1083-150 C2 PPMS Cry..
Contents
1. 2 1 IN NN 2 1 2 2 Installing the Cryopump Aaa 2 1 22 1 Unpack the O OP ii n Su um nennen ua sh ads 2 3 2 2 2 Prepare tor Instala iii 2 3 2 2 3 Power Down and Change the EPROMS a sssssssssssssssssssa 2 3 2 2 4 Install the Expansion Circuit Board n ron rr ran rrnn ron rn 2 4 2 2 5 Power Up the Model 6000 and Restore the Configuration 2 6 2 2 6 Connect the Pumping Line and Cables sss 2 6 2 2 7 Regenerate the Charambe nen 2 8 2 2 8 Remove the PPMS Top Plate Assembly ass 2 9 22 97 Install the COUPE A Ei kusikus 2 10 2 2 10 Calibrating the HiVac Pressure Gauge ccccccsseesseessceseceescseeeeeseeeseeeseecseecaeenseenseenseees 2 11 Quantum Design PPMS Cryopump User s Manual Rev C 2 v June 2005 Contents Table of Contents 2 3 Removing the CryOpuUmp ii ikawa 2 13 2 4 Re Installing th e Cry opumpi uu a n susu aun D Sans uu Gua ea en 2 14 CHAPTER 3 Operation nennen li 3 1 3 1 IO UC aaa 3 1 3 2 Cryop mp Opera usais ea 3 1 3 2 1 Using the Contact Baffle viana iia ias 3 2 3 2 2 Initiating High V acu m sea sunan Sta Rt En ah 3 2 3 23 Ending High Vacuna li an N E detal 3 3 3 2 4 Regenerating the Sorption Pump2. nasa 3 4 3 3 Using the Wait Sequence Command n nasus 3 4 CHAPTER 4 Troubleshooting and Maintenance 4 1 O ed ucti na ys au EEE 4 1 AD Trouble TN 4 1 4 2 1 Failure to Reach High Vacuum 0 ccccccccsseesseesseeseeenseceseceseceseeeeeeeeeseeeseeeeeseeesaeeseeesaees 4 1 4 2 2 Exposure to Atmosphere url ia ii Rieinenkruttee 4 2 4 2 3 Flapper Valve Fails to Open n asus 4 2 4 2 4 Flapper Valve Fails to IS Wa ua e S uuu asa E EEE 4 2 4 2 5 System Fails to Regenerate na sansa 4 3 4 26 Leakin Aa ASASI Kai wa Ka wa mamb ia Sekten aba ae Ka HA Wa aa 4 3 4 2 7 Vacuum Gauge Does Not Power Up www wim anaumwa 4 3 4 2 8 Cryopump Pumping Tube Fits Poorly in Dewar aa 4 3 43 Out of Dewar Regeneration Procedure n nanus 4 4 4 3 1 Remove the Cryopump from the Dewar asas 4 4 4 3 2 Perform the Out of Dewar Regeneration n n 4 5 4 3 3 Re Install the Cryopump n asus 4 6 4 4 Winne Dia Crain zu a ae 4 7 A ENE EE E E NE E Index 1 A E EE EE T SSE A A OE ETARE EE vii Tables E EE E iii Shake iss se vii vi PPMS Cr
3. lu Pa 30ARD A J2 EXPANSION BOARD Figure 2 3 Installing the expansion circuit board in the Model 6000 Locate the 16 pin connector at the J7 Aux Spare position on the motherboard To proceed with the installation a connector must already be plugged into this position Contact Quantum Design if nothing is plugged into the J7 Aux Spare position Remove the connector plugged into the J7 Aux Spare position on the motherboard and plug it into the J2 connector on the expansion circuit board as shown in figure 2 2 Install the Auxspare to Expansion Board ribbon cable part number 3076 018 between the J1 connector on the expansion board and the J7 Aux Spare connector on the motherboard as shown in figure 2 2 Do not let the ribbon cable touch the large resistors above the Valve Control connector these resistors can get very hot You may want to run the cable under the system bridge board Reinstall the board you removed from the P3 Option slot PPMS Cryopump User s Manual Rev C 2 2 5 June 2005 Section 2 2 Chapter 2 Installing the Cryopump Installation and Removal 2 2 5 Power Up the Model 6000 and Restore the Configuration 1 Replace the lid on the Model 6000 2 Reattach the power cord 3 Tum on power to the Model 6000 4 Restore the ROM configuration information as follows a Locate and run the Romcfg32 utility if it is not still running b Select the Se
4. Test the installation by installing the cap plugging in the pressure gauge and purging the system Watch the static pressure to verify that the sample chamber is not leaking After you install the cryopump wait several minutes before you instruct the system to enter high vacuum The charcoal must cool before the system can enter high vacuum Remember to put all parts used to install the cryopump back in the accessories box for proper storage PPMS Cryopump User s Manual Rev C 2 2 15 June 2005 C H A P T E R 3 Operation 3 1 3 2 Introduction This chapter contains the following information o Section 3 2 explains how to perform basic Section 3 3 explains use of the Wait cryopump system operations sequence command Cryopump Operation Operation of the cryopump is handled like other sample chamber gas handling commands such as Vent Purge and Pump Continuous To achieve high vacuum in the sample chamber you simply select a high vacuum command from the PPMS MultiVu software or from the front panel of the Model 6000 PPMS Controller just as you would select other chamber commands The chamber status description that appears on the Model 6000 front panel or in PPMS MultiVu indicates when high vacuum has been achieved If you are using a sequence to run an experiment that requires high vacuum you can simply use the Wait command as is explained in Section 3 3 The automatic sequence of events performed by the system is desc
5. Conditi i ao ondition s Delay secs E Scan Temperature Temperature On Error Execute Scan Time T Field a Sequence Message Pe No Action x Set Field s io Set Position Y amber Set Temperature Cancel Shutdown S o Figure 3 4 Wait dialog box and Wait for Chamber condition sequence command Advanced Commands Measurement Commands Figure 3 3 Wait sequence command Quantum Design PPMS Cryopump User s Manual Rev C 2 June 2005 CHAPTER 4 Troubleshooting and Maintenance 4 1 Introduction This chapter contains the following information o Section 4 2 contains troubleshooting tips Section 4 4 shows the cryopump wiring diagram o Section 4 3 has instructions for the out of dewar charcoal regeneration procedure 4 2 Troubleshooting This section presents suggestions for dealing with basic problems that might arise with the cryopump If you have any questions or cannot resolve a problem please contact Customer Service at Quantum Design 4 2 1 Failure to Reach High Vacuum The following problems can prevent the system from reaching high vacuum o The system has been exposed to the atmosphere see Section 4 2 2 o The flapper valve fails to open or close see Sections 4 2 3 and 4 2 4 o The charcoal needs to be regenerated see Sections 4 2 4 and 4 3 o The system is leaking see Section 4 2 6 o The isolation solenoid is not working o EverCool systems The
6. Email lonson lin omega cana com tw Service for Taiwan Hong Kong Singapore PPMS Cryopump User s Manual Rev C 2 June 2005 Chapter 1 Introduction Quantum Design CHAPTER 2 Installation and Removal 2 1 Introduction This chapter contains the following information e Section 2 2 explains how to install e Section 2 4 explains how to reinstall the cryopump in the PPMS the cryopump e Section 2 3 explains how to remove the cryopump from the PPMS 2 2 Installing the Cryopump WARNING Always wear protective clothing including thermal gloves eye protection and covered shoes when you install or remove the cryopump from the dewar or when you work with liquid helium liquid nitrogen or any other cryogen For more information about cryogenic safety refer to Section 1 4 2 and to the Physical Property Measurement System Hardware Manual The Cryopump High Vacuum option is shipped with an accessories box Figure 2 1 that holds tools and hardware such as the items that are installed in or removed from the PPMS during installation of the cryopump The accessories box contains the following items cryopump side panels a blanking plate a plug removal tool a 5 32 inch hex Allen key a 5 64 inch Allen wrench assorted screws and a container of Apiezon M grease We strongly recommend that you review a set of procedures before you begin them e g installation removal For instance a review wil
7. The flapper valve opens and the system is pumped out Then the flapper valve closes and the cryopump system is regenerated This process takes at least 30 seconds The out of dewar regeneration does not use the regeneration heater You may follow the status of the regeneration by selecting CTRL gt gt 1 Interactive Control gt gt 4 Pump When regeneration is complete the message Vented appears in all menus that identify the status of the sample chamber Note that you can run the out of dewar regeneration process multiple times Remove the top blanking plate HPNW40C Remove the four 10 32 x 3 8 socket head screws that attach the pumpout fixture to the cryopump then remove the pumpout fixture We recommend that you review Sections 2 2 8 and 2 2 9 before you begin the procedures This should prepare you to perform the steps without allowing air to be cryopumped into the dewar 2 2 8 Remove the PPMS Top Plate Assembly 10 11 Quantum Design Verify that the system is at room temperature Connect the sample space pumping line to the PPMS probe head if the sample space pumping line is not already connected refer to Section 2 2 6 Set the system to vent continuously if it is not already venting Remove any baffles that are in the sample chamber Remove the sheet metal housing by undoing the eight screws that attach it to the sides of the PPMS top plate assembly refer to Figure 2 8 Save the screws for Step 10 below
