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Valmet K17122 Installation, Operating, Maintenance

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Valmet Microwave Consistency
Measurement - Valmet MCA
Installation, Operating
& Maintenance
K17122 V1.1 EN

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Summary of Contents for Valmet K17122

  • Page 1 Valmet Microwave Consistency Measurement - Valmet MCA Installation, Operating & Maintenance K17122 V1.1 EN...
  • Page 2 Hardware and software products supplied by Valmet, including those referred to in this publication, are exclusively subject to the terms of written contracts between Valmet and its customer. Unless otherwise set forth in such contract, nothing in this publication including, without limitation, any statements regarding capacity, suitability for use, or performance of such products, shall be deemed to constitute a warranty or commitment for any purpose nor shall it be considered as part of such contract or giving rise to any liability by Valmet.

  • Page 3: Table Of Contents

    Sensor models....................8 Measurement principle..................8 Structure........................10 FT sensor model....................10 TB sensor model....................10 Sensor electronics..................11 Valmet BRIDGE..................... 11 Installation........................12 Choosing the sensor model................12 Choosing the installation site................. 12 Installation check list..................13 Installation, FT model....................14 FT model installation locations..............14 FT sensor dimensions...................
  • Page 4 Binary output connections................27 Connecting the sensor cable................. 28 Setting up.........................29 Mechanical inspection................... 29 Installing sensor and operating terminal............29 Cabling inspection..................29 Electrical inspection..................29 Quick setup....................29 10 Operating......................... 32 10.1 Main user interface..................32 10.2 Virtual keyboard.....................33 10.3 Menu map......................34 11 Configuration......................35 11.1 General settings.....................35 11.2 Connection settings..................
  • Page 5 17.5 Antenna cables (FT)..................82 17.6 Temperature and pressure sensors (FT)............85 17.7 Antennas (FT)....................86 18 WEEE information....................88 19 Technical specification, sensor................89 20 Spare parts, sensor....................90 21 Technical specification, Valmet BRIDGE..............93 22 Spare parts, Valmet BRIDGE...................94 23 Declaration of conformity..................95...

  • Page 6: Recycling And Disposing

    WEEE information on page 88. This device can contain some materials considered hazardous under EU Directives 2012/19/EU or 2006/1907/EC. For more information on these materials and their recycling, see www.valmet.com/sustainability/sustainable-solutions/. K17122 V1.1 EN - 1 - 06/2020...

  • Page 7: Warnings & Safety Information

    All electric connections may only be made by appropriately trained and authorized persons! DANGER: Before any welding works in the vicinity of the devices, make sure that operating voltage is not connected. K17122 V1.1 EN - 1 - 06/2020...

  • Page 8: About The Sensor

    3 About the sensor 3.1 Sensor models Valmet Microwave Consistency Measurement (Valmet MCA) includes a sensor unit and a operating terminal with graphical display and touch screen. There are two different models of microwave sensors: FT, Flow Through and TB, Twin Blade. These sensors measure consistency, process temperature and pressure, and they also contain additional measurement probes for housing humidity, sensor orientation and vibration.
  • Page 9 Therefore, consistency can be calculated based on the time it takes the microwaves to travel through the measured mass. The advantages of this measurement method are its independence of pulp type, insensitivity to flow rate, and single-point calibration. K17122 V1.1 EN - 1 - 06/2020...

  • Page 10: Structure

    Figure 3: FT model. 1. Sensor electronics Figure 4: TB model. 1. Sensor electronics housing, 2. Sensor cable connector, 3. housing, 2. Microwave antennas, 3. Pres- Pt-100 thermoelement, 4. Pressure sen- sure sensor. sor, 5. Microwave antennas. K17122 V1.1 EN - 1 - 06/2020...

  • Page 11: Sensor Electronics

    7" capacitive touch screen. Operating terminal includes10 m (33 ft) long sensor cable (option: 30 m sensor cable). Only one sensor can be connected to the ter- minal at the same time. K17122 V1.1 EN - 1 - 06/2020...

