Valmet Dual Conductivity Measurement Series 3200
Transcript of Valmet Dual Conductivity Measurement Series 3200
Valmet Dual Conductivity Measurement
Series 3200
Installation &operating manual
K14278 V1.5 EN
Table of contents
About the device 51.
Introduction......................................................51.1.Conductivity sensors........................................61.2.Temperature compensation.............................61.3.Cable compensation........................................61.4.
Installation 72.
Installation notes..............................................72.1.Dimensions......................................................72.2.Mounting the TCU............................................82.3.Electric connections.........................................92.4.Connecting the sensor...................................102.5.Sensor connection diagram...........................122.6.Mounting the sensor.......................................132.7.
Software structure 153.
Keypad...........................................................153.1.Measurement display.....................................153.2.Service display...............................................153.3.Menu display..................................................153.4.
Operating 174.
Error codes.....................................................174.1.Menu display..................................................174.2.Sensor settings..............................................184.3.mA output.......................................................194.4.Alarms............................................................194.5.System...........................................................204.6.
Technical specification
Sensor data sheets
Declaration of conformity
Installation & operating manual K14278 V1.5 EN3Dual Conductivity TCU series 3200
Recycling and disposal
When sorted by material, nearly all parts of the device can be recycled.A materials list is delivered with the device. Upon request, the manufac-turer will provide more detailed instructions for recycling and disposal.
Used devices may also be returned to the manufacturer for recycling anddisposal against a separate fee.
The equipment contains no batteries.
4
1. About the device1.1. IntroductionThe series 3200 Dual Channel Conductivity TCU isbased on the 4-electrode conductivity principle. Usingan advanced compensation technology, the 3200 TCUmeets the demands of conductivity measurement in awide range, from low conductivities in ultrapure waterin the low conductivity end to acids and bases in thehigh conductivity end.
The TCU is housed in a painted aluminum case andcan be either panel-mounted or wall-mounted. Its frontpanel incorporates an LCD display and an operatingkeypad. It is operated by using the keypad and a menu-based concept. The set-up is stored in a non-volatilememory that preserves the settings even during powerfailures.The settings can be protected with a passwordif necessary.
In the 4-electrode conductivity principle, current andvoltage are measured using separate pairs of elec-trodes. The advantage of this principle is complete in-dependence of electrode over-voltages, which makesit possible to use small electrodes. Small electrodesare good at both high and low conductivities: at highconductivities they are robust against errors caused bythe polarization effect, and at low conductivities theyhelp avoid errors due to electrode capacitance.
One or two sensors can be used. With two sensorsthe TCU can be programmed for differential conductivityor conductivity ratio. Any one of the two channels canbe calibrated from the keyboard. Any one of the twosensors can be used with automatic cell constant (readfrom stored factory calibration) or with manually enteredcell constant.
The TCU contains two galvanically isolated, individu-ally programmable current outputs. Any conductivityor temperature can be directed to an output. The out-puts can be programmed for linear, bilinear, logarithmic,compressed or expanded conductivity output, or forlinear temperature output.
Two individually programmable alarms with relaycontact outputs are available. The alarms can be pro-grammed for conductivity, temperature, or USP 645alarm as maximum or minimum alarms, with or withouttime delay. In case of an error the Error Detectionsystem will show a message on the display.
Features of the TCU:– Individual calibration of channels– Individually selectable conductivity unit and reference
temperature for channels– Selectable cell constant (manual or automatic) for
sensors– Selectable temperature unit– Configurable error detection and alarm system
Installation & operating manual K14278 V1.5 EN5Dual Conductivity TCU series 3200
1.2. Conductivity sensorsThe conductivity sensors use the 4-electrode principlethat compensates for the over-voltage of the currentelectrodes, caused by scaling and precipitation. Errorsfrom cable stray capacitance and leakage are com-pensated for by means of compensation wires in thesensor cable. The sensors are equipped with a unionnut for mounting. The screened sensor cable is at-tached to the sensor. The sensor is connected to theTCU by a snap fit strip connector.
Extension cables up to max. 50 meters are available.The extension cable is equipped with strip connectorsor plugs in both ends.
Temperature is measured by a platinum resistancethermometer, the cell constant is measured from aresistor. Both of these are located in the sensor andconnected with a 4-wire connection. Temperaturecompensation is performed in software, and a versatileprogram of temperature compensation algorithms isavailable.
More detailed information on each of the 4600 and4700 series sensors used with the Dual Channel TCU3200 can be found in the Data Sheets, at the end ofthis manual.
1.3. Temperature compensationConductivity calculation is based on the "raw" conduct-ivity TCU, the actual (= measured) temperature, andthe selected reference temperature. Conductivity resultis then calculated according to the selected temperaturecompensation.
Ultrapure water – water with conductivity of 5…10µS/cm or lower at 25°C – requires special attention. Inthis conductivity range, the conductivity of the water it-self (arising from autoprotolysis) cannot be neglected,as it adds to the conductivity of all other ions presentin the electrolyte.The temperature dependences of thedifferent ions combine in such a way as to invalidateany standard temperature compensation. Severalsubstances must be considered: neutral salts, strongor weak acid, strong or weak base, etc. Only neutralsalts have no effect on the autoprotolysis of water, andtherefore the temperature compensation must be selec-ted to fit the actual application.
1.4. Cable compensationAt low conductivities the effect of cable stray capacit-ance and leakage becomes significant. Depending oncable length, the actual conductivity and the measuringfrequency, an additional amount of conductivity will beadded to the reading.
The built-in cable compensator measures the errorsignal and compensates for it. Thus the reading is in-dependent of cable length at any conductivity down to0.055 µS/cm, including the ultrapure water level.
The orthogonal-symmetrical cable, used with series4600 and 4700 sensors, also compensates for themagnetic coupling between the wires to the current orvoltage electrodes, thereby achieving an accurateresult even at very high conductivities and with longcables.
Installation & operating manual K14278 V1.5 EN6Dual Conductivity TCU series 3200
2. Installation2.1. Installation notesImportant issues when planning TCU installation:• Whether mounted on a wall, in a panel or onto a
piping or cable tray, the place should be free of vi-brations and mechanically shocks should not occur.
• Make sure that there is no potential differencebetween sensor and TCU! If TCU is mounted on acable tray, the cable tree should be electrically con-nected to the process piping. Make sure there is nopotential difference between the protective groundand the process piping and/or TCU mounting site.Look out for ground loop currents that can cause afluctuating or faulty reading.
• Protect the instrument from downpour. If necessaryuse a Protection Shield.
• Protect the instrument from excessively high or lowtemperatures and from direct sunlight.
• Minimize the length of sensor cable as much aspossible.
• Protect the sensor cable from mechanical impactand excessive high or low temperatures.
Important issues when planning sensor installation:• Choose the sensor mounting location so that there
are no air bubbles or pockets. Air will lower thereading and cause an unstable signal!
• Pay attention to pipe diameter when choosing theinstallation site for sensors with external electrodes(see Fig. 13). If the pipe diameter is too small, theelectrodes will take interference from the pipe walls.
• Mount the sensor at a place where it is protectedfrom mechanical impact and can be accessed andextracted from the process for service.
• Always install the sensor so that the temperaturesensor or sensor opening faces the incoming liquidflow.
2.2. Dimensions
OKesc
144Ø5.2
116144
153
107
26.55
Fig. 1. Installation dimensions, in millimeters.
Installation & operating manual K14278 V1.5 EN7Dual Conductivity TCU series 3200
2.3. Mounting the TCUType 3217H & 3227H, wall mounting (Fig. 2):• Drill holes to the wall for mounting screws, see Fig.
1 for the dimensions.• To access the sensor connectors, open the lid and
dismount the corner screws (4 pcs).
Type 3218H & 3228H, panel mounting (Fig. 2 & 3):• Make a cut-out to the panel, size 138×138 mm (5.34"
× 5.34").• Remove the four screws at the rear of the TCU to
access the sensor connectors.
Pipe mounting (Fig. 4):• Pipe mounting kits 4902:
a - for pipes diam. 25–38 mmb - for pipes diam. 35–52 mmc - for pipes diam. 50–73 mmc - for pipes diam. 72–94 mme - for pipes diam. 82–114 mm
• Attach the mounting plate to the pipe with straps andmount the TCU to the plate.
• To access the sensor connectors, open the lid anddismount the corner screws (4 pcs).
OK
esc
Conductivity
3100
Fig. 2. Wall mounting.
107
26.55
Fig. 3. Panel mounting.
OK
esc
Conductivity
3100
Fig. 4. Pipe mounting.
