Hach Digital Inductive Conductivity Sensor, Convertible Body Style

Hach Digital Inductive Conductivity Sensor, Convertible Body Style

Product Code: HAC-D3725E2T

The Hach Digital Inductive Conductivity Sensors measure 200 up to 2,000,000 microSiemens/cm. A built-in Pt 1000 RTD compensates the measured conductivity for changes in process temperature.

$1,878.80 Excl. GST
$2,066.68 Incl. GST
In Stock - Available for Fast Delivery
Vendor: Hach

Available

KEY FEATURES
  • Wide measuring range
  • Low maintenance design
  • Versatile mounting styles

 

The Hach Digital Inductive Conductivity Sensors measure 200 up to 2,000,000 microSiemens/cm. A built-in Pt 1000 RTD compensates the measured conductivity for changes in process temperature.

The inductive sensor design eliminates polarization and electrode coating problems that commonly affect conventional contacting electrode-type conductivity sensors. Sensors can be installed using a choice of four mounting styles—immersion, insertion, union, and sanitary.

The Hach Digital Inductive Conductivity Sensor is a Polypropylene, Convertible Mounting Style, 6m (20ft) Analog Cable, Electrodeless Conductivity Sensor, includes 6120800 Digital Gateway for Connecting to sc Controller and a 6122400 1 m (3ft) Digital Extension Cable.

Inductive conductivity sensors induce a low current in a closed loop of solution, then measure the magnitude of this current to determine the solution’s conductivity. The conductivity analyzer drives Toroid A, inducing an alternating current in the solution. This current signal flows in a closed loop through the sensor bore and surrounding solution. Toroid B senses the magnitude of the induced current which is proportional to the conductance of the solution. The analyzer processes this signal and displays the corresponding reading.

 

ADDITIONAL FEATURES
  • Low maintenance design
  • Versatile mounting styles
  • Withstands harsh environments
 
APPLICATIONS
  • Water testing and treatment

 

PRODUCT PACKAGE INCLUDES
  • Hach Digital Inductive Conductivity Sensor
  • 6120800 Digital Gateway for Connecting to sc Controller and a 6122400 1m (3ft) Digital Extension Cable
  • User manual 
    Brand Hach
    Weight  xx g 
    Length xx mm
    Width xx mm
    Depth xx mm
    Accuracy ± 0.01 % of reading, all ranges
    Body Material Polypropylene
    Cable Length 22 ft
    Flow Rate 3 m (10 ft.) per second, maximum
    Material Polypropylene
    Mounting Convertible
    Operating temperature range -10 - 200 °C
    Range 200 µS/cm - 2000 mS/cm
    Sensor Cable Polypropylene and PVDF Sensors:
    5 conductor (plus two isolated shields) cable with XLPE (cross-linked polyethylene) jacket; rated to 150 °C (302ºF); 6 m (20 ft.) long
    Sensor Type Digital
    Temperature Sensor Temperature Compensator Pt 1000 RTD
    Wetted Materials Polypropylene, PVDF, PEEK® or PFA®

     

    The contents of this document are provided as a guide only and are subject to change without prior notice, and without any subsequent liability to Parkway Process Solutions Pty Ltd (the “Company”) or any of its related entities. The actual shape, colour, size, performance and/or any other parameters of the item/s and/or product/s and/or system/s supplied by the Company, may vary materially from those outlined by the Company.


    All brand names and product names outlined in this document are either trademarks or registered trademarks and belong to the respective companies.


    ALL INFORMATION OUTLINED HEREIN IS PROVIDED AS A GUIDE ONLY AND SHOULD NOT BE RELIED UPON FOR ANY PURPOSE, WITHOUT CONFIRMING SUCH DETAILS WITH THE COMPANY BEFORE MAKING A PURCHASE AND/OR UTILISING A GIVEN PRODUCT.


     

    PRODUCT BROCHURE

    Additional information about the Hach Digital Inductive Conductivity Sensor, is outlined in the Hach Digital Inductive Conductivity Sensor brochure.

    DOWNLOAD

     

    USER MANUAL

    Instructions for the  Hach Digital Inductive Conductivity Sensor are outlined in the Hach Digital Inductive Conductivity Sensor instruction manual.