8. or both red and black when terminating high vacuum investigate whether one or more of the following situations has occurred o The spring has failed Remove the cover panel and inspect the spring o The cam is slipping o The flapper valve has jammed If the flapper valve fails to close an error message will be generated in PPMS MultiVu If this error message appears but the flapper valve indicator displays the black stripe meaning that the flapper valve is actually closed there is a problem with either the wiring or the limit switch o The micro switch has failed o The motor has failed 4 2 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 4 Section 4 2 Troubleshooting and Maintenance Troubleshooting 4 2 5 System Fails to Regenerate If the system fails to achieve adequate performance after you have performed a regeneration procedure investigate whether one or more of the following situations has occurred o The regeneration heater has failed o The charcoal has been saturated with air see Section 4 3 o The pressure gauge has failed The Regen heater may be open error message might appear if the cryopump was just installed or if the sorption pump was just regenerated Under these circumstances the message only indicates that the pressure gauge cannot read a changing pressure In other words the pump regeneration was successful However if the Regen heater may be open error message
9. 2 3 theory of operation 1 1 1 3 Cryopump cable connecting 2 7 part number 1 3 wiring diagram 4 7 Cryopump head assembly connecting cables to 2 6 illustration 1 4 Cryopump pumping tube adjusting location in dewar 4 3 illustration 1 4 inserting in dewar 2 10 Cryopump pumpout fixture attaching to cryopump 2 8 location on cryopump illustration of 2 8 removing from cryopump 2 9 storing 2 9 EPROMs changing 2 3 2 4 Expansion circuit board installing 2 4 2 5 Flapper valve color coding indicating state of 3 3 isolating charcoal sorption pump 1 1 location on cryopump illustration of 1 2 3 3 operation during high vacuum 2 9 3 3 troubleshooting 4 2 Hardware See also Cryopump cable Expansion circuit board Sample chamber baffle assembly installing See Cryopump Installing list of 1 3 Heat Capacity option initiating high vacuum 3 1 using contact baffle 3 2 Heater Continuity test 2 3 Helium 3 option contact baffle not used with 3 2 initiating high vacuum 3 1 High vacuum cooling charcoal prior to entering 2 11 3 4 ending 3 1 3 3 initiating 3 1 3 2 3 3 modes 3 2 3 3 system operation during 1 2 troubleshooting 4 1 HiVacEvac mode 3 3 HiVac mode 3 3 PPMS Cryopump User s Manual Rev C 2 Index 1 Index HiVac Pressure Gauge Calibration utility 2 11 2 12 Installation See Cryopump Installing Isolation solenoid 1 1 Leak checking 4 3 Maintenance See Charcoal sorption pump Regen
10. Plug the pumping line into the port at the bottom of the back panel on the cryopump top plate assembly c Insert the sample space plug part number 4083 059 into the fitting from which the pumping line was removed 2 6 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 2 Section 2 2 Installation and Removal Installing the Cryopump AUXILIARY BREAKOUT 4076 060 4070 062 SMALL PUMPING LINE Figure 2 5 Cryopump connection diagram 7 Referring to Figure 2 5 connect the cryopump cable part number 3083 205 Figure 2 6 as follows a Plug the 25 pin backshell connector into the P6 Dewar port expansion box on the Model 6000 b Plug the 9 pin backshell connector into the P9 Pressure port on the Model 6000 c Plug the Lemo type connector with the green color coded band into the cryopump head J 19 Po PRESSURE 2 B eee ya Figure 2 6 Cryopump cable 8 Attach the vacuum gauge power supply as follows a Plug in any power strip that has been shipped to you required with older PPMS electronics cabinets If your system uses an older 220 V cabinet you must unplug a cable from the existing power strip before you can plug in the new power strip b Connect the vacuum gauge power supply to the cryopump cable Automatic voltage detection
11. You also will use these screws in the event you remove the cryopump and re install the sheet metal housing Remove the four 10 32 screws that attach the PPMS top plate assembly to the PPMS probe and save them to use in Step 11 below Then remove the top plate assembly You can bolt the pumpout fixture that is used for regeneration to the PPMS top plate for storage This storage site will protect the surface of the pumpout fixture and the O ring seal Torquing down the screws is unnecessary it is sufficient to insert them into the top plate Verify that the O ring at the mouth of the sample chamber is clean Clean the O ring if necessary Remove the two Phillips head screws attaching the blank plate part number 4078 092 to the opening to the dewar refer to Figure 2 8 Store the screws in the accessories box for later EverCool systems Attach the extension cap 4083 254 to the end of the cryopump with some Apiezon M grease between the cryopump and extension cap refer to Figure 2 7 Using the eight screws from the sheet metal housing Step 5 install the left and right side covers part numbers 4083 205 and 4083 206 by referring to Figure 1 4 for guidance The side covers protect the sample chamber wires Apply Apiezon M grease to the threads of the four 10 32 screws you removed in Step 6 These screws will be used to hold down the cryopump manifold Do this before you install the cryopump PPMS Cryopump User s Manual Rev C 2
12. charcoal absorbs the gas in the chamber The system remains in HiVacEvac mode for a minimum of 30 seconds and up to 2 minutes while it waits for the pressure to stop dropping HiVac mode After the charcoal has adsorbed all the gas the system enters HiVac or high vacuum mode When the pressure returned by the external pressure gauge has not dropped for at least 2 minutes the Model 6000 front panel indicates that the system has entered HiVac mode The pressure as indicated on any of the status panels on the Model 6000 front panel might not show zero The Chamber panel in the Status System screen on the front panel of the Model 6000 identifies the status of the current chamber operation COLOR CODING INDICATES WHEN FLAPPER VALVE IS OPEN PUMPING TUBE 7 Figure 3 2 Color coding on the cryopump motor housing indicates when the flapper valve is open and when it is closed A red stripe is visible when the flapper valve is open and a black stripe is visible when the flapper valve is closed Ending High Vacuum Issuing any chamber command other than a high vacuum command takes the system out of HiVac or high vacuum mode For example if you select Vent Continuous while the system is at high vacuum the system automatically closes the flapper valve to isolate the sorption pump from the sample chamber before it vents the chamber The colored stripe on the motor housing should change from red to black when the sorption pump
13. cryopump to initiate high vacuum Contents of the Manual o Chapter introduces the Cryopump o Chapter 4 contains troubleshooting and High Vacuum option and illustrates the maintenance procedures option hardware o Chapter 2 explains how to install the o Index is a guide to information organized cryopump in the PPMS and how to by key terms and phrases remove the cryopump from the PPMS Quantum Design PPMS Cryopump User s Manual Rev C 2 ix June 2005 Section P 4 Preface Conventions in the Manual Contents and Conventions P 4 Conventions in the Manual File menu Bold text identifies the names of menus dialogs options buttons and panels used in the PPMS MultiVu and VSM software File gt gt Open The gt gt symbol indicates that you select multiple nested software options STATUS Bold text and all CAPITAL letters distinguish the names of keys located on the front panel of the Model 6000 PPMS Controller dat The Courier font distinguishes characters you enter from the PC keyboard or from the Model 6000 PPMS Controller front panel It also indicates file and directory names and computer code lt Enter gt Angle brackets lt gt distinguish the names of keys located on the PC keyboard lt Alt Enter gt A plus sign connecting the names of two or more keys distinguishes keys you press simultaneously Important Text is set off in this manner to signal essential information that is directly related to the completio
