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User’sManual
개시 매뉴얼(한국어판)은 CD-ROM에 붙이고 있습니다
사용자 매뉴얼(영어판, 일본어판)은 CD-ROM에 붙이고 있습니
자세하는 곳은 사용자 매뉴얼을 봐 주십시요
开机手册 (中文版 )请参考 CD-ROM
用户手册 (英语版,日语版 )请参考 CD-ROM
其他详细内容请参考用户手册 (CD-ROM)
Inbetriebnahme Anleitung (Deutsche Version) ist auf CD-ROM enthalten.
Bedienungsanleitung (Englische Version) ist auf CD-ROM enthalten.Nutzen Sie die Bedienungsanleitung, wenn Sie Details benötigen.
Start-up Manual (except English version) is included in CD-ROM.
User's Manual (English version) is included in CD-ROM.Refer to User's Manual (CD-ROM) when you need the details.
Model FLXA21Two-wire AnalyzerStart-up Manual
IM 12A01A02-12E
IM 12A01A02-12E2nd Edition
i
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
u IntroductionThank you for purchasing the FLXA21 Two-wire Analyzer.Please read the following respective documents before installing and using the FLXA21.
n Notes on Handling User’s Manuals• Please hand over the user’s manuals to your end users so that they can keep the user’s
manuals on hand for convenient reference.• Please read the information thoroughly before using the product.• The purpose of these user’s manuals is not to warrant that the product is well suited to any
particular purpose but rather to describe the functional details of the product.• No part of the user’s manuals may be transferred or reproduced without prior written
consent from YOKOGAWA.• YOKOGAWA reserves the right to make improvements in the user’s manuals and product at
any time, without notice or obligation.• Ifyouhaveanyquestions,oryoufindmistakesoromissionsintheuser’smanuals,please
contact our sales representative or your local distributor.
n Drawing ConventionsSomedrawingsmaybepartiallyemphasized,simplified,oromitted,fortheconvenienceofdescription.Some screen images depicted in the user’s manual may have different display positions or character types (e.g., the upper / lower case). Also note that some of the images contained in this user’s manual are display examples.
Media No. IM 12A01A02-12E 2nd Edition : Aug. 2010 (YK)All Rights Reserved Copyright © 2010, Yokogawa Electric Corporation
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IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
u Safety Precautions
n Safety,Protection,andModificationoftheProduct• In order to protect the system controlled by the product and the product itself and ensure
safe operation, observe the safety precautions described in this user’s manual. We assume no liability for safety if users fail to observe these instructions when operating the product.
• Ifthisinstrumentisusedinamannernotspecifiedinthisuser’smanual,theprotectionprovided by this instrument may be impaired.
• If any protection or safety circuit is required for the system controlled by the product or for the product itself, prepare it separately.
• Be sure to use the spare parts approved by Yokogawa Electric Corporation (hereafter simply referred to as YOKOGAWA) when replacing parts or consumables.
• Modificationoftheproductisstrictlyprohibited.• The following safety symbols are used on the product as well as in this manual.
DANGERThis symbol indicates that an operator must follow the instructions laid out in this manual in order to avoid the risks, for the human body, of injury, electric shock, or fatalities. The manual describes what special care the operator must take to avoid such risks.
WARNINGThis symbol indicates that the operator must refer to the instructions in this manual in order to prevent the instrument (hardware) or software from being damaged, or a system failure from occurring.
CAUTIONThis symbol gives information essential for understanding the operations and functions.
Note!This symbol indicates information that complements the present topic.
This symbol indicates Protective Ground Terminal
This symbol indicates Function Ground Terminal (Do not use this terminal as the protective ground terminal.)
n Warning and DisclaimerThe product is provided on an “as is” basis. YOKOGAWA shall have neither liability nor responsibility to any person or entity with respect to any direct or indirect loss or damage arising from using the product or any defect of the product that YOKOGAWA can not predict in advance.
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IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
n FLXA21l Regulatory Compliance
Safety: EN61010-1 UL 61010-1 (Pending) CSA C22.2 No.61010-1 (Pending)EMC: EN61326-1 Class A,Table 2 (For use in industrial locations) EN61326-2-3 AS/NZS CISPR11Installation altitude: 2000 m or lessCategory based on IEC 61010: I (Note 1)Pollution degree based on IEC 61010: 2 (Note 2)Note1: Installationcategory,calledover-voltagecategory,specifiesimpulsewithstandvoltage. Equipment with "Category I" (ex. 2-Wire transmitter) is used for connection to circuits in which measures are taken to limit
transient over-voltages to an appropriately low level.Note 2: Pollution degree indicates the degree of existence of solid, liquid, gas or other inclusions which may reduce dielectric
strength. Degree 2 is the normal indoor environment.
DANGER
Installation and wiringThe FLXA21 should only be used with equipment that meets the relevant IEC, American or Canadian standards. Yokogawa accepts no responsibility for the misuse of this unit.
DANGER
Don’t install “general purpose type” instruments in the hazardous area.
CAUTION
The Instrument is packed carefully with shock absorbing materials, nevertheless, the instrument may be damaged or broken if subjected to strong shock, such as if the instrument is dropped. Handle with care.
CAUTION
This instrument is a Class A product, and it is designed for use in the industrial environment. Please use this instrument in the industrial environment only.
CAUTION
TheHARTcommunicationmaybeinfluencedbystrongelectromagneticfield.In this case another trial of the HART communication and/or operation with FLXA21 touch screen can be carried out.
WARNING• Do not use an abrasive or organic solvent in cleaning the instrument.• Do not modify the FLXA21.• Substitution of components may impair suitability for Division 2. Do not remove or replace while circuit is live unless area is know to be non-hazardous. Explosion Hazard – Do not disconnect equipment unless area is known to be
nonhazardous. Do not reset circuit breaker unless power has been removed from the equipment or the area
is known to be non-hazardous.
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IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
WARNINGElectrostaticdischargeThe FLXA21 contains devices that can be damaged by electrostatic discharge.When servicing this equipment, please observe proper procedures to prevent such damage.Replacement components should be shipped in conductive packaging. Repair work should be done at grounded workstations using grounded soldering irons and wrist straps to avoid electrostatic discharge.
l Howtodisposethebatteries:This is an explanation about the new EU Battery Directive(DIRECTIVE 2006/66/EC).This directive is only valid in the EU.Batteries are included in this product.Batteries incorporated into this product cannot be removed by yourself.Dispose them together with this product.WhenyoudisposethisproductintheEU,contactyourlocalYokogawaEuropeB.V.office.Donotdispose them as domestic household waste.Battery type: Manganese dioxide lithium batteryNotice: The symbol means they shall be sorted out and collected as ordained in ANNEX
II in DIRECTIVE 2006/66/EC.
n Warranty and serviceYokogawa products and parts are guaranteed free from defects in workmanship and material under normal use and service for a period of (typically) 12 months from the date of shipment from the manufacturer.Individual sales organisations can deviate from the typical warranty period, and the conditions of sale relating to the original purchase order should be consulted. Damage caused by wear and tear, inadequate maintenance, corrosion, or by the effects of chemical processes are excluded from this warranty coverage.In the event of warranty claim, the defective goods should be sent (freight paid) to the service department of the relevant sales organisation for repair or replacement (at Yokogawa discretion). The following information must be included in the letter accompanying the returned goods:
• Part number, model code and serial number• Original purchase order and date• Length of time in service and a description of the process• Description of the fault, and the circumstances of failure• Process/environmental conditions that may be related to the failure of the device.• A statement whether warranty or nonwarranty service is requested• Complete shipping and billing instructions for return of material, plus the name and phone
number of a contact person who can be reached for further information.Returned goods that have been in contact with process fluids must be decontaminated/disinfected before shipment. Goods should carry a certificate to this effect, for the health and safety of our employees.
Material safety data sheets should also be included for all components of the processes to which the equipment has been exposed.
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IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
n CopyrightandTrademarkNoticesThe copyrights of online manual contained in the CD-ROM are reserved.TheonlinemanualisprotectedbythePDFsecurityfrommodification,however,itcanbeoutputvia a printer. Printing out the online manual is only allowed for the purpose of using the product. When using the printed information of the online manual, check if the version is the most recent one by referring to the CD-ROM’s version.No part of the online manual may be transferred, sold, distributed (including delivery via a commercial PC network or the like), or registered or recorded on video tapes.
Adobe, Acrobat and Acrobat Reader are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States and/or other countries.All other company and product names mentioned in this user’s manual are trademarks or registered trademarks of their respective companies.We do not use TM or ® mark to indicate those trademarks or registered trademarks in this user’s manual.
l FLXA21’s fonts(c) Copyright 2000-2001 /efont/ The Electronic Font Open Laboratory. All rights reserved.Redistributionanduseinsourceandbinaryforms,withorwithoutmodification,arepermittedprovided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
3. Neither the name of the team nor the names of its contributors may be used to endorse or promoteproductsderivedfromthisfontwithoutspecificpriorwrittenpermission.
THIS FONT IS PROVIDED BY THE TEAM AND CONTRIBUTORS “AS IS” AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE TEAM OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS FONT, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
Toc-1
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Model FLXA212-Wire AnalyzerStart-up Manual
CONTENTS
IM 12A01A02-12E 2nd Edition
u Introduction ....................................................................................................iu Safety Precautions .......................................................................................ii1. Instrumentcheck ..........................................................................................12. Wiring and Installation .................................................................................3
2.1 Installation site ..................................................................................................... 42.2 Installingthecableglands .................................................................................. 42.3 Wiringthepowersupply ..................................................................................... 6
2.3.1 Grounding ............................................................................................. 7
2.3.2 Connection of the power supply ........................................................... 7
2.3.3 Wiring cover .......................................................................................... 8
2.4 Sensor wiring ....................................................................................................... 82.4.1 pH/ORP sensor wiring ........................................................................ 10
2.4.2 Wiring the conductivity (SC) sensor .................................................... 16
2.4.3 Wiring the inductive conductivity (ISC) sensor ................................... 17
2.4.4 Connecting the dissolved oxygen (DO) sensor .................................. 18
2.5 Mountingmethods ............................................................................................. 192.5.1 Plastic housing .................................................................................... 19
2.5.2 Stainless steel housing ....................................................................... 21
3. Operation .................................................................................................... 253.1 Changelanguage ............................................................................................... 263.2 Screen operation ................................................................................................ 273.3 Passwords .......................................................................................................... 31
Appendix1 UsersettingtableofPH/ORP ............................................App.1-1Appendix2 UsersettingtableofSC .....................................................App.2-1Appendix3 UsersettingtableofISC ....................................................App.3-1Appendix4 UsersettingtableofDO ....................................................App.4-1Revision Record .......................................................................................................i
<1.Instrumentcheck> 1
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1. InstrumentcheckUpon delivery, unpack the instrument carefully and inspect it to ensure that it was not damaged during shipment. If damage is found, retain the original packing materials (including the outer box)andthenimmediatelynotifythecarrierandtherelevantYokogawasalesoffice.
l CheckingthemodelandsuffixcodeLoosen four front panel screws of the FLXA21, open the panel to the left, and make sure the modelandsuffixcodeonthenameplateaffixedtothebacksideofthefrontpanelagreeswithyour order.
24VDC
FLXA21
STYLE
2-WIRE ANALYZER
Made in Japan
-20 to +55°C4-20mA DC
NO.
TEMP. RANGEOUTPUTSUPPLY
SUFFIXMODEL
-D-P-S-AA-P1-NN-AN-L1-N-NN/UM/SCT/H6/CA1/K
Figure1-1. InsideoftheFLXA21andexampleofnameplate
Note!
Be sure to apply correct power to the unit, as detailed on the nameplate.
CAUTION
When you open the front panel, make sure the screws are completely out of the screw holes, and then open the front panel slowly in order not to damage the threaded parts on the housing. If the threaded parts are damaged and the screws cannot be tightened, the waterproof performance will deteriorate.
CAUTION
Be careful not to lose the four front panel screws.
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l CheckingtheaccessoriesMake sure the accessories in Table 1.1 are included.
