTION
operating temperature limits for the device (as outlined in Table 5) must
				not be exceeded. Impulse piping may be used to reduce the temperature
of the process that comes into contact with the transmitter meter body.
As a general rule there is a 56 degree C drop (100 degree F) in the
temperature of the process for every foot of ½ inch uninsulated piping.
Process connections Table 13 describes typical process connections for a given type of
transmitter.
Table 13			Process Connections
Transmitter Type		Process Connection
Differential	•	Process heads with 1/4-inchNPT female connection.
Pressure Ice Tower Balance Free is a perfect brain-twister to improve your attention skills! Icy tower app android. You shouldn’t miss this app!	•	Flange adapters and manifolds with 1/2-inchfemale
connection are optional.
• Models with pseudo flange on one side include 2- or 3-
inch ANSI class 150 flange.
Gauge Pressure		•	Process head with 1/2-inchNPT female connection
(Series 100).
• In-line1/2-inchNPT female connection (STGxxL).
• In-line½ inch NPT male
•	9/16 AMINCO
•	DIN 19213
• Process heads with 1/4-inchNPT female connection
(STG9x4).
• Flange adapters and manifolds with 1/2-inchfemale
connections are optional (STG9x4).
• 2-inchSanitaryTri-Clamp(STGxxT)
• Flush mount in 1-inchweld sleeve, withO-ringand
locking bolt (STGxxP).
Absolute Pressure		•	Process head with 1/2-inchNPT female connection.
(STAx22, x40).
• In-line½ inch NPT male
•	9/16 AMINCO
•	DIN 19213
Flange Mounted		•	Small flange 1/2-inch,1-,1 ½ - and2-inch(STFxxT)
Liquid Level	•	2, 3- or 4-inchflange with flush or2-,4- or6-inch
extended diaphragm (See Table 14) on high pressure
side.*
• DN 50, 80, or 100 PN 40 flange with flush or 2, 4 or 6
inch extended diaphragm (See Table 14) on High
Pressure Side*.
Remote	See Model Selection Guide for description of available
Diaphragm Seals		Flanged, Threaded, Chemical Tee, Saddle, and Sanitary
process connections.
* Reference side has standard differential pressure process head.
Continued on next page

ST 3000 Release 300 and SFC Model STS103 User’s Manual

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4.3Piping ST 3000 Transmitter, Continued

Flange descriptions		Table 14 describes the available flange connections for flange mounted
liquid level transmitters.
Table 14 Flange Description
Transmitter Type	Description
Flush or Extended	2-inch150#serrated–faceflange with 4 holes 19 mm (3/4 in) diameter on 120.7
Diaphragm	mm (4.75 in) diameter bolt circle and an outside diameter of 150 mm (5.91 in). It has plenty of great gameplay, beautiful graphics and oozes charm and atmosphere. Free download rayman 2 for mac.
2-inch150#serrated–faceflange with 8 holes 19 mm (3/4 in) diameter on 127 mm
(5.00 in) diameter bolt circle and an outside diameter of 165 mm (6.50 in).
3-inch150#serrated–faceflange with 4 holes 19 mm (3/4 in) diameter on 152.4
mm (6.00 in) diameter bolt circle and an outside diameter of 190 mm (7.48 in).
3-inch300#serrated–faceflange with 8 holes 22.2 mm (7/8 in) diameter on 168.3
mm (6.62 in) diameter bolt circle and an outside diameter of 210 mm (8.27 in).
4-inch150#serrated–faceflange with 4 holes 19 mm (3/4 in) diameter on 190.5
mm (7.50 in) diameter bolt circle and an outside diameter of 230 mm (9.05 in).
4-inch300#serrated–faceflange with 8 holes 22.2 mm (7/8 in) diameter on 255
mm (10.04 in) diameter bolt circle and an outside diameter of 200 mm (7.87 in).
DN 50 PN 40 serrated–faceflange with 4 holes 18 mm (0.71 in) diameter on 125
mm (4.92 in) diameter bolt circle and an outside diameter of 165 mm (6.50 in).
DN 80 PN 40 serrated–faceflange with 8 holes 18 mm (0.71 in) diameter on 160
mm (6.30 in) diameter bolt circle and an outside diameter of 200 mm (7.87 in).
DN 100 PN 40 serrated–faceflange with 8 holes 22 mm (0.87 in) diameter on 190
mm (7.48 in) diameter bolt circle and an outside diameter of 235 mm (9.25 in).
Pseudo Flange Head	2-inch,150 lbsserrated-faceflange with 4 holes 15.9 mm (5/8 in) diameter on
120.6 mm (4-3/4in) diameter bolt circle and an outside diameter of 152.4 mm (6
in).
3-inch,150 lbsserrated-faceflange with 4 holes 19 mm (3/4 in) diameter on 152
mm (6 in) diameter bolt circle and an outside diameter of 190 mm (7-1/2in).
Recording apps for mac. Flush Mount	25.4 mm (1” pipe mount) (316L SS standard option.)
Gauge STG93P