Installation & operating manual K14278 V1.5 EN8Dual Conductivity TCU series 3200
2.4. Electric connections
Metso 49695-1
A
J4J3J5
J1
J6 J2
B
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
9 9
10 10
11 11
12 12
13 13
14 14
15 15
ALARMSOUTPUTS
230V/115V
L N1 2
+mA1 mA2
- + -
SERIE
9100&9200
SERIE
9100&9200
SENSOR
SENSOR
J6Supply voltage input90-260 V AC
LN
===
LiveNeutralGround (housing)
The equipment is constructed for permanentinstallation and must be grounded for safetyreasons. A power switch must be availableclose to the equipment.
Fuse1A slow blow
1 2
The alarm contacts areshown on the terminalboard in the alarm state(currentless relay coil)
+mA1 mA2
- + -
Alarms
Fig. 5. Line powered version (3217H, 3218H). Alarm contacts shown in alarm mode (= unpowered).
Metso 49696-1
A
J4J3J5
J1
J6 J2J6
B
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
9 9
10 10
11 11
12 12
13 13
14 14
15 15
ALARMSOUTPUTS24V
Supply voltage input18-30 V AC
DCLN
===
LiveNeutralGround (housing)
The equipment is constructed for permanentinstallation and must be grounded for safetyreasons. A power switch must be availableclose to the equipment.
Fuse1A slowblow
Alarm contactsshown in alarm
mode (unpowered)
Alarms1
1
2
2
+
+
mA1
mA1
mA2
mA2
-
-
+
+
-
-
SERIE
9100&9200
SERIE
9100&9200
SENSOR
SENSOR
~
Fig. 6. 24V AC/DC version (3227H, 3228H).
Installation & operating manual K14278 V1.5 EN9Dual Conductivity TCU series 3200
2.5. Connecting the sensorConnecting:1. Unscrew the union nut (Fig. 7 A) from the cable
joint (C). Note that these parts may sit very tighttogether!
2. Separate cable union parts (B) from each other.3. Push the connector through the threaded hole in
the TCU case; be careful not to damage or breakthe wires.
4. Screw in the cable joint (C) to the TCU case.5. Push the cable sleeve (D) into contact with the
grounding collar (E).6. Hold the cable sleeve (D) and grounding collar (E)
in place and tighten the union nut (B).7. Make sure to position the grounding collar (E)
properly when connecting the cable: this partconnects the cable shield to the TCU case andensures proper grounding.
8. To disconnect the sensor, unscrew the union nut(A) and separate the parts (B) before unscrewingthe cable screw joint (C).
A
B
C
E
D
Fig. 7. Sensor cable.
4914 Cable extension kitFor extension of sensor to TCU cables on series 4600and 4700 sensors when used with Dual ConductivityTCU series 3200. Fig. 8.• Painted cast aluminum housing• Weight 600 g• Protection class IP65• Cable type: 70636 PVC 18×0.22 mm², max. temper-
ature 70 °C. Weight 110 g/m, max. length 50 m• 15-pole strip connector with MF20 cable union
Sensorinput5.12“ (130)
3.35“(85)
1 15
Fig. 8. Cable extension kit 4914.
Installation & operating manual K14278 V1.5 EN10Dual Conductivity TCU series 3200
When connecting series 9100 and 9200 sensors toTCU series 3200:• The thread on the existing sensor cable joint (Fig. 7
C) may not match with the TCU, and in this case itmust be replaced with the new adapter K17153 de-livered with TCU. Be careful not to damage thewires! Carefully turn and press the wires to one sideof the connector (Fig. 9 A) so that you can slide thecable joint off (B) and install the new one.
• Connect the strip connector to terminals 2…15 (Fig.10). Series 4600 and 4700 sensors have a 15-pinconnector.
Fig. 9. Replacing the cable joint on series 9100 and9200 sensors.
A
J4J3J5
J1
J6 J2
B
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
9 9
10 10
11 11
12 12
13 13
14 14
15 15
ALARMSOUTPUTS
230V/115V
L N1 2
+mA1 mA2
- + -
SERIE
9100&9200
SERIE
9100&9200
SENSOR
SENSOR
Left open when connectinga series 9100 or 9200 sensor
Example ofconnectingseries 4600and 4700sensors
Example ofconnectingseries 9100and 9200sensors
Fig. 10. Connecting sensors.
Installation & operating manual K14278 V1.5 EN11Dual Conductivity TCU series 3200
2.6. Sensor connection diagram
Fig. 11. Sensor connection diagram and test probe for sensor series 4600 and 4700.
Installation & operating manual K14278 V1.5 EN12Dual Conductivity TCU series 3200
2.7. Mounting the sensorThe sensor should be mounted at a place where therewill be no occurrence of air pockets or bubbles. Air willlower the reading and cause an unstable signal. SeeFig. 14 for information on the different installation loca-tions.
Make sure to install the sensor in the correct positionrelative to the flow. An arrow label (Fig. 12) indicatesthe position of the sensor:• external electrode: Pt 1000 facing the incoming flow• internal electrodes: sensor opening facing the incom-
ing flowExample: if the sensor is mounted in a pipe section
with upward flow, make sure that the Pt 1000 / sensoropening is on the underside.
Also pay attention to pipe diameter when choosingthe installation site for sensors with external electrodes.If the pipe diameter is too small, the electrodes will takeinterference from the pipe walls.
Fig. 12. The arrow indicates on which side of the sensorthe electrodes are.
Fig. 13. Sensors with external (A) and internal (B)electrodes.
Installation & operating manual K14278 V1.5 EN13Dual Conductivity TCU series 3200
Preferred mounting:• A: Directly in an upstream pipe.• B: Directly in an elbow between a horizontal and an
upstream pipe. Horizontal mounting is recommen-ded, with sensor pointing towards incoming flow.
• C: Using a measuring chamber connected across apump.
Alternative mounting:• D: Using a measuring chamber connected between
two different places of an upstream pipe. In this caseit may be necessary to install a throttle plate in orderto gain enough flow through the measuring chamber.
• E:This installation will prevent the signal from goingto zero in case the pipe runs empty. It may minimizethe appearance of air bubbles around the sensor.
• F, G: Installation in a downstream pipe is generallynot recommended if the pipe can run empty. If thesensor must be installed in a downstream pipe itmay help to keep the pipe filled by installing a throttleplate just after the measuring point.
Unsuitable locations:• H, I, K: Avoid these installations!
Mounting of measuring chamber:• Mount the measuring chamber in a vertical position,
with an upward flow direction.• Use short connecting pipes.• Insulate piping and measuring chamber to minimize
heat loss.• If connecting over a pump, make sure the pump has
enough capacity.• Shut-off valves are recommended so that the sensor
can be removed for service without shutting downthe process.
• When using valves to control the flow through themeasuring chamber, keep the inlet valve fully openand throttle the flow with the outlet valve.
GF
D
E
K
C
IA
H
B
Fig. 14. Sensor mounting locations.
Installation & operating manual K14278 V1.5 EN14Dual Conductivity TCU series 3200
3. Software structure3.1. KeypadWhen navigating in a menu, the cursor appears as anarrow on the left side of the menu texts. In some menusthe currently selected value or alternative is indicatedby an asterisk (*). Menu buttons:• OK: Switching from measurement display to menu
display; accepting a menu selection or value.• Esc: Returning from menu or submenu.• Up / down arrows: Navigating up and down in the
menu. Changing value when entering text or numer-ical values.
• Left / right arrows: Navigating in a menu line to aposition for modification.
• Valmet: Selects the measurement display or servicedisplay.The software structure is shown in Fig. 5.
3.2. Measurement display• Sensor A:The sensor from which the reading comes.• TC: Selected temperature compensation method.• Status OK: Alarm status.• [value]: Measured conductivity.• [reading]: Measured liquid temperature.
3.3. Service displayTo access the service display and to exit from it, pressthe Valmet logo above the keypad.The service displayshows the following information:• TCU serial number and active set-up• Sensor type (4000 + 9000)• Software version• Process value & temperature compensation status.• Measured conductivity, uncompensated• Pt1000 value and liquid temperature.• Cell constant & cell constant mode.• Current channel value and range.• Voltage channel value and range.
3.4. Menu displayTo access the menus press OK. See the followingchapter of this manual for more information on thevarious settings.
Fig. 1. Keypad.
Sensor ATC: OffStatus OK
S/cm
26.81°C
µ4.999
Fig. 2. Measurement display.
SN:54455 SensorA 9000SW:140514-0833PV:5.000 S/cm TC:0Co:5.000 S/cmRt:1104.35 26.81
µµ
°CCC:0.20125 AutomaticI :0.7217 R:1U :0.5841 R:2
Fig. 3. Service display.
Sensor A settingsSensor B settingsmA outputAlarmsSystem
A: 4.999 S/cm 26.81µ °C
Fig. 4. Menu display.
