JUMO flowTRANS MAG S10 Operating Manual
  1. Manuals
  2. Brands
  3. JUMO Manuals
  4. Measuring Instruments
  5. flowTRANS MAG S10
  6. Operating manual

JUMO flowTRANS MAG S10 Operating Manual

Electromagnetic flowmeter
Hide thumbs
Table of Contents

Advertisement

Quick Links

Download this manual
JUMO flowTRANS MAG S10/H10
Electromagnetic flowmeter
Type 406060, 406061 and 406067
Operating Manual
40606000T90Z001K000
V1.00/EN/00700892

Advertisement

Table of Contents
loading

Related Manuals for JUMO flowTRANS MAG S10

Summary of Contents for JUMO flowTRANS MAG S10

  • Page 1 JUMO flowTRANS MAG S10/H10 Electromagnetic flowmeter Type 406060, 406061 and 406067 Operating Manual 40606000T90Z001K000 V1.00/EN/00700892...

  • Page 3: Table Of Contents

    Safety ..............5   insulating liner ............ 24       General information and instructions ....5 5.4.5   JUMO flowTRANS MAG H10 sensor type ..24     Warnings ............. 5     5.4.6 Grounding with conductive PTFE grounding plate  ...
  • Page 4   12.2.2   Maximum ambient temperature depending on measuring medium temperature ......83   12.3   JUMO flowTRANS MAG S10 – Material load for Process connections .......... 84   12.3.1   Minimum permissible operating pressure ..84      ...

  • Page 5: Safety

    1 Safety Warnings Safety The warnings in these instructions are structured as follows: General information and instructions DANGER These instructions are an important part of the product and must The signal word ‘DANGER’ indicates an imminent danger. be retained for future reference. Failure to observe this information will result in death or severe Installation, commissioning, and maintenance of the product may injury.

  • Page 6: Intended Use

    1 Safety Intended use Improper use This device is intended for the following uses: The following are considered to be instances of improper use of • For the transmission of fluid, pulpy or pasty measuring the device: media with electrical conductivity. •...

  • Page 7: Design And Function

    Pressure Equipment Directive 2014/68/EU Conformity assessment in accordance with category III, fluid group 1 Further approvals Are available in the download section at www.jumo.de, or on request. For information regarding flange thicknesses, see Dimensions can be found in the data sheet.

  • Page 8: Jumo Flowtrans Mag H10

    Remote mount design: IP 65 / IP 67 / IP 68 (only for sensors) Approvals Pressure Equipment Directive 2014/68/EU Conformity assessment in accordance with category III, fluid group 1 Hygiene approvals FDA-compliant materials Further approvals Are available in the download section at www.jumo.de, or on request.

  • Page 9: Transmitter

    Digital output 2: Passive, can be configured as pulse or switching output Local display Graphical display, can be configured (optional) Approvals Further approvals Are available in the download section at www.jumo.de, or on request. Change from one to two columns...

  • Page 10: Model Variants

    50 m (164 ft) is possible. Information regarding JUMO flowTRANS MAG S10 JUMO flowTRANS MAG S10 flow sensors are available in two 1 Magnet coil 3 Measuring electrode different versions, variant 1 and variant 2. See Design and 2 Measuring tube in electrode plane function on page 7.

  • Page 11: Product Identification

    3 Product identification Change from two to one column Product identification Name plate 3.1.1 Integral mount design 1 Model number * m Supplementary information: EE = grounding electrodes, TFE = partial filling electrode 2 Order number / Serial number for identification by the manufacturer n Label indicating whether the pressure vessel is subject to the Pressure 3 Nominal diameter and nominal pressure rating Equipment Directive (PED).

  • Page 12: Remote Mount Design

    3 Product identification 3.1.2 Remote mount design A Sensor l Protection class according to EN 60529 B Transmitter m Supplementary information: EE = grounding electrodes, TFE = partial filling electrode 1 Model number * n Label indicating whether the pressure vessel is subject to the Pressure 2 Order number / Serial number for identification by the manufacturer Equipment Directive (PED).
  • Page 13 3 Product identification The identification information according to the Pressure Equipment Directive (PED) is included on the rating plate and provided on the sensor itself. 1 CE mark with notified body 4 Fluid group or reason for exception 2 Notified body 5 Serial number of sensor 3 Nominal diameter / Nominal pressure rating...

