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| style="border:1px solid blue;"|'''Dual Channel Parallel Injection'''<br><br>Provides shorter cycle times by limiting the acquisition time to just the peaks of interest and regenerating columns during acquisition | | style="border:1px solid blue;"|'''Dual Channel Parallel Injection'''<br><br>Provides shorter cycle times by limiting the acquisition time to just the peaks of interest and regenerating columns during acquisition | ||
| style="border:1px solid blue;"|Cycle Composer outside of Analyst | | style="border:1px solid blue;"|Cycle Composer outside of Analyst | ||
| - | | style="border:1px solid blue;"|* Trio VS<br>*6 port injection valve<br>*FWS in front of 6 port valve* Gradient Pump<br>* Regeneration pump | + | | style="border:1px solid blue;"|* Trio VS<br>*6 port injection valve<br>*FWS in front of 6 port valve<br>* Gradient Pump<br>* Regeneration pump |
| - | | style="border:1px solid blue;"|* Saving of Front and Back Cut<br>* Provides "Look Ahead"<br> * | + | | style="border:1px solid blue;"|* Saving of Front and Back Cut<br>* Provides "Look Ahead"<br> *Provides staggering of injections |
| style="border:1px solid blue;"|* Requires matching sample lists in Cycle Composer and Analyst<br>* Columns may perform slightly differently on alternating samples | | style="border:1px solid blue;"|* Requires matching sample lists in Cycle Composer and Analyst<br>* Columns may perform slightly differently on alternating samples | ||
| - | | style="border:1px solid blue;"| | + | | style="border:1px solid blue;"|No |
|} | |} | ||
Revision as of 23:11, 28 April 2009
| Testing of Wiki page location |
| Application Type | |
| WIKI TEST | |
| Application ID | |
| ABC | |
| Description | |
| Wiki Testing Page for LEAP |
| Code | Application | Control SW | Key Hardware | Key Benefits | Restrictions | GLP |
|---|---|---|---|---|---|---|
| M-001 | Dual Channel Serial Injection Provides shorter cycle times by regenerating columns during next analytical run | Analyst with ICC-CE | * 6 port injection valve * 10 port Valve * Gradient Pump * Regeneration pump | * Saving of regeneration time(Back Cut) * Increase throughput at little cost * Control is all within Analyst * Compliance is not affected | * Can not do "Look Ahead" * Injections are not staggered * Peaks of interest must come of early * Columns may perform slightly differently on alternating samples | Yes |
| Code | Application | Control SW | Key Hardware | Key Benefits | Restrictions | GLP |
|---|---|---|---|---|---|---|
| M-002 | Dual Channel Serial Injection with Front Cut Provides shorter cycle times by regenerating columns during next analytical run and diverts the solvent front to waste | Analyst with ICC-CE | * Trio VS * Gradient Pump * Regeneration pump | * Saving of regeneration time(Back Cut) * Increase throughput at little cost * Control is all within Analyst * Compliance is not affected * Avoids contaminating MS inlet with early eluting compounds and solvent | * Can not do "Look Ahead" * Injections are not staggered * Peaks of interest must come of early * Columns may perform slightly differently on alternating samples | Yes |
| Code | Application | Control SW | Key Hardware | Key Benefits | Restrictions | GLP |
|---|---|---|---|---|---|---|
| M-003 | Dual Channel Parallel Injection Provides shorter cycle times by limiting the acquisition time to just the peaks of interest and regenerating columns during acquisition | Cycle Composer outside of Analyst | * Trio VS *6 port injection valve *FWS in front of 6 port valve * Gradient Pump * Regeneration pump | * Saving of Front and Back Cut * Provides "Look Ahead" *Provides staggering of injections | * Requires matching sample lists in Cycle Composer and Analyst * Columns may perform slightly differently on alternating samples | No |
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