endress hauser liquicap m fmi51 manual
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endress hauser liquicap m fmi51 manualLiquicap M FMI51, FMI52 Installation instruction Installation instruction Installation instruction Installation instruction Installation instruction Installation instruction II 3 G Ex nA IIC T6 Gc. II 3 G Ex nA nC IIC T5 Gc. Safety Instructions Liquicap M FMI51, FMI52, FTI51, FTI52 Liquicap M FMI51, FMI52, FTI51, FTI52 Ex nA nC IIC T3.T5 Gc. Safety Instructions Safety Instructions Safety Instructions Functional Safety Manual. Special Documentation Level measurement, pressure measurement. Special Documentation Level and pressure measurement. Special Documentation Usage: housing F13, aluminium, Ex d. Usage: housing F17, aluminium. Usage: housing T13, aluminium. Usage: housing F15, stainless steel. O-ring 70.0x3.0 EPDM.Usage: terminal compartment,Usage: housing F15 stainless steel. Core hole: 65mm. Material: 316L. Seal: silicone profile gasket. FDA, EHEDG, 3-A compliant. If you continue browsing the site, you agree to the use of cookies on this website. See our User Agreement and Privacy Policy.If you continue browsing the site, you agree to the use of cookies on this website. See our Privacy Policy and User Agreement for details.If you wish to opt out, please close your SlideShare account. Learn more. You can change your ad preferences anytime. As a result, fluctuations in the DK value do not affect the measured valuedisplay. Furthermore, the system also prevents the effect of medium buildup or condensate near the processconnection for probes with an inactive length.! Note!A ground tube is used as a counterelectrode for containers made of nonconductive materials.L00-FMI5xxxx-15-05-xx-xx-001R: Conductivity of the liquidC: Capacitance of the liquidCA: Initial capacitance (probe not covered)CE: Final capacitance (probe covered)?C: Change in capacitanceFunctionThe selected electronic insert of the probe (e.g. FEI50H 4 to 20 mA HART) converts the measured change incapacitance of the liquid to a signal that is proportional to the level.http://sabagdasarov.ru/upload/digital-rebel-t4i-manual.xml
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Phase-selective measurementThe evaluation of the container capacitance works along the principle of phase-selective measurement. In thisprocess, the amount of alternating current and the phase shift between the voltage and current is measured.With these two characteristic quantities, the capacitance idle current can be calculated by the mediumcapacitor and the real current by the medium resistance. As the size of the medium resistancecan be determined with phase-selective measurement, the system compensates for the buildup on the probe.CARCCE1 2 3CAAC Here, the range of possibilities ranges from simple requisitioning by e-mailthrough to fully automatic order processing by incorporating XML data into the planning systems on both sides.Remote maintenance of measuring systemsNot only does Fieldgate transmit the current measured values, it also alerts the standby personnel responsibleby e-mail or SMS as required. Service technicians can diagnose and configure the connected HART devicesremotely in the event of an alarm or also for routine checks. All that is required for this is the appropriate HARToperating software (e.g. FieldCare) for the connected device. Fieldgate forwards the information transparently.In this way, all options of the operating software in question are available remotely.If the medium tends to create a high degree of buildup,regular cleaning is recommended.Any other tables with up to 32 value pairs can be input manually or semi-automatically.FEI57CWith FEI57C, linearization takes place in the switching units. The menu consists of function groups and functions.Now customize the name of a clipboard to store your clips. Sicherheitshinweise Warnung.Der Liquicap M FMI52 (Seilsonde) kann vertikal von oben eingebaut werden.Kontern Sie ggf. am Prozess- anschluss.Technische Daten 10.1 Technische Daten: Sonde 10.1.1. Die Abschirmung ist am Sensor und der Speiseversorgung aufzulegen.http://artoren.ru/files/digital_rc_5991_manual.xml If this procedure is not followed, it may result in the refusal of the package at our facility. Registrieren Sie sich jetzt. For quick and easy commissioning: Safety instructions Explanation of the warning symbols For special instructions, refer to the corresponding location in the respective chapter. This section lists measures you can take yourself to remedy any faults that may occur. However, if it is used improperly or if it is not put to its intended use, it can be a source of application-related dangers, such as product overflow due to incorrect installation or configuration. The specialist personnel must have read and understood these Operating Instructions and must follow the instructions they contain. The device is accompanied by separate Ex documentation, which is an integral part of this documentation. Observe the installation instructions, connection data and safety instructions provided there. Ensure that the specialists are adequately trained. Observe the metrological and technical safety requirements for the measuring points. 