KROHNE OPTIFLEX 8200 C Handbook
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KROHNE OPTIFLEX 8200 C Handbook

Guided radar (tdr) level transmitter for liquids at high temperature and pressure
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OPTIFLEX 8200 C/F/S
OPTIFLEX 8200 C/F/S
OPTIFLEX 8200 C/F/S
OPTIFLEX 8200 C/F/S
Guided radar (TDR) level transmitter for liquids at high
temperature and pressure
© KROHNE 06/2018 - 4006448901 - MA OPTIFLEX 8200 R01 en
Handbook
Handbook
Handbook
Handbook

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  • Page 1 OPTIFLEX 8200 C/F/S OPTIFLEX 8200 C/F/S OPTIFLEX 8200 C/F/S OPTIFLEX 8200 C/F/S Handbook Handbook Handbook Handbook Guided radar (TDR) level transmitter for liquids at high temperature and pressure © KROHNE 06/2018 - 4006448901 - MA OPTIFLEX 8200 R01 en...
  • Page 2 All rights reserved. It is prohibited to reproduce this documentation, or any part thereof, without the prior written authorisation of KROHNE Messtechnik GmbH. Subject to change without notice. Copyright 2018 by KROHNE Messtechnik GmbH - Ludwig-Krohne-Str. 5 - 47058 Duisburg (Germany) www.krohne.com 06/2018 - 4006448901 - MA OPTIFLEX 8200 R01 en...

  • Page 3: Table Of Contents

    CONTENTS OPTIFLEX 8200 C/F/S 1 Safety instructions 1.1 Software history ....................... 7 1.2 Intended use ........................8 1.3 Certification ........................8 1.4 Electromagnetic compatibility ..................9 1.5 Safety instructions from the manufacturer ..............10 1.5.1 Copyright and data protection ....................10 1.5.2 Disclaimer ..........................
  • Page 4 CONTENTS OPTIFLEX 8200 C/F/S 4 Electrical connections 4.1 Safety instructions......................47 4.2 General notes ......................... 47 4.3 Electrical installation: 2-wire, loop-powered ..............48 4.3.1 Compact version ........................48 4.3.2 Remote version ........................54 4.4 Remote device data ......................56 4.4.1 Requirements for signal cables supplied by the customer ..........56 4.4.2 How to prepare a signal cable supplied by the customer............
  • Page 5 CONTENTS OPTIFLEX 8200 C/F/S 6.4.9 Thresholds and interference signals.................. 109 6.4.10 How to decrease the length of probes................113 6.5 Status and error messages..................115 6.5.1 Device status (markers)...................... 115 6.5.2 Error handling........................117 7 Service 7.1 Periodic maintenance....................123 7.2 Keep the device clean....................
  • Page 6 CONTENTS OPTIFLEX 8200 C/F/S 9.7 Field Device Tool / Device Type Manager (FDT / DTM) ..........181 9.7.1 Installation .......................... 181 9.7.2 Operation..........................181 9.8 Process Device Manager (PDM)................... 182 9.8.1 Installation .......................... 182 9.8.2 Operation..........................182 ® 9.9 HART menu tree for Basic-DD ..................

  • Page 7: Safety Instructions

    SAFETY INSTRUCTIONS OPTIFLEX 8200 C/F/S 1.1 Software history "Firmware revision" agrees with NAMUR NE 53. It is a series of numbers used to record the revision status of embedded software (firmware) in electronic equipment assemblies. It gives data on the type of changes made and the effect that changes have on compatibility.

  • Page 8: Intended Use

    SAFETY INSTRUCTIONS OPTIFLEX 8200 C/F/S 1.2 Intended use CAUTION! Responsibility for the use of the measuring devices with regard to suitability, intended use and corrosion resistance of the used materials against the measured fluid lies solely with the operator. INFORMATION! The manufacturer is not liable for any damage resulting from improper use or use for other than the intended purpose.

  • Page 9: Electromagnetic Compatibility

    SAFETY INSTRUCTIONS OPTIFLEX 8200 C/F/S 1.4 Electromagnetic compatibility The device design agrees with the Electromagnetic Compatibility (EMC) Directive and the related European Standard when installed in metallic tanks. You can install the device on open-air tanks and tanks that are not made of metal. Refer also to the note that follows.

  • Page 10: Safety Instructions From The Manufacturer

    SAFETY INSTRUCTIONS OPTIFLEX 8200 C/F/S 1.5 Safety instructions from the manufacturer 1.5.1 Copyright and data protection The contents of this document have been created with great care. Nevertheless, we provide no guarantee that the contents are correct, complete or up-to-date.

  • Page 11: Product Liability And Warranty

    SAFETY INSTRUCTIONS OPTIFLEX 8200 C/F/S 1.5.3 Product liability and warranty The operator shall bear responsibility for the suitability of the device for the specific purpose. The manufacturer accepts no liability for the consequences of misuse by the operator. Improper installation or operation of the devices (systems) will cause the warranty to be void. The respective "Standard Terms and Conditions"...

  • Page 12: Warnings And Symbols Used

    SAFETY INSTRUCTIONS OPTIFLEX 8200 C/F/S 1.5.5 Warnings and symbols used Safety warnings are indicated by the following symbols. DANGER! This warning refers to the immediate danger when working with electricity. DANGER! This warning refers to the immediate danger of burns caused by heat or hot surfaces.

  • Page 13: Device Description

    Do a check of the packing list to make sure that you have all the elements given in the order. OPTIFLEX 8200 C – Compact version Figure 2-1: Scope of delivery (OPTIFLEX 8200 C – Compact version) 1 Signal converter and probe (if supplied with the applicable probe option) How to assemble the single rod probe 2 Probe segments.
  • Page 14 DEVICE DESCRIPTION OPTIFLEX 8200 C/F/S OPTIFLEX 8200 S – Sensor extension with compact version Figure 2-2: Scope of delivery (OPTIFLEX 8200 S – Sensor extension with compact version) 1 Signal converter 2 Sensor extension: Coaxial cable 3 Sensor extension: Wall bracket 4 Process connection and probe (if supplied with the applicable probe option) 5 Probe segments.
  • Page 15 DEVICE DESCRIPTION OPTIFLEX 8200 C/F/S OPTIFLEX 8200 F – Remote version Figure 2-3: Scope of delivery (OPTIFLEX 8200 F – Remote version) 1 Signal converter How to assemble the single rod probe 2 Probe segments. For the assembly procedure of the single rod probe refer to (single-piece probe) on page 31.

  • Page 16: Device Description

    DEVICE DESCRIPTION OPTIFLEX 8200 C/F/S 2.2 Device description This TDR level transmitter measures distance, level, interface, mass and volume of liquids, pastes and slurries. TDR level transmitters use a probe to guide a signal to the surface of the measured product. The device has a large choice of probes.
  • Page 17 DEVICE DESCRIPTION OPTIFLEX 8200 C/F/S Sensor extension Figure 2-6: Sensor extension option 1 Version S: A coaxial cable (maximum length 15 m / 49.21 ft) is connected from the signal converter to the process con- nection A sensor extension option is available for the sensor extension with compact version...

  • Page 18: Visual Check

    DEVICE DESCRIPTION OPTIFLEX 8200 C/F/S 2.3 Visual Check INFORMATION! Inspect the packaging carefully for damages or signs of rough handling. Report damage to the carrier and to the local office of the manufacturer. Figure 2-7: Visual check 1 Device nameplate (for more data, refer to...

  • Page 19: Nameplates

    DEVICE DESCRIPTION OPTIFLEX 8200 C/F/S 2.4 Nameplates INFORMATION! Look at the device nameplate to ensure that the device is delivered according to your order. Check for the correct supply voltage printed on the nameplate. 2.4.1 Non-Ex nameplate Figure 2-9: Compact version (C), sensor extension with compact version (S) and remote version (F): Nameplate...
  • Page 20 DEVICE DESCRIPTION OPTIFLEX 8200 C/F/S XXXXXXXXXXX XXXXXXXXXXX XXXXXXXXXXX XXXXXXXXXXX XXXXXXXXXXX XXXXXXXXXXX Figure 2-10: Remote version (F): Non-Ex nameplate attached to the probe assembly 1 Company web address 2 Country of manufacture 3 Degree of ingress protection (according to EN 60529 / IEC 60529)

  • Page 21: Installation

    INSTALLATION OPTIFLEX 8200 C/F/S 3.1 General notes on installation INFORMATION! Inspect the packaging carefully for damages or signs of rough handling. Report damage to the carrier and to the local office of the manufacturer. INFORMATION! Do a check of the packing list to make sure that you have all the elements given in the order.

