Emerson 5081-T Specifications

Instruction Sheet
PN 51A-5081T-FF/FI/rev.A
November 2005
Model 5081T-FF/FI
FOUNDATION Fieldbus® Two-Wire
Conductivity Transmitter
For additional information, please refer to the Instruction Manuals CD shipped with this
product, or visit our website at www.emersonprocess.com/raihome/liquid/.
ESSENTIAL INSTRUCTIONS
READ THIS PAGE BEFORE PROCEEDING!
Your purchase from Rosemount Analytical, Inc. has resulted in one of the finest instruments available for your particular application. These instruments have been
designed, and tested to meet many national and international standards. Experience indicates that its performance is directly related to the quality of the installation and
knowledge of the user in operating and maintaining the
instrument. To ensure their continued operation to the
design specifications, personnel should read this manual
thoroughly before proceeding with installation, commissioning, operation, and maintenance of this instrument. If
this equipment is used in a manner not specified by the
manufacturer, the protection provided by it against hazards may be impaired.
• Failure to follow the proper instructions may cause any
one of the following situations to occur: Loss of life; personal injury; property damage; damage to this instrument; and warranty invalidation.
• Ensure that you have received the correct model and
options from your purchase order. Verify that this manual covers your model and options. If not, call 1-800854-8257 or 949-757-8500 to request correct manual.
WARNING
Substitution of components may impair Intrinsic
Safety or suitability for Division 2.
• For clarification of instructions, contact your Rosemount
representative.
• Follow all warnings, cautions, and instructions marked
on and supplied with the product.
• Use only qualified personnel to install, operate, update,
program and maintain the product.
• Educate your personnel in the proper installation, operation, and maintenance of the product.
• Install equipment as specified in the Installation section
of this manual. Follow appropriate local and national
codes. Only connect the product to electrical and pressure sources specified in this manual.
• Use only factory documented components for repair.
Tampering or unauthorized substitution of parts and
procedures can affect the performance and cause
unsafe operation of your process.
• All equipment doors must be closed and protective covers must be in place unless qualified personnel are performing maintenance.
• If this equipment is used in a manner not specified by
the manufacturer, the protection provided by it against
hazards may be impaired.
WARNING
To prevent ignition of flammable or combustible
atmospheres, disconnect power before servicing
or understand and adhere to the manufacturer's
live maintenance procedures.
WARNING
Do not remove or replace while circuit is live
unless area is known to be non-hazardous.
WARNING
Explosion Hazard - Do not disconnect equipment
unless area is known to be non-hazardous.
MODEL 5081T-FF/FI
SPECIFICATIONS
PHYSICAL SPECIFICATIONS
HOUSING: Epoxy-polyester painted over low-copper aluminum. Neoprene O-rings on cover. 160.5 mm x 175.3
mm x 161.3 mm (6.3 in. x 6.9 in. x 6.4 in.)
DIAMETER: 155.4 mm (6.1 in.)
ELECTRICAL CONDUIT OPENINGS: 3/4 in. FNPT
POWER SUPPLY AND LOAD: A power supply voltage of
9 Vdc to 32 Vdc at 22 mA is required; Intrinsically Safe
installations may be limited to a maximum of 2-3
transmitters per node, depending on the barrier used.
LOCAL READOUT:
Main Display is 4 digits, 20 mm tall (0.8 in.)
Message Display is ten digits, 7 mm tall (0.3 in.)
AUTOMATIC TEMPERATURE COMPENSATION:
3-wire Pt100 RTD
Conductivity: 0 to 200 °C (32 to 392 °F)
% concentration: 0 to 100 °C (32 to 212°F)
AMBIENT TEMPERATURE: -20 to 65° C (-4 to 149° F)
RELATIVE HUMIDITY: 0-95% with enclosure sealed.
CE: EMI/RFI certified: EN61326-1
HAZARDOUS AREA CLASSIFICATION:
Intrinsic Safety:
Class I, II, III, Div. 1
Groups A-G
T4
Tamb = 70°C
Exia Entity
Class I, Groups A-D
Class II, Groups E-G
Class III
T4
Tamb = 70°C
ATEX
0600
II 1 G
Baseefa03ATEX0399
EEx ia IIC T4
Tamb = -20°C to +65°C
Non-Incendive:
Class I, Div. 2, Groups A-D
Dust Ignition Proof
Class II & III, Div. 1, Groups E-G
NEMA 4X Enclosure
Class I, Div. 2, Groups A-D
Suitable for Class II, Div. 2, Groups E-G
T4
Tamb = 70°C
Explosion-Proof:
Class I, Div. 1, Groups B-D
Class II, Div. 1, Groups E-G
Class III, Div. 1
Class I, Groups B-D
Class II, Groups E-G
Class III
Tamb = 65°C max
TRANSMITTER SPECIFICATIONS @ 25°C
MEASURED RANGE*: 50 to 2,000,000 µS/cm (see chart)
ACCURACY: ± 1.0% of reading
REPEATABILITY: ± 0.25% of reading
STABILITY: 0.25% of output range/month, non-cumulative
AMBIENT TEMPERATURE COEFFICIENT: ± 0.2% of FS/°C
COMPATIBLE RTD: 100Ω with Automatic Recognition
TEMPERATURE SLOPE ADJUSTMENT: 0-5%/° C
% CONCENTRATION RANGES:
Sodium Hydroxide: 0 to 15%
Hydrochloric Acid: 0 to 16%
Sulfuric Acid: 0 to 25% and 96 to 99.7%
LOOP SPECIFICATIONS
LOOP ACCURACY: With a standard Model 228 or 225
sensor with 20' cable, laboratory accuracy at 25°C can
be as good as ± 2% of reading and ± 50 µS/cm.
To achieve optimum performance, standardize the sensor in the process at the conductivity and temperature
of interest.
Results under real process conditions, at different temperatures, or using other sensors may differ from above.
RTD ACCURACY: Utilizing a perfect 100 Ohm RTD after
1 point temperature standardiztion, temperature reading can be as good as ± 0.5°C.
RECOMMENDED SENSORS:
Model
Model
Model
Model
Model
222
225
226
228
242
Flow-Through
Clean-In-Place (CIP)
Submersion/Insertion
Submersion/Insertion/Retractable
Flow-Through*
* Model 242-06 or 242-08 with 5081T do not have Intrinsically Safe
approvals.