6 7 Safety instructions 1.4 Safety conventions and symbols We have defined the following safety instructions to indicate safety-related or alternative procedures. Each instruction is identified by a corresponding pictogram. This symbol indicates an action or procedure which, if not performed correctly, can have an indirect effect on operation or trigger an unexpected response on the part of the device. Type of protection 0 Explosion-protected, - Hazardous. Safe prototype-tested apparatus If this symbol appears on the nameplate of the device, the device can be used in hazardous or nonhazardous areas according to its approval.Devices located in hazardous areas and lines for these devices must have corresponding explosion protection.Devices in the non-hazardous area also must be certified if the connecting lines lead into the hazardous area.https://labroclub.ru/blog/boss-mt-2-manualEquipotential connection A connection that has to be connected to the grounding system of the plant. This can be a potential equalization line or a radial grounding system depending on national and company codes of practice.The device meets the relevant standards and directives listed in the EC Declaration of Conformity and thus fulfills the legal requirements of the EC Directives. Ensure that the electrical connection between the probe and the tank is correct. Do not turn the housing while screwing in the probe, as otherwise the housing fixture can be damaged. BA300Fxx007 Installation tools The following tools are required for installation: Tool for mounting flanges or a size 50 Allen key for the threaded connection and a Phillips-head screwdriver for aligning the cable entry. Installation instructions The Solicap M FTI55 (rod probe) can be installed from above and from the side. The Solicap M FTI56 (rope probe) can be installed vertically from above. The probe may not come into contact with the container wall Do not install probes in the area of the filling curtain Shortening the probe Rod probe: The partially insulated version can be shortened at a later stage by the user. Rope probe: Both versions (partially and fully insulated) may be shortened at a later stage (see next page). 19 20 Installation Loosen the set screws in the weight and pull out the rope. Shorten the probe rope to the desired length. Slide the rope back in, as far as the end of the bore, and secure it using the set screws L BA300Fxx018 General notes Filling the silo The filling stream should not be directed onto the probe. Angle of material flow Note the expected angle of the material flow or of the outlet funnel when determining the mounting location or probe length. Distance between probes When installing several probes in a silo, a minimum distance of 0.5 m between the probes must be observed.http://www.costarica4u.com/images/comfort-control-center-manual.pdf Threaded coupling for mounting When installing the Solicap M FTI55, FTI56, the threaded coupling should be as short as possible. Condensation or product residue may occur in a long threaded coupling and interfere with the correct operation of the probe. Heat insulation In the event of high temperatures in the silo: Insulate the external silo wall to avoid exceeding the permitted temperature of the Solicap M housing. Heat insulation also prevents condensation from forming near the threaded boss in the silo. This reduces build-up and the risk of error switching. The probe tip points slightly downwards so that bulk solids slide off more easily. Incorrect installation d. The threaded coupling is too long. This may cause material to settle inside and result in error switching. e. Horizontal mounting means a risk of error switching in the event of heavy build-up on the silo wall. In this case, the FTI56 (rope probe) should be installed from above. 21 22 Installation In this example, the steel plate forms the counter electrode. This plate can be either square or round. For probe length tolerances see Page 17 ff. To ensure problem-free operation, it is important that the difference in capacitance between the covered and uncovered parts of the probe is at least 5 pf. If you do not know the dielectric constant of the material, contact us for advice. 