Operating Instructions KSR-TF 611 with transistor output

Operating Instructions KSR-TF 611 with transistor output

Contents Contents 1 About this document 1.1 Function............................. 4 1.2 Target group.......................... 4 1.3 Symboism used....................... 4 2 For your safety 2.1 Authorised personne.................... 5 2.2 Appropriate use........................ 5 2.3 Warning about misuse................... 5 2.4 Genera safety instructions................ 5 2.5 CE conformity......................... 5 2.6 SIL conformity......................... 6 2.7 Safety instructions for Ex areas............ 6 3 Product description 3.1 Configuration.......................... 7 3.2 Principe of operation.................... 7 3.3 Operation............................ 8 3.4 Storage and transport................... 9 4 Mounting 4.1 Genera instructions..................... 10 4.2 Mounting instructions.................... 13 5 Connecting to power suppy 5.1 Preparing the connection................. 15 5.2 Connection procedure................... 15 5.3 Wiring pan, singe chamber housing......... 16 6 Set up 6.1 In genera............................ 19 6.2 Adjustment eements.................... 19 6.3 Function chart......................... 20 7 Maintenance and faut rectification 7.1 Maintenance.......................... 22 7.2 Faut rectification....................... 22 7.3 Instrument repair....................... 23 8 Dismounting 8.1 Dismounting steps...................... 24 8.2 Disposa............................. 24 2 KSR-TF 611 - with transistor output

Contents 9 Suppement 9.1 Technica data......................... 25 9.2 Dimensions........................... 33 KSR-TF 611 - with transistor output 3

About this document 1 About this document 1.1 Function This operating instructions manua provides a the information you need for mounting, connection and setup as we as important instructions for maintenance and faut rectification. Pease read this information before putting the instrument into operation and keep this manua accessibe in the immediate vicinity of the device. 1.2 Target group This operating instructions manua is directed to trained personne. The contents of this manua shoud be made avaiabe to these personne and put into practice by them. 1.3 Symboism used Information, tip, note This symbo indicates hepfu additiona information. Caution: If this warning is ignored, fauts or mafunctions can resut. Warning: If this warning is ignored, injury to persons and/or serious damage to the instrument can resut. Danger: If this warning is ignored, serious injury to persons and/or destruction of the instrument can resut. Ex appications This symbo indicates specia instructions for Ex appications. à List The dot set in front indicates a ist with no impied sequence. Action This arrow indicates a singe action. 1 Sequence Numbers set in front indicate successive steps in a procedure. 4 KSR-TF 611 - with transistor output

For your safety 2 For your safety 2.1 Authorised personne A operations described in this operating instructions manua must be carried out ony by trained speciaist personne authorised by the operator. During work on and with the device the required persona protection equipment must aways be worn. 2.2 Appropriate use KSR-TF 611 is a sensor for eve detection. You can find detaied information on the appication range in chapter "Product description". 2.3 Warning about misuse Inappropriate or incorrect use of the instrument can give rise to appication-specific hazards, e.g. vesse overfi or damage to system components through incorrect mounting or adjustment. 2.4 Genera safety instructions This is a high-tech instrument requiring the strict observance of standard reguations and guideines. The user must take note of the safety instructions in this operating instructions manua, the country-specific instaation standards as we as a prevaiing safety reguations and accident prevention rues. The instrument must ony be operated in a technicay fawess and reiabe condition. The operator is responsibe for troubefree operation of the instrument. The user is aso obiged to determine, during the entire duration of use, the compiance of the necessary occupationa safety measures with the current vaid reguations and take note of new reguations. 2.5 CE conformity KSR-TF 611 is in CE conformity with EMC (89/336/EWG), fufis NAMUR recommendation NE 21 and is in CE conformity with LVD (73/23/EWG). Conformity has been judged according to the foowing standards: KSR-TF 611 - with transistor output 5

