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OPTIFLEX 1300 C
OPTIFLEX 1300 C
OPTIFLEX 1300 C
OPTIFLEX 1300 C
Guided Radar (TDR) Level Meter
for distance, level, volume and mass measurement of liquids, liquid interface, pastes
and solids
© KROHNE 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en
Handbook
Handbook
Handbook
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Related Manuals for KROHNE OPTIFLEX 1300 C
Summary of Contents for KROHNE OPTIFLEX 1300 C
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Page 1
OPTIFLEX 1300 C OPTIFLEX 1300 C Handbook Handbook Handbook Handbook Guided Radar (TDR) Level Meter for distance, level, volume and mass measurement of liquids, liquid interface, pastes and solids © KROHNE 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 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 2010 by KROHNE Messtechnik GmbH — Ludwig-Krohne-Str. 5 — 47058 Duisburg (Germany) www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en… -
Page 3: Table Of Contents
CONTENTS OPTIFLEX 1300 C 1 Safety instructions 1.1 Intended use ……………………6 1.2 Certification ……………………6 1.3 Electromagnetic compatibility ………………6 1.4 Safety instructions from the manufacturer …………..7 1.4.1 Copyright and data protection ………………..7 1.4.2 Disclaimer ……………………..7 1.4.3 Product liability and warranty ………………..
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Page 4
CONTENTS OPTIFLEX 1300 C 4 Electrical connections 4.1 Safety instructions………………….55 4.2 Electrical installation: outputs 1 and 2 …………….55 4.3 Electrical connection for current output …………… 56 4.3.1 Non-Ex……………………… 56 4.3.2 Ex i ……………………….56 4.3.3 Ex d ……………………….56 4.3.4 PROFIBUS PA…………………… -
Page 5
CONTENTS OPTIFLEX 1300 C 6.4.12 How to decrease the length of probes…………….103 6.5 Service mode …………………… 104 6.6 Errors……………………..105 6.6.1 General information………………….105 6.6.2 Error handling……………………107 7 Service 7.1 Periodic maintenance………………..111 7.2 Keep the device clean………………..111 7.3 How to replace device components ……………. -
Page 6: Safety Instructions
SAFETY INSTRUCTIONS OPTIFLEX 1300 C 1.1 Intended use This TDR level transmitter measures distance, level, mass and volume of liquids, pastes, slurries, granulates and powders. It can also measure level and interface of liquids at the same time. It can be installed on tanks, silos and open pits.
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Page 7: Safety Instructions From The Manufacturer
SAFETY INSTRUCTIONS OPTIFLEX 1300 C 1.4 Safety instructions from the manufacturer 1.4.1 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.
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Page 8: Product Liability And Warranty
SAFETY INSTRUCTIONS OPTIFLEX 1300 C 1.4.3 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 and operation of the devices (systems) will cause the warranty to be void. The respective «Standard Terms and Conditions»…
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Page 9: Warnings And Symbols Used
SAFETY INSTRUCTIONS OPTIFLEX 1300 C 1.4.5 Warnings and symbols used Safety warnings are indicated by the following symbols. DANGER! This information 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.
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Page 10: Device Description
DEVICE DESCRIPTION OPTIFLEX 1300 C 2.1 Scope of delivery INFORMATION! Check the packing list to check if you received completely all that you ordered. Figure 2-1: Scope of delivery for compact version 1 Signal converter and probe — compact version.
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Page 11
DEVICE DESCRIPTION OPTIFLEX 1300 C Figure 2-2: Scope of delivery for the remote housing version 1 Signal converter and probe 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 35. -
Page 12: Device Description
DEVICE DESCRIPTION OPTIFLEX 1300 C 2.2 Device description The TDR level transmitter is designed to measure the distance, level, interface, mass and volume of liquids, pastes, slurries, granulates and powders. 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.
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Page 13: Visual Check
DEVICE DESCRIPTION OPTIFLEX 1300 C 2.3 Visual Check INFORMATION! Inspect the cartons carefully for damage or signs of rough handling. Report damage to the carrier and to the local office of the manufacturer. Figure 2-3: Visual check 1 Device nameplate (for more data, refer to…
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Page 14: Nameplates
DEVICE DESCRIPTION OPTIFLEX 1300 C 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 2-5: Non-Ex nameplate…
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Page 15: Installation
INSTALLATION OPTIFLEX 1300 C 3.1 Notes on installation INFORMATION! Inspect the cartons carefully for damage or signs of rough handling. Report damage to the carrier and to the local office of the manufacturer. INFORMATION! Check the packing list to check if you received completely all that you ordered.
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Page 16: Storage
INSTALLATION OPTIFLEX 1300 C 3.2 Storage WARNING! Do not keep the device in a vertical position. This will damage the probe and the device will not measure correctly. Figure 3-1: Storage conditions 1 Do not bend rod and coaxial probes — support here 2 Storage temperature range: -40…+85°C / -40…+185°F…
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Page 17: Transport
INSTALLATION OPTIFLEX 1300 C 3.3 Transport Figure 3-3: How to hold the device Figure 3-4: How to hold the device 1 Remove the converter before you lift the device with a hoist. 2 Wind cable probes greater than 400 mm / 16¨ in diameter.
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Page 18: Pre-Installation Requirements
INSTALLATION OPTIFLEX 1300 C 3.4 Pre-installation requirements INFORMATION! Obey the precautions that follow to make sure that the device is correctly installed. • Make sure that there is sufficent space on all sides. • Protect the signal converter from direct sunlight. If necessary, install the weather protection accessory.
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Page 19
INSTALLATION OPTIFLEX 1300 C Temperature ranges for gaskets Gasket material Process connection temperature Standard version High-Pressure version High-Temperature and High-Temperature / High-Pressure versions [°C] [°F] [°C] [°F] [°C] [°F] FKM/FPM -40…+200 -40…+390 -40…+150 -40…+300 -40…+300 -40…+570 -20…+200 -4…+390 -20…+150 -4…+300 -20…+300… -
Page 20: General Information For Nozzles
INSTALLATION OPTIFLEX 1300 C 3.5.2 General information for nozzles CAUTION! Follow these recommendations to make sure that the device measures correctly. Figure 3-6: Recommended nozzle dimensions 1 Recommended conditions: h ≤ d, where h is the height of the tank nozzle and d is the diameter of the tank nozzle.
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Page 21
INSTALLATION OPTIFLEX 1300 C Figure 3-8: Do not put the device near to a product inlet 1 The device is in the correct position. 2 The device is too near to the product inlet. 3 If it is not possible to put the device in the recommended position, install a deflector pipe. -
Page 22: Installation Requirements For Concrete Roofs
INSTALLATION OPTIFLEX 1300 C 3.5.3 Installation requirements for concrete roofs Figure 3-10: Installation on a concrete roof 1 The diameter, d, of the hole must be greater than the thickness, t, of the concrete. 2 If the thickness, t, of the concrete is greater than the diameter, d, of the hole, install the device in a recess.
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Page 23: How To Attach Probes To The Bottom Of The Tank
INSTALLATION OPTIFLEX 1300 C INFORMATION! If your device has a coaxial probe, you can ignore these installation recommendations. CAUTION! Install coaxial probes in clean liquids that are not too viscous. INFORMATION! If the device has to measure the level of dangerous products (ammonia etc.), we recommend ®…
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Page 24
INSTALLATION OPTIFLEX 1300 C Double cable Ø4 mm / 0.15¨ Figure 3-13: How to attach a double cable probe to keep it straight The probe counterweight has a hole with an M8 internal thread. You can also select the appropriate options and attach:… -
Page 25
INSTALLATION OPTIFLEX 1300 C Single cable Ø4 mm / 0.15¨ Figure 3-15: How to attach a Ø4 mm / 0.15¨ single cable probe to keep it straight The probe counterweight has a hole with an M8 internal thread. You can also select the… -
Page 26: Standpipes
INSTALLATION OPTIFLEX 1300 C Single cable Ø2 mm / 0.08¨ Figure 3-16: How to attach a Ø2 mm / 0.08¨ single cable probe to keep it straight The probe counterweight has a hole with an M8 internal thread. You can attach:…
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Page 27
INSTALLATION OPTIFLEX 1300 C Figure 3-18: Basic installation recommendations for standpipes (stilling wells and bypass chambers) 1 Stilling well 2 Bypass chamber 3 Air circulation hole 4 Level of the liquid CAUTION! Installation requirements The standpipe must be electrically conductive. -
Page 28
INSTALLATION OPTIFLEX 1300 C Figure 3-19: Installation recommendations for stilling wells 1 Stilling well in tanks containing one liquid 2 Stilling well in tanks containing more than one liquid 3 Air circulation hole 4 Maximum level of the liquid 5 Liquid circulation hole 6 Distance between holes ≥… -
Page 29
INSTALLATION OPTIFLEX 1300 C Figure 3-20: Floating roofs 1 Sediment 2 Support fixtures 3 Stilling well 4 Floating roof 5 Product 6 Tank Bypass chamber — general notes Figure 3-21: Installation recommendations for bypass chambers 1 Bypass chamber for tanks that contain one liquid 2 Bypass chamber for tanks that contain more than one liquid 3 Distance between holes ≤… -
Page 30
INSTALLATION OPTIFLEX 1300 C Installation on tanks containing one liquid and foam • The bypass chamber must have a process connection that is above the maximum level of liquid. • The bypass chamber must have a process connection that is below the lowest measured level of liquid. -
Page 31: Typical Applications
INSTALLATION OPTIFLEX 1300 C 3.6.4 Typical applications Spherical tanks The device can measure liquid petroleum gas (LPG). This product is stocked in spherical tanks. Figure 3-23: A spherical tank Figure 3-24: How to install the device on a spherical tank 1 Install the device on top of the tank 2 If the top platform has the shape of a nozzle, do not install the process connection too near to the wall.
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Page 32
INSTALLATION OPTIFLEX 1300 C Horizontal cylindrical tanks Obey the instructions for installation in vertical tanks. Figure 3-25: How to install the device in a horizontal cylindrical tank www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en… -
Page 33: Installation Recommendations For Solids
INSTALLATION OPTIFLEX 1300 C 3.7 Installation recommendations for solids 3.7.1 Nozzles on conical silos We recommend that you prepare the installation when the silo is empty. DANGER! Risk of electrostatic discharge (ESD): Risk of electrostatic discharge (ESD): The device is resistant to electrostatic discharges of up to…
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Page 34: Traction Loads On The Probe
INSTALLATION OPTIFLEX 1300 C Clearance between the probe and other objects in the tank Probe type Empty space (radius, R ) around the probe [mm] [inches] Single cable Ø4 mm / 0.15¨ 4 Single cable Ø8 mm / 0.3¨ 4…
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Page 35: How To Install The Device On The Tank
INSTALLATION OPTIFLEX 1300 C 3.8 How to install the device on the tank 3.8.1 How to assemble the single rod probe (single-piece probe) INFORMATION! This procedure is for devices with single rod probes that are not segmented (single-piece probes). Figure 3-27: Equipment needed to assemble the device…
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Page 36
INSTALLATION OPTIFLEX 1300 C Figure 3-28: Check the order number on each component • Make sure that the housing assembly and the single rod have the same ID numbers. • Remove the sticker from the probe. www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en… -
Page 37
INSTALLATION OPTIFLEX 1300 C Figure 3-29: How to attach the locking nut and union nut • Attach a locking nut and the union nut to the housing assembly. • Tighten these nuts with the two 8 mm open-ended wrenches. 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en… -
Page 38
INSTALLATION OPTIFLEX 1300 C Figure 3-30: How to attach the single rod probe to the flange assembly CAUTION! Support the probe. • Attach a locking nut to the single rod. • Attach the single rod to the union nut. Make sure the probe touches the housing assembly. -
Page 39: How To Assemble The Single Rod Probe (Segmented Probe)
INSTALLATION OPTIFLEX 1300 C 3.8.2 How to assemble the single rod probe (segmented probe) INFORMATION! This procedure is for devices with single rod probes that are segmented. Figure 3-31: Equipment needed to assemble the single rod probe (segmented) 1 Converter and process connection…
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Page 40
INSTALLATION OPTIFLEX 1300 C Figure 3-32: How to assemble the segmented single rod probe: part 1 CAUTION! Make sure that the nuts are tight and the rod probe cannot loosen. • Attach a lock nut to the threaded rod below the process connection. Turn the nut until it is ¾… -
Page 41
INSTALLATION OPTIFLEX 1300 C Figure 3-33: How to assemble the segmented single rod probe: part 2 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 42: How To Assemble The Segmented Coaxial Probe
INSTALLATION OPTIFLEX 1300 C 3.8.3 How to assemble the segmented coaxial probe Figure 3-34: Equipment needed to assemble the coaxial probe 1 Converter and process connection 2 Top (quantity: 1), middle (quantity: 1 or more) and bottom (quantity: 1) segments of the signal rod 3 Lockwashers (1 pair of washers per probe segment) 4 HC M4×20 screws (1 screw per probe segment)
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Page 43
INSTALLATION OPTIFLEX 1300 C Figure 3-35: How to assemble the segmented coaxial probe: part 1 CAUTION! Do not attach the screw to the end of the rod segment that has a groove for the attachment of a PTFE spacer. • Use a 2 mm Allen wrench to attach and tighten a HC M4×20 screw at the top of each rod segment (intermediary and end rod segments) •… -
Page 44
INSTALLATION OPTIFLEX 1300 C Figure 3-36: How to assemble the segmented coaxial probe: part 2 WARNING! Be careful when you use the pipe wrenches. Make sure that the measuring tubes have no deformation. CAUTION! Make sure that the screws are tight and the measuring tube cannot loosen. -
Page 45: How To Install A Device With A Flange Connection
INSTALLATION OPTIFLEX 1300 C 3.8.4 How to install a device with a flange connection Equipment needed: • Device • Gasket (not supplied) • Wrench (not supplied) Figure 3-37: Flange connection • Make sure the flange on the nozzle is level.