14. of the cryopump pumping tube 1 Loosen the four 10 32 screws located near the front of the cryopump manifold 2 Slide the body of the cryopump forward until the pumping tube fits properly inside the dewar 3 Re tighten the four 10 32 screws Quantum Design PPMS Cryopump User s Manual Rev C 2 4 3 June 2005 Section 4 3 Chapter 4 Out of Dewar Regeneration Procedure Troubleshooting and Maintenance 4 3 4 3 1 4 4 Out of Dewar Regeneration Procedure The only regular maintenance you will perform on the Cryopump High Vacuum option is charcoal regeneration The in dewar regeneration procedure Section 3 2 4 releases adsorbed helium from the sorption pump To remove other gases you must perform an out of dewar regeneration which involves removing the entire cryopump assembly from the dewar and evacuating the cryopump pumping tube at room temperature This section presents the steps for performing an out of dewar charcoal regeneration Before you perform the out of dewar regeneration perform the in dewar regeneration Section 3 2 4 You will need to perform an out of dewar regeneration only if the in dewar procedure fails to restore adequate pumping capability to the sorption pump Note that you can reduce how often out of dewar regenerations are required by basic usage practices such as closing the sample chamber off from the atmosphere as soon as you have inserted or removed probes and pucks Also verify that probe inser
15. the Physical Property Measurement System PPMS so you should be aware of the safety considerations for all the equipment PPMS related safety precautions include those for the use of superconducting magnets and for the use of cryogenic liquids as is reviewed below and in the Physical Property Measurement System Hardware Manual Above all Quantum Design and its staff ask that you use standard safe laboratory procedures Use common sense Pay attention to the state of the system and to your surroundings If the system appears to be behaving abnormally investigate to see if there is a malfunction If necessary take the appropriate action e g troubleshoot shut down the system contact Quantum Design Supervise inexperienced users and train them in general electrical safety procedures 1 6 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 1 Introduction 1 4 1 Section 1 4 Safety Precautions The PPMS has safety features to prevent accidents from causing injury or serious equipment damage If you use the equipment in a manner that is not specified by Quantum Design the protection afforded by the equipment may be impaired Magnets WARNING Any person who wears a pacemaker electrical medical device or metallic implant must stay at least 5 m 16 5 ft from the PPMS dewar In addition personnel should keep all ferromagnetic objects at least 5 m 16 5 ft from th
16. 2 6 4 Use the Model 6000 CTRL menu or a MultiVu sequence command to initiate the out of dewar regeneration e Model 6000 Select CTRL gt gt 3 Immediate Operations gt gt 14 CryoReg gt gt Regenerate with CryoPump in Room The flapper valve opens and the system is pumped out Then the flapper valve closes and the cryopump system is regenerated This process takes at least 30 seconds The out of dewar regeneration does not use the regeneration heater You can follow the status of the regeneration by selecting CTRL gt gt 1 Interactive Control gt gt 4 Pump e MultiVu Insert the out of dewar regeneration command into a sequence then run the sequence while the cryopump is out of the dewar To insert the out of dewar regeneration command double click on Execute Commands which is in the Advanced subgroup in the Sequence Commands bar When the Execute Commands dialog box opens enter CRYOREG 1 in the text box and click on the OK button to insert the command into the sequence 5 When regeneration is complete the message Vented will appear in all menus identifying the status of the sample chamber 6 Remove the top blanking plate part number HPNW40C 7 Remove the four 10 32 x 3 8 socket head screws attaching the pumpout fixture to the cryopump Then remove the pumpout fixture 8 You can bolt the regeneration pumpout fixture to the PPMS top plate for storage This storage method protects the surface of the p
17. 2 9 June 2005 Section 2 2 Chapter 2 Installing the Cryopump Installation and Removal 4X 10 32 X 1 50 HEX SOCKET TOP PLATE ASSY 4078 112 O RING VON2 224 BLANK PLATE 4078 092 2 X 4 40 X 38 FLAT HEAD 8X 6 32 X 38 BUTTON HEAD SHEET METAL HOUSING DEWAR 4078 097 gt Figure 2 8 Removing the PPMS top plate assembly 12 In the next step you will remove the blank plate that covers the sample chamber opening To prevent air cryopumping into the dewar through the opening be prepared to insert the cryopump into this opening as soon as you remove the blank plate see Step 1 Section 2 2 9 13 Use the plug removal tool which is the long screw in the middle of the blank plate 4078 092 to remove the blank plate from the opening to the dewar 2 2 9 Install the Cryopump CAUTION Handle the cryopump carefully by holding the head with two hands Use your finger to put a small amount of vacuum grease on the inside surface of the O ring It is not necessary to remove the o ring Carefully insert the tube straight into the dewar This tube is thin and easily bent and a bent tube would prevent the cryopump from working 1 Working slowly and carefully slide the cryopump pumping tube into the opening to the dewar Important You will conserve helium if you insert the cryopump slowly Watch the amount of gas that boils off during the insertion and slow down the process further 1f yo
18. Figure 1 5 Sample chamber baffle assembly with contact baffle a a YA Ja P9 H PRESSURE 3083 205 REV__ 2 P POWER SUPPLY BE HII Figure 1 6 Cryopump cable Guantum Design PPMS Cryopump User s Manual Rev C 2 1 5 June 2005 Section 1 4 Chapter 1 Safety Precautions Introduction ol EL k la Pp I ENHANCED BRIDCE SOAR E 12 00 12 5 HID MOS a me ATENAS r EI 90099 Ey ig ff 5 Ya O fat BOD a6 nal ne Cex a 0 O gano ICE YA 1H 03 5 HE3 CRYOPUMP EXPANSION BOARD Figure 1 7 Expansion circuit board and enhanced user bridge board in Model 6000 1 4 Safety Precautions WARNING The Cryopump option is used in conjunction with
19. QuantumDesign pp aa a ofl naval Physical Property Measurement System Cryopump High Vacuum Option User s Manual Part Number 1083 150 C 2 Quantum Design 6325 Lusk Blvd San Diego CA 92121 USA Technical support 858 481 4400 800 289 6996 Fax 858 481 7410 Third edition of manual completed November 2004 Trademarks Product and company names appearing in this manual are trademarks or registered trademarks of their respective holders U S Patents 4 791 788 Method for Obtaining Improved Temperature Regulation When Using Liquid Helium Cooling 4 848 093 Apparatus and Method for Regulating Temperature in a Cryogenic Test Chamber 5 311 125 Magnetic Property Characterization System Employing a Single Sensing Coil Arrangement to Measure AC Susceptibility and DC Moment of a Sample patent licensed from Lakeshore 5 647 228 Apparatus and Method for Regulating Temperature in Cryogenic Test Chamber 5 798 641 Torque Magnetometer Utilizing Integrated Piezoresistive Levers Foreign Patents U K 9713380 5 Apparatus and Method for Regulating Temperature in Cryogenic Test Chamber Safety Instructions No operator serviceable parts are For continued protection against fire inside Refer servicing to qualified hazard replace fuses only with same personnel type and rating of fuses for selected line voltage Observe the following safety guidelines when you use your system To avoid damaging the system ver