For your safety EMC: - Emission EN 61326/A1: 1998 (cass B) - Susceptibiity EN 61326: 1997/A1:1998 LVD: EN 61010-1: 1993 2.6 SIL conformity KSR-TF 611 fufis the requirements to functiona safety according to IEC 61508 or IEC 61511. You find further information in the Safety Manua. 2.7 Safety instructions for Ex areas Pease note the Ex-specific safety information for instaation and operation in Ex areas. These safety instructions are part of the operating instructions manua and come with the Exapproved instruments. 6 KSR-TF 611 - with transistor output

Product description 3 Product description 3.1 Configuration Scope of deivery Components The scope of deivery encompasses: KSR-TF 611 eve sensor Documentation - this operating instructions manua - Additiona instructions manua "Safety Manua - Functiona safety according to IEC 61508 (SIL)" - Ex-specific "Safety instructions" (with Ex-versions) - if necessary, further certificates KSR-TF 611 consists of the foowing components: Housing cover Housing with eectronics process fitting with tuning fork 1 2 3 Fig. 1: KSR-TF 611 1 Housing cover 2 Housing with eectronics 3 Process fitting 3.2 Principe of operation Area of appication KSR-TF 611 is a eve sensor with tuning fork for eve detection. It is designed for industria use in a areas of process technoogy and can be used in iquids. Typica appications are overfi and dry run protection. With a tuning fork of ony 40 mm ength, KSR-TF 611 can be aso mounted, e.g. in pipeines from DN 25. The sma tuning fork KSR-TF 611 - with transistor output 7

Product description aows use in vesses, tanks and pipes. Thanks to its simpe and robust measuring system, KSR-TF 611 is virtuay unaffected by the chemica and physica properties of the iquid. It functions even under difficut conditions such as turbuence, air bubbes, foam generation, buidup, strong externa vibration or changing products. Faut monitoring The eectronics modue of KSR-TF 611 continuousy monitors via frequency evauation the foowing criteria: Strong corrosion or damage on the tuning fork oss of vibration Line break to the piezo drive If a mafunction is detected or in case of power faiure, the eectronics takes on a defined switching condition, i.e. the output transistor bocks (safe condition). Functiona principe Suppy The tuning fork is piezoeectricay energised and vibrates at its mechanica resonance frequency of approx. 1200 Hz. The piezos are fixed mechanicay and are hence not subject to temperature shock imitations. The frequency changes when the tuning fork is covered by the medium. This change is detected by the integrated osciator and converted into a switching command. KSR-TF 611 is a compact instrument, i.e. it can be operated without externa evauation system. The integrated eectronics evauates the eve signa and outputs a switching signa. With this switching signa, a connected device can be operated directy (e.g. a warning system, a PLC, a pump etc.). The data for power suppy are stated in chapter "Technica data" in the "Suppement". 3.3 Operation With the factory setting, products with a density >0.07 g/cm³ (>0.025 bs/in³) can be measured. The instrument can be adapted if products with ower density shoud be measured. On the eectronics modue you wi find the foowing indicating and adjustment eements: signa amp for indication of the switching condition (green/ red) DIL switch for sensitivity adjustment 8 KSR-TF 611 - with transistor output

Product description Mode switch for seection of the switching condition (A/B) 3.4 Storage and transport Packaging Storage and transport temperature Your instrument was protected by packaging during transport. Its capacity to hande norma oads during transport is assured by a test according to DIN EN 24180. The packaging of standard instruments consists of environment-friendy, recycabe cardboard. In addition, the sensor is provided with a protective cover of ABS. For specia versions PE foam or PE foi is aso used. Dispose of the packaging materia via speciaised recycing companies. Storage and transport temperature see "Suppement - Technica data - Ambient conditions" Reative humidity 20 85 % KSR-TF 611 - with transistor output 9