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Page 46: How To Install A Device With A Threaded Connection
INSTALLATION OPTIFLEX 1300 C 3.8.5 How to install a device with a threaded connection Equipment needed: • Device • Gasket (not supplied with G (ISO 228) threaded connections) • 50 mm / 2¨ wrench (not supplied) Figure 3-38: Threaded connection •…
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Page 47: How To Install A Cable Probe In The Tank
INSTALLATION OPTIFLEX 1300 C 3.8.6 How to install a cable probe in the tank Figure 3-39: Wind cable probes and flexible conduits carefully 1 Do not wind cable probes less than 400 mm / 16¨ in diameter. 2 Do not wind the flexible conduit less than 330 mm / 13¨ in diameter.
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Page 48: Installation Recommendations For Non-Metallic Tanks And Pits
INSTALLATION OPTIFLEX 1300 C 3.8.7 Installation recommendations for non-metallic tanks and pits If you have a device with a single rod or a single cable probe and a thread connection, obey these instructions: • Put a metal sheet between the device and the process connection.
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Page 49: How To Assemble The Remote Housing
INSTALLATION OPTIFLEX 1300 C 3.8.8 How to assemble the remote housing Figure 3-42: Part 1 of assembly procedure • Attach the wall bracket 1to the flexible conduit. • Tighten the locking nut 2 with a 24 mm wrench. • Attach the wall bracket to a wall or pipe (DN50…100 / 2¨…4¨) 3.
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Page 50
INSTALLATION OPTIFLEX 1300 C Figure 3-43: Part 2 of the assembly procedure • Attach the housing to the flexible conduit 6. • Tighten the housing locking screw 7. • Attach the flexible conduit to the probe 8. • Tighten the flexible conduit locking screw 9. -
Page 51
INSTALLATION OPTIFLEX 1300 C You can attach the wall bracket of the remote housing to a wall or pipe (DN50…100 / 2¨…4¨). These are the dimensions: Figure 3-44: Dimensions of the wall bracket Dimensions in mm Dimensions [mm] Wall 67.4 126.4… -
Page 52: How To Turn Or Remove The Signal Converter
INSTALLATION OPTIFLEX 1300 C 3.8.9 How to turn or remove the signal converter INFORMATION! The converter turns 360 ° Figure 3-45: How to turn or remove the signal converter Tool: 5 mm Allen wrench How to turn the signal converter •…
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Page 53: How To Attach The Weather Protection To The Device
INSTALLATION OPTIFLEX 1300 C 3.8.10 How to attach the weather protection to the device Equipment needed: • Device • Weather protection (option) • 10 mm wrench (not supplied) Refer to «Technical data: Dimensions and weight», for the overall dimensions of the weather protection.
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Page 54: How To Open The Weather Protection
INSTALLATION OPTIFLEX 1300 C 3.8.11 How to open the weather protection Equipment needed: • Weather protection attached to the device. • Large slotted tip screwdriver (not supplied). Figure 3-47: How to open the weather protection 1 Weather protection in its closed position 2 Weather protection in its open position.
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Page 55: Electrical Connections
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 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;…
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Page 56: Electrical Connection For Current Output
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C Procedure: • Remove the housing terminal compartment cover 1. • Connect the wires to the device. Obey the national electrical codes. • Make sure that the polarity of the wires is correct. • Attach the ground to 4 or 7. Both terminals are technically equivalent.
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Page 57: Profibus Pa
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.3.4 PROFIBUS PA For electrical data for PROFIBUS PA networks, refer to the PROFIBUS PA supplement. You can find this documentation on the CD-ROM delivered with the device or it can be downloaded free of charge from the website (Downloadcenter).
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Page 58: Networks
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.5 Networks 4.5.1 General information ® ® The device uses the HART communication protocol. This protocol agrees with the HART Communication Foundation standard. The device can be connected point-to-point. It can also operate in a multi-drop network of up to 15 devices.
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Page 59: Multi-Drop Networks
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.5.3 Multi-drop networks Figure 4-5: 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…
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Page 60: Fieldbus Networks
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.5.4 Fieldbus networks FOUNDATION Fieldbus™ network (non-Ex) Figure 4-6: FOUNDATION Fieldbus™ network (non-Ex) 1 Field device 2 Junction box 3 H1 network 4 H1/HSE converter 5 High Speed Ethernet (HSE) 6 Workstation INFORMATION! It is necessary to have a separate power supply to energize devices with the FOUNDATION ™…
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Page 61
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C PROFIBUS PA/DP network (non-Ex) Figure 4-7: PROFIBUS PA/DP network (non-Ex) 1 Field device 2 Bus termination 3 PROFIBUS PA bus segment 4 Segment coupler (PA/DP link) 5 PROFIBUS DP bus line 6 Control system (PLC / Class 1 master device) -
Page 62: Start-Up
START-UP OPTIFLEX 1300 C 5.1 Start-up checklist Check these points before you energize the device: • Are all the wetted components (probe, flange and gaskets) resistant to the product in the tank? • Does the information on the signal converter nameplate agree with the operating data? •…
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Page 63: Digital Display Screen
START-UP OPTIFLEX 1300 C 5.3 Digital display screen 5.3.1 Local display screen layout Figure 5-1: Local display screen layout 1 Error icon 2 Tag number or menu name 3 Selected menu item (gray text cannot be selected) : scroll up/scroll down 5 Keypad buttons (refer to the table below) 5.3.2 Keypad buttons…
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Page 64: How To Start The Device
START-UP OPTIFLEX 1300 C 5.3.4 How to start the device • Connect the converter to the power supply. • Energize the converter. After 30 seconds the screen will display «booting up», «starting up» and then the default screen will appear.
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Page 65: Remote Communication With The Ams™ Device Manager
START-UP OPTIFLEX 1300 C Figure 5-2: Screen from the PACTware™ user interface 1 DTM menu 2 Basic measurement information: level, current output and device status 3 Information for device identification 4 Configuration summary 5.5 Remote communication with the AMS™ Device Manager The AMS™…
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Page 66: Operation
OPERATION OPTIFLEX 1300 C 6.1 User modes There are 3 modes of operation: • Operator. • Supervisor. • Service. 6.2 Operator mode The operator can choose what information to display. This section shows you: • What each button does in operator mode.
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Page 67
OPERATION OPTIFLEX 1300 C Information screens for a device with 1 output Text and image Go to % current output Go to Text screen Go to screen screen Level > <Output 1: > Level > (Text Output Function> image) Interface Level >… -
Page 68
OPERATION OPTIFLEX 1300 C Information screens for a device with the second output option Text and image Go to % current output Go to Text screen Go to screen screen Level > <Output 1: output > Level > (Text function>… -
Page 69: Supervisor Mode
OPERATION OPTIFLEX 1300 C 6.3 Supervisor mode 6.3.1 General notes Configure your device in Supervisor Supervisor mode. You can: Supervisor Supervisor • Use the Quick Setup Quick Setup Quick Setup Quick Setup menus to configure your device quickly. For more data about Quick…
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Page 70: Menu Overview
OPERATION OPTIFLEX 1300 C 6.3.3 Menu overview A Quick Setup Setup Mode Quick Link 1 (default: Error Records) Quick Link 2 (default: Contrast) Quick Link 3 (default: Language) Quick Link 4 (default: Length Unit) Quick Link 5 (default: Display Mode)
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Page 71: Keypad Functions
OPERATION OPTIFLEX 1300 C 6.3.4 Keypad functions Menu navigation Figure 6-1: Menu navigation 1 Menu selection bar 2 Header bar 3 Menu list 4 Menu item that is not available (in gray text) This is what you see when you are in the list of menus in supervisor mode. The functions of the…
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Page 72
OPERATION OPTIFLEX 1300 C Lists of parameters in menu items Figure 6-2: Lists of parameters in menu items 1 Parameter selection bar 2 Menu name 3 Parameter used at this time This is what you see when you choose a menu item that has a list of parameters. The functions of… -
Page 73
OPERATION OPTIFLEX 1300 C Values in menu items Figure 6-3: Values in menu items 1 Maximum value 2 Minimum value 3 Cursor on the digit to be changed 4 Menu name 5 Illustration of menu item 6 Error message This is what you see when you choose a menu item that has a value. The functions of the buttons… -
Page 74: Function Description
OPERATION OPTIFLEX 1300 C If you press the buttons for 1 second, you can use these hotkey functions: Hotkey functions in supervisor mode Button Description Function Right Create a quick link Enter Down Screen displays information in English Esc (Escape)
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Page 75
OPERATION OPTIFLEX 1300 C Menu Step Function Function description Selection list Default Top Product Liquid: Liquid: Alcohol, Liquid: Liquid: Base, Hydrocarbon, Liquid Gas, Mineral Oil, Solvent, Aqueous Solution, Other Solid: Solid: Cereals, Solid: Solid: Minerals, Plastic, Other Application Type: Level, Interface,… -
Page 76
OPERATION OPTIFLEX 1300 C Menu Step Function Function description Selection list Default Sub- Conversion menu submenu [Volume] [Volume] [Volume] [Volume] Do you want to use Select «No». Yes, No a free unit? Table Length Unit m, cm, mm, inch, ft,… -
Page 77
OPERATION OPTIFLEX 1300 C Menu Step Function Function description Selection list Default Mass Table A table that converts product level to product mass. If you selected «Yes» in step 4, make entries in the table in volume units. Press to select a line and press >… -
Page 78
OPERATION OPTIFLEX 1300 C Menu Step Function Function description Selection list Default Output 1 (HART): This assigns a min.-max: Depends on <Function> 20 mA measurement value to 0…90 m / the output 20 mA (output 1). 0…295.29 ft function Output Range This sets the effective 3.8…20.5 mA… -
Page 79
OPERATION OPTIFLEX 1300 C Menu Step Function Function description Selection list Default A.1.6 Snapshot Use this to find and filter out parasite signals in user-defined areas along the probe. Partially empty or completely empty the tank before you do this procedure. -
Page 80
OPERATION OPTIFLEX 1300 C Menu Step Function Function description Selection list Default Quick Link 2 Direct link to an item in Go to a function in Contrast the Advanced Setup the Advanced Setup menu menu and press > for 1 second. You… -
Page 81
OPERATION OPTIFLEX 1300 C Menu Function Function description Selection list Default B.1.5 Internal Test This initiates the hardware test. Read only The device displays the results. Information A summary of information relating to the device. B.2.1 Outputs Analogue output settings. This… -
Page 82
OPERATION OPTIFLEX 1300 C Menu Function Function description Selection list Default B.2.11 Application This displays the description of Read only Mode the algorithm applied to the measurement function and application conditions. This is configured in the Application Application Application Application setup menu. -
Page 83
OPERATION OPTIFLEX 1300 C Menu Function Function description Selection list Default C.1.6 Probe Length Probe length is the distance min-max: blocking Depends on the from the flange face / thread distance…max. probe probe type. stop of the device down to the… -
Page 84
OPERATION OPTIFLEX 1300 C Menu Function Function description Selection list Default C.1.13 Measuring In Direct Direct Direct mode, the device Direct Automatic, Direct, TBF Automatic Mode measures the time it takes to receives a reflection of the signal from the surface of the tank contents. -
Page 85
OPERATION OPTIFLEX 1300 C Menu Function Function description Selection list Default Snapshot Starts or stops the operation of Yes, No the snapshot signal filter. Obey the instructions in the quick setup menu to get snapshot data. For more data, refer to… -
Page 86
OPERATION OPTIFLEX 1300 C Menu Function Function description Selection list Default C.3.5 Error This sets the behaviour of 3.6 mA, 22 mA, Hold 22 mA Handling current output 1 if an error occurs. Hold Hold means that the Hold Hold… -
Page 87
OPERATION OPTIFLEX 1300 C Menu Function Function description Selection list Default C.5.1.2 Display Mode The display screen status will Disable, Auto-Off, Default Disable change after the time given in Screen. C.5.1.3. (time delay). Disable Disable Disable Disable switches off this functionality,… -
Page 88
OPERATION OPTIFLEX 1300 C Data dependencies for the 4 mA settings of outputs 1 and 2 Output function Minimum value Maximum value Default Level <20 mA Setting for Level Volume 0.00 m³ <20 mA Setting for Volume 0 m³ Mass 0.00 kg… -
Page 89: Further Information On Device Configuration
OPERATION OPTIFLEX 1300 C 6.4 Further information on device configuration 6.4.1 Quick Links If you frequently use a menu item, you can create a Quick Link. This lets you quickly find and configure items in the advanced setup menu. Five Quick Link memory spaces are available in the…
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Page 90: Protection Of The Device Settings
OPERATION OPTIFLEX 1300 C 6.4.2 Protection of the device settings The Passwords Passwords Passwords menu lets you change the supervisor password. Passwords How to change the supervisor password • Go to Supervisor > Advanced setup > Device setup > Passwords > Supervisor Supervisor >…
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Page 91: Network Configuration
OPERATION OPTIFLEX 1300 C 6.4.3 Network configuration INFORMATION! For more data, refer to Networks on page 58 ® ® The device uses HART communication to send information to HART -compatible equipment. It can operate in either point-to-point or multidrop mode. The device will communicate in ®…
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Page 92: Linearisation
OPERATION OPTIFLEX 1300 C 6.4.4 Linearisation You can use the linearisation table given in function to make sure that readings are consistently accurate. • Go to Supervisor > Advanced Setup > Installation Setup > Linearisation Table Supervisor > Advanced Setup > Installation Setup > Linearisation Table.