Table1.1 Accessories
Product Name Quantity RemarkCable glands 3 or 4 sets In the case of the plastic housing. 4 sets
when 2 sensors are used.With a rubber plug.
7 sets In the case of the stainless steel housing.With rubber plugs (5pcs).
PH analyzer Jumper 2 pcs/sensorGrommet set 1 set/sensor
Option Bracket (1 set) Option code /UM, /U, /PMSun shade hood (1 set) Option code /H6, /H7, /H8
Tag plate (1 set) Option code /SCT
Adapter for conduit work (1 set) Option code /CB4, /CD4, /CF4Instruction Manual (CD) 1 copyStartup Manual 1 copy This document
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2. Wiring and InstallationInstall the cable glands into the FLXA21 before installing it. Upon delivery, the cable glands are not installed. Refer to section 2.2. and install the M20 cable glands.
(Plastic housing)(Stainless steel housing)
*2 *2
*3
*4
*5
*5
n n n n n n n n n
n n n n n n n n n
+–
*1: Use a 2-conductor shielded cable with an outside diameter of 6 to 12 mm.*2: Ground FLXA21 ( Class D ground: 100 ohm or less)
The way of connecting the grounding cable varies depending on the plastic housing and stainless steel housing.
In the case of the plastic housing, connect the grounding cable to the terminal of the power module inside, and in the case of the stainless steel housing, connect the grounding cable to the terminal of the housing.
Use a cable with an outside diameter of 3.4 to 7 mm for the grounding line of the plastic housing.
*3: Refer to module*4: Two modules can be connected to the same object. When measuring
inductive conductivity, only one module can be connected. *5: The terminal box may need to be connected depending on the object under
test or the sensor selected.*6: This line is connected to a distributor or 24V DC power supply.*7: Two outputs of PH201G or SDBT are same.
*1
WTB10 or BA10Terminal box FLXA21 2-Wire Analyzer
Sen
sor
WTB10 or BA10Terminal box
Sen
sor
161519171318141211
PH
NC1817141315161211
DO
15161417131211
ISC
NC161514131211
SC
PH Module
SC Module
ISC Module
DO Module
Power supply
Output 1 (1-5V DC)
20 to 130V DCor80 to 138V AC, 47 to 63Hz
Power supply20 to 130V DCor80 to 138V AC, 47 to 63Hz
HOLD WASHFAIL
Output 2 (1-5V DC)
Output 1 (1-5V DC)
Output 2 (1-5V DC)
Case of DistributorPH201G (Style B)
Case of DistributorSDBT
(*6)
*6
*7
*7
(*6)
A+
– CMN CMNB
CD
FH
L N
A+
–+
–B
1+
–2
FH
L N
Figure 2.1 Wiring diagrams
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2.1 Installation siteThe FLXA21 is weatherproof and can be installed both inside and outside. It should, however, be installed as close as possible to the sensor to avoid long cable runs between the instrument and sensor. When the pH sensor is used, the cable length including the sensor cable should not exceed 20 meters (65.6 feet).
Select an installation site that meets the following conditions.
• Mechanical vibrations and shocks are negligible• No relay switch and power switch are installed close to the converter• There is space for cable connection beneath the cable glands• Not exposed to direct sunlight or severe weather conditions• Maintenance is possible• No corrosive atmosphere
Select an installation site where the ambient temperature and humidity are within the limits of the instrumentspecifications(seeIM12A01A02-01Echapter2).Iftheinstrumentisinstalledoutsideand exposed to direct sunlight, a sun shade hood should be used.
2.2 InstallingthecableglandsBefore installing this instrument, open the front panel and remove the wiring cover, and then install the cable glands.
CAUTION
Be careful not to lose the wiring cover screws.
The supplied cable glands are for cables with an outside diameter of 6 to 12 mm (0.24 to 0.47 inches). Unused cable entry holes must be sealed with cable glands including the supplied close up plugs.
(A hole is drilled, if specified.)
Plastic Housing Stainless Steel HousingF0202.ai
(For sensor 2 cable)For sensor 1 cable
(For sensor 2 cable)For sensor 1 cable
For power supply
(Either terminal is provided depending on the option code.)
For power supply
For grounding cable
Figure2.2 Cableglanddiagram
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CAUTION
Be careful not to be injured by the sharp hole edges on the housing.
Follow the procedure below to install the supplied cable glands or an adapter for conduit work if the latter is ordered.
Cable gland nut
O-ring
Gable glandSleeve(for grounding cable line of the plastic housing)Cable gland cap
Close up plug(rubber) F0203.ai
Figure2.3 Cableglands
The unused cable glands should be sealed with the supplied close up plug.
DANGER
When installing cable glands, hold cable glands and tighten cable gland nuts to a torque of 6 N•m. If cable glands, not gland nuts, are tightened, O-rings may be come out from the proper positions.
l AdapterforconduitworkWhen protecting the cable with a conduit, use an adapter (option codes: /CB4, /CD4, or /CF4). Settheadapterasshowninfigure2.4.insteadofusingthesuppliedM20cablegland.
Adapter
49(1.93")
G1/2 screw (/CB4), 1/2 NPT screw (/CD4)M20x1.5 screw (/CF4)
Approx.55(2.2")
Packing
Unit: mm(inch)Nut
F0204.ai
Figure2.4 Adapterforconduitwork(option)
DANGER
Whenusingacableconduit,useaflexibleconduittoavoidstressontheconduitadapter.The stress on the conduit adapter may damage the housing.
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2.3 WiringthepowersupplyFirstmakesurethatthepowersupplyisinaccordancewiththegivenspecifications.
CAUTION
The FLXA21 is used with a DC power supply. Do not use an alternating current or 100 volt mains power supply.
The cable leading to the distributor (power supply) supplies the power to and transmits the output signal from the FLXA21.Use a two conductor shielded cable with a minimum cross sectional area of 1.25 mm2 and an outside diameter of 6 to 12 mm. The cable gland supplied with the instrument is compatible with these diameters.Terminal screw size is M4, and torque of screw up is 1.2 N•m.Pin terminal, ring terminal and spade terminal can be used for the power supply terminals in the plastic housing and the stainless housing, and the grounding terminal in the plastic housing. For the grounding terminal on the stainless steel case, ring terminal should be used. Pin terminal: pin diameter: max. 1.9 mm Ring and spade terminal: width: max. 7.8 mm
Figure 2.5 Power supply and ground wiring cover
WARNING
Cables that withstand temperatures of at least 60°C should be used for wiring.
WARNING
Always place the shield cover over the power supply and contact terminals for safety reasons and to avoid interference.
<2.Wiringandinstallation> 7
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2.3.1 GroundingThe way of connecting the grounding terminal varies depending on whether the housing is plastic or stainless steel.
For the safety of the user and to protect the instrument against interference, the converter housing must always be connected to a class D ground (a ground resistance of 100 ohm or less).
WARNING
The minimum cross sectional area of the protective grounding cable should be 0.75 mm2.
l GroundingtheplastichousingA single separate cable line for grounding should be connected to the terminal inside the housing. (Figure 2.6A)The cable with an outside diameter of 3.4 to 7 mm should be used. For this cable size, use the sleeve delivered with cable glands. (Figure 2.3)The shield of a two conductor shielded cable connecting the distributor and transmitter should be connected to the terminal on the terminal block inside the transmitter.This shield should not be connected to the ground terminal on the distributor side.
l GroundingthestainlesssteelhousingThe terminal outside the transmitter housing should be used for grounding. (Figure 2.6B or C)The position of grounding terminal of stainless steel housing with the option code of panel mountinghardware(/PM)oruniversalmountingkit(/UM)isshownonthefigure2.6C.For this terminal, ring terminal should be used.The shield of a two conductor shielded cable connecting the distributor and transmitter should be connected to the terminal on the terminal block inside the transmitter. This shield should not be connected to the ground terminal on the distributor side.
A B CPlastichousing(Internalgrounding) Stainlesssteelhousing(Externalgrounding)Figure 2.6 Grounding
2.3.2 ConnectionofthepowersupplyOpen the front panel and remove the wiring cover to make the terminal block accessible.Passthesupply/outputcablethroughthepowercableholeindicatedinfigure2.2tothetransmitter and connect it to the terminals marked +, - and according to the power terminal marks.
<2.Wiringandinstallation> 8
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2.3.3 Wiring coverWhenattachingthewiringcover,alignthecoverwiththeareasmarkedwithinthefigureandfastenitwiththescrewintheareamarkedwith∆.
WARNING
The screw in the area marked with ∆ should be tightened to a torque of 0.35 to 0.45 N•m.
If a second module is used, wire the sensor for the second module and attach the wiring cover (refertofigure2.8).Then,wirethesensorforthefirstmoduleandattachthewiringcover(refertofigure2.9).The sensor wiring is shown in section 2.4.
CAUTION
Be careful not to lose the wiring cover screws.
2.4 Sensor wiringThe FLXA21 can be used with a wide range of commercially available sensor types, both from Yokogawa and other manufacturers.Terminal screw size is M4, and torque of screw up is 1.2 N•m.Pin terminal, ring terminal and spade terminal can be used. Pin terminal: pin diameter: max. 1.9 mm Ring and spade terminal: width: max. 7.8 mmFor details on the sensors, refer to the respective instruction manuals of the sensors.
CAUTION
Whenthewiringofsensorsisfinished,besuretoattachthewiringcovers.Furthermore,makesure the module is locked with the mechanisms on the left and right of the module.
Unlock LockFigure2.7 Lockingthemodule
CAUTION
Confirmthatalllocking-tabs(includingforBLANKslots)are“Locked”positionwhenclosethefront panel.If locking-tabs are “Unlock” position, the front panel may be interfered with locking-tabs.
<2.Wiringandinstallation> 9
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Figure2.8 Modulewiringcover(lowerlevel)andjumperholder
Note: Jumpers are supplied only with the pH sensor.
Figure2.9 Modulewiringcover(upperlevel)
CAUTIONWhen input 2 is used, the upper-level module is for input 1. Be careful not to make a mistake when wiring the modules.
Wheninput2isused,firstwireinput2whichisonthelowersecondmodule,andattachthewiringcover.Evenwheninput2isnotused,firstattachthepowersupply/groundingwiringcoverandthenthewiringcoverforthesecondmodule,andfinallywireinput1.
When all sensor wiring is completed, close the front cover of the FLXA21, and turn on the power. Make sure that the display is normal.
WARNINGDo not tighten up four front panel screws one by one.Each front panel screw should be tightened up in two times of screwing. And, firstly the screw at the upper left should be screwed a bit, the next is at the lower right, third is at the upper right, and fourth is at the lower left. The second round is the same sequence again to tighten up four screws.Do not use an electric screwdriver with high revolutions. If an electric screwdriver is used for these front panel screws, the revolutions of the electric screwdriver should be less than 400 rpm.Four screws should be tightened to the following torque; 0.8 to 0.9 N•m (for the plastic housing) 1.5 to 1.6 N•m (for the stainless steel housing)
<2.Wiringandinstallation> 10
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2.4.1 pH/ORPsensorwiring161519171318141211
PH
Figure 2.10 PH module terminal diagram
n ImpedancemeasurementjumpersettingsImpedance measurement is a powerful diagnostic tool. In order to perform impedance measurementsitisimportanttohaveagoodjumpersetting.Thetableandfigurebelowwillguideyou to make the right setting.
Note!
Itisimportanttodecidefirstwhichapplicationandwhichsettingsareappropriatefortheinstallation.Thisdecisionis best done before the jumpers are installed, because the cables will rest on top of the jumpers in their installed positions.
Figure 2.11 shows the jumper positions.For Low impedance 18 or 19 should be shorted by a jumper.When shipped, no jumper is placed on any terminals. Two jumpers are placed in a plastic bag and supplied with the product.Typical setting for pH measurement, 13 and 18 are shorted to become a low impedance input. Unused jumpers should be stored in jumper holders in the cover, as shown in Figure 2.8.Special electrodes using 2 glass sensors (e.g. Pfaudler, SC24V) doesn’t need jumper(s).
161519171318141211
PH
161519171318141211
PH
Input 1Input 2
Normal pH sensors (including FU20)
Glass sensor on Input 1.Reference sensor on Input 2.