  • Page 12: Installation

    • Do not install the sensor on a pipeline where air pockets may form. • Do not install the sensor on downflow pipes. • The sensor should not be installed on the suction side of a pump or to a mixing tank. K17122 V1.1 EN - 1 - 06/2020...

  • Page 13: Installation Check List

    • FT model: Before operating the sensor, check that the seals between the sensor and process flanges are properly installed and the mounting nuts are tightened. • FT model: Make sure that grounding cable is connected to the pipeline. K17122 V1.1 EN - 1 - 06/2020...

  • Page 14: Installation, Ft Model

    Directly after a pump. On a vertical pipeline. On a horizontal pipe after a vertical pipe section. On a horizontal pipe after a bend. On a vertical pipe after a horizontal pipe section. K17122 V1.1 EN - 1 - 06/2020...

  • Page 15: Ft Sensor Dimensions

    Figure 6: FT model sensor installed di- rectly after a pump. 6.2 FT sensor dimensions FT DN50/2” 208 (8.2”) 245 (9.6”) 49.4 (1.9”) 100 (3.9”) 146 (5.7”) Figure 7: Dimensions FT50. K17122 V1.1 EN - 1 - 06/2020...
  • Page 16 Figure 8: Dimensions FT80 and FT100. FT DN150/6” FT DN200/8” 208 (8.2”) 245 (9.6”) 208 (8.2”) 245 (9.6”) 100 (3.9”) 140 (5.5”) 237 (9.3”) 100 (3.9”) 160 (6.3”) Figure 9: Dimensions FT150 and FT200. K17122 V1.1 EN - 1 - 06/2020...

  • Page 17: Ft Model Mounting Dimensions

    ANSI 3" JIS80 FT-100 3.94 DN100 ANSI 4" JIS100 FT-150 3.94 DN150 ANSI 6" JIS150 FT-200 3.94 DN200 ANSI 8" JIS200 FT-250 4.72 DN250 ANSI 10" JIS250 FT-300 4.72 DN300 ANSI 12" JIS300 K17122 V1.1 EN - 1 - 06/2020...

  • Page 18: Installation, Tb Model

    Directly after a pump where pump throws the pulp. On a vertical pipeline. On a horizontal pipe after a vertical pipe section. On a horizontal pipe after a bend. On a vertical pipe after a horizontal pipe section. K17122 V1.1 EN - 1 - 06/2020...

  • Page 19: Tb Sensor Dimensions

    Figure 12: TB model sensor installed di- rectly after a pump. 7.2 TB sensor dimensions TWIN BLADE 208 (8.2”) 245 (9.6”) 180 (7.1”) Min. 219 (8.6”) (DN200/8”) L-coupling 114 (4.5”) (2.4”) (4.2”) (3.1”) (5.1”) Figure 13: Dimensions Twin Blade. K17122 V1.1 EN - 1 - 06/2020...

  • Page 20: Tb Model Process Coupling

    Check that the coupling limiter flange leans against the pipe and both sides are equally aligned (3). Weld four spots around the coupling and check the alignment once more. Weld all around the coupling. Welding seam may not exceed the coupling limiter flange. K17122 V1.1 EN - 1 - 06/2020...
  • Page 21 Installation, TB model | 21 (93) Note: Pay attention to the direction of flow, the blades must be exactly parallel with the flow! Figure 14: TB model installation, dimen- Figure 15: Correct position. sion from the wall. K17122 V1.1 EN - 1 - 06/2020...

  • Page 22: Mounting Clamp (Tb Model)

    Using a torque wrench, tighten the clamp to the correct torque 65 Nm. Fasten the clamp equally on both sides: the distance between the two halves of the clamp must be the same at both ends. K17122 V1.1 EN - 1 - 06/2020...

  • Page 23: Operating Terminal

    Attach the operating terminal to the wall or other non-vibrating location with three mount- ing screws in a place that is easily accessed. Suitable mounting level is 160–165 cm (5 ft 3–5") from the floor to the upper mounting hole. K17122 V1.1 EN - 1 - 06/2020...

