The IK-765 Series are dual-parameter inline water analyzers specifically designed as a ‘Turn-Key’ monitoring solution for clean water applications including drinking water networks, secondary water supply and decorative/swimming water applications. The IK-765 Series offer highly accurate, real-time measurement, display and data logging of oxidizer, pH and temperature utilizing proprietary Pyxis Lab® smart sensor technology, coupled with a Pyxis Lab® UC-50 micro display and data logging terminal. The IK-765 Series is offered in convenient and easy to integrate panel mounted format for rapid installation and simple maintenance.
The panel design is equipped with the proprietary Pyxis Lab® ST-765SS-FCL smart sensor. The ST-765SS-FCL sensor measures free chlorine, pH and temperature of the sample water. This sensor design is membrane-free, based on unique principles and incorporates Pyxis’ advanced technology in the field of bare-gold electrochemical detection. The sensor measures the oxidant level and pH simultaneously while performing temperature and pH compensation for measurement of oxidant based on conditions present in the application of use. Each IK-765 panel is also provided with the FR-50 Flow Reservoir and UC-50 Micro Display/Data Logging Terminal prewired to the ST-765SS Series sensor in RS-485 Modbus format with fully integrated sensor diagnostics and calibration interface.
This unique platform with integral sensor compensation results in highly accurate oxidizer measurement consistent with DPD wet chemistry methodology as high as 9.0+ and meets EPA-334.0 and ISO-7393 compliance.
The ST-765SS-FCL (Free Chlorine + pH/Temperature) is a three parameter composite sensor used for the measurement of residual free chlorine, pH, and temperature in compliance with USEPA 334.0 and ISO-7393 guidelines. The sensor's advanced PCB offers built-in temperature and pH parameter compensation (up to pH 9.0+) algorithms eliminating the need for a supplemental pH sensor and controller. Unique Bare-Gold electrode technology for residual chlorine measurement eliminates membranes and electrode solution replenishment commonly associated with conventional sensors. The ST-765SS Series has a uniquely designed flat bubble pH electrode design for reduced fouling potential. Reduce your maintenance and cost versus colorimetric chlorine measurement or conventional electrochemical sensors by utilizing the Pyxis replaceable Electrode Head (EH-765) for this sensor, allowing for years of reliable service. The ST-765SS Series may be calibrated in-situ after cleaning via DPD free chlorine wet chemistry test measurement of active sample.
FR-50 Flow Reservoir
FR-50 single-sensor flow reservoir provides sample calming for dissipation of air-bubbles and settling of suspended solids, foam or other impurities commonly observed in drinking water influent. This unique flow reservoir design results in the highest level of oxidizer resolution on the market and greatly extends the maintenance cycle of the sensor while providing a large buffer capacity to mitigate pressure fluctuations. The minimum inlet pressure of FR-50 flow reservoir is only 7.5psi (0.05mpa) making it highly suitable for the end of pipe networks and secondary supply influent sampling. One FR-50 is provided with the purchase of each ST-765SS Series sensor and comes equipped with inlet PRV and rotameter for the recommended flow range 600–1,800mL/minute. The FR-50 outlet flow and sewer overflow lines should be diverted to drain or the inlet of the pretreatment system for those desiring NSF compliance.
UC-50 Micro-Display
The included UC-50 is a micro display and data logger interface with sensor calibration integrated. It offers (1) 4-20mA I/O as well as RS-485 with remote diagnosis and parameter adjustment. Convenient and simple to install back-panel (IK-765) for rapid and easy installation. Truly a plumb & power to go platform with intense factory setup, testing and sensor calibration prior to shipment.
Shipping
Promag Enviro provides free shipping throughout Canada and the U.S.
See Terms and Conditions.
