Burkert 8228 ELEMENT neutrino Operating Instructions Manual
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Burkert 8228 ELEMENT neutrino Operating Instructions Manual

Conductivity meter
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Type 8228 ELEMENT neutrino
IO-Link / büS
Conductivity meter
Leitfähigkeits-Messgerät
Conductivimètre
Operating Instructions
Bedienungsanleitung
Manuel d'utilisation

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Summary of Contents for Burkert 8228 ELEMENT neutrino

  • Page 1 Type 8228 ELEMENT neutrino IO-Link / büS Conductivity meter Leitfähigkeits-Messgerät Conductivimètre Operating Instructions Bedienungsanleitung Manuel d‘utilisation...
  • Page 2 We reserve the right to make technical changes without notice. Technische Änderungen vorbehalten. Sous réserve de modifications techniques. © Bürkert SAS, 2023 Operating Instructions 2309/00_EU-ML 00574526 Original EN...

  • Page 3: Table Of Contents

    Type 8228 ELEMENT neutrino 1. ABOUT THIS DOCUMENT ............7 5. MODIFY COVER ORIENTATION .......... 17 1.1. Manufacturer ................7 5.1. Safety instructions ..............17 1.2. Symbols used ................7 5.2. Unscrew the cover on the connection box ......18 1.3.
  • Page 4 Type 8228 ELEMENT neutrino 9. SETTING AND OPERATION IN BÜS ........31 SENSOR – DIAGNOSTICS ..........41 9.1. Safety instructions ..............31 SENSOR – MAINTENANCE ..........42 9.2. Setting tools and setting software ......... 32 12.1. Checking the output behaviour ..........42 9.3.
  • Page 5 Type 8228 ELEMENT neutrino 13.2. Setting the basic parameters for identifying the device 13.7. PDOs configuration ..............55 on büS ..................50 13.7.1. Set the transmission time between 2 values of a PDO ..... 55 13.2.1. Entering a name for the device ............50 13.7.2.
  • Page 6 Type 8228 ELEMENT neutrino 18. TROUBLESHOOTING WITH MESSAGES ......63 18.3. Messages : out of specification ........67 18.1. Messages : failure, error or malfunction ......63 18.3.1. Message Warning: too low conductivity ........67 18.1.1. Message büS is not operational ..........

  • Page 7: About This Document

    Type 8228 ELEMENT neutrino About this Document ABOUT THIS DOCUMENT 1.2. Symbols used The document is an important part of the product and guides DANGER the user to safe installation and operation. The information and Warns of a danger that leads to death or serious injuries.

  • Page 8: Terms And Abbreviations

    Type 8228 ELEMENT neutrino About this Document 1.3. Terms and abbreviations 2.2. Safety The terms and abbreviations are used in this document to refer to This safety information does not take into account any contin- following definitions. gencies or occurrences that may arise during installation, use and maintenance of the product.
  • Page 9 Type 8228 ELEMENT neutrino About this Document Risk of burns due to high fluid temperatures. Various dangerous situations ▶ Use safety gloves to handle the device. To avoid injury take care: ▶ Only qualified and skilled staff may carry out the installation ▶...

  • Page 10: Product Description

    Type 8228 ELEMENT neutrino Product Description PRODUCT DESCRIPTION 3.2. Product digital output The device can communicate via büS/CANopen or IO-Link. 3.1. Product overview • Devices with box in PPS and M12 connector in PA66 (see chapter 4.3) are dedicated to a use in IO-Link only.

  • Page 11: Type Label

    Type 8228 ELEMENT neutrino Product Description 3.3. Type label 10. Warning: Before using the device, take into account the technical specifications described in these Operating Instructions 11. Article number 12. Serial number 13. Nominal pressure of the fluid 14. Constant of the measuring cell XXXXXX 15.

  • Page 12: Technical Data

    Type 8228 ELEMENT neutrino Technical Data TECHNICAL DATA 4.2. Standards and directives The device complies with the relevant EU harmonisation leg- 4.1. Conditions of use islation. In addition, the device also complies with the require- ments of the laws of the United Kingdom.