Input 1Input 2
ORP (Redox measurement)
Metal sensor on Input 1.Normal reference on Input 2.
Figure 2.11 Jumper placements for low impedance setting
After placing jumper(s), set values of Input 1 and Input 2 impedance by [Impedance setting] menu.Refer IM12A01A02-01 section 5.2.5 for details.Initial setting value of [Impedance setting] is same as Figure2.11 (Normal pH sensors).
n Sensor wiringRefertofigure2.13to2.15,whichincludesdrawingsthatoutlinesensorwiring.The FLXA21 can be used with a wide range of commercially available sensor types, both from Yokogawa and other manufacturers. The sensor systems from Yokogawa fall into two categories; theonesthatuseafixedcableandtheoneswithseparatecables.Toconnectsensorswithfixedcables,simplymatchtheterminalnumbersintheinstrumentwiththeidentificationnumbersonthecableends.The separate sensors and cables are not numbered, but instead use a color-coding system. The electrodes have a colored band incorporated in the label on the connection cap:
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• Red for measuring electrodes (both pH and ORP)• Yellow for reference electrodes• Blue for combined sensors with both measuring and reference elements in the same
body• Green for temperature sensors
The recommended procedure is to color-code each end of the cables to match the sensors with the color strips provided with each cable. This provides a quick way to identify the ends of the cables belonging to a particular sensor when they are installed.
n ConnectioncableThe coaxial cable has two connections.
coreshield
redblue
Coaxial
redbluewhite
Triaxial
Figure 2.12
• Red to measuring element• Blue to screen (shield)
The triaxial cable has three connections, (it has an extra white wire termination) these wires are connected:
• Red to measuring element• Blue to reference• White to screen (shield)
To connect the other sensor systems, follow the general pattern of the terminal connections as listed below:
TerminalSingle Measurement
(pHorRedox)Combinedmeasurement
(pHandRedox)pH ORP pH and ORP pH and rH
11 Temperature 1 – Temperature 1 Temperature 112 Temperature 2 – Temperature 2 Temperature 213 Reference Reference Reference Reference14 Liquid Earth Liquid Earth ORP ORP15 pH ORP pH pH16 Shield of no. 15 Shield of no. 15 Shield of no. 15 Shield of no. 1517 Shield of no. 13 Shield of no. 13 Shield of no. 13 Shield of no. 13
Note!
For ORP measurement, temperature is not required.
<2.Wiringandinstallation> 12
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
*
*
*
*
Green
Yellow
Red
Red
Blue
BlueBlue
RedBlackRed
Cable markers
11 Temperature12 Temperature13 Reference14 Solution ground15 Glass (measure)16 Shield17 Shield
FLXA21 FLXA21
FLXA21
FLXA21
Separate electrodes for pH measurement
11 Temperature12 Temperature13 Reference14 Solution ground15 Glass (measure)16 Shield17
111213141516
FU20/FU24 four-in one sensor for pH measurement
*
*
*
16 Shield15 Glass (measure)14 Solution ground13 Reference12 Temperature11 Temperature
Red
Blue
Green
RedBlue
BlueBlack
White 17 Shield
Cable markers
Combined glass/reference electrode for pH measurement
15 Glass (measure)14 Solution ground13 Reference12 Temperature11 Temperaturered
blueblackyellowtransparentblack (coax) 16 Shield
17
Retractable sensor assembly PR10(Also PD20, PF20 & PS20)
Note:Connect cables to similaly marked terminals: 11 to 11, 12 to 12, etc.This configuration also enables combined pH+ORP measurements
Note:Connect cables to similaly marked terminals: 11 to 11, 12 to 12, etc.
FLXA21SC24V
16 Shield15 Glass (measure)14 Solution ground13 Reference12 Temperature11 TemperatureRed
Blue
Brown
WhiteYellow
17 Shield
REFTC PHLiquidEarth
CombPH/REF
pH
Figure 2.13 Sensor wiring for pH measurement
Separete electrodes for pH and Redox(ORP/rH) measurement
FU20/FU24 Four-in-one sensor for pH and Redox measurement
***
Cable markersThe blue cable can also be disconnected
Note:Connect cables to similaly marked terminals: 11 to 11, 12 to 12, etc.This configuration also enables combinedpH+ORP measurements.
11 Temperature12 Temperature13 Reference14 Metal ORP sensor15 Glass (measure)16 Shield17 Shield
11 Temperature12 Temperature13 Reference14 Solution ground15 Glass (measure)16 Shield17
111213141516
*
*
***
Green
Yellow
Red
Red
Blue
BlueBlue
RedRed & Blue
Red
REFTC PHORP
pH+ORPFLXA21 FLXA21
Figure2.14 Sensorwiringforcombined(pH+Redox)measurement
<2.Wiringandinstallation> 13
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
11 Temperature
12 Temperature
13 Reference
14 Solution ground (ORP)
15 Metal
16 Shield17
FU20/FU24 four-in-one sensor for ORPmeasurement with normal reference
Separate electrodes for ORPmeasurements
* Cable Markers
* Cable Markers
RED
BLUE
RED
BLACK
RED
BLUE
BLUE
Red*
Yellow*
Green*11 Temperature
12 Temperature
13 Reference
14 Solution ground
15 Metal (measure)
16 Shield
17 Shield
11 Temperature
12 Temperature
13 Reference
14 Solution ground
15 Metal (measure)
16 Shield
17 Shield
Combined metal/reference electrode for ORP measurement
RED
BLUE
BLUE
BLACK
RED
WHITE
Blue*
Green*
11 Temperature
12 Temperature
13 Glass
14 Solution ground
15 Metal
16 Shield
17 Shield
Combined metal/glass electrodefor sensor pH compensated Redox (ORP/rH) measurement
RED
BLUE
BLUE
BLACK
RED
WHITE
Blue*
Green*
16 15
Single electrodes for rH measurement
RED
BLUE
RED
BLACK
RED
BLUE
BLUE
Red*
Yellow*
Green*11 Temperature
12 Temperature
13 Glass
14 Solution ground
15 Metal
16 Shield
17 Shield
* Cable Markers
* Cable Markers
111213
14
11 Temperature
12 Temperature
13 Reference
14 Solution ground (ORP)
15 Metal
16 Shield17 Shield
FU20/FU24 four-in-one sensor for ORPmeasurement with pH sensor as reference
16
111215
14
13(not used) (not used)
ORP
REFTC LiquidEarth
CombPH/ORP
ORP CombORP/REF
FLXA21 FLXA21
FLXA21 FLXA21
FLXA21 FLXA21
Figure 2.15 Sensor wiring for redox measurement
n SensorcableconnectionwithspecialgrommetIn order to seal multiple sensor cables into FLXA21, a special grommet is provided that is designed to accommodate one, two or three sensor cables (5 mm dia.) plus a liquid earth cable (2.5 mm dia.). In the pack with the grommet are blanking pieces to close any unused holes. When correctly assembled, the grommet maintains the IP66 and NEMA 4X rating of the FLXA21 housing.
Note!ThespecialgrommetisintendedtobeusedtosealthemultiplecablesfromtheYokogawaflowfittingssuchasFF20.The designated cables are WU20 sensor cables, which are approximately 5 mm (0.2”) in diameter, and K1500FV liquid earth cables, which are approximately 2.5 mm (0.1”) in diameter.
<2.Wiringandinstallation> 14
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
For sensor systems using a single cable, like the FU20/FU24 and the PR10, PD20, PF20 and PS20, the standard gland will accommodate the cable adequately. Single cables between approximately 6 mm and 12 mm (0.24” and 0.47”) can be sealed properly with these glands and the standard tule.
Removestandard tule
Figure 2.16 Grommet set use Content of grommet set
n Sensorcableconnectionsusingjunctionbox(BA10)andextensioncable(WF10)
Where a convenient installation is not possible using the standard cables between sensors and converter, a junction box and extension cable may be used. The Yokogawa BA10 junction box and the WF10 extension cable should be used. These items are manufactured to a very high standardandarenecessarytoensurethatthespecificationsofthesystemcanbemet.Thetotalcablelengthshouldnotexceed60metres(e.g.5mfixedcableand55mextensioncable).
1112
12
1314
1416
15
1314
1416
15
17
1117
11 Red12 Blue
14 Overall Screen
15 Core 16 ScreenWhite Co-axial cable
13 Core 17 ScreenBrown Co-axial Cable
11
12
13
14
15
16
17
11
12
13
14
15
16
17
BA10
WF10
FLXA21
17 (screen)
14 (overall screen)
12 (blue)
11 (red)
13 (core)
16 (screen)
15 (core)Co-axial cable
(white)Co-axial cable
(brown)
Figure2.17 ConnectionofWF10extensioncableandBA10junctionbox
<2.Wiringandinstallation> 15
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Anextensioncablemaybepurchasedinbulkquantitiesorinpre-finishedlengths.Inthecaseofbulk quantities cut to length, then it is necessary to terminate the cable as shown below.Termination procedure for WF10 cable.
1. Slide 3 cm of heat shrink tube (9 x 1.5) over the cable end to be terminated.2. Strip 9 cm of the outer (black) insulating material, taking care not to cut or damage internal
cores.3. Remove loose copper screening, and cut off the cotton packing threads as short as
possible.4. Strip insulation from the last 3 cm of the brown, and the white coaxial cores.5. Extract the coaxial cores from the braid, and trim off the black (low-noise) screening material
as short as possible.6. Insulate the overall screen and the 2 coaxial screens with suitable plastic tubing.7. Strip and terminate all ends with suitable (crimp) terminals and identify with numbers as
shown.8. Finally shrink the overall heat shrink tube into position.
3 cmheat shrink
9 cmremove insulation
Cotton threads
3 cm
111217
15161314
Figure 2.18
<2.Wiringandinstallation> 16
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
2.4.2 Wiringtheconductivity(SC)sensorNC161514131211
SC
Figure 2.19 SC module terminal diagram
Generally, signals from sensors are at low voltage and low current level. Thus a lot of care must be taken to avoid interference. Before connecting sensor cables to the converter make sure that following conditions are met:
– the sensor cables are not mounted in tracks together with high voltage and or power switching cables
– only standard sensor cable or extension cable is used– the converter is mounted within the distance of the sensor cables (max. 10 m) + up to 60m
WF10 extension cable.– thesetupiskeptflexibleatthesensorsendforeasyinsertionandretractionofthesensorin
thefitting.
Refertofigure2.19,whichincludesdrawingsthatoutlinesensorwiring.The FLXA21can be used with a wide range of sensor types. The sensor system fall into two categories,theonesthatusefixedcablesandtheoneswithseparatecables.Toconnectsensorswithfixedcables,simplymatchtheterminalnumbersintheinstrumentwiththeidentificationnumbersonthecableends.