  • Page 24: Electric Connections

    Figure 16: Dimensions of the operating terminal. The locations of mounting screws are indicated with yellow color. 8.2 Electric connections All terminals are behind the front panel assem- bly, fastened with 2 screws (Torx TX25); see the picture on the right. K17122 V1.1 EN - 1 - 06/2020...
  • Page 25 • B. Sensor cable is included in delivery. Connection at Carrier board terminals. • C. Current output cabling to DCS/PLC etc. Connection at Carrier board terminals. • D. Binary input/output cables, option. Connection at Carrier board terminals. Figure 17: Connections of the operating terminal. K17122 V1.1 EN - 1 - 07/2020...

  • Page 26: Current Output Connections

    Passive current output: Current output power supply from Control system. Verify the position of the active/passive current output selection switch! Ground the cable shield to Terminal earth at the control system side K17122 V1.1 EN - 1 - 07/2020...

  • Page 27: Binary Input Connections

    8.5 Binary output connections Binary outputs are used to send control data from the device to the DCS. Binary output configuration is described in section Connection settings on page 37. K17122 V1.1 EN - 1 - 06/2020...

  • Page 28: Connecting The Sensor Cable

    If the connector is not properly aligned, some of the thread remains visible and the thread may be dam- aged if the connector is forced deep- er. Poor cable connection may cause "Sensor Communication Error" mes- sages. K17122 V1.1 EN - 1 - 06/2020...

  • Page 29: Setting Up

    When device has been installed and the software starts for the first time, the configuration wizard for basic setup is activated. This wizard guides the user through the interface, sensor, device and customer configuration setup procedure. In configuration menu you can change these settings if necessary. K17122 V1.1 EN - 1 - 06/2020...
  • Page 30 The tag is shown at the top of the dis- play after the device name. Set current output type 1 & 2. Set alarm current value 1 & 2 for sensor failure situations. K17122 V1.1 EN - 1 - 06/2020...
  • Page 31 Setting up | 31 (93) Step Notes Set output 1 & 2 signal range and damp- ing. Enter additional info. E.g. contact person name, email, phone number. When the setup is finished, press Complete. K17122 V1.1 EN - 1 - 06/2020...

  • Page 32: Operating

    • Current measurement values for the secondary, tertiary and quaternary values with the correct unit, if valid for the sensor type. Status panel (4) shows sequences (for example measuring or flushing) and the current time and date. K17122 V1.1 EN - 1 - 06/2020...

  • Page 33: Virtual Keyboard

    Keyboard functions, QWERTY • OK: Saves changes. Closes the keypad. • ESC: Closes the keypad. • Bksp: Deletes entered numbers or letters from right to left (backspace). • Shift: Toggles between capitals and small letters. K17122 V1.1 EN - 1 - 06/2020...

  • Page 34: Menu Map

    Operating | 34 (93) 10.3 Menu map K17122 V1.1 EN - 1 - 06/2020...

  • Page 35: Configuration

    Select time zone: Choose from the list and press to save changes. Select time: Set the correct date and time. Press to save changes. HW version: Version number of operating terminal electronics. SW version: Software version number of operating terminal electronics. K17122 V1.1 EN - 1 - 06/2020...
  • Page 36 English language shortcut visible in the control panel. Select temperature unit: Temperature unit °C/°F. Select primary value unit: Primary value %Cs, %Ts, g/l. Select date format: Select date format, long or short. K17122 V1.1 EN - 1 - 06/2020...

  • Page 37: Connection Settings

    HART address: Default value is 0 (zero), i.e. normal installation with a single transmitter, analog output signal (4–20 mA) is active. Values 1–63 define a fixed current output and all communication with the device takes place digitally. K17122 V1.1 EN - 1 - 06/2020...
  • Page 38 Recipe 3 selected Closed Closed Open Recipe 4 selected Closed Open Open Recipe 5 selected Closed Open Closed Recipe 6 selected Open Closed Closed Recipe 7 selected Closed Closed Closed Recipe 8 selected K17122 V1.1 EN - 1 - 06/2020...
  • Page 39 Closed Process stop started Motor Running Open Motor not running Closed Motor running Binary outputs: Select Settings > Connection settings > Binary outputs. The binary outputs can be used for warnings and alarms. K17122 V1.1 EN - 1 - 06/2020...

