Emerson 1056 Sensor can be calibrated, but the current is too low, Process readings are erratic

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MODEL FCL-1056

SECTION 9.0

 

TROUBLESHOOTING

9.5.3 Sensor can be calibrated, but the current is too low

1.Is the temperature low or is the pH high? Sensor current is a strong function of pH and temperature. The sensor current decreases about 3% for every °C drop in temperature. Sensor current also decreases as pH increases. Above pH 7, a 0.1 unit increase in pH lowers the current about 5%.

2.Sensor current depends on the rate of sample flow past the sensor tip. If the flow is too low, chlorine readings will be low. Verify that the chlorine sensor is installed in the correct flow cell. See Figure 2-1 and 2-2. Be sure the liquid level in the constant head sampler is level with the central overflow tube and that excess sample

is flowing down the tube. If necessary, disassemble and clean the overflow sampler. See Section 8.4.

3.Low current can be caused by lack of electrolyte flow to the cathode. See step 4 in Section 9.5.2.

4.Is the membrane fouled or coated? A dirty membrane inhibits diffusion of free chlorine through the membrane, reducing the sensor current and increasing the response time. Clean the membrane by rinsing it with a stream of water from a wash bottle. DO NOT use a tissue to wipe the membrane.

5.If cleaning the membrane does not improve the sensor response, replace the membrane and electrolyte solution. If necessary, polish the cathode. See Section 8.2 for details.

9.5.4 Process readings are erratic

1.Readings are often erratic when a new sensor or a rebuilt sensor is first placed in service. The current usually stabilizes after a few hours.

2.Are the holes between the membrane and the electrolyte reservoir open? Refer to step 4 in Section 9.5.2.

3.Verify that wiring is correct. Pay particular attention to shield and ground connections.

4.If automatic pH correction is being used, check the pH reading. If the pH reading is noisy, the chlorine reading will also be noisy. If the pH sensor is the cause of the noise, use manual pH correction until the problem with the pH sensor can be corrected. Also, refer to Section 9.6.7 for troubleshooting noisy pH readings.

5.Is the membrane in good condition and is the sensor filled with electrolyte solution? Replace the fill solution and electrolyte. Refer to Section 8.2 for details.

9.5.5 Readings drift

1.Is the sample temperature changing? Membrane permeability is a function of temperature. The time constant for the 499ACL-01 sensor is about five minutes. Therefore, the reading may drift for a while after a sudden temperature change.

2.Is the membrane clean? For the sensor to work properly, chlorine must diffuse freely through the membrane. A coating on the membrane will interfere with the passage of chlorine, resulting in slow response. Clean the membrane by rinsing it with a stream of water from a wash bottle. DO NOT use a tissue to wipe the membrane.

3.Is the sample flow within the recommended range? Gradual loss of sample flow will cause a downward drift. Be sure the liquid level in the constant head sampler is level with the central overflow tube and that excess sample is flowing down the tube. If necessary, disassemble and clean the overflow sampler. See Section 8.4.

4.Is the sensor new or has it been recently serviced? New or rebuilt sensors may require several hours to stabilize.

5.Is the pH of the process changing? If manual pH correction is being used, a gradual change in pH will cause a gradual change in the chlorine reading. As pH increases, chlorine readings will decrease, even though the free chlorine level (as determined by a grab sample test) remained constant. If the pH change is no more than about 0.2, the change in the chlorine reading will be no more than about 10% of reading. If the pH changes are more than 0.2, use automatic pH correction.

6.Is a bubble trapped against the membrane? For the sensor to work properly, the chlorine must continuously diffuse through the membrane. Bubbles block the chlorine in the sample from reaching the membrane, so readings drift downward as bubbles form and grow. The nozzle at the bottom of the flow cell pushes bubbles to the edges of the membrane where they do no harm. In cold samples the nozzle may not be as effective.

a.If bubbles are visible, confirm that they are blocking the membrane by removing the sensor from the flow cell and replacing it. Removing the sensor breaks the bubbles, so when the sensor is replaced, readings return to normal.

b.Confirm that the nozzle is properly positioned in the flow cell. Line up your eye with the bottom of the membrane retainer. No gap should be visible between the end of the nozzle and membrane retainer.