  • Page 14: Transport And Storage

    4 Transport and storage Transport and storage Inspection Check the devices immediately after unpacking for possible damage that may have occurred from improper transport. Details of any damage that has occurred in transit must be recorded on the transport documents. All claims for damages must be submitted to the shipper without delay and before installation.

  • Page 15: Storing The Device

    All documents required for returning the device as well as the manufacturer’s return address can be found at Storage temperature range http://produktruecksendung.jumo.info. -30 to 70 °C (-22 to 158 °F) The following applies to returning devices for repair or recalibration purposes: The ambient condition requirements for transport and storage of •...

  • Page 16: Installation

    5 Installation Installation 5.1.2 Brackets NOTICE Installation conditions Potential damage to the device! 5.1.1 General Improper support for the device may result in a deformed housing and damage to internal magnetic coils. Compliance with the following points is required for installation: •...

  • Page 17: Devices With A Wafer-Type Design

    5 Installation 5.1.4 Devices with a wafer-type design 5.1.7 Mounting position 1 Threaded rod 3 Centering sleeves 2 Nut with washer Figure 13: Mounting position Figure 10: Installation set for wafer-type design (example) Vertical installation for measuring abrasive materials, preferably with flow in upward direction. For devices that feature a wafer-type design, the manufacturer For a horizontal installation, the meter tube must always be offers an installation set as an accessory part that consists of...

  • Page 18: Minimum Spacing Of The Devices

    5 Installation 5.1.8 Minimum spacing of the devices 5.1.9 Inlet and outlet sections Distance (D): ≥ 1.0 m (3.3 ft.) for variant 1; ≥ 0.7 m (2.3 ft.) for variant 2 1 90° out-of-plane double bend 2 Shut-off device Figure 15: Upstream and downstream sections, shut-off devices The metering principle is independent of the flow profile as long as stationary eddies do not extend into the metering section, such as may occur downstream of 90°...

  • Page 19: Free Inlet Or Outlet

    5 Installation 5.1.10 Free inlet or outlet 5.1.12 Mounting with pipe vibration Figure 16: Free inflow and outflow For a free outflow, do not install flowmeter at the highest point of the piping or on its outflow side, since the measuring tube may run empty, creating air bubbles.

  • Page 20: Installation In Piping With Larger Nominal Diameter

    5 Installation 5.1.13 Installation in piping with larger nominal 5.1.14 Installation in 3A compliant installations diameter 1 Reducer 1 Angel bracket 2 Leakage hole Figure 19: Using reducers Figure 21: 3A compliant installation Please observe the following points: Determine the resulting pressure loss when using reducers: Do not install the device vertically with the terminal box or 1.

  • Page 21: Installing The Sensor

    5 Installation Installing the sensor 4. Use the appropriate screws for the holes in accordance with NOTICE Torque information on page 90. Damage to the device 5. Slightly grease the threaded nuts. Damage to the device due to improper assembly. 6....

  • Page 22: Opening And Closing The Terminal Box

    5 Installation Opening and closing the terminal box 5.3.1 Rotating the LCD display WARNING Depending on the installation position, the LCD display can be rotated to enable horizontal readings. Risk of injury due to live parts! The LCD display can be rotated in 90° increments in four steps. When the housing is open, contact protection is not provided Refer to Opening and closing the terminal box on page 22! and EMC protection is limited.

  • Page 23: Sensor Grounding

    5 Installation Sensor grounding 5.4.3 Metal pipe with loose flanges 5.4.1 General information on grounding Observe the following items when grounding the device: • For plastic piping or piping with insulating liner, the ground is provided by the grounding plate or grounding electrodes.

  • Page 24: Plastic Pipes, Non-Metallic Pipes Or Pipes With Insulating Liner

    JUMO flowTRANS MAG H10 sensor type with insulating liner 1 Adapter for process connection Figure 28: JUMO flowTRANS MAG H10 sensor type Follow the grounding procedure shown in the illustration. The medium being measured is grounded via the adapter for the process connection so that an additional ground is not required.

  • Page 25: Installation And Grounding In Piping With Cathodic Corrosion Protection

    5 Installation 5.4.8 Installation and grounding in piping with Internally insulated pipelines with cathodic cathodic corrosion protection corrosion protection potential The installation of electromagnetic flowmeters in systems with cathodic corrosion protection must be made in compliance with the corresponding system conditions. The following factors are especially important: 1....