RECOMMENDED RANGES FOR TOROIDAL SENSORS
Conductivity Sensor
Model Number
Nominal Cell Constant
µS/cm)
Minimum Conductivity (µ
µS/cm)
Maximum Conductivity (µ
226
1.0
50
1,000,000
228
3.0
200
2,000,000
225
3.0
200
2,000,000
222 (1in.)
6.0
500
2,000,000
222 (2 in.)
4.0
500
2,000,000
242
*
100*
2,000,000*
* Model 242 values depend on sensor configuration and wiring.
2
NOTE: Values shown are for 25°C conductivity with a temperature slope of 2% per degree C. The maximum range
value will be lower for solutions with a higher temperature slope. Minimum conductivity depends on sensor.
MODEL 5081T-FF/FI
SPECIFICATIONS
TRANSMITTER DISPLAY DURING
CALIBRATION AND PROGRAMMING
(FIGURE 1)
1
2
7
1. Continuous display of conductivity, % concentration,
or custom reading.
2. Units: µS/cm, mS/cm, ppm, %, or none.
6
3. Current menu appears here.
4. Submenus, prompts, and diagnostic readings appear
hear.
F
A
U
L
T
H
O
L
D
#'"
mS
3
CALIBRATE PROGRAM DIAGNOSE
/-[5ES-U1
5. Commands available in each submenu or at each
prompt appear here.
6. Hold appears when the transmitter is in hold.
5
EXIT
NEXT
ENTER
4
7. Fault appears when the transmitter detects a sensor
or instrument fault.
FIGURE 1. TRANSMITTER DISPLAY DURING
CALIBRATION AND PROGRAMMING
The program display screen allows access to
calibration and programming menus.
INFRARED REMOTE CONTROLLER
(FIGURE 2)
4.
1. Pressing a menu key allows the user access to calibrate,
program, or diagnostic menus.
3.
2. Press ENTER to store data and settings. Press NEXT
to move from one submenu to the next. Press EXIT to
leave without storing changes.
2.
1.
3. Use the editing keys to scroll through lists of allowed
settings or to change a numerical setting to the desired
value.
4. Pressing HOLD puts the transmitter in hold. Pressing
RESET causes the transmitter to abandon the present
operation and return to the main display.
FIGURE 2. INFRARED REMOTE CONTROLLER
SUBSTITUTION OF
C O M P O N E N T S M AY
I M PA I R I N T R I N S I C S A F E T Y
PN 23572-00
WA R N I N G :
TO PREVENT IGNITION
C H A N G E B AT T E R I E S I N
A NONHAZARDOUS AREA
O N LY
IS/I/1/A,B,C & D
NI/I/2/A,B,C & D
T 4 Ta m b = 4 0 ° C
T 3 A Ta m b = 8 0 ° C
YEAR
IRC - INFRARED REMOTE CONTROL
LR 34186
Exia
I N T R I N S I C A L LY S A F E E Q U I P M E N T
H A Z A R D O U S A R E A L O C AT I O N S :
CLASS I, DIV 1, GP A, B, C, D
CLASS I, DIV 2, GP A, B, C, D
T 3 C Ta m b = 4 0 ° C
T 3 Ta m b = 8 0 ° C
1 . 5 V d c A A A B AT T E R I E S
EVEREADY E92/1212
DURACELL MN2400/PC2400
REMOTE CONTROL
B a s e e f a 0 2 AT E X 0 1 9 8
II 1G EExia IIC T4
11 8 0
1 . 5 V d c A A A B AT T E R I E S
EVEREADY E92/1212
DURACELL MN2400/PC2400
R O S E M O U N T A N A LY T I C A L 9 2 6 0 6 U S A
3
MODEL 5081T-FF/FI MENU TREE
FIGURE 1. Menu Tree
Model 5081T-FF/FI
Process Display Screen
/-[5ES-U1
<1P<9S!"
'"""
CALIBRATION
µS/cm
25.0C 12.00mA
U17:!-G6
/1[[!/9P<U
U17:!<[9:1
CAL key
PROG key
DIAG key
HOLD key
U17:
Process Display
G5<:[-A
PROGRAM
<1U>:!/V<=
G12->[=
-E< /!
922<U
/1[[!/9P<U
U<[9:1
DIAGNOSTICS
'"*#\=\22
<Q2U
4-SG
2D>[=T
PROGRAM MENU MNEMONICS
4Q[G
2->[U
U17:
U->U9
U7-P
G5<:[-A
UA:
U17:!
/9G1
922<U
4
Transmitter on hold
Fault condition current output setting
Temperature menu header
Automatic temperature compensation
Manual temperature compensation input
Display menu header
Conductivity measurement type
°C / °F toggle selection
Security code
Conductance Offset value
MODEL 5081T-FF/FI DEFAULT SETTINGS
VARIABLE NAME
MNEMONIC
FACTORY SETTINGS
CUSTOMER SETTINGS
Program Menu
Temperature
UHOR
Auto temperature compensation
UDVUQ
on
___________
Manual temperature
UODP
25.0°C (overridden by auto)
___________
/97: ([LPHDS or P9P1)
LInEAr
___________
UYR (/QPG>/ or P-94 or 4/[
or 4$<9&[ or 4$<9&4 or /VTU)
CondUC
___________
UHOR
C
___________
QVURVU
Cur
___________
Security Code
FQGH
000
___________
Custom Curve
<1U>:!! /V<U
Temperature compensation algorithm
Display
Measurement type
Temperature (°C or °F)
Output (mA or %)
Reference temperature
GLTRNDY
___________
U!SHI
25.0°C
___________
Cell constant
/1[[!/QPTU
3.00
___________
Temperature slope
U17:!TN9RH
2.000
___________
Calibrate Menu
Diagnose Menu
Diagnose
SAMPLE READINGS
(Each segment displays the current value in the transmitter.)
Absolute conductivity
-ET
1000 µS
___________
9II<U
0.0 µS
___________
/1[[!/9P<U
3.00/cm
___________
UTNQRH
2.000
___________
Software version
TQIU
A02.09
___________
Hardware version
4-SG
01
___________
2D>[=<
none
___________
Off Set
Cell constant
Temperature slope
Show fault warnings
5
MODEL 5081T-FF/FI
WIRING
WIRING
Wire sensor as shown below in Figure 2. Keep sensor wiring separate from power wiring. For best EMI/RFI protection, use
shielded output signal cable in an earth-grounded metal conduit. Refer to the sensor instruction manual for more details.