  • Page 13: Ul Certification

    Type 8228 ELEMENT neutrino Technical Data 4.2.2. UL certification Type of fluid Conditions Devices with variable key PU01 or PU02 are UL-certified devices Fluid group 1, Article 4, DN ≤ 25 and comply also with the following standards: Paragraph 1.c.ii or PSxDN ≤ 2000 • UL 61010-1 DN ≤ 200...
  • Page 14 Type 8228 ELEMENT neutrino Technical Data Table 2: Materials without contact with the fluid, device PC and PMMA variant with a G 2" union nut Part Material PA66 or Nickel- plated brass / EPDM Union nut PC/PPA Nickel-plated brass Table 3: Materials in contact with the fluid, device variant EPDM Stainless steel with a G 2" union nut Part Material Armature of the conductivity PVDF / PP / PEEK...

  • Page 15: Dimensions

    Type 8228 ELEMENT neutrino Technical Data 4.5. Fluid data Fluid temperature • Device variant with con- –15...+100 °C  2) ductivity sensor holder in PVDF • Device variant with con- 0...+80 °C  2) ductivity sensor holder in PP • Device variant with con- –15...+130 °C...
  • Page 16 Type 8228 ELEMENT neutrino Technical Data Temperature compensation • No compensation • Device variant with con-  4) ductivity sensor holder • Compensation according to a The fluid pressure may be in PP predefined curve: NaCl, NaOH, restricted by the fluid temperature,...

  • Page 17: Electrical Data

    Type 8228 ELEMENT neutrino Modify cover orientation 4.6. Electrical data MODIFY COVER ORIENTATION Operating voltage • 12...36 V DC 5.1. Safety instructions • Connection to main supply: per- manent through external safety DANGER extra-low voltage (SELV) and through limited power source Risk of injury due to electrical voltage.

  • Page 18: Unscrew The Cover On The Connection Box

    Type 8228 ELEMENT neutrino Modify cover orientation 5.2. Unscrew the cover on the → Unscrew the cover on connection box the connection box by hand. NOTICE The tightness of the device is not guaranteed when the cover is removed. ▶ Take all the precautions to prevent the projection of liquid inside the housing.

  • Page 19: Installation And Wiring

    Type 8228 ELEMENT neutrino Installation and wiring INSTALLATION AND WIRING → Position the polar- ising slots on the cover in the axis 6.1. Safety instructions of the slots on the Polarising slots box: 3 positions are DANGER possible. Risk of injury due to pressure in the installation.

  • Page 20: Install Onto The Pipe

    Type 8228 ELEMENT neutrino Installation and wiring 6.2. Install onto the pipe WARNING If the conductivity is measured in liquids containing Risk of injury due to nonconforming installation. solids that may leave deposits in the bottom of the pipe, ▶ The electrical and the fluid installation can only be carried use installation position 1 (see Fig. 6).

  • Page 21: Device Variant With A 2" Clamp Connection

    Type 8228 ELEMENT neutrino Installation and wiring → Install the device on the fitting (see Fig. 7). → Install the sensor on the fitting referring to the instructions provided with the fitting used (Fig. 8 shows an example). → Make sure the seal →...

  • Page 22: Electrical Installation

    Type 8228 ELEMENT neutrino Electrical Installation ELECTRICAL INSTALLATION IO-LINK COMMUNICATION To communicate in büS / CANopen or IO-Link, the following The device, both in G2" nut connection or in 2" clamp connection wiring must be done: versions, can be used in büS or IO-Link communication system.

  • Page 23: Safety Instructions

    Type 8228 ELEMENT neutrino IO-Link communication 8.1. Safety instructions 8.2. Communication table NOTICE Port Class Risk of injury from improper operation IO-Link specification V1.1.2 Improper operation can lead to injuries and damage to the Supply via IO-Link (M12 x 1, 5-pin, A-coded) product and its environment.