  • Page 26: Electrical Connections

    5 Installation Electrical connections Mixed system pipeline with cathodic corrosion protection and functional earth potentials WARNING Risk of injury due to live parts. Improper work on the electrical connections can result in electric shock. • Connect the device only with the power supply switched off.

  • Page 27: Installing The Connecting Cables

    5 Installation 5.5.2 Installing the connecting cables 5.5.3 Connection via cable conduit Compliance with the following items is required when routing signal cables: • A magnetic coil cable (red and brown) is run parallel to the signal lines (violet and blue). As a result, only one cable is required between the sensor and the transmitter.

  • Page 28: Connection Of Ip 68 Protection Class

    5 Installation 5.5.4 Connection of IP 68 protection class Sealing the terminal box A special two-component sealing compound can be ordered separately (part number: 00707192) for sealing the terminal box subsequently at the site. Sealing is only possible if the sensor is installed horizontally.
  • Page 29 5 Installation Procedure 1 Pouch 4 Desiccant packet 2 Clamp 5 Maximum fill level 3 Two-component sealing compound Figure 35: Procedure 1. Cut open the protective enclosure of the two-component sealing compound (see packaging). 2. Remove the clamp of the sealing compound. 3.

  • Page 30: Electrical Connection

    5 Installation 5.5.5 Electrical connection A Connection points for power supply and outputs B Connection points for signal cable (remote mount design only) Figure 36: Electrical connection points Change from one to two columns Note Output connections For additional information on the grounding of the transmitter, see Sensor grounding on page 23.

  • Page 31: Electrical Data For Inputs And Outputs

    5 Installation 5.5.6 Electrical data for inputs and outputs Digital output, 41 / 42, 51 / 52 Can be configured as pulse, frequency or binary output. Power supply, L / N, 1+ / 2- Alternating voltage (AC) supply Terminals L / N Operating voltage 100 to 240 V AC (−15 % / +10 %), 47 to 64 Hz Power consumption...

  • Page 32: Connection To Integral Mount Design

    5 Installation 5.5.7 Connection to integral mount design Figure 39: Connection at the device (example), dimensions in mm (in.) PA = Equipotential bonding Change from one to two columns Note NOTICE • Adhere to the limit values of the power supply in accordance If the O-ring gasket is seated incorrectly or damaged, this with the information on the name plate.

  • Page 33: Connection To Remote Mount Design

    5 Installation 5.5.8 Connection to remote mount design Transmitter side Note Use ferrules. • 0.75 mm2 ferrules (AWG 19) for shielding (1S, 2S). • 0.5 mm2 ferrules (AWG 20) for all other wires. The shields must not touch one another (this will short out the signal).
  • Page 34 5 Installation Transmitter 1 Terminals for power supply 5 Cable entry for signal cable 2 Terminals for inputs and outputs 6 Terminal for equipotential bonding 3 Terminals for signal cable 7 Cable entry for power supply 4 Cable entry for inputs and outputs Figure 42: Electrical transmitter connection for remote mount design (example) Change from one to two columns Note...
  • Page 35 5 Installation Flowmeter sensor 1 Terminals for signal cable 2 Terminal for equipotential bonding Figure 43: Sensor connection for remote mount design (example) Change from one to two columns NOTICE If the O-ring gasket is seated incorrectly or damaged, this may have an adverse effect on the housing protection class.

  • Page 36: Commissioning

    6 Commissioning Commissioning Write-protection switch, service LED and local operator interface Safety instructions CAUTION Risk of burns due to hot measuring media The device surface temperature may exceed 70 °C (158 °F), depending on the measuring medium temperature! • Before starting work on the device, make sure that it has cooled sufficiently.

  • Page 37: Checks Prior To Commissioning

    The numeric suffix for the SensorMemory module has to be consistent with the numeric suffix for the sensor. Parameterization of the device Commissioning and operation of the JUMO flowTRANS MAG S10/H10 can be carried out via the integrated LCD display (optional; see Parameterization via the menu function Easy Setup on page 38).