FIGURE 2. Wiring Model 5081T-FF/FI
6
MODEL 5081T-FF/FI
WIRING
FOUNDATION FIELDBUS COMMUNICATIONS AND POWER SUPPLY
9 - 32 VDC
FIGURE 3. Power Supply/Current Loop Wiring for Model 5081T-FF/FI
WIRING THROUGH A JUNCTION BOX
The sensor can be wired to the analyzer through a remote junction box (PN 23550-00). Wire the extension cable
and sensor cable point-to-point. Refer to the sensor instruction manual for more details.
Factory-terminated (PN 23747-00) and unterminated (PN 9200275) connecting cable are available. The use of factory-terminated cable is strongly recommended. To prepare unterminated cable for use, follow the instructions in the
sensor instruction manual.
For maximum EMI/RFI protection, the outer braid of the sensor cable should be connected to the outer braided
shield of the extension cable. At the instrument, connect the outer braid of the extension cable to earth ground.
POWER WIRING
For general purpose areas, wire power as shown in Figure 3.
7
MODEL 5081T-FF/FI
INSTALLATION
INSTALLATION
UNPACKING AND INSPECTION
INSTALLATION
Inspect the shipping container. If it is damaged, contact the
shipper immediately for instructions. Save the box. If there
is no apparent damage, unpack the container. Be sure all
items shown on the packing list are present. If items are
missing, notify Rosemount Analytical immediately.
See Figure 4.
1. Although the analyzer is suitable for outdoor use, do not
install it in direct sunlight or in areas of extreme temperatures.
2. Install the analyzer in an area where vibrations and electromagnetic and radio frequency interference are minimized or absent.
3. Keep the analyzer and sensor wiring at least one foot
from high voltage conductors. Be sure there is easy
access to the analyzer.
4. The conduit connections on the sides of the 5081 housing should be sealed to prevent moisture from entering
the enclosure.
5. The transmitter must not be mounted with both conduit
openings at the top.
ROTATING THE DISPLAY
The Model 5081T-FF/F1 display can be rotated 90° left or
right. Disengage the cover lock and remove the front cover.
Remove the three screws holding the PCB stack and gently lift the display board. Do not disengage the ribbon cable
between the display board and the CPU board. Rotate the
display. The black infrared sensor will be at the top of the
display.
INCH
MILLIMETER
FIGURE 4. Mounting Model 5081T-FF/FI
8
9
10
11
12
13
14
R
APPROVED
NO CHANGE WITHOUT FM APPROVAL.
MATERIAL: AISI 300 SERIES STAINLESS
STEEL .015+/-.005 THICK. MATERIAL TO
BE ANNEALED & PASSIVATED. MAXIMUM
HARDNESS BRINELL 190.
2.
1
NOTES: UNLESS OTHERWISE SPECIFIED
ARTWORK IS SHEET 2 OF 2.
3.
1.30 ±.02
.650 ±.015
9241515-01/A
.140 ±.005
.125
EXPLOSION PROOF
CLASS I, DIV.1, GRPS. B,C & D
CLASS II, DIV. 1, GRPS. E,F & G
CLASS III, DIV. 1
PER DWG. 1400298
INTRINSICALLY SAFE FOR
CLASS I, II & III, DIV. 1,
GRPS. A,B,C,D,E,F & G
HAZARDOUS AREA WHEN
CONNECTED PER DWG. 1400284
Tamb= 70°C
T4
NON-INCENDIVE
CLASS I, DIV. 2, GRPS. A,B,C & D
DUST IGNITION PROOF
CLASS II AND III, DIV. 1,
GRPS. E, F & G
WARNING: COMPONENT SUBSTITUTION
MAY IMPAIR INTRINSIC SAFETY
OR SUITABILITY FOR DIV.2.
NEMA 4X ENCLOSURE.
4
8933
5-6-04
.XXX
.XX
FINISH
ANGLES
TOLERANCES
+ 1/2
-
4
1
DIMENSIONS ARE IN INCHES
REMOVE BURRS & SHARP EDGES .020 MAX
MACHINED FILLET RADII .020 MAX
NOMINAL SURFACE FINISH 125
+ .030
+- .010
A
REV
LTR
ECO
PART NO
THIS DWG CREATED IN
SOLID EDGE
PROJECT
ENGR APVD J. FLOCK
J. FLOCK
B. JOHNSON
APPROVALS
CHECKED
DRAWN
ITEM
DATE
5/6/04
5/6/04
5/3/04
SCALE 2:1
B
SIZE
BY
DATE
REV
REV
REV
REV
REV
REV
A
9241515-01
SHEET 1 OF
CHK
2
A
REV
QTY
Rosemount Analytical,
Uniloc Division
2400 Barranca Pkwy
Irvine, CA 92606
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
FM
THIS DOCUMENT IS
CERTIFIED BY
LABEL, I.S. FM
5081-T-FI
DESCRIPTION
DWG NO
Uniloc
TITLE
REVISIONS
DESCRIPTION
BILL OF MATERIAL
FINISH:SILKSCREEN BLACK EPOXY PAINT (BAKED).
2.56 ±.02
ECO NO
RELEASE DATE
UNLESS OTHERWISE SPECIFIED
2.180 ±.005
.120 ±.015
MATERIAL
Ø .125
ROSEMOUNT ANALYTICAL
MODEL
FM
5081-T-FI-67
2X FULL R
4X R .25
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
B 9241515-01
USE ONLY APPROVED CONDUIT SEALS AND FITTINGS.
TOROIDAL
SENSOR
RIGID METAL CONDUIT
AND APPROVED SEALS
8
NOTES: UNLESS OTHERWISE SPECIFIED
1. INSTALLATION MUST CONFORM TO THE NEC.
7
2. SEAL REQUIRED AT EACH CONDUIT ENTRANCE.
3
3
6
W
70
°C
DRV 10
COM
F OR
WIRING LABEL
IR
9
DRV
SHLD
BE RA T E D
5081-T-FI-67
6
8
RCV
U ST
G M
IN
11
3
11
DR
V
5
CLASS I, DIV 1, GPS B-D
CLASS II, DIV 1, GPS E-G
CLASS III, DIV 1
70°C MAX
HAZARDOUS AREA
4
4
RELEASE DATE
5-6-04
RIGID METAL CONDUIT
AND APPROVED SEALS
16
HT/F
(+) F
A
B
C
SAFE AREA
00 / A
RT 5
IN D
4
RT
SEN D
SE
3
RTD
COM
2
RTD
SHLD
1 ED
ERV
RES
20 -
41 5
92
PN
4
7 M
CO
RCV
7
D
6 V
R C LD
SH
5
5
9
RECOMMENDED SENSORS:
222
225
226
228
242
6
8
7
12
3
15
HT/FF
(-)
2
14
NC
1
13
8
10
13
NC
14
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
12
NC
16 15
ECO NO.