Installation & operating manual K14278 V1.5 EN15Dual Conductivity TCU series 3200
Sensor ATC: OffStatus OK
S/cm
26.81°C
µ4.999
Sensor A settingsSensor B settingsmA outputAlarmsSystem
A: 4.999 S/cm 26.81µ °C
1. Sensor A (B) settingsTemperature Comp.TC Slope valueTC Slope ref tempTemp. Adjust ^vCell constant modeCell constant valueCalc cc to conduct.Calibration
1. mA outputOutput1 selectLow limit 1High limit 1Output2 selectLow limit 2High limit 2
1. AlarmsAlarm1 selectAlarm1 typeAlarm1 limit 1Alarm2 selectAlarm2 typeAlarm2 limit 1Alarm:Display flash
1. SystemSensor A/B modeContrast Adjust ^vBacklightLanguageConductivity unitTemperature unitHART modeHART version 6
* HART version 5Poll addressPasswords setDamping settings
2. Temperature Comp.* OffUPW-NeutralUPW-AcidicUPW-AlkalineUPW-AmmoniaUPW-Neutral 20°CSTD SaltIEC 746-BIINaOH 1%HNO3 1%H2SO4 1%H3PO4 1%LIN SlopeVAR Slope
SN:54455 SensorA 9000SW:151202-1234PV:5.000 S/cm TC:0Co:5.000 S/cm CA:1Rt:1104.35 26.81
µµ
°CCC:0.20125 AutomaticI :0.7217 R:1U :0.5841 R:2
2. TC Slope ref temp
4 °C
2. Temp. Adjust ^v1
2. Cell constant mode* AutomaticManual
2. Cell constant value
0.2....^
2.Calc cc to conduct.
Raw conductivity0.00000 S/cm^
µ
2. Output1 / 2 selectOff
* Process Value-AProcess Value-BPV-A 0-x-ooPV-B 0-x-ooPV-A BilinearPV-B BilinearPV-A without TCPV-B without TCTemperature-ATemperature-A
2.Low limit 1 / 2
0.00000 S/cm^
µ
2.High limit 1 / 2
3700.37 S/cm^
µ
2. Alarm1 / 2 select* OffProcess Value-AProcess Value-BPV-A without TCPV-B without TCUSP<645>, sensor AUSP<645>, sensor BTemperature-ATemperature-B
2. Alarm1 / 2 typeMaximum NOMaximum NC
* Minimum NOMinimum NC
2.Alarm1 / 2 limit 1
60.0000 %^
2.Alarm:Display flash* OffOn
2. Sensor A/B mode* A/-- /BA/B
2. Contrast Adjust ^v
2.Backlight* OffOn
2. Language* EnglishSwedishFinnishSpanishPortuguese
2. Conductivity unit* µS/cm
S/mmS/cmmS/cm
µ
2. Temperature unit* °C°F
2. HART mode* Read/writeRead onlyOff
2. Poll address
0^
2. Passwords setPassword sensorPassword outputPassword alarmPassword system
Measurement display Menu displayService display
OK
Esc
OK Esc
3. Password
0***
2. TC Slope value
18 ‰ / °C^
2. Calibration* EnabledDisabledAdjust GainCalculate Gain
3. Adjust Gain0.0 nS/cm0.0 nS/cm0.00000^
3. Calculate GainRaw conductivity0.000000 µS/cm^ 2. Damping settings
Damping disabledDamping value
3. Damping value
0 s
Fig. 5. Software diagram.
Installation & operating manual K14278 V1.5 EN16Dual Conductivity TCU series 3200
4. Operating4.1. Error codesThe TCU has an error detection system for on-linetroubleshooting. The following error codes are shownon the display:
PV or PT: Process value or process temperature is outof range.• Select a different recipe.• Change the measurement position.• Use a sample cooler.
Error I: Current error.• Make sure that the sensor is surrounded by process
liquor!
Error U: Voltage measurement error.• Cable or sensor electrode is faulty.
RCC: Cell constant resistance.• Sensor top or cable is faulty.
4.2. Menu displayTo access the menu (Fig. 1) press OK in the measure-ment display. Select a function with the up/down keysand press OK to access it.
Two sensors can be connected to the TCU; thesesensors are labelled A and B and their settings areconfigured separately. In the menus, an asterisk (*)indicates the currently selected alternative.
Sensor A settingsSensor B settingsmA outputAlarmsSystem
A: 4.999 S/cm 26.81µ °C
Fig. 1. Main menu.
Installation & operating manual K14278 V1.5 EN17Dual Conductivity TCU series 3200
4.3. Sensor settingsSelect the correct sensor (A or B) with the up/downkeys and press OK. The menu contains the followingsettings:
Temperature Comp(ensation), alternatives:• Off• UPW-Neutral• UPW-Acidic• UPW-Alkaline• UPW-Ammonia• UPW-Neutral 20°C• STD Salt• IEC 746-BII• NaOH 1%• HNO3 1%• H2SO4 1%• H3PO4 1%• LIN slope• VAR slope
TC Slope value: Edit the value with arrow keys.
TC Slope ref temp: Edit the value with arrow keys.
Temp. Adjust: Edit with arrow keys.
Cell constant mode: Automatic or manual.
Cell constant value: Set here the manual cell constantvalue.
Calc. cc to conduct:This function is used to calculatethe cell constant. This can be done by measuring asample with known conductivity.
Example: The cell constant has been set manuallyto 0.10000. The conductivity result from the sensor is1.644 mS/cm, but the true conductivity of the measuredliquid is known to be 1.655 mS/cm. Go to "Calc cc toconduct", enter the known conductivity value 1.655mS/cm and press OK. The TCU will calculate the newcell constant value (in this case 0.1005) and the resultis taken into use.The sensor will now show the correctconductivity value 1.655 mS/cm.
Calibration:• Enabled/Disabled: Calibration is in use / not in use.• Adjust Gain: Measurement result can be fine-tuned
using this parameter.When Adjust Gain is selected,temperature compensation goes off for the channelin question. The raw conductivity result is shown online 4, calibrated conductivity on line 5. Line 6 showsthe calibration coefficient (gain) applied to tune themeasurement. Edit the gain as necessary and pressOK to save the setting. Pressing ESC takes back tothe previous menu level without saving the changes.Default gain is 1.00000.
• Calculate Gain: The calibration coefficient can alsobe calculated automatically. Enter the required con-ductivity reading as a parameter and press OK tocalculate and save the gain needed to obtain thatreading. Pressing ESC takes back to the previousmenu level without saving the changes. Go to Sys-tem menu to change the conductivity unit if neces-sary.
Installation & operating manual K14278 V1.5 EN18Dual Conductivity TCU series 3200
4.4. mA outputOutput select, alternatives: Off, Process value-A/B,PV 0-x-∞, PV without TC (temperature compensation),Temperature.
Low / High limit: Set the values corresponding to the4 mA and 20 mA current signal for the selected vari-able. For UPW set-up conductivity in µS, for standardset-up in mS.
If set Off, the high limit sets a fixed output current,with 0 as 4 mA and 100 as 20 mA. In this case the lowlimit is not used.
PV 0-x-∞ compresses the output current. Low limitis not used.
If the measured temperature is sent to an mA output,note that the output range is not automatically repro-grammed if the temperature unit is changed (under"System"). For example, if the low and high limit areset to the range 0…250°C, changing the temperatureunit to °F gives an output range of 0…250°F whichcorresponds to -18…121°C.
Table 1.
USP645Temp.USP645Temp.
2.1 µS/cm55…< 60°C0.6 µS/cm0…< 5°C
2.2 µS/cm60…< 65°C0.9 µS/cm5…< 10°C
2.4 µS/cm65…< 70°C0.9 µS/cm10…< 15°C
2.5 µS/cm70…< 75°C1.0 µS/cm15…< 20°C
2.5 µS/cm75…< 80°C1.1 µS/cm20…< 25°C
2.5 µS/cm80…< 85°C1.3 µS/cm25…< 30°C
2.5 µS/cm85…< 90°C1.4 µS/cm30…< 35°C
2.7 µS/cm90…< 95°C1.5 µS/cm35…< 40°C
2.9 µS/cm95…< 100°C1.7 µS/cm40…< 45°C
3.1 µS/cm=> 100°C1.8 µS/cm45…< 50°C
1.9 µS/cm50…< 55°C
4.5. AlarmsSettings made in Alarms menu are valid for all set-ups.
Alarm select, alternatives for alarm triggering:• Off• Process Value-A/B: Process value from the indicated
sensor.• PV-A/B without TC: Process value from indicated
sensor with no temperature compensation.• USP<645>, sensor A/B: USP (United States Phar-
macopoeia) requires that the conductivity of pharma-ceutical water without temperature compensationbe monitored and it must be below a certain limit.The level at which the alarm must be triggered isdependent on water temperature according to Table1. Temperature compensation is automatically setOFF for the channel in question.
• Temperature-A/B: Temperature measured by theindicated sensor.
Alarm type, alternatives:• Maximum / Minimum NO; NO = Normally Open, relay
contact is open during non-alarm and closed duringalarm.