Mounting 4 Mounting 4.1 Genera instructions Switching point In genera, KSR-TF 611 can be mounted in any position. The instrument must be mounted in such a way that the tuning fork is at the height of the requested switching point. The tuning fork has atera markings (notches) that indicate the switching point with vertica mounting. The switching point refers to water with the basic setting of the sensitivity switch 0.7 g/cm³ (0.025 bs/in³). When mounting KSR-TF 611, make sure that this marking is at the height of the requested switching point. Keep in mind that the switching point of the instrument is shifted if the medium has a density other than water - water 1 g/cm³ (0.036 bs/in³). For products <0.7 g/cm³ (0.025 bs/in³) and >0.5 g/cm³ (0.018 bs/in³) the density switch must be set to 0.5 g/cm³. Keep in mind that foams with a density >0.45 g/cm³ (0.016 bs/ in³) are detected by the sensor. This can cause fauty switchings particuary when used as dry run protection system. 2 1 3 4 Fig. 2: Vertica mounting 1 Switching point approx. 13 mm (0.51 in) 2 Switching point with ower density 3 Switching point with higher density 4 Switching point approx. 27 mm (1.06 in) 10 KSR-TF 611 - with transistor output

Mounting 1 Fig. 3: Horizonta mounting 1 Switching point 1 2 Fig. 4: Vertica instaation (recommended instaation position, especiay for adhesive products) 1 Switching point 2 Marking with screwed version on top, with fange versions directed to the fange hoes With fange versions, the fork is directed as foows to the fange hoes. Fig. 5: Fork position with fange versions Moisture Use the recommended cabes (see chapter "Connecting to power suppy") and tighten the cabe gand. You can give your KSR-TF 611 additiona protection against moisture penetration by eading the connection cabe downward in front of the cabe entry. Rain and condensation water KSR-TF 611 - with transistor output 11

Mounting can thus drain off. This appies mainy to mounting outdoors, in areas where moisture is expected (e.g. by ceaning processes) or on cooed or heated vesses. Fig. 6: Measures against moisture penetration Transport Pressure/Vacuum Handing Do not hod KSR-TF 611 on the tuning fork. Particuary with fange or tube versions, the tuning fork can be damaged just by the weight of the instrument. Transport coated instruments very carefuy and avoid touching the tuning fork. Remove the protective cover just before mounting. The process fitting must be seaed if there is gauge or ow pressure in the vesse. Before use, check if the sea materia is resistant against the measured product and the process temperature. The max. permissibe pressure is stated in chapter "Technica data" in the "Suppement" or on the type abe of the sensor. The vibrating eve switch is a measuring instrument and must be treated accordingy. Bending the vibrating eement wi destroy the instrument. Warning: The housing must not be used to screw the instrument in! Appying tightening force on the housing can damage its rotationa mechanica parts. To screw in, use the hexagon above the thread. 12 KSR-TF 611 - with transistor output

Mounting 4.2 Mounting instructions Weded socket KSR-TF 611 has a defined thread starting point. This means that every KSR-TF 611 is in the same fork position after being screwed in. Remove therefore the suppied sea from the thread of KSR-TF 611. This sea is not required when using a weded socket with O-ring in front. Keep in mind that this weded socket is not suitabe for coated instrument versions. Screw KSR-TF 611 competey into the weded socket. The ater position can be determined aready before weding. Mark the appropriate position of the weded socket. Before weding, unscrew KSR-TF 611 and remove the rubber ring from the weded socket. The weded socket has a marking (notch). Wed the socket with the notch facing upward, or in case of pipeines, aigned with the direction of fow. 1 Fig. 7: Marking on the weded socket 1 Marking Adhesive products In case of horizonta mounting in adhesive and viscous products, the surfaces of the tuning fork shoud be vertica in order to reduce buidup on the tuning fork. On the screwed version you wi find a marking on the hexagon. With this, you can check the position of the tuning fork when screwing it in. When the hexagon touches the sea, the thread can sti be turned by approx. haf a turn. This is sufficient to reach the recommended instaation position. With fange versions, the fork is directed to the fange hoes. When used in adhesive and viscous products, the tuning fork shoud protrude into the vesse to avoid buidup. For that reason, sockets for fanges and mounting bosses shoud be avoided when mounting horizontay. KSR-TF 611 - with transistor output 13

Mounting Infowing medium Fows If KSR-TF 611 is mounted in the fiing stream, unwanted mismeasurements may resut. Mount KSR-TF 611 at a ocation in the vesse where no disturbing infuence from e.g. fiing openings, agitators, etc. can occur. To minimise fow resistance caused by the tuning fork, KSR-TF 611 shoud be mounted in such a way that the surfaces of the bades are parae to the product movement. 14 KSR-TF 611 - with transistor output

