Magnetrol Jupiter JM4 Installation And Operating Manual
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Magnetrol Jupiter JM4 Installation And Operating Manual

Magnetostrictive level transmitter; hart manual
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Model JM4
HART
Installation and Operating Manual
®
Software v1.x
Magnetostrictive Level Transmitter

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Summary of Contents for Magnetrol Jupiter JM4

  • Page 1 Model JM4 HART Installation and Operating Manual ® Software v1.x Magnetostrictive Level Transmitter...
  • Page 2 Performance specifications are effective with date of issue Conventions Used in this Manual and are subject to change without notice. Magnetrol reserves Certain conventions are used in this manual to convey the right to make changes to the product described in this specific types of information.

  • Page 3: Table Of Contents

    Jupiter® JM4 Magnetostrictive Transmitter Table of Contents 1.0 Installation 1.6 Configuration using HART®....23 1.1 Installation Prep ......4 1.6.1 Connections .

  • Page 4: Installation

    Installation Prep 1.1.1 Factory Mounting & Pre-configuration All Jupiter Model JM4 transmitters sold with Magnetrol / Orion Instruments® magnetic level indicators (MLIs) are shipped pre-mounted and pre-configured. The span for 4-20 mA and HART or Foundation fieldbus™ is set to the span of the process connections on the MLI.

  • Page 5: Site Preparation (Power Supply)

    • Make sure that all electrical connections are completely made and none are partial or floating. Ground all equipment to a reli- able earth ground. 1.1.4 Site Preparation (Power Supply) Each Jupiter magnetostrictive transmitter is built to match the specifications required within the defined model number. Wiring terminations will need to be made and the configuration will need to be accomplished.

  • Page 6: Remote Mount Transmitter Head

    1.1.7 Remote Mount Transmitter Head For applications with possible clearance or transmitter accessibil- ity issues, the JM4 is available with a remote mount transmitter head. This transmitter head comes with a 0,91 or 3,66 m (3 or 12 ft) heavily shielded cable and can be mounted onto nearby objects.

  • Page 7: Securing The Transmitter To The Mli

    (two or more, depending on probe length) for securing to the MLI chamber. If the JM4 was ordered with an Magnetrol/Orion MLI, then it will come pre-mounted, but if the transmitter was ordered separately, then it can be secured using the following steps.

  • Page 8: Installation On Atlas Vs. Aurora

    When mounting the Jupiter model JM4 transmitter onto the outside of an MLI, float proximity must be taken into account. For a Magnetrol/Orion Atlas MLI, the distance between the float and the chamber wall is the same all around the cham- ber, so the transmitter could be placed anywhere.

  • Page 9: Mounting For Direct Insertion

    Mounting for Direct Insertion 1.3.1 Available Configurations The direct insertion version of the JM4 transmitter has several available configurations as well. As with external-mount, direc- tion insertion JM4 is available with one or two floats. JM4 can be installed in external chambers or into the main vessel. It is also available with a centering disc and/or stilling well to keep the probe in position.

  • Page 10: Centering Disc

    1.3.3 Centering Disc All Jupiter model JM4 transmitters that come with a stilling well are also provided with a centering disc to prevent the probe from making contact with the stilling well. Wiring Caution: HART version of the JUPITER Model JM4 transmitter operate at voltages of 11-28.6 VDC, while F OUNDATION Black (-)

  • Page 11: Fm Intrinsically Safe

    6. Replace and tighten the cover to the transmitter wiring compart- ment before applying power. 1.4.2 FM Intrinsically Safe An Intrinsically Safe (IS) installation potentially has flammable media present. An approved IS barrier must be installed in the non-hazardous (safe) area to limit the available energy out to the hazardous area.

  • Page 12: Wiring General Purpose / Atex / Iecex

    4. Connect an Earth ground wire to the nearest green ground screw per local electrical code (not shown in illustration). 5. Connect the positive supply wire to the (+) terminal and the negative supply wire to the (-) terminal. 6. Replace and tighten the cover to the wiring compartment of the transmitter before applying power.

  • Page 13: Navigating The Menu

    The Model JM4 user interface is hierarchical in nature, best de- scribed as a tree structure. Each level in the tree contains one or more items. Items are either menu labels or parameter names. • Menu labels are presented in all capital letters Jupiter®...