• Maximum / Minimum NC; NC = Normally Closed,relay contact is closed during non-alarm and openduring alarm.
Alarm limit: Set the alarm limit in the selected unit.Important: If the temperature unit is changed, the usermust reprogram the set alarm limit for a temperature-triggered alarm! The set temperature limit is not auto-matically recalculated. For example, if the alarm limitis set to 65°C and the unit is changed to °F, the alarmpoint will be 65°F which corresponds to 18°C.
Alarm display flash: When set On, the display back-light will flash whenever any alarm is activated.
Installation & operating manual K14278 V1.5 EN19Dual Conductivity TCU series 3200
4.6. SystemSettings made in System menu are valid for all set-ups.
Sensor A/B mode: Select here how the TCU will dis-play results from the sensors connected to it:• A/– : TCU only displays the result from sensor A.• –/B : TCU only displays the result from sensor B.• A/B : TCU displays the measurement result, sensor
status, selected conductivity unit and measuredtemperature from both sensors.
Contrast adjust: Use the up/down arrow keys to adjustdisplay contrast.
Backlight: Display backlight can be set on or off.
Language: Choose the display language from theavailable options. Note that the language will changeimmediately.
Conductivity unit: Available units are µS/cm, µS/m,mS/cm or mS/m.
Temperature unit: Available units: °C or °F. When thetemperature unit is changed, the displayed temperaturevalue will be automatically recalculated using the selec-ted unit before it appears on the display.
Note that when the temperature unit is changed, theset temperature alarm and mA output range must bereprogrammed to the correct units by the user – theyare not automatically reprogrammed!
HART mode: Choose the mode for HART communic-ation. Alternatives are Read/write, Read only or Off.
HART version: Version 6 or 5.
Poll address: Set here the device address for HARTcommunication.
Passwords set: This function contains five submenusthat allow the user to protect different operations witha password. Passwords can be set for accessing themenu, sensor settings, outputs, alarm settings or sys-tem menu. Each of these can have different oridentical passwords, as necessary.
When the user selects a password-protected opera-tion, the TCU prompts for the password and will notproceed unless the correct password is given.
Damping settings: Allows the user to filter the incom-ing measurement signal.The damping value (seconds)sets the filtering period; if damping value is set to zero,"Damping disabled" is active.
Installation & operating manual K14278 V1.5 EN20Dual Conductivity TCU series 3200
05.07.2016 1 (2)
Dual Conductivity 3200 TCU Technical specification
© Valmet Automation Inc. All rights reserved.
Measuring range. ................. Autorange on each channel
separately
Conductivity ............................ 0…1000 mS/cm 0…100 S/m
Accuracy ................................ ± 0.5% of reading, min. ±5 nS/cm
Temperature effect
(ambient temperature) ............ ± 135 ppm/C
Cable compensation .............. ± 0.05% of actual conducti-vity + 0.3 nS/cm (30 nS/m) per meter of cable for cable lengths up to max. 50 meters
Frequency ............................. 75, 300, 1200 and 4800 Hz
Measuring cycle ................... 1.2 sec in two-channel mode
0.6 sec in single channel mode
Temperature compensation
Automatic with temperature sensor placed in the sensor.
OFF
UPW Neutral (1) 0…100C
UPW Acidic (2) 0…100C
UPW Alkaline (3) 0…100C
UPW Ammonia (4) 0…100C
NaOH 1% (5) 0…150C
HNO3 1% (6) 0…150C
H2SO4 1% (7) 0…150C
H3PO4 1% (8) 15…130C
STD Salt (9) 0…180C
(250C extrapolated)
IEC 746-3BII (10) 0…150C
LIN Slope (11) -40…+250C
VAR Slope (12) -40…+250C
LIN slope for special use:
% / C = (1 −
𝐾𝑟𝑒𝑓
𝐾𝑡 ) × 100
𝑇 − 𝑡𝑟𝑒𝑓
VAR slope for ordinary use:
% / C = (
KrefKt − 1) × 100
T − tref
Reference temperature. ....... Selectable in steps of 1C
from 0 to 99C (25C*) for LIN slope and VAR slope
0…99C (25C*)
Calibration. ........................... Individual for channel A or B
± 20%
Temperature TCU. ................ -40…+250C (-40…482F)
linearized, based on a Pt 1000 resistance thermometer. A temperature
below -40°C (-40F) or above
+250C (482F) will display the message "T" and trigger the temperature error alarm, if activated.
Accuracy ................................ ± 0.3C (0…100C)
(± 0.6F (32…212F))
± 0.7C (-40…250C)
(±1.3F (-40…482F))
Cable compensation .............. ± 0.1C per 10m
(± 0.2F per 10m)
Outputs. ................................ Two current outputs (1 and
2), galvanically isolated from electronics and sensors
Output mode conductivity ...... Output 1 and 2 can be set up individually as linear 0…100%, bilinear 0…100…1100%, or logarithmic 10…100…1000% Compressed 0…100…∞ or expanded ranges x2 and x5.
Output mode temperature ...... Output 1 and 2 can be set
individually to 0…100C or
0…250C (32…212F or
32…482F).
Output loading sensitivity ....... Typically 0.2% at 750 total load resistance
Voltage capacity .................... min. 15 V at 20 mA output current
Resolution .............................. 0.025% (16 bit)
Accuracy ................................ 0.2% at 20 mA output
Isolation ................................. Voltage to protective ground, max. 30 V
2 (2)
Dual Conductivity 3200 TCU Technical specification
© Valmet Automation Inc. All rights reserved.
Output ranges. ...................... Freely scalable output
Alarm. .................................... Two limit-based alarms and
one status alarm available
Limit-based alarms ................ Individually selectable as high or low alarms on conductivity, USP645 or temperature
Alarm limit .............................. selectable within the total span of the instrument; temp.
alarm only 0…250C (F)
Hysteresis .............................. 1% of alarm set point, asymmetrical
Relay contacts power handling capability:
- Rated voltage .................. 250 V AC
- Rated current .................. 6 A
Supply voltage
Voltage ................................... 230 VAC (90…260 VAC), 6 VA
Supply voltage effect.............. Max. 0.2% within the specified voltage range
Fuse ....................................... 5x20 mm, 1 A slow blow
Display. ................................. Graphic LCD with backlight
Updating rate
- Alternating mode............. updated every time the channel in the display has finished its measuring cycle
- All other run modes ......... updated every measuring cycle
Ambient temperature
During operation .................... -10…+60C (+14…+140F)
During storage ....................... -20…+70C (-4…+158F)
Housing
Material .................................. Aluminun, PE coated
Protection rating ..................... IP67 with front door closed, IP65 (NEMA4) with open front door
Dimensions
H x W x D ............................... 144 x 144 x 107 mm (5.76" x 5.76" x 4.21")
Weight .................................... 2.7 kg (5.95 lbs)
Panel mounting ...................... height 144 mm + cable inlets; panel cutting min. 138 x 138 mm (5.4" x 5.4")
Wall mounting ........................ height 144 mm + cable inlets and mounting rails
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D08
671
V1.
0 EN
11/
2016
Dimensions in mm
Sanitary closed type
Sanitary Sensor 4611
4-electrode conductivity sensor with internal electrodes. Used with Dual Conductivity TCU series 3200.
Mounting• Mounting with 2” ISO 2852 clamp (not included)
in a short Tee with a welding nipple.• No air bubbles or sedimentation at the installation
point.• Do not mount on the top side of a horizontal pipe.• Position the flow opening parallel to the direction
of the flow.
Technical data
Materials PVDF, EPDM, silicone rubber and steel W 1.4404 (AISI 316L).
Flange and cable connection: steel W 1.4404 (AISI 316L)
Pressure 10 bar at 130 °C
Cell constant 1.0 ± 0.5 % (electrically adjusted)
Reproduceability ±3 %
Linearity From 200 000 to 20 μS/cm ± 3.8 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 16 x 0.25 mm2 screened
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg
46 153
236.4
2 10 5±2
8172
8170
ø64
ø24
ø24
20°M
ax. 5
0M
in. 3
4
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D08
272
V1.
1 EN
06/
2016
Sanitary open type
Sanitary Sensor 4613
4-electrode conductivity sensor with external electrodes. Surface roughness of all wet parts Ra < 0.80 μm. Used with TCU series 3200. Mounting• Mounting with a 2” ISO 2852 clamp (not included).• Calibrated in a measuring pipe: outside Ø63 mm,
inside Ø60 mm. During factory calibration electrodes are directed towards pipe wall as shown. If the origi-nal factory calibration will be used, mount the sensor in the same way; recalibration is required if mounted to a larger pipe or with a different electrode direction.
• On a horizontal pipe, mount to the side of the pipe. Make sure no air bubbles occur at the installation point.
Hygienic mounting• Mounting in an EHEDG approved process connec-
tion. • Inside diameter of pipes at installation position must
be 3” or more.