  • Page 38: Factory Settings

    6 Commissioning Factory settings Parameterization via the menu function Easy Setup The device can be factory parameterized to customer Settings for the most common parameters are summarized in the specifications upon request. If no customer information is ‘Easy Setup’ menu. This menu provides the fastest way to available, the device is delivered with factory settings.
  • Page 39 6 Commissioning Menu Easy Setup Easy Setup Unit Vol. Totalizer Next Edit Exit Select 16.Use to call up the edit mode. 5. Use to select ‘Easy Setup’. 17.Use to select the desired unit for the volume 6. Confirm the selection with totalizer.
  • Page 40 6 Commissioning Easy Setup Easy Setup Damping High Alarm 30.00 ms 21.800 mA Next Edit Next Edit 25.Use to call up the edit mode. 37.Use to call up the edit mode. 26.Use to set the desired damping. 38.Use to set the desired current for High Alarm. 27.Confirm the selection with 39.Confirm the selection with Easy Setup...

  • Page 41: Measuring Range Table

    6 Commissioning Measuring range table The full-scale value can be set between 0.02 x Q DN and 2 x Q Nominal diameter Lower range value Upper range value 0.02 x Q DN (≈ 0.2 m/s) 0 to ≈ 10 m/s 2 x Q DN (≈...

  • Page 42: Operation

    7 Operation Operation Safety instructions CAUTION The LCD indicator has capacitive operating buttons. These enable you to control the device through the closed housing Risk of burns due to hot measuring media cover. The device surface temperature may exceed 70 °C (158 °F), depending on the measuring medium temperature! Note •...

  • Page 43: Menu Levels

    7 Operation Menu levels Process display Information level Configuration level (Operator Menu) (Configuration) ...Operator Page 1 … n Easy Setup Autoscroll Device Info Diagnostics Device Setup Signals View Display Input/Output Process Alarm Diagnostics Totalizer Process display The process display shows the current process values. There are two menu levels under the process display.

  • Page 44: Process Display

    7 Operation 7.3.1 Process display 7.3.2 Switching to the information level (operator menu) On the information level, the operator menu can be used to display diagnostic information and choose which operator pages to display. Process display 1 Measuring point tagging 3 ‘Button function’...

  • Page 45: Error Messages On The Lcd Display

    7 Operation 7.3.3 Error messages on the LCD display 7.3.4 Switching to the configuration level (parameterization) In the event of an error, a message consisting of a symbol and The device parameters can be displayed and changed on the text (e.g. Electronics) appears at the bottom of the process configuration level.

  • Page 46: Selecting And Changing Parameters

    7 Operation 7.3.5 Selecting and changing parameters Once you have logged on to the corresponding access level, you can edit or reset the password. Resetting (“No password defined” Entry from table state) is done When an entry is made from a table, a value is selected from a by selecting “...
  • Page 47 7 Operation Exiting the setup Parameter name For some menu items, values must be entered. If you don't want 12.3456 [unit] to change the parameter, you can exit the menu as described below. 1. Pressing (Next) repeatedly moves the cursor to the right. Once the cursor reaches the end position, ‘Cancel’...

  • Page 48: Parameter Overview

    7 Operation Parameter overview Note This overview of parameters shows all the menus and parameters available on the device. Depending on the version and configuration of the device, not all of the menus and parameters may be visible on it. Easy Setup Language Unit Volumeflow Qv...
  • Page 49 7 Operation Transmitter Type Transmitter ID Transm.Serial No..Transmitter Version FW Device Ver. FW Device Part Nr. Transm. Run Hours FW Frontend Ver. Tx Restart Counter FW Frontend CRC Time since Restart HW Frontend Ver..Tx Calibration Bootloader FEB Ver. Curr.
  • Page 50 7 Operation ...Units Unit Massflow Qm Unit Mass Tot. Damping Unit Volumeflow Qv Damping On/Off Unit Vol. Totalizer Density Fixed Value Cust Qm Unit N..Cut Off Cust Qm Unit F. Cust Qv Unit N. TX Location TAG Cust Qv Unit F. TX TAG Device Reset Low Flow Cut Off...
  • Page 51 7 Operation ...Setup Freq Output Output Value Freq. Upper Frequency ...Setup Logic Output Logic Output Action ...Alarm Config Active Mode General Alarm Qv Volumeflow Max Qv Volumeflow Min Mode Outp. Flow Direction ...Setup Logic Output Logic Output Action Active Mode ...Alarm Config Process Alarm Alarmhistorie...
  • Page 52 7 Operation ..Simulation Mode Simulation Switch Qm Massflow [unit] ...Output Readings Qm Massflow [%] Curr.Out 31 / 32 Dig.Out 41 / 42 State Dig.Out 41 / 42 Freq. Dig.Out 41 / 42 Pulse Dig.Out 51 / 52 State Dig.Out 51 / 52 Pulse Curr.Out 31 / 32 Dig.Out 41 / 42 Freq.