FLXA21
11 Temperature
12 Temperature13 1st inner cell
14 1st outer cell15 2nd inner cell16 2nd outer cell
FLXA21
SX42-SX** -* F sensors
Red Yellow/Green
Brown
11 Temperature
12 Temperature
13 Inner electrode
14 Outer electrode
15 Inner electrode
16 Outer electrode
BA10 Connection BoxWF10 Extension Cable
15
16
14
14
17
13
12
11
15
16
14
14
17
13
12
11
Figure 2.19 Sensor wiring diagrams
n Sensorcableconnectionsusingjunctionbox(BA10)andextensioncable(WF10)
Refer pH sensor
<2.Wiringandinstallation> 17
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
2.4.3 Wiringtheinductiveconductivity(ISC)sensor15161417131211
ISC
Figure 2.20 ISC module terminal diagram
Thermistor (Temperature sensor)
ground (shield)
Secondary Coil
Primary Coil
11 12 17 13 15 16 14
Figure 2.21 ISC40G Sensor wiring diagrams
n Sensorcableconnectionsusingjunctionbox(BA10)andextensioncable(WF10)
Refer pH sensor
<2.Wiringandinstallation> 18
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
2.4.4 Connectingthedissolvedoxygen(DO)sensorNC1817141315161211
DO
Figure 2.22 DO module terminal diagram
111213141516
Galvanic sensor
1112141718
Polarographic sensor
Figure 2.23 Connections DO
CAUTION
When connecting pin-terminal 13 of the sensor cable, make sure that the connected cables are not disconnected. Also make sure that the sensor cable is not disconnected even when it is pulled slightly. If the cable is not connected tightly enough, measurement values may become unstable and measurement errors may occur.
n WiringthestandardgalvanicsensorThe individual wires of the sensor cable have markings on them. These markings match the markings on the terminals. Note: “The membrane rupture detection function is only available for the DO30G with and external liquid earth. Like in for example the
PB350G/PB30/PB360G.
n WiringothergalvanicsensorsConsulttheuser’smanualforthecoloridentificationofthesensorcableandconnectthetemperature sensor, the cathode, and the anode to the terminals (for terminals 11, 12, 13, and 15). If only one shielded cable is available, connect it to terminal 14. In this case, sensor diagnosis cannot usually be carried out.
n WiringpolarographicsensorsConsulttheuser’smanualforthecoloridentificationofthesensorcableandconnectthetemperature sensor, the anode, and the cathode to the terminals in the order of terminals 11, 12, 17, and 18. If a shielded cable is available, connect it to terminal 14.
n Sensorcableconnectionsusingjunctionbox(BA10)andextensioncable(WF10)
Refer pH sensor
<2.Wiringandinstallation> 19
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
2.5 MountingmethodsRefertofigures2.25to27and2.32to34.TheFLXA21hasavariouskindsofmountingcapabilities.
• Panel mounting using optional mounting hardware (/PM or /UM)• Wall mounting using optional mounting hardware (/U or /UM) (for example, on a solid wall)• Pipe mounting using optional mounting hardware (/U or /UM) on a horizontal or vertical pipe
(Nominal size 50A)(Note) The universal mounting kit (/UM) contains the pipe and wall mounting hardware (/U) and the panel mounting hardware (/PM).
2.5.1 Plastichousing
144 80
80144
22.5141
151
137
20.244.9
26.5
24.7
26.5
1
(For sensor 2 cable)For sensor 1 cable
For power supply
For grounding cable
4-M6 depth 5
FB4_01.ai
Uit: mm
Figure2.24 Housingdimensionsandlayoutofglands(Plastichousing)
<2.Wiringandinstallation> 20
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
135 0
+1138
0+113
8
195
185
17810
0
2-M5 length 35P
anel
thic
knes
s
Spacing panel cutout
4-M6 *
1 to
12
FB4_03.ai
Unit: mm
*: Tighten the four screws to a torque of 2 N•m.
Figure2.25 Panelmounting(Option/PM,/UM)(Plastichousing)
224.
8
144
13144
164
10070
15
200
50
3-ø10 holesFor wall mountig
4-M6 *
FB4_02.ai
Unit: mm
*: Tighten the four screws to a torque of 2 N•m.
Figure2.26 Wallmounting(Option/U,/UM)(Plastichousing)
<2.Wiringandinstallation> 21
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
204.7151
5017
4.1
144
100
200
FB4_04.ai
Unit: mm
Pipe mounting (Horizontal) Pipe mounting (Vertical)
M8 U-bolt
Pipe 50A(ø60.5)
4-M6 *
*: Tighten the four screws to a torque of 2 N•m.
Figure2.27 Pipemounting(Option/U,/UM)(Plastichousing)
(100)(70)
(50)
10220184
199
72
FB4_05.ai
Unit: mm
57
Figure2.28 Housingwithstainlesssteelhood(Option/H6,/H7,/H8)(Plastichousing)
2.5.2 StainlesssteelhousingThe stainless housing with urethane coating (-U) or epoxy coating (-E) has an external plate as shownonfigure2.29A.Whenthesecoatedtypehousinghavetheoptionalmountinghardwareof the panel mounting hardware (/PM) or the universal mounting kit (/UM), an external plate is on therearsideasshownonfigure2.29B.
A BFigure2.29 Externalsofthecoatedtypehousing
<2.Wiringandinstallation> 22
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
80
80
137
160.1
32.6150.1
165
165
144.9 22.2
137
23.7
26.5
26.5
FB4_06.ai
Unit: mm
(For sensor 2 cable)For sensor 1 cable
For power supply
4-M6 depth 5
Figure2.30 Housingdimensionsandlayoutofglands(Stainlesssteelhousing)80
80
137
160.1
32.6150.1
165
165
144.9 22.2
137
23.7
26.5
26.5
(Only with coating)
FB4_06EN.ai
Unit: mm
(For sensor 2 cable)For sensor 1 cable
For power supply
4-M6 depth 5
Figure2.31 Housingdimensionsandlayoutofglands(Stainlesssteelhousing)(Option:/PMor/UM)
<2.Wiringandinstallation> 23
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
100
134
178
0+1138
0+113
8
195
185
FB4_08.ai
1 to
12
4-M6 *
Spacing panel cutout
Unit: mm
2-M5 length 35
Pan
el th
ickn
ess
*: Tighten the four screws to a torque of 2 N•m.
Figure2.32 Panelmounting(Option/PM,/UM)(Stainlesssteelhousing)
234.
5
165
165
173.113
200
5015
10070
3-ø10 holesFor wall mounting
4-M6 *
FB4_07.ai
Unit: mm
*: Tighten the four screws to a torque of 2 N•m.
Figure2.33 Wallmounting(Option/U,/UM)(Stainlesssteelhousing)
<3.Operation> 24
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
213.9
184.
550
160.1
165
100
200
FB4_09.ai
Unit: mm
4-M6 *
Pipe mounting (Horizontal) Pipe mounting (Vertical)
M8 U-bolt
Pipe 50A(ø60.5)
*: Tighten the four screws to a torque of 2 N•m.
Figure2.34 Pipemounting(Option/U,/UM)(Stainlesssteelhousing)
199
220184 10165
165
(100)(70)
(50)
72
FB4_10.ai
Unit: mm
57
Figure2.35 Housingwithstainlesssteelhood(Option/H6,/H7,/H8)(Stainlesssteelhousing)
<3.Operation> 25
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
3. OperationWhen all wiring is completed, turn on the power of the instrument. Make sure that the LCD screen turns on. Then, the screen changes to the Quick Setup display. If the instrument is not configured,anerrorindicatormaybedisplayed,orthemeasurementvaluesdisplayedmaybeincorrect. Check the initial settings and change them to suit your purpose. For details, refer to the IM 12A01A02-01E User’s manual.
If you are not using any display unit, refer to Appendix 4 “HART communication” of IM 12A01A02-01E.
Note!
After turning on the power, it takes occasionally more than 1 minute to change to the Quick Setup display.
<3.Operation> 26
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
3.1 ChangelanguageWhen the power is turned on, the Quick setup display appears.Upon delivery, the display language is set to English. If you want to use a language other than English, select your desired language.
ChineseEnglishGermanJapaneseKoreanPortugueseRussian
Change language
The instrument will restart
Are you sure? No
Warning
The instrument will restart
Are you sure? No
Warning
Start quick setup?
Yes No
Change language
Quick setup
Start quick setup?
Yes No
Change language
Quick setup
NoYes
ChineseEnglishGermanJapaneseKoreanPortugueseRussian
Figure3.1 Changelanguageflow
When the language is changed, the instrument restarts automatically.Besuretocheckandchangetheparameterstosuityourspecificationsbeforeusingtheinstrument. For details on the quick setup method and other information, please read the instruction manual (IM 12A01A02-01E). The initial values (factory settings) of parameters and a table for writing your setting values are attached to the end of this instruction manual. Please use themwhenyouconfigurethesettings.
<3.Operation> 27
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
3.2 Screen operation
WARNING
Press the touch screen only with your finger. Do not use a tool with a sharp tip (ex. pencil, ballpoint pen), a thin stick, a tool with a hard tip etc. to avoid scratches on the touch screen.
The main screen operations are as follows.When you press any of the following icons on the screen, the screen changes to the respective display or executes the respective function.
Returns to the main display (or home display).
Returns to the previous display.
Moves the cursor for selecting the menu item. Pressing the icon moves the cursor down to the next item. When the cursor is on the item at the very bottom, the cursor jumps back to the item at the top.
Confirmstheinput;forexample,theselectedmenuitemorsettingvalue.
Note!
When no operation is performed for 10 minutes (or the time set for automatic recovery elapses), the screen changes to the main display (or home display) automatically. (With the exception of trend display)
ThefiguresinthissectionshowthepHmeasurementforexample.Each display is different in details due to settings. Each display is only an example for some settings.For details, refer to the IM 12A01A02-01E User's manual.
n Main display
10.38Tag:FLXA21–PH
TEXT_PH
TEXT_ORPTEXT_TEMP
19.0025.0
mV4mA 20mAPH1
°CpH
HOLDWASH
Go to Home (Fig. 3.3)
Go to Zoom (Fig. 3.5)
Go to Infomation (Fig. 3.6)
Go to Execute & Setup (Fig. 3.7)BC
A
D
J
GEF
K H NM
Figure 3.2 Example of main display
Main displayAppears upon startup when one sensor is connected.When the number of the sensor 1 or sensor 2 on the home display is pressed when two sensors are connected, the main display of the selected sensor appears.
<3.Operation> 28
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
A: Measurement value: Primary value (large characters/user selectable)B, C: Measurement value: Second and tertiary values (small characters)D: UnitE: Tag No. (user programmable)F: Sensor No. *G:Sensorwellnessindicator(Moreindicatethebettercondition.)H: Hold/Wash status button (indicated only during the Hold/Wash status)J: Analog output display and parameter * (ex.: PH1…PH=Parameter, 1=sensor number)K: Additional text (set in alphanumeric characters/user programmable)M: Function buttons (Home, Zoom, Status, Execute & Setup)N: Warn/Fail indicators (indicated in blinking only during Warn/Fail status)
* When the parameter of which measurement value is indicated is selected as a process parameter, that is, mA output set on the Output setup (refer to the section 5.3, 10.2, 13.2, and 16.3), its Sensor No. is indicated as a white number in the black box, for example , and its mA output is indicated as a bar at the bottom.
Note!
Measurement values on the display can be set independent of the process parameter.
0.034mA 20mADiff-pH
pH
C
Sensor2
Sensor1
Calculated data
Differential10.38
4mA 20mAPH1
pH
Sensor2
Sensor1
R(1) Redundant sys.
Figure 3.3 Example of calculated date and redundant system
n Homedisplay(whentwosensorsareconnected)
6.35Tag:FLXA21–PH24.9
4mA 20mApH1
°C24.4 mV
pH
Tag:FLXA21–PH25.0 °C-1.8 mV
pH
10.38 ABC
F
K
H
ED
G
J
Figure3.4 Exampleofhomedisplay
Home displayAppears upon startup when two sensors are connected.(Home display is not available when only one sensor is connected)
A: Measurement value: Primary value (large characters/user selectable)B, C: Measurement value: Secondary and tertiary values (small characters)D: UnitE: Tag No. (user programmable)F: Sensor No.G:Sensorwellnessindicator(Moreindicatethebettercondition.)H: Hold/Wash indicators (indicated only during Hold/Wash status)J: Analog output display and parameter (ex.: PH1…PH=Parameter, 1=sensor number)K: Warn/Fail indicators (indicated in blinking only during Warn/Fail status)
<3.Operation> 29
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
4mA 20mADiff-pH
pH
0.03C
6.3524.9 °C24 mV
pHTag:FLXA21–PH
Calculated data
4mA 20mAPH1
pH
10.38R(1)
25.0 °C19 mV
pH
10.38Tag:FLXA21–PH
Redundant system
Figure3.5 Exampleofhomedisplayofcalculateddataandredundantsystem
n Trend display
12.00
8.40
5.60
2.50
12:00 12:20 12:40
10.38pH
Minimum
MaximumAverage
Current process value
Time
Tag:
Mea
sure
men
t val
ue Maximum value on this display
Minimum value on this display
FLXA21-PH pH1
A
D
B
G
E
FC
Figure 3.6 Example of trend display
Trend displayAppears when the primary value on the main display is pressed, orwhen the Trend button on the Zoom display is pressed.