  • Page 40: Sensor Settings

    Settings > Sensor settings. Device ID: Sensor type ID. Sensor Code: Sensor model. HW Version: Version number of sensor electronics. SW Version: Version number of sensor electronics software. Serial Number: Serial number of sensor electronics. K17122 V1.1 EN - 1 - 06/2020...

  • Page 41: User Information

    Sensor TAG: Sensor's "tag" or position code in the system. Machine ID, Location and Factory name are freely editable fields. Use descriptive names. Press to save changes. 11.5 Trend settings Settings > Trend settings. Settings for trend measurement threshold and Select interval. K17122 V1.1 EN - 1 - 06/2020...

  • Page 42: Calibration

    In addition to consistency calibration, each recipe may have a specific chemical compensation, temperature consistency correction and sensitivity correction. You can use max. 8 recipes. The active recipe name is shown on the main display status line. K17122 V1.1 EN - 1 - 06/2020...
  • Page 43 • Recipe number (1–8). • Recipe name (max. 32 characters). • Pulp type. • Calibration function. Edit recipe Click the recipe in recipe list window. In this window you can edit the recipe details. K17122 V1.1 EN - 1 - 06/2020...

  • Page 44: Sample Taking

    12.2 Sample taking In the home view, press New sample, and sample taking will start immediately. Minimum sampling time is 3 seconds, maximum 30 seconds, and the counter shows how much time is left. K17122 V1.1 EN - 1 - 06/2020...
  • Page 45 The minimum and maximum values indicate consistency fluctuations during the sampling period. For a reliable consistency sample this fluctuation should be small. Press and the home view will appear. K17122 V1.1 EN - 1 - 06/2020...

  • Page 46: Entering Laboratory Values

    Calibration | 46 (93) 12.3 Entering laboratory values Calibration > Samples and calibration. Select Click the box Lab. value to open the keypad. Enter the laboratory value and press Press to save the entered value. K17122 V1.1 EN - 1 - 06/2020...

  • Page 47: Calibration View

    To remove a sample point from the graph, unselect the sample. Only sample points for which the laboratory value has been set can be selected as calibration points. Typically single point calibration is enough, but multi point calibration is also possible. K17122 V1.1 EN - 1 - 06/2020...
  • Page 48 Activate the sample: check the box or click on the sample point in the graph. Press Single point. Press to save the selection. If the recipe is currently active, the calibration is saved and activated immediately. K17122 V1.1 EN - 1 - 06/2020...
  • Page 49 Calibration | 49 (93) Multi point calibration Take several samples and enter the corresponding laboratory values. The program will calculate gain and offset. Press Multi point to accept the values. Press to save the selection. K17122 V1.1 EN - 1 - 06/2020...
  • Page 50 Measured Value Lab Value [Cs%] Difference [Cs%] [Cs%] 2.09 -0.41 2.86 -0.34 3.47 0.43 3.84 -0.76 Enter the obtained Gain and Offset values to the program. Click the Gain/Offset field to display the keypad. K17122 V1.1 EN - 1 - 06/2020...
  • Page 51 Calibration | 51 (93) The graph shows the calibration result. Press Multi point. Press to save the calibration. If the recipe is active, the calibration is saved and activated immediately. K17122 V1.1 EN - 1 - 06/2020...

  • Page 52: Calibration And Sample History

    12.5 Calibration and sample history The sample history table saves the 50 most recent samples. The latest sample result is always on top of the list. Calibration history is saved in the Diary, see Diary on page K17122 V1.1 EN - 1 - 06/2020...

  • Page 53: Advanced Calibration

    If further calibrations need to be done after activating advanced calibration, new calibration points are needed. K17122 V1.1 EN - 1 - 06/2020...