  • Page 53: Parameter Descriptions

    7 Operation Parameter descriptions Table 2: Units for the mass flow 7.5.1 Available units Selection Code Description For certain parameters it is possible to choose among the Grams per second following units. g/min Grams per minute Note Grams per hour The ‘Code’...

  • Page 54: Menu: Easy Setup

    7 Operation 7.5.2 Menu: Easy Setup Menu / Parameters Description Easy Setup Language Used to select the menu language (Deutsch, English, Französisch, Spanisch, Italienisch, Chinesisch, Portugiesisch). Unit Volumeflow Qv Used to select the unit for the volumetric flow rate (e. g. for the parameters QvMax / QvMaxDN and for the corresponding process value).

  • Page 55: Menu: Device Info

    7 Operation 7.5.3 Menu: Device Info This menu is only used for displaying the device parameters. The parameters are displayed independently of the configured access level, but cannot be changed. Menu / Parameters Description Device Info ...Sensor Used to select the “...Sensor” submenu with ...Transmitter Used to select the “...Transmitter”...
  • Page 56 7 Operation Menu / Parameters Description Device Info / ...Transmitter Transmitter Type Type of sensor, e. g. Fex610. Transmitter ID ID number of transmitter. Transm.Serial No. Serial number of transmitter..Transmitter Version Used to select the “...Transmitter Version” submenu with Transm.

  • Page 57: Menu: Device Setup

    7 Operation 7.5.4 Menu: Device Setup Menu / Parameters Description Device Setup ...Access Control Used to select the “...Access Control” submenu with ...Sensor Used to select the “...Sensor” submenu with ...Transmitter Used to select the “...Transmitter” submenu with Device Setup / ...Access Control Standard Password Used to enter / change the password for the “Standard”...
  • Page 58 7 Operation Menu / Parameters Description Device Setup / ...Sensor / ...Operating Mode Flow Direction Used to set the measuring direction for the sensor. The device measures and totalizes in both flow directions by default when the device is supplied. •...
  • Page 59 7 Operation Menu / Parameters Description Device Setup / ...Transmitter / ...Units Unit Massflow Qm Used to select the unit for the mass flow. Refer to Available units on page 53. The selection applies to the current mass flow display and to the parameters that relate to the mass flow such as QmMax and Unit Mass Tot.

  • Page 60: Menu: Display

    7 Operation 7.5.5 Menu: Display Menu / Parameters Description Display Language Used to select the menu language. (German, English, French, Spanish, Italian, Chinese, Portuguese) Contrast Used to set the contrast for the LCD display..Operator Page 1 Used to select the “...Operator Page 1” submenu with ...Operator Page 2 Used to select the “...Operator Page 2”...

  • Page 61: Menu: Input/Output

    7 Operation 7.5.6 Menu: Input/Output Menu / Parameters Description Input/Output ...Curr.Out 31 / 32 Used to select the “...Curr.Out 31 / 32” submenu with ...Dig.Out 41 / 42 Used to select the “...Dig.Out 41 / 42” submenu with ...Dig.Out 51 / 52 Used to select the “...Dig.Out 51 / 52”...
  • Page 62 7 Operation Menu / Parameters Description Input/Output / Dig.Out 41 / 42 Mode Used to select the operating mode for the digital output 41 / 42. • Off: Used to deactivate the digital output 41 / 42. • Logic: Digital output 41 / 42 is used as binary output (e. g. as alarm output). •...
  • Page 63 7 Operation Menu / Parameters Description Input/Output / Dig.Out 41 / 42 / ...Setup Logic Output Logic Output Action Used to select the binary output function. • Off: Used to deactivate the binary output. • F/R Signal: Used to have the binary output signal the flow direction. •...

  • Page 64: Menu: Process Alarm

    7 Operation Menu / Parameters Description Input/Output / Dig.Out 51 / 52 / ...Setup Logic Output Logic Output Action Used to select the binary output function. Refer to the description regarding “Input/Output / Dig.Out 41 / 42- / ...Setup Logic Output”. Active Mode Used to select the switching behavior for the binary output.