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Page 93: Level Measurement
OPERATION OPTIFLEX 1300 C Figure 6-5: Distance measurement 1 Tank Height (C.1.2) 2 Reference Offset (C.1.10) 3 Blocking Distance (C.1.9) 4 4 mA Setting (C.3.2 or C.4.2) 5 20 mA Setting (C.3.3 or C.4.3) 6 Maximum effective measuring range 7 Non-measurement zone…
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Page 94: How To Configure The Device To Measure Volume Or Mass
OPERATION OPTIFLEX 1300 C Figure 6-6: Level measurement 1 Tank Bottom Offset (C.1.11) 2 Tank Height (C.1.2) 3 Blocking Distance (C.1.9) 4 Maximum effective measuring range 5 20 mA Setting (C.3.3 or C.4.3) 6 4 mA Setting (C.3.2 or C.4.2)
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Page 95: How To Make The Device Follow The Correct Level Or Interface Signal
OPERATION OPTIFLEX 1300 C INFORMATION! When you create a table, get more conversion data for parts of the tank where there are: Surfaces with curves. • Sudden changes in the cross section. • This will make volume measurement more accurate.
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Page 96
OPERATION OPTIFLEX 1300 C Figure 6-8: Areas on the signal screen 1 Reference signal area (the value cannot be changed) 2 Level signal area (use the distance input function to change the level value) 3 Interface signal area (use the distance input function to change the interface value) -
Page 97: Thresholds And Parasitic Signals
OPERATION OPTIFLEX 1300 C How to adjust the interface distance value to make the device measure interface correctly (devices for interface measurement only). Operator mode • Go to the signal screen in operator mode. For more data, refer to on page 66.
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Page 98
OPERATION OPTIFLEX 1300 C The electronics of the device amplify the signal. The amplification factor (level of Gain) depends on the strength of the signal. There are 7 levels (1 to 7). A strong signal is given Gain 1, while a weak signal is given Gain 7. When you fill or empty the tank, the device usually identifies the signal. -
Page 99
OPERATION OPTIFLEX 1300 C If the parasite is smaller than the correct level, you can manually change the threshold to find the signal. This procedure tells you how to change the level threshold to find the correct signal: • Look at the signal screen in operator mode. -
Page 100
OPERATION OPTIFLEX 1300 C Interface threshold INFORMATION! If the device is set at the factory to measure interface, you can change the interface threshold. When there is more than one liquid in the tank, the device uses a second threshold to measure interface. -
Page 101: How To Use The Snapshot Function To Filter Parasitic Signals
OPERATION OPTIFLEX 1300 C 6.4.10 How to use the snapshot function to filter parasitic signals The thresholds cannot find the level of the tank contents if it is below a large parasitic signal. This shows the signals as you can see them on an oscilloscope:…
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Page 102: How To Measure Products With A Low Dielectric Constant (E R )
OPERATION OPTIFLEX 1300 C 6.4.11 How to measure products with a low dielectric constant (ε The device can measure the level of liquids and solids with low dielectric constants. The minimum value depends on the probe type and the measuring mode.
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Page 103: How To Decrease The Length Of Probes
OPERATION OPTIFLEX 1300 C 6.4.12 How to decrease the length of probes INFORMATION! This information is for: Ø4 mm / 0.15 double cable, • ¨ single rod, • Ø2 mm / 0.08 single cable and • ¨ Ø4 mm / 0.15 single cable probes only •…
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Page 104: Service Mode
OPERATION OPTIFLEX 1300 C Figure 6-13: Dimensions of the counterweights 1 Ø2 mm / 0.08¨ single cable probe 2 Ø4 mm / 0.15¨ single cable probe 3 Ø4 mm / 0.15¨ double cable probe Dimensions in mm Probe type Dimensions [mm] Øc…
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Page 105: Errors
OPERATION OPTIFLEX 1300 C 6.6 Errors 6.6.1 General information Indication of errors When the device senses an error or warning condition, it displays an error / warning symbol in the top left corner of the display screen. Figure 6-14: Indication of errors…
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Page 106
OPERATION OPTIFLEX 1300 C How to find the error records • Enter supervisor mode. • Go to Test > Information > Error Records Test > Information > Error Records Test > Information > Error Records. Test > Information > Error Records •… -
Page 107: Error Handling
OPERATION OPTIFLEX 1300 C How to get more data about the error (error records function) • Select an error log and press ^ ^ ^ ^ to read the help text. Typical data is given in the illustration that follows.
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Page 108
OPERATION OPTIFLEX 1300 C Description of errors and corrective actions Error Message Error Description Corrective action code Current output Current output saturated at The output is at its maximum Fill the tank or remove some maximum value. output value (20 or 20.5 mA) -
Page 109
OPERATION OPTIFLEX 1300 C Error Message Error Description Corrective action code Level measurement low The product is in the empty Fill the tank to at least the area. The measurement is bottom of the measuring held at the sensor length. -
Page 110
OPERATION OPTIFLEX 1300 C Error Message Error Description Corrective action code Level pulse lost This shows that the device The device continues to lost the level signal in direct measure in TBF mode. If the mode but finds the signal for device does not measure the end of the probe. -
Page 111: Service
SERVICE OPTIFLEX 1300 C 7.1 Periodic maintenance No maintenance is necessary. 7.2 Keep the device clean DANGER! Risk of electrostatic discharge from the plastic sun cover and the conduit of the remote housing option. WARNING! Do not clean plastic parts in a hazardous area.
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Page 112: Replacement Of The Display Cover
SERVICE OPTIFLEX 1300 C 7.3.2 Replacement of the display cover Figure 7-1: Removal of the device display cover www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en…
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Page 113
SERVICE OPTIFLEX 1300 C Equipment needed (not supplied): • Slotted tip screwdriver. • 3 mm Allen wrench (for steps 2 and 4). WARNING! Disconnect the power supply How to remove the display 1 Remove the 2 pins on the blue sun cover with a slotted tip screwdriver. Remove the sun cover. -
Page 114: Replacement Of The Complete Electonic Module
SERVICE OPTIFLEX 1300 C 7.3.3 Replacement of the complete electonic module Figure 7-2: Removal of the complete electronic module www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en…
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Page 115
SERVICE OPTIFLEX 1300 C Equipment needed (not supplied): • 3 mm Allen wrench (for steps 1 and 4). How to remove the back end and microwave unit 1 Loosen the screw on the display. Open the display. 2 Disconnect the power supply connector from the electronics block. -
Page 116: Replacement Of The Terminal Module
SERVICE OPTIFLEX 1300 C 7.3.4 Replacement of the terminal module Figure 7-3: Removal of the terminal module www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en…
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Page 117
SERVICE OPTIFLEX 1300 C Equipment needed (not supplied): • 2.5 mm Allen wrench for Aluminium (painted) housings; 3 mm Allen wrench for Stainless Steel housings (for step 1). • Small slotted tip screwdriver (for step 3). • TORX T10 wrench (for step 5). -
Page 118: Spare Parts Availability
SERVICE OPTIFLEX 1300 C 7.4 Spare parts availability The manufacturer adheres to the basic principle that functionally adequate spare parts for each device or each important accessory part will be kept available for a period of 3 years after delivery of the last production run for the device.
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Page 119
SERVICE OPTIFLEX 1300 C Part numbers for spare parts Item Description Quantity Part reference number Complete electronic module XF7140000000040000 Screws for the combined back end and HF modules F3177360000 HMI cover and cable (aluminium housing) XF7140000000050100 HMI cover and cable (stainless steel housing) -
Page 120: List Of Accessories
SERVICE OPTIFLEX 1300 C 7.4.2 List of accessories We supply accessories for this device. When you order accessories, please give the reference numbers that follow: Figure 7-5: Accessories www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en…
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Page 121
SERVICE OPTIFLEX 1300 C Part numbers for accessories Item Description Quantity Part reference number Plastic sun cover XF714000000000000A Pins for the plastic sun cover F3179990000 Stainless steel weather protection XF7140000000000001 Blind cover (with a gasket and screws) XF714000000000000B Gasket for the blind cover… -
Page 122: Availability Of Services
SERVICE OPTIFLEX 1300 C 7.5 Availability of services The manufacturer offers a range of services to support the customer after expiration of the warranty. These include repair, technical support and training. INFORMATION! For more precise information, please contact your local representative.
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Page 123: Form (For Copying) To Accompany A Returned Device
SERVICE OPTIFLEX 1300 C 7.6.2 Form (for copying) to accompany a returned device Company: Address: Department: Name: Tel. no.: Fax no.: Manufacturer’s order no. or serial no.: The device has been operated with the following medium: This medium is: water-hazardous…
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Page 124: Disposal
SERVICE OPTIFLEX 1300 C 7.7 Disposal CAUTION! Disposal must be carried out in accordance with legislation applicable in your country. www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en…
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Page 125: Technical Data
TECHNICAL DATA OPTIFLEX 1300 C 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 half a 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…
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Page 126
TECHNICAL DATA OPTIFLEX 1300 C Level measurement principle (direct measurement) 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 127
TECHNICAL DATA OPTIFLEX 1300 C 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 128: Technical Data
TECHNICAL DATA OPTIFLEX 1300 C 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 representative. Additional information (certificates, special tools, software,…) and complete product •…
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Page 129
TECHNICAL DATA OPTIFLEX 1300 C Accuracy Resolution 1 mm / 0.04¨ Repeatability ±1 mm / ±0.04¨ Accuracy (in direct mode) Liquids: Liquids: Liquids: Liquids: ±3 mm / ±0.12¨, when distance < 10 m / 33 ft; ±0.03% of measured distance, when distance > 10 m / 33 ft… -
Page 130
TECHNICAL DATA OPTIFLEX 1300 C Other conditions Other conditions Other conditions Other conditions Dielectric constant (ε Level in direct mode: Level in direct mode: Level in direct mode: Level in direct mode: ≥1.4 for coaxial probe; ≥1.6 for single and double probes… -
Page 131: Input And Output
TECHNICAL DATA OPTIFLEX 1300 C Process connections Thread Thread Thread Thread Single cable Ø2 mm / 0.08¨ G ½; ½ NPT; ½ NPTF (for the HT/HP version) Single cable Ø8 mm / 0.3¨ G 1½; 1½ NPT All other probes G ¾…1½;…
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Page 132
TECHNICAL DATA OPTIFLEX 1300 C Resolution ±3 µA Temperature drift Typically 50 ppm/K Error signal High: 22 mA; Low: 3.6 mA acc. to NAMUR NE 43 PROFIBUS PA PROFIBUS PA PROFIBUS PA PROFIBUS PA Type 4-wire (+ local HART) level transmitter; Time Domain Reflectometry (TDR) -
Page 133
TECHNICAL DATA OPTIFLEX 1300 C Approvals and certification This device fufills the statutory requirements of the EC directives. The manufacturer certifies successful testing of the product by applying the CE mark. Explosion protection Explosion protection Explosion protection Explosion protection ATEX (approval for fieldbus ATEX II 1 G, 1/2 G, 2 G Ex ia IIC T6…T2;… -
Page 134: Pressure/Temperature Table For Probe Selection
TECHNICAL DATA OPTIFLEX 1300 C 8.3 Pressure/temperature table for probe selection Make sure that the transmitters are used within their operating limits. Figure 8-3: Pressure/temperature table for probe selection 1 Process pressure, P [barg] 2 Process connection temperature, T [°C] 3 All probes 4 High-Pressure (HP) version of the Ø2 mm single cable probe…
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Page 135: Measurement Limits
TECHNICAL DATA OPTIFLEX 1300 C 8.4 Measurement limits Double cable and double rod probes Figure 8-5: Measurement limits of the double cable probes (on the left side) and double rod probes (on the right side) 1 A1, Top dead zone: A1, Top dead zone: Distance from the flange to the top limit of the measuring range.