  • Page 54: Chemical Compensation

    You can select sample points for calibration either from the table on the left or from the graph. The coefficients and correlation calculated with the selected point are shown below the graph. Press 1st / 2nd degree calibration. K17122 V1.1 EN - 1 - 06/2020...

  • Page 55: Temperature/Pressure Compensation

    (1. degree), at least 4 samples for 2. degree calibration. Go to Advanced calibration, make sure that the recipe is active and the required compensation alternative (Temperature/Pressure) is selected from the menu. K17122 V1.1 EN - 1 - 06/2020...

  • Page 56: Manual Compensation

    13.4 Manual compensation The sections above describe the compensation procedure using the graphic model from Valmet BRIDGE. The necessary coefficients can also be entered manually for example an Excel-based follow-up sample table. Take follow-up samples to the table including attenuation, pressure and temperature. In this example attenuation = Chemical compensation.
  • Page 57 Enter the coefficients (A and B) in fields A and B. Do not enter C, offset – the latest single point calculation ensures that the offset level is correct. Check the Enable box. Then press and the coefficients are in use for the recipe. K17122 V1.1 EN - 1 - 06/2020...
  • Page 58 Advanced calibration | 58 (93) K17122 V1.1 EN - 1 - 06/2020...
  • Page 59 Enter the coefficient (B) in field B. Do not enter C, offset – the latest single point cal- culation ensures that the offset level is correct. Check the Enable box. Then press and the coefficients are in use for the recipe. K17122 V1.1 EN - 1 - 06/2020...
  • Page 60 Advanced calibration | 60 (93) K17122 V1.1 EN - 1 - 06/2020...

  • Page 61: Diagnostics

    You can filter the events by using some filtering options. You can browse graphs by using Previous and Next buttons. To reset graph, press Reset graph. • Select time frame: Choose from the drop-down menu. • Show events. K17122 V1.1 EN - 1 - 06/2020...

  • Page 62: Event Log

    Service > Diagnostics > Event log. The event log contains detailed event history for the sensor and user interface, with the date and time of each event. Event types are marked with colors. K17122 V1.1 EN - 1 - 06/2020...

  • Page 63: Diary

    Service > Diagnostics > Diary. Calibrations, configurations, software update information and notes created by the user are saved in a diary. You can edit only the user notes. Tap Create new note if you want to save some important information. K17122 V1.1 EN - 1 - 06/2020...

  • Page 64: Measurement Values And Limits

    Diagnostics | 64 (93) 14.4 Measurement values and limits Service > Diagnostics > Measurement values and limits. In this window Select you can set diagnostic limits and view the current measurement result. K17122 V1.1 EN - 1 - 06/2020...

  • Page 65: Troubleshooting

    Troubleshooting | 65 (93) 15 Troubleshooting Valmet MCA does not require scheduled maintenance. The instructions in this chapter refer to fault conditions. Sensor diagnostics monitors certain internal measurements and generates error messages if the measurements exceed alarm limits. Self-diagnostics detects definite faults, which are often caused by sensor electronics.
  • Page 66 (for example in laboratory monitoring). This requires a deeper knowledge of the sensor and is typically performed by Valmet maintenance personnel. Reference channel failure has a similar effect as a sensor electronics failure. K17122 V1.1 EN - 1 - 06/2020...

  • Page 67: Diagnostic Messages

    Warning and error signals can also be sent to the PLC/DCS system by using binary outputs; see Settings > Connection settings > Binary outputs. Error messages related to device malfunctions or abnormal operation may also be caused by internal system monitoring. K17122 V1.1 EN - 1 - 06/2020...
  • Page 68 Signal attenuation at Check the diagnostic limit values. tion High the reference chan- Do sensor self-test: Service > Mainte- nel is too high. nance > Sensor self test: • Fail = sensor electronics malfunction. K17122 V1.1 EN - 1 - 06/2020...
  • Page 69 Try to increase the pressure by adjusting process control settings. If the measured value does not correspond to other pressure measurements (or to refer- ence), the sensor may be defective. K17122 V1.1 EN - 1 - 06/2020...
  • Page 70 Check the diagnostic limit values. temperature midity values of elec- Increase the sensor temperature. tronics housing are critical. Humidity may Open the sensor cabin and dry all surfaces if condense inside the there is condensed water. housing. K17122 V1.1 EN - 1 - 06/2020...