23 24 Installation Preparing to install rope probes FTI56 Correct installation Incorrect installation a. b. c. d. e. D min. 0.2 m In a silo with metal walls Distance D between the probe and the wall approx. 10 to 25 of the silo diameter TI418F13 Correct installation a. Solicap M FTI55, FTI56 with inactive length in the event of condensation and material buildup on the silo roof. b. At the correct distance from the silo wall, the material inlet and the material outlet. Close to the wall, for reliable switching in the case of a low dielectric constant (not for pneumatic filling). For pneumatic filling, the distance from the probe to the wall should not be too short, as the probe may swing. Incorrect installation c. If too close to the material inlet, inflowing bulk solids may damage the sensor. If close to the centre of the material outflow, high tensile forces at this point may cause the probe to break off or subject the silo roof to excessive strain. d. The threaded coupling is too long. This may cause condensation and dust to settle inside which may result in error switching. e. If too close to the silo wall, the probe may swing slightly against the wall or come in contact with build-up. This can result in error switching. 24 25 Installation Silo roof Ensure that the silo roof is of a sufficiently stable construction High tensile forces may occur when material is being extracted, particularly in the case of heavy and powdery bulk solids which have a tendency to form build-up. Coarse-grained bulk solids In silos with extremely coarse-grained or extremely abrasive bulk solids, the use of a Solicap M FTI55 or FTI56 is recommended only for maximum detection. Distance between probes To avoid mutual interference, probes must be positioned at least 0.5 m apart. This applies also when using several Solicap M devices in adjacent silos with nonconductive walls. The threaded coupling, with a maximum length of 25 mm, should if possible protrude into the silo so as to reduce the effects of condensation and build-up. Heat insulation reduces condensation and therefore build-up on the steel plate. Steel plate; connected to the reinforcing steel Recommended with condensation: Heat insulation Steel plate In a silo with concrete walls TI418Fen14 Recommended: Use the FTI56 with inactive length. The inactive length prevents moisture and build-up forming between the active part of the probe and the silo roof. Active part of probe TI418Fen15 25 26 Installation When installing in a silo made of plastic, a counter electrode must be mounted on the silo exterior at the same height as the tensioning weight. The length of the edge of the counter electrode should be approximately the same length as the distance between the tensioning weight and the silo wall. To control a screw conveyor ( s mode), rod probes and rope probes can be used. The on-value and off-value are determined by the empty and full calibration; suitable only for nonconductive bulk solids. Solder the red (RD) strand with the central core of the coaxial cable (probe) 23. Solder the yellow (YE) strand with the screening of the coaxial cable (ground) 22. Snap ring 13. Nut M4 14. Split washer 15. Strand red (RD) with ring terminal and heatshringking sleeve 16. Blade plug 21. Coaxial cable with central core a nd screening 20. Strand black (BK) (not required) 19. External screening (not required) 17. Tube 18. Process connection BA300Fen Shortening the connecting cable The maximum connection length between the probe and the separate housing is 6 m. When ordering a Solicap M with a separate housing, the desired length must be specified. If the connecting cable is to be shortened or guided through a wall, it must be disconnected from the process connection. To do so, proceed as follows: Unscrew the pressure screw (1) using a 22 mm open-end wrench. If necessary, hold the process connection. In doing so, ensure that neither the connecting cable nor the probe is turned in the process. Pull the insert seal (2) out of the cable gland (3). Using a 22 mm open-end wrench, disconnect the cable gland (3) from the adapter disc. If necessary, hold it against the adapter disc (6) using a 34 mm open-end wrench. Disconnect the adapter disc (6) from the sleeve (17). Remove the snap ring using a snap ring pliers. Using pliers, grab the nut (M6) on the Multilam plug and pull out the plug. If you shorten the cable, we recommend reusing all wires with eyelets. If the wires are not reused, the crimp connections of the newly attached eyelets must be insulated, for example using a heat-shrinking sleeve (danger of short circuit). Solder the red (RD) strand with the central core of the coaxial cable (probe) 24. Snap ring 13. Nut M4 14. Split washer 15. Strand red (RD) with