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Page 136
TECHNICAL DATA OPTIFLEX 1300 C Single cable and single rod probes Figure 8-6: Measurement limits of the single cable probes (on the left side) and single rod probes (on the right side) 1 A1, Top dead zone: A1, Top dead zone: A1, Top dead zone: A1, Top dead zone: Distance from the flange to the top limit of the measuring range. -
Page 137
TECHNICAL DATA OPTIFLEX 1300 C Coaxial probe Figure 8-7: Measurement limits of the coaxial probe 1 A1, Top dead zone: A1, Top dead zone: A1, Top dead zone: A1, Top dead zone: Distance from the flange to the top limit of the measuring range. Refer to the notes and table that follow. -
Page 138: Dimensions And Weights
TECHNICAL DATA OPTIFLEX 1300 C 8.5 Dimensions and weights Standard converter Standard converter Standard converter Standard converter Figure 8-8: Standard converter 1 Converter (front view) 2 Flange version for all probes except the Ø2 mm / 0.08¨ single cable probe (right side) 3 Flange version for Ø2 mm / 0.08¨…
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Page 139
TECHNICAL DATA OPTIFLEX 1300 C Dimensions and weights in mm and kg Dimensions [mm] Weights [kg] Converter 158.5 Flange, single cable Ø2 — 158.5 6…15 version HTor HT/HP Flange, single cable Ø2 — 158.5 5…14 version HP Flange, all other probes 158.5… -
Page 140
TECHNICAL DATA OPTIFLEX 1300 C Remote converter Remote converter Remote converter Remote converter Figure 8-9: Remote housing option 1 Front view 2 Left side 3 Rear view Note: Note: Note: Note: • Refer to «ESD protection and Metaglas® (dual process sealing system for dangerous products) options»… -
Page 141
TECHNICAL DATA OPTIFLEX 1300 C Dimensions and weights in mm and kg Dimensions [mm] Weights [kg] Remote 98.5 150.4 6.6… version 12.8 1 Wall bracket (1.4 kg) + converter support (1.5 kg) + remote probe converter (2.7 kg) + flexible conduit (2 m: 1 kg; 4.5 m: 2.25 kg; 9.5 m: 4.75 kg;… -
Page 142
TECHNICAL DATA OPTIFLEX 1300 C Weather protection option Figure 8-10: Weather protection option 1 Weather protection (rear view) 2 Weather protection (left side) Dimensions and weights in mm and kg Dimensions [mm] Weights [kg] Weather 231.5 protection 1 Radius Dimensions and weights in inches and lb… -
Page 143
TECHNICAL DATA OPTIFLEX 1300 C ESD protection and Metaglas® options Figure 8-11: ESD protection and secondary Metaglas® seal options 1 Optional ESD protection (30 kV) for solid applications 2 Optional Metaglas® (dual process sealing system for dangerous products) CAUTION! The ESD protection and the Metaglas options cannot be fitted to the same device. -
Page 144
TECHNICAL DATA OPTIFLEX 1300 C Single probes Figure 8-12: Single probe options 1 Single rod Ø8 mm / Ø0.3¨ (thread and flange versions). A segmented probe option shown on the right side. An optional protective sheath is available on request for the flange version. -
Page 145
TECHNICAL DATA OPTIFLEX 1300 C Single probes: Dimensions in mm Probes Dimensions [mm] L min. L max. Single rod Ø8 mm 4000 Single rod Ø8 mm (segmented) 6000 Single cable Ø2 mm 35000 Ø14 Single cable Ø4 mm 35000 Ø20 Single cable Ø8 mm… -
Page 146
TECHNICAL DATA OPTIFLEX 1300 C Double probes Figure 8-13: Double probe options 1 Double rod Ø8 mm / Ø0.3¨ (thread and flange versions) 2 Double cable Ø4 mm / Ø0.15¨ (thread and flange versions) 3 Coaxial Ø22 mm / Ø0.9¨ (thread and flange versions) INFORMATION! A wide range of counterweights and anchoring solutions are available. -
Page 147
TECHNICAL DATA OPTIFLEX 1300 C Double probes: Dimensions in mm Probes Dimensions [mm] L min. L max. Double rod Ø8 mm 1000 4000 Double cable Ø4 mm 1000 8000 Ø38 Coaxial Ø22 mm 6000 Coaxial Ø22 mm (segmented) 6000 Ø28… -
Page 148
TECHNICAL DATA OPTIFLEX 1300 C Probe end options for cable probes: single cable Ø4 mm/0.15¨ Figure 8-14: Probe end options for cable probes: single cable Ø4 mm/0.15¨ 1 Standard counterweight 2 Threaded end 3 Crimped end 4 Open end 5 Turnbuckle… -
Page 149
TECHNICAL DATA OPTIFLEX 1300 C Probe end options for cable probes: single cable Ø8 mm/0.3¨ Figure 8-15: Probe end options for cable probes: single cable Ø8 mm/0.3¨ 1 Standard counterweight 1 2 Standard counterweight 2 3 Turnbuckle 4 Chuck 5 Threaded end… -
Page 150
TECHNICAL DATA OPTIFLEX 1300 C Probe end options for cable probes: double cable Ø4 mm/0.15¨ Figure 8-16: Probe end options for cable probes: double cable Ø4 mm/0.15¨ 1 Standard counterweight 2 Threaded end 3 Turnbuckle Dimensions in mm Probe end type… -
Page 151
TECHNICAL DATA OPTIFLEX 1300 C Probe weights Probes Min. process connection size Weights Thread Flange [kg/m] [lb/ft] Single cable Ø2 mm / 0.08¨ G ½A; ½ NPTF DN25 in PN16, PN40, PN63 or 0.016 0.01 PN100; 1¨ in 150 lb, 600 lb, 900 lb, 1500 lb or 2500 lb;… -
Page 152: Appendix
9.1 Order form You can help us to assist you as quickly as possible by giving us a few items of information. Then just fax them to us. Your personal KROHNE consultant will contact you within 24 hours. 9.1.1 Device data…
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Page 153: Rating Data
APPENDIX OPTIFLEX 1300 C 9.1.2 Rating data Product name: Operating pressure: Rated pressure: Process connection temperature: Ambient temperature: Viscosity: Measurand (level, volume,…): Tank height: Comments (indoors, exposed to weather, …): 9.1.3 Contact data Company: Contact person: Telephone number: Fax number: E-mail: 9.2 Glossary…
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Page 154
APPENDIX OPTIFLEX 1300 C Electromagnetic compatibility Electromagnetic compatibility Defines how much a device influences or is influenced by other devices that Electromagnetic compatibility Electromagnetic compatibility generate electromagnetic fields during operation. Refer to European standard EN 61326-1 and EN 61326-2-3 for further details. -
Page 155
APPENDIX OPTIFLEX 1300 C Hazardous area Hazardous area An area with a potentially explosive atmosphere. Trained personnel can Hazardous area Hazardous area install and use a device in this area. The device must be ordered with the appropriate options. The device requires approvals (ATEX, IEC Ex, FM, CSA, NEPSI etc.) related to site specifications. -
Page 156
APPENDIX OPTIFLEX 1300 C Sensor length Sensor length Length, L’, of from the face of the flange to end of the guide. If you ordered Sensor length Sensor length a cable probe, this does not include the counterweight. Refer to the diagram at the end of this section. -
Page 157
APPENDIX OPTIFLEX 1300 C Figure 9-2: Measurement definitions 1 1 Interface distance 2 Distance 3 Flange facing 4 Gas (Air) 5 Interface 6 Sensor length, L’ 7 Probe length, L 8 Tank height 9 Ullage volume or mass Figure 9-3: Measurement definitions 2… -
Page 158: Notes
NOTES OPTIFLEX 1300 C www.krohne.com 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en…
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Page 159
NOTES OPTIFLEX 1300 C 09/2010 — 4000172305 — HB OPTIFLEX 1300 R06 en www.krohne.com… -
Page 160
Measuring systems for the oil and gas industry • Measuring systems for sea-going tankers Head Office KROHNE Messtechnik GmbH Ludwig-Krohne-Str. 5 D-47058 Duisburg (Germany) Tel.:+49 (0)203 301 0 Fax:+49 (0)203 301 10389 info@krohne.de The current list of all KROHNE contacts and addresses can be found at: www.krohne.com…
Практическое руководство
по монтажу и эксплуатации
OPTIFLEX 1300C
рефлекс-радарных уровнемеров
для измерения уровня, дистанции, объема
жидкостей, раздела фаз, паст и сыпучих
веществ
o
Простая установка
o
Встроенная эксперт-программа
o
Не требуют обслуживания
©
KROHNE 08/2005
7.02534.11.00
RU
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Contents
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OPTIFLEX 1300 C
OPTIFLEX 1300 C
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Guided Radar (TDR) Level Meter
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Summary of Contents for KROHNE OPTIFLEX 1300 C
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Page 1
OPTIFLEX 1300 C OPTIFLEX 1300 C OPTIFLEX 1300 C OPTIFLEX 1300 C Handbook Handbook Handbook Handbook Guided Radar (TDR) Level Meter… -
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 & Co. KG. Subject to change without notice. Copyright 2008 by KROHNE Messtechnik GmbH & Co.KG — Ludwig-Krohne-Straße 5 — 47058 Duisburg www.krohne.com… -
Page 3: Table Of Contents
CONTENTS OPTIFLEX 1300 C Safety instructions…………….. 7 1.1 Intended use………………….7 1.2 Certification………………….7 1.3 Safety instructions from the manufacturer…………7 1.3.1 Disclaimer……………………7 1.3.2 Product liability and warranty ………………. 8 1.3.3 Information concerning the documentation …………. 8 1.3.4 Display conventions ………………..9 1.4 Safety instructions for the operator …………..
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Page 4
CONTENTS OPTIFLEX 1300 C 3.8.4 Installation recommendations for non-metallic tanks and pits……45 3.8.5 How to attach the weather protection to the instrument ……..46 3.8.6 How to open the weather protection …………… 47 3.9 Electromagnetic compatibility…………….48 Electrical connections …………..49 4.1 Safety instructions ………………… -
Page 5
CONTENTS OPTIFLEX 1300 C 6.4.5 Distance measurement ………………. 88 6.4.6 Level measurement………………..89 6.4.7 How to correctly configure the instrument to measure volume or mass ….90 6.4.8 How to make the instrument follow the correct level or interface signal ….. 91 6.4.9… -
Page 6
10.7 Republic of Belarus certificates …………..183 10.8 Republic of Kazakhstan certificates …………..184 10.9 Russian Federation certificates…………… 185 10.10Ukraine certificates ………………188 KROHNE measuring technology — Product overview….196 www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 7: Safety Instructions
It can be installed on tanks, silos and open pits. 1.2 Certification In accordance with KROHNE’s commitment to customer service and safety, the level transmitter described in this handbook meets the following safety requirements: • EMC Directive 89 / 336 / EEC and 93 / 68 / EEC in conjunction with EN 61326-1 (1997) and A1 (1998), A2 (2001).
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Page 8: Product Liability And Warranty
1.3.2 Product liability and warranty TDR level transmitters from KROHNE are designed solely for measuring the distance, level, interface, mass and volume of liquids, pastes, slurries, granulates and powders. Responsibility as to suitability and intended use of these level transmitters rests solely with the operator.
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Page 9: Display Conventions
SAFETY INSTRUCTIONS OPTIFLEX 1300 C 1.3.4 Display conventions The following symbols are used to help you navigate this documentation more easily: WARNING! These warning signs must be observed without fail. Even only partial disregarding such warnings can result in serious health damage, damage to the device itself or to parts of the operator s plant.
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Page 10: Instrument Description
INSTRUMENT DESCRIPTION OPTIFLEX 1300 C 2.1 Scope of delivery INFORMATION! Check the packing list to see if you have received all that you require. The level transmitter will arrive in one cardboard box. NOTE! Inspect the cartons carefully for damage or signs of rough handling. Report damage to the carrier and to your local office.