  • Page 22: Transport

    INSTALLATION OPTIFLEX 8200 C/F/S 3.3 Transport Figure 3-2: How to hold the device 1 Wind cable probes greater than 500 mm / 20¨ in diameter. 2 Do not hold the probe when you lift the device. 3 Do not wind the electrical cable less than 400 mm / 16¨ in diameter.

  • Page 23: How To Prepare The Tank Before You Install The Device

    INSTALLATION OPTIFLEX 8200 C/F/S 3.5 How to prepare the tank before you install the device CAUTION! To avoid measuring errors and device malfunction, obey these precautions. 3.5.1 Pressure and temperature ranges Figure 3-3: Pressure and temperature ranges 1 Temperature at the process connection Refer to the table "Permitted temperature ranges for gaskets"...

  • Page 24: General Information For Nozzles

    INSTALLATION OPTIFLEX 8200 C/F/S 3.5.2 General information for nozzles CAUTION! Follow these recommendations to make sure that the device measures correctly. They have an effect on the performance of the device. CAUTION! Do not put the process connection near to the product inlet. If the product that enters the tank touches the probe, the device will measure incorrectly.
  • Page 25 INSTALLATION OPTIFLEX 8200 C/F/S Figure 3-5: How to prevent build-up of product around the process connection 1 If product particles are likely to collect in holes, a nozzle is not recommended. 2 Attach the flange directly to the tank. 3 Use a threaded connection to attach the device directly to the tank.

  • Page 26: Installation Recommendations For Liquids

    INSTALLATION OPTIFLEX 8200 C/F/S For coaxial probes: If your device has a coaxial probe, you can ignore the installation recommendations in this section. But: CAUTION! Install the Ø42 / 1.65 coaxial probe in clean liquids that have a viscosity less than 2000 Pa ¨...

  • Page 27: How To Attach Probes To The Bottom Of The Tank

    INSTALLATION OPTIFLEX 8200 C/F/S 3.6.2 How to attach probes to the bottom of the tank If the liquid is agitated or turbulent, you can attach the probe to the bottom of the tank. The procedure to attach the probe depends on the type of probe used.
  • Page 28 INSTALLATION OPTIFLEX 8200 C/F/S Coaxial Ø42 mm / 1.65¨ Figure 3-10: How to attach a coaxial probe to keep it straight • Ø42 mm / 1.65 Ø42 mm / 1.65¨ coaxial probe: coaxial probe: Weld a tube with an internal diameter of 43...45 mm / Ø42 mm / 1.65...

  • Page 29: Installation In Standpipes (Stilling Wells And Bypass Chambers)

    INSTALLATION OPTIFLEX 8200 C/F/S 3.6.3 Installation in standpipes (stilling wells and bypass chambers) Use a standpipe if: • The liquid is very turbulent or agitated. • There are too many other objects in the tank. • The device is measuring a liquid in a tank with a floating roof.
  • Page 30 INSTALLATION OPTIFLEX 8200 C/F/S CAUTION! The standpipe must be electrically conductive. If the standpipe is not made of metal, obey the • instructions for empty space around the probe. For more data, refer to General requirements on page 26 •...

  • Page 31: How To Install The Device On The Tank: General Notes

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7 How to install the device on the tank: general notes 3.7.1 How to assemble the single rod probe (single-piece probe) INFORMATION! This procedure is for devices with single rod probes (single-piece probes). Figure 3-12: Equipment needed to assemble the device...
  • Page 32 INSTALLATION OPTIFLEX 8200 C/F/S Part 1: Check the serial number on each component Figure 3-13: Part 1: Check the serial number on each component • Make sure that the housing and the single rod have the same serial numbers. • Remove the sticker from the probe.
  • Page 33 INSTALLATION OPTIFLEX 8200 C/F/S Part2: How to attach the locking nut and union nut Figure 3-14: Part2: How to attach the locking nut and union nut 1 Attach a locking nut to the threaded rod below the process connection. 2 Make sure that the nut is fully engaged on the thread.
  • Page 34 INSTALLATION OPTIFLEX 8200 C/F/S Part 3: How to attach the locking nut and union nut Figure 3-15: Part 3: How to attach the locking nut and union nut CAUTION! Support the probe. 1 Attach a locking nut to the single rod.

  • Page 35: How To Assemble The Single Rod Probe (Segmented Probe)

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7.2 How to assemble the single rod probe (segmented probe) INFORMATION! This procedure is for devices with single rod probes that are segmented. Figure 3-16: Equipment needed to assemble the single rod probe (segmented) 1 Converter and process connection...
  • Page 36 INSTALLATION OPTIFLEX 8200 C/F/S Part 1: How to assemble the segmented single rod probe Figure 3-17: Part 1: How to assemble the segmented single rod probe CAUTION! Make sure that the nuts are tight and the rod probe cannot loosen.
  • Page 37 INSTALLATION OPTIFLEX 8200 C/F/S Part 2: How to assemble the segmented single rod probe Figure 3-18: Part 2: How to assemble the segmented single rod probe WARNING! Put a support below the probe to prevent deformation. CAUTION! Make sure that the nuts are tight and the rod probe cannot loosen.

  • Page 38: How To Install A Device With A Flange Connection

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7.3 How to install a device with a flange connection Equipment needed: • Device • Gasket (not supplied) • Wrench (not supplied) Figure 3-19: Flange connection • Make sure that the flange on the nozzle is level.

  • Page 39: How To Install A Device With A Threaded Connection

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7.4 How to install a device with a threaded connection Equipment needed: • Device • Gasket (not supplied) • 36 mm wrench (not supplied) Figure 3-20: Threaded connection • Make sure the tank connection is level.

  • Page 40: How To Install A Cable Probe In The Tank

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7.5 How to install a cable probe in the tank Figure 3-21: Wind cable probes and electrical cables carefully 1 Do not wind cable probes less than 500 mm / 20¨ in diameter. WARNING! If you bend the probe too much, you will damage the device and it will not measure accurately.

  • Page 41: How To Turn Or Remove The Signal Converter

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7.6 How to turn or remove the signal converter The converter turns 360°. The converter can be removed from the process connection assembly under process conditions. Figure 3-23: How to turn or remove the signal converter...

  • Page 42: How To Install The Wall Support For The Remote Converter (Version "F")

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7.7 How to install the wall support for the remote converter (version "F") Figure 3-24: Wall support for the remote version (attached to the remote converter) 1 Use marks on the wall to help you put the wall support in the correct position. For more data,...

  • Page 43: How To Attach The Weather Protection To The Device

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7.9 How to attach the weather protection to the device The device and the weather protection option are supplied disassembled in the same box. The weather protection can also be supplied as an accessory. You must attach the weather protection when you install the device.
  • Page 44 INSTALLATION OPTIFLEX 8200 C/F/S Figure 3-27: Installation of the weather protection on a vertical signal converter INFORMATION! Install the weather protection after you connect the device to the power supply. 1 Put the weather protection clamp around the top of the device. Make sure that the locking nuts on the clamp are aligned with the cable entries.
  • Page 45 INSTALLATION OPTIFLEX 8200 C/F/S Figure 3-28: Installation of the weather protection on a horizontal signal converter INFORMATION! Install the weather protection after you connect the device to the power supply. 1 Put the weather protection clamp around the front of the device (the end of the device that is nearest to the cable entry).

  • Page 46: How To Open The Weather Protection

    INSTALLATION OPTIFLEX 8200 C/F/S 3.7.10 How to open the weather protection Figure 3-29: How to open the weather protection INFORMATION! Electrical installation: Electrical installation: Electrical installation: Electrical installation: Remove the weather protection before you open the terminal compartment cover. 1 Remove the R-clip from the hole at the front of the weather protection cover.

  • Page 47: Electrical Connections

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S 4.1 Safety instructions DANGER! All work on the electrical connections may only be carried out with the power disconnected. Take note of the voltage data on the nameplate! DANGER! Observe the national regulations for electrical installations! DANGER! For devices used in hazardous areas, additional safety notes apply;...

  • Page 48: Electrical Installation: 2-Wire, Loop-Powered

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S 4.3 Electrical installation: 2-wire, loop-powered 4.3.1 Compact version CAUTION! Output 1 energizes the device and is used for HART communication. If the device has the ® second current output option, use a separate power supply to energize output 2. If the device has a switch output - relay option, use a separate power supply (connect the power supply to the switch power supply terminals).
  • Page 49 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Terminals for electrical installation (two current outputs) Figure 4-2: Terminals for electrical installation (two current outputs) 1 Output 1: Terminals 2 Output 2: Terminals 3 Location of the external grounding terminal (at the bottom of the converter)
  • Page 50 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Terminals for electrical installation (one current output and one switch output - relay) Figure 4-3: Terminals for electrical installation (one current output and one switch output - relay) 1 Current output 1: Terminals 2 Switch power supply: Terminals...
  • Page 51 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Figure 4-4: How to open the terminal compartment cover (one output) 1 Loosen the lock screw with a 2.5 mm Allen wrench. 2 Turn the cover counterclockwise with a strap wrench. 3 Remove the cover.
  • Page 52 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Figure 4-6: Procedure for electrical installation (one output) Equipment needed: • Small slotted tip screwdriver (not supplied) Procedure: 1 Do not disconnect the safety cord from the terminal compartment cover. Put the terminal compartment cover adjacent to the housing.
  • Page 53 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Equipment needed: • Small slotted tip screwdriver (not supplied) Procedure: 1 Put the terminal compartment cover adjacent to the housing. 2 Remove the connectors from the circuit board. If the device has the optional switch output, remove the connector for the switch output.