8933
A
REV
FINISH
+ 1/2
DIMENSIONS ARE IN INCHES
ANGLES
TOLERANCES
3
REMOVE BURRS & SHARP EDGES .020 MAX
MACHINED FILLET RADII .020 MAX
NOMINAL SURFACE FINISH 125
+
- .030
+ .010
-
MATERIAL
.XX
.XXX
UNLESS OTHERWISE SPECIFIED
3
ECO
PART NO.
J. FLOCK
PROJECT
ENGR APVD
THIS DWG CREATED IN
SOLID EDGE
J. FLOCK
CHECKED
B. JOHNSON
APPROVALS
DRAWN
ITEM
POWER SUPPLY
17.5 VDC MAX
DATE
2
5/6/04
5/6/04
5/3/04
SAFE AREA
LTR
2
DESCRIPTION
BILL OF MATERIAL
DATE
REV
REV
REV
REV
REV
REV
Emerson Process Management,
Rosemount Analytical Division
2400 Barranca Pkwy
Irvine, CA 92606
1400298
TYPE
A
1
SHEET 1 OF 1
06-01
A
REV
QTY
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
FM
EXP PROOF 5081-T-FI
DWG NO.
CHK
THIS DOCUMENT IS
CERTIFIED BY
BY
1
SCHEM, SYSTEM FMRC
Emerson
SCALE NONE
SIZE
D
TITLE
DESCRIPTION
REVISION
A
B
C
D 1400298
15
A
B
C
10
4
5
6
(La/Ra OR Lo/Ro)
7
5
8
NOTES: UNLESS OTHERWISE SPECIFIED
7
6
5
1. INSTALLATION SHOULD BE IN ACCORDANCE WITH ANSI/ISA RP12.06 "INSTALLATION OF INTRINSICALLY SAFE SYSTEMS
FOR HAZARDOUS (CLASSIFIED) LOCATIONS" (EXCEPT CHAPTER 5 FOR FISCO INSTALLATIONS) AND THE NATIONAL ELECTRICAL
CODE (ANSI/NFPA 70) SECTIONS 504 AND 505.
2. DUST-TIGHT CONDUIT SEAL MUST BE USED WHEN INSTALLED IN CLASS II AND CLASS III ENVIRONMENTS.
3. RESISTANCE BETWEEN INTRINSICALLY SAFE GROUND AND EARTH GROUND MUST BE LESS THAN 1.0 Ohm.
4. THE ENTITY CONCEPT ALLOWS INTERCONNECTION OF INTRINSICALLY SAFE APPARATUS
WITH ASSOCIATED APPARATUS WHEN THE FOLLOWING IS TRUE:
FIELD DEVICE INPUT
ASSOCIATED APPARATUS OUTPUT
Vmax OR Ui
Voc, Vt OR Uo;
Imax OR Ii
Isc, It OR Io;
Pmax OR Pi
Po;
3Ci+ 3Ccable;
Ca, Ct OR Co
La, Lt OR Lo; OR Lc/Rc
(La/Ra OR Lo/Ro) AND Li/Ri
3Li + 3Lcable.
5. ASSOCIATED APPARATUS MANUFACTURER'S INSTALLATION DRAWING MUST BE FOLLOWED
WHEN INSTALLING THIS EQUIPMENT.
6. CONTROL EQUIPMENT CONNECTED TO ASSOCIATED APPARATUS MUST NOT USE OR GENERATE
MORE THAN 250 Vrms OR Vdc.
7. THE CONFIGURATION OF ASSOCIATED APPARATUS MUST BE FACTORY MUTUAL RESEARCH APPROVED
UNDER THE ASSOCIATED CONCEPT.
8. NO REVISION TO DRAWING WITHOUT PRIOR FACTORY MUTUAL RESEARCH APPROVAL.
9. USE SUPPLY WIRES SUITABLE FOR 5°C ABOVE SURROUNDING AMBIENT.
10 MAXIMUM SENSOR CABLE LENGTH IS 250 FEET.
INFRARED
REMOTE CONTROL UNIT
(RMT PN 23572-00)
FOR USE IN
CLASS I AREA ONLY
APPROVED CONDUCTIVITY
SENSORS
222,225,226 & 228
242 (1" & 2" ONLY)
MODEL
5081-T-FI
XMTR
9
4
3
TABLE I
17.5
IIC/
A,B,C,D,E,F,G
5081-T-FI
4
ECO NO.
REV
17.5
360
380
Imax (mA)
FINISH
+ 1/2
DIMENSIONS ARE IN INCHES
ANGLES
TOLERANCES
3
REMOVE BURRS & SHARP EDGES .020 MAX
MACHINED FILLET RADII .020 MAX
NOMINAL SURFACE FINISH 125
+ .030
+ .010
-
MATERIAL
.XXX
.XX
UNLESS OTHERWISE SPECIFIED
Vmax (Vdc)
IIB/
C,D,E,F,G
RELEASE DATE
ANY FM APPROVED
ASSOCIATED
APPARATUS
1
BY
DATE
J. FLOCK
THIS DWG CREATED IN
SOLID EDGE
PROJECT
ENGR APVD
CHECKED J. FLOCK
B. JOHNSON
5
5
2
5/6/04
5/6/04
5/3/04
DATE
Ci (nF)
PART NO.
APPROVALS
DRAWN
ITEM
2.52
5.32
Pmax (W)
DESCRIPTION
BILL OF MATERIAL
B
Rosemount Analytical,
Uniloc Division
2400 Barranca Pkwy
Irvine, CA 92606
DWG NO.
TYPE
1400284
1
SHEET 1 OF
SCHEMATIC, INSTALLATION
5081-T-FI XMTR
FM APPROVALS
Uniloc
SCALE NONE
SIZE
D
TITLE
10
10
Li (uH)
REV
REV
REV
REV
REV
REV
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
FM
THIS DOCUMENT IS
CERTIFIED BY
1
TO PREVENT IGNITION OF FLAMMABLE OR COMBUSTIBLE ATMOSPHERES,
DISCONNECT POWER BEFORE SERVICING.