Connecting to power suppy 5 Connecting to power suppy 5.1 Preparing the connection Note safety instructions Take note of safety instructions for Ex appications Aways keep in mind the foowing safety instructions: Connect ony in the compete absence of ine votage In hazardous areas you shoud take note of the appropriate reguations, conformity and type approva certificates of the sensors and power suppy units. Seect power suppy Seecting connection cabe Connect the power suppy according to the foowing diagrams. Take note of the genera instaation reguations. As a rue, connect KSR-TF 611 to vesse ground (PA), or in case of pastic vesses, to the next ground potentia. On the side of the instrument housing there is a ground termina between the cabe entries. This connection serves to drain off eectrostatic charges. In Ex appications, the instaation reguations for hazardous areas must be given priority. The data for power suppy are stated in chapter "Technica data" in the "Suppement". KSR-TF 611 is connected with standard cabe with round cross section. An outer cabe diameter of 5 9 mm (0.2 0.35 in) ensures the sea effect of the cabe gand. If cabe with a different diameter or wire cross section is used, exchange the sea or use an appropriate cabe connection. In hazardous areas, ony use approved cabe connections for KSR-TF 611. Seect connection cabe for Ex appications Take note of the corresponding instaation reguations for Ex appications. 5.2 Connection procedure With Ex instruments, the housing cover may ony be opened if there is no exposive atmosphere present. Proceed as foows: 1 Unscrew the housing cover 2 Loosen compression nut of the cabe entry KSR-TF 611 - with transistor output 15

Connecting to power suppy 3 Remove approx. 10 cm (4 in) of the cabe mante, strip approx. 1 cm (0.4 in) insuation from the ends of the individua wires 4 Insert the cabe into the sensor through the cabe entry 5 Open the terminas with a screwdriver 6 Insert the wire ends into the open terminas according to the wiring pan 7 Tighten the terminas with a screwdriver 8 Check the hod of the wires in the terminas by ighty puing on them 9 Tighten the compression nut of the cabe entry. The sea ring must competey encirce the cabe 10 Screw the housing cover back on The eectrica connection is finished. 5.3 Wiring pan, singe chamber housing The foowing iustrations appy to the non-ex as we as to the EEx d version. Housing overview 3 3 1 2 Fig. 8: Materia versions, singe chamber housing 1 Auminium 2 Stainess stee 3 Fiter eement for pressure compensation 16 KSR-TF 611 - with transistor output

Connecting to power suppy Eectronics and connection compartment + SW E60T 1 2 3 4 PNP 1 2 3 4 NPN + + 1 0-55V DC out m ax 4 00mA A 0,5 g / cm 3 1 2 5 1 2 3 4 B 0,7 g / cm 3 3 4 Fig. 9: Eectronics and connection compartment, singe chamber housing 1 Contro amp 2 DIL switch for mode adjustment 3 DIL switch for switching point adaptation 4 Ground termina 5 Screwed terminas Wiring pan We recommend connecting KSR-TF 611 in such a way that the switching circuit is open when there is a eve signa, ine break or faiure (safe condition). The instrument is used to contro reays, contactors, magnet vaves, warning ights, horns as we as PLC inputs. + 1 2 3 4 - + - Fig. 10: NPN action KSR-TF 611 - with transistor output 17

Connecting to power suppy + 1 2 3 4 - + - Fig. 11: PNP action 18 KSR-TF 611 - with transistor output

