Emerson TCL instruction manual Sensor Wiring, Alarm wiring

Page 23

MODEL TCL

4.3.3Alarm wiring.

WARNING

Exposure to some chemicals may degrade the sealing properties used in the following devices: Zettler Relays (K1-K4) PN AZ8-1CH12DSEA

The alarm relay terminal strip is located just below the power connector on the power supply board. See Figure 4-3.

Keep alarm relay wiring separate from signal wiring. Do not run signal and power or relay wiring in the same conduit or close together in a cable tray.

SECTION 4

WIRING

FIGURE 4-3. Alarm relay connections.

4.4 SENSOR WIRING

1.

Shut off power to the analyzer.

 

 

 

2.

Locate the chlorine signal board.

 

 

 

 

 

 

 

 

 

 

 

Slot 1 (left)

Slot 2 (center)

Slot 3 (right)

 

 

 

 

 

 

 

 

 

communication

input 1 (chlorine)

input 2 (optional)

 

 

 

 

 

 

 

3.

Insert the sensor cable through the conduit opening nearest the chlorine board.

4.

Slide the board forward to gain access to the wires and terminal screws.

5.

Connect the sensor cable to the chlorine board. Refer to Figure 4-4 or 4-5.

6.

Once the cable has been connected, slide the board fully into the enclosure while taking up the excess

 

cable through the conduit opening. If you are using a cable gland, tighten the gland nut to secure the cable

 

and ensure a sealed enclosure.

 

 

 

15

Page 22 Page 24
Image 23
Page 22 Page 24
Contents Total Chlorine Analyzer Electrical Shock Hazard Read this page Before ProceedingPage Rev. Level Date Hazardous Area InstallationModel TCL Total Chlorine Analyzer List of Tables Table of Contents ContdIii List of FiguresPage Model 1056 Chlorine Analyzer Section Description and SpecificationsModel TCL Sample Conditioning System Model 499A CL-02 Sensor Sample Conditioning System GeneralSample Requirements Linearity per ISO 15839 0-10 ppm 2% 0-20 ppm 3% Electrolyte Capacity Approximately 25 mLAccessories Sample Conditioning System Ordering Information and AccessoriesDescription Description Weight Ship WeightPrinciples of Operation Schematic of Sample Conditioning System and AnalyzerUnpacking and Inspection InstallationInstallation Panel Mounting Dimensions Pipe Mount Wall / Surface MountInstall the Sensor Install the Sample Conditioning EnclosureTCL Case Dimensions Prepare Analyzer Conduit Openings WiringProvide Power to the Sample Conditioning System Analog output wiring PowerAlarm wiring Sensor WiringPpm mg/L Apply Power to the Analyzer and Complete Quick StartEnglish Total ChlorineTemp Units Menu Tree Start Sample Flow START-UPPrepare the Reagent Zero the SensorDisplay 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 ContrastProgramming the Analyzer Default SettingsMeasurement Chlorine Default Settings ChoicesSecurity Code Default SettingsChoices Default Temperature related settingsDefinitions CONFIGURING, RANGING, and Simulating OutputsOutputs First Assign ConfigureProgramOutput O1 S1 20mA 10.00 ppm O2 S1 4mA O2 S1 20mA Configure Simulate Output ConfigureProcedure Ranging Outputs Output Output RangeOutput Configure SimulateConfiguring Alarms and Assigning Setpoints RangeSimulateDefinitions Alarm AlarmsConfigure/Setpoint Don’t Simulate Alarms Configure/SetpointAlarm Simulate Alarm SimulateProcedure Synchronizing Timers Alarms Configure/Setpoint SimulateSynch Timers Yes Configuring the MeasurementSensor1Sensor MeasurementTemperature UnitsUnitsC S1 Temp Comp Auto Configuring Temperature Related SettingsProgram Outputs Alarms Measurement TemperatureSecurity Configuring Security SettingsProgram Alarms Measurement Temperature SecurityReset Analyzer Resetting the AnalyzerProgram Temperature Security Diagnostics Reset AnalyzerHart Digital CommunicationsIntroduction Calibrating TemperatureCalibration S1 Calibration Temperature S1 Calibration + 25.0CProcedure Calibrate SensorSensor11 OutputDetermination of Total Chlorine Calibrating Total ChlorineChoose Total Chlorine Procedure Zeroing the SensorSensor Temperature S1 Calibration ZeroZeroCalCal Process CalS1 Zero Cal Sensor zero failed Press Exit Calibrate?MA Output Cal Meter 000 mA Calibrating Analog OutputsCalibrate? Sensor OutputOutput Trim Complete Analyzer MaintenanceGeneral Cleaning the membraneReplacing the membrane and electrolyte solution Total Chlorine SensorSensor Parts Spare Parts Sample and reagent tubing ReagentReplacing Sample Tubing Peristaltic pump tubing Model TCL Replacing the air pump Replacing the air pump diaphragm and check valves Description Replacement Parts and Reagent for Sample Conditioning SystemOverview Section TroubleshootingUsing the Diagnostic Feature FaultsHardware Error Troubleshooting When a Fault Message is ShowingFault message Explanation Section Sensor RTD Open Sensor CPU ErrorSensor ADC Error Sensor IncompatibleSensor Negative Reading Troubleshooting When a Warning Message is ShowingExplanation Section Sensor Need Factory CalZero current is unstable Troubleshooting When no Error Message is ShowingProblem See Section Zero current is too highSensitivity is low or readings are low Readings drift Cath Simulating InputsAnod Simulating temperature Simulating TemperatureSection Return of Material Warranty RepairNON-WARRANTY Repair Return of Material WarrantySpecifications subject to change without notice

TCL specifications

Emerson TCL, a leader in technology and automation solutions, offers a diverse range of products and systems designed to optimize industrial processes. The company has established itself as a key player in the industry by providing innovative technologies that enhance operational efficiency, reliability, and sustainability.

One of the main features of Emerson TCL is its advanced process automation capabilities. The company's integrated solutions enable manufacturers to monitor, control, and optimize their operations in real-time. With a focus on automation, Emerson TCL helps organizations reduce operational costs, improve quality, and achieve greater throughput.

Another notable aspect of Emerson TCL is its commitment to digital transformation. The company’s technologies leverage the Internet of Things (IoT) to connect devices, systems, and people, allowing for seamless data exchange and insights. This connectivity enables operators to make informed decisions, identify trends, and implement improvements more quickly and effectively.

Emerson TCL also emphasizes the importance of safety and regulation compliance. Its solutions are designed to meet stringent industry standards, ensuring that organizations can operate within the legal framework while maintaining high safety levels. The company provides tools and software that support risk management and compliance monitoring, helping organizations avoid costly penalties and enhance their safety culture.

Sustainability is another key characteristic of Emerson TCL's offerings. The company is dedicated to helping industries reduce their environmental footprint through energy-efficient technologies and processes. By improving energy management and resource utilization, Emerson TCL supports organizations in their quest to achieve sustainability goals.

Additionally, Emerson TCL boasts a comprehensive portfolio of products, including process control systems, instrumentation, and software solutions. With a focus on modularity and scalability, the company provides customized systems that can adapt to various industry needs, making it easier for companies to implement solutions that grow with them.

In summary, Emerson TCL stands out for its advanced process automation, commitment to digital transformation, emphasis on safety, and sustainability initiatives. Through its innovative technologies and comprehensive product offerings, Emerson TCL continues to empower industries to enhance their operations and achieve their strategic goals.
Top Page Image Contents