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Teledyne
6600 manual Part III, Oil in Water, Teledyne Analytical Instruments
Models:
6600
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Troubleshooting
Specification
Install
Parts list
Interconnection Diagram
4.1Fuse Replacement
Warranty
Maintenance
configured to measure non-dissolvedoil only
8.3Zero Drift Problems
Page 147
Image 147
Oil in Water
Part III
Teledyne Analytical Instruments
Part III:
1-57
Page 146
Page 148
Page 147
Image 147
Page 146
Page 148
Contents
Model
Oil in Water Analyzer
OPERATING INSTRUCTIONS
DANGER
Copyright 1999 Teledyne Analytical Instruments
Warranty
Model
Teledyne Analytical Instruments
Part II: Analysis Section
Table of Contents
Part I: Control Section
Part
Teledyne Analytical Instruments
Model
of the Control/Analysis Unit
Model
Oil in Water Analyzer
Part I: Control Section
Model 6600 Oil in Water Analyzer
Table of Contents
Installation
ii: Part
A Appendix
4 Maintenance
Part I:
Part I: Control Section
iv: Part
Model 6600 Oil in Water Analyzer
Teledyne Analytical Instruments
Part I: Control Section
Introduction
1.1Overview
Oil in Water Analyzer
Model
1.3Main Features of the Analyzer
1.4Operator Interface
1 Introduction
Part I: Control Section
1.4.1 UP/DOWN Switch
1.4.2 ESCAPE/ENTER Switch
Oil in Water Analyzer
Teledyne Analytical Instruments
1 Introduction
Model
1-4:Part
Figure 1-2:Model 6600 Interface Panel
Oil in Water Analyzer
Part I: Control Section
Teledyne Analytical Instruments
• Analog Outputs
1.5Control Section Interface Panel
1 Introduction
Model
Part I:
Installation
2.1Unpacking the Control/Analysis Unit
2.2Electrical Connections
Model
2 Installation
115VAC
2-2:Part
Examples
Part I:
Oil in Water Analyzer
Part I: Control Section
Teledyne Analytical Instruments
2 Installation
2-4:Part
Model
Oil in Water Analyzer
Alarm Relays
The connectors are
Part I:
Digital Remote Cal Inputs
2 Installation
2-6:Part
Model
Part I: Control Section
Table 2-3: RS-232Signals
Part I:
Oil in Water Analyzer
2-8:Part
2 Installation
Command
Setting
Part I: Control Section
2.3Testing the System
Part I:
Oil in Water Analyzer
Teledyne Analytical Instruments
2 Installation
2-10:Part
Model
Part I
Operation
3.2Using the Controls
3.1Introduction
3.2.1Mode/Function Selection
3-2Part
3 Operation
Model
Teledyne Analytical Instruments
Part I
Oil in Water Analyzer
Operation
Model
3.3The System Function
3-4Part
3 Operation
Operation
3.3.1 Setting up an AUTO-CAL
Part I
Oil in Water Analyzer
3 Operation
3.3.2 Password Protection
3.3.2.1EnteringthePassword
3-6Part
Operation
3.3.2.2Installing or Changing the Password
Part I
Oil in Water Analyzer
3.3.3 Logging Out
3-8Part
3 Operation
Model
Operation
3.3.4 System Self-DiagnosticTest
Part I
Oil in Water Analyzer
3.3.5 The Model Screen
3-10Part
3 Operation
Model
Oil in Water Analyzer
3.3.7 Digital Filter Setup
Setting
Part I
Model
3.3.8 Homogenizer Function Setup
3-12Part
3 Operation
Part I
3.3.9Hold/Track Setup
AUTOCAL HMGNZR TRACK CAL-HOLDER-TIMERMORE or
AUTOCAL HMGNZR HOLD CAL-HOLD-TIMERMORE
3-14Part
3.3.10 Calibration/Hold Timer Setup
AUTOCAL HMGNZR TRACK CAL-HOLD-TIMERMORE or
AUTOCAL HMGNZR HOLD CAL-HOLD-TIMERMORE
Part I
AUTOCAL HMGNZR TRACK CAL-HOLD-TIMERMORE or
AUTOCAL HMGNZR HOLD CAL-HOLD-TIMERMORE
Adjust 4 ma
Model
3.4The Zero and Span Functions
3-16Part
3 Operation
Operation
3.4.1.1Auto Mode Zeroing
Part I
Oil in Water Analyzer
Model
3.4.1.2Manual Mode Zeroing
3-18Part
3 Operation
3.4.1.3 Detector Failure
Part I
Oil in Water Analyzer
Operation
How the offset value is selected
3-20Part
3 Operation
Model
Oil in Water Analyzer
3.4.2.1Auto Mode Spanning
3.4.2.2Manual Mode Spanning
Part I
Model
3.5The Alarms Function
3-22Part
3 Operation
Operation
Decide whether you want the alarms to be set as
Part I
Oil in Water Analyzer
Model
3.6The Range Select Function
3-24Part
3 Operation
3.6.1 Manual Select/Define Range Screen
Part I