Set up 6 Set up 6.1 In genera The numbers in brackets refer to the foowing iustrations. Function/Configuration In the basic setting, products with a density >0.7 g/cm³ (0.025 bs/in³) can be detected. For products with ower density, you have to set the switch to >0.5 g/cm³ (0.018 bs/ in³). On the eectronics modue you wi find the foowing indicating and adjustment eements: Signa amp (1) DIL switch for mode adjustment - A/B (2) DIL switch for sensitivity adjustment (3) Note: For test purposes, immerse the tuning fork of KSR-TF 611 aways in iquids. Do not test the function of KSR-TF 611 with the hand. This can damage the sensor. 6.2 Adjustment eements 1 2 3 1 2 3 4 Fig. 12: Osciator SWE60T - Transistor output 1 Signa amp (LED) 2 DIL switch for mode adjustment 3 DIL switch for sensitivity adjustment KSR-TF 611 - with transistor output 19

Set up Signa amp (1) Mode adjustment (2) Sensitivity adjustment (3) Contro amp (LED) for indication of the switching status. green = output conducts red = output bocks red (fashing) = faiure With the mode adjustment (A/B) you can change the switching condition of the reay. You can set the required mode according to the "Function chart" (A - max. detection or overfi protection, B - min. detection or dry run protection). With this DIL switch (3) you can set the switching point to iquids having a density between 0.5 and 0.7 g/cm³ (0.018 and 0.025 bs/in³). With the basic setting, iquids with a density of >0.7 g/cm³ (0.025 bs/in³) can be detected. In iquids with ower density, you must set the switch to >0.5 g/cm³ (0.018 bs/in³). The specifications for the position of the switching point reate to water - density vaue 1 g/cm³ (0.036 bs/in³). In products with a different density, the switching point wi shift in the direction of the housing or tuning fork end depending on the density and type of instaation. Keep in mind that foams with a density >0.45 g/cm³ (0.016 bs/ in³) are detected by the sensor. This can cause fauty switchings particuary when used as dry run protection system. 6.3 Function chart The foowing chart provides an overview of the switching conditions depending on the adjusted mode and eve. Mode A Overfow protection Leve Switching status Contro amp transistor conducts Mode A Overfow protection transistor bocks Green Mode B Dry run protection transistor conducts Red Green 20 KSR-TF 611 - with transistor output

Set up Mode B Dry run protection Leve Switching status Contro amp transistor bocks Faiure of the suppy votage (mode A/B) any transistor bocks Red Faiure any transistor bocks fashes red KSR-TF 611 - with transistor output 21

Maintenance and faut rectification 7 Maintenance and faut rectification 7.1 Maintenance When used as directed in norma operation, KSR-TF 611 is competey maintenance free. 7.2 Faut rectification Causes of mafunction Faut cearance KSR-TF 611 offers maximum reiabiity. Nevertheess fauts can occur during operation. These may be caused by the foowing, e.g.: Sensor Process Suppy Signa processing The first measure to be taken is to check the output signa. In many cases, the causes can be determined this way and the fauts rectified. Checking the switching signa? KSR-TF 611 signas "covered" when the vibrating eement is not submerged (overfi protection)? KSR-TF 611 signas "uncovered" when the vibrating eement is submerged (dry run protection) Suppy votage too ow à Check the power suppy Eectronics modue defective à Press the mode switch (min./max.). If the instrument then changes the mode, the instrument may be mechanicay damaged. Shoud the switching function in the correct mode sti be fauty, return the instrument for repair. à Push the mode switch. If the instrument then does not change the mode, the osciator may be defective. Exchange the osciator. à Check if there is buidup on the vibrating eement, and if so, remove it. Unfavourabe instaation ocation à Mount the instrument at a ocation in the vesse where no dead zones or air bubbes can form. 22 KSR-TF 611 - with transistor output

Maintenance and faut rectification Wrong mode seected à Set the correct mode on the mode switch (max.: overfi protection, min.: dry run protection). Wiring shoud be carried out according to the quiescent current principe.? Signa amp fashes red Eectronics has detected a faiure à Exchange instrument or return instrument for repair? The signa amp fashes aternatey red and green instrument defective à Exchange instrument or return instrument for repair 7.3 Instrument repair If a repair is necessary, pease proceed as foows: Cean the instrument and pack it damage-proof Attach a description of the faut, the ambient conditions and measured product to the instrument If necessary, attach a safety sheet to the instrument Send the instrument to the address of the agency serving you, in Germany directy to the headquarters KSR-TF 611 - with transistor output 23

