Operator`s manual
Table Of Contents
- Dionex ICS-1100 Ion Chromatography System Operator’s Manual
- Contents
- 1 • Introduction
- 2 • Features
- 3 • Operation and Maintenance
- 3.1 Operation Overview
- 3.2 Turning On the System Power
- 3.3 Connecting to Chromeleon
- 3.4 Set Up the Eluent Reservoir
- 3.5 Check All Connections
- 3.6 Prime the Pump
- 3.7 Set System Operating Conditions
- 3.8 Equilibrate the System and Verify Operational Status
- 3.9 Prepare Samples
- 3.10 Loading and Injecting Samples
- 3.11 Processing Samples
- 3.12 Maintenance
- 4 • Troubleshooting
- 4.1 Error Messages
- 4.2 Troubleshooting Error Messages
- 4.3 Liquid Leaks
- 4.4 Pump Difficult to Prime or Loses Prime
- 4.5 Pump Does Not Start
- 4.6 No Flow
- 4.7 Erratic Flow/Pressure Reading
- 4.8 Excessive System Backpressure
- 4.9 Peak “Ghosting”
- 4.10 Nonreproducible Peak Height or Retention Time
- 4.11 Abnormal Retention Time or Selectivity
- 4.12 No Cell Response
- 4.13 High Cell Output
- 4.14 Baseline Noise or Drift
- 4.15 Vacuum Degas Assembly Does Not Run
- 5 • Service
- 5.1 Diagnostic and Calibration Procedures
- 5.2 Isolating a Restriction in the Liquid Lines
- 5.3 Replacing Tubing and Fittings
- 5.4 Rebuilding the Injection Valve or Auxiliary Valve
- 5.5 Replacing an Auxiliary Valve Pod
- 5.6 Cleaning and Replacing the Pump Check Valves
- 5.7 Replacing a Pump Piston Seal and Piston Rinse Seal
- 5.8 Replacing a Pump Piston
- 5.9 Replacing the Waste Valve or Priming Valve O-Ring
- 5.10 Replacing the Conductivity Cell
- 5.11 Replacing the Suppressor
- 5.12 Replacing the Column Heater
- 5.13 Replacing the Column Heater Heat Exchanger
- 5.14 Replacing the Eluent Valve
- 5.15 Replacing the Leak Sensor
- 5.16 Priming the Pump
- 5.17 Priming the Pump with Isopropyl Alcohol
- 5.18 Changing Main Power Fuses
- A • Specifications
- A.1 Electrical
- A.2 Physical
- A.3 Environmental
- A.4 Front Panel
- A.5 Analytical Pump and Fluidics
- A.6 Eluent Regeneration
- A.7 Detector Electronics
- A.8 Conductivity Cell with Heat Exchanger
- A.9 Injection Valve
- A.10 Auxiliary Valve (Optional)
- A.11 Vacuum Degas Assembly (Optional)
- A.12 Column Heater (Optional)
- A.13 Suppressors
- A.14 Autosampler
- A.15 System Software
- B • TTL and Relay Control
- C • Reordering Information
- D • FAQ
- D.1 How do I hook up an autosampler?
- D.2 How do I print?
- D.3 Why are the retention times moving?
- D.4 How do I adjust retention times?
- D.5 When should I remake standards?
- D.6 When should I remake eluents?
- D.7 How do I start Chromeleon?
- D.8 How do I delete data?
- D.9 How do I back up data?
- D.10 How do I shut off the system?
- D.11 How do I store columns?
- D.12 How do I know when a column is dirty?
- D.13 How do I clean a column?
- D.14 Why is the conductivity high?
- D.15 How do I configure and operate the auxiliary valve?
- E • Glossary
- Index
Dionex ICS-1100 Ion Chromatography System
34 Doc. 065289-03 10/12
2.4.7 Suppressor
The suppressor reduces the eluent conductivity and enhances the
conductivity of the sample ions, thereby increasing detection sensitivity.
Either a Dionex Atlas Electrolytic Suppressor, Dionex Self-Regenerating
Suppressor, or Dionex MicroMembrane Suppressor can be used with the
Dionex ICS-1100.
For details about any of the suppressors or for information about selecting
a suppressor for your application, refer to the suppressor manuals. The
manuals are on the Thermo Scientific Reference Library DVD
(P/N 053891).
2.4.8 DS6 Heated Conductivity Cell
The flow-through conductivity cell measures the electrical conductance
of analyte ions as they pass through the cell. Two passivated 316 stainless
steel electrodes are permanently sealed into the PEEK cell body. The cell
design provides efficient sweep-out, low volume (1
L), and low
dispersion. Temperature control and compensation help ensure good peak
reproducibility and baseline stability.
Temperature Control
Temperature directly affects the conductivity of a solution. For example,
laboratory heating and air conditioning systems can cause a regular slow
cycling in the baseline. This, in turn, can affect the reproducibility of an
analysis. The higher the conductivity, the more pronounced the effect.
In ion analysis, the effect of temperature variation is minimized by
suppressing eluent conductivity. To further reduce the effect of
temperature variation, a heater inside the cell regulates the temperature.
The cell heater can be set to between 30 °C and 55 °C. The set
temperature must be at least 7 °C above the ambient temperature. Setting
the cell temperature to 0 °C turns off the cell heater.
Temperature Compensation
Built-in preset temperature compensation of 1.7% per °C helps minimize
changes in the baseline or in peak heights when the operating temperature
is different from the temperature at which the cell was calibrated.