  • Page 54: Remote Version

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S 4.3.2 Remote version CAUTION! Output 1 energizes the device and is used for HART communication. If the device has the ® second current output option, use a separate power supply to energize output 2. If the device has a switch output - relay option, use a separate power supply (connect the power supply to the switch power supply terminals).
  • Page 55 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Terminals for electrical installation (one current output / one switch output - relay) Figure 4-12: Terminals for electrical installation (one current output / one switch output - relay) 1 Current output 1: Terminals 2 Switch power supply: Terminals...

  • Page 56: Remote Device Data

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S 4.4 Remote device data 4.4.1 Requirements for signal cables supplied by the customer The signal cable is an option for non-Ex devices. If the signal cable is not supplied by the device manufacturer, the cable must have properties that follow: Basic properties •...

  • Page 57: How To Prepare A Signal Cable Supplied By The Customer

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S 4.4.2 How to prepare a signal cable supplied by the customer Figure 4-13: Equipment needed to prepare the signal cable 1 Signal cable (supplied on request) 2 2 heat-shrinkable sleeves for the jacket (not supplied)

  • Page 58: How To Connect The Signal Cable To The Device

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Figure 4-14: How to prepare the signal cable 1 Remove the jacket from the wire to dimension "a". a = 50 mm / 2¨. 2 Remove the insulation from the wire. Obey national regulations for electrical wiring.
  • Page 59 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Equipment needed Figure 4-15: Equipment needed to prepare the signal cable 1 Remote converter 2 Probe electronics housing 3 Signal cable (supplied on request for non-Ex devices) – for more data, refer to How to prepare a signal cable supplied...
  • Page 60 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S How to connect the signal cable to the remote converter Figure 4-17: How to connect the signal cable to the remote converter CAUTION! Bending radius of the signal cable: ≥ 50 mm / 2 ¨...
  • Page 61 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S How to connect the signal cable to the probe electronics housing Figure 4-18: How to connect the signal cable to the probe electronics housing CAUTION! Bending radius of the signal cable: ≥ 50 mm / 2 ¨...

  • Page 62: Electrical Connection For Current Output

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S 4.5 Electrical connection for current output 4.5.1 Non-Ex devices INFORMATION! Two current outputs and the switch output - relay are supplied together as a device option. Two current outputs or the switch output - relay are only available if you send an order for a device with these options.
  • Page 63 ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Two current outputs Figure 4-20: Electrical connections for non-Ex devices (two current outputs) 1 Power supply 2 Resistor for HART® communication 3 Optional connection to the grounding terminal 4 Output 1 and 2: 11.5...30 V DC for an output of 22 mA at the terminals...

  • Page 64: Devices For Hazardous Locations

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S 4.5.2 Devices for hazardous locations DANGER! For electrical data for device operation in hazardous locations, refer to the related certificates of compliance and supplementary instructions (ATEX, IECEx etc.). You can find this documentation on the DVD-ROM delivered with the device or it can be downloaded free of charge from the website (Download Center).

  • Page 65: Networks

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S Type of electrical cable Approval Min. / Max. diameter of the electrical cable [mm] [inches] Signal cable (for the remote non-Ex / Ex i 6...12 0.24...0.39 version "F") Ex d 7...12 0.28...0.47 1 If the device has a stainless steel cable gland, the minimum diameter of the electrical cable is 7 mm / 0.28¨...

  • Page 66: Multi-Drop Networks

    ELECTRICAL CONNECTIONS OPTIFLEX 8200 C/F/S 4.7.3 Multi-drop networks Figure 4-24: Multi-drop network (non-Ex) 1 Address of the device (n+1 for multidrop networks) 2 Address of the device (1 for multidrop networks) 3 4 mA + HART® 4 Resistor for HART® communication 5 Power supply 6 HART®...

  • Page 67: Start-Up

    START-UP OPTIFLEX 8200 C/F/S 5.1 How to start the device 5.1.1 Start-up checklist Check these points before you energize the device: • Are all the wetted components (probe, process connection and gaskets) chemically resistant to the product in the tank? •...

  • Page 68: Digital Display Screen

    START-UP OPTIFLEX 8200 C/F/S 5.3 Digital display screen 5.3.1 Local display screen layout Figure 5-1: Local display screen layout in Normal mode 1 Current output percentage (bar graph and text — only shown if the current output function is the same as the mea-...

  • Page 69: Functions Of Keypad Buttons

    START-UP OPTIFLEX 8200 C/F/S Figure 5-2: Local display screen layout in configuration mode 1 Function name 2 Configuration mode symbol 3 Menu number 5.3.2 Functions of keypad buttons Normal mode For data on keypad functions, refer to on page 71.

  • Page 70: Remote Communication With The Ams™ Device Manager

    START-UP OPTIFLEX 8200 C/F/S Figure 5-3: Screen from the PACTware™ user interface 1 DTM menu 2 Information for device identification 3 Configuration summary 5.5 Remote communication with the AMS™ Device Manager The AMS™ Device Manager is an industrial Plant Asset Management (PAM) software tool. Its role is to: •...

  • Page 71: Operation

    OPERATION OPTIFLEX 8200 C/F/S 6.1 User modes Normal Normal mode Normal mode This mode displays measurement data. For more data, refer to Normal mode Normal mode mode on page 71. Configuration mode Configuration mode Configuration mode Configuration mode Use this mode to view parameters, create tables for volume or mass...
  • Page 72 OPERATION OPTIFLEX 8200 C/F/S INFORMATION! If you push a keypad button for less than 2 seconds, then you can use the standard function. If you push a keypad button for more than 2 seconds, then you can use the "Hot key" function. For more data, refer to the "Keypad function"...

  • Page 73: Configuration Mode

    OPERATION OPTIFLEX 8200 C/F/S Measurement type Description Available units DIELECTRIC This is a display and an output function option. — PRODUCT The dielectric constant of the contents of the tank. An electrical property of the liquid contents of the tank. An electrical property of the product to be measured.

  • Page 74: How To Get Access To The Auto Setup Procedure

    OPERATION OPTIFLEX 8200 C/F/S CAUTION! SIL-approved devices: SIL-approved devices: For data about critical device parameters, refer to the Safety Manual. SIL-approved devices: SIL-approved devices: INFORMATION! It is not possible to enter the 3.0.0 Service and 4.0.0 Master menus. These menus are for factory calibration and approved personnel only.

  • Page 75: Menu Overview

    OPERATION OPTIFLEX 8200 C/F/S 6.3.3 Menu overview Auto Setup 1.0.0 Advanced Setup 1.1.0 Installation Setup 1.2.0 Conversion Setup 1.3.0 Device Setup 1.4.0 Application Setup 1.5.0 Options Setup 1.6.0 Maintenance Setup 2.0.0 Supervisor 2.1.0 Identification 2.2.0 Tests 2.3.0 Basic Parameters 2.4.0 Output 2.5.0...

  • Page 76: Keypad Functions

    OPERATION OPTIFLEX 8200 C/F/S 6.3.4 Keypad functions Figure 6-1: Local display screen layout in configuration mode 1 Function name 2 Configuration mode symbol 3 Menu number This is what you see when you are in Configuration mode. The functions of the buttons are given...
  • Page 77 OPERATION OPTIFLEX 8200 C/F/S Lists of parameters in menu items Figure 6-2: Lists of parameters in menu items 1 Parameter 2 Menu name This is what you see when you select a menu item that has a list of parameters. The functions of...
  • Page 78 OPERATION OPTIFLEX 8200 C/F/S Values in menu items Figure 6-3: Values in menu items 1 Menu item with values stored at this time (first screen) 2 Push [> > > > ] again to change the values. A cursor shows on the first digit.