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Page 11: Instrument Description
INSTRUMENT DESCRIPTION OPTIFLEX 1300 C Scope of delivery for the remote housing version Figure 2-2: Signal converter and probe Probe. If a single rod probe is ordered, this is supplied not attached to the instrument. The assembly instructions and small parts are in a bag attached to the housing Quick Start CD-ROM.
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Page 12: Nameplate
INSTRUMENT DESCRIPTION OPTIFLEX 1300 C ® • USB/HART converter. INFORMATION! For more data on accessories, refer to List of accessories on page 132. 2.3 Nameplate 2.3.1 Visual Check KROHNE S.A.S. F-26103 Romans OPTIFLEX 1300 C xF71xxxxxxxxxxxxxxxxxxxx Order No: xxxxxxxxxxxxxx xxxxxxxxxxxxxx…
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Page 13: Non-Ex Nameplate
INSTRUMENT DESCRIPTION OPTIFLEX 1300 C 2.3.2 Non-Ex nameplate KROHNE S.A.S. F-26103 Romans OPTIFLEX 1300 C xF71xxxxxxxxxxxxxxxxxxxx Order No: xxxxxxxxxxxxxx xxxxxxxxxxxxxx Manufacturing date: DD-MMM-YYYY Tag No: xxxxxxxxxxxxxxxxxxxxxxxx Protection class IP 66/67 Power supply: 24 Vdc XXXXXXX Non-Ex nameplate Figure 2-4: Indicator arrow to cable entry / cable entry size…
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Page 14: Installation
INSTALLATION OPTIFLEX 1300 C 3.1 Pre-installation requirements NOTE! To make sure that you install the instrument quickly, easily and safely, prepare the installation as given in the instructions that follow. 3.2 General installation notes Before you install the instrument: •…
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Page 15
INSTALLATION OPTIFLEX 1300 C Order No: 144 123456 010 KROHNE S.A.S. F-26103 Romans OPTIFLEX 1300 C xF71xxxxxxxxxxxxxxxxxxxx Order No: 144 123456 010 xxxxxxxxxxxxxx Manufacturing date: DD-MMM-YYYY Power supply: 24 Vdc Tag No: xxxxxxxxxxxxxxxxxxxxxxxx Protection class IP 66/67 XXXXXXX WHG: Z-xx.xx-xxx… -
Page 16
INSTALLATION OPTIFLEX 1300 C How to attach the locking nut and union nut Figure 3-3: • Attach a locking nut and the union nut to the housing assembly. • Tighten these nuts with the two 8 mm spanners. www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 17: How To Turn Or Remove The Signal Converter
INSTALLATION OPTIFLEX 1300 C How to attach the single rod probe to the flange assembly Figure 3-4: CAUTION! Support the probe. • Attach a locking nut to the single rod. • Attach the single rod to the union nut. Make sure the probe touches the housing assembly.
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Page 18
INSTALLATION OPTIFLEX 1300 C How to turn or remove the signal converter Figure 3-5: • Tool: 5 mm Allen wrench How to turn the signal converter • Loosen the housing locking screw with a 5 mm Allen wrench. • Turn the housing to the correct position. -
Page 19: How To Assemble The Remote Housing
INSTALLATION OPTIFLEX 1300 C 3.2.3 How to assemble the remote housing Part 1 of assembly procedure Figure 3-6: • Attach the wall bracket to the flexible conduit. • Tighten the locking nut with a 24 mm wrench. • Attach the wall bracket to a wall or pipe (DN50…100 / 2″…4″).
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Page 20
INSTALLATION OPTIFLEX 1300 C Part 2 of the assembly procedure Figure 3-7: • Attach the housing to the flexible conduit. • Tighten the housing locking screw. • Attach the flexible conduit to the probe. • Tighten the flexible conduit locking screw. -
Page 21
INSTALLATION OPTIFLEX 1300 C You can attach the wall bracket to a wall or pipe. These are the dimensions: Dimensions of the wall bracket Figure 3-8: Dimensions [mm] Wall 67.4 126.4 150.4 bracket Dimensions [inches] Wall 2.65 4.98 5.92 bracket 01/2008 •… -
Page 22: Storage
INSTALLATION OPTIFLEX 1300 C 3.3 Storage WARNING! Do not keep the instrument in a vertical position. This will damage the probe and the instrument will not measure correctly. Storage conditions Figure 3-9: Do not bend rod and coaxial probes — support here Storage temperature range: -40…85°C / -40…185°F…
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Page 23: Transportation
INSTALLATION OPTIFLEX 1300 C 3.4 Transportation How to hold the instrument Figure 3-11: How to hold the instrument Figure 3-12: Remove the converter before you lift the instrument with a hoist. Wind cable probes greater than 400 mm / 16″ in diameter.
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Page 24: How To Prepare The Tank Before You Install The Instrument
INSTALLATION OPTIFLEX 1300 C 3.5 How to prepare the tank before you install the instrument CAUTION! To avoid measuring errors and instrument malfunction, obey these precautions. 3.5.1 Pressure and temperature ranges Pressure and temperature ranges Figure 3-13: Process connection temperature All probes except Ø2 mm single cable probe and single rod probes with protective sheathes: FKM/FPM: -40…200°C /…
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Page 25: General Information For Nozzles
INSTALLATION OPTIFLEX 1300 C 3.5.2 General information for nozzles CAUTION! Follow these recommendations to make sure that the instrument measures correctly. Recommended nozzle dimensions Figure 3-14: Recommended conditions: h ≤ d, where h is the height of the tank nozzle and d is the diameter of the tank nozzle.
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Page 26
INSTALLATION OPTIFLEX 1300 C CAUTION! Do not put the process connection near to the product inlet. If the product that enters the tank touches the probe, the instrument will measure incorrectly. Do not put the instrument near to a product inlet Figure 3-15: The instrument is in the correct position. -
Page 27: Installation Requirements For Concrete Roofs
INSTALLATION OPTIFLEX 1300 C 3.5.3 Installation requirements for concrete roofs CAUTION! Follow these recommendations to make sure that the instrument measures correctly. Installation on a concrete roof Figure 3-17: The diameter, d, of the hole must be greater than the thickness, t, of the concrete.
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Page 28: Installation Recommendations For Liquids
INSTALLATION OPTIFLEX 1300 C 3.6 Installation recommendations for liquids 3.6.1 General requirements Installation recommendations for liquids Figure 3-18: h ≤ d, where h is the height of the tank nozzle and d is its diameter. Make sure that the probe does not touch the nozzle. Attach the probe if the liquid is turbulent.
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Page 29: How To Attach Probes To The Bottom Of The Tank
INSTALLATION OPTIFLEX 1300 C WARNING! If the instrument has to measure the level of dangerous products (ammonia etc.), make sure ® that the instrument has the METAGLAS seal option. Clearance between the instrument probe and other objects in the tank…
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Page 30
INSTALLATION OPTIFLEX 1300 C • Put the end of the probe into the tube. Double cable Ø4 mm/0.15″ How to attach a double cable probe to keep it straight Figure 3-20: The probe counterweight has a hole with an M8 internal thread. You can also select the appropriate options and attach: 1. -
Page 31
INSTALLATION OPTIFLEX 1300 C • Put the end of the probe into the tube. Single cable Ø4 mm/0.15″ How to attach a Ø4 mm/0.15″ single cable probe to keep it straight Figure 3-22: The probe counterweight has a hole with an M8 internal thread. You can also select the appropriate options and attach: 1. -
Page 32
INSTALLATION OPTIFLEX 1300 C Single cable Ø2 mm/0.08″ How to attach a Ø2 mm/0.08″ single cable probe to keep it straight Figure 3-23: The probe counterweight has a hole with an M8 internal thread. You can attach: 1. A threaded end 2. -
Page 33: Installation In Stilling Wells
INSTALLATION OPTIFLEX 1300 C 3.6.3 Installation in stilling wells Use a stilling well if: • There is highly conductive foam in the tank. • The liquid is very turbulent or agitated. • There are too many other objects near to the area where you want to install the instrument.
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Page 34
INSTALLATION OPTIFLEX 1300 C CAUTION! Installation requirements The stilling well must be electrically conductive. • The stilling well must be straight. • Recommended surface roughness: < 0.1 mm/0.004″. • ± The bottom of the stilling well must be open. •… -
Page 35: Installation In Bypass Chambers
INSTALLATION OPTIFLEX 1300 C Floating roofs If the instrument is for a tank with a floating roof, install it in a stilling well. Floating roofs Figure 3-26: Sediment Support fixtures Stilling well Floating roof Product Tank 3.6.4 Installation in bypass chambers Install a bypass chamber next to the tank if: •…
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Page 36
INSTALLATION OPTIFLEX 1300 C Installation recommendations for bypass chambers Figure 3-27: Bypass chamber for tanks that contain one liquid Bypass chamber for tanks that contain more than one liquid Distance between holes 100 mm/4″ Hole diameter Ø25 mm/1″ CAUTION! Installation requirements The bypass chamber must be electrically conductive. -
Page 37: Typical Applications
INSTALLATION OPTIFLEX 1300 C • The bypass chamber must have a process connection that is below the lowest measured level of liquid. • There must be more process connections along the length of the bypass chamber. These must have a minimum diameter of 25 mm/1″ with a minimum distance of 100 mm/4″ between the holes.
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Page 38
INSTALLATION OPTIFLEX 1300 C A spherical tank Figure 3-29: How to install the instrument on a spherical tank Figure 3-30: Install the instrument on top of the tank If the top platform has the shape of a nozzle, do not install the process connection too near to the wall. For further… -
Page 39
INSTALLATION OPTIFLEX 1300 C 1000 GAL How to install the instrument in a horizontal cylindrical tank Figure 3-31: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 40: Installation Recommendations For Solids
INSTALLATION OPTIFLEX 1300 C 3.7 Installation recommendations for solids 3.7.1 Nozzles on conical silos We recommend that you prepare the installation when the silo is empty. DANGER! Risk of electrostatic discharge (ESD). The instrument is resistant to electrostatic discharges of up to 15 kV (30 kV with the supplementary ESD protection option — recommended for solid applications), but it is the fitter’s and the user’s responsibility to prevent ESD.
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Page 41: Traction Loads On The Probe
INSTALLATION OPTIFLEX 1300 C Clearance between the instrument probe and other objects in the tank Clearance between the instrument probe and other objects in the tank Clearance between the instrument probe and other objects in the tank Clearance between the instrument probe and other objects in the tank…
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Page 42: How To Install The Instrument On The Tank
INSTALLATION OPTIFLEX 1300 C Estimated traction load on the probe Probe length, 33 ft Probe length, 65 ft Probe length, 98 ft Material [lbs] Cement 2200 4410 6520 Fly ash 1100 2200 3300 Wheat 1320 2650 3.8 How to install the instrument on the tank 3.8.1 How to install an instrument with a flange connection…
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Page 43: How To Install An Instrument With A Threaded Connection
INSTALLATION OPTIFLEX 1300 C 3.8.2 How to install an instrument with a threaded connection Equipment needed: • Instrument • Gasket (not supplied with G (ISO 228) threaded connections) • 50 mm/2″ wrench (not supplied) Threaded connection Figure 3-34: • Make sure the tank connection is level.
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Page 44: How To Install A Cable Probe In The Tank
INSTALLATION OPTIFLEX 1300 C 3.8.3 How to install a cable probe in the tank Wind cable probes and flexible conduits carefully Figure 3-35: Do not wind cable probes less than 400 mm / 16″ in diameter. Do not wind the flexible conduit less than 330 mm / 13″ in diameter.
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Page 45: Installation Recommendations For Non-Metallic Tanks And Pits
INSTALLATION OPTIFLEX 1300 C • Unwind the probe carefully into the tank. 3.8.4 Installation recommendations for non-metallic tanks and pits If you have an instrument with a rod or a cable probe and a thread connection, obey these instructions: •…
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Page 46: How To Attach The Weather Protection To The Instrument
INSTALLATION OPTIFLEX 1300 C 3.8.5 How to attach the weather protection to the instrument Equipment needed: • Instrument • Weather protection (option) • 10 mm wrench (not supplied) The overall dimensions of the weather protection are on page 147. Installation of the weather protection Figure 3-38: •…
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Page 47: How To Open The Weather Protection
INSTALLATION OPTIFLEX 1300 C 3.8.6 How to open the weather protection Equipment needed: • Weather protection. • Large screwdriver (not supplied). How to open the weather protection Figure 3-39: Weather protection in its closed position Weather protection in its open position. Minimum clearance in front of instrument: 300 mm / 12″.