Technical data
Materials
Sensor: PTFE, silicone rubber and steel W 1.4404 (AISI 316L)
Flange and cable connection: W 1.4404 (AISI 316L)
Pressure 12 bar at 150 °C
Cell constant
1.0 ± 0.5 % (electrically adjusted).
Calibrated in Ø63 mm SS pipe.
Ø51 mm pipe gives an error of +6 %
Reproduceability ±2 %
Linearity From 200 000 to 5 μS/cm ± 2 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636, screened
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.1 kg
For ISO clamp 2”
72 1606.4
25R=30
Ø64
Ø24
9113
8952
Ø51
63.5
9113
8170
2 10 5 ±2
For ISO clamp 2”
72 1606.4
ø64
ø24
24.3
ø51
4613s
8170
4613s8151
Pharmaceutical sanitary open type for ultra pure injection water
Sanitary Sensor 4613s
4-electrode conductivity sensor with external electrodes. Surface roughness of all wet parts Ra < 0.80 μm. Used with TCU series 3200.
Typical mounting• Mountingwith2”ISO2852clamp(notincluded)• Minimumdistancetosurroundings:24.3mm.• Whenmountingonahorizontalpipe,mounttothe
sideofthepipeandmakesurenoairbubblesoccurattheinstallationpoint.
• Constructthepipinginaself-drainingmanner.
Technical dataMaterials PTFE, silicone rubber, steel W
1.4404 (AISI 316L)
Pressure max. 12 bar at 150 °C
Cell constant 1.0 ± 0.5 % (electrically adjusted)
Calibrated in a Ø51 mm SS pipe.
Ø63 mm SS pipe gives an error of approx. –6 %.
Ø63 mm plastic pipe gives an er-ror of approx. 20–30 %.
Reproduceability ± 2 % ± 0.01 μS/cm
Linearity From 10 000 to 0.05 μS/cm ± 2 % per decade.
Below 5 μS/cm + 0.01 μS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
Standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.1 kg
dimensions in mm
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
ValmetCorpo
ratio
n,D0744
3V1.1EN
06/2016
dimensions in millimeters
2” BSP
8151
ø63 plastic TeeO-ring 50.47 x 2.62included in 8151
8158
Tee 2” (51)
1.5”
(ø38
)
2” (5
1)
8155 8
ø63.5 Tee
Mounting with type 8151 stainless steel nipple in a 2” plastic Tee
Warming!Directmountingtoaplasticpipegiveserrorsof-25%to30%
Mounting with 8155 stainless nipple in a 63.5mm stainless Tee
Warning!Directmountingtopipeswiderthan2”(51mm)giveserrors.
Mounting in a Ø2” (51) Tee with reducersWarning!Donotmountdirectlytoapipesmallerthan2”(51mm).
Hygienic mounting• MountinginanEHEDGapprovedprocessconnection.• Insidediameterofpipesatinstallationpositionmustbe3”ormore.
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
883
V1.
1 EN
06/
2016
0.63”(16) 3” (76)
min. 2.48”(63)
6.42” (163)0.31”(8)
1”(25)2.72”
(69)
3.05
”(7
7.5)
0.96
”(ø
24.5
) R:0.26”(6.5)
For ISO clamp 2½”20°
3-A sanitary open type
Sanitary Sensor 4624
4-electrode conductivity sensor with external electrodes. Surface roughness of all wet parts Ra < 0.80 μm. Used with TCU series 3200.
Mounting• Mount with a 2 ½” ISO 2852 clamp (not included).• Typical mounting in a short Tee.• Keep the minimum distance to the surroundings!• During factory calibration electrodes are directed
towards the pipe wall as shown. If the original facto-ry calibration will be used, mount sensor as shown.
• On a horizontal pipe, mount to the side of the pipe where no air bubbles occur.
Hygienic mounting• Mounting in an EHEDG approved process connec-
tion. • Inside diameter of pipes at installation position
must be 3” or more.
Technical data
Materials PTFE, silicone rubber and steel W 1.4404 (AISI 316L)
Pressure 12 bar at 150 °C
Cell constant
1.0 ± 0.5 % (electrically adjusted)
Calibrated in a Ø3” (Ø76 mm) pipe.
Ø2.5” (Ø63 mm) pipe gives an error of +3 %.
Reproduceability ±2 %
Linearity From 200 000 to 5 μS/cm ± 2 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 12 x 0.25 mm2 screened
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.1 kg
Typical mounting
dimensionsin inches (mm)
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Val
met
Cor
pora
tion,
D07
444
V1.
1 EN
06/
2016
for ISO clamp 2 1/2”
8120 + 8182
6.42” (163) 2.72” (69)0.31” (8)
1”(25)
3.05
”(7
7.5)
0.96
”(2
4.5)
1.18”
(30)
R:6.5
3-A sanitary open type for ultra pure water
Sanitary Sensor 4624s
4-electrode conductivity sensor with external electrodes. Surface roughness of all wet parts Ra < 0.80 μm. Used with Dual Conductivity TCU series 3200.
Typical mounting• Mounting with 2 ½ ” ISO 2852 clamp (not included)• Keep a minimum distance to the surroundings.• On a horizontal pipe, mount to the side of the pipe
and make sure no air bubbles occur at the installa-tion point.
• Construct piping in a self-draining manner.
Hygienic mounting• Mounting in an EHEDG approved process connec-
tion. • Inside diameter of pipes at installation position must
be 3” or more.
Technical data
Materials PTFE, silicone rubber and steel W 1.4404 (AISI 316L)
Pressure 12 bar at 150 °C
Cell constant
1.0 ± 0.7 % (electrically adjusted)
Calibrated in a diam. 63 mm pipe.
Diam. 76 mm pipe gives an error of -3 %.
Reproduceability ± 2 % ± 0.01μS/cm
Linearity From 10 000 to 0.05 μS/cm ± 2 % per decade
Below 5 μS/cm + 0.01 μS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg
dimensions in inches (mm)
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.
R=1.46”(37)
UPOUT
0.39"(10) 8.66"
(220)
2.5”
(63.
5)
0.08”(2)
6.42” (163) L
2.64” (67)
0.95
”(ø
24)
for ISO clamp 2 ½”
0.31”(8)
1”(ø
25)
3.05
” (77
.5)
R:0.26”(6.5)
R:0.26”(6.5)
20°
1”(25)
1.46”(37)
3-A sanitary open type
Sanitary Sensor 4625
4-electrode conductivity sensor with external electrodes. Used with TCU series 3200.
Technical data
Length 220 mm or to be specified, max. 2000 mm
Materials PTFE, silicone rubber and steel W 1.4404 (AISI 316L)
Wet parts of sensor are polished according to 3-A sanitary stan-dard, Ra < 32 μin (0.80 μm)
Pressure 12 bar at 150 °C
Cell constant
1.0 ± 0.5 % (electrically adjusted)
Calibrated in a Ø180 mm vessel. Special calibration is needed for use on a Ø2.5” (Ø63.5 mm) pipe.
Reproduceability ±2 %
Linearity From 200 000 to 5 μS/cm ± 2 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 12 x 0.25 mm2 screened
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.2 kg
Typical mountingSensor mounting with 2 ½” ISO 2852 clamp (not included). Keep the minimum distance to the sur-roundings! Mount in a place where no air bubbles occur. Construct the piping in a self-draining manner.
dimensionsin inches (mm)
© V
alm
et C
orpo
ratio
n, D
0824
3 V
1.0
EN 0
5/20
16
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D08
109
V1.
0 EN
02/
2016
25
R=37
b h
SMS38
7.5 6525
R=37
140 90ø5
0
ø25
Sanitary open type
Sanitary Sensor 4634
4-electrode conductivity sensor with external electrodes. Used with Dual Conductivity TCU series 3200. Universal flange for SMS38, DIN DN32 and 40 union.
MountingMounting requires a welding nipple. Sensor can be mounted in any direction. Keep the minimum distance (R = 37 mm) to the surroundings!Mount the sensor in a place where no air pockets or bubbles occur.
Technical data
Materials PTFE, silicone rubber and steel W 1.4404 (AISI 316L).
Pressure 12 bar at 150 °C
Cell constant
1.0 ± 0.5 % (electrically adjusted)
Calibrated in a Ø76 mm pipe.
Ø63 mm pipe gives error +3%.
Reproduceability ±2 %
Linearity From 200 000 to 20 μS/cm ± 2 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 16 x 0.25 mm2 screened
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 0.9 kg
Dimensions in mm
Typical mounting
Accessories SMS38 DN32 DN40Union nut 8270 8370 8470
Nipple with gasket 8285 8385 8485
Nipple height (h) 22 mm 16.5 mm 16.5 mm
Nipple diameter 60 58 65
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Val
met
Cor
pora
tion,
D08
673
V1.