GROUPS
B
REVISION
DESCRIPTION
WARNING-
ANY FM APPROVED
TERMINATOR
5081-T-FI FISCO PARAMETERS
SUPPLY / SIGNAL TERMINALS TB 1-15, 16
8933
2
SUBSTITUTION OF COMPONENTS MAY IMPAIR INTRINSIC SAFETY OR
SUITABILITY FOR DIVISION 2.
5081-T-FI
5-6-04
ECO
NON-HAZARDOUS LOCATIONS
LTR
WARNING-
ANY FM APPROVED
TERMINATOR
MODEL NO.
ANY FM APPROVED
INTRINSICALLY SAFE
APPARATUS
IS CLASS I, II, III,
DIVISION 1,
GROUPS A, B, C, D, E, F, G;
NI CLASS I,
DIVISION 2,
GROUPS A,B,C,D;
SUITABLE CLASS II,
DIVISION 2,
GROUPS F & G;
SUITABLE CLASS III,
DIVISION 2
HAZARDOUS (CLASSIFIED) LOCATIONS
FISCO
FM INTRINSIC SAFETY INSTALLATION
8
3
2
D
6
10
7
11
8
12
1
13
14
16 15
16
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
10-96
B
REV
QTY
CHK
A
B
C
D 1400284
SA
R
LR34186
ENCLOSURE 4
MATERIAL: AISI 300 SERIES STAINLESS
STEEL .015+/-.005 THICK. MATERIAL TO
BE ANNEALED & PASSIVATED. MAXIMUM
HARDNESS BRINELL 190.
1
NOTES: UNLESS OTHERWISE SPECIFIED
NO CHANGE WITHOUT CSA APPROVAL.
1.30
2.
.125
9241516-01/A
±.02
.650
±.015
CLASS I, DIV. 2, GRPS A,B,C & D
SUITABLE FOR
CLASS II, DIV. 2, GRPS E, F & G
Tamb= 70°C
T3A
WARNING-EXPLOSION HAZARD-DO NOT
DISCONNECT WHILE CIRCUIT IS LIVE
UNLESS AREA IS KNOWN TO BE NONHAZARDOUS.
WARNING-EXPLOSION HAZARD-SUBSTITUTION OF COMPONENTS MAY IMPAIR
SUITABILITY FOR CLASS I, DIV 2.
CLASS I, GRPS B,C & D
CLASS II, GRPS E, F & G
CLASS III
Tamb = 65°C MAX
Tamb ABOVE 60°C USE 75°C MINIMUM
RATED WIRING
SEAL REQUIRED TO BE INSTALLED
WITHIN 50 mm OF THE ENCLOSURE.
KEEP COVER TIGHT WHILE CIRCUITS
ARE LIVE.
Exia ENTITY
INTRINSICALLY SAFE FOR
CLASS I, GRPS A, B, C & D
CLASS II, GRPS E, F & G
CLASS III
T3A Tamb = 70°C
HAZARDOUS AREA WHEN CONNECTED
PER DWG. 1400285
WARNING: COMPONENT SUBSTITUTION
MAY IMPAIR INTRINSIC SAFETY.
ARTWORK IS SHEET 2 OF 2.
.140
R
±.015
.XXX
.XX
FINISH
ANGLES
TOLERANCES
+ 1/2
-
4
1
DIMENSIONS ARE IN INCHES
REMOVE BURRS & SHARP EDGES .020 MAX
MACHINED FILLET RADII .020 MAX
NOMINAL SURFACE FINISH 125
+ .030
+- .010
REV
A
ECO NO
8925
LTR
ECO
PART NO
J. FLOCK
THIS DWG CREATED IN
SOLID EDGE
PROJECT
ENGR APVD
J. FLOCK
B. JOHNSON
APPROVALS
CHECKED
DRAWN
ITEM
DATE
5/6/04
5/6/04
5/3/04
SCALE 2:1
B
SIZE
DATE
REV
REV
REV
REV
REV
REV
A
9241516-01
CHK
SHEET 1 OF 2
A
REV
QTY
Rosemount Analytical,
Uniloc Division
2400 Barranca Pkwy
Irvine, CA 92606
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
CSA
THIS DOCUMENT IS
CERTIFIED BY
BY
LABEL, I.S. CSA
5081-T-FI
DESCRIPTION
DWG NO
Uniloc
TITLE
REVISIONS
DESCRIPTION
BILL OF MATERIAL
FINISH:SILKSCREEN BLACK EPOXY PAINT (BAKED).
2.56 ±.02
UNLESS OTHERWISE SPECIFIED
4
5-6-04
RELEASE DATE
2.180 ±.005
.120
MATERIAL
Ø .125
ROSEMOUNT ANALYTICAL
MODEL
5081-T-FI-69
3.
2X FULL R
4X R .25
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
B 9241516-01
17
A
B
C
D
11
MODEL
5081-T-FI
XMTR
5
8
NOTES: UNLESS OTHERWISE SPECIFIED
7
6
1. INTRINSICALLY SAFE APPARATUS (MODEL 5081-T-FI, IRC TRANSMITTER)
AND ASSOCIATED APPARATUS (SAFETY BARRIER) SHALL MEET THE FOLLOWING REQUIREMENTS:
THE VOLTAGE (Vmax) AND CURRENT (Imax) OF THE INTRINSICALLY SAFE APPARATUS MUST BE
EQUAL TO OR GREATER THAN THE VOLTAGE (Voc OR Vt) AND CURRENT (Isc OR It) WHICH CAN BE
DELIVERED BY THE ASSOCIATED APPARATUS (SAFETY BARRIER). IN ADDITION, THE MAXIMUM
UNPROTECTED CAPACITANCE (Ci) AND INDUCTANCE (Li) OF THE INTRINSICALLY SAFE APPARATUS,
INCLUDING INTERCONNECTING WIRING, MUST BE EQUAL OR LESS THAN THE CAPACITANCE (Ca) AND
INDUCTANCE (La) WHICH CAN BE SAFELY CONNECTED TO THE APPARATUS. (REF. TABLE I).