20. ad You must remove the sample space plug part number 4083 059 to do this If the cryopump will be out of the sample chamber for a brief time for example if you are only going to perform a warm regeneration steps 12 and 13 are unnecessary Use the Model 6000 CONFIG menu to tell the Model 6000 that the cryopump is removed Do the following a select CONFIG gt gt Hardware gt gt High Vacuum b under Type of System option select None and then c press lt Alt Enter gt to save the change PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 2 Section 2 4 Installation and Removal Reinstalling the Cryopump 2 4 Warning Caution NOTE Quantum Design 13 Install the sheet metal housing if the cryopump will be out of the sample chamber for an extended period of time Use the eight supplied screws to attach the sheet metal housing Reinstalling the Cryopump 9 10 Always wear protective clothing including thermal gloves eye protection and covered shoes when you install or remove the cryopump from the dewar or when you work with liquid helium liquid nitrogen or any other cryogen For more information about cryogenic safety refer to the Physical Property Measurement System Hardware Manual Perform a warm regeneration Refer to section 2 2 7 Vent the system continuously Connect the sample space pumping line to the PPMS probe head if the sample space pumping line is not al
21. appears after the cryopump has been installed at least a week the message indicates that there is a problem with the system because the system can accumulate helium in a week 4 2 6 Leak in the System If the system requires frequent out of dewar regenerations or never achieves an adequate vacuum 1t might have a leak To investigate this possibility first verify that the O ring on the cryopump pumpout fixture and the O ring on the centering ring have been adequately greased with Apiezon M grease Next verify that the four 10 32 x 3 8 socket head screws attaching the pumpout fixture to the cryopump are tightened firmly If the procedures above do not resolve your problems call Customer Service at Quantum Design Leak detection is often a complex task and our trained personnel can advise you about the best way to approach such a problem 4 2 7 Vacuum Gauge Does Not Power Up If the lights on the front of the vacuum gauge are not on it indicates that the vacuum gauge has not powered up Verify that the power supply for the vacuum gauge is properly connected see Section 2 2 6 Step 8 4 2 8 Cryopump Pumping Tube Fits Poorly in Dewar In rare instances the manufacturing tolerances of the dewar prevent the cryopump pumping tube from fitting properly in the dewar If the installed pumping tube appears to be stressed in any way you must adjust its location so that the pumping tube will not be bent Use the steps below to adjust the location
22. ay and the bolt heads sticking out on top Follow steps 6 thru 14 6 Select the Eyesys cal file 7 Select OK The HiVac Pressure Gauge Calibration dialog box opens and displays the Step 1 tab which is the first of six tabs in the dialog box The tabs step you through the tasks you perform to run the utility The Current pressure in torr panel at the top of the dialog box indicates the pressure inside the sample space as determined by using the opened cal file for the calibration The panel is visible in each tab 8 Select Purge to purge the system The mouse pointer appears again when the system is purged After the system is purged select Next to open the Step 2 tab 9 Select Vent to vent the sample chamber The mouse pointer appears again when the chamber is vented After the chamber is vented select Next to open the Step 3 tab 10 Use a small nonconductive tool such as a long handled wooden toothpick to press the recessed CAL button that is on the side of the pressure gauge Press the button until you feel it engage After you press the CAL button select Next to open the Step 4 tab 11 Use the up and down arrows to adjust the displayed pressure until the pressure is between 760 and 780 torr Notice that a short time delay occurs after you press the up or down arrow and before you see a change in the display Select Save when you have set a pressure After you have set and saved the pressure select Next to open the Step 5
23. blanking plate including the extension cap 2 8 Removing the PPMS top plate assembly n nono wima 2 10 Cryopump installed in PPMS ooocococcnoconoconononononnnonnnnoncnn ono nimemwita 2 11 Sample chamber baffle assembly with contact baffle 3 2 Color coding on the cryopump motor housing and flapper valve 3 3 Wait sequence command 2 0 ceeeceeseeescesscesecesecsecesecsnecseceaecasecaeecaeseneesaeeeeceeeseeeaeeneceaeeaeeeaes 3 5 Wait dialog box and Wait for Chamber condition sequence command 3 5 Cryopump witing agradan 4 7 Tables Table 1 1 Quantum Design Major hardware components shipped with the PPMS Cryopump option 1 3 PPMS Cryopump User s Manual Rev C 2 Vii June 2005 P R E F A C E Contents and Conventions P 1 P 2 P 3 Introduction This preface contains the following information o Section P 2 discusses the overall scope of Section P 4 illustrates and describes the manual conventions that appear in the manual o Section P 3 briefly summarizes the contents of the manual Scope of the Manual This manual discusses the Physical Property Measurement System PPMS Cryopump High Vacuum option This manual illustrates the cryopump hardware explains how to install the cryopump and explains how to use the
24. c implants or medical devices from most magnetic fields produced by Quantum Design magnets However the safe distance from newer magnets in development could be greater Hence personnel who work with and around the superconducting magnets should review thoroughly documentation for new equipment Quantum Design PPMS Cryopump User s Manual Rev C 2 1 7 June 2005 Section 1 4 Chapter 1 Safety Precautions Introduction 1 4 2 Cryogens WARNING Always wear protective clothing and ensure that the room has good ventilation when you work with cryogenic materials such as liquid helium and liquid nitrogen These precautions will protect you against cryogenic material hazards 1 they can expand explosively when exposed to room temperature 2 they can cause serious burns Always wear protective clothing including thermal gloves eye protection and covered shoes when you work with liquid helium liquid nitrogen or other cryogens Avoid wearing loose clothing or loose gloves that could collect cryogenic liquids next to the skin The extreme cold of liquid and gaseous cryogens can cause serious burns and has the potential to cause loss of limbs Use cryogens only in well ventilated areas In the event a helium container ruptures or there is a helium spill vent the room immediately and evacuate all personnel In a poorly ventilated area helium can displace the air leading to asphyxiation Because helium ri
25. dt Germany Tel 49 6151 880631 Fax 49 6151 896667 Email gd euroservice lot oriel de Web _ http www lot oriel com Service for Austria Belgium Crete Croatia Czech Republic Denmark England Finland France Germany Greece Hungary Ireland Israel Italy Luxembourg Netherlands Norway Poland Portugal Russia Slovakia Slovenia Spain Sweden Switzerland Turkey and Yugoslavia Japan Quantum Design Japan Sanpo Ikebukuro Building Annex 4 32 8 Ikebukuro Toshima ku Tokyo 171 0014 Japan Tel 81 3 5954 8570 Fax 81 3 5954 6570 Email qdjapan tkb att ne jp Web _ http www qd japan com Service for Japan Quantum Design PPMS Cryopump User s Manual Rev C 2 1 9 June 2005 Section 1 5 Contacting Ouantum Design 1 10 Korea Quantum Design Korea Kyungbin Building Fourth Floor 517 18 Dogok dong Kangnam gu Seoul 135 270 Korea Tel 82 2 2057 2710 Fax 82 2 2057 2712 Web http www gdkorea com Service for Korea People s Republic of China Quantum Design Instrumentation Bejing Co Ltd Room 502 04 Tower B COFCO Plaza No 8 Jianguomennei Avenue Dong Cheng District Beijing 100005 P R China Tel 8610 8512 0277 80 Fax 8610 8512 0276 Email quantum design 163 com Service for People s Republic of China Taiwan Omega Scientific Taiwan Ltd 13F 3 No 415 Sec 4 Hsin Yi Road Taipei City 110 Taiwan R O C Tel 886 2 8780 5228 Fax 886 2 8780 5225
26. e PPMS dewar Verify that all magnetic fields are at zero 0 before you handle the VSM linear motor transport in any way The following precautions should be followed to ensure the safety of personnel who work with or around a PPMS with a superconducting magnet This material is covered in more depth in Chapter 1 of the Physical Property Measurement System Hardware Manual Verify that any person who has a metallic implant or is wearing a pacemaker or electrical or mechanical medical device stays at least 5 m 16 5 ft from the PPMS dewar Large magnetic fields are dangerous to anyone who has a metallic implant or is wearing a pacemaker or other electrical or mechanical medical device Important The automated control system can turn on the magnet while the system is unattended Furthermore the three dimensional magnetic field of the PPMS will penetrate nearby walls the ceiling and the floor Therefore your safety considerations should include such adjacent spaces Keep all iron nickel and other ferromagnetic objects at least 5 m 16 5 ft from the PPMS dewar Large magnets such as the PPMS superconducting magnets can attract iron and other ferromagnetic materials with great force The observable effects of magnetic fields are listed in Chapter 1 of the Physical Property Measurement System Hardware Manual At the current time November 2004 5 m should be a large enough distance to protect wearers of metalli