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Page 48: Electromagnetic Compatibility
INSTALLATION OPTIFLEX 1300 C 3.9 Electromagnetic compatibility The instrument design agrees with European Standard EN 61326-1 A1+A2. You can install the instrument on open-air tanks and tanks that are not made of metal. This agrees with Immunity and Emissions requirements for industrial environments.
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Page 49: Electrical Connections
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.1 Safety instructions CAUTION! Only trained personnel can do electrical work. Obey regional occupational health and safety directives and safety regulations. DANGER! Disconnect the power before you work on electrical connections. Refer to the voltage data on the nameplate.
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Page 50: Electrical Installation: Outputs 1 And 2
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.2 Electrical installation: outputs 1 and 2 Electrical installation Figure 4-1: Terminal compartment cover Terminal 1 current output — Terminal 1 current output + Grounding terminal in the housing Terminal 2 current output — Terminal 2 current output +…
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Page 51: Electrical Connection For Current Output
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.3 Electrical connection for current output 4.3.1 Non-Ex Electrical connections for non-Ex instruments Figure 4-2: Power supply ® Resistor for HART communication 14…30 VDC for an output of 22mA at the terminal 10…30 VDC for an output of 22mA at the terminal 4.3.2 Ex i…
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Page 52: Ex D
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C NOTE! ® If the barrier has a HART terminal, you can connect HART instruments directly to the barrier without a resistor. HART ® HART connection to the Ex i barrier without a resistor Figure 4-4:…
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Page 53: Protection Category
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.4 Protection category NOTE! The instrument fulfills all requirements per protection class IP 67. DANGER! Make sure the cable gland is watertight. How to make the installation agree with protection category IP 67 Figure 4-6: •…
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Page 54: Networks
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.5 Networks 4.5.1 General information ® The instrument uses the HART communication protocol in networks. This protocol agrees with ® the HART Communication Foundation standard. The instrument operates in either point-to- point or multi-drop networks of up to 15 instruments.
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Page 55: Multi-Drop Networks
ELECTRICAL CONNECTIONS OPTIFLEX 1300 C 4.5.3 Multi-drop networks Multi-drop network (non-Ex) Figure 4-8: Address of the instrument (n+1 for multidrop networks) Address of the instrument (1 for multidrop networks) ® 4 mA + HART ® Resistor for HART communication Power supply ®…
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Page 56: Start-Up
START-UP OPTIFLEX 1300 C 5.1 Start-up checklist Check these points before you energize the instrument: • Are all the wetted components (probe, flange and gaskets) resistant to the product in the tank? • Does the information on the signal converter nameplate agree with the operating data? •…
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Page 57: Digital Display Screen
START-UP OPTIFLEX 1300 C 5.3 Digital display screen 5.3.1 Local display screen layout Installation Setup Tank Height Nozzle Height Nozzle Diameter Probe Length Blocking Distance > Detection Delay Reference Offset Local display screen layout Figure 5-1: Error icon Tag number or menu name…
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Page 58: How To Start The Instrument
START-UP OPTIFLEX 1300 C 5.3.4 How to start the instrument • Connect the converter to the power supply. • Energize the converter. After 30 seconds the screen will display «booting up», «starting up» and then the default screen will appear.
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Page 59: Remote Communication With The Ams™ Device Manager
START-UP OPTIFLEX 1300 C Screen from the PACTware™ user interface Figure 5-2: DTM menu Basic measurement information: level, current output and instrument status Information for instrument identification 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: •…
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Page 60: Operation
OPERATION OPTIFLEX 1300 C 6.1 User modes There are 3 modes of operation: • Operator. • Supervisor. • Service. 6.2 Operator mode The operator can choose what information to display. This section shows you: • What each button does in operator mode.
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Page 61
OPERATION OPTIFLEX 1300 C Information screens for one output Text Text and image % current output screen Go to screen Go to screen Go to Level > Level > Level > (Text) Interface level > Interface level > Interface level >… -
Page 62: Supervisor Mode
OPERATION OPTIFLEX 1300 C Information screens for two outputs Text Text and image % current output screen Go to screen Go to screen Go to Level > Level > Level > Interface level Interface level Interface level (Text) Distance >…
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Page 63: How To Get Access To The Supervisor Mode
OPERATION OPTIFLEX 1300 C A. Quick Setup • Save quicklinks quicklinks quicklinks quicklinks for items that you use regularly. For more data, refer to page 68 (menu items A.2 to A.6). • Do error finding and troubleshooting procedures in the test test menu.
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Page 64: Menu Overview
OPERATION OPTIFLEX 1300 C 6.3.3 Menu overview A quick setup setup mode quick Link 1 quick link 2 quick link 3 quick link 4 quick link 5 B test test information C advanced setup installation setup output 1 (HART) output 2 (passive)
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Page 65: Push-Button Functions
OPERATION OPTIFLEX 1300 C 6.3.4 Push-button functions Menu navigation Main Menu Quick Setup Test Advanced setup > Service Menu navigation Figure 6-1: Menu selection bar Header bar Menu list Menu item that is not available (in grey text) This is what you see when you are in the list of menus in supervisor mode. The functions of the…
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Page 66
OPERATION OPTIFLEX 1300 C Lists of parameters in menu items Display Mode > Disable Auto-off Default Screen Lists of parameters in menu items Figure 6-2: Parameter selection bar Menu name Parameter used at this time This is what you see when you choose a menu item that has a list of parameters. The functions of… -
Page 67
OPERATION OPTIFLEX 1300 C Values in menu items Output 1 (HART) Level 90.000 m 20.000 m Value too high Values in menu items Figure 6-3: Maximum value Minimum value Cursor on the digit to be changed Menu name Picture of menu item Error message This is what you see when you choose a menu item that has a value. -
Page 68: Function Description
OPERATION OPTIFLEX 1300 C If you press the push-buttons for 1 second, you can use these hotkey functions: Hotkey functions in supervisor mode Push button Description Function Right Create a quick link Enter Down Screen displays information in the default language…
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Page 69
OPERATION OPTIFLEX 1300 C Menu No. Step Function Function description Selection list Default A.1.2 application Follow this procedure to describe the tank contents. information: probe read only type product type The application. liquid, solid air gap / no air This tells the instrument… -
Page 70
OPERATION OPTIFLEX 1300 C Menu No. Step Function Function description Selection list Default A.1.3 installation Follow this procedure to describe the process connection. tank height The distance from the min-max: 0.165…60 m / tank connecting flange 0.54…196.86 ft face/thread stop down to the tank bottom. -
Page 71
OPERATION OPTIFLEX 1300 C Menu No. Step Function Function description Selection list Default A.1.4 conversion Follow this procedure to set the instrument up to display readings in volume, mass or user- defined units. sub- conversion menu submenu [volume] [volume] [volume]… -
Page 72
OPERATION OPTIFLEX 1300 C Menu No. Step Function Function description Selection list Default sub- conversion menu submenu [mass] [mass] [mass] [mass] free unit yes, no table length unit m, cm, mm, inch, ft, free unit conversion wizard mass type in product… -
Page 73
OPERATION OPTIFLEX 1300 C Menu No. Step Function Function description Selection list Default A.1.5 outputs Follow this procedure to describe the output characteristics. output 1: function Select an output 1 solid/liquid: level, level function to scale the distance, volume current values . This is (mass), ullage volume;… -
Page 74
OPERATION OPTIFLEX 1300 C Menu No. Step Function Function description Selection list Default output 2: error This sets the behaviour 3.6 mA, 22 mA, Hold 22 mA handling of current output 2 if an error occurs. Hold Hold Hold Hold… -
Page 75
OPERATION OPTIFLEX 1300 C Menu No. Step Function Function description Selection list Default quick link 1 Direct link to an item in Go to a function in the error the advanced setup advanced setup menu records menu and press > for 1 second. -
Page 76
OPERATION OPTIFLEX 1300 C Menu No. Function Function descritpion Selection list Default B.1.4 set output 2 This sets analogue output 2 to a 3.6, 4, 6, 8, 10, 12, 14, 16, 18, 20 4 mA test value [mA] selected from a or 22 mA list. -
Page 77
OPERATION OPTIFLEX 1300 C Menu No. Function Function descritpion Selection list Default B.2.10 snapshot A summary of snapshot data read only information used by the instrument. Go to snapshot snapshot setup menu to snapshot snapshot update this data. B.2.11 application… -
Page 78
OPERATION OPTIFLEX 1300 C Menu No. Function Function description Selection list Default C.1.5 nozzle/still The inner diameter of the min-max: 0.2…1000 mm / 100 mm / well nozzle or stillwell. 0.79…39.37 in 3.94 in diameter C.1.6 probe Probe length is the distance… -
Page 79
OPERATION OPTIFLEX 1300 C Menu No. Function Function description Selection list Default C.1.13 measuring In Direct Direct Direct mode, the instrument Direct automatic; direct; TBF automatic mode measures the time it takes to receives a reflection of the signal from the surface of the tank contents. -
Page 80
OPERATION OPTIFLEX 1300 C Menu No. Function Function description Selection list Default C.1.18 probe end Instruments for low dielectric 7 Gains, min-max: 0…+1.25 V or Depends on threshold applications only. If it is difficult -1.25…0 V. Gain. to identify the probe end signal… -
Page 81
OPERATION OPTIFLEX 1300 C Menu No. Function Function description Selection list Default For fieldbus. Not yet available. output 1 (HART) C.3.1 output Select an output function to 1 solid/liquid: level, distance, level function scale the current values . This volume/mass, ullage volume;… -
Page 82
OPERATION OPTIFLEX 1300 C Menu No. Function Function description Selection list Default error The time after which the read only 10 seconds handling instrument shows there is a delay measurement error. This value is set in the output 1 menu. -
Page 83
OPERATION OPTIFLEX 1300 C Menu No. Function Function description Selection list Default C5.2.2 supervisor This changes the supervisor >^ >^ password. Press the push buttons up to six times in any order. This will be the new password. To confirm the change, enter the new password a second time. -
Page 84
OPERATION OPTIFLEX 1300 C Output function Minimum value Maximum value Default Distance >4 mA setting for distance Tank height + TBO + RO Tank height + Interface level >4 mA setting for interface Tank height + TBO + RO Tank height +… -
Page 85: Further Information On Instrument Configuration
OPERATION OPTIFLEX 1300 C 6.4 Further information on instrument configuration 6.4.1 Quick Links If you frequently use a menu item, you can create a Quick Link. This lets you quickly find and configure items in the advanced setup menu. Five Quick Link memory spaces are available in the…
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Page 86: Protection Of The Instrument Settings
OPERATION OPTIFLEX 1300 C How to open a Quick Link • Go to Supervisor Menu > Quick Setup Supervisor Menu > Quick Setup. Supervisor Menu > Quick Setup Supervisor Menu > Quick Setup • Select a Quick Link with the push buttons.
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Page 87: Linearisation
OPERATION OPTIFLEX 1300 C • Enter a value between 1 and 15 (see the caution below). • Press the Escape buttons(> > > > + ) until you get the save/cancel screen. • Select save. • Press ^ ^ ^ ^ .
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Page 88: Distance Measurement
OPERATION OPTIFLEX 1300 C 6.4.5 Distance measurement The instrument displays distance measurements when an output is set to distance. Menu items related to distance measurement are: • output function (C.3.1 or C.4.1) • tank height (C.1.2) • blocking distance (C.1.9) •…
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Page 89: Level Measurement
OPERATION OPTIFLEX 1300 C Distance measurement Figure 6-5: Tank height (C.1.2) Reference offset (C.1.10) Blocking distance (C.1.9) 4 mA setting (C.3.2 or C.4.2) 20 mA setting (C.3.3 or C.4.3) Maximum effective measuring range Non-measurement zone C. Advanced setup For more data about the menu items, refer to on page 77.
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Page 90: How To Correctly Configure The Instrument To Measure Volume Or Mass
OPERATION OPTIFLEX 1300 C NOTE! If you move the reference point below the tank bottom, add this value when give a level for the 4 and 20 mA current output settings. If you move the reference point above the tank bottom, subtract this value when you give a level value for the 4 and 20 mA current output settings.
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Page 91: How To Make The Instrument Follow The Correct Level Or Interface Signal
OPERATION OPTIFLEX 1300 C • Complete all the steps in the setup procedure. The instrument creates a table of up to 50 pairs of data (level — volume or level — mass). The reference point for the table is the tank bottom (as given in menu item C.1.2 Tank height.).
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Page 92
OPERATION OPTIFLEX 1300 C The distance input distance input distance input function, used with the signal screen, makes the instrument look for the distance input level or the interface (if the the instrument is configured for interface applications) at the correct point along the probe. -
Page 93
OPERATION OPTIFLEX 1300 C How to adjust the distance value to make the instrument measure level correctly Operator mode • Go to the signal screen in operator mode. For more data, refer to on page 60. • Press > > > > one time to move the cursor right to select the level signal 1. -
Page 94: Thresholds And Parasite Signals
OPERATION OPTIFLEX 1300 C 6.4.9 Thresholds and parasite signals General notes The low-power electromagnetic signal from the instrument goes down the probe. The surface of the process and objects in the tank make reflections. These reflections go back up the probe to the signal converter.