  • Page 14: Entering Numeric Data Using Increment/Decrement

    1.5.2.4 Entering Numeric Data Using Increment/Decrement Use this method to input the following data into parameters such as Damping and Failure Alarm. Push Button Keystroke Action Increments the displayed value. If held down the digits scroll until the push button is released. Depending on which screen is being revised, the increment amount may increase by a factor of 10 after the value has been incremented 10 times.

  • Page 15: Model Jm4 Menu: Step-By-Step Procedure

    The default User Password installed in the transmitter at the factory is 0. With a password of 0, the transmitter is no longer password protected, and any value in the basic user menus can be adjusted without entering a confirming password. NOTE: If a User Password is not known or has been misplaced, the menu item New Password in the DEVICE SETUP/AD- VANCED CONFIG menu displays an encrypted value repre-...
  • Page 16 The Home Screen presentation can be customized by viewing or hiding some of these items. See DISPLAY CONFIG under the DEVICE SETUP menu in Section 1.6.4 HART Menu - Model JM4. Figure 1-9 is an example of a Home Screen for a Model JM4 configured for a Level Only application.

  • Page 17: Auto-Configuration/Reset New Probe Diagnostic

    1.5.5 Auto-Configuration/Reset New Probe Diagnostic Each JM4 probe has its own set of configuration parameters stored inside. With these parameters, it is possible to auto- configure the transmitter using the following steps. 1. Connect the new probe to the transmitter. 2. The home screen will display a “Device Failure: New Probe” message in alternating video on the screen.

  • Page 18: Model Jm4 Configuration Menu - Device Setup

    1.5.6 Model JM4 Configuration Menu – Device Setup Home Screen Main Menu Identity Device Setup Product Name (read only) Orion S/N (read only) DIGITAL BOARD (read only) ANALOG BOARD (read only) [Physical Dev Tag] (read only) [Device Address] [Date Code] (read only) Level Units Measurement Type: Volume Units* Basic Config Volume Config...
  • Page 19 1.5.6 Model JM4 Configuration Menu – Device Setup Home Screen Main Menu Identity Vessel Type: Vessel Dimensions: Device Setup Basic Config Rectangular Radius Volume Config* Horizontal/Flat Ellipse Depth Horizontal/Ellipse Conical Height Horizontal/Spherical Width Spherical Length Vertical/Flat Vertical/Ellipse Custom Table Setup: Vertical/Spherical Custom Table Type: Vertical/Conical Linear Custom Table Spline I/O Config...
  • Page 20 1.5.6 Model JM4 Configuration Menu – Device Setup Home Screen Main Menu Language: Identity Device Setup English Basic Config Français Volume Config Deutsch I/O Config Español Local Display Config Р Português Status Symbol: Hide View Long Tag: Hide View PV Bar Graph: Advanced Config Hide View Factory Config Measured Values Upr Level**:...
  • Page 21 1.5.6 Model JM4 Configuration Menu – Device Setup Home Screen Main Menu Identity Device Setup Blocking Distance: Basic Config 0 m to 15 m Volume Config (0 to 50 feet) I/O Config Lvl Thresh Mode: Local Display Config Minimum Separation: Auto Largest Advanced Config 0 cm to 71 cm Fixed Value (0 to 28 inches) Sloped...
  • Page 22 1.5.6 Model JM4 Configuration Menu – Device Setup Home Screen Main Menu Identity Device Setup Elec Temp Offset: Basic Config ºC -60 to +60 Volume Config I/O Config NAPValue: Local Display Config 0 to 59999 Advanced Config Factory Config Factory Reset Conv Factor Factory Calib 0 to 32767 Scale Offset Probe Properties -1 m to 1 m (-3.28 to 3.28 ft)

  • Page 23: Configuration Using Hart

    1.6 Configuration using HART A HART (Highway Addressable Remote Transducer) remote unit, such as a HART communicator, can be used to provide a communication link to the Jupiter Model JM4 transmitter. When connected to the control loop, the same system measure- ment readings shown on the transmitter are also shown on the communicator.
  • Page 24 1.6.4 HART Menu – Model JM4 NOTE: Numbered menu boxes below correspond to numbered tables on Section 1.6.5. 1 PV 2 PV Analog Output 3 PV % Output 1 Identity 4 Device Setup 1 Enter Password 2 Tag 5 Setup Wizard 3 Long Tag 6 Diagnostics 4 Descriptor 7 Measured Values...
  • Page 25 1.6.4 HART Menu – Model JM4 NOTE: Numbered menu boxes below correspond to numbered tables on Section 1.6.5. 1 PV 2 PV Analog Output 3 PV % Output 1 Identity 4 Device Setup 2 Basic Config 5 Setup Wizard 3 Volume Config 6 Diagnostics 4 I/O Config 1 Enter Password 7 Measured Values...
  • Page 26 1.6.4 HART Menu – Model JM4 NOTE: Numbered menu boxes below correspond to numbered tables on Section 1.6.5. 1 PV 2 PV Analog Output 3 PV % Output 4 Device Setup 5 Setup Wizard 6 Diagnostics 1 Present Status 7 Measured Values 1 Level Ticks 2 Echo Strength 3 Ifc Ticks 4 Ifc Echo Strength...