  • Page 71: Maintenance

    To stop the test mode press Stop loop test. Test will also stopped automatically if you leave the Current loop test page. 16.2 Sensor measurement tuning Service > Maintenance > Sensor measurement tuning) you can On this page ( see and adjust sensor specific parameters. K17122 V1.1 EN - 1 - 06/2020...

  • Page 72: Sensor Self Test

    Service > Maintenance > Sensor self test ) you can start sensor specific test sequence. 16.4 Reset functionality On this page ( Service > Maintenance > Reset functionality ) you can restart BRIDGE and the sensor. K17122 V1.1 EN - 1 - 06/2020...

  • Page 73: Replacing Parts

    Lift the cables upwards as one bundle. Avoid bending and twisting the cables (especially the microwave antenna cables) as much as possible. Loosen the mounting screws (4 pcs) and lift sensor electronics out. K17122 V1.1 EN - 1 - 06/2020...

  • Page 74: Antenna Cables (Tb)

    Install the sensor cover. Calibrate the sensor. 17.2 Antenna cables (TB) Note: Make sure that the process pipeline is empty and not pressurized, then unmount the sensor from the process coupling. Removing: K17122 V1.1 EN - 1 - 06/2020...
  • Page 75 Detach base plate from sensor body. Check the sealing ring in the sensor body, replace it if necessary. Pull the sensor body and measurement head loose from each other. Clean the threads to remove locking glue residues. K17122 V1.1 EN - 1 - 06/2020...
  • Page 76 Make sure that the sealing washers are in position. Apply some Loctite 243 locking glue to the screw threads. Tighten the bolts, torque about 19 Nm. K17122 V1.1 EN - 1 - 06/2020...
  • Page 77 1 Nm. Do not over-tighten! Connect the sensor cable. Make sure that the green LED begins to blink, indicating that the software is running. 10. Install the sensor cover. 11. Calibrate the sensor. K17122 V1.1 EN - 1 - 06/2020...

  • Page 78: Temperature And Pressure Sensors (Tb)

    Use a 10 mm fork spanner to open the screw that secures the 4-position lead- through packing in position. Detach the cables from the packing and pull it out. Loosen the mounting bolts (4 pcs) with a 6 mm Allen key. K17122 V1.1 EN - 1 - 06/2020...
  • Page 79 1 Nm. Do not over-tighten! 13. Connect the sensor cable. Make sure that the green LED begins to blink, indicating that the software is running. 14. Install the sensor cover. K17122 V1.1 EN - 1 - 06/2020...

  • Page 80: Measurement Head (Tb)

    Loosen the mounting bolts (4 pcs) with a 6 mm Allen key. Detach base plate from sensor body. Check the sealing ring in the sensor body, replace it if necessary. Pull the sensor body and measurement head loose from each other. K17122 V1.1 EN - 1 - 06/2020...
  • Page 81 Connect the power, pressure sensor and temperature sensor cables to electronics. Connect the antenna cables to electronics. Tighten the connectors with the SMA torque wrench to torque 1 Nm. Do not over-tighten! K17122 V1.1 EN - 1 - 06/2020...

  • Page 82: Antenna Cables (Ft)

    Use a crosshead screwdriver to loosen the screws (3 pcs, M4x5) that hold the shield plate in position (figure below on the right). Remove the shield. K17122 V1.1 EN - 1 - 06/2020...
  • Page 83 Loosen the screws (4 pcs) from antenna cover with a 2.5 mm Allen key. Be careful not to lose the spring washers! Move the rubber sealing flange so that you can disconnect the antenna cable. Use an 8 mm fork spanner. Pull the antenna cable out. K17122 V1.1 EN - 1 - 06/2020...
  • Page 84 Connect the power cable to elec- tronics. Connect the antenna cables to electronics. Tighten the connectors with the SMA torque wrench to tor- que 1 Nm. Do not over-tighten! Install sensor cover. Connect sensor cable. Calibrate the sensor. K17122 V1.1 EN - 1 - 06/2020...