Dismounting 8 Dismounting 8.1 Dismounting steps Warning: Before dismounting, be aware of dangerous process conditions such as e.g. pressure in the vesse, high temperatures, corrosive or toxic products etc. Take note of chapters "Mounting" and "Connecting to power suppy" and carry out the isted steps in reverse order. With Ex instruments, the housing cover may ony be opened if there is no exposive atmosphere present. 8.2 Disposa The instrument consists of materias which can be recyced by speciaised recycing companies. We use recycabe materias and have designed the eectronics to be easiy separabe. WEEE directive 2002/96/EG This instrument is not subject to the WEEE directive 2002/96/ EG and the respective nationa aws (in Germany, e.g. EektroG). Pass the instrument directy on to a speciaised recycing company and do not use the municipa coecting points. These may be used ony for privatey used products according to the WEEE directive. Correct disposa avoids negative effects to persons and environment and ensures recycing of usefu raw materias. Materias: see chapter "Technica data" If you cannot dispose of the instrument propery, pease contact us about disposa methods or return. 24 KSR-TF 611 - with transistor output

Suppement 9 Suppement 9.1 Technica data Genera data Materia 316L corresponds to 1.4404 or 1.4435 Materias, wetted parts - Process fitting - thread 316L, Hasteoy C4 (2.4602) - Process fitting - fange 316L, 316L with Hasteoy C4 pated, 316L with ECTFE coated, 316L with PFA coated - Process sea Kingersi C-4400 (with threaded versions) - Tuning fork 316L, Hasteoy C4 (2.4610) - Extension tube ø 21.3 mm (0.84 in) 316L, Hasteoy C4 (2.4610), 316L with ECTFE coating, 316L with PFA coating Sensor ength - ength KSR-TF 611 See chapter "Suppement - Dimensions" Materias, non-wetted parts - Housing Auminium die-casting powder coated, 316L - Sea between housing and housing cover - Ground termina 316L - Temperature adapter (optiona) 316L - Gas-tight eadthrough (optiona) 316L/gass Weights - Auminium housing 1170 g (41 oz) - Stainess stee housing 1530 g (54 oz) NBR (stainess stee housing), siicone (Auminium housing) Layer thickness - coatings - ECTFE approx. 0.5 mm (0.02 in) - PFA approx. 0.5 mm (0.02 in) Surface quaity - Standard R a approx. 3 µm (1.18-4 in) - hygienic version (3A) R a <0.8 µm (3.15-5 in) - hygienic version (3A) R a <0.3 µm (1.18-5 in) KSR-TF 611 - with transistor output 25

Suppement Process fittings - Thread G¾ A, ¾ NPT, G1 A, 1 NPT - Fanges DIN from DN 25, ANSI from 1" - hygienic fittings Boting DN 40 PN 40, Tri-Camp 1", Tri-Camp 1½" PN 10, conus DN 25 PN 40, Tuchenhagen Varivent DN 50 PN 10 Gas-tight eadthrough (optiona) - eakage rate <10-6 mbar /s - Pressure resistance PN 64 - hygienic fittings Boting DN 40 PN 40, Tri-Camp 1", Tri-Camp 1½" PN 10, conus DN 25 PN 40, Tuchenhagen Varivent DN 50 PN 10 Output variabe Output Load current Votage oss Turn-on votage foating transistor output, overoad and permanenty shortcircuit proof max. 400 ma max. 1 V max. 55 V DC Bocking current <10 µa Modes (adjustabe) - A Max. detection or overfow/overfi protection - B Min. detection or dry run protection Measuring accuracy Deviation ±1 mm (±0.04 in) Infuence of the process temperature on the switching point 26 KSR-TF 611 - with transistor output

Suppement 4 1 10 ( 25/64") 8 ( 5/16") 3 6 ( 15/64") 4 ( 5/32") 2 ( 5/64") 0-2 (-5/64") -4 (-5/32") 2-6 (-15/64") -8 (-5/16") -10 (-25/64") 0 C (32 F) 50 C (122 F) 100 C (212 F) 150 C (302 F) 200 C (392 F) 250 C (482 F) Fig. 21: Infuence of the process temperature on the switching point 1 Shifting of the switching point in mm (in) 2 Process temperature in C ( F) 3 Switching point at reference conditions (notch) 4 Tuning fork Infuence of the product density on the switching point KSR-TF 611 - with transistor output 27