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Page 95
OPERATION OPTIFLEX 1300 C How to use thresholds NOTE! Although the data that follows refers to the level threshold, it is applicable for interface threshold and probe end thresholds. If there is a parasite above the level and the threshold is too low, the instrument can incorrectly use it as the level signal. -
Page 96
OPERATION OPTIFLEX 1300 C Threshold data on the instrument display screen Figure 6-11: Error message «Lost» if the instrument cannot find a signal Amplitude of the threshold (in volts) Gain of the threshold Distance of the monitored signal from the signal converter… -
Page 97: How To Use The Snapshot Function To Filter Parasite Signals That Do Not Move
OPERATION OPTIFLEX 1300 C Interface threshold NOTE! If the instrument is set at the factory to measure interface, you can change the interface threshold. When there is more than one liquid in the tank, the instrument uses a second threshold to measure interface.
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Page 98: How To Measure Products With A Low Dielectric Constant (E R )
OPERATION OPTIFLEX 1300 C +0.5 Voltage/distance graph: level below a large interference signal Figure 6-12: Voltage amplitude of the signal in Volts Distance from the process connection Large parasite signal (an agitator in this example) Threshold Level signal But you can filter a parasite or an area of parasites with the snapshot function. This procedure tells you how to use the snapshot filter: •…
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Page 99
OPERATION OPTIFLEX 1300 C Measuring mode limits Measuring mode Probe type Minimum dielectric constant Direct Coaxial All other probes All probes In direct mode, the instrument directly receives the reflection of the signal from the surface of the tank contents. -
Page 100: How To Decrease The Length Of Probes
OPERATION OPTIFLEX 1300 C 6.4.12 How to decrease the length of probes INFORMATION! This information is for : Ø4mm/0.15″ double cable, • single rod, • Ø2 mm/0.08″ single cable and • • Ø4 mm/0.15″ single cable probes only WARNING! Do not change the length of coaxial, Ø8 mm/0.3″ single cable and double rod probes. This will damage the probe.
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Page 101
OPERATION OPTIFLEX 1300 C • Go to Supervisor > Advanced setup > Installation > Probe length Supervisor > Advanced setup > Installation > Probe length Supervisor > Advanced setup > Installation > Probe length. Supervisor > Advanced setup > Installation > Probe length •… -
Page 102: Service Mode
If you are not an authorized service technician, do not change any values in the service mode menu. This mode is locked with a password. Only approved persons are permitted to have the password for the service menu. Please contact KROHNE for further information. 6.6 Errors 6.6.1 General information…
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Page 103
OPERATION OPTIFLEX 1300 C • to scroll the error list. There are 5 error messages per page. Error Records Severity Summary Warning PEP lost… Warning Overfill Warning I Max Satur… Warning Level lost… Warning PEP lost… Error records in supervisor mode Figure 6-15: Type of error. -
Page 104: Error Handling
OPERATION OPTIFLEX 1300 C The time since the error occured is measured in Days:Hours:Minutes:Seconds Days:Hours:Minutes:Seconds Days:Hours:Minutes:Seconds Days:Hours:Minutes:Seconds. It only includes the time when the instrument is energized. The error is saved in the memory of the instrument when it is switched off. The counter continues when the instrument is switched back on.
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Page 105
OPERATION OPTIFLEX 1300 C Error Error Message code Description Corrective action Measurement status Level measurement lost The instrument can no longer Check the tank contents find the product surface. The using another method of measurement is held at the measurement. If the tank is… -
Page 106
OPERATION OPTIFLEX 1300 C Error Error Message code Description Corrective action Interface measurement lost The device can no longer find Check the tank contents the interface. using another procedure. If the interface is too low (the interface is below the end of… -
Page 107
OPERATION OPTIFLEX 1300 C Error Error Message code Description Corrective action Probe end pulse lost The probe end pulse The dielectric constant of the amplitude is less than the tank contents is too high. probe end threshold. This Check that the measurement… -
Page 108: Atex: Supplementary Instructions
These instructions are applicable only to the explosion-protection version of the OPTIFLEX 1300 C TDR level transmitter. For all other data, use the Quick Start and other chapters of the Handbook. If you do not have these documents, please contact the nearest KROHNE office or download them from KROHNE’s website www.krohne.com.
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Page 109: Atex Nameplates
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C 7.1.4 ATEX nameplates KEMA 04ATEX1219 X KROHNE S.A.S. F-26103 Romans II 1 G D or II 1/2 G D OPTIFLEX 1300 C or II 2 G D xF71xxxxxxxxxxxxxxxxxxxx EEx ia IIC T3 … T6 Order No: xxxxxxxxxxxxxx T 65 C …
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Page 110: Installation
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C KROHNE S.A.S. II 3 G EEx nA II T3 … T6 F-26103 Romans T 80 C … T 97 C X OPTIFLEX 1300 C xF71xxxxxxxxxxxxxxxxxxxx Order No: xxxxxxxxxxxxxx Umax < 30 Vdc xxxxxxxxxxxxxx Manufacturing date: DD-MMM-YYYY…
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Page 111: Operating Conditions
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C Take the necessary antistatic precautions if you: • handle, • install or • the instrument in potentially explosive atmospheres. Do not install in a location (near to ventilation systems, for example) where the electrostatic charge can increase.
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Page 112
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C Ambient and flange temperature The ATEX equipment category and temperature class give the ambient temperature and related flange temperature ranges for the instrument. Equipment category II 1 G (EEx ia instruments only) Ambient temperature… -
Page 113
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C Equipment category II 3 G (not applicable for Ø2 mm / Ø0.08″ single cable probe — pending) Ambient temperature Flange temperature Temperature class °C °F °C °F -40…+61 -40…+142 -40…+85 -40…+185 -40…+76 -40…+169 -40…+100 -40…+212… -
Page 114
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C Equipment category II 3 G (not applicable for Ø2 mm / Ø0.08″ single cable probe — pending) Max. ambient temperature Max. flange temperature Max. surface temperature °C °F °C °F °C °F +142 +176… -
Page 115: Electrical Connections
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C 7.3 Electrical connections 7.3.1 General notes WARNING! De-energize the circuit. • Do not use the earth terminal in the wiring compartment. Use the equipotential bonding • system. Refer to the EEx d [ia] equipment: electrical schema EEx d [ia] equipment: electrical schema section.
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Page 116: Terminal Tightening Capacity
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C Time necessary to de-energize an Ex d [ia]-approved instrument Time to de-energize the Ex d [ia]-approved instrument Temperature class [minutes] T4, T3 Not necessary How to close the terminal compartment WARNING! Ex d [ia] applications: obey the instructions that follow: Attach the terminal compartment cover 2.
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Page 117
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C • Use the electrical connection procedure in the Handbook. • If possible, use galvanically-isolated equipment. • Supply the EEx i equipment connected to the instrument. Use only certified intrinsically-safe equipment. • Connect only to separate certified, intrinsically-safe circuits. Make sure that the electrical circuit characteristics are not more than the values below. -
Page 118: Eex D [Ia] Equipment
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C 7.3.5 EEx d [ia] equipment General notes EEx d [ia]-approved equipment have two separate compartments. The electronics block compartment is Ex ia-approved and the terminals compartment is Ex d-approved. Compartments in EEx d [ia]-approved equipment…
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Page 119
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C • If you use only one cable entry, seal the other one with an EEx d-approved plug. Load resistor • Connect the load resistor to the positive terminal of the power supply. • Ground the negative connection. -
Page 120
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C Electrical schema CAUTION! Make sure that you connect the load resistor to the positive side. Electrical schema for Ex d [ia]-approved equipment (with galvanic isolation) Figure 7-8: Electrical schema for Ex d [ia]-approved equipment (without galvanic isolation) -
Page 121: Eex Na Equipment
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C 7.3.6 EEx nA equipment How to connect the electrical cables INFORMATION! Cable entries are supplied on customer demand. If you supply the cable entries, this part • must have a degree of ingress protection IP≥54 (EN 60529).
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Page 122: Start-Up
ATEX: SUPPLEMENTARY INSTRUCTIONS OPTIFLEX 1300 C 7.4 Start-up WARNING! Make sure that it is safe to supply electrical power. Do a start-up check: • Are the wetted components (gasket, flange and probe) resistant to corrosion by the tank product? •…
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Page 123: Service
• The removal and installation of the HMI cover. This housing can be detached from the flange system under process conditions. Use only KROHNE-authorized service staff to repair the instrument. 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com…
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Page 124: Replacement Of The Display Cover
SERVICE OPTIFLEX 1300 C 8.3.2 Replacement of the display cover Removal of the instrument display cover Figure 8-1: Equipment needed (not supplied): • Flat screwdriver. • 3 mm Allen wrench (for steps 2 and 4). www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 125
SERVICE OPTIFLEX 1300 C How to remove the display Remove the 2 pins on the blue sun cover with a flat screwdriver. Remove the blue sun cover. Loosen the screw on the display screen cover. Open the display. Disconnect the ribbon cable from the back end electronics block. -
Page 126: Replacement Of The Combined Back End And High-Frequency Unit
SERVICE OPTIFLEX 1300 C 8.3.3 Replacement of the combined back end and high-frequency unit Removal of the combined back end and high-frequency unit Figure 8-2: Equipment needed (not supplied): • 3 mm Allen wrench (for step 4). www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 127
SERVICE OPTIFLEX 1300 C How to remove the combined back end and high-frequency units Loosen the screw on the display. Open the display. Disconnect the ribbon cable from the back end electronics block. Disconnect terminal block wires from the electronics block. -
Page 128: Replacement Of The Terminal Module
SERVICE OPTIFLEX 1300 C 8.3.4 Replacement of the terminal module WARNING! Disconnect the power supply. Removal of the terminal module Figure 8-3: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 129
SERVICE OPTIFLEX 1300 C Equipment needed (not supplied): • 3 mm Allen wrench (for step 1). • TORX T10 wrench (for step 4). • 2.5 mm Allen wrench (for step 5). How to remove the terminal module Loosen the cover stop screw on the terminal compartment cover. -
Page 130: Spare Parts Availability
SERVICE OPTIFLEX 1300 C 8.4 Spare parts availability 8.4.1 General notes We supply spare parts and accessories for this instrument. When you order a spare part or accessory, please give the reference numbers that follow: 8.4.2 List of spare parts We supply spare parts and accessories for this instrument.
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Page 131
SERVICE OPTIFLEX 1300 C Part numbers for spare parts Item number Description Quantity Part reference 1 1 1 1 Combined backend and high-frequency F2139590100 modules Screws for the combined back end and F3177360000 HF modules HMI cover and cable XF7040000000050300… -
Page 132: List Of Accessories
SERVICE OPTIFLEX 1300 C 8.4.3 List of accessories Accessories Figure 8-5: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 133: Service Availability
F50779300000 for HART® or PACTware™ communication 8.5 Service availability KROHNE provides a variety of services to support its customers after warranty expiration. Repair, technical support and training can be provided. NOTE! For detailed information please contact your local KROHNE representative.
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Page 134: Returning The Device To The Manufacturer
SERVICE OPTIFLEX 1300 C 8.6 Returning the device to the manufacturer 8.6.1 General information This device has been carefully manufactured and tested. If installed and operated in accordance with these operating instructions, it will rarely present any problems. CAUTION! Should you nevertheless need to return a device for inspection or repair, please pay strict…
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Page 135: Form (For Copying) To Accompany A Returned Instrument
Company: Address: Department: Name: Tel. No.: Fax No.: The meter enclosed, type: KROHNE Commission or Series No.: has been operated with the following liquid: Because this liquid is: hazardous to water toxic caustic flammable We have checked that all cavities in the unit are free from such substances.