27. e cryopump into high vacuum a Select Instrument gt gt Chamber from the dropdown tool bar at the top of the MultiVu window b When the Chamber dialog box opens clock on the HiVac button to initiate the high vacuum process 2 2 10 Run the HiVac Pressure Gauge Calibration Utility The HiVac Pressure Gague Cablibration utility enables the Cryopump option calibrates the pressure gauge and installs the configuration files It also serves as a test of the operation of the cryopump Complete the following steps to run the HiVac Pressure Gauge Calibration utility 1 Verify that the temperature of the sample chamber is 300 K or greater 2 Verify that the sample chamber is closed 3 Verify that the pressure gauge has been powered up for at least 30 minutes Important To obtain accurate results the pressure gauge must be powered up for at least 30 minutes before you use it Although you can run the calibration before the pressure gauge is warm the test results will be suspect Quantum Design PPMS Cryopump User s Manual Rev C 2 2 11 June 2005 Section 2 2 Chapter 2 Installing the Cryopump Installation and Removal 4 Open the Quantum Design program group and then select the HiVac Pressure Gauge exe Calibration option The HiVac Pressure Gauge Calibration utility starts up 5 Click the picture of the installed gauge For gauge 4083 055 Verify the correct gauge by noting the large red Q logo on the gauge the centered LED displ
28. en Lemo connector on cryopump cable B Internal cryopump cables connected to green Lemo connector on cryopump cable Quantum Design Figure 4 1 Cryopump wiring diagram PPMS Cryopump User s Manual Rev C 2 June 2005 x Section 4 4 Wiring Diagram Index Accessories box function 2 1 illustration 2 2 Auxspare to Expansion Board cable installing 2 5 Blank plate re installing in dewar opening 2 13 removing from dewar opening 2 9 2 10 Blanking plate attaching to cryopump 2 8 in accessories box illustration of 2 2 location on cryopump illustration of 2 8 Cables connecting 2 5 2 7 Centering ring attaching to cryopump 2 8 in accessories box illustration of 2 2 location on cryopump illustration of 2 8 Charcoal holder removing from contact baffle 3 2 Charcoal sorption pump exposure to atmosphere 4 1 location on cryopump illustration of 1 2 pumping element for cryopump 1 1 regeneration frequency of 1 2 3 1 3 4 inadequate performance following 4 2 in dewar 1 2 3 4 out of dewar 1 2 2 8 4 4 4 6 Connection diagram 2 7 Contact baffle 3 2 Contacting Quantum Design 1 9 Cryopump base pressure 1 1 cable See Cryopump cable EPROMs required 2 3 hardware list of 1 3 illustration assembly 1 2 1 4 3 3 installed 1 5 2 10 installing 2 1 2 11 operation 3 1 See also Contact baffle High vacuum re installing 2 14 2 15 removing 2 13 2 14 Quantum Design software required
29. eration Model 6000 PPMS Controller changing EPROMs in 2 3 2 4 configuring for cryopump operation 2 7 high vacuum command 3 2 installing expansion circuit board in 2 4 2 5 O ring for cryopump pumpout fixture 2 8 Part numbers list of 1 3 Plug removal tool in accessories box illustration of 2 2 removing blank plate 2 10 Port expansion box connecting to P6 port 2 6 PPMS MultiVu version for cryopump 2 3 PPMS_SEL2 PAL chip 2 5 PrePump mode 3 2 Pumpout fixture See Cryopump pumpout fixture Index 2 PPMS Cryopump User s Manual Rev C 2 June 2005 Regeneration See Charcoal sorption pump Regeneration Romcfg32 utility 2 4 2 6 2 12 Safety precautions 1 6 1 8 Sample chamber baffle assembly See also Contact baffle illustration 1 5 inserting 2 10 part number 1 3 Sample space plug in accessories box illustration of 2 2 installing 2 6 location on cryopump illustration of 1 5 Sample space pumping line connecting 2 6 Sorption pump See Charcoal sorption pump Top plate assembly removing 2 9 Troubleshooting 4 1 4 3 Vacuum gauge power supply attaching 2 7 failure to power up 4 3 Wait sequence command and high vacuum state 3 4 3 5 Wiring diagram 4 7 Quantum Design
30. extension cap has not been attached to the pump tube Quantum Design PPMS Cryopump User s Manual Rev C 2 4 1 June 2005 Section 4 2 Chapter 4 Troubleshooting Troubleshooting and Maintenance 4 2 2 Exposure to Atmosphere If the sorption pump has been accidentally exposed to the atmosphere 1t is probably saturated with frozen air and might require an out of dewar regeneration Section 4 3 before 1t operates properly 4 2 3 Flapper Valve Fails to Open The color coded motor housing indicator indicates the position of the flapper valve see Figure 3 2 When the flapper valve opens the indicator should show red If it continues to show black or both red and black when attempting high vacuum investigate whether one or more of the following situations has occurred o The spring has failed Remove the cover panel and inspect the spring o The cam is slipping o The flapper valve has frozen shut If the flapper valve fails to open an error message will be generated in PPMS MultiVu If this error message appears but the flapper valve indicator displays the red stripe meaning that the flapper valve is actually open there is a problem with either the wiring or the limit switch o The motor has failed 4 2 4 Flapper Valve Fails to Close The color coded motor housing indicator indicates the position of the flapper valve see Figure 3 2 When the flapper valve closes the indicator should show black If it continues to show red
31. he O ring on the sample chamber 6 Install the right and left side covers that protect the wires of the sample chamber Figures 1 4 and 2 1 part numbers 4083 205 and 4083 206 7 Insert the baffle assembly 8 Test the installation by installing the cap plugging in the pressure gauge and purging the system Watch the static pressure to verify that the sample chamber is not leaking 9 After you install the cryopump wait several minutes before you instruct the system to enter high vacuum Important The charcoal must cool before the system can enter high vacuum 10 Return the parts you used to install the cryopump back to the accessories box 4 6 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 4 Troubleshooting and Maintenance 4 4 Wiring Diagram Figures 4 1A and 4 1B show the pinouts for the green color coded Lemo connector on the cryopump cable Figure 2 5 illustrates the cryopump cable MOTOR MOTOR LIMIT LIMIT REGIN REGIN PRESSURE SIG PRESSURE RTN 15 GND ISOLATION VALVE J2 P2 J1 r LEMO 2 2 2 2 PI 3 3 4 2 4 5 5 5 6 6 LZ p 8 5 7 y s 9 6 8 PA TO on y 12 3 4 ig Ih 2 2 2 SHIELD DRAIN WIRE A A Wiring diagram for gre
32. he PPMS system temperature The charcoal on the baffle assembly begins pumping helium gas at temperatures below about 10 K Hence even if the sample chamber is sealed the pressure in the sample chamber could become equivalent to high vacuum conditions when temperatures are below 10 K When temperatures are above 20 K the charcoal has no effect on the helium in the sample chamber In experiments that require exchange gas at temperatures below 10 K you can remove the charcoal holder from the end of the baffle assembly by simply unscrewing it from the threaded post When you remove the charcoal holder e g as a necessary part of calibrating calorimeters with the Heat Capacity option use a method that prevents oils from your fingers from contaminating the charcoal The contact baffle assembly is not required when using the Helium 3 system The Helium 3 insert provides its own thermal shielding and also contains its own charcoal for these purposes A BLANK PLATE WELDMENT 4078 105 B CONTACT BAFFLE ES 4083 010 Figure 3 1 Sample chamber baffle assembly with contact baffle 3 2 2 Initiating High Vacuum Typically PPMS options automatically initiate high vacuum However in the event you want to manually initiate high vacuum perform the following steps 1 Verify that the opening to the sample chamber is sealed You should be using t