ring terminal insulated with a heatshringking sleeve 16. Blade plug 17. Guard strand (rd) 18. Tube 22. Coaxial cable with central core a nd screening 21. Strand black (BK) (not required) 20. External screening (not required) 19. Process connection BA300Fen Shortening the connecting cable The maximum connection length between the probe and the separate housing is 6 m. When ordering a Solicap M with a separate housing, the desired length must be specified. If the connecting cable is to be shortened or guided through a wall, it must be disconnected from the process connection. To do so, proceed as follows: Unscrew the pressure screw (1) using a 22 mm open-end wrench. If necessary, hold the process connection. In doing so, ensure that neither the connecting cable nor the probe is turned in the process. Pull the insert seal (2) out of the cable gland (3). Using a 22 mm open-end wrench, disconnect the cable gland (3) from the adapter disc. If necessary, hold it against the adapter disc (6) using a 34 mm open-end wrench. Disconnect the adapter disc (6) from the sleeve (17). Remove the snap ring using a snap ring pliers. Using pliers, grab the nut (M6) on the Multilam plug and pull out the plug. Disconnect the yellow wire from the red (guard) wire. Then, shorten the connecting cable to the desired length. If the separate housing is in a different room than the probe, you can now route the connecting cable through the wall. You can now reassemble the device by following the reverse order of steps. 30 31 Installation If you shorten the connecting cable, we recommend reusing all wires with eyelets. If the wires are not reused, the crimp connections of the newly attached eyelets must be insulated, for example using a heat-shrinking sleeve (danger of short circuit). All soldered joints must be insulated Installing bracket for wall and pipe mounting Wall mounting Push the bracket onto the sleeve and screw it into place. Mark the distance between the holes on the wall, and then drill the holes. Screw the separate housing to the wall. BA300Fxx Pipe mounting Push the bracket onto the sleeve and screw it into place. Does the device correspond to the measuring point specifications, including process temperature and pressure, ambient temperature, measuring range, etc.? Is the process connection tightened with the correct torque. Are the measuring point number and labeling correct (visual inspection). Switch off the supply voltage before connecting the device. Connect the potential equalization line to the ground terminal on the sensor. When using the probe in hazardous areas, the relevant national standards and the information in the safety instructions (XA) must be observed. Use the specified cable gland only. 4.1 Connection recommendation Potential equalization Connect the potential equalization line to the outer ground terminal of the housing (T13, F13, F16, F17). In the case of the stainless steel housing F15, the ground terminal (depending on the version) can also be located in the housing. For additional safety instructions, refer to the separate documentation for applications in hazardous areas Electromagnetic compatibility (EMC) Interference emission to EN 61326, Electrical Equipment Class B Interference immunity in accordance with EN 61326, Appendix A (Industrial) and NAMUR Recommendation NE 21 (EMC) Cable specification The electronic inserts can be connected using the usual commercial instrument cables. For connection in a separate connection compartment, the same connection descriptions apply as for the electronic inserts. Cable entry Cable gland: M20x1.5. A second cable gland is included with each device. When connecting devices with high inductivity, use a spark suppression system to protect the relay contacts. Power supply Supply voltage: 9.5 to 12.5 V DC Power consumption: 41 Wiring 4.11 Post-connection check After wiring the measuring device, carry out the following checks: Is the terminal assignment correct. Is the cable gland tightly sealed. Is the housing cover screwed on all the way. The function switch A has eight possible positions. Each position has at least one function. The LED flashes if a calibration has not yet been carried out.Stainless Steel Sensor Common features. SSR Solid State Relays. 