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Instruction Manual PN 51-226/rev.B March 2012 Model 226 Submersion/Insertion Sensor...
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Date Notes 5/01 This is the initial release of the product manual. The manual has been refor- matted to reflect the Emerson documentation style and updated to reflect any changes in the product offering. 3/02 Updated multiple drawings throughout. 3/12 Updated page 18.
MODEL 226 TABLE OF CONTENTS MODEL 226 SUBMERSION/INSERTION SENSOR TABLE OF CONTENTS Section Title Page DESCRIPTION AND SPECIFICATIONS ..............General ........................Specifications ......................Ordering Information ....................INSTALLATION AND WIRING ................Sensor Installation....................Sensor Wiring ......................Extension Cable and Junction Box Use..............CALIBRATION......................
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MODEL 226 TABLE OF CONTENTS MODEL 226 SUBMERSION/INSERTION SENSOR LIST OF FIGURES Figure No. Title Page Dimensional Diagrams ..................... Model 226 Sensor Wiring Directly to Instrument............Model 226 Sensor Wiring with Junction Box PN 23550-00 ........Model 226 Sensor Wiring with Junction Box PN 23293-00 ........Junction Box Termination Unprepped Cable Extension ...........
MODEL 226 SECTION 1.0 DESCRIPTION AND SPECIFICATIONS SECTION 1.0 DESCRIPTION AND SPECIFICATIONS 1.1 GENERAL. The Model 226 Toroidal Conductivity 1.2 MODEL 226 SPECIFICATIONS. Sensor greatly reduces the adverse effects of coating Minimum Range w/1181T : 0 to 80 µS/cm (Code 50) and chemical attack associated with exposed elec- trodes used in conventional conductivity measurement.
MODEL 226 SECTION 1.0 MODEL 226 SENSOR 1.3 ORDERING INFORMATION. The Model 226 Large Bore Submersion/Insertion Sensor is molded of chemically-resistant glass-filled PEEK (polyetheretherketone). The sensor includes an integral RTD for temperature compensation and 20 feet of integral cable. See Table 1 for accessories. MODEL LARGE BORE TOROIDAL CONDUCTIVITY SENSOR CODE SENSOR CONSTRUCTION (Required Selection)
MODEL 226 SECTION 2.0 INSTALLATION AND WIRING SECTION 2.0 INSTALLATION AND WIRING 2.1 SENSOR INSTALLATION. 2.2 SENSOR WIRING. Please refer to Figures 2-1 and 2-2 for installation Sensor cable should not be run in conduit or open and mounting options. trays with any A.C.
MODEL 226 SECTION 2.0 INSTALLATION AND WIRING INSERTION DWG. NO. REV. 40022607 WHEN INCH AND METRIC DIMS ARE GIVEN MILLIMETER INCH SUBMERSION DWG. NO. REV. 40022604 FIGURE 2-1. Dimensional Diagrams...
MODEL 226 SECTION 2.0 INSTALLATION AND WIRING WHEN INCH AND METRIC DIMS ARE GIVEN MILLIMETER INCH FIGURE 2-2. Model 226 Sensor Wiring Directly to Instrument...
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MODEL 226 SECTION 2.0 INSTALLATION AND WIRING WHEN INCH AND METRIC DIMS ARE GIVEN MILLIMETER INCH DWG. NO. REV. 40022819 FIGURE 2-3. Model 226 Toroidal Conductivity Sensor Wiring With Remote Junction Box PN 23550-00...
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MODEL 226 SECTION 2.0 INSTALLATION AND WIRING WHEN INCH AND METRIC DIMS ARE GIVEN MILLIMETER INCH DWG. NO. REV. 40022806 FIGURE 2-4. Model 226-55 Toroidal Conductivity Sensor Wiring With Remote Junction Box PN 23293-00...
MODEL 226 SECTION 2.0 INSTALLATION AND WIRING Unprepped Cable - If unprepped extension cable (PN 9200245) is selected, refer to Figures 2-5 through 2-8 on the following pages for detailed instructions on cable end preparation for each sensor-to-transmitter/analyzer configuration. MILLIMETER INCH DWG.
MODEL 226 SECTION 2.0 INSTALLATION AND WIRING FIGURE 2-9. Wiring Model 226-56 Sensor to Model 1055-01-21-31 Analyzer FIGURE 2-10. Wiring Model 226-54 Sensor to Model 1055-21-31 Analyzer...
MODEL 226 SECTION 3.0 CALIBRATION SECTION 3.0 CALIBRATION SENSOR CALIBRATION. After sensor and transmit- 4. Keeping the “donut” portion of the sensor immersed in ter/analyzer wiring is completed, electronic zero and the grab sample, clamp the sensor so that it is as far temperature slope adjustment should be performed away as possible from the sides and bottom of the prior...
MODEL 226 SECTION 4.0 MAINTENANCE AND TROUBLESHOOTING SECTION 4.0 MAINTENANCE AND TROUBLESHOOTING 4.1 SENSOR MAINTENANCE. 4.2 TROUBLESHOOTING. Please refer to Sensor Resistance Check Table 4-1 CAUTION and Temperature vs Resistance Table 4-2. For personal safety, make sure sen- sors have been cleaned of process fluid before handling.
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MODEL 226 SECTION 4.0 MAINTENANCE AND TROUBLESHOOTING TABLE 4-2. Resistance vs. Temperature for Temperature Compensation (Resistance Temperature Detector) RTD Type (Transmitter) Temperature (°C/°F) Resistance (Ω) 18/64.4 2910 19/66.2 2920 20/68.0 2930 21/69.8 2950 22/71.6 2960 3K (1181T) 23/73.4 2970 24/75.2 2990 25/77.0 3000...
Model 226 SECTION 5.0 RETURN OF MATERIAL SECTION 5.0 RETURN OF MATERIAL 5.3 NON-WARRANTY REPAIR. 5.1 GENERAL. The following is the procedure for returning for repair To expedite the repair and return of instruments, proper instruments that are no longer under warranty: communication between the customer and the factory is important.
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A Worldwide Network of Sales and Service Emerson Process Management’s field sales offices are your source for more information on the fill line of Rosemount Analytical products. Field sales personnel will work closely with you to supply technical data and application information.
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WARRANTY Goods and part(s) (excluding consumables) manufactured by Seller are warranted to be free from defects in workman- ship and material under normal use and service for a period of twelve (12) months from the date of shipment by Seller. Consumables, pH electrodes, membranes, liquid junctions, electrolyte, O-rings, etc.
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ON-LINE ORDERING NOW AVAILABLE ON OUR WEB SITE right now. http://www.raihome.com Specifications subject to change without notice. Credit Cards for U.S. Purchases Only. Emerson Process Management 2400 Barranca Parkway Irvine, CA 92606 USA Tel: (949) 757-8500 Fax: (949) 474-7250 http://www.rosemountanalytical.com...