  • Page 79: Function Description

    OPERATION OPTIFLEX 8200 C/F/S 6.3.5 Function description Auto Setup procedure Auto Setup procedure is available in measurement mode. Push the [^ ^ ^ ^ ] button for more than 1 second to start the Auto Setup procedure. Enter the Supervisor password.
  • Page 80 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range of Default values Probe Length Probe length is the distance from the min: This value flange face / thread stop of the device 2.3.2 Blocking Distance + 3.1.1...
  • Page 81 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range of Default values Output Function The output function for output 1. Make LEVEL, LEVEL CONVERSION, LEVEL a selection from a list of output DISTANCE, DISTANCE CONV., functions to scale the current values in...
  • Page 82 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range of Default values Switch Function The switch function for output 2. Make LEVEL, LEVEL CONVERSION, a selection from a list of switch DISTANCE, DISTANCE CONV., functions to set the switch signal to the INTERFACE LEVEL, function that the device must monitor.
  • Page 83 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range of Default values Is your tank It is necessary to give this data to tell Partially, Empty — partially filled or the device where to do a scan for...
  • Page 84 OPERATION OPTIFLEX 8200 C/F/S Advanced Setup The Advanced Setup menu is a list of procedures that have more functions than the Auto Setup procedure. Push the [> > > > ] to go to Configuration mode. Enter the Supervisor password.
  • Page 85 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 1.3.0 Device Setup 1.3.0 Device Setup 1.3.0 Device Setup 1.3.0 Device Setup Use this quick setup procedure to give settings for output 1 and output 2 1.3.1...
  • Page 86 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 1.3.2 Output I2 Setup Use this quick set-up procedure to give the settings for optional output 2. 1.3.2 Optional Output This function operates the optional second...
  • Page 87 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 1.3.2 Switch Function The switch function for output 2. Make a LEVEL, LEVEL selection from a list of switch functions to LEVEL CONVERSION, set the switch signal to the function that DISTANCE, the device must monitor.
  • Page 88 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 1.4.0 Application Setup 1.4.0 Application Setup 1.4.0 Application Setup 1.4.0 Application Setup Use this quick set-up procedure to give the settings about the application type and the dielectric constant of the top product.
  • Page 89 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 1.6.2 Mechanic Type Process Type The process seal option for the device. CERAMIC HT-HP THREADED, CERAMIC HT-HP FLANGE, DUAL CERAMIC THREADED, DUAL CERAMIC FLANGE, OTHER PROCESS Probe Type The probe option for the device.
  • Page 90 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.0.0 Supervisor 2.1.0 Identification 2.1.0 Identification 2.1.0 Identification 2.1.0 Identification 2.1.1 Serial Number The device serial number. Read only. 2.1.2 Conv Firm The converter firmware version.
  • Page 91 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.3.2 Blocking The non-measuring range at the top of the min.: This depends on Distance probe. It depends on the probe type and 0 m / 0 ft the probe type the installation.
  • Page 92 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.4.0 Outputs 2.4.0 Outputs 2.4.0 Outputs 2.4.0 Outputs 2.4.1 Output Function The output function for output 1. Make a LEVEL, LEVEL selection from a list of output functions to...
  • Page 93 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.4.7 Output Function The output function for output 2. Make a LEVEL, DISTANCE selection from a list of output functions to LEVEL CONVERSION, scale the current values in relation to a...
  • Page 94 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.4.12 Set point This function gives the switching point or min-max: — threshold (level, distance etc.) where the device will send the relay signal. This function is available if menu item 2.4.6 Optional Output Mode...
  • Page 95 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.5.2 Epsilon R Gas Dielectric constant (ε ) of the gas in the min-max: 0.8...115.00 tank. A major parameter for TDR level measurement devices. If the dielectric constant of the gas is very different from the default value (air), set 2.5.2 Epsilon R...
  • Page 96 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.5.8 Snapshot Mode STATIC mode uses data from the quick STATIC, DISABLE DISABLE setup procedure in the Auto Setup Auto Setup Auto Setup Auto Setup procedure.
  • Page 97 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.7.0 Display 2.7.0 Display 2.7.0 Display 2.7.0 Display 2.7.1 Language Data can be shown in one of the languages English, German, English stored in the device. Make a selection from French, Italian, the list.
  • Page 98 OPERATION OPTIFLEX 8200 C/F/S Menu Function Function description Selection list or range Default of values 2.8.2 Conversion unit The conversion unit used to make the kg, t, Ston, Lton, m, cm, conversion table. mm, in (inches), ft (feet), m3, L, gal (US gallon),...

  • Page 99: Further Information On Device Configuration

    OPERATION OPTIFLEX 8200 C/F/S Default values for menu items 2.4.3 SCALE 4mA and 2.4.4 SCALE 20mA Probe type SCALE 4mA SCALE 20mA [mm] [inches] [mm] [inches] Device with a probe Value given in the customer order or Value given in the Value given in the (2.3.1 TANK HEIGHT - 2.3.4 PROBE...

  • Page 100: Relay Output

    OPERATION OPTIFLEX 8200 C/F/S • the Auto Setup procedure (Optional Output mode), • the Advanced Setup menu (sub-menu 1.3.2 Output I2 Setup / Optional Output mode) or • the Supervisor menu (menu item 2.4.6 Optional Output mode). Current output If the Optional Output mode is set to "CURRENT", then use the same procedures for output 1 for the current output settings: •...
  • Page 101 OPERATION OPTIFLEX 8200 C/F/S Alarm modes There are two alarm modes: 'high level alarm" and "low level alarm". "Low level alarm" tells the device to set the relay to "on" and send a signal when the quantity of product in the tank is less than the threshold.

  • Page 102: Protection Of The Device Settings

    OPERATION OPTIFLEX 8200 C/F/S INFORMATION! Example Example Example Example If the Switch Function is "LEVEL", Alarm Mode is "LOW LEVEL ALARM", Threshold is set to "1500 mm" and Hysteresis is set to "10 mm", then the relay output is set to "on" when the level of the tank contents is more than 1500 mm.

  • Page 103: Distance And Interface Distance Measurement

    OPERATION OPTIFLEX 8200 C/F/S • Push [> > > > ] to change the value. Enter a value between "001" and "063" and push [^ ^ ^ ^ ] to confirm (refer to the caution before this procedure). • Push [^ ^ ^ ^ ] again and again to go back to the Store Store screen.

  • Page 104: Level And Interface Level Measurement

    OPERATION OPTIFLEX 8200 C/F/S Figure 6-5: Distance or Interface Distance measurement 1 2.3.1 Tank height 2 2.3.7 Reference Offset 3 2.3.2 Blocking Distance 4 2.4.3 Scale 4mA I1 (4 mA setting for output 1) 2.4.9 Scale 4mA I2 (4 mA setting for optional output 2) 5 2.4.4 Scale 20mA I1 (20 mA setting for output 1)

  • Page 105: How To Configure The Device To Measure Volume Or Mass

    OPERATION OPTIFLEX 8200 C/F/S CAUTION! If the level for 20 mA is set in the blocking distance, the device will not be able to use the full current output range. You can change the reference point from which level is measured. Use the menu item2.3.8 Tank 2.3.8 Tank...
  • Page 106 OPERATION OPTIFLEX 8200 C/F/S Figure 6-7: How to make a strapping table in Configuration mode 1 The "+" sign is shown if there are no points on the conversion table. Push [ ] when the cursor is on this sign to add a point on the table.
  • Page 107 OPERATION OPTIFLEX 8200 C/F/S • 2.3.2 Blocking Distance An output agrees with ullage volume (empty volume) measurement when the output function is set to "Distance conv." or "Interface dist. conv.". Menu items related to ullage volume measurement are: • 1.3.1 Output 1 Setup and 2.4.1 Output Function I1 (output 1) •...

  • Page 108: Dynamic Gas-Phase Compensation (Dgc)

    OPERATION OPTIFLEX 8200 C/F/S • The cursor moves to the conversion value. Push [> > > > ] to change the position of the cursor and then push [ ] and [ ] to change the value of each digit. Push [^ ^ ^ ^ ] and then [ ] or [ ] to find a different point in the table.

  • Page 109: Thresholds And Interference Signals

    OPERATION OPTIFLEX 8200 C/F/S • Set Application Type Application Type Application Type Application Type to "LEVEL WITH GAS PHASE COMPENSATION". • Enter the correct settings for your process in Epsilon R Product Epsilon R Product Epsilon R Product Epsilon R Product, Output Function I1...
  • Page 110 OPERATION OPTIFLEX 8200 C/F/S • 2.5.9 Probe End Threshold 2.5.9 Probe End Threshold 2.5.9 Probe End Threshold 2.5.9 Probe End Threshold to set the threshold for the reflection on the end of the probe. If you must calculate the ε...
  • Page 111 OPERATION OPTIFLEX 8200 C/F/S Figure 6-9: How to use thresholds (level signal and threshold data shown in this example) 1 Signal amplitude 2 Threshold 3 Push [ ] to change the threshold value. Push [> > > > ] to change the position of the cursor and then push [ ] and [ ] to change the value of each digit.
  • Page 112 OPERATION OPTIFLEX 8200 C/F/S • After you enter 1.0.0 Advanced Setup 1.0.0 Advanced Setup 1.0.0 Advanced Setup 1.0.0 Advanced Setup menu, 3 × [ ] to go to the menu item 1.4.0 Application 1.4.0 Application 1.4.0 Application 1.4.0 Application Setup Setup.