  • Page 65: Menu: Diagnostics

    7 Operation 7.5.8 Menu: Diagnostics Menu / Parameters Description Diagnostics ...Maintenance control Used to select the “...Maintenance control” submenu with ...Diagnosis Values Used to select the “...Diagnosis Values” submenu with ..Simulation Mode Used to select the “..Simulation Mode” submenu with ...Output Readings Used to select the “...Output Readings”...
  • Page 66 7 Operation Menu / Parameters Description Diagnostics / ...Diagnosis Control / ...Noise Check Start Noise Check Used to start the noise check function with Power Spectrum Used to indicate the current power spectrum Amplitude 1 Value Used to indicate the four strongest amplitudes in the power spectrum. Amplitude 2 Value Amplitude 3 Value Amplitude 4 Value...

  • Page 67: Menu: Totalizer

    7 Operation Menu / Parameters Description Diagnostics / ..Simulation Mode Simulation Switch Used for manual simulation of measured values. After selecting the value to be simulated, a corresponding parameter is indicated in the “Diagnostics / ..Simulation Mode” menu through which the simulation value can be configured. The output values correspond to the configured simulated measured value.

  • Page 68: Diagnosis / Error Messages

    8 Diagnosis / error messages Diagnosis / error messages Calling up the error description Additional details about the error that has occurred can be called up on the information level. Process display Electronics 1. Use to go to the information level (Operator Menu). Operator Menu Diagnostics Back...

  • Page 69: Error Messages

    8 Diagnosis / error messages Error messages The error messages are divided into four groups in accordance with the NAMUR classification scheme. Errors Error no. / Area Text on the LCD display Cause Remedy F099.042 / Electronics ADC overrange alarm. The signal at the input of the A / D converter When the meter tube is empty, ensure that the Noise too high.
  • Page 70 8 Diagnosis / error messages Error no. / Area Text on the LCD display Cause Remedy F086.019 / Electronics Curr.Out 31 / 32 com error. Error with electronics involving motherboard and Contact the manufacturer. Defective Board. EMC transmitter. disturbance. Call Service. Problems with the EMC.
  • Page 71 8 Diagnosis / error messages Error no. / Area Text on the LCD display Cause Remedy S046.001 / Operation Mass flowrate exceeds limits. The mass flow is above or below the configured Check the parameter settings in the “Process Check flowrate and alarm limits. limit values for “Qm Massflow Min”...

  • Page 72: Overview

    8 Diagnosis / error messages Overview Errors encountered are itemized in tabular form on the following pages. The response of the transmitter on error detection is described therein. The table lists all possible errors together with a description of their impact on the value of measurement variables, the properties of current outputs and the alarm output.
  • Page 73 8 Diagnosis / error messages Error no. / Text on the LCD display Current output Digital output Pulse output LCD display Maskable error? Area C078.004 / Config Flowrate to zero. 4 mA (0 % flow) No change; current “...Group Masking” Check digital in terminals.
  • Page 74 8 Diagnosis / error messages Error no. / Text on the LCD display Current output Digital output Pulse output LCD display Maskable error? Area M038.010 / Sensor memory defective. No change; current No response No change; current No change; current “...Group Masking”...

  • Page 75: Maintenance

    Before removing the device, depressurize it along with any etc.) that is compatible with the prevailing temperature and the adjacent lines or equipment. medium being measured and for hygienic “JUMO flowTRANS • Check whether hazardous materials have been used as MAG H10”...

  • Page 76: Repair

    10 Repair 10 Repair 10.2 Replacing the fuse WARNING NOTICE Risk of injury due to live parts! If the O-ring gasket is seated incorrectly or damaged, this When the housing is open, contact protection is not provided may have an adverse effect on the housing protection and EMC protection is limited.

  • Page 77: Replacing The Lcd Indicator

    10 Repair 10.3 Replacing the LCD indicator A Integral mount design 3 LCD display B Remote mount design 4 Connector 1 Housing cover 5 Four fastening screws for housing cover 2 Fastening screws for LCD display Figure 51: Replacing the LCD display Change from one to two columns Follow the steps below to replace the LCD display: NOTICE...

  • Page 78: Replacing The Transmitter

    10 Repair 10.4 Replacing the transmitter A Integral mount design 3 Transmitter electronics module B Remote mount design 4 Connector for sensor 1 Fastening screw for transmitter electronics module 5 SensorMemory 2 Terminals Figure 52: Replacing the transmitter electronics module Change from one to two columns 5....