  • Page 27: Hart Menu Items

    1.6.5 HART Menu Items Display Description Digital representation that tracks the Analog Output Number 1, under normal operating modes. Level of material on the probe. (When in interface mode, this value corresponds to the level of the upper surface.) Digital representation that tracks the Analog Output Number 1, under normal operating modes. PV Analog Output Analog Output Value: Value that tracks the Digital Value representation, under normal operating modes Digital representation that tracks the Analog Output Number 1, under normal operating modes.
  • Page 28 1.6.5 HART Menu Items (cont.) Display Description Enter Password Text that is associated with the Field Device installation. This text can be used by the user in any way. A recommended use is as a unique label to a plant that correlates to a Field Device label, a plant drawing, or on a Control System. This variable is also used as a type of data link layer address handle. Functions exactly like Tag except the size is larger (maximum of 32 ISO Latin 1 characters). Long Tag Text that is associated with the Field Device. This text can be used by the user in any way. Descriptor There is no specific recommended use. Number that is used for identification purposes, and is associated with the overall Field Device. Final asmbly num Gregorian calendar date that is stored in the Field Device. This date can be used by the user in Date any way. There is no specific recommended use. Text that is associated with the Field Device. This text can be used by the user in any way. Message There is no specific recommended use. Date/Time/Initials When and by whom calibration was performed. A read-only screen that displays detailed manufacturer’s information about the transmitter, such Factory Identity as Serial Number and hardware/software revisions. Display Description References a specific manufacturer, which is usually a company name, that is responsible for Manufacturer the manufacture of this Field Device.
  • Page 29 1.6.5 HART Menu Items (cont.) Display Description Enter Password The desired measurement mode of operation. Measurement Type (Selection of Measurement Type may be constrained by the Probe Model.) A menu that allows for setting the measurement units used by the transmitter. System Units Desired level reading when liquid surface is at the tip of the probe. Level Offset (Range is -15 m [-50 feet] to + 15 m [+ 50 feet]) Basic Config Diagram Probe Properties Displays probe configuration parameters. Display Description Type of probe connected to the transmitter, as shown by the probe model number on the name-...
  • Page 30 1.6.5 HART Menu Items (cont.) Display Description Enter Password An index location that indicates which Field Device dynamic variable has been mapped into PV is the Primary Variable dynamic variable. PV 4 mA Set Point Enter 4 mA point in level units PV 20 mA Set Point Enter 20 mA point in level units Digital representation that tracks the Analog Output Number 1, under normal operating modes.
  • Page 31 1.6.5 HART Menu Items (cont.) Display Description Enter Password Language Enables choice of language to be displayed on the LCD. Status Symbol Enables NE 107 Status symbol to be displayed on Home Screen. Long Tag Enables Long Tag to be displayed on the Home Screen. Enables a bar graph (displaying the Primary Variable in percent) to be displayed on the Home PV Bar Graph Screen. Display Setup Diagram A read-only screen that presents the various output values that can be displayed. (Available Measured Values outputs will depend on Measurement Type). Upr Level Ifc Level Upr Thickness Distance Volume A read-only screen that presents the various output values that can be displayed. Fill Rate (Available outputs will depend on Measurement Type). Upr Echo Strength Ifc Echo Strength % Output Analog Output...
  • Page 32 1.6.5 HART Menu Items (cont.) Display Description Enter Password Distance below the reference point within which level is ignored. Blocking Distance (Operation is undefined when the liquid level is within the blocking distance.) An offset value to be used to force the transmitter to output the exact Level or Distance. This Level Trim should only be used after all parameters have been entered correctly, and it has been con- Ifc Level Trim firmed that the transmitter is tracking the correct level.
  • Page 33 1.6.5 HART Menu Items (cont.) Display Description Minimum distance that can be achieved between the magnets on adjacent floats when the Minimum Separation floats are touching each other. Present Sensitivity (gain) of the instrument. Sensitivity Default setting depends on the value in the probe memory and is suitable for most installations. Refer to I & O manual before adjusting. Clears the diagnostic that indicates a new probe has been attached. Updates the memory in Reset New Probe Diagnostic the transmitter to match the probe. Lvl Thresh Mode Selects the signal threshold control for measuring the upper level pulse. Default setting depends on the value in the probe memory and is suitable for most installations. Lvl Thresh Value Refer to I & O manual before adjusting.
  • Page 34 1.6.5 HART Menu Items (cont.) Display Description Present Status Shows the Present Status (health) of the transmitter. Event History The history of the 10 most recent diagnostic events. Advanced Menu containing Advanced Diagnostic parameters. Diagnostics Echo Curves Allows configuration of the Echo Curve option. Allows configuration of the Echo History Option. Saving an Echo Curve under a fault condition Echo History is important for accurate troubleshooting. Trend Data Graph displaying real-time trend data. Display Description Event Log Allows for viewing of the 10 most recent diagnostic indicators. Displays a history of most recent diagnostic events. For each event, the time when the event Refresh History occurred and the duration of the event are shown. The table of history events displays the...
  • Page 35 1.6.5 HART Menu Items (cont.) Display Description Present Temperature Present temperature measured in the electronics compartment. Max Temperature Maximum temperature measured in the electronics compartment. Min Temperature Minimum temperature measured in the electronics compartment. Reset the maximum and minimum temperatures measured in the electronics compartment to Reset Max Min Temp the present temperature.
  • Page 36 1.6.5 HART Menu Items (cont.) Display Description Echo Graph Curve 1 Select the primary curve to display. Curve 2 Select the secondary curve to display. Refresh Graph Click to refresh Echo Curve. Zoom Allows user to zoom in and out of a specific portion of the Echo Curve. Echo History Log Listing of echo curves saved in the device. Method to re-read the echo history summary. Refresh History Menu for setting up the automatic echo history capture feature of the device. History Setup Delete History Allows the History information to be cleared and reset.
  • Page 37 1.6.5 HART Menu Items (cont.) Display Description Listing of Device Variables that can be selected to be saved in the internal data log feature of Trending Variables the device. A menu that allows the user to set the time span and sample interval for the Data Log. Time Setup Sets the Real-Time Clock in the device.