  • Page 113: How To Decrease The Length Of Probes

    OPERATION OPTIFLEX 8200 C/F/S Probe end threshold The device uses Tank Bottom Following (TBF) mode to measure the level of products with low dielectric constants. It uses the probe end as a reference. If the reflection is very weak, change the probe end threshold to measure the probe end location.
  • Page 114 OPERATION OPTIFLEX 8200 C/F/S CAUTION! Do the Auto Setup procedure after you decrease the length of the probe. For more data about the procedure, refer to Function description on page 79 Figure 6-11: Dimensions of the counterweights 1 Ø4 mm / 0.16¨ single cable with a Ø20 × 100 mm (Ø0.8 × 3.9¨) counterweight...

  • Page 115: Status And Error Messages

    OPERATION OPTIFLEX 8200 C/F/S 6.5 Status and error messages 6.5.1 Device status (markers) Menu item 2.2.2 Diagnostic 2.2.2 Diagnostic (Configuration mode / Supervisor menu) supplies more data. This 2.2.2 Diagnostic 2.2.2 Diagnostic includes internal voltages, the loop current and the reset counter. You can see this data on the device display screen and in the DTM.
  • Page 116 OPERATION OPTIFLEX 8200 C/F/S NE 107 NE 107 Description Status Error code Possible errors symbol Status marker (Type) shown shown Failure The device does not operate 101 (Error) Current Output Drift correctly. The fault message stays 102 (Error) Temperature Out of Range on.

  • Page 117: Error Handling

    OPERATION OPTIFLEX 8200 C/F/S If an "Out of specification" status symbol is shown, refer to menu item 2.2.2 Diagnostic 2.2.2 Diagnostic 2.2.2 Diagnostic 2.2.2 Diagnostic (Configuration mode / Supervisor menu) for more data. Error handling For data on errors, error records and error codes, refer to on page 117.
  • Page 118 OPERATION OPTIFLEX 8200 C/F/S Hardware Description Normal Full range Cause Corrective action test operating range Loop current This shows the current 4...20 mA — — — output of the device (in mA). Load current Temperature out of range 3.6 mA —...
  • Page 119 OPERATION OPTIFLEX 8200 C/F/S Description of errors and corrective actions Error Error Message Status marker Cause Corrective action code shown Back end errors Device reset The device detected an internal Record the data that is in menu error. (watchdog timer issue) item 2.2.2 Diagnostic...
  • Page 120 OPERATION OPTIFLEX 8200 C/F/S Error Error Message Status marker Cause Corrective action code shown Level lost error 2, 4 The device cannot find the Measure the level of the product surface. The contents in the tank using measurement stops at the last another method of measured value.
  • Page 121 OPERATION OPTIFLEX 8200 C/F/S Error Error Message Status marker Cause Corrective action code shown Sensor not The software version of the Go to menu 2.1.0 Identification 2.1.0 Identification 2.1.0 Identification 2.1.0 Identification compatible sensor is not compatible with in Configuration mode. Record...
  • Page 122 OPERATION OPTIFLEX 8200 C/F/S Error Error Message Status marker Cause Corrective action code shown Maintenance (NE 107 status signal) Snapshot Invalid The "static" snapshot data Do the Auto Setup Auto Setup Auto Setup procedure Auto Setup — stored in the device does not again.

  • Page 123: Service

    SERVICE OPTIFLEX 8200 C/F/S 7.1 Periodic maintenance In normal operational conditions, no maintenance is necessary. Only the manufacturer can repair the device and replace components. If it is necessary, maintenance must be done by approved personnel (the manufacturer or personnel approved by the manufacturer).

  • Page 124: Availability Of Services

    SERVICE OPTIFLEX 8200 C/F/S 7.4 Availability of services The manufacturer offers a range of services to support the customer after expiration of the warranty. These include repair, maintenance, technical support and training. INFORMATION! For more precise information, please contact your local sales office.

  • Page 125: Form (For Copying) To Accompany A Returned Device

    SERVICE OPTIFLEX 8200 C/F/S 7.5.2 Form (for copying) to accompany a returned device CAUTION! To avoid any risk for our service personnel, this form has to be accessible from outside of the packaging with the returned device. Company: Address: Department: Name: Tel.

  • Page 126: Disassembly And Recycling

    SERVICE OPTIFLEX 8200 C/F/S 7.7 Disassembly and recycling This section shows you how to handle the device if it is unserviceable (i.e. it is at the end of its product life cycle) or if it must be discarded. Information given in this section agrees with the EU Directive 2012/19/EU on waste electrical and electronic equipment (WEEE) and the EU Directive 2008/98/EC on waste (Waste Framework Directive) .
  • Page 127 SERVICE OPTIFLEX 8200 C/F/S Parts list Item Description Material stainless steel Washer stainless steel Gasket EPDM Screw stainless steel Washer stainless steel Stirrup stainless steel Screw stainless steel Housing base aluminium or stainless steel Spring CuBe2 (10) Screw stainless steel...
  • Page 128 SERVICE OPTIFLEX 8200 C/F/S Figure 7-1: Parts of the device (refer to "Parts list" table) Procedure: how to disassemble the compact version • Remove the housing base (8) and the parts attached to the housing base. Remove the PCB (12) PCB (12).
  • Page 129 SERVICE OPTIFLEX 8200 C/F/S Materials and components which must be removed and independently prepared for treatment Material Weight Description [kg] [lb] Polychlorinated biphenyl Mercury Printed circuit boards, area > 10 cm Printed circuit boards, area > 10 cm² / > 1.55 in / >...
  • Page 130 SERVICE OPTIFLEX 8200 C/F/S Materials and components which can cause problems in the recycling process Material Part Weight Description (item number) [kg] [lb] different metals PCB, housing base PCB, housing base 0.08 0.08 0.18 FR-4, electronic components, polyamide 0.18 FR-4, electronic components, polyamide...
  • Page 131 SERVICE OPTIFLEX 8200 C/F/S Materials and components which can be recycled Stainless steel housing Material Part Weight Description (item number) [kg] [lb] Stainless steel nut (1) 5.5... 12.12... 15.87 washer (2) screw (4) washer (5) stirrup (6) screw (7) housing base (8) screw (10) "T"...
  • Page 132 SERVICE OPTIFLEX 8200 C/F/S Aluminium housing Material Part Weight Description (item number) [kg] [lb] Stainless steel nut (1) ~0.05 ~0.11 washer (2) screw (4) washer (5) stirrup (6) screw (7) screw (10) Aluminium housing base (8) 2.0... 4.41... External surfaces are painted 5.73...

  • Page 133: Sensor Extension With Compact Version (S)

    SERVICE OPTIFLEX 8200 C/F/S 7.7.2 Sensor extension with compact version (S) Sensor extension with compact version (S) has a housing and a sensor extension. This section refers to the sensor extension. For more data about the components of the housing, refer to Compact version (C) on page 126.
  • Page 134 SERVICE OPTIFLEX 8200 C/F/S Figure 7-2: Parts of the device (refer to "Parts list" table) Procedure: how to disassemble the sensor extension • Remove the wall fitting (1). • Remove the nut (2), the screws (8) and the screw (12).
  • Page 135 SERVICE OPTIFLEX 8200 C/F/S Materials and components which must be removed and independently prepared for treatment Material Weight Description [kg] [lb] Polychlorinated biphenyl Mercury Printed circuit boards, area > 10 cm² / > 1.55 in² Toner cartridge LCD screen (device) area >...
  • Page 136 SERVICE OPTIFLEX 8200 C/F/S Materials and components which can be recycled Material Part Weight Description (item number) [kg] [lb] Stainless steel wall fitting (1) ~2.5 ~5.51 nut (2) connector (4) adaptor (6) connector (7) screw (8) washer (9) housing support...