  • Page 79: Replacing The Sensor

    10 Repair 10.5 Replacing the sensor 1 Terminals for signal cable 3 Transmitter 2 SensorMemory 4 Transmitter electronics module Figure 53: Replacing the transmitter Change from one to two columns Proceed as follows to replace the transmitter: NOTICE 1. Switch off the power supply. If the O-ring gasket is seated incorrectly or damaged, this 2....

  • Page 80: Loading The System Data

    10 Repair 10.6 Loading the system data 1.Switch on the power supply. The following information is shown on the LDC display during the start-up process: System Startup Processing The transmitter is loading the sensory data and the transmitter settings such as e. g: the measuring range, the damping and the pulse width from the SensorMemory 2.

  • Page 81: Recycling And Disposal

    11 Recycling and disposal 11 Recycling and disposal 11.2 Disposal 11.1 Dismounting This product and its packaging is manufactured using materials that can be recycled by specialist recycling companies. WARNING Risk of injury due to process conditions. Compliance with the information below is required for disposal: The process conditions, for example high pressures and •...

  • Page 82: Specification

    12 Specification Note The data sheet for the device is available in the download section at www.jumo.de oder auf Anfrage, or on request. 12.1 Permitted pipe vibration In accordance with EN 60068-2-6 Valid for sensors in remote mount and integral mount design.

  • Page 83: Maximum Ambient Temperature Depending On Measuring Medium Temperature

    12 Specification 12.2.3 Maximum ambient temperature depending on measuring medium temperature Integral mount design Liner material Flange material Ambient temperature (T Temperature of medium being measured (T amb. medium Minimum Maximum Minimum Maximum Hard rubber Steel -10 °C (14 °F) 60 °C (140 °F) -10 °C (14 °F) 85 °C (185 °F)

  • Page 84: Jumo Flowtrans Mag S10 - Material Load For Process Connections

    12 Specification 12.3 JUMO flowTRANS MAG S10 – Material load 12.3.2 Material load for process connections Sensor, variant 1 The limits of the permissible measuring medium temperature ) and permissible pressure (P ) are calculated on medium medium the basis of the liner and flange material used in the device (see device name plate).
  • Page 85 12 Specification Figure 56: DIN flange, steel up to DN 600 (24 in.) A DN 1000, PN 10 D DN 900, DN 800, PN 16 B DN 700, DN800, DN900, PN 10 E DN 700, PN 16 C DN 1000, PN 16 Figure 58: DIN flange, stainless steel, DN 700 to 1000 (28 to 40 in.) Figure 57: ASME flange, steel up to DN 400 (16 in.) (CL150/300);...
  • Page 86 12 Specification Sensor, variant 2 Figure 60: ASME flange, steel, DN 25 to 400 (1 to 24 in.) Figure 62: Cast steel housing, DN 25 to 600 (1 to 2 in.) Figure 61: ASME flange, stainless steel, DN 25 to 400 (1 to 24 in.) Figure 63: Welded steel housing, DN 25 to 600 (1 to 24 in.)

  • Page 87: Jumo Flowtrans Mag H10 - Temperature Data

    12 Specification 12.4 JUMO flowTRANS MAG H10 – Temperature 12.4.2 Maximum permissible cleaning temperature data The temperature range offered by the device is dependent on a CIP media Liner Cleaning temperature number of different factors. Steam PTFE, PFA 150 °C (302 °F)

  • Page 88: Jumo Flowtrans Mag H10 - Material Load For Process Connections

    12 Specification 12.5 JUMO flowTRANS MAG H10 – Material load 12.5.2 Overview of material load for process connections The limits of the permissible measuring medium temperature Process max. medium medium ) and permissible pressure (P ) are calculated on medium...
  • Page 89 12 Specification Flange design Wafer type design Figure 64: DIN flange, stainless steel up to DN 100 (4 in.) Figure 66: Wafer type design JIS 10K-B2210 wafer type design Material medium medium DN 32 to 100 1.4404 −25 to 130 °C 10 bar (1 ¼...