A: X axis; Time axis (user programmable from 15 minutes to 14 days)B: Y zxis; Measurement value axis (user programmable)C: Tag No.D: Current measurement value with unitE: Trend (maximum, minimum and average values during the display update time)F: Icon (current measurement value, and maximum and minimum values until the display
update)G: Warn/Fail indicators (indicated in blinking only during Warn/Fail status)
n Zoom display
Next
20
12
4
mA
15.00
HOLD
FAIL
WASH
Next
Figure 3.7 Example of zoom displayAppears when the Zoom button on the main display is pressed.The Zoom display shows an easy-to-read graphical display of the output status. Pressing Next displays the contact state if communication is set to PH201G distributor. Pressing Next again displays the status information of the transmitter.
<3.Operation> 30
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
n InformationbuttonDiagnosis information on converters and sensors appears.
No malfunction detected.
Warning
When a warning indicator appears, maintenance is required. Pressing this key displays the detected malfunction message, and pressing the malfunction message displays troubleshooting guidelines for resolving the malfunction.
FailIndicates a malfunction. Pressing this key displays the detected malfunction message, and pressing the malfunction message displays troubleshooting guidelines for resolving the malfunction.
l Example of (Fail)
Fail:Temperature too high
Warn: No warn.
Measured processtemperature exceedsmaximum limit. RemedyCheck process temperature.Check programmed sensortype. Check connections andcable.
Figure 3.8 Example of Fail
If no error is detected, “No fail” and “No warn” are displayed.If an error is detected and warn is indicated, up to 3 messages appear.
n Execute & Setup Allowsyoutocalibrateandconfiguretheinstrument.Theseoperationscanbeprotectedwithapassword.
Execute: Calibration/Wash Hold Temporary output
Setup: Commissioning Change language Start Quick Setup
Execute & Setup
Figure 3.9 Example of Execute & Setup display
<3.Operation> 31
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
3.3 PasswordsPasswords can protect the FLXA21 from other persons’ access except a right operator’s.
Execute: Calibration/Wash HOLD Temporary output
Setup: Comissioning Change language Start Quick Setup
Execute &Setup Sensor setup Measurement setup Output setup Error configuration Logbook configuration Advanced setup Display setup Calculated data setup
Commissioning Settings Tag Passwords Date/Time Communication Factory setup
Advanced setupExecute:
Commissioning:
Entering an empty passwordresults in disabling thepassword check.
Passwords
Figure 3.10 Example of passwords setting
Execute operation and Commissioning operation can be separately protected by each password. When the Execute password is set, execution of Calibration(/Wash), HOLD or Temporary output needs to enter the password to start each execution. When the Commissioning password is set, Commissioning and Start Quick Setup needs to enter the password to start the setting-up.
For details on the password, refer to the IM 12A01A02-01E User's manual.
<Appendix1UsersettingtableofPH/ORP> App.1-1
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Appendix1 UsersettingtableofPH/ORP* Reference section of User’s Manual, IM 12A01A02-01E
Parameter Default values Applicablevalues User
settings*Ref. sect.
Sensor setup
Sensor type pH PH, ORP, PH+ORP 5.1
Measure-ment setup
(Measurement) pH+ORP pH, ORP, pH+ORP, pH+rH, rH
5.2.1
Tempera-ture setting
Temp. element Pt1000 Pt1000, Pt100, 3kBalco, 8k55, PTC10k,6k8,500Ω
5.2.2
Unit ºC ºC, ºF
Temp. compensa-tion
Compensation Automatic Manual, Automatic 5.2.3
Manual Manual temp. 25.0 ºC (77.0 ºF)
-30 to 140 ºC (-22.0 to 284.0 ºF)
Reference temp. 25.0 ºC (77.0 ºF)
0.0 to 100.0 ºC (32.0 to 212.0 ºF)
Process Temp. Compen-sation
pH None None, TC, Matrix, NEN6411
T.C.pH 0.000 pH/ºC(0.000 pH/ºF)
-0.100 to 0.100 pH/ºC(-0.056 to 0.056pH/ºF)
Matrix — —
ORP None None, TC
T.C.ORP 0.000 mV/ºC(0.000 mV/ºF)
-10.00 to 10.00 mV/ºC(-5.556 to 5.556mV/ºF)
PH
<Appendix1UsersettingtableofPH/ORP> App.1-2
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Measure-ment setup
Calibration settings
pH settings Zero and Slope units
Zero unit mV mV, pH 5.2.4
Slope unit % %, mV/pH
Limits and timig
Zero High 120.0 mV (2.03 pH)
0.00 to 500 mV (0.00 to 8.45 pH)
Zero Low -120.0 mV (-2.03 pH)
-500.0 to 0.00 mV (-8.45 to 0.00 pH)
Slope High 110.0 % (65.08mV/pH)
100.0 to 110.0 % (59.16 to 65.08mV/pH)
Slope Low 70.00 % (41.41mV/pH)
70.0 to 100.0 % (41.41 to 59.16mV/pH)
Step Range 0.01 pH 0.01 to 1.00 pH
Stabilization time 5 s 2 to 30 s
Calibr. interval 250 days 1 to 250 days
Buffers (select set)
Select buffer set
NIST/DIN 19266
NIST/DIN 19266, DIN 19267, US, Free programmable
Zero/Slope/ITP
Zero 0.000 mV (7.00 pH)
mV: (zero low) to (zero high)pH: (zeo low + ITP) to (zero high + ITP)
Slope 100.0 % (59.16mV/pH)
(slope low) to (slope high)
ITP 7.00 pH 0.00 to 14.00 pH
Auto correct(Zero, Slope)
pH Auto correct Disable Disable, Enable
ORP settingsrH settings
Limit and timing
Zero High 120.0 mV 0.00 to 500 mV
Zero Low -120.0 mV -500.0 to 0.00 mV
Slope High 110.0 % 100.0 to 110.0 %
Slope Low 70.00 % 70.0 to 100.0 %
Step Range 1 mV (0.05 rH)
1 to 100 mV (0.01 to 10.00 rH)
Stabilization time 5 s 2 to 30 s
Calibr. interval 250 days 1 to 250 days
Zero/Slope Zero 0.000 mV mV: (zero low) to (zero high)pH: (zeo low + ITP) to (zero high + ITP)
Slope 100.0 % (slope low) to (slope high)
Impedance settings
Input 1 impedance: pH, pH+ORP: HighORP: Low
Low, High 5.2.5
Low High limit 200.0 kΩ 1.000 kΩ to 1.000 MΩ
Low limit 1.000 kΩ 1.000kΩto1.000MΩ
Input 2 impedance: Low Low, High
Low High limit 200.0kΩ 1.000kΩto1.000MΩ
Low limit 1.000kΩ 1.000kΩto1.000MΩ
<Appendix1UsersettingtableofPH/ORP> App.1-3
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Measure-ment setup
Concentra-tion
Unit % %, mg/L, g/L, ppm 5.2.6
(pH1) 0.00 pH 0.00 to 14.00 pH
(pH2) 14.00 pH 0.00 to 14.00 pH
(Concentration1) 0.00 %, mg/L, g/L, ppm
%: 0.000 to 100.0mg/L, g/L, ppm: 0.000 to 9999(Concentration2) 100.0 %, mg/L,
g/L, ppm
Sensor diag. settings
Input 1 imp.: Disable Disable, Enable 5.2.7
FINE 10.0MΩ 1 to 10MΩ
Input 2 imp.: Disable Disable, Enable
Process time: Disable Disable, Enable
BAD limit 2000 days 1 to 10000 days
Heat cycle: Disable Disable, Enable
BAD limit 500 cycles 10 to 1000 cycles
Defineheatcycle
Heat cycle tempe 50 ºC 1 to 250 ºC
Heat cycle time: 10.0 min. 0.1 to 60.0 min.
Output setup
mA Output Output, Simulate 5.3
Output Process parameter pH1 pH1, Temperature1, ORP1, pH2, Tem-perature2, Calculated, Redundant
Setup Linear Linear, Table
Linear 0 % value: pHTemperature
ORPrH
Calculate/DifferentialCalculate/
Average
0.00 pH, 0 ºC, -500 mV, 0 rH,-1pH, -500 mV, 0 pH, -500 mV
-2 to 20 pH, -30 to 140 ºC, -1500 to 1500 mV, 0 to 100 rH, -20 to 20 pH, -1500 to 1500 mV, -2 to 20 pH, -1500 to 1500 mV
100% value:pHTemperature
ORPrH
Calculate/DifferentialCalculate/
Average
14.00 pH, 100 ºC, 500 mV, 50 rH, 1pH, 500 mV, 14 pH, 500 mV
-2 to 20 pH, -30 to 140 ºC, -1500 to 1500 mV, 0 to 100 rH, -20 to 20 pH, -1500 to 1500 mV, -2 to 20 pH, -1500 to 1500 mV
Table — —
Burn Off Off, Low, High
Damping time 0.0 s 0.0 to 3600 s
Simulate Simulation perc. 50.00 % -2.500 to 112.5 %
ConfigureHold
Lastorfixed Last Last, Fixed
Fixed value mA 12.00 mA 3.60 to 22.00 mA
Hold during Calibration(/Wash) Enable Disable, Enable
PH
<Appendix1UsersettingtableofPH/ORP> App.1-4
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Error configura-tion
pH too high Warn Off, Warn, Fail 5.4
pH too low Warn Off, Warn, Fail
Temperature too high Warn Off, Warn, Fail
Temperature too low Warn Off, Warn, Fail
ORP too high Off Off, Warn, Fail
ORP too low Off Off, Warn, Fail
rH too high Off Off, Warn, Fail
rH too low Off Off, Warn, Fail
Matrixconfig.error Fail Off, Warn, Fail
Calib. time exceeded Off Off, Warn, Fail
Wash half-time error Off Off, Warn, Fail
Impedance 1 too high Warn Off, Warn, Fail
Impedance 1 too low Warn Off, Warn, Fail
Impedance 2 too high Warn Off, Warn, Fail
Impedance 2 too low Off Off, Warn, Fail
Logbook configura-tion
Setting logbook
Sensor: Error on 1-1 (2-1) Off, 1-1 (2-1), 1-2 (2-2) 5.5
Error off 1-1 (2-1) Off, 1-1 (2-1), 1-2 (2-2)
T.C. Off Off, 1-1 (2-1), 1-2 (2-2)
Zero low limit Off Off, 1-1 (2-1), 1-2 (2-2)
Zero high limit Off Off, 1-1 (2-1), 1-2 (2-2)
Slope low limit Off Off, 1-1 (2-1), 1-2 (2-2)
Slope high limit Off Off, 1-1 (2-1), 1-2 (2-2)
Reference temp. Off Off, 1-1 (2-1), 1-2 (2-2)
Stabilization Off Off, 1-1 (2-1), 1-2 (2-2)
Imp.1 low limit Off Off, 1-1 (2-1), 1-2 (2-2)
Imp.1 high limit Off Off, 1-1 (2-1), 1-2 (2-2)
Imp.2 low limit Off Off, 1-1 (2-1), 1-2 (2-2)
Imp.2 high limit Off Off, 1-1 (2-1), 1-2 (2-2)
Wash setup Off Off, 1-1 (2-1), 1-2 (2-2)
mA: mA setup Off Off, 1-1 (2-1), 1-2 (2-2)
Holdfixedvalue Off Off, 1-1 (2-1), 1-2 (2-2)
Burn Off Off, 1-1 (2-1), 1-2 (2-2)
Linear output % Off Off, 1-1 (2-1), 1-2 (2-2)
Damping time Off Off, 1-1 (2-1), 1-2 (2-2)
Erase logbook: 1-1 (2-1) 1-1 (2-1), 1-2 (2-2)
Erase? No No, Yes
Warn if logbook “full”: No No, Yes
<Appendix1UsersettingtableofPH/ORP> App.1-5
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Advanced setup
Settings No action No action, Load factory settings, Save user settings, Load user settings
5.6.1
Tag FLXA21-PH (Max. 12 characters) 5.6.2
Passwords Execute: (blank) (Max. 8 characters) 5.6.3
Commissioning: (blank) (Max. 8 characters)
Date/Time Format YYYY/MM/DD
YYYY/MM/DD, MM/DD/YYYY, DD/MM/YYYY
5.6.4
Date — — —
Time — — —
Communication HART None, HART, PH201G 5.6.5
HART Network address 0 0 to 15
PV (pH1) — —
SV Temperature1 pH1 (2), Tempera-ture1 (2), Ref.imped-ance1 (2), ORP1 (2), rH1 (2), Calculated, Redundant, Empty
TV Empty, pH2
FV Empty, Temperature2
PH201G Hold contact: Enabled Disabled, Enabled
Fail contact: Fail+Warn Fail+Warn, Fail only, Disabled
Wash contact Enabled Disabled, Enabled
Interval time 6.0 h. 0.1 to 36.0 h.