  • Page 137: Remote Version (F)

    SERVICE OPTIFLEX 8200 C/F/S 7.7.3 Remote version (F) INFORMATION! Words in bold text bold text refer to electrical and electronic equipment. bold text bold text Product description Product name and data Type OPTIFLEX Model X200 F (Remote version) Usage Level measurement...
  • Page 138 SERVICE OPTIFLEX 8200 C/F/S Item Description Material (15) Blocker PA 66 (16) "T" housing aluminium or stainless steel (17) (17) PCB types 1, 2 or 3 PCB types 1, 2 or 3 (17) (17) PCB types 1, 2 or 3...
  • Page 139 SERVICE OPTIFLEX 8200 C/F/S Figure 7-3: Parts of the device (refer to "Parts list" table) Procedure: how to disassemble the remote version • Remove the housing base (8) and the parts attached to the housing base. Remove the PCB (12)
  • Page 140 SERVICE OPTIFLEX 8200 C/F/S You can send the parts to the approved location for waste treatment or recycling. Materials and components which must be removed and independently prepared for treatment Material Weight Description [kg] [lb] Polychlorinated biphenyl Mercury Battery Printed circuit boards, area > 10 cm Printed circuit boards, area >...
  • Page 141 SERVICE OPTIFLEX 8200 C/F/S Materials and components which can cause problems in the recycling process Material Part Weight Description (item number) [kg] [lb] different metals PCB, housing base PCB, housing base 0.08 0.08 0.18 0.18 FR-4, electronic components, FR-4, electronic components,...
  • Page 142 SERVICE OPTIFLEX 8200 C/F/S Materials and components which can be recycled Stainless steel housing Material Part Weight Description (item number) [kg] [lb] Stainless steel nut (1) 7.8... 17.20... 11.2 24.69 washer (2) screw (4) washer (5) stirrup (6) screw (7)
  • Page 143 SERVICE OPTIFLEX 8200 C/F/S Aluminium housing Material Part Weight Description (item number) [kg] [lb] Stainless steel nut (1) ~0.1 ~0.22 washer (2) screw (4) washer (5) stirrup (6) screw (7) housing base (8) screw (10) blocking part (27) Aluminium housing base (8) 2.9...

  • Page 144: Technical Data

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.1 Measuring principle This Guided Radar (TDR) level meter has been developed from a proven technology called Time Domain Reflectometry (TDR). The device transmits low-intensity electromagnetic pulses of approximately one nanosecond width along a rigid or flexible conductor. These pulses move at the speed of light. When the pulses reach the surface of the product to be measured, the pulses are reflected with an intensity that depends on the dielectric constant, ε...
  • Page 145 TECHNICAL DATA OPTIFLEX 8200 C/F/S Level measurement principle (direct mode) Figure 8-1: Level measurement principle 1 Time 0: The electromagnetic (EM) pulse is transmitted by the converter 2 Time 1: The pulse goes down the probe at the speed of light in air, V1...
  • Page 146 TECHNICAL DATA OPTIFLEX 8200 C/F/S Level and interface measurement principle (direct measurement) Figure 8-2: Level and interface measurement principle (2 liquids in the tank) 1 Time 0: The electromagnetic (EM) pulse is transmitted by the converter 2 Time 1: The pulse goes down the probe at the speed of light in air, V1 3 Time 2: Part of the pulse is reflected at the surface of the top liquid, the remaining pulse goes down the probe 4 Time 3: Part of the pulse goes up the probe at speed, V1.

  • Page 147: Technical Data

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.2 Technical data INFORMATION! • The following data is provided for general applications. If you require data that is more relevant to your specific application, please contact us or your local sales office. Additional information (certificates, special tools, software,...) and complete product •...
  • Page 148 TECHNICAL DATA OPTIFLEX 8200 C/F/S [Ω] ≤ ((U Current output load Non-Ex / Ex i: Non-Ex / Ex i: R -11.5 V)/22 mA). Non-Ex / Ex i: Non-Ex / Ex i: Minimum power supply voltage For more data, refer to on page 156.
  • Page 149 TECHNICAL DATA OPTIFLEX 8200 C/F/S Approvals and certification The device meets the essential requirements of the EU Directives. The manufacturer certifies successful testing of the product by applying the CE marking. For more data about the EU Directives and European Standards related to this device, refer to the EU Declaration of Conformity.
  • Page 150 TECHNICAL DATA OPTIFLEX 8200 C/F/S IECEx Compact version Compact version Compact version Compact version Ex ia IIC T6...T* Ga/Gb; Ex ia IIIC T85°C...T*°C Da/Db or... Ex ia/db IIC T6...T* Ga/Gb; Ex ia/tb IIIC T85°C...T*°C Da/Db or... Ex ic IIC T6...T* Gc;...
  • Page 151 TECHNICAL DATA OPTIFLEX 8200 C/F/S cQPSus – Dual Seal-approved NEC 500 and CEC Section 18 and Annex J (Division ratings) NEC 500 and CEC Section 18 and Annex J (Division ratings) NEC 500 and CEC Section 18 and Annex J (Division ratings)
  • Page 152 TECHNICAL DATA OPTIFLEX 8200 C/F/S CEC Section 18 (Zone ratings) CEC Section 18 (Zone ratings) CEC Section 18 (Zone ratings) CEC Section 18 (Zone ratings) Compact version Compact version Compact version Compact version Ex ia [ia Ga] IIC T6...T* Ga;...
  • Page 153 TECHNICAL DATA OPTIFLEX 8200 C/F/S EAC-EX Compact version Compact version Compact version Compact version (pending) 1Ex ia [ia Ga] IIC «T6...T*» Gb X; Ex ia [ia Da] IIIC «T85°C...T*°C» Db or... 1Ex db ia [ia Ga] IIC «T6...T*» Gb X;...
  • Page 154 TECHNICAL DATA OPTIFLEX 8200 C/F/S Probe options Single rod Ø8 mm / 0.32¨ Single cable Coaxial Ø4 mm / 0.16¨ Ø42 mm / 1.65¨ Single-piece Segmented Measuring system Application Liquids Measuring range 0.6...4 m / 0.6...6 m / 1...60 m / 0.6...6 m /...
  • Page 155 TECHNICAL DATA OPTIFLEX 8200 C/F/S Single rod Ø8 mm / 0.32¨ Single cable Coaxial Ø4 mm / 0.16¨ Ø42 mm / 1.65¨ Single-piece Segmented Process connections Thread For more data on options, refer to Order code on page 195 Order code...

  • Page 156: Minimum Power Supply Voltage

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.3 Minimum power supply voltage Use these graphs to find the minimum power supply voltage for a given current output load. Non-Ex and Hazardous Location approved (Ex i / IS / NI) devices Figure 8-3: Non-Ex and Hazardous Location approval (Ex i / IS / NI): minimum power supply voltage for an output of...

  • Page 157: Process Pressure And Process Connection Temperature Limits

    TECHNICAL DATA OPTIFLEX 8200 C/F/S Hazardous Location (Ex d / XP/ DIP) approved devices Figure 8-4: Non-Ex and Hazardous Location approval (Ex d / XP/ DIP): minimum power supply voltage for an output of 22 mA (switch output - relay option: 30 mA) at the terminals...
  • Page 158 TECHNICAL DATA OPTIFLEX 8200 C/F/S Pressure and temperature limits (PN10...100 / Class 150...600) Figure 8-5: Operating limits (PN10...100 / Class 150...600): graph of process pressure (barg) against process connection temperature (°C) Figure 8-6: Operating limits (PN10...100 / Class 150...600): graph of process pressure (psig) against process connection temperature (°F)
  • Page 159 TECHNICAL DATA OPTIFLEX 8200 C/F/S Pressure and temperature limits (PN160...400 / Class 900...2500) Figure 8-7: Operating limits (PN160...400 / Class 900...2500): graph of process pressure (barg) against process connection temperature (°C) Figure 8-8: Operating limits for devices (PN160...400 / Class 900...2500): graph of process pressure (psig) against process connection temperature (°F)

  • Page 160: Measurement Limits

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.5 Measurement limits Single cable and single rod probes Figure 8-9: Measurement limits: single cable and single rod probes 1 Device with a single cable probe 2 Device with a single rod probe 3 Top dead zone:...
  • Page 161 TECHNICAL DATA OPTIFLEX 8200 C/F/S Measurement limits (dead zone) in mm and inches ε ε Probes = 80 = 2.5 Top 3 Bottom 6 Top 3 Bottom 6 [mm] [inches] [mm] [inches] [mm] [inches] [mm] [inches] 4 mm / 0.16¨...
  • Page 162 TECHNICAL DATA OPTIFLEX 8200 C/F/S Coaxial probe Figure 8-10: Measurement limits: coaxial probe 1 Device with a coaxial probe 2 Top dead zone: Top dead zone: Top part of the probe where measurement is not possible Top dead zone: Top dead zone: 3 Top non-linearity zone: Top non-linearity zone: Top part of the probe with a lower accuracy of ±30 mm / ±1.18¨...
  • Page 163 TECHNICAL DATA OPTIFLEX 8200 C/F/S Measurement limits (dead zone) in mm and inches ε ε Probe = 80 = 2.5 Top 2 Bottom 5 Top 2 Bottom 5 [mm] [inches] [mm] [inches] [mm] [inches] [mm] [inches] Coaxial 1.97 0.59 1.97 0.79...