  • Page 24: Iodd

    → Start up the hardware and software for the IO-Link master. Downloading the IODD: → Load the sensor's device description file (IODD): see → Go to web page country.burkert.com. chapter 8.3 "Downloading the IODD". → Select your country. → Start the configuration tool.

  • Page 25: Home Page

    Type 8228 ELEMENT neutrino IO-Link communication The menu is organized around 4 main topics: Several IO-Link masters are available on the market and can conduct to different graphical interfaces but the • Identification, refer to chapter 8.5.2. structure of the menus and sub-menus should remain •...

  • Page 26: Parameter

    Type 8228 ELEMENT neutrino IO-Link communication 8.5.3. Parameter Detailed view of the Concentration table: Setting Parameter menu provides access to the following functionalities: Sensor parameters. • Concentration table • Sensor parameters. Concentration table • H2SO4 (0...30%) • Temperature compensation •...
  • Page 27 Type 8228 ELEMENT neutrino IO-Link communication Detailed view of the submenu: Detailed view of the submenu: Temperature compensation Measure values Setting Setting • Sensor parameters. Conductivity Compensation type • Linear Temperature • NaCl Concentration • NaOH • HNO3 Resistivity •...
  • Page 28 Type 8228 ELEMENT neutrino IO-Link communication This section gives the possibility to activate or deactivate the Those have to be done through büS communication using a PC monitoring of the listed events that could have an impact on the with the software 8920 Bürkert Communicator.
  • Page 29 Type 8228 ELEMENT neutrino IO-Link communication Setting Setting Simulation. Resistivity • Inactive Supply voltage Limits. Error low • Active Limits. Error high Resistivity. Simulation value Limits. Warning Refer to büS, chapter 13.4. Simulation menu provides the possibility to simulate process Limits. Warning values.

  • Page 30: Observation

    If those events are activated, associated error messages could be generated. Those messages are written in the logbook. The logbook cannot be displayed by the IO-Link master. Please use the Burkert Communicator 8920 to read the logbook (see chapter 14.4). English...

  • Page 31: Setting And Operation In Büs

    Type 8228 ELEMENT neutrino Setting and Operation IN BÜS Detailed view of the menu: SETTING AND OPERATION IN Diagnostic BÜS Parameter Sensor parameters. Cell working time 9.1. Safety instructions Conductivity sensor vari- Sensor information ables. Hardware version DANGER Conductivity sensor vari- Risk of injury from electric shocks.

  • Page 32: Setting Tools And Setting Software

    Type 8228 ELEMENT neutrino Setting and Operation IN BÜS 9.2. Setting tools and setting software Table 6: Possible login user levels The settings can be made with the following tool: Symbol User level Description • a PC with the software Type 8920 Bürkert Communicator and •...

  • Page 33: Product Functions And Menus

    Type 8228 ELEMENT neutrino Sensor – Parameter SENSOR – PARAMETER 9.5. Product functions and menus The product has 2 functions and each function has 3 menus. → Select device Sensor 8228. → Go to → To access the product functions and the menus, refer to the Sensor Parameter.

  • Page 34: Choosing The Type Of Temperature Compensation

    Type 8228 ELEMENT neutrino Sensor – Parameter The menu items are detailed in the following chapters: Setting • Temperature compensation, refer to chapter 10.1. HNO3 (35…96%) • Concentration table, refer to chapter 10.2. HCl (0…18%) • Measure values, refer to chapter 10.3. HCl (22…39%) •...

  • Page 35: Selecting Concentration Table

    Type 8228 ELEMENT neutrino Sensor – Parameter 10.2. Selecting concentration table • according to a curve defined especially for your process (choice Special) using the Teach special. The concentration tables allows to determine concentration of • or according to selected concentration table versus conduc- a molecule into water based on conductivity and temperature tivity and temperature.