  • Page 38: Reference Information

    2.0 Reference Information This section presents an overview of the operation of the Jupiter magnetostrictive transmitter, information on troubleshooting common problems, listing of agency approvals, lists of replace- ment and recommended spare parts, and detailed functional, performance and physical specifications for the instrument. Description The Jupiter is a two-wire, 24 VDC level transmitter based on the concept of magnetostrictive level measurement technology.

  • Page 39: Diagnostics (Namur Ne 107)

    PACTware PC Program The JUPITER Model JM4 offers the ability to perform more advanced diagnostics such as Trending and Echo Curve analysis using a PACTware DTM. This is a powerful troubleshooting tool that can aid in the resolution of any diagnostic indicators that may appear.
  • Page 40 As mentioned above, the indicators can be assignable (via the a DTM or host system) by the user to any (or none) of the NAMUR recommended Status Signal categories: Failure, Func- Analog Output Error tion Check, Out of Specification, and Maintenance Required. Failure The Foundation fieldbus transmitter version of the Model JM4 was implemented according to the Field Diagnostics Profile,...

  • Page 41: Troubleshooting Table

    2.3.2 Troubleshooting Table Problem Solution Blank display Ensure local Keypad / LCD is properly installed. Remove power and reapply power to the unit. Check to see if LED on module is illuminated. Check voltage at terminal board. If jumper is in place under display, remove jumper. Transmitter does not track level (External Mount) Check echo curve for noise preventing tracking of level. Remove transmitter and probe from piping column and test with re-alignment magnet.

  • Page 42: Status Messages

    2.3.3 Status Messages Display Message Brief Description Solution No Probe No probe connected to Check probe connection to transmitter, Consult Factory transmitter New Probe Probe memory contents On Display, go to ‘Reset New Probe’ and enter password. disagree with EEPROM image Analog Board Error No response from co- Consult Factory. processor, or clock error Probe Memory Error Memory device in probe is Consult Factory. unresponsive No Float Detected Echo curve does not rise above Run echo curve.