33. he Wait command is found in the System subgroup see Figure 3 3 As with the other sequence commands you access the Wait command by double clicking on it This action opens the Wait dialog box Figure 3 4 which has separate Condition s Delay secs and On Error Execute setting subgroups The Condition s subgroup lets you set delays according to Temperature Field Position and Chamber The Delay secs subgroup has a text box in which you can set the amount of time to delay action after the condition has been met and the On Error Execute subgroup has a dropdown menu in which you can select an action to be executed when the system encounters an error To set up a Wait command to use with cryopump operations click in the check box next to Chamber enter any Delay time and select any On Error Execute action Then click on the OK button The command will be inserted into the sequence as is shown in the example sequence at the top of Figure 3 4 Important Verify that you have clicked in the check box next to Chamber before you click on the OK button Otherwise the system will not consider the vacuum state when it reaches the command Sequence Commands fe Sequencel seq 8 System Commands rauhen a A dados Setup Wait For Chamber Delay 5 secs No Action Chain Sequence Digital Output WAIT xl Aa mas Wait for the specified conditions then delay for __ seconds xternal Select ee Remark before continuing with the sequence Scan Field
34. he contact baffle assembly see Figure 3 1 to seal the chamber opening If you are using the Helium 3 system verify that the insert is completely seated on the top flange 2 Purge the sample chamber if the system has recently been opened to the atmosphere 3 Enable high vacuum In the Model 6000 the quickest way to issue a high vacuum command is to select STATUS gt gt Chamber gt gt 6 Pump HiVac In MultiVu open the Chamber dialog box Instrument gt gt Chamber and click on the HiVac button Chamber commands are also located in the Interactive Control menu which you open by selecting CTRL gt gt Control Menu gt gt 1 Interactive Control In the Interactive Control menu enable high vacuum by selecting 4 Pump gt gt Use Cryo Pump 3 2 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 3 Operation 3 2 3 Quantum Design Section 3 2 Cryopump Operation PrePump mode As soon as you issue the high vacuum command the system enters PrePump mode and monitors the pressure Monitoring the pressure takes a minimum of 30 seconds and might last as long as 2 minutes The minimum monitoring time is extended as long as the vacuum can be improved The operation of the temperature control firmware is interrupted so that full pumping force can be applied to pump on the sample chamber HiVacEvac mode Next the system enters HiVacEvac mode In HiVacEvac mode the flapper valve is open see Figure 3 2 and the
35. ify that the system power requirements match the alternating current AC power available at your location If the system has not been configured for the correct power available at your location contact your local service representative before you proceed with the system installation To prevent electrical shock verify that the equipment is properly grounded with three wire grounded plugs To prevent electrical shock unplug the system before you install it adjust it or service it Do not spill food or liquids on the system or its cables Refer to the section titled Safety Precautions before you install or operate this system Direct contact with cryogenic liquids materials recently removed from cryogenic liquids or exposure to the boil off gas can freeze skin or eyes almost instantly causing serious injuries similar to frostbite or burns Wear protective gear including clothing insulated gloves and safety eye protection when you handle cryogenic liquids Transfer liquid helium only in areas that have adequate ventilation and a supply of fresh air Helium gas can displace the air in a confined space or room resulting in asphyxiation dizziness unconsciousness or death Keep this system away from radiators and heat sources Provide adequate ventilation to allow for cooling around the cabinet and computer equipment Refer to the manuals for the supplied computer and monitor for additional safety warnings and notices before y
36. in the vacuum gauge power supply will only allow the power supply that is compatible with your system c Connect the vacuum gauge power supply to the system s power strip If an IEC attachment cable has been shipped to you plug one end into the power supply and one end into the power strip If a second attachment cable has been shipped to you use this cable to connect the new power strip to the old power strip 9 Use the Model 6000 CONFIG menu to configure the Model 6000 for cryopump operation a Select CONFIG gt gt 6 Hardware gt gt 5 High Vacuum b Under Type of System select Cryopump c Press lt Alt Enter gt to save the change Quantum Design PPMS Cryopump User s Manual Rev C 2 2 7 June 2005 Section 2 2 Chapter 2 Installing the Cryopump Installation and Removal 10 Next use the Model 6000 CONFIG menu to activate the cryopump Pirani pressure gauge instead of the Model 6000 internal pressure gauge a Select CONFIG gt gt 6 Hardware gt gt 4 Pressure Sensor The Model 6000 display will now show the Sensor Units and Units V settings b Use the directional keys on the Model 6000 to select Pirani for the Sensor type When you are finished the display should be similar to the example below SENSOR PIRANI UNITS TORR UNITS V TABLE c Press lt ALT ENTER gt to save the changes 2 2 7 Regenerate the Charcoal Note You will perform an out of dewar regeneration of the system befo
37. is sealed off from the sample chamber see Figure 3 2 PPMS Cryopump User s Manual Rev C 2 3 3 June 2005 Section 3 3 Chapter 3 Using the Wait Sequence Command Operation 3 2 4 Regenerating the Sorption Pump Periodically it is necessary to perform a cryopump regeneration operation to restore the pumping capacity of the charcoal sorption pump The cryopump is regenerated by using an in dewar procedure to remove helium gas or an out of dewar procedure to remove air water and nitrogen The in dewar procedure is generally required about four times a year that is after approximately 500 operations and takes only a few minutes to perform The out of dewar regeneration procedure might be required approximately once a year depending on the lab environment and usage practices see below and Section 4 3 When it is time to perform an in dewar cryopump regeneration based on the number of high vacuum cycles the Model 6000 PPMS Controller will notify you The in dewar regeneration is an automated procedure that you initiate from the front panel of the Model 6000 or from a PPMS MultiVu sequence Use the steps below to perform an in dewar regeneration 1 Warm the system to 320 K 2 Use the steps below to activate the in dewar regeneration mode from the Model 6000 or from a MultiVu sequence e Model 6000 Select CTRL gt gt Control gt gt Immediate Operations gt gt 14 CryoReg gt gt Regenerate with CryoPump in Dewar e Mul
38. l 6000 it must be retrieved before you restore power to the Model 6000 or it could be severely damaged Note The following procedures involve working with circuit boards If there is no one available who is experienced with circuit boards contact Quantum Design for assistance To enable the Model 6000 to communicate with the cryopump hardware the Cryopump Helium 3 expansion circuit board must be installed in the Model 6000 as explained below 1 Locate the CPU board in the Model 6000 When you face the front of the electronics cabinet the CPU board is the board the furthest to the left and it has the GPIB connected at its back 2 Remove the CPU board by disconnecting the cables back panel screws and fasteners holding the board onto the five standoffs The large board beneath the CPU board is the motherboard 2 4 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 2 Section 2 2 Installation and Removal Installing the Cryopump Quantum Design Check for any chips previously installed in the U55 socket in the motherboard If the U55 socket is empty proceed to step 4 If there is already a chip in the socket its label should read PPMS_SEL2 If the revision and the CKSUM numbers are identical to those on the upgrade chip included with this option no chip replacement is necessary If the revision or the CKSUM numbers are different between the two chips replace the chip in the motherboa