Suppement 6 1 10 ( 25/64") 8 ( 5/16") 6 ( 15/64") 4 ( 5/32") 5 2 ( 5/64") 0-2 (-5/64") -4 (-5/32") -6 (-15/64") 3 4 2-8 (-5/16") -10 (-25/64") 0,6 (0,022) 0,8 (0,029) 1 (0,036) 1,2 (0,043) 1,4 (0,051) 1,6 (0,058) 1,8 (0,065) 2 (0,072) 2,2 (0,079) 2,4 (0,087) Fig. 22: Infuence of the product density on the switching point 1 Shifting of the switching point in mm (in) 2 Product density in g/cm³ (b/in³) 3 Switch position 0.5 g/cm³ (corresponds to 0.018 b/in³) 4 Switch position 0.7 g/cm³ (corresponds to 0.025 b/in³) 5 Switching point at reference conditions (notch) 6 Tuning fork Infuence of the process pressure to the switching point 28 KSR-TF 611 - with transistor output

Suppement 4 1 10 ( 25/64") 8 ( 5/16") 3 6 ( 15/64") 4 ( 5/32") 2 ( 5/64") 0-2 (-5/64") -4 (-5/32") 2-6 (-15/64") -8 (-5/16") -10 (-25/64") 12 (174,1) 25 (362,6) 38 (551,1) 51 (739,7) 64 (928,2) Fig. 23: Infuence of the process pressure to the switching point 1 Shifting of the switching point in mm (in) 2 Process pressure in bar (psi) 3 Switching point at reference conditions (notch) 4 Tuning fork Repeatabiity Hysteresis Switching deay Frequency Ambient conditions Ambient temperature on the housing Storage and transport temperature 0.1 mm (0.004 in) approx. 2 mm (0.08 in) with vertica instaation approx. 500 ms (on/off) approx. 1200 Hz -40 +70 C (-40 +158 F) -40 +80 C (-40 +176 F) Process conditions Parameter Process pressure KSR-TF 611 of 316L/Hasteoy C4 (2.4610) Limit eve of iquids -1 64 bar (-14.5 938 psi) depending on the process fitting, e.g. fange (see foowing diagrams) -50 +150 C (-58 +302 F) KSR-TF 611 - with transistor output 29

Suppement Process temperature (thread or fange temperature) with temperature adapter (option) - KSR-TF 611 of 316L/Hasteoy C4-50 +250 C (-58 +482 F) - KSR-TF 611 with ECTFE coating -50 +150 C (-58 +302 F) - KSR-TF 611 with PFA coating -50 +150 C (-58 +302 F) 2 70 C (158 F) 3 40 C (104 F) 0 C (32 F) -50 C (-58 F) -40 C (-40 F) 50 C (122 F) 100 C (212 F) 150 C (302 F) 200 C (392 F) 1 250 C (482 F) Fig. 24: Ambient temperature - Process temperature 1 Process temperature in C ( F) 2 Ambient temperature in C ( F) 3 Temperature range with temperature adapter 1 64 (928) 40 (580) 20 (290) -50 C (-58 F) -1 (-14,5) 0 C (32 F) 50 C (122 F) 100 C (212 F) 150 C (302 F) 200 C (392 F) 250 C (482 F) 2 Fig. 25: Process temperature - Process pressure with switch position 0.7 g/cm³ (mode switch) 1 Process pressure in bar (psi) 2 Process temperature in C ( F) 30 KSR-TF 611 - with transistor output