Wash (Meas-ure) time
0.5 min. 0.1 to 10.0 min.
Recovery time 0.5 min. 0.1 to 10.0 min.
Manual Wash Enabled Disabled, Enabled
Imp2 Wash Disabled Disabled, Enabled
Continuous Wash
Disabled Disabled, Enabled
Factory setup — — — 5.6.6
PH
<Appendix1UsersettingtableofPH/ORP> App.1-6
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Display setup
Dual display
1st row PH1 PH1, PH2, Calculated. Redundant
5.7.1
2nd row PH2 PH1, PH2, Calculated. Redundant, Empty
Individual display
Main display
PH1 (2) 1st line pH1 (2) pH1 (2), Temperature1 (2), ORP1 (2), rH1 (2), Concentration1 (2)
2nd line Temperature1 (2)
pH1 (2), Tempera-ture1 (2), ORP1 (2), rH1 (2), Concentra-tion1 (2), Empty3rd line Empty,
(ORP1)
Additional text (blank) (Max. 12 characters)
Trend Trend Graph Screen:
1st Trend pH1 pH1 (2), Temperature1 (2), ORP1 (2), rH1 (2), Concentration1 (2), Calculated, Redun-dant, Empty
5.7.2
2nd Trend Temperature1
3rd Trend Empty, (ORP1)
X-axis: Timing
TIme Span (X)= 1 hour 15 min., 30 min., 1 hour, 2 hours, 4 hours, 8 hours, 24 hours, 7 days, 14 days
Y-axis: Limits
pH low 0.00 pH -2 to 20 pH
high 14.00 pH
Tempera-ture
low 0.0 ºC -30 to 140 ºC
high 100.0 ºC
ORP low -500 mV -1500 to 1500 mV
high 500 mV
rH low 0 rH 0 to 100 rH
high 50 rH
Calculate (Differential)
low -1pH, -500mV -20 to 20 pH, -1500 to 1500 mVhigh 1 pH, 500 mV
Calculate (Average)
low 0 pH, -500mV -20 to 20 pH, -1500 to 1500 mVhigh 14pH, 500mV
Concentra-tion
low 0 %, mg/L, g/L, ppm
0 to 100 %, 0.000 to 9999 mg/L, g/L, ppmhigh 100.0 %,
mg/L, g/L, ppm
Auto Return
Auto Return 10min Dissable, 10min, 60min
5.7.3
Adjust contrast
Contrast: 0 -5 to +5 5.7.4
Calculated data setup
Function Differential Differential, Average 5.8
<Appendix2UsersettingtableofSC> App.2-1
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Appendix2 UsersettingtableofSC* Reference section of User’s Manual, IM 12A01A02-01E
Parameter Default values Applicablevalues User
settings*Ref. sect.
Measure-ment setup
Measurement Conductivity Conductivity, Resistiv-ity, Concentration, Conduct.+Concentr.
10.1.1
Configuresensor
Sensor type 2-electrode 2-electrode, 4-electrode
10.1.2
Measuring unit /cm /cm, /m
Cell constant (factory) 0.1000 /cm10.00 /m
0.0050 to 50.00 /cm0.500 to 5000 /m
Tem-perature settings
Temp. element Pt1000 Pt1000, Pt100, Ni100, 8k55, Pb36(JIS6k)
10.1.3
Unit ºC ºC, ºF
Temp. compensa-tion
Compensation Automatic Manual, Automatic 10.1.4
Manual Manual temp. 25.0 ºC (77.0 ºF)
-20 to 140 ºC (-4.0 to 284.0 ºF)
Reference temp. 25.0 ºC (77.0 ºF)
0.0 to 100.0 ºC (32.0 to 212.0 ºF)
Method: Temp.comp.1 (Temp.comp.2)
NaCl(None)
None, TC, NaCl, Matrix
TC T.C.method1(2) 2.10 %/ºC(1.17 %/ºF)
0.00 to 10.0 %/ºC (0.00 to 5.56 %/ºF)
Matrix Select matrix Ammonia 0..50ppb
Ammonia 0..50ppb, Morpholine 0..500ppb, Ammonia 15..30%, Sulfuric acid 0..27%, Sulfuric acid 39..85%, Sulfuric acid 93..100%, NaOH 0..15%, NaOH 25..50%, HCl 0..200ppb, HCl 0..18%, HCl 24..44%, HNO3 0..25%, HNO3 35..80%,Userdefined1,Userdefined2
Definematrix: — —
Calibration settings
Limits: Air adjust 10.00 µS 0.000 to 20.00 µS 10.1.5
c.c. high 120.0 % 100.0 to 120.0 %
low 80.00 % 80.00 to 100.0 %
Timing: Step Range 1 % 0.1 to 20.0 %
Stabilization time 5 s 2 to 30 s
Calibr.interval 250 days 1 to 250 days
Concentra-tion
Additional table Disabled Disabled, Enabled 10.1.6
Unit for table % %, ppt, ppm, ppb
Sensor diag. settings
Process time: Disable Disable, Enable 10.1.7
BAD limit 2000 days 1 to 10000 days
Heat cycle: Disable Disable, Enable
BAD limit 500 cycles 10 to 1000 cycles
Defineheatcycle
Heat cycle tempe 50 ºC 1 to 250 ºC
Hear cycle time: 10.0 min. 0.1 to 60.0 min.
SC
<Appendix2UsersettingtableofSC> App.2-2
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Output setup
mA Output Output, Simulate 10.2
Output Process parameter Conduct1-TC1(Resist1-TC1)
Conduct1-TC1, Conduct1-TC2, Temperature1, Concent1-TC1, Concent1-TC2, Conduct2-TC1, Temperature2, Conduct2-TC2, Resist1-TC1, Resist1-TC2, Calculated, Redundant
Setup Linear Linear, Table
Linear 0 % valueConductivity
Resistivity
TemperatureConcentration
Calculated (Differential)
Calculated (Average)
Calculated (Ratio)Calculated (Passage)Calculated (Rejection)Calculated (Deviation)Calculated (pH
calc. (VGB))
0.000 nS/cm, µS/m
0.000mΩ•cm,mΩ•m
0.0 ºC0.000 %, ppm, ppb, 0 ppt-1.000 mS/cm, -100.0 mS/m, -20.00Ω•cm,-0.200Ω•m0.000 nS/cm, µS/m,mΩ•cm,mΩ•m
0.0000.000 %0.000 %0.000 %0.00 pH
0.000 nS/cm to 5.000 to 5.0005.000 S/cm, 0.000 µS/m to to 500.0 S/m0.000mΩ•cm to 1.000 to 1.0001.000 GΩ•cm,0.000mΩ•m to10.00 MΩ10.00MΩ•m-20 to 250 to 250250 ºC0.000 to 999.9 %, to 999.9 %,999.9 %, 0.000 to 9999 ppm, to 9999 ppm,9999 ppm, ppb, 0 to 9999 ppt to 9999 ppt9999 ppt-5.000 to 5.000 S/cm, to 5.000 S/cm,5.000 S/cm, -500.0 to 500.0 S/m, to 500.0 S/m,500.0 S/m, -1.000 to 1.000 Ωto1.000 Ω1.000Ω•cm, -10.00 to 10.00 MΩto10.00 MΩ10.00MΩ•m0 µS/cm to 5.000 S/cm, to 5.000 S/cm,5.000 S/cm, 0 µS/m to 500.0 S/m, to 500.0 S/m,500.0 S/m, 0.000mΩ•cm to 1.000 GΩto1.000 GΩ1.000GΩ•cm, 0Ω•m to 10.00 MΩto10.00 MΩ10.00MΩ•m0 to 20.0 to 20.020.00 to 200 % to 200 %200 %-200 to 200 % to 200 %200 %-200 to 200 % to 200 %200 %0 to14 pH to14 pH14 pH
100 % valueConductivity
Resistivity
TemperatureConcentration
Calculated (Differential)
Calculated (Average)
Calculated (Ratio)Calculated (Passage)Calculated (Rejection)Calculated (Deviation)Calculated (pH
calc. (VGB))
500.0 µS/cm, 50.00 mS/m20.00Ω•cm, 0.200Ω•m
100 ºC100.0 %, 9999 ppm, ppb, ppt1.000 mS/cm, 100.0 mS/m, 20.00Ω•cm, 0.200Ω•m500.0 µS/cm, 50.00 mS/m, 20.00Ω•cm, 0.200Ω•m20.00100.0 %100.0 %100.0 %14.00 pH
0 µS/cm to 5.000 S/cm, to 5.000 S/cm,5.000 S/cm, 0 µS/m to 500.0 S/m to 500.0 S/m500.0 S/m0.000mΩ•cm to 1.000 to 1.0001.000 GΩ•cm,0Ω•m to to 10.00MΩ•m-20 to 250 to 250250 ºC0.000 to 999.9 %, to 999.9 %,999.9 %, 0.000 to 9999 ppm, to 9999 ppm,9999 ppm, ppb, 0 to 9999 ppt to 9999 ppt9999 ppt-5.000 to 5.000 S/cm, to 5.000 S/cm,5.000 S/cm, -500.0 to 500.0 S/m, to 500.0 S/m,500.0 S/m, -1.000 to 1.000 Ωto1.000 Ω1.000Ω•cm, -10.00 to 10.00 MΩto10.00 MΩ10.00MΩ•m0 µS/cm to 5.000 S/cm, to 5.000 S/cm,5.000 S/cm, 0 µS/m to 500.0 S/m, to 500.0 S/m,500.0 S/m, 0.000mΩ•cm to 1.000 GΩto1.000 GΩ1.000GΩ•cm, 0Ω•m to 10.00 MΩto10.00 MΩ10.00MΩ•m0 to 20.0 to 20.020.00 to 200 % to 200 %200 %-200 to 200 % to 200 %200 %-200 to 200 % to 200 %200 %0 to 14 pH to 14 pH14 pH
Table — —
Burn Off Off, Low, High
Damping time 0.0 s 0.0 to 3600 s
Simulate Simulation perc. 50.00 % -2.5 to 112.5 %
ConfigureHold
Lastorfixed Last Last, Fixed
Fixed value mA 12.00 mA 3.60 to 22.00 mA
Hold during Calibration Enabled Disabled, Enabled
<Appendix2UsersettingtableofSC> App.2-3
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Error configura-tion
Conductivity too high (or Concentration) Warn Off, Warn, Fail 10.3
High limit 250.0 mS 0.00 nS to 500.0 S
Conductivity too low (or Concentration) Warn Off, Warn, Fail
Low limit 1.000 µS 0.000 nS to 500.0 S
Temperature too high Warn Off, Warn, Fail
Temperature too low Warn Off, Warn, Fail
Polarization detect Warn Off, Warn, Fail
Calibr.time exceeded Off Off, Warn, Fail
USP Off Off, Warn, Fail
USP safety margin 0.000 % 0.000 to 100.000 %
Configura-tion error:
1st comp. matrix Fail Off, Warn, Fail
2nd comp. matrix Fail Off, Warn, Fail
Cioncentration table Fail Off, Warn, Fail
Resisitivity too low Warn Off, Warn, Fail
Low limit 4.000Ω 0.000mΩto1.000GΩ
Resisitivity too high Warn Off, Warn, Fail
High limit 1.000 MΩ 0.000 mΩto1.000GΩ
Logbook configura-tion
Setting logbook
Sensor: Error on 1-1 (2-1) Off, 1-1 (2-1), 1-2 (2-2) 10.4
Error off 1-1 (2-1) Off, 1-1 (2-1), 1-2 (2-2)
Temp.coeff. Off Off, 1-1 (2-1), 1-2 (2-2)
Air adjust limit Off Off, 1-1 (2-1), 1-2 (2-2)
Adj c.c.low limit Off Off, 1-1 (2-1), 1-2 (2-2)
Adj c.c.high limit Off Off, 1-1 (2-1), 1-2 (2-2)
Reference temp. Off Off, 1-1 (2-1), 1-2 (2-2)
Stabilization time Off Off, 1-1 (2-1), 1-2 (2-2)
mA: mA setup Off Off, 1-1 (2-1), 1-2 (2-2)
Holdfixedvalue Off Off, 1-1 (2-1), 1-2 (2-2)
Burn Off Off, 1-1 (2-1), 1-2 (2-2)
Linear output % Off Off, 1-1 (2-1), 1-2 (2-2)
Damping time Off Off, 1-1 (2-1), 1-2 (2-2)
Erase logbook: 1-1 (2-1) 1-1 (2-1), 1-2 (2-2)
Erase? No No, Yes
Warn if logbook “full”: No No, Yes
SC
<Appendix2UsersettingtableofSC> App.2-4
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Advanced setup
Settings No action No action, Load factory settings, Save user settings, Load user settings
10.5.1
Tag FLXA21-SC (Max. 12 characters) 10.5.2
Passwords Execute: (blank) (Max. 8 characters) 10.5.3
Commissioning: (blank) (Max. 8 characters)
Date/Time Format YYYY/MM/DD
YYYY/MM/DD, MM/DD/YYYY, DD/MM/YYYY
10.5.4
Date — — —
Time — — —
Communication HART None, HART, PH201G 10.5.5
HART Network address 0 0 to 15
PV (Conduct1-TC1)(Resist1-TC1)
— —
SV Temperature1 Conduct1-TC1, Temperature1, Concent1-TC1, USP margin1, Conduct2-TC1, Temperature2, Conduct2-TC2, USP margin2, Resist1-TC1, Resist1-TC2, Calculated, Redundant, Empty