39. l facilitate the installation and help you prevent air from being cryopumped into the dewar Quantum Design PPMS Cryopump User s Manual Rev C 2 2 1 June 2005 uodo uinnogA uBiH duundoA1g ay 104 xoq s lioss 55v L Z almbBly 6S0 807 AIGWASSVY INId JOVdS JIANVS LLWH 3SV389 NW NOZ3ldV Z27 80v 1001 IVAONIY Md HNOS LOIS4OL SZ 1708 13X90S X3H OS X ZE Ol 9 d38 NSIY SZ SMIYJIOS dV3H Y3LSITINL 8 2 X Or r HE8S NSD9 SZ MANOS GV3H GALLOIS X3H NOLLNG L X ZE 9 8 LOZWH HONZAM NINY F9 S 1 ZOZNH HONJAM NITY 91 1 1 84YH X08 OILSVld YV319 1 907 807 84409 30IS LHOIY SOZ 807 43109 AGIS 1431 407 807 XJA00 YOLOW 3GIS 1431 SOZWH YAAIMCTIVE ZE S 007ZNdH JLV1d ONIMNYIE 807MNdH ONIN SNIM31N32 VOFMNdH dWV10 JONIH AVOW3 INV X08 1001 man uE Chapter 2 Section 2 2 Installation and Removal Installing the Cryopump CAUTION In the following procedures it is important to maintain the sample chamber at or above room temperature This will prevent the condensation and cryopumping of air into the chamber if it is opened to the atmosphere 2 2 1 Unpack the Cryopump CAUTION Always hold the head of the cryopump carefully and with two hands Never hold the cryop
40. n of a task Note Text is set off in this manner to signal supplementary information about the current task the information may primarily apply in special circumstances CAUTION Text is set off in this manner to signal conditions that could result in loss of information or damage to equipment WARNING Text is set off in this manner to signal conditions that could result in bodily harm or loss of life WARNING Text is set off in this manner to signal electrical hazards that could result in bodily harm or loss of life x PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 C H A P T E R 1 Introduction 1 1 1 2 1 2 1 Introduction This chapter contains the following information o Section 1 2 discusses the theory of o Section 1 4 discusses safety precautions for operation for the PPMS Cryopump High the PPMS Cryopump system Vacuum option o Section 1 3 illustrates the PPMS Cryopump Section 1 5 has information for contacting system hardware Customer Service at Quantum Design Theory of Operation The PPMS Cryopump High Vacuum option pumps helium gas from the PPMS sample chamber in order to provide high vacuum By reaching base pressures near 0 1 mTorr 1 mP the system is able to achieve thermal isolation for measurement options such as PPMS Heat Capacity Model P650 and the PPMS Helium 3 Refrigerator System Model P825 Pumping Element The cryopump
41. nd to PPMS gt gt Send Config menu item and c Specify the file name you saved above in section 2 2 3 5 Set the PPMS system temperature back to 320 K and vent the system continuously 2 2 6 Connect the Pumping Line and Cables 1 Remove the cable and any associated in line dongles attached to the P6 Dewar connector on the back of the Model 6000 2 Locate the port expansion box part number 4076 060 Figure 2 4 that comes with the Cryopump option and attach it to the P6 Dewar connector The port expansion box is a simple splitter box that allows the existing dewar cable to share the P6 Dewar connector with the cryopump cable Figure 2 4 Port expansion box 3 Affix the P6 Dewar sticker to the port expansion box if the sticker is not already on the box 4 Reattach the dewar cable and any dongles you disconnected in step 1 to the port expansion box Refer to Figure 2 5 5 Place the cryopump head assembly part number 4083 201 on the edge of a smooth flat table or work surface that is near the PPMS dewar and electronics cabinet Position the cryopump head assembly so that the pumping tube hangs straight down over the edge of the table and make certain you do not scratch the bottom surface of the assembly Figure 1 2 identifies the cryopump head assembly and the pumping tube 6 Referring to Figure 2 5 connect the sample space pumping line as follows a Detach the sample space pumping line from the PPMS probe b
42. ou operate the system Regulatory Information This apparatus has been tested to the requirements of the EMC Directive 89 336 EEC This apparatus is defined as ISM Group 1 Class A and B equipment per EN 50011 1991 industrial and light industrial environment limits of radio frequency emission This apparatus has been tested to the requirement of the Low Voltage Directive 73 23 EEC See the EU Declaration of Conformity for additional regulatory information regarding your PPMS Quantum Design PPMS Cryopump User s Manual Rev C 2 ili June 2005 CONTENTS Table of Contents Preface Contents and Conventions ix PEL Introduction 2 232 OA ix P 2 Scope of the Manual diia en REE Aa E EEA E ix P 3 Contents of the Manual 0 cccccceeccesscesseeeseeeseeeseeesceeseecsaecsaecaecesecesecsseeseeseeeseaeseseeeseecseesenseenes ix P4 Conventions an the Manual a A tee E E x CHAPTER 1 A need 1 1 E neces 1 1 1 2 Theory ofiOBeratiom a u a n aa de 1 1 1 24 Pump Element RRA hal 1 1 1 22 Pump RE Generation wi AE ia kawa dd ir cages ges 1 2 1 3 NN ON 1 3 1 4 7 Safety PA ad AAA 1 6 LAT O u aaa AN 1 7 14 2 AN O o ads 1 8 1 4 37 Electricidad Bowes 1 8 1 5 Contacting Quantum Design ccccccccescesscseseeesceeseeeseeeseecssecsaecsaecsecseceseeseeseeeseeeseaeeeseeeseesaes 1 9 CHAPTER 2 Installation and Removal
43. r s Manual Rev C 2 Quantum Design June 2005 Chapter 4 Section 4 3 Troubleshooting and Maintenance Out of Dewar Regeneration Procedure CAUTION Do not insert or remove the cryopump at an angle or the tube will bend Sometimes the O ring freezes as you lift the cryopump straight out of the dewar and the tube will stick If this occurs do not force the pump to move because it might jolt upward injuring you and damaging the tube Wait approximately one minute until the pump can move freely then continue to carefully lift it straight out 7 Insert the blank plate part number 4078 092 into the dewar opening refer to Figure 2 7 If the cryopump will remain out of the dewar for an extended length of time you should place the standard PPMS top plate on top of the probe The standard top plate assembly part number 4078 112 will help prevent gases from leaking into the PPMS annulus 4 3 2 Perform the Out of Dewar Regeneration 1 Verify that the cryopump has warmed to room temperature 2 Use the four 10 32 x 3 8 socket head screws to attach the cryopump pumpout fixture part number 4083 208 with the O ring facing upward to the bottom side of the sample chamber opening on the cryopump see Figure 2 6 Tighten the screws until they are just finger tight 3 Use the blanking plate part number HPNW40C and associated centering ring part number HPNW40B to cover the top of the sample chamber opening on the cryopump see Figure
44. rd Cable 3076 018 Cable Assembly Jumper 3085 101 PAL for Motherboard Updated ROMs June 2005 PPMS Cryopump User s Manual Rev C 2 1 3 Section 1 3 Chapter 1 Hardware Introduction PUMPING TUBE Z Y Figure 1 2 Cryopump head assembly and pumping tube A BLANKING PLATE HPNW40C B CENTERING RING HPNW40B 4X 10 32 X 50 HEX SOCKET K D PUMPOUT FIXTURE O RING VON2 224 PUMPING LINE ___ TO MODEL 6000 C PUMPOUT FIXTURE 4083 208 Figure 1 3 Pumpout fixture and blanking plate 1 4 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 1 Section 1 3 Introduction Hardware REMOVE CRYOPUMP PUMPOUT FIXTURE 4083 208 AND STORE IN UTILITY BOX 4083 220 REMOVE EXISTING HARDWARE 4X 10 32 X 50 X AND REPLACE WITH 4X 10 32 X 1 60 HEX SOCKET INCLUDED IN UTILITY BOX 4083 220 N N O RING VON2 224 USING EXISTING HARDWARE 8X 6 32 X 28 _7 C SAMPLE SPACE PLUG BUTTON HEAD SCREW 4083 059 lt COVER RIGHT SIDE x CRYOPUMP 4083 206 A COVER LEFT SIDE CRYOPUMP 4083 205 N SERIAL NUMBER LABEL 5000 037 DEWAR Figure 1 4 Exploded view of installed cryopump A BLANK PLATE WELDMENT 4078 105 B CONTACT BAFFLE 4083 010
45. rd with the upgrade chip Hold the PPMS_SEL2 PAL chip so that the notch on it faces left indicating that pin 1 is in the correct position Use gentle pressure to insert the PPMS_SEL2 PAL chip into the U55 socket on the exposed circuit board Work carefully so that you do not bend pins bent pins require new motherboards Once the PAL chip is inserted visually inspect it to verify that there are no bent pins Reinstall the CPU board Remove any board installed in the P3 Option slot on the Model 6000 Install the expansion circuit board part number 3076 015 in the location indicated in Figure 2 3 Proceed as follows a remove the nut and washer holding the lower right corner of the mother board b attach the provided standoff c install the expansion board into the standoff and then d reinstall the washer and nut If the standoff does not stand vertically you may need to bend it to make it straight The expansion circuit board will not fit unless the standoff is straight The two connectors on the underside of the board should completely engage the connectors on the motherboard J7 MOTHERBOARD gt ENHANCED BRIDGE BOARD HE3 CRYOPUMP EXPANSION BOARD