  • Page 36: Setting Parameter For Each Measured Values

    Type 8228 ELEMENT neutrino Sensor – Parameter 10.3. Setting parameter for each 10.3.2. Activating the monitoring of measured values measured values Because of a malfunction in the process or in the sensor, the Measured values by the 8228 are: measured values can be too high or too low.
  • Page 37 Type 8228 ELEMENT neutrino Sensor – Parameter h: Value of the hysteresis. An hysteresis value that is equal to 0 means that the device reacts as soon as a limit is reached. A: Low error limit (Error low) B: Low warning limit...
  • Page 38 Type 8228 ELEMENT neutrino Sensor – Parameter Monitored value Colour of the device status indicator and Condition is in the generated message Red 1) indicator, Failure message • if the monitored value was in the LOWER warning range and the LOW ERROR value is reached.

  • Page 39: Deactivating The Monitoring Of Measured Values

    Type 8228 ELEMENT neutrino Sensor – Parameter 10.3.4. Changing the error limits, the warning By default, the monitoring of measured values is disabled, and the diagnostics are all enabled. To activate the monitoring of one limits and the hysteresis of the...

  • Page 40: Configure Reaction Of The Device To Specific Events

    Type 8228 ELEMENT neutrino Sensor – Parameter 10.4.2. Deactivating the monitoring of an 10.4. Configure reaction of the device to event specific events By default, the events are monitored. The device detects events that can have an impact on the trueness of the values measured by the sensor.

  • Page 41: Sensor - Diagnostics

    Type 8228 ELEMENT neutrino Sensor – Diagnostics SENSOR – DIAGNOSTICS Detailed view: Setting → Select Sensor 8228. Sensor Read sensor information → Go to Sensor Diagnostics. information The menu shows several categories of read only values: Hardware version • Sensor information Serial number •...

  • Page 42: Sensor - Maintenance

    Type 8228 ELEMENT neutrino Sensor – Maintenance SENSOR – MAINTENANCE Setting → Select Sensor 8228. Teach special → Go to Sensor Maintenance. Temperature offset The menu shows the following sub menu: Calibration Configure calibration frequency reminders schedule • Simulation Interval in days Configure numbers •...

  • Page 43: Calibration

    Type 8228 ELEMENT neutrino Sensor – Maintenance 12.2. Calibration • Teach special: Define the temperature compensation curve specific to your process. The curve thus determined and Calibrate the sensor using one of the following methods: memorised is used by the device when you choose the tem- •...
  • Page 44 Type 8228 ELEMENT neutrino Sensor – Maintenance Table 7: Correction factors of the fittings S020, depending on the shape, the material and the DN of the fittings Fittings with true union connections Fittings with internal or Measurement Welding sockets or fusion spigots or fittings with weld ends external thread connections chamber or fittings with weld end connections PVDF...

  • Page 45: Zero Adjustment

    Type 8228 ELEMENT neutrino Sensor – Maintenance 12.2.1. Zero adjustment 12.2.2. 1 point calibration → To calibrate the conductivity sensor, go to If the value of air conductivity measured is higher than 10 µS/cm, Sensor readjust the device, holding the sensor in the air (zero point of...

  • Page 46: Setting Cell Constant

    Type 8228 ELEMENT neutrino Sensor – Maintenance 12.2.4. Setting K Fitting Step 3/5: → When the conductivity measurement is stable, select Next. To read or enter the K Fitting value, go to Calibration Step 4/5: K Fitting menu. → The device transmits the cell constant as calibration result.
  • Page 47 Type 8228 ELEMENT neutrino Sensor – Maintenance → Before confirming to begin the procedure, check that the fluid Step 4/5: temperature is below 25 °C and T–. • There are 3 possible results: The fluid temperature range (T–; T+) must be entered - The calibration succeeds.

  • Page 48: Setting Temperature Offset

    Type 8228 ELEMENT neutrino Sensor – Maintenance 12.2.7. Setting temperature offset 12.4. Resetting calibration data to factory default value To read or enter the temperature offset, go to Calibration Temperature Offset. See chapter 10 to access the Parameters menu. The following data can be restored to their default values: •...