TV Empty, (Concent1-TC1)
FV Empty, (Temperature 2)
PH201G Hold contact: Enabled Disabled, Enabled
Fail contact: Fail+Warn Fail+Warn, Fail only, Disabled
Factory setup — — — 10.5.6
Display setup
Dual display
1st row SC1 SC1, SC2, Calculated. Redundant
10.6.1
2nd row SC2 SC1, SC2, Calculated. Redundant, Empty
Individual display
Main display
SC1 (2) Conductivity (Resistivity) unit Auto Auto, S/cm, mS/cm, µS/cm, nS/cmResistivity:Auto, mΩ•cm,Ω•cm,kΩ•cm,MΩ•cm,GΩ•cm
1st line Conduct1(2)-TC1, (Concent1-TC1, Resist1-TC1)
Conduct1(2)-TC1, Temperature1(2), Concent1(2)-TC1(2), Resist1-TC1(2)
2nd line Temperature1 (2)
Conduct1(2)-TC1, Temperature1(2), Concent1(2)-TC1(2), Resist1-TC1(2), Empty
3rd line Empty, (Concent1-TC1)
Additional text (blank) (Max. 12 characters)
<Appendix2UsersettingtableofSC> App.2-5
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Display setup
Trend Trend Graph Screen:
1st Trend Conduct1-TC1, (Concent1-TC1), (Resist1-TC1)
Conduct1(2)-TC1(2), Temperature1(2), Concent1(2)-TC1(2), Resist1-TC1(2), Calculated, Redun-dant, Empty
10.6.2
2nd Trend Temperature1
3rd Trend Empty, (Concent1-TC1)
X-axis: Timing
TIme Span (X)= 1 hour 15 min., 30 min., 1 hour, 2 hours, 4 hours, 8 hours, 24 hours, 7 days, 14 days
Y-axis: Limits
Conduct*-TC*
low 0.000 nS/cm, µS/m
0 µS/cm to 5.000 S/cm, 0 µS/m to 500.0 S/mhigh 500.0 µS/cm,
50.00 mS/m
Tempera-ture
low 0.0 ºC -20 to 250 ºC
high 100.0 ºC
Resist*-TC*
low 0.000 mΩ•cm,mΩ•m
0.000mΩ•cm to 1.000 GΩ•cm,0Ω•m to 10.00MΩ•m
high 20.00 Ω•cm,0.200Ω•m
Concent*-TC*
low 0.000 %, ppm, ppb, 0 ppt
0.000 to 999.9 %, 0.000 to 9999 ppm, ppt, 0 to 9999 ppt
high 100.0 %, 9999 ppm, ppb, ppt
Calculated
Differ-ential
low -1.000 mS/cm, -100.0 mS/m, -20.00Ω•cm,-0.200Ω•m
-5.000 to 5.000 S/cm, -500.0 to 500.0 S/m, -1.000to1.000GΩ•cm, -10.00to10.00MΩ•m
high 1.000 mS/cm, 100.0 mS/m, 20.00Ω•cm,0.200Ω•m
Aver-age
low 0.000 nS/cm, µS/m, 0.000 mΩ•cm,mΩ•m
0 to 5.000 S/cm, 0 to 500.0 S/m, 0.000mΩ•cmto1.000GΩ•cm,0Ω•mto10.00MΩ•m
high 500.0 µS/cm, 50.00 mS/m, 20.00Ω•cm,0.200Ω•m
Ratio low 0.000 0 to 20.0
high 20.00
Pas-sage
low 0.000 % 0 to 200 %
high 100.0 %
Rejec-tion
low 0.000 % -200 to 200 %
high 100.0 %
Devia-tion
low 0.000 % -200 to 200 %
high 100.0 %
pH calc. (VGB)
low 0.00 pH 0 to 14.0 pH
high 14.00 pH
Auto Return
Auto Return 10min Dissable, 10min, 60min
10.6.3
Adjust contrast
Contrast: 0 -5 to +5 10.6.4
SC
<Appendix2UsersettingtableofSC> App.2-6
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Calculated data setup
Function Differential Differential, Average, Ratio, Passage(%), Rejection(%), Deviation(%), pH calc.(VGB)
10.7
<Appendix3UsersettingtableofISC> App.3-1
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Appendix3 UsersettingtableofISC* Reference section of User’s Manual, IM 12A01A02-01E
Parameter Default values Applicablevalues User
settings*Ref. sect.
Measure-ment setup
Measurement Conductivity Conductivity, Concentration, Conduct.+Concentr.
13.1.1
Configuresensor
Measuring unit /cm /cm, /m 13.1.2
Cell constant (factory) 1.880 /cm188.0 /m
0.2000 to 50.00 /cm20.00 to 5000 /m
Tem-perature settings
Temp. element Pt1000 Pt1000, NTC30k 13.1.3
Unit ºC ºC, ºF
Temp. compensa-tion
Compensation Automatic Manual, Automatic 13.1.4
Manual Manual temp. 25.0 ºC (77.0 ºF)
-20 to 140 ºC (-4.0 to 284.0 ºF)
Reference temp. 25.0 ºC (77.0 ºF)
0.0 to 100.0 ºC (32.0 to 212.0 ºF)
Method: Temp.comp.1 (Temp.comp.2)
NaCl(None)
None, TC, NaCl, Matrix
TC T.C.method1(2) 2.10 %/ºC(1.17 %/ºF)
0.00 to -10.0 %/ºC (0.00 to 5.56 %/ºF)
Matrix Select matrix Sulfuric acid 1..5%
Sulfuric acid 1..5%, Sulfuric acid 0..27%, Sulfuric acid 39..85%, Sulfuric acid 93..100%, HCl 1..5%, HCl 0..18%, HCl 24..44%, HNO3 1..5%, HNO3 0..25%, HNO3 35..80%, NaOH 1..5%, NaOH 0..15%, NaOH 25..50%,Userdefined1,Userdefined2
Definematrix: — —
Calibration settings
Limits: Air adjust 100.0 µS 0.000 to 100.0 µS 13.1.5
c.c. high 120.0 % 100.0 to 120.0 %
low 80.00 % 80.00 to 100.0 %
Timing: Step Range 1 % 0.1 to 20.0 %
Stabilization time 5 s 2 to 30 s
Calib.interval 250 days 1 to 250 days
Concentra-tion
Additional table Disabled Disabled, Enabled 13.1.6
Unit for table % %, ppt, ppm, ppb
Sensor diag. settings
Process time: Disable Disable, Enable 13.1.7
BAD limit 2000 days 1 to 10000 days
Heat cycle: Disable Disable, Enable
BAD limit 500 cycles 10 to 1000 cycles
Defineheatcycle
Heat cycle tempe 50 ºC 1 to 250 ºC
Hear cycle time: 10.0 min. 0.1 to 60.0 min.
ISC
<Appendix3UsersettingtableofISC> App.3-2
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Output setup
mA Output Output, Simulate 13.2
Output Process parameter Conduct1-TC1, (Concent1-TC1)
Conduct1-TC1, Temperature1, Conduct1-TC2, Concent1-TC1, Concent1-TC2
Setup Linear Linear, Table
Linear 0 % valueConductivityTemperature
Concentration
0.000 µS/cm, mS/m0.0 ºC0.000 %, ppm, ppb, 0 ppt
0.000 to 5.000 S/cm, 0.000 to500.0 S/mto500.0 S/m500.0 S/m-20 to 140 to 140140 ºC0.000 to 999.9 %, to 999.9 %,999.9 %, 0.000 to 9999 ppm, to 9999 ppm,9999 ppm, ppb, 0 to 9999 ppt to 9999 ppt9999 ppt
100 % valueConductivityTemperature
Concentration
1.000 S/cm, 100.0 S/m100 ºC100.0 %, 9999 ppm, ppb, ppt
0 to 5.000 S/cm, 0 to to 5.000 S/cm, 0 to5.000 S/cm, 0 to to 500.0 S/m-20 to 140 to 140140 ºC0.000 to 999.9 %, to 999.9 %,999.9 %, 0.000 to 9999 ppm, to 9999 ppm,9999 ppm, ppb, 0 to 9999 ppt to 9999 ppt9999 ppt
Table — —
Burn Off Off, Low, High
Damping time 0.0 s 0.0 to 3600 s
Simulate Simulation perc. 50.00 % -2.5 to 112.5 %
ConfigureHold
Lastorfixed Last Last, Fixed
Fixed value mA 12.00 mA 3.60 to 22.00 mA
Hold during Calibration Enabled Disabled, Enabled
Error configura-tion
Conductivity too high (or Concentration) Warn Off, Warn, Fail 13.3
High limit 1.000 S 0.00 nS to 500.0 S
Conductivity too low (or Concentration) Warn Off, Warn, Fail
Low limit 5.000 µS 0.000 nS to 500.0 S
Temperature too high Warn Off, Warn, Fail
Temperature too low Warn Off, Warn, Fail
Calibr.time exceeded Off Off, Warn, Fail
Configura-tion error:
1st comp. matrix Fail Off, Warn, Fail
2nd comp. matrix Fail Off, Warn, Fail
Concentration table Fail Off, Warn, Fail
Logbook configura-tion
Settings logbook
Sensor: Error on 1-1 Off, 1-1, 1-2 13.4
Error off 1-1 Off, 1-1, 1-2
Temp.coeff. Off Off, 1-1, 1-2
Air adjust limit Off Off, 1-1, 1-2
Adj c.c.low limit Off Off, 1-1, 1-2
Adj c.c.high limit Off Off, 1-1, 1-2
Reference temp. Off Off, 1-1, 1-2
Stabilization time Off Off, 1-1, 1-2
mA: mA setup Off Off, 1-1, 1-2
HoldfixedValue Off Off, 1-1, 1-2
Burn Off Off, 1-1, 1-2
Linear output % Off Off, 1-1, 1-2
Damping time Off Off, 1-1, 1-2
Erase logbook: 1-1 1-1, 1-2
Erase? No No, Yes
Warn if logbook “full”: No No, Yes
<Appendix3UsersettingtableofISC> App.3-3
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Advanced setup
Settings No action No action, Load factory settings, Save user settings, Load user settings
13.5.1
Tag FLXA21-ISC (Max. 12 characters) 13.5.2
Passwords Execute: (blank) (Max. 8 characters) 13.5.3
Commissioning: (blank) (Max. 8 characters)
Date/Time Format YYYY/MM/DD
YYYY/MM/DD, MM/DD/YYYY, DD/MM/YYYY
13.5.4
Date — — —
Time — — —
Communication HART None, HART, PH201G 13.5.5
HART Network address 0 0 to 15
PV (Conduct1-TC1), (Concent1-TC1)
— —
SV Temperature1 Conduct1-TC1, Temperature1, Concent1-TC1, Conduct1-TC2, Empty
TV Empty, (Concent1-TC1)
FV Empty
PH201G Hold contact: Enabled Disabled, Enabled
Fail contact: Fail+Warn Fail+Warn, Fail only, Disabled
Factory setup — — — 13.5.6
ISC
<Appendix3UsersettingtableofISC> App.3-4
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Display setup
Main display
Conductivity unit Auto Auto, S/cm, mS/cm, µS/cm
13.6.1
1st line Conduct1-TC1(Concent1-TC1)
Conduct1-TC1, Temperature1, Concent1-TC1, Conduct1-TC2
2nd line Temperature1 Conduct1-TC1, Temperature1, Conduct1-TC2, Concent1-TC1, Empty
3rd line Empty, (Concent1-TC1)
Additional text (blank) (Max. 12 characters)
Trend Trend Graph Screen:
1st Trend Conduct1-TC1(Concent1-TC1)
Conduct1-TC1, Temperature1, Concent1-TC1, Conduct1-TC2, Empty
13.6.2
2nd Trend Temperature1
3rd Trend Empty, (Concent1-TC1)
X-axis: Timing
TIme Span (X)= 1 hour 15 min., 30 min., 1 hour, 2 hours, 4 hours, 8 hours, 24 hours, 7 days, 14 days
Y-axis: Limits
Conduct1-TC1(2)
low 0.000 µS/cm, mS/m
0 to 5.000 S/cm, 0 to 500.0 S/m
high 1.000 S/cm, 100.0 S/m
Tempera-ture1
low 0.0 ºC -20 to 140 ºC
high 100.0 ºC
Concent1-TC1(2)
low 0.000 %, ppm, ppb, 0 ppt
0.000 to 999.9 %, 0.000 to 9999 ppm, ppt, 0 to 9999 ppthigh 100.0 %,
9999 ppm, ppb, ppt
Auto Return
Auto Return 10min Dissable, 10min, 60min
13.6.3
Adjust contrast
Contrast: 0 -5 to +5 13.6.4
<Appendix4UsersettingtableofDO> App.4-1
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Appendix4 UsersettingtableofDO* Reference section of User’s Manual, IM 12A01A02-01E
Parameter Default values Applicablevalues User
settings*Ref. sect.