  • Page 90: Appendix

    13.1.1 Tightening torques for variant 1 sensors Note The listed torques apply only to greased threads and to piping that is not subject to tensile stress. JUMO flowTRANS MAG S10 in flange design and JUMO flowTRANS MAG H10 in flange design / wafer-type design Nominal diameter...
  • Page 91 13 Appendix Nominal diameter [mm Pressure rating Maximum tightening torque [Nm] (in.)] Hard rubber / Soft rubber PTFE, PFA, ETFE Ceramic carbide DN 40 (1 ½ in.) PN40 30.44 23.71 56.06 56.06 56.06 56.06 PN63/100 62.04 51.45 97.08 97.08 97.08 97.08 CL150 5.82...
  • Page 92 13 Appendix Nominal diameter [mm Pressure rating Maximum tightening torque [Nm] (in.)] Hard rubber / Soft rubber PTFE, PFA, ETFE Ceramic carbide DN 150 (6 in.) PN16 46.99 23.7 81.23 85.08 81.23 85.08 PN40 143.5 100.5 162.5 133.5 162.5 133.5 PN63 288.7 269.3...
  • Page 93 13 Appendix Nominal diameter [mm Pressure rating Maximum tightening torque [Nm] (in.)] Hard rubber / Soft rubber PTFE, PFA, ETFE Ceramic carbide DN 450 (18 in.) CL150 218.6 120.5 267.3 192.3 267.3 192.3 CL300 553.8 327.2 660.9 660.9 DN 500 (20 in.) PN10 141.6 101.4...
  • Page 94 13 Appendix Nominal diameter Pressure rating Maximum tightening torque [Nm] [mm (in.)] Hard rubber / Soft rubber PTFE, PFA, ETFE Ceramic carbide DN 1000 (40 in.) PN10 541.3 419.2 On request On request 541.3 419.2 PN16 955.5 756.1 On request On request 955.5 756.1...

  • Page 95: Tightening Torques For Variant 2 Sensors

    13 Appendix 13.1.2 Tightening torques for variant 2 sensors Note The listed torques apply only to greased threads and to piping that is not subject to tensile stress. Nominal diameter Pressure rating Hard rubber / Soft rubber PTFE [mm (in.)] ** [Nm] *** [Nm] ** [Nm]...
  • Page 96 13 Appendix Nominal diameter [mm Pressure rating Hard rubber / Soft rubber PTFE (in.)] ** [Nm] *** [Nm] ** [Nm] *** [Nm] DN 200 (8 in.) PN10 — — 123.6 123.6 PN16 — — 116.9 PN25 — — 70.42 PN40 —...

  • Page 97: Tightening Torques For Jumo Flowtrans Mag H10 With Variable Process Connections

    13 Appendix 13.1.3 Tightening torques for JUMO flowTRANS MAG H10 with variable process connections Nominal diameter Maximum tightening torque [mm] [in.] [Nm] DN 3 to 10 ⅜ in. DN 15 ½ in. DN 20 ¾ in. DN 25 DN 32 1 ¼...

  • Page 98: Declarations Of Conformity

    13 Appendix 13.3 Declarations of conformity 13.3.1 JUMO flowTRANS MAG S10...
  • Page 99 13 Appendix...
  • Page 100 13 Appendix...
  • Page 101 13 Appendix...
  • Page 102 13 Appendix...
  • Page 103 13 Appendix...

  • Page 104: Jumo Flowtrans Mag H10

    13 Appendix 13.3.2 JUMO flowTRANS MAG H10...
  • Page 105 13 Appendix...
  • Page 106 13 Appendix...
  • Page 107 13 Appendix...
  • Page 108 13 Appendix...
  • Page 109 13 Appendix...

  • Page 110: Jumo Flowtrans Mag 10

    13 Appendix 13.3.3 JUMO flowTRANS MAG 10...
  • Page 111 13 Appendix...
  • Page 112 13 Appendix...
  • Page 113 13 Appendix...

  • Page 114: China Rohs

    13 Appendix 13.4 China RoHS Note All documentation, declarations of conformity, and certificates are available in the download section at www.jumo.de.
  • Page 116 JUMO GmbH & Co. KG JUMO Instrument Co. Ltd. JUMO Process Control, Inc. Street address: JUMO House 6733 Myers Road Moritz-Juchheim-Straße 1 Temple Bank, Riverway East Syracuse, NY 13057, USA 36039 Fulda, Germany Harlow, Essex, CM20 2DY, UK Delivery address:...

This manual is also suitable for:

Flowtrans mag h10406060406061

Table of Contents