  • Page 164: Dimensions And Weights

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.6 Dimensions and weights 8.6.1 General notes INFORMATION! All housing covers have bayonet connectors unless it is an explosion-proof (XP / Ex d-approved) device or has the second current output / switch output (relay) option. If the device has the second current output / switch output (relay) option or has an Ex d / XP (explosion-proof) approval, the terminal compartment cover has a thread with a flame path.

  • Page 165: Signal Converter And Probe Electronics Options

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.6.3 Signal converter and probe electronics options Compact version (C) Compact version (C) Compact version (C) Compact version (C) Figure 8-12: Compact version (C) 1 Horizontal compact version 2 Vertical compact version INFORMATION! If the device has the second current output / switch output (relay) option, use the dimensions given for Ex d / XP-approved devices.
  • Page 166 TECHNICAL DATA OPTIFLEX 8200 C/F/S Sensor extension with vertical compact version (S) Sensor extension with vertical compact version (S) Sensor extension with vertical compact version (S) Sensor extension with vertical compact version (S) Figure 8-13: Sensor extension with vertical compact version (S)
  • Page 167 TECHNICAL DATA OPTIFLEX 8200 C/F/S Sensor extension with horizontal compact version (S) Sensor extension with horizontal compact version (S) Sensor extension with horizontal compact version (S) Sensor extension with horizontal compact version (S) Figure 8-14: Sensor extension with horizontal compact version (S)
  • Page 168 TECHNICAL DATA OPTIFLEX 8200 C/F/S Sensor extension with compact version (S) Sensor extension with compact version (S) Sensor extension with compact version (S) Sensor extension with compact version (S) – wall bracket wall bracket wall bracket wall bracket Figure 8-15: Wall bracket...
  • Page 169 TECHNICAL DATA OPTIFLEX 8200 C/F/S Remote version (F) Remote version (F) – remote converter housing Remote version (F) Remote version (F) remote converter housing remote converter housing remote converter housing Figure 8-16: Remote version (F) – remote converter housing INFORMATION! If the device has the second current output / switch output (relay) option, use the dimensions given for Ex d / XP-approved devices.
  • Page 170 TECHNICAL DATA OPTIFLEX 8200 C/F/S Remote version (F) Remote version (F) – probe electronics housing Remote version (F) Remote version (F) probe electronics housing probe electronics housing probe electronics housing Figure 8-17: Remote version (F) – probe electronics housing Dimensions...

  • Page 171: Process Connection Options

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.6.4 Process connection options Figure 8-18: Process connection options h = height of process connection L = probe length 1 Threaded connection with single ceramic process seal system 2 Threaded connection with double ceramic process seal system...

  • Page 172: Probe Options

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.6.5 Probe options Single probes: options and overall dimensions Figure 8-19: Single probes: options and overall dimensions 1 Single rod Ø8 mm / Ø0.32¨ 2 Single cable Ø4 mm / Ø0.16¨ 3 Single rod Ø8 mm / Ø0.32¨ (segmented version) INFORMATION! Probe length, L, includes the length of the counterweight.
  • Page 173 TECHNICAL DATA OPTIFLEX 8200 C/F/S Probe end options for the Ø4 mm / 0.16¨ single cable probe Figure 8-20: Probe end options for the Ø4 mm / 0.16¨ single cable probe 1 Standard counterweight 2 Threaded end 3 Crimped end...
  • Page 174 TECHNICAL DATA OPTIFLEX 8200 C/F/S Coaxial probe: options and overall dimensions Figure 8-21: Coaxial probe: options and overall dimensions Coaxial Ø42 mm / Ø1.65¨ Probes Dimensions [mm] L min. L max. Coaxial Ø42 mm 6000 — — 1 A shorter probe length is available on request...
  • Page 175 TECHNICAL DATA OPTIFLEX 8200 C/F/S Probe weights Probes Process Process Process connection Probe Weights seal connection weights system [kg] [lb] [kg/m] [lb/ft] Coaxial Single seal Threaded 2.0...2.5 4.4...5.5 2.15 Ø42 mm / Ø1.65¨ (ceramic) Flange 3.5...70.0 7.7...154.3 Double seal Threaded 3.2...3.7...

  • Page 176: Weather Protection Option

    TECHNICAL DATA OPTIFLEX 8200 C/F/S 8.6.6 Weather protection option Vertical signal converters Figure 8-22: Vertical signal converters 1 Non-Ex / Ex i / IS: Rear view (with weather protection closed) 2 Non-Ex / Ex i / IS: Right side (with weather protection closed)
  • Page 177 TECHNICAL DATA OPTIFLEX 8200 C/F/S Horizontal signal converters Figure 8-23: Horizontal signal converters 1 Non-Ex / Ex i / IS: Front view (with weather protection closed) 2 Non-Ex / Ex i / IS: Left side (with weather protection closed) 3 Non-Ex / Ex i / IS: Rear view (with weather protection closed)

  • Page 178: Description Of Hart Interface

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S 9.1 General description The HART® Protocol is an open digital communication protocol for industry. It is free to use by anyone. It is included in the software embedded in signal converters of HART-compatible devices.

  • Page 179: Point-To-Point Connection - Analogue / Digital Mode

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S • Burst Mode is not supported Burst Mode is not supported Burst Mode is not supported Burst Mode is not supported There are two ways of using the HART® communication: • as Point-to-Point connection and •...

  • Page 180: Field Communicator 475 (Fc 475)

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S The HART® dynamic variables PV (Primary Variable), SV (Secondary Variable), TV (Third Variable) and 4V (Fourth Variable) can be assigned to any of the device variables. The HART® dynamic variable PV is always connected to the HART® current output which is, for example, assigned to level measurement.

  • Page 181: Asset Management Solutions (Ams ® )

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S ® 9.6 Asset Management Solutions (AMS ® The Asset Management Solutions Device Manager (AMS ) is a PC program from Emerson ® Process Management which is designed to configure and manage HART , PROFIBUS and Foundation Fieldbus devices.

  • Page 182: Process Device Manager (Pdm)

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S 9.8 Process Device Manager (PDM) ® The Process Device Manager (PDM) is a Siemens PC program designed to configure HART PROFIBUS devices. Device Descriptions (DDs) are used to integrate different devices into the PDM.

  • Page 183: Basic-Dd Menu Tree (Details For Settings)

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S 3 Basic Set-up 0 Auto Setup 1 Basic Parameters 2 Outputs 4 Detailed Set-up 1 Advanced Setup 1 LogIn / Logout 2 Setups 3 (Device Image) 4 (Manufacturer logo) 2 Info. 1 Identification...
  • Page 184 DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S 2 Diag/Service 1 Status 1 Standard Status 1 Device status / 2 Write protect 2 Device-Specific 1 Failures / 2 Warning Maintenance Required / 3 Warning Out Status Of Specification / 4 Info...
  • Page 185 DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S 2 Info. 1 Identification 1 Serial Number / 2 Converter Firmware Version / 3 Sensor Firmware Version / 4 HMI Firmware Version / 5 Electronic Version / 6 Mechanical Traceability 2 Installation 1 Installation Type...

  • Page 186: Hart ® Menu Tree For Ams

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S 8 Conversion Table (1-10) 1 Add One Point / 2 Modify One Point / 3 Delete Last Point / 4 Delete Table / 5 (device image) 6 Pt 1 1 Level / 2 Conversion...

  • Page 187: Ams Menu Tree (Details For Settings)

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S Configure / Setup Basic Setup Auto Setup Basic Parameters Outputs Detailed Setup Advanced Setups Info. Basic Parameters Outputs Application HART Variables Display Conversion Table (1-10) Service Master Support 9.10.2 AMS menu tree (details for settings) Process Variables Output.
  • Page 188 DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S Status Device Specific Status Failures: Oscillator Frequency Failure / Current Output Drift / Sensor ROM error / Sensor RAM error / Sensor EEPROM error / Converter ROM error / Converter RAM error / Converter EEPROM error / Sensor...
  • Page 189 DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S Detailed Setup Advanced Setups Language / Length Unit (On Local Display) / Conversion Unit (On Local Display) / Display Mode Conversion Table (Add One Point / Modify One Point / Delete Last Point / Delete Table)

  • Page 190: Hart® Menu Tree For Pdm

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S Detailed Setup Application Tracing Velocity / Auto product epsilon R / Epsilon R gas / Epsilon R Product / Thresholds Setting (Level Threshold / Probe End Threshold / Level Pulse Distance / Level Pulse Amplitude / Probe End Pulse...