Suppement 1 64 (928) 40 (580) 20 (290) -50 C (-58 F) -1 (-14,5) 0 C (32 F) 50 C (122 F) 100 C (212 F) 150 C (302 F) 200 C (392 F) 250 C (482 F) 2 Fig. 26: Process temperature - Process pressure with switch position 0.5 g/cm³ (mode switch) 1 Process pressure in bar (psi) 2 Process temperature in C ( F) Viscosity - dynamic Density 0.1 10,000 mpa s (requirement: with density 1) 0.7 2.5 g/cm³ (0.025 0.09 bs/in³); 0.5 2.5 g/cm³ (0.018 0.09 bs/in³) by switching over Eectromechanica data Cabe entry/pug 1) - Singe chamber housing 1x cabe entry M20x1.5 (cabe-ø 5 9 mm), 1x bind stopper M20x1.5 or: 1x cosing cap ½ NPT, 1x bind pug ½ NPT Screw terminas Adjustment eements or: 1x pug (depending on the version), 1x bind pug M20x1.5 for wire cross-section up to 1.5 mm² (0.0023 in²) Mode switch - A Max. detection or overfow/overfi protection - B Min. detection or dry run protection 1) Depending on the version M12x1, according to DIN 43650, Harting, Ampheno-Tuche, 7/8" FF. KSR-TF 611 - with transistor output 31

Suppement Density switch - 0.5 0.5 2.5 g/cm³ (0.018 0.9 oz/in³) - 0.7 0.7 2.5 g/cm³ (0.025 0.9 oz/in³) Votage suppy Suppy votage Power consumption 10 55 V DC max. 0.5 W Eectrica protective measures Protection IP 66/IP 67 Overvotage category Protection cass Functiona safety (SIL) Functiona safety according to IEC 61508/IEC 61511 - Singe channe architecture (1oo1 up to SIL2 D) III II - Mutipe channe architecture see suppementary instructions manua "Safety Manua (SIL)" Approvas 2) Overfi protection according to WHG ATEX II 1G 1/2G, 2G EEx ia IIC T6 ATEX II 1/2G, 2G EEx d IIC T6 3) FM (NI) CL I, DIV 2, GP ABCD FM (XP) CL I, DIV 1, GP ABCD (DIP) CL II, III, DIV 1, GP EFG 4) Ship approvas 2) Deviating data in Ex appications: see separate safety instructions. 3) Ony with Auminium housing. 4) Ony with Auminium housing. 32 KSR-TF 611 - with transistor output

Suppement 9.2 Dimensions KSR-TF 611 69mm (2 23/ 32") ø77mm (3 1/ 32") 116mm (4 9/ 16") ø84mm (3 5/ 16") M20x1,5/ ½ NPT 117mm (4 39/64") M20x1,5/ ½ NPT 116mm (4 9/16") M20x1,5 1 2 Fig. 27: Housing versions 1 Stainess stee housing 2 Auminium housing KSR-TF 611 - with transistor output 33

Suppement KSR-TF 611 18,5 mm (47/64") 66 mm (2 23/32") 32 (G3/ 4 A, 3/ 4 "NPT) 41 (G1A, 1"NPT) G3/ 4 A, 3/ 4 "NPT G1A, 1"NPT 36 mm (1 27/64") 53 mm (2 3/32") 57 mm (2 1/4") 55 mm (2 11/64") 1 2 3 50 mm (1 31/32") ø 33,7 mm (1 21/ 64 ") 19 mm (3/4") 34 mm (1 11/32") 6 178 mm (7 1/64") 7 53 mm (2 3/32") 53 mm (2 3/32") 4 5 Fig. 28: KSR-TF 611 1 Thread 2 Tri-Camp 3 Cone DN 25 4 Boting DN 40 5 Fange 6 Gas-tight eadthrough 7 Temperature adapter 34 KSR-TF 611 - with transistor output

Suppement KSR-TF 611 - with transistor output 35

KSR KUEBLER Niveau-Messtechnik AG Im Kohstatterfed 17 69439 Zwingenberg Germany Phone +49 6263 87-0 Fax +49 6263 8799 E-mai: info@de.ksr-kueber.com www.ksr-kueber.com A statements concerning scope of deivery, appication, practica use and operating conditions of the sensors and processing systems correspond to the information avaiabe at the time of printing. Subject to change without prior notice