  • Page 85: Temperature And Pressure Sensors (Ft)

    Temperature sensor: Detach the sensor with a 10 mm fork spanner. Pull the sensor cable out. Pressure sensor: Detach the sensor with a 17 mm fork spanner. Pull the sensor cable out. Location of sensors: A. pressure sensor, B. temperature sensor. Installing: K17122 V1.1 EN - 1 - 06/2020...

  • Page 86: Antennas (Ft)

    1 Nm. Do not over-tighten! Install the sensor cover. Connect the sensor cable. Check sensor calibration. 17.7 Antennas (FT) Note: Before starting work, make sure that the process pipeline is empty and not pressurized! K17122 V1.1 EN - 1 - 06/2020...
  • Page 87 Fasten the antenna cover in posi- tion, make sure that it is in the cor- rect direction (matching with the groove on antenna; figure on the right). Connect the sensor cable. K17122 V1.1 EN - 1 - 06/2020...

  • Page 88: Weee Information

    WEEE information | 88 (93) 18 WEEE information Valmet Bridge Sensor K17122 V1.1 EN - 1 - 06/2020...

  • Page 89: Technical Specification, Sensor

    Process pressure Sensor weights - Minimum ......> 1.5 bar recommended, no free MCA-TB ......7.3 kg 16.1 lbs air; consult Valmet Automation MCA-FT 50 / 2” ....8.4 kg 18.5 lbs if lower MCA-FT 80 / 3” ....9.8 kg 21.6 lbs...

  • Page 90: Spare Parts, Sensor

    07.02.2018 1 (3) Valmet MCA – Spare parts Order Description code K15920 Sensor Electronics K15892 MW Antenna FT K15877 Measuring head TB SS K15878 Measuring Head TB SMO K15799 Pressure Transducer Assembly SS K16470 Pressure Transducer Assembly SMO K16434 Thermoelement Assembly TB...
  • Page 91 2 (3) Valmet MCA – Spare parts © Valmet Automation Inc. All rights reserved.
  • Page 92 3 (3) Valmet MCA – Spare parts © Valmet Automation Inc. All rights reserved.

  • Page 93: Technical Specification, Valmet Bridge

    1 (1) 24.06.2020 Valmet BRIDGE – Technical specification Connections EMC test standards Cable to sensor ....length 10 m (33 ft) Radiated emissions ..EN 61000-6-3/CISPR 16-2-3 Conducted emissions….…EN 61000-6-3/CISPR 16-2-3 - Option ......sensor cable 30 m (98 ft) Radiated, RF, Operating voltage ....

  • Page 94: Spare Parts, Valmet Bridge

    11.06.2020 1 (1) Valmet BRIDGE – Spare parts Code Description K17584 BRIDGE operating terminal K17341 BRIDGE PCB assembly K17250 BRIDGE operating panel K17582 BRIDGE LCD assembly K17094 Display cover K17097 Power supply 24 VDC/2.2 A K19490 Sensor cable assembly 10 m...

  • Page 95: Declaration Of Conformity

    KONFORMITÄTSERKLÄRUNG DICHIARAZIONE DI CONFORMITA CONFORMITEITSVERKLARING DEKLARACJA ZGODNOŚCI PROHLÁŠENÍ O SHODĚ Valmet Automation Oy Manufacturer – Valmistaja – Fabrikant – Hersteller – Kehräämöntie 3 / P.O.Box 177 Fabrikant – Výrobce – Fabricant – Fabricante – Fabricante – Fabriccante – Producent 87101 Kajaani, FINLAND Valmet Microwave Consistency Device –...

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