Oil in Water Analyzer
Operation
Model
3.6.3 Precautions
3-26Part
3 Operation
Operation
3.7The Analyze Function
Part I
Oil in Water Analyzer
Model
3.8Programming
3-28Part
3 Operation
3.8.1 The Set Range Screen
Part I
Oil in Water Analyzer
Operation
3.8.2 The Curve Algorithm Screen
3-30Part
3 Operation
Model
Operation
3.8.2.2 Auto Mode Linearization
Part I
Oil in Water Analyzer
Teledyne Analytical Instruments
3-32Part
3 Operation
Model
Part I:
Maintenance
4.1Fuse Replacement
Maintenance
4-2:Part
4.2System Self Diagnostic Test
4 Maintenance
Power
Part I: Control Section
Maintenance
4.3Major Internal Components
Part I:
4-4:Part
Side View
Open Door
4 Maintenance
of the Control/Analysis Unit
Part II: Analysis Section
Model
Oil in Water Analyzer
ii: Part
Table of Contents
Installation
Maintenance
Teledyne Analytical Instruments
Part II:
Part II: Analysis Unit
Appendix
iv: Part
Model 6600 Oil in Water Analyzer
Teledyne Analytical Instruments
Part II:
Operational Theory
1.0Introduction
1.1Method of Analysis
Model
1.2Optical Bench
1-2Part
1 Operational Theory
Oil in Water Analyzer
Interconnection Diagram
1.3Photometer Amplifier
Part II:
Model
1.4Automatic Zero System
1-4Part
1 Operational Theory
Operational Theory
1.5System Description
Part II:
Oil in Water Analyzer
Model
1.6Photometer
1-6Part
1 Operational Theory
LOWED TO OPERATE UNLESS PERSONNEL IN
Part II:
Oil in Water Analyzer
Operational Theory
Model
1.7Sample Systems
1-8Part
1 Operational Theory
Part II:
Installation
2.2Installing and Connecting the Analyzer
2.1Unpacking the Analyzer
2-2:Part
2 Installation
2.2.2 Electrical Power Connections
2.2.5 Signal and Alarm Output Connections
Oil in Water Analyzer
2.3Testing the System
2.4Calibration 2.4.1 Calibration Fluids
Part II:
2.4.2 Calibration
2 Installation
2-4:Part
Model
3.2System Visual Check and Response Procedure
Maintenance
3.0Routine Maintenance
Maintenance
Part
3 Maintenance
3.3Routine Maintenance
3.4Suggested Preventive Maintenance Schedule
Part
Maintenance
3.5Service Procedures and Adjustments
3.5.2 Power Supply Test Points
Teledyne Analytical Instruments
3 Maintenance
Part
Model
Teledyne Analytical Instruments
Maintenance
Part
Oil in Water Analyzer
Model
3 Maintenance
3.5.6 Setup of the Logarithmic Amplifier
Part
Oil in Water Analyzer
Maintenance
3.5.8 Integrated Reference and Measuring Signals
Part
Teledyne Analytical Instruments
3 Maintenance
Part
Model
Teledyne Analytical Instruments
Maintenance
Part
Oil in Water Analyzer
Model
3 Maintenance
3-10
Part
OPERATING INSTRUCTIONS
Oil in Water Sample Conditioning System Operation
Part III: Sample System
Model
Teledyne Analytical Instruments
Table of Contents
ii: Part
Model 6620 Oil in Water Analyzer
Part III:
Part III: Oil in Water
Teledyne Analytical Instruments
Teledyne Analytical Instruments
iv: Part
Model 6620 Oil in Water Analyzer
7.11
Part
1.0Introduction
Part III:
Oil in Water
1-2Part
2.0The Method of Analysis
2.1The Optical Bench
2.2The Photometer Amplifier
The detector output, which is a sequence of pulses which directly reflect the photo energy transmitted by the measuring and reference filter, is a measure of the concentration of the component of interest in the sample. The difference of the energy in the measuring and reference pulse is exponentially related to the concentration of the component of interest
Part III:
Oil in Water
Part
Part
2.4 From B71046-0or customer’s piping schematic
2.3The Automatic Zero System
1-4Part
Part
Oil in Water Piping Diagram B71046
Part III:
Oil in Water
Teledyne Analytical Instruments
1-6Part
Part
Model
TOMER SPECIFIC PIPING
Part III:
Oil in Water
Part
Model
3.0System Description
1-8Part
Part
Part III:
3.1Photometer
3.1.1Source Module
3.1.2Sample Cell
Model
3.1.3Detector Module
3.1.4Control/Analysis Unit
Part
Part III:
3.3Electrical Connections
3.4The Sampling System
3.4.1Sample Water Preconditioning System
CALIBRATION SAMPLE DELIVERY
Part
Model