  • Page 49: General Settings - Parameter

    Type 8228 ELEMENT neutrino General settings – Parameter GENERAL SETTINGS – PARAMETER 13.1. Changing the operating mode of the device status indicator or → Select Sensor 8228. switching off the device status → Go to General settings Parameter. indicator Detailed view of the menu:...

  • Page 50: Switching Off The Device Status Indicator

    Type 8228 ELEMENT neutrino General settings – Parameter 13.1.2. Switching off the device status 13.2.2. Entering the location of the device indicator The entered location will be shown on any display (e.g. the Com- municator software) connected to büS. To switch off the device status indicator, do the following: To enter the information where the device is geographically →...

  • Page 51: Setting The Advanced Parameters For Identifying The Device Connected To Büs Or To A Canopen Bus

    Type 8228 ELEMENT neutrino General settings – Parameter 13.3. Setting the advanced parameters 13.3.2. Changing the transmission speed on the device for identifying the device connected to büS or to a CANopen bus The transmission speed for the communication on the fieldbus (both büS or CANopen) must be the same for all the participants...

  • Page 52: Changing The Address Of The Device Connected To A Canopen Bus

    Type 8228 ELEMENT neutrino General settings – Parameter 13.3.3. Changing the address of the device 13.3.4. Setting the digital communication for connected to a CANopen bus büS or for a CANopen bus The address of the device is used by büS or the CANopen By default, the operating mode of the digital communication is fieldbus the device can be connected to.

  • Page 53: Stop Sending The Measured Process Data (Pdos) To Büs Or To The Canopen Fieldbus

    Type 8228 ELEMENT neutrino General settings – Parameter 13.4. Monitoring the supply voltage or 13.3.5. Stop sending the measured process data (PDOs) to büS or to the CANopen the device temperature fieldbus The supply voltage of the device and the internal temperature of If the device is connected to büS or to a CANopen fieldbus and...

  • Page 54: Reading Out The 2 Error Limit Values

    Type 8228 ELEMENT neutrino General settings – Parameter 13.4.1. Reading out the 2 error limit values 13.4.3. Reading out the hysteresis value To read out the limits the supply voltage of the device should be To read out the hysteresis value, do the following: in, do the following: →...

  • Page 55: Disabling All The Diagnostics

    Type 8228 ELEMENT neutrino General settings – Parameter 13.7. PDOs configuration → Activate the monitoring of the process values that must be monitored. See chapter 10.3.2, chapter 10.4.1. → Go to General settings Parameter 13.7.1. Set the transmission time between Diagnostics. 2 values of a PDO →...

  • Page 56: General Settings - Diagnostics

    Type 8228 ELEMENT neutrino General settings – Diagnostics – GENERAL SETTINGS DIAGNOSTICS 14.1. Reading out device status information → Select Sensor 8228. → Go to The device allows to read out the following device status General settings Diagnostics. information: Setting •...

  • Page 57: Reading Out Büs Status Information

    Type 8228 ELEMENT neutrino General settings – Diagnostics 14.2. Reading out büS status information 14.4. Read the generated events The device allows to read the following büS status information: To read the events that are related to the product, do the fol- lowing procedure: •...
  • Page 58 Type 8228 ELEMENT neutrino General settings – Diagnostics Table 8: Description of the symbols Symbol Status Description Failure, error or fault Malfunction Function check Ongoing work on the product. For example, simulating measurement values. Out of specification At least one of the monitored parameters is outside its monitored limits.

  • Page 59: General Settings Maintenance

    Type 8228 ELEMENT neutrino General settings – Maintenance GENERAL SETTINGS – MAINTENANCE 15.1. Restart the product → Make sure that the login user level is Installer. Refer to → Select Sensor 8228. chapter 9.4. → Go to General settings Maintenance. → Go to General settings Maintenance.