2. INSTALLATION SHOULD BE IN ACCORDANCE WITH ANSI/ISA RP12.06.01 "INSTALLATION OF
INTRINSICALLY SAFE SYSTEMS FOR HAZARDOUS (CLASSIFIED) LOCATIONS" AND THE CANADIAN
ELECTRICAL CODE (CSA C22.1).
3. DUST-TIGHT CONDUIT SEAL MUST BE USED WHEN INSTALLED IN CLASS II AND CLASS III ENVIRONMENTS.
4. RESISTANCE BETWEEN INTRINSICALLY SAFE GROUND AND EARTH GROUND MUST BE LESS THAN 1.0 Ohm.
5. THE ENTITY CONCEPT ALLOWS INTERCONNECTION OF INTRINSICALLY SAFE APPARATUS
WITH ASSOCIATED APPARATUS WHEN THE FOLLOWING IS TRUE:
FIELD DEVICE INPUT
ASSOCIATED APPARATUS OUTPUT
Vmax OR Ui
Voc, Vt OR Uo;
Imax OR Ii
Isc, It OR Io;
Pmax OR Pi
Po;
Ci+ Ccable;
Ca, Ct OR Co
Li+ Lcable.
La, Lt OR Lo
6. ASSOCIATED APPARATUS MANUFACTURER'S INSTALLATION DRAWING MUST BE FOLLOWED
WHEN INSTALLING THIS EQUIPMENT.
7. CONTROL EQUIPMENT CONNECTED TO ASSOCIATED APPARATUS MUST NOT USE OR GENERATE
MORE THAN 250 Vrms OR Vdc.
8. THE ASSOCIATED APPARATUS MUST BE CSA APPROVED.
9. NO REVISION TO DRAWING WITHOUT PRIOR CSA APPROVAL.
10. USE SUPPLY WIRES SUITABLE FOR 5 °C ABOVE SURROUNDING AMBIENT.
11 MAXIMUM SENSOR CABLE LENGTH IS 250 FEET.
INFRARED
REMOTE CONTROL UNIT
(RMT PN 23572-00)
FOR USE IN
CLASS I AREA ONLY
APPROVED CONDUCTIVITY
SENSORS
222,225,226 & 228
242 (1" & 2" ONLY)
FISCO
CSA INTRINSIC SAFETY INSTALLATION
6
5
5
11
9
7
8
6
3
4
2
7
10
8
12
1
13
14
16 15
18
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
4
RELEASE DATE
5-6-04
ECO
2
REVISION
DESCRIPTION
ECO NO.
A
REV
380
Imax (mA)
FINISH
+ 1/2
DIMENSIONS ARE IN INCHES
ANGLES
TOLERANCES
3
REMOVE BURRS & SHARP EDGES .020 MAX
MACHINED FILLET RADII .020 MAX
NOMINAL SURFACE FINISH 125
+ .030
+ .010
-
MATERIAL
.XXX
.XX
UNLESS OTHERWISE SPECIFIED
Vmax (Vdc)
17.5
TABLE I
PART NO.
J. FLOCK
THIS DWG CREATED IN
SOLID EDGE
PROJECT
ENGR APVD
CHECKED J. FLOCK
B. JOHNSON
APPROVALS
DRAWN
ITEM
5. 3 2
Pmax (W)
2
5/6/04
5/6/04
5/3/04
DATE
BILL OF MATERIAL
DESCRIPTION
0
Li (mH)
REV A
REV
REV
REV
REV
REV
Rosemount Analytical,
Uniloc Division
2400 Barranca Pkwy
Irvine, CA 92606
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
CSA
DWG NO.
TYPE
1400285
1
SHEET 1 OF
1
SCHEMATIC, INSTALLATION
5081-T-FI XMTR CSA
Uniloc
SCALE NONE
SIZE
D
TITLE
27.8
Ci (nF)
DATE
THIS DOCUMENT IS
CERTIFIED BY
SUBSTITUTION OF COMPONENTS MAY IMPAIR INTRINSIC SAFETY OR
SUITABILITY FOR DIVISION 2.
TO PREVENT IGNITION OF FLAMMABLE OR COMBUSTIBLE ATMOSPHERES,
DISCONNECT POWER BEFORE SERVICING.
5081-T-FI ENTITY PARAMETERS
SUPPLY / SIGNAL TERMINALS TB 1-15, 16
1
BY
UNSPECIFIED
POWER SUPPLY
17.5 VDC MAX
UNCLASSIFIED AREA
CSA APPROVED
ASSOICATED APPARATUS
SUITABLE FOR FISCO
SEE NOTE 5 AND TABLE 1
LTR
WARNING-
3
WARNING-
8925
5081-T-FI
MODEL NO.
NI CLASS I, DIV 2
GRPS A-D
CLASS II, DIV 2
GRPS E-G
IS CLASS I, GRPS A-D
CLASS II, GRPS E-G
CLASS III
HAZARDOUS AREA
4
10-96
A
REV
QTY
CHK
A
B
C
D 1400285
R
1180
NO CHANGE WITHOUT BASEEFA APPROVAL.
MATERIAL: AISI 300 SERIES STAINLESS
STEEL .015+/-.005 THICK. MATERIAL TO
BE ANNEALED & PASSIVATED. MAXIMUM
HARDNESS BRINELL 190.
2.
1
NOTES: UNLESS OTHERWISE SPECIFIED
.650 ±.015
1.30 ±.02
ARTWORK IS SHEET 2 OF 2.
.125
9241514-01/A
FISCO SUPPLY
Ui = 17.5 VDC
Ii = 380 mA
Pi = 5.32 W
Ci= 0 µF
Li= 0 µH
Baseefa03ATEX0399
EEx ia IIC T4
Tamb = -20°C TO +65°C
MODEL 5081-T-FI-73
II 1 G
4
A
8925
5-6-04
.XXX
.XX
FINISH
ANGLES
TOLERANCES
+ 1/2
-
4
1
DIMENSIONS ARE IN INCHES
REMOVE BURRS & SHARP EDGES .020 MAX
MACHINED FILLET RADII .020 MAX
NOMINAL SURFACE FINISH 125
+ .030
+- .010
LTR
ECO
PART NO
THIS DWG CREATED IN
SOLID EDGE
PROJECT
ENGR APVD J. FLOCK
J. FLOCK
B. JOHNSON
APPROVALS
CHECKED
DRAWN
ITEM
DATE
5/6/04
5/6/04
5/3/04
DESCRIPTION
DATE
REV
REV
REV
REV
REV
REV
A
SHEET 1 OF
CHK
2
A
REV
QTY
Rosemount Analytical,
Uniloc Division
2400 Barranca Pkwy
Irvine, CA 92606
Baseefa Certified Product
No modifications permitted
without the approval of
the Authorized Person
Related Drawing
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
Baseefa
9241514-01
DWG NO
SCALE 2:1
B
SIZE
BY
THIS DOCUMENT IS
CERTIFIED BY
LABEL, I.S. BAS/ATEX
5081-T-FI
Uniloc
TITLE
REVISIONS
DESCRIPTION
BILL OF MATERIAL
FINISH:SILKSCREEN BLACK EPOXY PAINT (BAKED).