  • Page 191: Pdm Menu Tree (Details For Settings)

    DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S Configure / Setup Basic Setup Auto Setup Basic Parameters Outputs Detailed Setup Advanced Setups Info. Basic Parameters Outputs Application HART Variables Display Conversion Table (1-10) Service Master Support 9.11.2 PDM menu tree (details for settings)
  • Page 192 DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S Status Device Specific Status Failures: Oscillator Frequency Failure / Current Output Drift / Sensor ROM error / Sensor RAM error / Sensor EEPROM error / Converter ROM error / Converter RAM error / Converter EEPROM error / Sensor...
  • Page 193 DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S Configure / Setup Basic Setup Auto Setup Access Level / LogIn/LogOut / Auto Setup Basic Parameters Tank Height / Block Distance / Time Constant / Length Unit (HART) / Conversion Unit (HART) / Elect...
  • Page 194 DESCRIPTION OF HART INTERFACE OPTIFLEX 8200 C/F/S Detailed Setup Info. Identification: Serial Number / Converter Firmware Version Sensor Firmware Version / HMI Firmware Version / Electronic Revision / Mechanical Traceability Installation: Installation Type / Tank Height Application: Application Type / Product Family...

  • Page 195: Appendix

    VFAC OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature and pressure OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature and pressure OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature and pressure...
  • Page 196 APPENDIX OPTIFLEX 8200 C/F/S Construction Construction Construction Construction Without NACE MR0175 (ISO 15156), MR0103 (ISO 17945) Converter version (Housing material / IP class) Converter version (Housing material / IP class) Converter version (Housing material / IP class) Converter version (Housing material / IP class)
  • Page 197 APPENDIX OPTIFLEX 8200 C/F/S Display - Documentation language Display - Documentation language Display - Documentation language Display - Documentation language English German French Italian Spanish Portuguese Japanese Chinese (simplified) A Russian B Czech C Turkish D Polish Enhanced functions Enhanced functions...
  • Page 198 APPENDIX OPTIFLEX 8200 C/F/S Probe / Probe end / Material Probe / Probe end / Material Probe / Probe end / Material Probe / Probe end / Material Without Single rod Ø8 mm (0.32¨) / none / 316L - 1.4404 / 0.6...4 m (1.97...13.12 ft)
  • Page 199 APPENDIX OPTIFLEX 8200 C/F/S EN 1092-1 Flanges E G 1 DN25 PN40 - Type B1 E H 1 DN25 P63 - Type B1 E K 1 DN25 PN100 - Type B1 E M 1 DN25 PN250 - Type B1 G G 1...
  • Page 200 APPENDIX OPTIFLEX 8200 C/F/S ASME B16.5 flanges A 1¨ 150 lb - RF A 1¨ 600 lb - RF M 1¨ 900 lb - RJ M 1¨ 2500 lb - RJ A 1½¨ 150 lb - RF A 1½¨ 300 lb - RF A 1½¨...
  • Page 201 APPENDIX OPTIFLEX 8200 C/F/S Calibration certificate Calibration certificate Calibration certificate Calibration certificate Without (accuracy ±2 mm (0.08¨) up to 10 m (32.81 ft)) Calibration certificate ±2 mm (0.08¨), 2 factory default points Calibration certificate ±2 mm (0.08¨), 5 factory default points Calibration certificate ±2 mm (0.08¨),...

  • Page 202: Spare Parts

    Converter spare parts VFAC OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature and pressure OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature and pressure OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature and pressure...
  • Page 203 APPENDIX OPTIFLEX 8200 C/F/S Converter version (Housing material / IP class) Converter version (Housing material / IP class) Converter version (Housing material / IP class) Converter version (Housing material / IP class) C / Compact version (aluminium housing - IP66/IP68)
  • Page 204 APPENDIX OPTIFLEX 8200 C/F/S Display - Documentation language Display - Documentation language Display - Documentation language Display - Documentation language English German French Italian Spanish Portuguese Japanese Chinese (simplified) A Russian B Czech C Turkish D Polish Enhanced functions Enhanced functions...
  • Page 205 Mechanical spare parts XFAC OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature OPTIFLEX 8200 C/F/S Guided Radar (TDR) level transmitter for liquids at high temperature...
  • Page 206 APPENDIX OPTIFLEX 8200 C/F/S Process connection : Size / Pressure class / Sealing face Process connection : Size / Pressure class / Sealing face Process connection : Size / Pressure class / Sealing face Process connection : Size / Pressure class / Sealing face Without Threaded –...
  • Page 207 APPENDIX OPTIFLEX 8200 C/F/S ASME B16.5 flanges A 1¨ 150 lb - RF A 1¨ 600 lb - RF M 1¨ 900 lb - RJ M 1¨ 2500 lb - RJ A 1½¨ 150 lb - RF A 1½¨ 300 lb - RF A 1½¨...
  • Page 208 APPENDIX OPTIFLEX 8200 C/F/S Alternative flange faces Alternative flange faces Alternative flange faces Alternative flange faces Type E, EN 1092-1 (Spigot) B FF, ASME B16.5 (Flat face) Options Options Options Options Without With BM26 A Accessories / Tag plate Accessories / Tag plate...
  • Page 209 APPENDIX OPTIFLEX 8200 C/F/S Other spare parts (compact version and sensor extension with compact version) Figure 10-1: Other spare parts (compact version and sensor extension with compact version) 1 Cover without LCD display 2 Cover for Ex d module 3 Cover with LCD display 4 Set of screws and gaskets for the housing 5 Cable gland / M20×1.5...
  • Page 210 APPENDIX OPTIFLEX 8200 C/F/S Item Description Quantity Part reference Cable gland / M20×1.5; Plastic; Black; non-Ex (GP) XF20030100 Cable gland / M20×1.5; Plastic; Blue; Ex i (IS) XF20030200 Cable gland / M20×1.5; Brass; Ex d (XP) XF20030300 Cable gland / M20×1.5; Stainless Steel; Ex d (XP) XF20030400 Cable gland / M20×1.5;...
  • Page 211 APPENDIX OPTIFLEX 8200 C/F/S Item Description Quantity Part reference Cover for Ex d module, aluminium XFDA010200 Cover for Ex d module, stainless steel XFDA011200 Cover with LCD display (12 languages - English by default), XFDA020100 aluminium Cover with LCD display (12 languages - English by default), stainless...

  • Page 212: Accessories

    APPENDIX OPTIFLEX 8200 C/F/S 10.3 Accessories We supply accessories for this device. When you send orders for accessories, please give the reference numbers that follow: Figure 10-3: Accessories 1 HMI service tool 2 Viator RS232 / HART converter 3 Viator USB / HART converter 4 Weather protection, compact converter version –...

  • Page 213: Glossary

    APPENDIX OPTIFLEX 8200 C/F/S 10.4 Glossary Cable Cable Cable Cable This is a wire rope. It is used as a measurement pulse guide. Dielectric constant Dielectric constant Dielectric constant Dielectric constant An electrical property of the product to be measured used in TDR measurement.
  • Page 214 APPENDIX OPTIFLEX 8200 C/F/S Figure 10-4: Types of emulsion 1 Constant-mix emulsion 2 Gradually mixed emulsion 3 Interface distance 4 Oil 5 Water 6 Emulsion (constant mix, >5% of water) 7 Emulsion (gradually mixes with water) Interface Interface Interface Interface A surface where two liquids meet.
  • Page 215 APPENDIX OPTIFLEX 8200 C/F/S Operators Operators Users who can choose how to display measurements. They cannot Operators Operators configure the device in supervisor mode. Probe Probe Probe Probe This is either a metallic cable or rod used to guide the measurement pulse to the process.
  • Page 216 APPENDIX OPTIFLEX 8200 C/F/S Figure 10-5: Measurement definitions 1 1 Interface distance 2 Distance 3 Flange facing 4 Gas (Air) 5 Interface 6 Probe length, L 7 Tank height 8 Ullage volume or mass Figure 10-6: Measurement definitions 2 1 Layer...

  • Page 217: Notes

    NOTES OPTIFLEX 8200 C/F/S 06/2018 - 4006448901 - MA OPTIFLEX 8200 R01 en www.krohne.com...
  • Page 218 NOTES OPTIFLEX 8200 C/F/S www.krohne.com 06/2018 - 4006448901 - MA OPTIFLEX 8200 R01 en...
  • Page 219 NOTES OPTIFLEX 8200 C/F/S 06/2018 - 4006448901 - MA OPTIFLEX 8200 R01 en www.krohne.com...
  • Page 220 • Process Analysis • Services Head Office KROHNE Messtechnik GmbH Ludwig-Krohne-Str. 5 47058 Duisburg (Germany) Tel.: +49 203 301 0 Fax: +49 203 301 10389 info@krohne.com The current list of all KROHNE contacts and addresses can be found at: www.krohne.com...

This manual is also suitable for:

Optiflex 8200 fOptiflex 8200 s

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