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Contents FCL with 1056 Analyzer Essential Instructions ORP EnglishFree Chlorine Ppm mg/LS1 Free Cl PH Correction Manual Live/ContinousS1 Manual pH Temp Units Menu Tree Calibrate Sensor 1 Free chlorineSensor 2 pH Reset Analyzer AlarmsTemperature Diagnostic SetupRev. Level Date About This DocumentFCL-1056 Table of ContentsList of Tables Table of Contents CONT’DIii List of Tables CONT’DSection Description and Specifications FeaturesApplications Specifications General Specifications SensorSpecifications Analyzer PH Correction required selection AccessoriesOrdering Information Component PartsThis page left blank intentionally FCL-02 free chlorine with continuous pH correction Section InstallationUnpacking and Inspection FCL-01 free chlorine without continuous pH correctionMounting, Inlet, and Drain Connections InstallationInstalling the Sensors General InformationModel FCL-01 This page left blank intentionally Analog output wiring Section WiringPOWER, ALARM, and Output Wiring PowerAlarm relay connections Sensor WiringWiring Diagram for Free Chlorine Sensor Model FCL-1056 Section Wiring Display Section Display and OperationKeypad Range Programming the ANALYZER-TUTORIALCalibrate OutputsSecurity Output Range O1 S1 4mA 0.000 ppmO1 S1 20mA 08.50 ppm O2 S1 4mA 0.0C O2 S1 20mA 100.0CHold Using HoldFormat, Language, Warning, and Contrast Configuring the Main DisplayMain Format Language English ContrastDefault Settings Section Programming the AnalyzerGeneral Sensor assignment AlarmsChoices Default Definitions CONFIGURING, RANGING, and Simulating OutputsConfigure ProgramOutputAssign O1 S1 20mA 10.00 ppm O2 S1 4mA 0.0C O2 S1 20mA 100.0C Configure Simulate Output ConfigureProcedure Ranging Outputs Output Output RangeOutput Configure SimulateConfiguring Alarms and Assigning Setpoints RangeSimulateSection Programming the Analyzer Alarms Configure/SetpointAlarm Don’t Simulate Alarms Configure/SetpointAlarm Simulate Alarm SimulateAlarms Configure/Setpoint Simulate Synch Timers YesProcedure Synchronizing Timers Configuring the Measurement Definitions ChlorineDefinitions pH/ORP Sensor1Sensor MeasurementDefinitions pH Configuring Temperature Related SettingsS1 Temp Comp Auto S2 Temp Comp Program Outputs Alarms MeasurementTemperature Configuring Security SettingsSecurity Program Alarms Measurement TemperatureSetting UP Diagnostics SecurityProcedure Setting Up Diagnostics Program Measurement Temperature SecurityDiagnostic Setup GI Fault High 1500MΩReset Analyzer Resetting the AnalyzerProgram Temperature Security Diagnostics Reset AnalyzerCalibrating Temperature Section CalibrationIntroduction S1 Calibration + 25.0C ProcedureCalibrate SensorSensor11 Output S1 CalibrationCalibration Free Chlorine Procedure-Zeroing the SensorChoose Free Chlorine Calibrate SensorSensor11 Output S1 CalibrationSensor Output Temperature S1 Calibration ZeroZeroCalCal Process CalCalibrate? SensorCalibration Slope and Offset Calibration pHAuto ZeroBufferCalCal07.01 pH 10.01 pHStable Time Buffer ManualManual Buffer 1 0 7.00 pH S2 pH Manual Cal Buffer S1 Enter Value 00 pH Redox Temperature S2 pH Cal Buffer CalStandardizeStandardize Slope 56.19 mV/pH OffsetProcedure-Entering a Known Slope and Offset Calibration Analog Outputs OutputMA Output Cal Meter 000 mA Trim Complete This page left blank intentionally Section Digital Communications Model FCL-1056 Section Analyzer Section MaintenanceGeneral Cleaning the membraneReplacing the electrolyte solution and membrane Chlorine SensorCleaning the Sensor Other MaintenancePH Sensor Constant Head Flow Controller Cleaning the flow controllerWeight Weight Overview Section TroubleshootingUsing the Diagnostic Feature FaultsTroubleshooting When a Fault Message is Showing Fault message Explanation SectionHardware Error Sensor RTD Open Sensor CPU ErrorSensor ADC Error Sensor IncompatibleBroken Glass Sensor RTD Out of RangeGlass Z Too High Reference Impedance Too HighTroubleshooting When a Warning Message is Showing Troubleshooting When no Error Message is Showing Chlorine Sensor can be calibrated, but the current is too low Process readings are erraticReadings drift Chlorine readings are too low Sensor does not respond to changes in chlorine levelCalibration Error During Two-Point Calibration Troubleshooting When no Error Message is Showing pHSensor Does Not Respond to Known pH Changes Calibration Error during StandardizationPH Readings Are Moderately Noisy and Tend to Wander Cath Troubleshooting When no Error Message is Showing GeneralSimulating Inputs Chlorine AnodSimulating pH input Simulating Inputs pHSimulating temperature Simulating Inputs TemperaturePage Germany Americas HeadquartersASIA-PACIFIC EuropeWarranty Specifications subject to change without notice