6. Main features. Description The microwave impulses, emitted Electrical specifications Operating voltage U B Power consumption P 0 Interface Incorrect usage could lead to an electrical shock, damage to the unit or a fire hazard. Torque Transducer. A0329 3.2 en FAA 500 TR P Trim Ring transparent with Color Inserts.Description B EC-JM00-0009-03 ECOC: JM10 1. Aug. 04 1 and 2 pole relays non-polarized, non-latching Features Direct coil control with TTL-signals possible Highly reliable Symbol Meaning Description Interlocked switch mechanism Models 8431, 8432 with Overload Protection Level limit switch With Intrinsically Safe Signal Circuit for Connection to a Capacitance Sensor Application Programs. Example of Operation. GAMMA instabus Technical Product-Information. Product specific application. Relay monitored parameters 250 V DC 5 A DC To use this website, you must agree to our Privacy Policy, including cookie policy. from edges, welded joints and installations) are not interpreted as a level echo. Calibration Enter the empty distance E and the span F to calibrate the device. Blocking distance Span F may not extend into the blocking distance BD. Both on-site as well as remote operation are possible.For protection class EEx ia: the maximum number of transmitters depends on the established rules and standards for intrinsically safe circuits (EN ) and proof of instrinsic safety. Both on-site and remote operation are possible. Use an FXN 672 interface module for each device. You can integrate this bus into a higher-level bus by using a ZA gateway. Gateways are available for MODBUS, FIP, PROFIBUS, INTERBUS etc. Both on-site and remote operation are possible.Bus 4 20 ma with HART operating and display module VU331 Micropilot M Prosonic M FXA193 Levelflex M ToF Tool - FieldTool Package L00-FMxxXXXX en-006. For their part, the Fieldgates monitor the configured level limits and, if required, automatically activate the next supply. The spectrum of options here ranges from a simple purchasing requisition via through to fully automatic order administration by coupling XML data into the planning systems on both sides. Remote maintenance of measuring equipment Fieldgates not only transfer the current measured values, they also alert the responsible standby personnel, if required, via or SMS. In the event of an alarm or also when performing routine checks, service technicians can diagnose and configure connected HART devices remotely. All that is required for this is the corresponding HART operating software (e.g. ToF Tool - FieldTool Package, FieldCare,.) for the connected device. Fieldgate passes on the information transparently, so that all options for the respective operating software are available remotely. Some on-site service operations can be avoided by using remote diagnosis and remote configuration and all others can at least be better planned and prepared.L00-FXA520xx en-009. A description of this program can be found in Technical Information TI 400F (Multidrop Conncector FXN520). Using the linearisation function, the device uses D to calculate: level L in any units volume V in any units flow Q across measuring weirs or open channels in any units The measuring range is limited by the range of a sensor. The sensor range is, in turn, dependent on the operating conditions. To estimate the actual range, proceed as follows (see also the calculation example in the diagram): 1. Determine which of the influences shown in the following table are appropriate for your process. 2. Add the corresponding attenuation values. 3. From the total attenuation, use the diagram to calculate the range. Therefore, the following range results from the table and the diagram Dust-covered rubble no dust formation No filling curtain in detection range Temperature diff.In open channels or measuring weirs, also a flow linearistion is possible (calculation of the flow from the measured level). The linearisation table for calculating the volume in an horizontal cylindrical tank is preprogrammed. You can also enter any number of other tables containing up to 32 value pairs either manually or semi-automatically (by filling the vessel under controlled conditions). The supplied ToF Tool operating program can automatically calculate the table for any tank, weir or flume and upload it into the device. Flow curves for open channels can be calculated and entered into the instrument by the ToT Tool as well. 10 11 Auxiliary energy Terminal compartment In the F12 housing, the terminals are located underneath the housing cover. In the T12 housing, they are under the cover of the separate terminal compartment. Use 2-wire twisted pair cable with screen for the connection. The bus also provides the auxiliary energy. Use 2-wire twisted pair cable with screen. Use a protective cover, in order to protect the device from direct sun or rain (2). Avoid measurements through the filling curtain (4). Make sure that equipment (5) such as limit switches, temperature sensors, etc.Align the sensor so that it is vertical to the product surface (7). Never install two ultrasonic measuring devices in a tank, as the two signals may affect each other. Make sure that the