•When measuring fluids containing suspended solids, install permanent valves at regular intervals to blow-downpiping.

•Blow-downall lines on new installations with compressed air or steam and flush them with process fluids (where possible) before connecting these lines to the transmitter’s meter body.

•Be sure all the valves in the blow-downlines are closed tight after the initialblow-downprocedure and each maintenance procedure after that.

Continued on next page

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.3 Piping ST 3000 Transmitter, Continued

Table 15 gives the steps for an optional flange adapter on the process head.

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 deform the gasket, submerse it in hot water for a few minutes then firmly press it into its recessed mounting groove in the adapter.

Table 15 Installing Flange Adapter

Step

Action

1Insert filter screen (if supplied) into inlet cavity of process head.

2Carefully seat Teflon (white) gasket into adapter groove.

3Thread adapter onto 1/2-inchprocess pipe and align mounting holes in adapter with holes in end of process head as required.

4Secure adapter to process head by hand tightening 7/16-20hexhead bolts.

Example – Installing adapter on process head.

Process
Head
Filter Screen
Teflon Gasket
Flange Adapter
7/16 x 20 Bolts	21011

ATTENTION Apply ananti-seizecompound on the stainless steel bolts prior to threading them into the process head.

5Evenly torque flange adapter bolts to a torque of 27,1 Nm +/- 1,4 Nm (20 ft lbs +/- 1.0 ft lbs)

ST 3000 Release 300 and SFC Model STS103 User’s Manual

6/08

4.4Wiring ST 3000 Transmitter

Summary	The transmitter is designed to operate in a two-wirepower/current loop
with loop resistance and power supply voltage within the operating
range shown in Figure 16.
Figure 16	Operating Range for ST 3000 Transmitters.
1440

1200	= Operating
Area
Loop	NOTE: A minimum of
Loop	800	250 0hms of loop
Resistance	resistance is
(ohms)	necessary to support
(ohms)	650	communications. Loop
resistance equals	650	communications. Loop
barrier resistance plus
450	wire resistance plus
450	receiver resistance.
Also 45 volt operation	receiver resistance.
250	is permitted if not an
250	intrinsically safe
installation.
0	10.8	16.28	20.63 25	28.3	37.0	42.4
Operating Voltage (Vdc)				21012

Loop wiring is connected to the transmitter by simply attaching the positive (+) and negative (–)loop wires to the positive (+) and negative

(–)SIGNAL screw terminals on the terminal block in the transmitter’s electronics housing shown in Figure 17.

Each transmitter includes an internal ground terminal to connect the transmitter to earth ground. A ground terminal can be optionally added to the outside of the electronics housing. While it is not necessary to ground the transmitter for proper operation, we suggest that you do so to minimize the possible effects of “noise” on the output signal and provide additional protection against lightning and static discharge damage.