0 EN
11/
2016
R=37
140 L65
257.5
ø50
R=37
ø25
Sanitary open type
Sanitary Sensor 4635
4-electrode conductivity sensor with external electrodes. Used with Dual Conductivity TCU series 3200. Universal flange for SMS38, DIN DN32 and 40 union.
MountingMounting requires a welding nipple. Sensor can be mounted in any direction. Keep the minimum distance (R = 37 mm) to the surroundings!Mount the sensor in a place where no air pockets or bubbles occur.
Technical data
Length L = 220 mm or to be specified, max. 2.5 m
Materials PTFE, silicone rubber and steel W 1.4404 (AISI 316L).
Pressure 12 bar at 150 °C
Cell constant1.0 ± 0.5 % (electrically adjusted)
Calibrated in an open vessel
Reproduceability ±2 %
Linearity From 200 000 to 20 μS/cm ± 2 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 16 x 0.25 mm2 screened
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 0.9 kg
Dimensions in mm
Typical mounting
Accessories SMS38 DN32 DN40Union nut 8270 8370 8470
Nipple with gasket 8285 8385 8485
Nipple height (h) 22 mm 16.5 mm 16.5 mm
Nipple diameter 60 58 65
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Val
met
Cor
pora
tion,
D07
445
V1.
0 EN
04/
2015
15356.5
4641
4641
8163
6.4
35
23
ø24
ø24
ø64
20°
Sanitary closed type for small pipes
Sanitary Sensor 4641
4-electrode conductivity sensor with internal. Resistant to acetone. Used with Dual Conductivity TCU series 3200.
Typical mounting• Mounting with a 2 ” ISO 2852 clamp (not included)
in a short Tee with a welding nipple.• Sensor can be mounted in pipes of all directions;
avoid mounting to the upper side of a horizontal pipe.
• Mount to a place where no air bubbles or sedimen-tation occur.
• Flow opening should be parallel to the direction of the flow.
Technical dataMaterials PVDF, EPDM, silicone rubber and
steel W 1.4404 (AISI 316L)
Flange and cable connection: steel W 1.4404 (AISI 316L)
Temperature sensor PFA coated
Pressure max. 10 bar at 130 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 2 %
Linearity From 200 000 to 5 μS/cm ± 1 % per decade.
Below 5μS/cm ± 2 % per decade.
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg
dimensions in millimeters
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D08
312
V1.
0 EN
06/
2016
Sanitary open type with Varivent flange
Sanitary Sensor 4654
4-electrode conductivity sensor with external electrodes. Surface roughness of all wet parts Ra < 0.80 μm. Used with Dual Conductivity TCU series 3200.
Typical mounting• Mounting with a VARIVENT DN50 inline access
unit (diam. 68). Clamp is not included.• Can be mounted on vertical and horizontal pipes in
any direction.• No air pockets or bubbles at the installation point.
Hygienic mounting• Mounting in an EHEDG approved process connec-
tion. • Inside diameter of pipes at installation position must
be 3” or more.
Technical dataMaterials PTFE, silicone rubber, and steel W
1.4404 (AISI 316L)
Pressure max. 12 bar at 150 °C
Cell constant 1.00 ± 0.5 % (electrically adjusted)
Reproduceability ± 2 %
Linearity From 200 000 to 5 μS/cm ± 2 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with special rubber stuffing sleeve
Weight 1.5 kg
dimensions in millimetersmin. 75
min. 60(R=6.5)
143 6719
ø84
ø68
25°
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Val
met
Cor
pora
tion,
D08
313
V1.
0 EN
06/
2016
Sanitary open type with Varivent flange
Sanitary Sensor 4654s
4-electrode conductivity sensor with external electrodes. Surface roughness of all wet parts Ra < 0.80 μm. Used with Dual Conductivity TCU series 3200.
Typical mounting• Mounting with a VARIVENT DN50 inline access
unit (diam. 68). Clamp is not included.• Can be mounted on vertical and horizontal pipes in
any direction.• No air pockets or bubbles at the installation point.
Hygienic mounting• Mounting in an EHEDG approved process connec-
tion. • Inside diameter of pipes at installation position must
be 3” or more.
Technical dataMaterials PTFE, silicone rubber, and steel W
1.4404 (AISI 316L)
Pressure max. 12 bar at 150 °C
Cell constant 1.00 ± 0.5 % (electrically adjusted)
Reproduceability ± 2 %
Linearity From 10 000 to 0.05 μS/cm ± 2 % per decade
Below 5 μS/cm + 0.01 μS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with special rubber stuffing sleeve
Weight 1.5 kg
dimensions in millimeters
min. 75
143 19 67
ø84
ø68
25°
25
30
min. 60
(R=6.5)
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Val
met
Cor
pora
tion,
D07
447
V1.
0 EN
04/
2015
5443
40 63 14 186.4
23
35
ø24
ø25
ø24
ø50.
5
UP
54
21.540.5
ø38
Sanitary closed type with 1.5” ISO clamp
Sanitary Sensor 4681
4-electrode conductivity sensor with internal electrodes. Used with Dual Conductivity TCU series 3200.
Typical mounting• Mounting with a 1.5” ISO 2852 clamp (not includ-
ed) in a T-piece with a welding nipple.• Can be mounted to pipes of any directions; avoid
mounting on the top side of a horizontal pipe.• Flow opening must be parallel to the direction of
the flow.• Arrow on sensor indicates the position of the tem-
perature sensor.• No air bubbles or sedimentation at the installation
point.
Technical dataMaterials PVDF, EPDM, silicone rubber,
steel W 1.4404 (AISI 316L)
Flange and cable connection: steel W 1.4404 (AISI 316L)
Pressure max. 10 bar at 130 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 2 %
Linearity In stainless steel pipe from 1μS/cm to 10.000μS/cm ±1 % per decade
From 10.000 μS/cm to 200.000 μS/cm error +5 % per decade.
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg dimensions in millimeters
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Val
met
Cor
pora
tion,
D07
854
V1.
1 EN
06/
2016
NAV 1-1
1 ½” ISO
L=85
37
4 10
147
For ISO clamp 1 ½”
85
6.435R=37
ø50.
5
ø24
Sanitary open type for tank mounting
Sanitary Sensor 4683
4-electrode conductivity sensor with external electrodes. Surface roughness of all wet parts Ra < 0.80 μm. Used with TCU series 3200.
Mounting• Mounting with a 1 ½” ISO 2852 clamp (not includ-
ed).• Mount in a place where no air bubbles or sedimenta-
tion occur. • The sensor has been calibrated in a measuring pipe
with inside Ø180 mm. If the sensor will be mounted to a pipe smaller than Ø100 mm, recalibration is re-quired.
Hygienic mounting• Mounting in an EHEDG approved process connec-
tion. • Inside diameter of pipes at installation position
must be 3” or more.
Technical dataMaterials PTFE and steel W 1.4404 (AISI
316L).
Flange and cable connection: steel W 1.4404 (AISI 316L).
Inside pressure gasket: SIL
Pressure max. 12 bar at 150 °C
Cell constant 1.0 ± 0.7 % (electrically adjusted)
Calibrated in a 180 mm pipe.
Reproduceability 2 %
Linearity From 200 000 to 5 μS/cm ± 2 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 12 x 0.25 mm2 screened
Standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.5 kg
Typical mounting
dimensions in mm
NA connect 38 mounting
Standard ISO 1 ½”clamp mounting
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
662
V1.
1 EN
06/
2016
For ISO clamp 1 ½”ø50.
5
ø24
6.472 160
24.3
Pharmaceutical sanitary open type for ultra-pure injection water
Sanitary Sensor 4683s
4-electrode conductivity sensor with external electrodes. Surface roughness of all wet parts Ra < 0.80 μm. Used with series 3200 measurements.
Mounting• Mounting with a 1 ½” ISO clamp (not included).• Minimum distance to surroundings is 24.3 mm!• On a horizontal pipe, always mount to the side of the
pipe and at a place where no air bubbles occur. The piping must be made in a self-draining manner.
Hygienic mounting• Mounting in an EHEDG approved process connec-
tion. • Inside diameter of pipes at installation position must
be 3” or more.
Technical dataMaterials PTFE, silicone rubber and steel W
1.4404 (AISI 316L)
Pressure max. 12 bar at 150 °C
Cell constant
1.0 ± 0.5% (electrically adjusted). Calibrated in a Ø51 mm SS pipe
Ø63 mm SS pipe gives an error of approximately -6%
Ø63 mm plastic pipe gives an er-ror of approximately 20–30%.
Reproduceability ± 2 %
Linearity From 10 000 to 0.05 μS/cm ± 2% per decade
Below 5 μS/cm + 0.01 μS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 0.6 kg
dimensions in millimeters
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
448
V1.