pipe is not soiled by accumulated dirt. If necessary, clean the pipe at regular intervals.Position the Prosonic M in the middle of the channel or weir. Align the sensor membrane parallel to the water surface. Keep to the installation distance of the channel or weir. Example: Khafagi-Venturi flume inflow outflow Khafagi - Venturi - flume empty calibr. L00-FMU4xxxx en 20 Blocking distance, nozzle installation Install the Prosonic M at a height so that the blocking distance BD is not undershot, even at maximum fill level. Use a pipe nozzle if you cannot maintain the blocking distance in any other way. The interior of the nozzle must be smooth and may not contain any edges or welded joints. In particular, there should be no burr on the inside of the tank side nozzle end. Note the specified limits for nozzle diameter and length. To minimise disturbing factors, we recommend an angled socket edge (ideally 45 ).In order to notice if the level approaches the blocking distance, you can specify a safety distance (SD). A standard installation cable is sufficient if only the analogue signal is used. Use a screened cable when working with a superimposed communication signal (HART). Process conditions Process temperature Process pressure -40 C C A temperature sensor is integrated in the sensor for correction of the temperature-dependent time-of-flight. The measured value is legible through the glass in the cover. Open the cover to operate the device. The hardware can only be unlocked via the display. An unlock parameter must be entered to do so. 26 27 dsdmdm df das.All device functions can be set through a menu system. The menu consists of function groups and functions. Within a function, application parameters can be read or adjusted. O S X X Envelope curve Help text L00-FMU4xxxx en-004 Operation with the handheld terminal DXR 375 On devices with HART communication, you can also access the menu using the handheld terminal DXR 375. FMU42: LIC0001 ONLINE 1 GROUP SELECT 2 PV 8.7 m FMU43: LIC0001 ONLINE 1 GROUP SELECTION 2 PV 8.7 m Delete HELP SAVE Page 9 6 Up Bksp Delete Page On HELP SAVE Bksp H FMU43: LIC0001 GROUP SELECTION 1 BASIC SETUP 2 SAFETY SETTINGS 3 TEMPERATURE 4 LINEARISATION 5 EXTENDED CALIBR. It is used to support commissioning, securing of data, signal analysis and documentation of the instruments. It is compatible with the following operating systems: WinNT4.0, Win2000 and WinXP. It can configure all intelligent field devices in your plant and supports you in managing them. By using status information, it also provides a simple but effective means of checking their health. Supports Ethernet, HART, PROFIBUS, FOUNDATION Fieldbus etc. To display them, please use the ToF Tool program supplied. Connections: HART with Commubox FXA 191 (available as accessory) PROFIBUS PA 29 30 Operation with NI-FBUS Configurator (only Foundation Fieldbus) The NI-FBUS Configurator is an easy-to-use graphical environment for creating linkages, loops, and a schedule based on the fieldbus concepts. You can use the NI-FBUS Configurator to configure a fieldbus network as follows: Set block and device tags Set device addresses Create and edit function block control strategies (function block applications) Configure vendor-defined function and transducer blocks Create and edit schedules Read and write to function block control strategies (function block applications) Invoke Device Description (DD) methods Display DD menus Download a configuration Verify a configuration and compare it to a saved configuration Monitor a downloaded configuration Replace devices Save and print a configuration Certificates and Approvals CE mark Ex approval External standards and guidelines The measuring system meets the legal requirements of the EC-guidelines. The available certificates are listed in the ordering information. Note the associated safety instructions (XA) and control or installation drawings (ZD). EN Protection class of housing (IP-code) EN Electromagnetic compatibility (EMC requirements) NAMUR Standards committee for measurement and control in the chemical industry 30 31 Ordering information Product structure FMU 40 Certificates A Variant for non-hazardous area E NEPSI Ex na II T6 G ATEX II 3G EEx na II T6 I NEPSI Ex ia IIC T6 J NEPSI Ex d(ia) IIC T6 K TIIS Ex ia II C T6 N CSA General Purpose Q NEPSI DIP S FM IS Cl.The microwave impulses, emitted Possem Precision level detection When space and price matter Pointek CLS 100 Ideal for constricted spaces and for small vessels or pipes up to 100 mm (4 ). Tecum cuil Ludere ipsae. Possem Precision level detection When User Friendly Electrical specifications Operating voltage U B Power consumption P 0 Interface Stainless Steel Sensor Main features.