2.56 ±.02
REV
ECO NO
RELEASE DATE
UNLESS OTHERWISE SPECIFIED
2.180 ±.005
.120 ±.015
MATERIAL
Ø .125
ROSEMOUNT ANALYTICAL
3.
.140 ±.005
2X FULL R
4X R .25
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
B 9241514-01
19
A
B
C
D
MAXIMUM SENSOR CABLE LENGTH IS 250 FEET.
9
7. USE SUPPLY WIRES SUITABLE FOR 5^C ABOVE
SURROUNDING AMBIENT.
9
MODEL
5081-T-FI
XMTR
8
NOTES: UNLESS OTHERWISE SPECIFIED
7
6
1. INTRINSICALLY SAFE APPARATUS (MODEL 5081-T-FI, FIELDBUS TERMINATOR AND ANY ADDITIONAL
FIELDBUS DEVICES) AND ASSOCIATED APPARATUS (SAFETY BARRIER) SHALL MEET THE FOLLOWING
REQUIREMENTS: THE VOLTAGE (Vmax) AND CURRENT (Imax) OF THE INTRINSICALLY SAFE APPARATUS
MUST BE EQUAL TO OR GREATER THAN THE VOLTAGE (Voc OR Vt) AND CURRENT (Isc OR It) WHICH
CAN BE DELIVERED BY THE ASSOCIATED APPARATUS (SAFETY BARRIER). IN ADDITION, THE MAXIMUM
UNPROTECTED CAPACITANCE (Ci) AND INDUCTANCE (Li) OF THE INTRINSICALLY SAFE APPARATUS,
INCLUDING INTERCONNECTING WIRING, MUST BE EQUAL OR LESS THAN THE CAPACITANCE (Ca) AND
INDUCTANCE (La) WHICH CAN BE SAFELY CONNECTED TO THE APPARATUS. (REF. TABLE I).
2. RESISTANCE BETWEEN INTRINSICALLY SAFE GROUND AND EARTH GROUND MUST BE LESS THAN 1.0 Ohm.
3. THE ENTITY CONCEPT ALLOWS INTERCONNECTION OF INTRINSICALLY SAFE APPARATUS
WITH ASSOCIATED APPARATUS WHEN THE FOLLOWING IS TRUE:
FIELD DEVICE INPUT
ASSOCIATED APPARATUS OUTPUT
Voc, Vt OR Uo;
Vmax OR Ui
Isc, It OR Io;
Imax OR Ii
Po;
Pmax OR Pi
Ci+ Ccable;
Ca, Ct OR Co
La, Lt OR Lo
Li+ Lcable.
4. ASSOCIATED APPARATUS MANUFACTURER'S INSTALLATION DRAWING MUST BE FOLLOWED
WHEN INSTALLING THIS EQUIPMENT.
5. CONTROL EQUIPMENT CONNECTED TO ASSOCIATED APPARATUS MUST NOT USE OR GENERATE
MORE THAN 250 Vrms OR Vdc.
6. ANY ASSOCIATED APPARATUS MUST BE ATEX APPROVED.
6
8
9
6
7
5
5
FISCO
ATEX INTRINSIC SAFETY INSTALLATION
INFRARED
REMOTE CONTROL UNIT
(RMT PN 23572-00)
FOR USE IN
ZONE 0
CONDUCTIVITY
SENSORS
222,225,226 & 228.
242 (1" & 2" ONLY)
8. PROCESS RESISTIVITY MUST BE LESS THAN 10 OHMS.
9
A
REVISIONS NOT PERMITTED
W/O AGENCY APPROVAL
REV
REV
REV
REV
REV
REV
THIS DOCUMENT IS
CERTIFIED BY
Baseefa
7
5
10
8
4
3
2
1
13
14
16 15
20
This document contains information proprietary to
Rosemount Analytical, and is not to be made available
to those who may compete with Rosemount Analytical.
4
RELEASE DATE
5-6-04
ECO NO.
8925
Baseefa Certified Product
No modifications permitted
without the approval of
the Authorized Person
Related Drawing
5081-T-FI
MODEL NO.
1180
II 1 G
Baseefa03ATEX0399
EEx ia IIC T4
HAZARDOUS AREA
4
ECO
2
REVISION
DESCRIPTION
UNCLASSIFIED AREA
TABLE I
A
REV
FINISH
ANGLES
TOLERANCES
+- 1/2
3
DIMENSIONS ARE IN INCHES
REMOVE BURRS & SHARP EDGES .020 MAX
MACHINED FILLET RADII .020 MAX
NOMINAL SURFACE FINISH 125
+
- .030
+ .010
-
MATERIAL
.XX
.XXX
380
Imax (mA)
UNLESS OTHERWISE SPECIFIED
Vmax (Vdc)
17.5
PART NO.
J. FLOCK
THIS DWG CREATED IN
SOLID EDGE
PROJECT
ENGR APVD
CHECKED J. FLOCK
B. JOHNSON
APPROVALS
DRAWN
ITEM
Pmax (W)
5.32
2
5/6/04
5/6/04
5/3/04
DATE
Uniloc
BILL OF MATERIAL
DESCRIPTION
0
Li (uH)
D
SIZE
SCALE
NONE
DWG NO.
TYPE
1400286
DATE
Rosemount Analytical,
Uniloc Division
2400 Barranca Pkwy
Irvine, CA 92606
1
SHEET 1 OF
SCHEMATIC, INSTALLATION
5081-T-FI XMTR
ATEX ZONE 0
TITLE
0
Ci (uF)
TO PREVENT IGNITION OF FLAMMABLE OR COMBUSTIBLE ATMOSPHERES,
DISCONNECT POWER BEFORE SERVICING.