0 EN
04/
2015
NV41
diam.29
NV55
BSP 1.5”NPT 1.5”
149
103
18
302
71
46
R=37
48115
BSP 1.5”
180
Compact open type for sluice
Industrial Sensor 4716
4-electrode conductivity sensor with external electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataMaterials Sensor: PTFE, silicone rubber and
steel W 1.4404 (AISI 316L
Sensor packing: O-ring EPDM
Sluice valve packing: PTFE
Pressure max. 12 bar at 150 °C; max. 5 bar when removing from process
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 2 %
Linearity From 200 000 to 5 μS/cm ± 2 % per decade
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 2.9 kg
8299 sluice chamber• 1.5” ball valve for sensor mounting• Weight: 3.0 kg
Typical mounting of 4716 & 8200
- Dismount outer joint of ball valvebefore welding
dimensions in millimeters
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
449
V1.
0 EN
04/
2015
7 0
11050
49.5
Ø6.5
Ø
Ø
8903
FlowassemblyType 71 Ø6Type 72 Ø10
Withoutguide pin
Up
Weld T
8933 Ø388934 Ø42.4
89018935 Ø44.5**Guide
pin
8935 Weld T
Up
8901 8936 Ø48.38937 Ø54**8938 Ø60.3
Guide pin
890189091 1/4”BSP
Up
8903
8911Ø33.6
min
. 80
**
59.5
454
Withoutguide pin
8915Ø44
min
. 80
**
1536
55.5
Guide pin
29.4 L = 105.5 1064
5565.5
diam
.30
diam
.3
Standard 15-pole strip
diam
.24
89018935
Withoutguide pin
1 1/4”Tee
Radiation resistant sensor
Industrial Sensor 4719
4-electrode conductivity sensor with internal electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataRadiation resistant to 1.00E+05 Gy, 121 °C
Materials PVDF, Viton, EPDM silicone rubber, and steel W 1.4404 (AISI 316L)
Pressure max. 10 bar at 130 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ±1.5 %, min. ± 8 nS/cm
Linearity 10 000 to 0.05 μS/cm ±1 % per decade
Below 5 μS/cm +8 nS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 15 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg
Typical mounting
dimensions in millimeters
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
450
V1.
0 EN
04/
2015
70
Withoutguide pin
FlowassemblyType 71 Ø6Type 72 Ø10
Ø6.5
8903
Ø
Ø
49.5
128
24.5
5010
Guidepin
Weld T
Up
Up
Weld T
Guide pin
8901
8935
8936 Ø48.38937 Ø54**8938 Ø60.3
29.4 136
75
Ø3
Ø30
Ø25
Ø25
Standard 15-pole strip
Withoutguide pin
Up
89018909
Withoutguide pin
8903
8933 Ø388934 Ø42.48935 Ø44.5**
8901
8911Ø33.6
1 1/4”BSP
1 1/4” T
445
min
. 80*
*
76
min
. 80*
*
8901
8935
8915Ø44
Guide pin
1536
76
Industrial closed sensor for small pipes
Industrial Sensor 4721
4-electrode conductivity sensor with internal electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataLength L = 125 mm
Materials PTFE and steel W 1.4404 (AISI 316L)
Pressure max. 26 bar at 210 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 1.5%, min. ±8 nS/cm
Linearity 200 000 to 0.05 μS/cm ±1% per decade
Below 5 μS/cm +8 nS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 20 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg
dimensions in millimeters
L = 125
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
920
V1.
0 EN
10/
2015
70
Withoutguide pin
FlowassemblyType 71 Ø6Type 72 Ø10
Ø6.5
8903
Ø
Ø
49.5
128
24.5
5010
Guidepin
Weld T
Up
Up
Weld T
Guide pin
8901
8935
8936 Ø48.38937 Ø54**8938 Ø60.3
29.4 136
75
Ø3
Ø30
Ø25
Ø25
Standard 15-pole strip
Withoutguide pin
Up
89018909
Withoutguide pin
8903
8933 Ø388934 Ø42.48935 Ø44.5**
8901
8911Ø33.6
1 1/4”BSP
1 1/4” T
445
min
. 80*
*
76
min
. 80*
*
8901
8935
8915Ø44
Guide pin
1536
76
Industrial closed sensor for small pipes and high pressures
Industrial Sensor 4721 HP
4-electrode conductivity sensor with internal electrodes. Delivered with pressure test certificate. Used with Dual Conductivity TCU series 3200.
Technical dataLength L = 125 mm
Materials PTFE and steel W 1.4404 (AISI 316L)
Pressure max. 50 bar at 250 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 1.5%, min. ±8 nS/cm
Linearity 200 000 to 0.05 μS/cm ±1% per decade
Below 5 μS/cm +8 nS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 20 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg
dimensions in millimeters
L = 125
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
451
V1.
0 EN
04/
2015
70
Withoutguide pin
FlowassemblyType 71 Ø6Type 72 Ø10
Ø6.5
8903
Ø
Ø
49.5
128
24.5
5010
Guidepin
Weld T
Up
Up
Weld T
Guide pin
8901
8935
8936 Ø48.38937 Ø54**8938 Ø60.3
29.4 136
75
Ø3
Ø30
Ø25
Ø25
Standard 15-pole strip
Withoutguide pin
Up
89018909
Withoutguide pin
8903
8933 Ø388934 Ø42.48935 Ø44.5**
8901
8911Ø33.6
1 1/4”BSP
1 1/4” T
445
min
. 80*
*
76
min
. 80*
*
8901
8935
8915Ø44
Guide pin
1536
76
Radiation resistant closed sensor for small pipes
Industrial Sensor 4721PE
4-electrode conductivity sensor with internal electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataLength 125 mm
Materials Sensor of PE and steel W 1.4404 (AISI 316L)
Pressure max. 20 bar at 80 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 1.5%, min. ±8 nS/cm
Linearity 200 000 to 0.05 μS/cm ±1% per decade
Below 5 μS/cm +8 nS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 20 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg
dimensions in millimeters
L = 125
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
452
V1.
0 EN
04/
2015
70
Withoutguide pin
FlowassemblyType 71 Ø6Type 72 Ø10
Ø6.5
8903
Ø
Ø
49.5
128
24.5
5010
Guidepin
Weld T
Up
Up
Weld T
Guide pin
8901
8935
8936 Ø48.38937 Ø54**8938 Ø60.3
29.4 136
75
Ø3
Ø30
Ø25
Ø25
Standard 15-pole strip
Withoutguide pin
Up
89018909
Withoutguide pin
8903
8933 Ø388934 Ø42.48935 Ø44.5**
8901
8911Ø33.6
1 1/4”BSP
1 1/4” T
445
min
. 80*
*
76
min
. 80*
*
8901
8935
8915Ø44
Guide pin
1536
76
L
Industrial closed sensor for small pipes
Industrial Sensor 4722
4-electrode conductivity sensor with internal electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataLength L = 0.25 m or extended to 0.5 /
1.0 / 1.5 / 2.0 / 2.5 m
Materials PTFE and steel W 1.4404 (AISI 316L)
Pressure max. 26 bar at 210 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 1.5%, min. ±8 nS/cm
Linearity 200 000 to 0.05 μS/cm ±1% per decade
Below 5 μS/cm +8 nS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 20 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.3 kg
dimensions in millimeters
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
453
V1.
0 EN
04/
2015
NV
41
NV
55
min. 84
440.5109
75136 88.5
DN408834
8940
Ø29
.6Ø
24
75
4
D8939 for D=848940 for D=88.98941 for D=105
8937
7550 7550
Ø104
D
75501 1/2”
115
26
1 1/
2”B
SP
0 for D=448937 for D=548938 for D=60.3
Ø48
227115
180
Industrial closed sensor for sluice
Industrial Sensor 4723
4-electrode conductivity sensors with internal electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataMaterials Sensor: PTFE and steel W
1.4404 (AISI 316L)
Sensor packing: PTFE
Sluice valve packing: PTFE
Pressure max. 15 bar at 150 °C; max. 5 bar when removing from process
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 1.5% ±8 nS/cm
Linearity From 200 000 to 0.05 μS/cm ±1 % per decade
Below 5 μS/cm +8nS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 20 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 3.0 kg
269 sluice chamber• 1.5” ball valve for sensor mounting• Weight: 3.5 kg
Typical mounting of 4723 & 269 269 sluice valve chamber Weld connection type 170.29
Dismount outer jointof ball valve before welding
Dimensions in millimeters
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
454
V1.
0 EN
04/
2015
8901893989348942
DN32
89038912
470
150
89114724
8903
89038931
8921
Place tube onchamferedinside.