PRESSURIZED INLET SAMPLE DELIVERY
Part III:
Oil in Water Piping Diagram simplest
Homogenizing
3.4.2Zero Water Preconditioning System
Model
3.4.3The Automatic Sample Cell Cleaning System
configured to measure non-dissolvedoil only
Part
Entering the zero offset
Part III:
Oil in Water
Part
Model
3.5The Signal Outputs
3.6Recorder Requirement
Part
Part III:
3.7The Process Alarm System
3.8The amplifier PCB
3.8.1Auto Zero Circuit
Model
3.8.2 Signal Failure Alarm
Detector Fail Check the Detector signal
Part
Part
4.0INSTALLATION
Part III:
Oil in Water
4.1.2Compressed Air Supply
4.1.1Electrical Power Connections
4.1.4Signal and Alarm Output Connections
4.1User Connections
Oil in Water
4.1.5 Sample Delivery System
4.1.6Safe Vent Drainage
Part III:
Part
5.1Installation Check
5.0SYSTEM START-UP/CALIBRATION
5.2Electronics Check
Part III:
5.3Electrical Check
5.4Sample Delivery Check
5.5Preparation for Calibration
Manual Sample Introduction
5.5.1Required Calibration Equipment
Part
Model
Oil in Water
5.5.2Acquisition of Representative Oil Sample
5.5.3Acquisition of Representative Sample Water
Part III:
1-26Part III Teledyne Analytical Instruments
5.5.5Background Signal Level Determination
Part
Model
Interpretation of Observations
Part III:
Oil in Water
Part
Part
Model
1-28Part III Teledyne Analytical Instruments
Part III:
5.6Calibration with Prepared Sample
5.6.1Zero Fluid Preparation
5.6.2Span Fluid Preparation
1-30Part III Teledyne Analytical Instruments
5.6.3 Calibration
Part
Model
Part
Setup of Internal Span Flag Calibration
Part III:
Oil in Water
Sample System
Part
Model
SpanFilter
6.Analyze both samples in the laboratory
Part III:
Oil in Water
Part
1-34Part III Teledyne Analytical Instruments
5.6.5Calibration of the ultrasonic homogenizer
Part
Model
5.7.1Set-upfor Automatic Sampling
HomogenizerTuning
CORRELATION
5.7System Set-UpFor Automatic Operation
1-36Part III Teledyne Analytical Instruments
5.7.2Electronics Set-upfor Automatic Operation
Part
Model
Oil in Water
6.1System Visual Check and Response Procedure
6.2Routine Maintenance
Part III:
WEEKLY
Part
Model
DAILY
Part
7.0SERVICE PROCEDURES AND ADJUSTMENTS
Part III:
Oil in Water
1-40Part III Teledyne Analytical Instruments
7.2Set Up of the I to E Converter
Part
Model
Part III:
7.3Set Up of the Logarithmic Amplifier
7.5The Integrated Reference and Measuring Signals
7.4The Inverting Amplifier
CAUTION: wear UV goggles if lamp left on
7.6Sample Cell Maintenance
Part
Model
Oil in Water
7.7Sample System Maintenance
7.8Zero Filter Replacement
Part III:
1-44Part III Teledyne Analytical Instruments
7.9316 Zero Filter Cleaning Procedure
Part
Model
7.11
7.10 Lamp Replacement
Phototube Replacement
PROCEDURE
8.2.1The Water Refuses to Flow Through the Tubing
8.0TROUBLESHOOTING SECTION
8.2Water Delivery Problems
8.1The Lamp Refuses to Light
Oil in Water
8.3Zero Drift Problems
8.2.2Sample Pump Failure
Part III:
Part
CommissioningandStart-up
Guide for Oil in Water Analyzer Systems
A Site requirements
1 Electrical connections
B Installation
apower
3Sample Connections
4 See section for the Alarms Function
c DCS connections
1Please refer to Section 1.5 Control Unit
see addendum drawings
drawings
B Start up of System
aPiping Diagram, see addendum drawings
bOutline drawing see addendum drawings
Part III:
7 Once assured sample inlet is proceed as follows
Oil in Water
E Set up of internal calibration span flag
FSet up for Automatic Sampling Sample System
Part III:
Automatic Operation and Routine Duties
Part
Model
1-56Part III Teledyne Analytical Instruments
Teledyne Analytical Instruments
Part III:
Oil in Water
Part
6600 Digital Control Module
Appendix
A-1Specifications
Operating Temperature: 0-50oC
Models
Typical Analytical Performance Specifications
Sample temperature
Appendix
Appendix
A-2Recommended 2-YearSpare Parts List
Model
Oil in Water Analyzer
Models
A-3Drawing List See manual addendum
Generic Drawing List
Appendix