Sensor setup
Sensor type Galvanic Galvanic, Polaro-graphic
16.1
Measure-ment setup
Configuresensor
Unit mg/L mg/L, ppm, ppb, %SAT
16.2.1
Sensor sensitivity Gal: 0.45 µA/ppm(50 µm)
Gal: 0.45 µA/ppm(50 µm), 0.90 µA/ppm(25 µm), Others (0.10 to 20.00 µA/ppm)
Pol: 7.5 nA/ppm
Pol: 1.0 to 200.0 nA/ppm
Polarization Voltage 0.675 V 0.000 to 1.000 V
Tem-perature settings
Temp. element Pt1000 Pt1000, NTC22k 16.2.2
Unit ºC ºC, ºF
Temp. compensa-tion
Compensation Automatic Manual, Automatic 16.2.3
Manual Manual temp. 25.0 ºC(77.0 ºF)
-20 to 150 ºC
Salinity compensa-tion
Compensation Disabled Disabled, Enabled 16.2.4
Input Salinity 0.0 g/kg 0.0 to 100.0 g/kg
Pressure comp. (Measure)
Input Pressure Level (Process) 101.3 kPa 0.0 to 999.9 kPa 16.2.5
Calibration settings
Limits and timing
Zero Low Gal: -0.50 µAPol: -5.0 nA
Gal: -20.00 to 0 µAPol: -200.0 to 0 nA
16.2.6
High Gal: 0.50 µAPol: 5.0 nA
Gal 0 to 20.00 µAPol: 0 to 200.0 nA
Slope Low 40.00 % 0.1 to 99.9 %
High 200.0 % 100.0 to 600.0 %
Stabilization time 60 s 5 to 600 s
Step Range
Zero 0.10mg/L, ppm1.0 ppb, %SAT
ppm, mg/L: 0.00 to 50.00ppb: 0 to 2000%SAT: 0.0 to 600.0Span 0.10mg/L, ppm
1.0 ppb, %SAT
Cal.Interval 250 days 1 to 250 days
zero/slope Zero Current Gal: 0.00 µAPol: 0.0 nA
Gal: -20.00 to 20.00 µAPol: -200.0 to 200.0 nA
Slope 100.0 % 0.1 to 600.0 %
Pressure Comp. (Cal.)
Input Pressure Level (Cal.) 101.3 kPa 0.0 to 999.9 kPa
Zero Calibration Disabled Disabled, Enabled
Sensor diag. settings
Progress time: Disable Disable, Enable 16.2.7
BAD limit 2000 days 1 to 10000 days
Heat cycle: Disable Disable, Enable
BAD limit 500 cycles 10 to 1000 cycles
Defineheatcycle
Heat cycle tempe 50 ºC 1 to 250 ºC
Hear cycle time: 10.0 min. 0.1 to 60.0 min.
DO
<Appendix4UsersettingtableofDO> App.4-2
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Output setup
mA Output Output, Simulate 16.3
Output Process parameter Oxygen1 Oxygen1, Tem-perature1, Oxygen2, Temperature2, Calculated, Redun-dant
Setup Linear Linear, Table
Linear 0 % value: Oxygen
Temperature
0.00 mg/L, ppm, 0.0 ppb, %SAT0.0 ºC
mg/L, ppm: 0.00 to 50.00ppb: 0.0 to 9999%SAT: 0.0 to 600.0ºC: -20.0 to 150.0100 % value:
Oxygen
Temperature
20.00 mg/L, ppm100.0 ppb, %SAT50.0 ºC
Table — —
Burn Off Off, Low, High
Damping time 0.0 s 0.0 to 3600 s
Simulate Simulation perc. 50.00 % -2.5 to 112.5 %
ConfigureHold
Lastorfixed Last Last, Fixed
Fixed value mA 12.00 mA 3.60 to 22.00 mA
Hold during Calibration(/Wash) Enabled Disabled, Enabled
Error configura-tion
DO too high Warn Off, Warn, Fail 16.4
DO too low Warn Off, Warn, Fail
Temperature too high Warn Off, Warn, Fail
Temperature too low Warn Off, Warn, Fail
Sensor membarane Off Off, Warn, Fail
Calib. time exceeded Off Off, Warn, Fail
Logbook configura-tion
Settings logbook
Sensor: Error on 1-1 (2-1) Off, 1-1 (2-1), 1-2 (2-2) 16.5
Error off 1-1 (2-1) Off, 1-1 (2-1), 1-2 (2-2)
Zero low limit Off Off, 1-1 (2-1), 1-2 (2-2)
Zero high limit Off Off, 1-1 (2-1), 1-2 (2-2)
Slope low limit Off Off, 1-1 (2-1), 1-2 (2-2)
Slope high limit Off Off, 1-1 (2-1), 1-2 (2-2)
Stabilization time Off Off, 1-1 (2-1), 1-2 (2-2)
Pressure(meas.) Off Off, 1-1 (2-1), 1-2 (2-2)
Salinity comp. Off Off, 1-1 (2-1), 1-2 (2-2)
Wash setup Off Off, 1-1 (2-1), 1-2 (2-2)
mA: mA setup Off Off, 1-1 (2-1), 1-2 (2-2)
HoldfixedValue Off Off, 1-1 (2-1), 1-2 (2-2)
Burn Off Off, 1-1 (2-1), 1-2 (2-2)
Linear output % Off Off, 1-1 (2-1), 1-2 (2-2)
Damping time Off Off, 1-1 (2-1), 1-2 (2-2)
Erase logbook: 1-1 (2-1) 1-1 (2-1), 1-2 (2-2)
Erase? No No, Yes
Warn if logbook “full”: No No, Yes
<Appendix4UsersettingtableofDO> App.4-3
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Advanced setup
Settings No action No action, Load factory settings, Save user settings, Load user settings
16.6.1
Tag FLXA21-DO (Max. 12 characters) 16.6.2
Passwords Execute: (blank) (Max. 8 characters) 16.6.3
Commissioning: (blank) (Max. 8 characters)
Date/Time Format YYYY/MM/DD
YYYY/MM/DD, MM/DD/YYYY, DD/MM/YYYY
16.6.4
Date — — —
Time — — —
Communication HART None, HART, PH201G 16.6.5
HART Network address 0 0 to 15
PV (Oxygen1) — —
SV Temperature1 Oxygen1 (2), Temperature1 (2), Calculated, Redun-dant, Empty
TV Empty, (Oxygen2)
FV Empty, (Tempera-ture2)
PH201G Hold contact: Enabled Disabled, Enabled
Fail contact: Fail+Warn Fail+Warn, Fail only, Disabled
Wash contact: Enabled Disabled, Enabled
Interval time 0.6 h. 0.1 to 36.0 h.
Wash (Meas-ure) time
0.5 min. 0.1 to 10.0 min.
Recovery time 0.5 min. 0.1 to 10.0 min.
Manual Wash Enabled Disabled, Enabled
Continuous Wash
Disabled Disabled, Enabled
Factory setup — — — 16.6.6
DO
<Appendix4UsersettingtableofDO> App.4-4
IM 12A01A02-12E 2nd Edition : Aug. 18, 2010-00
Parameter Default values Applicablevalues User
settings*Ref. sect.
Display setup
Dual display
1st row DO1 DO1, DO2, Calcu-lated. Redundant
16.7.1
2nd row DO2 DO1, DO2, Calcu-lated. Redundant, Empty
Individual display
Main display
DO1 (2) 1st line Oxygen1 (2) Oxygen1 (2), Temperature1 (2)
2nd line Temperature1 (2) Oxygen1 (2), Temperature1 (2), Empty3rd line Empty
Additional text (blank) (Max. 12 characters)
Trend Trend Graph Screen:
1st Trend Oxygen1 (2) Oxygen1 (2), Temperature1 (2), (Calculated, Redun-dant), Empty
16.7.2
2nd Trend Temperature1 (2)
3rd Trend Empty
X-axis: Timing
Time Span (X)= 1 hour 15 min., 30 min., 1 hour, 2 hours, 4 hours, 8 hours, 24 hours, 7 days, 14 days
Y-axis: Limits
Oxygen low 0.00 mg/L, ppm0.0 ppb, %SAT
mg/L, ppm: 0.00 to 50.00ppb: 0.0 to 9999%SAT: 0.0 to 600.0high 20.00 mg/L, ppm
100.0 ppb, %SAT
Tempera-ture
low 0.0 ºC -20.0 to 150.0 ºC
high 50.0 ºC
Auto Return
Auto Return 10min Dissable, 10min, 60min
16.7.3
Adjust contrast
Contrast: 0 -5 to +5 16.7.4
Calculated data setup
Function Differential Differential, Average 16.8
i
IM 12A01A02-12E
Revision Recordl Manual Title : Model FLXA21 Two-wire Analyzer Start-up Manuall Manual No. : IM 12A01A02-12E
May2010/1stEditionNewly published
Aug.2010/2ndEditionFollowings are mainly revised; Additionofgroundingterminalpositiononstainlesshousingwithspecificmountings Additionofplatepositiononstainlesshousingwithspecificcoatings Addition of explanation of sleeve for grounding wire for plastic housing Correction of torques Addition of Note, Warning etc. Addition of detail descriptions for wire terminals Addition of drawings of housing with hood Addition of example displays for calculated data and redundant system Addition of explanation of passwords Correction of errors on the User setting tables
2nd Edition : Aug. 18, 2010-00