  • Page 60: Process Data Objects

    Type 8228 ELEMENT neutrino General settings – Maintenance PROCESS DATA OBJECTS 16.2. Structure of the PDO3 The NAMUR status of the device is available on PDO3 The participants to büS or to a CANopen fieldbus use process (see Table 11). data objects (PDOs) to communicate the cyclic data.
  • Page 61 Type 8228 ELEMENT neutrino General settings – Maintenance Table 11: Device status indicator in accordance with NAMUR NE 107, edition 2006-06-12 Colour according Decimal value of Diagnostics event Meaning to NE 107 PDO3 (for a PLC) according to NE 107 Failure, error or fault Due to a malfunction of the device or its periphery, the measured values can be incorrect.

  • Page 62: Maintenance

    Type 8228 ELEMENT neutrino Maintenance MAINTENANCE WARNING Risk of injury due to nonconforming maintenance. 17.1. Safety instructions ▶ Maintenance must only be carried out by qualified and skilled staff with the appropriate tools. DANGER ▶ Ensure that the restart of the installation is controlled after Risk of injury due to pressure in the installation.

  • Page 63: Troubleshooting With Messages

    Type 8228 ELEMENT neutrino Troubleshooting with messages TROUBLESHOOTING WITH 18.1.2. Message Factory data failure MESSAGES Product-status symbol Messages can only be generated if the diagnostics are enabled. Possible cause Unknown cause Refer to chapter 13.5. → Restart the product. What to do?

  • Page 64: Message Sensor Probe Error

    Type 8228 ELEMENT neutrino Troubleshooting with messages 18.1.7. Message Error: too high conductivity 18.1.5. Message Sensor probe error Product-status Product-status symbol symbol Possible cause The conductivity value of the water Possible cause Unknown cause sample is is above the set limit.

  • Page 65: Message Error: Too High Temperature

    Type 8228 ELEMENT neutrino Troubleshooting with messages 18.1.9. Message 18.1.11. Message Error: too high temperature Error: too high concentration Product-status Product-status symbol symbol Possible cause The temperature value of the water Possible cause The concentration value of the water sample is above the set limit.

  • Page 66: Message Error: Too High Tds

    Type 8228 ELEMENT neutrino Troubleshooting with messages 18.1.13. Message Error: too high TDS 18.1.15. Message Error: too high resistivity Product-status Product-status symbol symbol Possible cause The TDS value of the reference electrode Possible cause The resistivity of the measuring cell is is above the set limit.

  • Page 67: Messages : Out Of Specification

    Type 8228 ELEMENT neutrino Troubleshooting with messages 18.3.3. Message Warning: too low temperature 18.3. Messages : out of specification Product-status → If the message displayed on your product is not explained in symbol the Operating Instructions, contact Bürkert. Possible cause The temperature value of the water sample is under the set limit.

  • Page 68: Message Warning: Too Low Concentration

    Type 8228 ELEMENT neutrino Troubleshooting with messages 18.3.7. Message Warning: too low TDS 18.3.5. Message Warning: too low concentration Product-status Product-status symbol symbol Possible cause The TDS value of the reference electrode Possible cause The concentration value of the water is under the set limit.

  • Page 69: Message Warning: Too Low Resistivity

    Type 8228 ELEMENT neutrino Troubleshooting with messages 18.3.9. Message Warning: too low resistivity 18.4. Messages : maintenance required Product-status symbol → If the message displayed on your product is not explained in Possible cause The resistivity of the measuring cell is the Operating Instructions, contact Bürkert.

  • Page 70: Spare Parts And Accessories

    Type 8228 ELEMENT neutrino Spare parts and accessories SPARE PARTS AND PACKAGING, TRANSPORT ACCESSORIES NOTICE CAUTION Damage due to transport Transport may damage an insufficiently protected device. Risk of injury and damage caused by the use of unsuitable ▶ Transport the device in shock-resistant packaging and away parts.
  • Page 72 www.burkert.com...

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