Summary of LC Multi Valve Applications

From LEAP

(Difference between revisions)

Revision as of 19:51, 11 May 2009

	LC Multiple Valve Applications
	Application Type
	STANDARD AND SPECIAL
	Application ID

	Description
	Multiple Valve Applications for LC

Code	Application	Control SW	Key Hardware	Key Benefits	Restrictions	GLP
M-001 [1]	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 [2]	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 [3]	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	* DoubleStack valve 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

Code	Application	Control SW	Key Hardware	Key Benefits	Restrictions	GLP
M-005 [4]	Dual Channel Parallel Injection Provides minimum cycle times by limiting the acquisition time to just the peaks of interest and regenerating columns during acquisition	LEAP Shell	* DoubleStack valve 6 port injection valve FWS in front of 6 port valve * Gradient Pump * Regeneration pump	* Integration with Analyst Software Single Sample List Provides staggering of injections * Multiplexes 2 separate LC systems into on MS	* Does not support 21CFR11 compliance * Requires pumps to be integrated with LEAP Shell	No

Code	Application	Control SW	Key Hardware	Key Benefits	Restrictions	GLP
M-006 [5]	Inline Sample Concentration SPE Column regenerated during analytical extraction	Analyst with ICC-CE	* TrioVS	* Automated concentration and elution of sample on SPE column prior to separation on analytical column	* No "Look Ahead" * Can not prep samples ahead of analytical run	No

Code	Application	Control SW	Key Hardware	Key Benefits	Restrictions	GLP
M-007 [6]	Inline Sample Filtration SPE Column regenerated during analytical extraction	Analyst with ICC-CE	* TrioVS	* Automated filtration of sample on cleanup column prior to separation on analytical column	* No "Look Ahead" * Can not prep samples ahead of analytical run	No

For other cost/time saving measures consider:

LEAP offers multiple choices of Valve Self Wash Stations to aid in cleaning the valve [7]
LEAP Shell Software and application for custom injections and scheduling [8]

www.leaptec.com
www.leapwiki.com

Contact LEAP

For additional information about this technique please contact LEAP Technologies for detailed information

Contact the LEAP office

@@ Line 61: / Line 61: @@
 | 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;"|* DoubleStack valve<br>*6 port injection valve<br>*FWS in front of 6 port valve<br>* Gradient Pump<br>* Regeneration pump
+| style="border:1px solid blue;"|* DoubleStack valve<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> *Provides staggering of injections
+| 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;"|No
@@ Line 80: / Line 80: @@
 | style="border:1px solid blue;"|'''Dual Channel Parallel Injection'''<br><br>Provides minimum cycle times by limiting the acquisition time to just the peaks of interest and regenerating columns during acquisition
 | style="border:1px solid blue;"|LEAP Shell
-| style="border:1px solid blue;"|*DoubleStack valve<br>*6 port injection valve<br>*FWS in front of 6 port valve<br>* Gradient Pump<br>* Regeneration pump
+| style="border:1px solid blue;"|* DoubleStack valve<br>*6 port injection valve<br>* FWS in front of 6 port valve<br>* Gradient Pump<br>* Regeneration pump
-| style="border:1px solid blue;"|*Integration with Analyst Software<br>*Single Sample List<br> *Provides staggering of injections<br> *Multiplexes 2 separate LC systems into on MS
+| style="border:1px solid blue;"|* Integration with Analyst Software<br>*Single Sample List<br> * Provides staggering of injections<br> * Multiplexes 2 separate LC systems into on MS
-| style="border:1px solid blue;"|* Does not support 21CFR11 compliance<br>*Requires pumps to be integrated with LEAP Shell
+| style="border:1px solid blue;"|* Does not support 21CFR11 compliance<br>* Requires pumps to be integrated with LEAP Shell
 | style="border:1px solid blue;"|No
 |}
@@ Line 99: / Line 99: @@
 | style="border:1px solid blue;"|'''Inline Sample Concentration'''<br><br>SPE Column regenerated during analytical extraction
 | style="border:1px solid blue;"|Analyst with ICC-CE
-| style="border:1px solid blue;"|*TrioVS<br>
+| style="border:1px solid blue;"|* TrioVS<br>
-| style="border:1px solid blue;"|*Automated concentration and elution of sample on SPE column prior to seperation on analytical column
+| style="border:1px solid blue;"|* Automated concentration and elution of sample on SPE column prior to separation on analytical column
-| style="border:1px solid blue;"|* No "Look Ahead" <br>*Cant prep samples ahead of analytical run
+| style="border:1px solid blue;"|* No "Look Ahead" <br>* Can not prep samples ahead of analytical run
 | style="border:1px solid blue;"|No
 |}
 <br>
+{| cellpadding="6" style="border:1px solid darkgray;"
+|- align=left
+!width="20"|Code
+!width="195"|Application
+!width="85"|Control SW
+!width="140"|Key Hardware
+!width="205"|Key Benefits
+!width="235"|Restrictions
+!width="15"|GLP
+|- align=left
+| style="border:1px solid blue;"|'''M-007'''<br>[http://www.leapwiki.com/mediawiki/index.php?title=M-006_%26_M-007_In-Line_Sample_Concentration_or_Filtration]
+| style="border:1px solid blue;"|'''Inline Sample Filtration'''<br><br>SPE Column regenerated during analytical extraction
+| style="border:1px solid blue;"|Analyst with ICC-CE
+| style="border:1px solid blue;"|* TrioVS<br>
+| style="border:1px solid blue;"|* Automated filtration of sample on cleanup column prior to separation on analytical column
+| style="border:1px solid blue;"|* No "Look Ahead" <br>* Can not prep samples ahead of analytical run
+| style="border:1px solid blue;"|No
+|}
 <br>
 === For other cost/time saving measures consider:===
 * LEAP offers multiple choices of Valve Self Wash Stations to aid in cleaning the valve [http://www.leapwiki.com/mediawiki/index.php?title=Valve_Washing]
-* Dual Channel Serial Injection (M-001) using Analyst and ICC-CE [http://www.leapwiki.com/mediawiki/index.php?title=M-001_Dual_Channel_Serial_Injection_-_Analyst_with_ICC-CE]
-* Dual Channel Serial Injection with Front Cut (M-002) using Analyst and ICC-CE [http://www.leapwiki.com/mediawiki/index.php?title=M-002_Dual_Channel_Serial_Injection_with_front_cut_-_Analyst_with_ICC-CE]
-* Dual Channel Parallel Injection (M-003) using Cycle Composer Software and Analyst [http://www.leapwiki.com/mediawiki/index.php?title=M-003_Dual_Channel_Parallel_Injection_-_Cycle_Composer]
-* “Look Ahead”, sample prep before injection (M-004) using LEAP Shell Software [http://www.leaptec.com/software/leap-shell-3.php]
-* Dual Channel Parallel Injection (M-005) using LEAP Shell software [http://www.leapwiki.com/mediawiki/index.php?title=M-005_Dual_Channel_Parallel_Injection_-_LEAP_Shell_%22(M-Fab)%22]
 * LEAP Shell Software and application for custom injections and scheduling [http://www.leaptec.com/software/leap-shell-3.php]

Summary of LC Multi Valve Applications

From LEAP

Revision as of 19:51, 11 May 2009

For other cost/time saving measures consider:

Contact LEAP

Views

Personal tools

Navigation

Search

Toolbox