Teledyne M5000B operating instructions Start-p, PreliminaryInspection, Control Settings

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Operations/Analysis Unit 4

Thecontrolunitdigitaldisplaymusthandlefunctionsforboththeanalysis sectionandthecontrolmodule.

4.2Start-p

Information contained in this paragraph is based on the premise that the analyzer has been properly installed and that it is in operable condition. If difficulties arise during start-up, it is probable that someform of damage has incurredduringshipmentorsomeinstallationerrorhasinadvertentlybeenmade.

Accessory test equipment is not necessary for start-up of the 5000B.. However, if the analyzer malfunctions at start-up, an oscilloscope and a multimeterwillberequiredfortroubleshooting.TAIrecommendsthatadual trace oscilloscope be used. A dual trace oscilloscope will permit the operator to seetwodifferentwaveformssimultaneously.

4.2.1PreliminaryInspection

Before power is supplied to the analyzer, all modules should be opened and inspected for damage or loose components. Plug-in circuit cards should be firmly seated in their sockets. All barrier strip wiring connections must be inspected, and user-installed wiring between units verified as being in agree- ment with the system interconnection diagram.

Control Settings

Prior to turning on the power, the controls on and within the control module should be positioned as follows:

Analyzers not equipped with Auto Zero

1.ON/OFF functionality hardwired at customers remote terminal block or power switch.

2.SPAN control preset to the setting noted in Specific Application Data in the Appendix.

Analyzers equipped with Auto Zero

1.ON/OFF functionality hardwired at customers remote terminal block or power switch.

2.SAMPLE/ZERO switch on ZERO.

3.SPAN control preset to the setting noted in Specific Application Data in the Appendix.

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Contents Teledyne Analytical Instruments Photometric AnalyzerCopyright 1999 Teledyne Analytical Instruments Model 5000BIii Table of ContentsModel 5000B Teledyne Analytical Instruments Part I Control Unit Part IOperation InstallationIi Part Maintenance Model 5000B Photometric Analyzer Iv PartPhotometric Analyzer Part I Control Unit OverviewTypical Applications Introduction Model 5000B Other NIR Absorbers that can be measured consult factory Introduction Model 5000B Main Features of the Analyzer Operator Interface 1 UP/DOWN SwitchESCAPE/ENTER Switch Model 5000B Controls, Indicators, and Connectors Control Section Interface Panel Model 5000B Interface Panel Introduction Model 5000B Unpacking the Control/Analysis Unit InstallationPart 115VAC Primary Input Power ConnectionsAnalog Output Connections ExamplesRange Voltage Current mA Alarm RelaysTypes of Relay Contacts The connectors are Part I RS-232 Sig RS-232 Pin Purpose RS-232 SignalsParameter Setting Testing the SystemCommand Description Part Photometric Analyzer Operation /Control Unit OperationOperation/Control Unit Hierarchy of System Functions and Subfunctions System Function Setting up an AUTO-CALSelect More and press the Enter Key Entering the Password PasswordProtectionInstalling or Changing the Password Logging Out System Self-Diagnostic Test CheckingLinearitywithALGORITHM Model ScreenSetting 90% Response time seconds Digital Filter SetupFilter or Solenoid Setup Calibration/Hold Timer Setup Hold/Track SetupAnalog 4 to 20 mA Output Calibration Calbrt hold 3 min Sample hold 1 minModel Use UP/DOWN arrow to Adjust 4 ma 250Zero Cal Auto Mode ZeroingShow Negative Manual Mode Zeroing Sccm Cell FailureSpan Cal Auto Mode SpanningManual Mode Spanning Offset Function How to access the offset functionZero off 0.0 ppm ENT to begin Zero Select zero mode Auto Select zero mode MANAlarms Function AL1 1ØØØ ppm HI DftN FsN LtchN Manual Select/Define Range Screen Range Select FunctionAuto Screen Precautions 2illustratestheseschemesgraphically Analyze Function Set Range Screen Algorithm Application More Curve Algorithm Screen Auto Mode Linearization Part I Control Unit/Analysis Unit Maintenance Fuse ReplacementAnalog System Self Diagnostic TestMaintenance Model 5000B Photometric Analyzer PowerCell detector PreampPart Part II Analysis Unit Part IIRoutine Maintenance Part II Analysis Unit Appendix Iv Part Operations/Analysis Unit Explosion-ProofVersionControlModule Control FunctionsAnalyzers not equipped with Auto Zero Control SettingsStart-p PreliminaryInspectionPre-Start-upElectricalCheckout Power On ObservationsTeledyneAnalyticalInstruments4-5 StandardizationFluids ProcedureCalibration TeledyneAnalyticalInstruments4-7 Operations/Analysis Unit TeledyneAnalyticalInstruments4-9 Operations/Analysis Unit TeledyneAnalyticalInstruments4-11 Operations/Analysis Unit TeledyneAnalyticalInstruments4-13 Ppm simulated water using Sample Span ZeroAttachment 5000B/5020 NIR Analyzer Operations/Analysis Unit Operational Theory Contd Source Module Sample cell OpticalSystemAnalyzerSystem-BlockDiagram Power Module Block Diagram Detectorcompartment Automatic operation and routine operational duties Routine MaintenancePart II Maintenance/Analysis Unit System Visual Check and Response ProcedureDaily Suggested Preventive Maintenance ScheduleEquipment Required Oscilloscope Display of the I to E Converter Output Part II Maintenance/Analysis Unit Inverting Amplifier Setup of the Logarithmic AmplifierInterface Board Terminals Strip Battery-Powered Oscilloscope Synchronization PointPart Part II Maintenance/Analysis Unit Part Photometric Analyzer, 5000B Appendix SpecificationsOperating Temperature 0-50oC Appendix Models 5000B Other Features QtyP/NDescription Recommended 2-Year Spare Parts ListDrawing List, 5000B Appendix Models 5000B Teledyne Analytical Instruments