  • Page 43: Diagnostic Help

    Diagnostic Help Selecting DIAGNOSTICS from the MAIN MENU presents a list of five ITEMS from the top level of the DIAGNOSTICS tree. When Present Status is highlighted, the highest MAGNETROL priority active diagnostic indicator (numerically lowest in Table DIAGNOSTICS Present Status 3.3.3) is displayed on the bottom LCD line, which is “OK”...

  • Page 44: Configuration Information

    2.4 Configuration Information 2.4.1 Volumetric Capability Selecting Measurement Type = Volume and Level allows the Model JM4 transmitter to measure volume as the Primary Mea- sured Value. 2.4.1.1 Configuration Using Built-In Vessel Types The following table provides an explanation of each of the Sys- tem Configuration parameters required for volume applications that use one of the nine Vessel Types.

  • Page 45: Vessel Types

    Vessel Types Horizontal/Spherical Spherical Horizontal/Elliptical Vertical/Elliptical Vertical/Spherical Rectangular Vertical/Flat Vertical/Conical Horizontal/Flat Jupiter Model JM4 Magnetostrictive Transmitters ®...

  • Page 46: Custom Table

    2.4.1.2 Configuration Using Custom Table If none of the nine Vessel Types shown can be used, a Custom Table can be created. A maximum of 30 points can be used to establish the level to volume relationship. The following table provides an explanation of each of the System Configuration parameters for volume applications where a Custom Table is needed.

  • Page 47: Reset Function

    For that reason, the Reset function will return the device back to the state at which it left the factory. It is recommended that Magnetrol / Orion Instruments Techni- cal Support be contacted as the Advanced User password will be required for this reset.

  • Page 48: Agency Approvals

    2.5 Agency Approvals These units are in compliance with the EMC directive 2014/30/EU, the PED directive 2014/68/EU and the ATEX directive 2014/34/EU. Explosion Proof Non- Incendive US/Canada: US/Canada: Class I, Div 1, Group B, C and D, T4 U.S. - Class I, II, III, Division 2, Group A, B, C, D, E, F, G, T4, Ta = -40ºC to +70ºC Ta = -40ºC to 70ºC Type 4X, IP67...
  • Page 49 SPECIAL CONDITIONS OF USE (ATEX / IECEx): 1. The enclosure contains aluminum and is considered to present a potential risk of ignition by impact or fric- tion. Care must be taken during installation and use to prevent impact or friction. 2. To maintain the T4 temperature code care shall be taken to ensure the enclosure temperature does not exceed +70 °C (+158 °F).

  • Page 50: Agency Specifications - Fm/Csa Intrinsically Safe Installation

    2.5.1 Agency Specifications – FM/CSA Intrinsically Safe Installation HAZARDOUS LOCATION NON-HAZARDOUS LOCATION JUPITER JM4 LEVEL TRANSMITTER INTRINSICALLY SAFE FOR: LIMITING VALUES CLS I, DIV. I GROUPS A, B, C & D Voc <= 28.6V Ca >= 4.4 nF CLS II, DIV. I GROUPS E, F & G (G ONLY FOR CSA) Isc <= 140 mA...

  • Page 51: Agency Specifications - Fm/Csa Intrinsically Safe Foundation Fieldbus™ Installation

    ),6&2 &RQFHSW 8L 9PD[ 9 ,L ,PD[  P$ The Jupiter Level Transmitter; 3L  : Jupiter JM4-52XX-1XX is suitable for use in a FISCO system &L S) /L —+ /HDNDJH FXUUHQW  —$ In accordance with ANSI/ISA 60079-27:2006. FISCO Concept:...

  • Page 52: Specifications

    2.6 Specifications 2.6.1 Functional/Physical System Design Measurement Principle Magnetostriction-based mechanical response signal Input Measured Variable Level, response signal time of flight Span 15 cm to 999 cm (6" to 400") Output Type 4 to 20 mA with HART: 3.8 mA to 20.5 mA usable (per NAMUR NE43) Foundation fieldbus : H1 (ITK Ver.
  • Page 53 2.6.1 Functional/Physical Foundation fieldbus ITK Version 6.1.1 H1 Device Class Link Master (LAS)—selectable ON/OFF H1 Profile Class 31PS, 32L Function Blocks (6) Al, (2) Transducer, (1) Resource, (1) Arithmetic, (1) Input Selector, (1) Signal Characterizer, (2) PID, (1) Integrator Quiescent Current 15 mA Execution Time 15 msec (30 msec PID, Signal Characterizer Block)

  • Page 54: Power Supply Requirements

    2.6.2 Power Supply Requirements 2.6.2.1 Safe Operating Area Safe Operating Area 1136 Ω Loop 591 Ω Typical HART 4-20 mA 360 Ω Operating Area Digital Solar Mode 16,25 V 18,9 V 24 V 36 V Vsupply (Loop Supply Voltage) 2.6.2.2 Terminal Voltage Operational Mode Current Consumption Vmin...