WARNING-
5081-T-FI ENTITY PARAMETERS
SUPPLY / SIGNAL TERMINALS TB1 15 AND 16
1
BY
UNSPECIFIED
POWER SUPPLY
17.5 VDC MAX
SUBSTITUTION OF COMPONENTS MAY IMPAIR INTRINSIC SAFETY.
ATEX APPROVED
ASSOCIATED APPARATUS
SEE NOTE 3 AND TABLE 1
LTR
WARNING-
(ZONE 0)
3
1
10-96
A
REV
QTY
CHK
A
B
C
D 1400286
12
11
MODEL 5081T-FF/FI
MAINTENANCE
MAINTENANCE
OVERVIEW
This section gives general procedures for routine maintenance of the 5081-T transmitter. The transmitter needs almost no
routine maintenance.
TRANSMITTER MAINTENANCE
Periodically clean the transmitter window with household ammonia or glass cleaner. The detector for the infrared remote
controller is located behind the window at the top of the transmitter face. The window in front of the detector must be kept
clean.
Most components of the transmitter are replaceable. Refer to figure below and table on next page for parts and part numbers.
Exploded View of Model 5081-T-FF/FI Transmitter
Three screws (part 13 in the drawing) hold the three circuit boards in place. Removing the screws allows the display
board (part 2) and the CPU board (part 3) to be easily removed. A ribbon cable connects the boards. The cable plugs
into the CPU board and is permanently attached to the display board. A 16 pin and socket connector holds the CPU and
analog (part 4) boards together. Five screws hold the terminal block (part 5) to the center housing (part 7), and the 16
pins on the terminal block mate with 16 sockets on the back side of the analog board. Use caution when separating the
terminal block from the analog board. The pin and socket connection is tight.
21
MODEL 5081T-FF/FI
MAINTENANCE
Replacement Parts for Model 5081-T-FF/FI Transmitter
Location in
drawing
PN
1
23992-07
PCB stack consisting of the CPU (part 3) and analog (part 4) boards,
display board is not included, CPU and analog boards are factorycalibrated as a unit and cannot be ordered separately
1 lb/0.5 kg
2
23638-01
LCD display PCB
1 lb/0.5 kg
5
33337-02
Terminal block
1 lb/0.5 kg
6
23593-01
Enclosure cover, front with glass window
3 lb/1.5 kg
7
33360-00
Enclosure, center housing
4 lb/1.5 kg
8
33362-00
Enclosure cover, rear
3 lb/1.0 kg
9
6560135
Desiccant in bag, one each
1 lb/0.5 kg
10
9550187
O-ring (2-252), one, front and rear covers each require an O-ring
1 lb/0.5 kg
12
note
Screw, 8-32 x 0.5 inch, for attaching terminal block to center housing
*
13
note
Screw, 8-32 x 1.75 inch, for attaching circuit board stack to center
housing
*
14
33342-00
Cover lock
1 lb/0.5 kg
15
33343-00
Locking bracket nut
1 lb/0.5 kg
16
note
Description
Screw, 10-24 x 0.38 inch, for attaching cover lock and locking bracket
nut to center housing
NOTE: For information only. Screws cannot be purchased from Rosemount Analytical.
* Weights are rounded up to the nearest whole pound or 0.5 kg.
22
Shipping
Weight
*
ENGINEERING SPECIFICATIONS
QUICK-START
1. On the Remote, press PROG, NEXT, ENTER.
9. Press RESET.
2. Use the arrow buttons to select COnduc (conductivity),
nAOH (Sodium Hydroxide 0-15%), HCL (Hydrochloric
Acid 0-16%), H2SO4L (Sulfuric Acid 0-30%), H2SO4H
(Sulfuric Acid 95-99.99%), or CuSt (custom curve)
mode. Press ENTER. If you chose CuSt, continue with
step 3. If you chose COnduc or one of the preprogrammed % concentration modes, skip step 3 and go to
step 4.
10. Press CAL, NEXT, NEXT, NEXT, ENTER.
3. If you selected CuST, you will see the Setup Custom
screen. To move to the custom curve configuration
menu, press ENTER. You will automatically return to
this same Setup Custom screen after configuration is
complete. To continue transmitter display programming,
press NEXT in the Setup Custom screen.
4. Use the arrow keys to toggle temperature units between
Celsius and Farenheit.
11. Use the arrow buttons to enter the cell constant of the
sensor. Press ENTER, then EXIT.
12. To “zero” the sensor in air, press CAL, NEXT, ENTER.
13. Hold the sensor in air to zero. Press ENTER, then EXIT.
14. If you are measuring % concentration (nAOH, HCL,
H2SO4L, or H2SO4H) or custom curve (CuSt), quick
start is complete; proceed to step 20.
15. If you are measuring conductivity (CondUC), then standardize the sensor by placing the sensor in a solution
of known conductivity value. Press CAL, ENTER.
16. Use the arrow buttons to enter the current conductivity
value of the solution. Press ENTER.
17. Press RESET.
5. Press ENTER then RESET.
6. Press PROG, ENTER.
To reset transmiter to factory default settings:
7. Use the arrow key to toggle t AutO to On or OFF to
select using either the process temperature (tAutO =
On) or a manual temperature (tAutO = OFF). Press
ENTER. If you selected t AutO = OFF, you will be
prompted to enter the manual temperature; use the
arrow keys, then press ENTER.
1. Press PROGRAM, NEXT, NEXT, NEXT. The screen
should say "dEFAULt". Press ENTER.
8. If you selected CondUC in step 2, you will see a COMP
(Temperature Compensation type) screen. Use the
arrow keys to select desired temperature compensation: LinEAr (linear) or nOnE (raw or uncompensated
conductivity). Press ENTER. If you are in LinEAR
mode, you can now enter a particular temperature slope
(default is 2%/degC), then press ENTER to apply the
slope.
3. Press ENTER, then EXIT.
2. Use the arrow keys to toggle between nO (retain your
configuration and calibration settings) and YES (restore
factory default settings to all variables).
23
The right people,
the right answers,
right now.
ON-LINE ORDERING NOW AVAILABLE ON OUR WEB SITE
http://www.raihome.com
Specifications subject to change without notice.
Credit Cards for U.S. Purchases Only.
Emerson Process Management
Liquid Division
2400 Barranca Parkway
Irvine, CA 92606 USA
Tel: (949) 757-8500
Fax: (949) 474-7250
http://www.raihome.com
© Rosemount Analytical Inc. 2005