Note that grounding may be required to meet optional approval body certification. Refer to section 3.2 CE Conformity (Europe) Notice for special conditions.

Optional lightning protection (option LP) can be ordered for transmitters that will be installed in areas highly susceptible to lightning strikes. Figure 17 shows the 5-screwterminal block used when the lightning protection option is ordered.

Continued on next page

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.4Wiring ST 3000 Transmitter, Continued

Summary, continued		Barriers can be installed per manufacturer’s instructions for transmitters
to be used in intrinsically safe applications.
Figure 17	ST 3000 Transmitter Terminal Block
Terminal	Electronics	Terminal	Electronics
	Housing		Housing
Block		Block

+	SIGNAL	-	SIGNAL
SIGNAL-				+
-	+
+ - TEST	METER	L-	+	TEST
		-	-
+

Internal	Internal
Ground	Ground
Terminal	Terminal

3-ScrewTerminal Block		5-ScrewTerminal Block
Lightning Protection Option (LP)
TPS reference	Transmitters that are to be digitally integrated to Honeywell’s TPS
system will be connected to the Smart Transmitter Interface Module in
the Process Manager, Advanced Process Manager or High Performance
Process Manager through a Field Termination Assembly. Details about
the TPS system connections are given in the PM/APM Smartline
Transmitter Integration Manual PM12-410which is part of the TDC
3000X system bookset.
Allen-BradleyPLC	If you are digitally integrating the ST 3000 to an Allen Bradley PLC, the
same FTA and wiring procedures used with Honeywell’s TPS system

are also used with the Allen-Bradley1771 and 1746 platforms. For more information, contact:

ProSoft Technology, Inc. (800) 326-7066or http://www.psft.com

Continued on next page

ST 3000 Release 300 and SFC Model STS103 User’s Manual

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4.4 Wiring ST 3000 Transmitter, Continued

The procedure in Table 16 shows the steps for connecting power to the transmitter. For loop wiring and external wiring diagrams, refer to the installation drawings presented in Section 13. Detailed drawings are provided for transmitter installation in non-intrinsicallysafe areas and for intrinsically safe loops in hazardous area locations. If you are using the transmitter with Honeywell’s TPS system, see the previous TPS reference.

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ATTENTION	•	All wiring must comply with local codes, regulations, and
•	ordinances.
•	If you will be using the transmitter in a hazardous area, be sure to
review the hazardous location reference data included in Appendix
D of this manual before operating the transmitter.

Table 16 Wiring the Transmitter

Step

Action

1Loosen end-caplock using a 1.5 mm allen wrench and remove endcap cover from terminal block end of electronics housing.

2Feed loop power leads through one of conduit entrances on either side of electronics housing. Plug whichever entrance you do not use.

ATTENTION The transmitter accepts up to 16 AWG wire.

3Observing polarity, connect positive loop power lead to SIGNAL + terminal and negative loop power lead to SIGNAL – terminal. Example – Connecting loop power to transmitter.

5-screwterminal (option LP)

Loop
Power	SIGNAL	+	-	SIGNAL
+		-
+
-	METER	L	+	TEST
-		-
- +

4 Replaceend-cap,and tightenend-caplock.

Continued on next page

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ST 3000 Release 300 and SFC Model STS103 User’s Manual

4.4 Wiring ST 3000 Transmitter, Continued

If your transmitter was ordered with Table III option 3N for selfdeclared 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 battery as the supply or one of these voltage limiting means.

•Double wound mains transformer per BS 3535 or equivalent.

•An adequately rated zener diode whose voltage is not significantly higher than the rated voltage.

•An adequately rated semiconductor voltage regulator.

When your transmitter is equipped with optional lightning protection, you must connect a wire from the transmitter to ground as shown in Figure 18 to make the protection effective. We recommend that you use a size 8 AWG (American Wire Gage) or (8.37mm2) bare or green covered wire.

Figure 18 Ground Connection for Lightning Protection.

Honeywell Tdc 3000 Manuals

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