Difference between revisions of "Waters HPLC with PowerChrom"

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[[File:Figure 1. The ER280 PowerChrom System connected to a Waters HPLC.jpg|x200px|thumb|right|Figure 1. The ER280 PowerChrom System connected to a Waters HPLC]]
 
''The PowerChrom System can record and analyse data from two detectors on a Waters HPLC.''
 
''The PowerChrom System can record and analyse data from two detectors on a Waters HPLC.''
  
 
=== Introduction ===
 
=== Introduction ===
This application note describes how a Waters HPLC with two detectors and an injection valve, can be connected to either a PowerChrom or e-corder unit. The PowerChrom software is triggered to start recording by the injection valve, and displays the signal from each detector simultaneously. This can be used to upgrade a HPLC which is connected to an integrator.
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This application note describes how a Waters HPLC with two detectors and an injection valve, can be connected to either a [http://www.edaq.com/powerchrom-system PowerChrom] or e-corder unit. The PowerChrom software is triggered to start recording by the injection valve, and displays the signal from each detector simultaneously. This can be used to upgrade a HPLC which is connected to an integrator.
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=== Equipment Required ===
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* Waters HPLC with Waters 430 Conductivity Detector and Waters 484 Tunable Absorbance Detector
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* [http://www.edaq.com/powerchrom-system PowerChrom System]
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* 3 cables: twisted-pair cables with braided shield
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* A computer
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{|
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| [[File:Figure 2. Waters 430 Conductivity Detector.jpg|x200px|thumb|right|Figure 2. Waters 430 Conductivity Detector]]
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| [[File:Figure 3. Waters 484 Tunable Absorbance Detector.jpg|x200px|thumb|right|Figure 3. Waters 484 Tunable Absorbance Detector]]
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|}
  
 
=== Waters 430 Conductivity Detector ===
 
=== Waters 430 Conductivity Detector ===
The conductivity detector is connected to Channel 1 of the PowerChrom unit using a twisted-pair cable with braided shield. The shield wire should be connected to either the COM connector of the PowerChrom unit, or to a ground connection on the detector, but not to both.
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The conductivity detector is connected to Channel 1 of the PowerChrom unit using a twisted-pair cable with braided shield, as shown in Figure 2. The shield wire should be connected to either the COM connector of the PowerChrom unit, or to a ground connection on the detector, but not to both.
  
 
=== Waters 484 Tunable Absorbance Detector ===
 
=== Waters 484 Tunable Absorbance Detector ===
The absorbance detector is connected to Channel 2 of the PowerChrom unit using a similar cable.
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The absorbance detector is connected to Channel 2 of the PowerChrom unit using a similar cable, shown in Figure 3.
  
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[[File:Figure 4. Waters injection valve.jpg|x200px|thumb|left|Figure 4. Waters injection valve]]
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{{#ev:youtube|SFNBn6TSjR0|300|right|Video 1. Basic Settings in PowerChrom}}
 
=== Injection Valve ===
 
=== Injection Valve ===
The two black cables from the injection valve are connected to PowerChrom unit’s TRIG + and –. In the PowerChrom software, the Inject Settings is set to “Wait for Inject”. Turning the injection valve will then trigger the start of the recording.
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The two black cables from the injection valve are connected to PowerChrom unit’s TRIG + and –, see Figure 4. In the PowerChrom software, the Inject Settings is set to “Wait for Inject”. This setting is shown in Video 1. Turning the injection valve will then trigger the start of the recording.
 
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{|
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| [[File:Figure 1. The ER280 PowerChrom System connected to a Waters HPLC.jpg|x300px|thumb|right|Figure 1. The ER280 PowerChrom System connected to a Waters HPLC]]
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| [[File:Figure 2. Waters 430 Conductivity Detector.jpg|x300px|thumb|right|Figure 2. Waters 430 Conductivity Detector]]
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|}
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{|
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| [[File:Figure 3. Waters 484 Tunable Absorbance Detector.jpg|x300px|thumb|right|Figure 3. Waters 484 Tunable Absorbance Detector]]
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| [[File:Figure 4. Waters injection valve.jpg|x300px|thumb|right|Figure 4. Waters injection valve]]
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|}
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Latest revision as of 17:36, 26 May 2014

Figure 1. The ER280 PowerChrom System connected to a Waters HPLC

The PowerChrom System can record and analyse data from two detectors on a Waters HPLC.

Introduction

This application note describes how a Waters HPLC with two detectors and an injection valve, can be connected to either a PowerChrom or e-corder unit. The PowerChrom software is triggered to start recording by the injection valve, and displays the signal from each detector simultaneously. This can be used to upgrade a HPLC which is connected to an integrator.

Equipment Required

  • Waters HPLC with Waters 430 Conductivity Detector and Waters 484 Tunable Absorbance Detector
  • PowerChrom System
  • 3 cables: twisted-pair cables with braided shield
  • A computer
Figure 2. Waters 430 Conductivity Detector
Figure 3. Waters 484 Tunable Absorbance Detector

Waters 430 Conductivity Detector

The conductivity detector is connected to Channel 1 of the PowerChrom unit using a twisted-pair cable with braided shield, as shown in Figure 2. The shield wire should be connected to either the COM connector of the PowerChrom unit, or to a ground connection on the detector, but not to both.

Waters 484 Tunable Absorbance Detector

The absorbance detector is connected to Channel 2 of the PowerChrom unit using a similar cable, shown in Figure 3.

Figure 4. Waters injection valve
Video 1. Basic Settings in PowerChrom

Injection Valve

The two black cables from the injection valve are connected to PowerChrom unit’s TRIG + and –, see Figure 4. In the PowerChrom software, the Inject Settings is set to “Wait for Inject”. This setting is shown in Video 1. Turning the injection valve will then trigger the start of the recording.