    DOWNLOAD

    KEY FEATURES
    • Wide measuring range
    • Low maintenance design
    • Versatile mounting styles

     

    The Hach Digital Inductive Conductivity Sensors measure 200 up to 2,000,000 microSiemens/cm. A built-in Pt 1000 RTD compensates the measured conductivity for changes in process temperature.

    The inductive sensor design eliminates polarization and electrode coating problems that commonly affect conventional contacting electrode-type conductivity sensors. Sensors can be installed using a choice of four mounting styles—immersion, insertion, union, and sanitary.

    The Hach Digital Inductive Conductivity Sensor is a Polypropylene, Convertible Mounting Style, 6m (20ft) Analog Cable, Electrodeless Conductivity Sensor, includes 6120800 Digital Gateway for Connecting to sc Controller and a 6122400 1 m (3ft) Digital Extension Cable.

    Inductive conductivity sensors induce a low current in a closed loop of solution, then measure the magnitude of this current to determine the solution’s conductivity. The conductivity analyzer drives Toroid A, inducing an alternating current in the solution. This current signal flows in a closed loop through the sensor bore and surrounding solution. Toroid B senses the magnitude of the induced current which is proportional to the conductance of the solution. The analyzer processes this signal and displays the corresponding reading.

     

    ADDITIONAL FEATURES
    • Low maintenance design
    • Versatile mounting styles
    • Withstands harsh environments
     
    APPLICATIONS
    • Water testing and treatment

     

    PRODUCT PACKAGE INCLUDES
    • Hach Digital Inductive Conductivity Sensor
    • 6120800 Digital Gateway for Connecting to sc Controller and a 6122400 1m (3ft) Digital Extension Cable
    • User manual 
      SPECIFICATIONS
      Brand Hach
      Weight  xx g 
      Length xx mm
      Width xx mm
      Depth xx mm
      Accuracy ± 0.01 % of reading, all ranges
      Body Material Polypropylene
      Cable Length 22 ft
      Flow Rate 3 m (10 ft.) per second, maximum
      Material Polypropylene
      Mounting Convertible
      Operating temperature range -10 - 200 °C
      Range 200 µS/cm - 2000 mS/cm
      Sensor Cable Polypropylene and PVDF Sensors:
      5 conductor (plus two isolated shields) cable with XLPE (cross-linked polyethylene) jacket; rated to 150 °C (302ºF); 6 m (20 ft.) long
      Sensor Type Digital
      Temperature Sensor Temperature Compensator Pt 1000 RTD
      Wetted Materials Polypropylene, PVDF, PEEK® or PFA®

       

      The contents of this document are provided as a guide only and are subject to change without prior notice, and without any subsequent liability to Parkway Process Solutions Pty Ltd (the “Company”) or any of its related entities. The actual shape, colour, size, performance and/or any other parameters of the item/s and/or product/s and/or system/s supplied by the Company, may vary materially from those outlined by the Company.


      All brand names and product names outlined in this document are either trademarks or registered trademarks and belong to the respective companies.


      ALL INFORMATION OUTLINED HEREIN IS PROVIDED AS A GUIDE ONLY AND SHOULD NOT BE RELIED UPON FOR ANY PURPOSE, WITHOUT CONFIRMING SUCH DETAILS WITH THE COMPANY BEFORE MAKING A PURCHASE AND/OR UTILISING A GIVEN PRODUCT.


       

      ADDITIONAL RESOURCES
      PRODUCT BROCHURE

      Additional information about the Hach Digital Inductive Conductivity Sensor, is outlined in the Hach Digital Inductive Conductivity Sensor brochure.

      DOWNLOAD

       

      USER MANUAL

      Instructions for the  Hach Digital Inductive Conductivity Sensor are outlined in the Hach Digital Inductive Conductivity Sensor instruction manual.

      DOWNLOAD

      Claritas est etiam processus dynamicus, qui sequitur mutationem consuetudium lectorum. Mirum est notare quam littera gothica, quam nunc putamus parum claram, anteposuerit litterarum formas humanitatis per seacula quarta decima et quinta decima. Eodem modo typi, qui nunc nobis videntur parum clari, fiant sollemnes in futurum.