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Page 136: Disposal
SERVICE OPTIFLEX 1300 C 8.7 Disposal CAUTION! Disposal must be carried out in accordance with legislation applicable in your country. www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 137: Technical Data
TECHNICAL DATA OPTIFLEX 1300 C 9.1 Technical data Input Function Time Domain Reflectometry (TDR ) Parameter Level, distance, volume and/or interface Max. measuring range Double rod Ø8 mm / 0.3″ 4 m / 13 ft Single rod Ø8 mm / 0.3″…
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Page 138
TECHNICAL DATA OPTIFLEX 1300 C Process conditions Ambient temperature -40…+80°C / -40…+175°F (EEx i: see supplementary operating instructions or approval certificates) Storage temperature -40…+85°C / -40…+185°F Flange temperature -40…+200°C / -40…+390°F (EEx i: see supplementary operating instructions or approval certificates) Thermal shock resistance 100°C/min… -
Page 139
TECHNICAL DATA OPTIFLEX 1300 C Thread, single cable Ø8 mm / 0.3″ G 1½; 1½ NPT Thread, all other probes G ¾…1½; ¾…1½ NPT Flange, single cable Ø8 mm / 0.3″ DN40…150 (PN40 / PN16); 1½»…8″ (150 lb / 300 lb); 10K (40…100A) Flange, all other probes DN25…150 (PN40 / PN16);… -
Page 140
TECHNICAL DATA OPTIFLEX 1300 C Options and Accessories Options Integrated LCD display with sun cover (-20…+60°C / -4…+140°F); 2nd current output; ESD protection (max. 30 kV); Secondary METAGLAS seal for dangerous products (ammonia, chlorine, …); Remote housing connected to the probe via a flexible conduit Standard lengths: 2 m / 6.6 ft, 4.5 m / 14.8 ft,… -
Page 141: Pressure/Temperature Table For Probe Selection
TECHNICAL DATA OPTIFLEX 1300 C 9.2 Pressure/temperature table for probe selection Ensure that the transmitters are used within their operating limits. Observe the following requirements. Pressure/temperature table for probe selection Figure 9-1: Process pressure, P [bar] Flange temperature, T [°C] High-pressure (HP) version of the Ø2 mm single cable probe…
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Page 142: Measurement Limits
TECHNICAL DATA OPTIFLEX 1300 C 9.3 Measurement limits Measurement limits Figure 9-3: A1, Top dead zone: A1, Top dead zone: A1, Top dead zone: A1, Top dead zone: Distance from the flange to the top limit of measuring range. Refer to the notes and table that fol- low.
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Page 143
TECHNICAL DATA OPTIFLEX 1300 C Measurement limits in mm Top dead Bottom dead Top dead Bottom dead zone, A1 zone, A2 zone, A1 zone, A2 ε ε ε ε = 80 = 80 = 2.3 = 2.3 Probes [mm] Double rod… -
Page 144: Dimensions And Weight
TECHNICAL DATA OPTIFLEX 1300 C 9.4 Dimensions and weight Standard housing Standard housing Standard housing Standard housing Housing dimensions Figure 9-4: Converter (front view) Thread version for Ø2 mm/0.08″ single cable probe (right side) Thread version for all other probes (right side)
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Page 145
TECHNICAL DATA OPTIFLEX 1300 C Dimensions and Weight in mm and kg Dimensions [mm] Weight [kg] Housing 158.5 Flange 158.5 126.5 316.5 353.5 4…7 DN25…80 Flange 158.5 126.5 316.5 353.5 7…12 DN100…150 Thread, single 158.5 cable Ø2 Thread, all 158.5… -
Page 146
TECHNICAL DATA OPTIFLEX 1300 C Weather protection option Weather protection option Figure 9-5: Weather protection (rear view) Weather protection (left side) www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 147
TECHNICAL DATA OPTIFLEX 1300 C Dimensions and Weight in mm and kg Dimensions [mm] Weight [kg] Weather 231.5 protection radius Dimensions and Weight in inches and lbs Dimensions [inches] Weight [lbs] Weather 10.6 protection radius 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 148
TECHNICAL DATA OPTIFLEX 1300 C ESD protection and secondary METAGLAS seal options ESD protection and secondary METAGLAS seal options Figure 9-6: Optional ESD protection (30 kv) for solid applications Optional secondary METAGLAS seal for dangerous products Note: Note: Note: Note: •… -
Page 149
TECHNICAL DATA OPTIFLEX 1300 C Special options: Dimensions and weight in mm and kg Dimensions [mm] Options Weight [kg] ESD protection 30 kV Ø58 0.85 Secondary METAGLAS seal Ø58 0.83 Special options: Dimensions and weight in inches and lbs Dimensions [inches]… -
Page 150
TECHNICAL DATA OPTIFLEX 1300 C Remote housing Remote housing Remote housing Remote housing Remote housing dimensions Figure 9-7: Front view Left side Rear view Note: Note: Note: Note: • Refer to «ESD protection and secondary METAGLAS seal options» for the height to add to dimension «n». -
Page 151
TECHNICAL DATA OPTIFLEX 1300 C Dimensions and Weights in inches and lbs Dimensions [inches] Weight [lbs] Remote 14.6… version 28.3 wall bracket (3.1 lbs) + housing support (3.3 lbs) + remote probe housing (6.0 lbs) + flexible conduit (6.6 ft: 2.2 lbs; 14.8 ft: 5.0 lbs;… -
Page 152
Double rod Ø8 mm / Ø0.3″ (thread and flange versions) Double cable Ø4 mm / Ø0.15″ (thread and flange versions) Note: Note: Note: Note: A wide range of counterweights and anchoring solutions are available. Contact KROHNE for further information. www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 153
TECHNICAL DATA OPTIFLEX 1300 C Single probes: Dimensions in mm Dimensions [mm] Probes L max. Single rod Ø8 mm 4000 Single cable Ø2 mm 35000 Single cable Ø4 mm 35000 Single cable Ø8 mm 35000 Coaxial Ø22 mm 6000 for Ø12 mm counterweight. If Ø38 mm counterweight ordered: 245 mm… -
Page 154
TECHNICAL DATA OPTIFLEX 1300 C Probe weight Min. process connection size Weight Probes Thread Flange [kg/m] [lbs/ft] Single cable Ø2 mm / 0.08″ G ½A; NPT ½ 0.016 0.035 Single cable Ø4 mm / 0.15″ G ¾A; NPT ¾ DN25 PN40; 1″ 150 lb; 1½» 300 lb 0.12… -
Page 155: Appendices
APPENDICES OPTIFLEX 1300 C 10.1 Glossary Cable Cable Cable Cable This is a wire rope. It is used as a measurement pulse guide. Dielectric constant Dielectric constant An electrical property of the product to be measured used in TDR Dielectric constant Dielectric constant measurement.
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Page 156
APPENDICES OPTIFLEX 1300 C Electromagnetic compatibility Electromagnetic compatibility Defines how much a device influences or is influenced by other devices that Electromagnetic compatibility Electromagnetic compatibility generate electromagnetic fields during operation. Refer to European standard EN 61326-1 A1+A2 for further details. -
Page 157
APPENDICES OPTIFLEX 1300 C Free space Free space A minimum diameter around a probe that should have no objects in it for Free space Free space the instrument to work correctly. This depends on the probe type. Refer to Installation for more details. -
Page 158
APPENDICES OPTIFLEX 1300 C Operators Operators Users who can choose how to display measurements. They cannot Operators Operators configure the instrument 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 159
APPENDICES OPTIFLEX 1300 C Ullage mass Ullage mass Ullage mass Ullage mass This is a display option. It shows empty mass or mass of the product that can be put into the tank. Refer to the diagrams at the end of this section. -
Page 160
APPENDICES OPTIFLEX 1300 C Measurement definitions 1 Figure 10-2: Interface distance Distance Flange facing Gas (Air) Interface Sensor length, L’ Probe length, L Tank height Ullage volume or mass Measurement definitions 2 Figure 10-3: Layer Level Interface level Layer volume or mass… -
Page 161: Ec Declaration Of Conformity
APPENDICES OPTIFLEX 1300 C 10.2 EC declaration of conformity EC declaration of conformity Figure 10-4: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com…
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Page 162: Atex Approval Certificate
APPENDICES OPTIFLEX 1300 C 10.3 ATEX approval certificate ATEX certificate, page 1 of 5 Figure 10-5: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 163
APPENDICES OPTIFLEX 1300 C ATEX certificate, page 2 of 5 Figure 10-6: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 164
APPENDICES OPTIFLEX 1300 C ATEX certificate, page 3 of 5 Figure 10-7: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 165
APPENDICES OPTIFLEX 1300 C ATEX certificate, page 4 of 5 Figure 10-8: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 166
APPENDICES OPTIFLEX 1300 C ATEX certificate, page 5 of 5 Figure 10-9: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 167
APPENDICES OPTIFLEX 1300 C Declaration for ATEX zone 2 Figure 10-10: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 168: Iecex Approval Certificate
APPENDICES OPTIFLEX 1300 C 10.4 IECEx approval certificate IECEx certificate, page 1 of 5 Figure 10-11: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 169
APPENDICES OPTIFLEX 1300 C IECEx certificate, page 2 of 5 Figure 10-12: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 170
APPENDICES OPTIFLEX 1300 C IECEx certificate, page 3 of 5 Figure 10-13: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 171
APPENDICES OPTIFLEX 1300 C IECEx certificate, page 4 of 5 Figure 10-14: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 172
APPENDICES OPTIFLEX 1300 C IECEx certificate, page 5 of 5 Figure 10-15: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 173: Fm Certificate Of Compliance And Control Drawings
APPENDICES OPTIFLEX 1300 C 10.5 FM Certificate of compliance and control drawings FM certificate of compliance, page 1 of 3 Figure 10-16: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com…
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Page 174
APPENDICES OPTIFLEX 1300 C FM certificate of compliance, page 2 of 3 Figure 10-17: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 175
APPENDICES OPTIFLEX 1300 C FM certificate of compliance, page 3 of 3 Figure 10-18: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 176
APPENDICES OPTIFLEX 1300 C FM control drawing, page 1 of 2 Figure 10-19: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 177
APPENDICES OPTIFLEX 1300 C FM control drawing, page 2 of 2 Figure 10-20: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 178: Csa Certificate Of Compliance And Control Drawings
APPENDICES OPTIFLEX 1300 C 10.6 CSA Certificate of compliance and control drawings CSA certificate of compliance, page 1 of 3 Figure 10-21: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 179
APPENDICES OPTIFLEX 1300 C CSA certificate of compliance, page 2 of 3 Figure 10-22: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 180
APPENDICES OPTIFLEX 1300 C CSA certificate of compliance, page 3 of 3 Figure 10-23: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 181
APPENDICES OPTIFLEX 1300 C CSA control drawing, page 1 of 2 Figure 10-24: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 182
APPENDICES OPTIFLEX 1300 C CSA control drawing, page 2 of 2 Figure 10-25: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 183: Republic Of Belarus Certificates
APPENDICES OPTIFLEX 1300 C 10.7 Republic of Belarus certificates Pattern approval certificate of measuring instruments Figure 10-26: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com…
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Page 184: Republic Of Kazakhstan Certificates
APPENDICES OPTIFLEX 1300 C 10.8 Republic of Kazakhstan certificates Pattern approval certificate of measuring instruments Figure 10-27: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 185: Russian Federation Certificates
APPENDICES OPTIFLEX 1300 C 10.9 Russian Federation certificates Pattern approval certificate of measuring instruments Figure 10-28: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com…
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Page 186
APPENDICES OPTIFLEX 1300 C GOST-R certificate Figure 10-29: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 187
APPENDICES OPTIFLEX 1300 C Ex approval (Permission of Rostechnadzor) Figure 10-30: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 188: Ukraine Certificates
APPENDICES OPTIFLEX 1300 C 10.10 Ukraine certificates UA certificate Figure 10-31: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en…
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Page 189
APPENDICES OPTIFLEX 1300 C UAEx certificate Figure 10-32: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 190
APPENDICES OPTIFLEX 1300 C NEPSI certificate, Ex ia approval Figure 10-33: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 191
APPENDICES OPTIFLEX 1300 C NEPSI certificate, Ex ia approval (for liquid applications only) Figure 10-34: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 192
APPENDICES OPTIFLEX 1300 C NEPSI certificate, Ex dia approval Figure 10-35: www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 193
APPENDICES OPTIFLEX 1300 C NEPSI certificate, Ex dia approval (for liquid applications only) Figure 10-36: 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 194
APPENDICES OPTIFLEX 1300 C www.krohne.com 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en… -
Page 195
APPENDICES OPTIFLEX 1300 C 01/2008 • 4000172301 — HB OPTIFLEX 1300 R02 en www.krohne.com… -
Page 196: Krohne Measuring Technology — Product Overview
OPTIFLEX 1300 C nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn KROHNE measuring technology — Product overview • • Electromagnetic flowmeters Level measuring instruments • • Variable area flowmeters Temperature measuring instruments • • Mass flowmeters Pressure measuring instruments • • Ultrasonic flowmeters Analysis • • Vortex flowmeters Oil and gas industry •…
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Optiflex 1300c, Практическое руководство по монтажу и эксплуатации, Рефлекс-радарных уровнемеров в инструкции по эксплуатации KROHNE OPTIFLEX 1300C RU
Практическое руководство по монтажу и эксплуатации
OPTIFLEX 1300C
рефлекс-радарных уровнемеров для измерения уровня дистанции объема жидкостей раздела фаз паст и сыпучих веществ o
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KROHNE 08/2005
7.02534.11.00
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