DART-Waters XEVO Interface Manual For Waters XEVO Source 1 st, 2 nd, and 3 rd generation instruments Version 20111101 IonSense Inc. 999 Broadway Suite 404 Saugus, MA 01906
Copyright 2005-2010 by IonSense Inc. All rights reserved. The information in this document has been carefully checked and is believed to be reliable. However, no responsibility is assumed for inaccuracies. Statements in the document not intended to create any warranty, expressed or implied. Specification and performance characteristics of the hardware and software described in the manual may be changed at any time without notice. IonSense Inc. reserves the right to make changes in any product herein in order to improve reliability, design, or function. IonSense does not assume any liability arising out of application or use of any product or circuit described nor does it cover any license under its patent rights or the rights of others. The apparatus and application of the apparatus described in this document is protected by US Patent Number 6,949,741 and used under license; additional patents pending. All trademarks are properties of their respective owners. 2 DART-Waters XEVO Interface Manual
Contents Installation of the VAPUR Interface... 4 Ceramic Tube... 7 Attaching the DART or ID-CUBE to the Interface... 8 Source Detecting Plug/Defeating the Interlock... 10 Overriding the IntelliStart Source Pressure Test... 11 Acknowledgements... 14 3 DART-Waters XEVO Interface Manual
Installation of the VAPUR Interface First, place your system in Standby mode. Then, disconnect the waste hose from the bottom of the XEVO source, as well as all gas, syringe, and voltage connections. Carefully remove the factory XEVO source from the Mass Spectrometer interface and put it aside in a safe place. Make sure that the source isolation valve is CLOSED (pointed downward) before beginning installation of the DART source. Take hold of the cone gas nozzle handle, and use it to rotate the sampling cone assembly 90 degrees. It should now be pointing back at you in the horizontal position. Figures 1 and 2 : Turing the handle to remove the sampling cone assembly Carefully slide the sampling cone assembly out of the ion block. Figure 3: The cone gas nozzle assembly being removed from the ion block. 4 DART-Waters XEVO Interface Manual
Using the cone extraction tool provided by Waters, remove the sample cone from the cone gas nozzle. The extraction tool can be found in the upper right-hand corner of the source area. Figure 4: The extraction tool being removed from the XEVO source area. Now, take the sample cone and insert it into the IonSense VAPUR piece as shown in the figure below. Make sure It fits snugly and that the there is a tight seal between the O-ring on the sample cone and the inside rim of the VAPUR attachment. Figure 5: The process of removing the sample cone from the cone gas nozzle and inserting it into the IonSense VAPUR piece is shown. 5 DART-Waters XEVO Interface Manual
Take the VAPUR attachment and, holding the piece so that vacuum port is is oriented horizontally, slide the piece back into the ion block assembly. Then rotate it 90 degrees so that the vacuum port is now oriented downward and the ion transfer tube is facing outward from the instrument. Figure 6: The VAPUR attachment on the ion block. Remember to open the source isolation valve once the VAPUR piece is installed. Take the DART flange (large black piece) and match the keyholes with the two hinge pins on the left side of the mass spectrometer source area. Position the keyholes over the pins and slide the flange downward so it locks into position. Once the hinge is secured, close the flange until the lock on the right-hand side clicks shut. Figure 7: The source mounting pins on the right, and the source interface keyholes on the left. 6 DART-Waters XEVO Interface Manual
Figure 8 : The flange properly installed on a Waters Synapt G2. Note the pumping line extruding from the bottom of the interface. Ceramic Tube Remove the nut on the front of your interface and place it to the side. Take the ceramic tube provided with your interface and slide it through the silver piece on the front of the flange. Swing the flange open and place the rubber O-ring over the end of the ceramic tube that is inside the interface enclosure. Close the flange again and push the tube all the way until the O-ring clicks into place. Note: it may be difficult to push the tube in all the way. If done correctly you should notice a black line from the O-ring on the end of the tube after removal. Figure 9: The XEVO-DART interface with the ceramic tube installed. Place the nut over the tube and tighten it. If using a wrench take care not to tighten too much or the tube will crack and/or break. 7 DART-Waters XEVO Interface Manual
Attaching the DART or ID-CUBE to the Interface 1. First, open the flange by depressing the latch on the right side and swinging the flange open to the left. 2. Take the black silicone rubber tubing and attach it to the spigot on the bottom of the VAPUR piece. 3. Close the flange again, making sure that the silicone rubber tubing is run through the slit in the bottom of the flange and is not being squeezed or pinched against the source wall of the mass spectrometer. 4. Now, take the DART source and, using the provided 5 mm hex driver (4 mm for the DART 100 and 100S models) screw the two screws provided into the bottom of the flange Figure 10: The two mounting screws seen from the bottom of the DART source. Figure 11: Using the provided Allen wrench to attach the ID-CUBE base to the interface Detailed instructions for attaching the DART to the flange can be found in the hardware manual accompanying your unit, or on the IonSense website: www.ionsense.com/manuals 8 DART-Waters XEVO Interface Manual
Figure 12: The ID-CUBE successfully attached to the XEVO interface flange. Figure 13: The DART SVP successfully attached to the XEVO interface flange 9 DART-Waters XEVO Interface Manual
Source Detecting Plug/Defeating the Interlock Once the interface and source are successfully installed, you must insert the source probe plug provided by IonSense into the source probe panel to disable the Waters Instrument source interlock. This will allow for the automatic detection of an APCI-type source. If you are operating the ID-CUBE, you can now insert the High Voltage (HV) cable into the corresponding socket. Source Probe Socket HV Cable Socket Figure 14: The Waters plug panel with the source probe interlock socket circled in red. Figure 15: The Waters plug panel with the source probe plug and HV cable properly inserted. After the probe is inserted, follow the next section to disable the source pressure test in the software. 10 DART-Waters XEVO Interface Manual
Overriding the IntelliStart Source Pressure Test Go to the ACQUITY UPLC Console page: Figure 16: The ACQUITY UPLC Console page From Troubleshoot select Service mode, and enter password: 1147. 11 DART-Waters XEVO Interface Manual
1147 Figure 17:Entering the password to access Service Mode. From the MS instrument page go to Configure, then IntelliStart configuration. Figure 18: Finding the Intellistart Configuration page 12 DART-Waters XEVO Interface Manual
From here you should deselect the following check boxes: Desolvation gas flow Desolvation temperature settling High exhaust pressure warning Source pressure test leak warning Source pressure test failed Source pressure test exhaust trip Source pressure test API gas trip Figure 19: Unchecking desolvation gas flow and desolvation temperature settling 13 DART-Waters XEVO Interface Manual
Figure 20: Disabling the source pressure test Once these boxes have been unchecked, close the source and re-run the pressure check test. It will still go through the test but you shouldn't be prevented from working. Once the test is complete turn your API gas off. Acknowledgements This document was compiled with significant assistance from Hillary Major and Marian Twohig of Waters Corporation. 14 DART-Waters XEVO Interface Manual