  • Page 55: Dimensions

    2.7 Dimensions in mm (inches) Transmitter head/electronics (3.39) (4.18) (3.97) (3.78) (8.35) (10.05) (5.10) 45° 45° view Units with external mount probe Dashed line represents cryogenic insulation. Probe model Dimensions A = 417 (16.4) 2CK, 2CR B = 518 (20.4) 2CF, 2CH, 2CL, 2CM C = 323 (12.7) D = 203 (8.0) 2CS, 2CT...
  • Page 56 Units with direct insertion probe Dimensions Probe model Threaded Flanged A = 432 (17.0) B = 483 (19.0) 2C2, 2C8 C = 533 (21.0) D = 584 (23.0) Jupiter Model JM4 Magnetostrictive Transmitters ®...

  • Page 57: Model Number

    2. Jupiter JM4 probe (direct insertion or external mount). 3. Option: ATLAS magnetic level indicator for use with external mount model JM4. Consult bulletin BE 46-138. 4. Free of charge: Jupiter JM4 DTM (PACTware™) can be downloaded from www.magnetrol.com. 5. Option: MACTek Viator USB HART interface: order code: 070-3004-002.
  • Page 58 2. Code for Jupiter JM4 external mount probe Model: Digit: X = product with a specific customer requirement BASIC MODEL NUMBER Standard top mount Standard top mount offset -40 °C (-40 °F) ≤ T ≤ 260 °C (500 °F) Standard...
  • Page 59 2. Code for Jupiter JM4 external mount probe Model: Digit: X = product with a specific customer requirement MATERIALS OF CONSTRUCTION Sensor enclosure: refer to shaded areas in sketches 316 stainless steel probe with powder-coated aluminium sensor enclosure  316 stainless steel probe with 316 stainless steel sensor enclosure ...
  • Page 60 2. Code for Jupiter JM4 direct insertion probe Model: Digit: X = product with a specific customer requirement BASIC MODEL NUMBER Standard probe -40 °C (-40 °F) ≤ T ≤ 260 °C (500 °F) High temperature probe 260 °C (500 °F) < T ≤ 425 °C (800 °F) Cryogenic probe -196 °C (-320 °F) ≤...
  • Page 61 2. Code for Jupiter JM4 direct insertion probe Model: Digit: X = product with a specific customer requirement Sizing chart for chambers & stilling wells Reference the chart below to identify an appropriate chamber or stilling well size for your application. Adequate clearance is recommended to ensure proper operation.
  • Page 62 DIRECT INSERTION FLOATS The floats listed below are suitable for most applications. Select the appropriate 2-digit float code and place it in the direct insertion probe model number (digits 11 & 12). Consult factory for custom floats or to consult about your specific application. Direct insertion total level float (uppermost liquid layer) Minimum liquid Float material...

  • Page 63: Parts

    Parts 2.9.1 Replacement Parts EXPEDITE SHIP PLAN (ESP) Several parts are available for quick shipment, within max. 1 week after factory receipt of purchase order, through the Expedite Ship Plan (ESP). Parts covered by ESP service are conveniently grey coded in the selection tables. CURRENT LOOP Electronics: Partn°:...
  • Page 64 Probe: Partn°: Digit in partn°: X = product with a specific customer requirement (8) Snap ring (9) Centering disc Digit 8 Digit 6 Replacement part Digit 8 Replacement part 010-5140-001 consult factory 010-5140-015 not applicable C, N 010-5140-016 L, P consult factory (10) Float Digit 8...
  • Page 65 Notes...
  • Page 66 Notes...
  • Page 67 Notes...

  • Page 68: Service Policy

    SERVICE POLICY Owners of Magnetrol products may request the return of a control; or, any part of a control for complete rebuilding or replacement. They will be rebuilt or replaced promptly. Magnetrol International will repair or replace the control, at no cost to the purchaser, (or owner) other than transportation cost if: a.

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