47248903
Place gasketon upper sideof union nut
Cable bend8930
Use threadgasket
1364
447 71
29.4
Ø3
Ø30
Ø25
min.73
L
Industrial open sensor
Industrial Sensor 4724
4-electrode conductivity sensor with external electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataLength 195 mm
Materials PTFE and steel W 1.4404 (AISI 316L)
Pressure max. 25 bar at 210 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 1.5% ± 0.01 μS/cm
Linearity 200 000 to 0.05 μS/cm ±2 % per decade
Below 5 μS/cm +0.01 μS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 25 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.1 kg
Typical mounting
Alternative 1 Alternative 2 Alternative 3 Alternative 4
dimensions in millimeters
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
455
V1.
0 EN
04/
2015
891989138903
4725225 4L=350
4725L=0.5
89808977
8904
Strap to lockadjustableimmersion depth
4725L=0.5
1364
447 71
29.4
Ø3
Ø30
Ø25
min.73
L
Industrial open sensor
Industrial Sensor 4725
4-electrode conductivity sensor with external electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataLength 0.25 m or extended to 0.5 / 1.0 /
1.5 / 2.0 / 2.5 m
Materials PTFE and steel W 1.4404 (AISI 316L)
Pressure max. 25 bar at 210 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 1.5% ± 0.01 μS/cm
Linearity 200 000 to 0.05 μS/cm ±2 % per decade
Below 5 μS/cm +0.01 μS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 25 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.1 kg
Typical mounting
Alternative 1 Alternative 2 Alternative 3
dimensions in millimeters
26
115
1 1/
2”B
SP
180
115358
Ø48
Type 270
Ø24
8919
Type 270
Type 270
390 243.5L2 min.75 45
45
134572
136 88.5
NV
41
NV
55
Ø29
.6
Min.75
Industrial open sensor for sluice
Industrial Sensor 4726
4-electrode conductivity sensor with external electrodes. Used with Dual Conductivity TCU series 3200.
Technical dataMaterials Sensor: PTFE and steel W
1.4404 (AISI 316L)
Sensor packing: PTFE
Sluice valve packing: PTFE
Pressure max. 15 bar at 150 °C; max. 5 bar when removing from process
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 1.5 % ± 0.01 μS/cm
Linearity From 200.000 to 0.05 μS/cm ± 2 % per decade
Below 5 μS/cm +0.01 μS/cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 25 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
Standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 3.0 kg
dimensions in mm
270 sluice chamber
1.5” ball valve for sensor mounting. Weight: 3.5 kg
Typical mounting of 4726 & 270 Type 270 with Weld connection 1.5” ball valve type 170.29
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
456
V1.
0 EN
04/
2015
34
195
b
D
d1
L2
d2
d4K
L2243.5
min. 75 45
390
dimensions in millimeters
Flanged sluice chamber for sensor type 4726
Max. pressure / temperature conditionsBar 45 25 5
ºC 100 150 200
Lb 425 360 70
ºF 210 300 390
Sluice chamber L2 D b k d1 d2 d4Type 271 DIN DN40, PN 40 79 150 18 110 44.5 18 88
Type 272 ANSI 1.5”, 300 lb 102.3 155.6 20.6 114.3 48.3 22.2 73
Type 273 DIN DN50, PN40 79 165 18 125 57 18 102
Type 274 ANSI 2”, 150 lb 102.5 152.4 19.1 102.6 60.5 19.1 91.9
Typical mounting
For more information, contact your local Valmet office. www.valmet.com Specifications in this document are subject to change without notice. Product names in this publication are all trademarks of Valmet Corporation.©
Val
met
Cor
pora
tion,
D07
457
V1.
0 EN
04/
2015
Ø3
29.4
Ø30
44 14428
Ø2523
3572
4
44.525
Guide pin
89018935
Guide pin
89018933
44
16
4040
55
40
Guide pin8901
44 2626
40
5057
8801PVC T-piece NV40/40
8901
8909
90
1 1/4” T-piece
1 1/
4” B
SP
DIN 11851, DN40
DN40/408464
40
Od10
42.1
6
Guide pin
89018934
22
38 27
Compact closed sensor for small pipes
Industrial Sensor 4741
4-electrode conductivity sensor with internal electrodes. Used with Dual Conductivity TCU series 3200. Mounted with flow opening facing the incoming flow.
Technical dataMaterials PVDF, EPDM, silicone rubber, and
steel W 1.4404 (AISI 316L)
Flange and cable connection: steel W 1.4404 (AISI 316L)
Temperature sensor: PFA coated
Pressure max. 10 bar at 130 °C
Cell constant 1.0 ± 0.5% (electrically adjusted)
Reproduceability ± 2%
Linearity From 200 000 to 5 μS/cm ± 2 % per decade
Below 5 μS/cm + 0.01 μS/ cm
Temp. sensor Pt 1000 (IEC 751 class A)
Time delay T90, 9 sec.
Protection IP65 splash-proof (DIN 40 050)
Sensor cable PVC 18 x 0.22 mm2 type 70636 with screen
standard length 5 m
max. temp. 70 °C
Connection 15-pole strip connector with MF20 cable adapter
Weight 1.0 kg
dimensions in millimeters
EN FR FI ES SV PT DE IT NL PL RU
EU
DECLARATION OF CONFORMITY VAATIMUSTENMUKAISUUSVAKUUTUS KONFORMITETSDEKLARATION KONFORMITÄTSERKLÄRUNG CONFORMITEITSVERKLARING ДЕКЛАРАЦИЯ СООТВЕТСТВИЯ
DECLARATION DE CONFORMITE DECLARACION DE CONFORMIDAD DECLARAÇÃO DO CONFORMIDADE DICHIARAZIONE DI CONFORMITA DEKLARACJA ZGODNOŚCI
Manufacturer – Valmistaja – Fabrikant – Hersteller – Fabrikant – Производитель – Fabricant – Fabricante – Fabricante – Fabriccante – Producent
Valmet Automation Oy Kehräämöntie 3 / P.O.Box 177 87101 Kajaani, FINLAND
Device – Laite – Enheten – Gerät – Apparaat – Устройство – Artifice – Dispositivo – Dispositivo – Dispositivo – Urządzenie
Valmet Conductivity Measurements
Series 2822 Conductivity Measurements
Series 3000 Portable Conductivity Measurements
Series 3100 Conductivity Measurements
Series 3200 Dual Conductivity Measurements
Series 3300 Concentration Measurements
Series 3500 Causticizing Measurements
with corresponding sensors
This product is in conformity with the requirements of the following directives, and with standards and national legislation implementing these directives:
Tuote täyttää seuraavien säännösten asettamat vaatimukset sekä nämä voimaansaattavat kansalliset päätökset:
Denna produkt uppfyller kraven i följande direktiv och standarder samt nationell lagstiftning som inför dessa direktiv:
Dieses Produkt erfüllt die folgenden Richtlinien und Normen und die nationalen Gesetze, die die Anwendung der obigen Richtlinien durchsetzen:
Dit product is in overeenstemming met de eisen van de volgende richtlijnen en met normen en nationale wetgeving ter uitvoering van deze richtlijnen: Данное изделие соответствует требованиям следующих директив, а также стандартам и национальным законодательным актам, вводящим в действие данные директивы:
Le produit est conforme aux directives et normes suivantes, et les dispositions nationales portant mise en œuvre desdites directives:
Este producto es conforme a los requisitos de las siguientes directivas y normas y legislación nacional de aplicación de estas directivas:
Este produto obedece aos requisitos das directivas e normas abaixo mencionadas e legislação nacional que transpõe as referidas directivas para o direito interno:
Questo prodotto è conforme ai requisiti delle seguenti direttive, norme e standard e legislazione nazionale implementata sulla base di queste direttive:
Ten produkt jest zgodny z wymaganiami następujących dyrektyw oraz ze standardami i przepisami krajowymi dotyczącymi wdrożenia tych dyrektyw:
Loop-powered models: 2014/30/EU (EMC Directive) 2002/95/EC (RoHS Directive) 2012/19/EU (WEEE Directive)
Line-powered models:
2014/30/EU (EMC Directive) 2014/35/EC (Low Voltage Directive) 2002/95/EC (RoHS Directive) 2012/19/EU (WEEE Directive)
Juha Koistinen Vice President
Valmet Automation Oy Control & Measurement Systems
Signature – Allekirjoitus – Underskrift – Unterschrift – Handtekening – Подпись – Signature – Firma –
Firma – Assinatura – Podpis
Clarification of signature, position – Nimenselvennys, asema – Namnförtydligande, befattning – Unterschrift in Maschinenschrift, Position – Verduidelijking van handtekening, positie –
Расшифровка подписи, должность – Nom en toutes letters, fonction – Nombre y cargo – Nome en função do assinante – Firma in stampatello, mansione – Imię i nazwisko, stanowisko
Valmet Automation Inc.Kehräämöntie 3 / P.O.Box 177FI-87101 Kajaani, Finlandtel. +358 10 672 0000, fax +358 10 676 1981www.valmet.com
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Copyright © 01/2017Valmet Automation Inc.Documentation: Marjo Nygård