46. re the cryopump is installed or whenever the charcoal has become saturated with non helium gases 1 Verify that the cryopump pumpout fixture part number 4083 208 is attached to the bottom side of the sample chamber opening on the cryopump refer to Figure 2 7 Four 10 32 x 3 8 socket head screws attach the pumpout fixture with the O ring facing upward to the cryopump The screws should be finger tight 2 Referring to Figure 2 7 sse the blanking plate see Figure 2 7 part number HPNW40C and associated centering ring part number HPNW40B to cover the top orifice of the cryopump A BLANKING PLATE HPNW40C B CENTERING RING HPNW40 D PUMPOUT FIXTURE O RING vON2 224 PUMPING LINE MODEL 6000 C PUMPOUT FIXTURE 4083 208 EXTENSION CAP 4083 234 Q O Figure 2 7 Exploded view of pumpout fixture and blanking plate HPNW40C Note the extension cap for the cryopump pumping tube which is used only with the EverCool option see Section 2 2 9 1 s 5 The out of dewar regeneration is sometimes referred to as a warm regeneration 2 8 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 2 Section 2 2 Installation and Removal Installing the Cryopump 3 Use the Model 6000 CTRL menu to initiate the out of dewar regeneration by selecting 4 5 CTRL gt gt 3 Immediate Operations gt gt 14 CryoReg gt gt Regenerate with CryoPump in Room
47. ready connected Refer to section 2 2 6 Remove the two Phillips head screws attaching the blank plate to the opening to the dewar Refer to figure 2 7 Place the screws in the accessories box for safe storage Use the plug removal tool which is the long screw in the middle of the blank plate to remove the blank plate from the opening to the dewar The plug covers the opening through which the cryopump pumping tube penetrates into the dewar Slowly and carefully slide the cryopump pumping tube into the opening to the dewar Slide the pumping tube into the dewar until you can screw down the cryopump Handle the cryopump carefully by holding the head with two hands Use your finger to put a small amount of vacuum grease on the inside surface of the o ring It is not necessary to remove the o ring Carefully insert the tube straight into the dewar Inserting it at an angle may cause the thin tube to bend which will prevent the cryopump from working While you insert the cryopump watch the amount of gas that boils off and if necessary insert the cryopump more slowly to reduce the amount of boil off The more slowly you insert the cryopump the more helium you conserve Use a 5 32 inch hex Allen key to install the four 10 32 screws that hold down the cryopump manifold It is important to tighten these screws very well so that they compress the O ring on the sample chamber Install the cryopump sheet metal housing Insert the baffle assembly
48. ribed in Section 1 2 The system automatically terminates high vacuum whenever a different chamber command is issued PPMS options such as Heat Capacity Model P650 or Helium 3 Model P825 automatically initiate the high vacuum operation when it is necessary When a cryopump system is being operated under normal conditions that is it is entering high vacuum less than 100 times per month you will need to perform an in dewar regeneration approximately every three months The in dewar regeneration procedure should require just a few minutes Note You can perform an in dewar regeneration more often than once every three months If you do so you will find that high vacuum performance has been enhanced An out of dewar regeneration is sometimes required to thoroughly clean the sorption pump of air see Section 4 3 This procedure is more complex and takes longer to perform than the in dewar regeneration Quantum Design PPMS Cryopump User s Manual Rev C 2 3 1 June 2005 Section 3 2 Chapter 3 Cryopump Operation Operation 3 2 1 Using the Contact Baffle The contact baffle on the sample chamber baffle assembly Figure 3 1 contains a charcoal holder for increased pumping speed at the lowest sample chamber temperatures The contact baffle also provides thermal radiation shielding for the lowest region of the sample chamber The spring contacts ensure that the charcoal holder and bottom baffle are maintained at the same temperature as t
49. rom the dewar through the top plate This procedure takes somewhat longer than the in dewar procedure but because the regeneration heater only liberates helium gas the out of dewar regeneration is used to remove water or nitrogen 1 2 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 1 Introduction 1 3 Quantum Design Section 1 3 Hardware Section 4 3 discusses the regeneration process in detail including factors that will cause a need for the out of dewar regeneration Hardware Table 1 1 Major hardware components shipped with the PPMS Cryopump option HARDWARE PART ILLUSTRATION NUMBER Cryopump Head Assembly 4083 201 Figure 1 2 Blanking Plate HPNW40C Figure 1 3 Item A Centering Ring HPNW40B Figure 1 3 Item B Cryopump Pumpout Fixture 4083 208 Figure 1 3 Item C with O Ring VON2 224 Figure 1 3 Item D Cover Left Side Cryopump 4083 205 Figure 1 4 Item A Cover Right Side Cryopump 4083 206 Figure 1 4 Item B Extension Cap EverCool systems 4083 234 Figure 2 7 Sample Space Plug 4083 059 Figure 1 4 Item C Sample Chamber Baffle Assembly 4078 113 Figure 1 5 Blank Plate Weldment 4078 105 Figure 1 5 Item A Contact Baffle Assembly 4083 010 Figure 1 5 Item B Cryopump Cable Assembly 3083 308 Figure 1 6 Expansion Circuit Board 3076 015 Figure 1 7 Port Expansion Box 4076 060 Figure 2 3 Auxspare to Expansion Boa
50. s high vacuum when the pressure has stabilized at its minimum value The isolation solenoid is normally closed The system opens it when the PPMS sample space is pumped on or vented When the chamber has been purged the system closes the isolation solenoid again PRESSURE GAGE gt SAMPLE wA CHAMBER SAMPLE a ACCESS ISOLATION u VALVE LARGE ORIFICE FLAPPER VALVE TO PPMS VACUUM SYSTEM I i PPMS TOP PLATE SAMPLE CHAMBER Figure 1 1 Cryopump assembly 1 2 2 Pump Regeneration Because of the limited capacity of a sorption pump it is necessary to periodically regenerate the pump in the cryopump system by heating it to liberate the adsorbed helium gas Typically the system only needs an in dewar regeneration The in dewar regeneration procedure takes a brief amount of time and is automated through the use of a heater attached to the sorption pump However it is important to note that you must manually initiate the regeneration by using the front panel of the Model 6000 PPMS Controller or the PPMS MultiVu software Usually the system operates many weeks or months without requiring a regeneration of the pump The actual time between regeneration operations depends on the number of chamber operations and the amount of water vapor allowed into the sample chamber Occasionally it will be necessary to perform an out of dewar regeneration in which the entire cryopump assembly is removed f
51. ses well vented rooms with high ceilings generally provide the safest setting for working with it 1 4 3 Electricity WARNING The PPMS is powered by nominal voltages between 100 V to 240 V AC These voltages are potentially lethal so you should exercise appropriate care before opening any of the electronics units including turning off the equipment and disconnecting it from its power source Y Turn off and unplug all electronic equipment before removing any equipment covers Keep electrical cords in good working condition and replace frayed and damaged cords Y Keep liquids away from the workstations 1 8 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 1 Introduction 1 5 Section 1 5 Contacting Quantum Design Contacting Quantum Design If you have trouble with your PPMS or Cryopump option please contact your local Quantum Design service representative for assistance Your service representative will ask you to describe the problem the circumstances involved and the recent history of your system United States Quantum Design World Headquarters 6325 Lusk Boulevard San Diego CA 92121 Tel 1 858 481 4400 1 800 289 6996 Fax 1 858 481 7410 Email service qdusa com Web http www qdusa com Service for Canada Mexico the United States and other countries not listed below Europe L O T Gmbh amp Co KG Im Tiefen See 58 D 64293 Darmsta
52. tab 12 Select High Vacuum to enable the Cryopump option and then wait until the pump is at normal operation and the sample chamber status is at HiVac The mouse pointer appears again when the pump is at normal operation and the chamber status is at HiVac After the Cryopump option is enabled select Next to open the Step 6 tab 13 Press the CAL button on the pressure gauge until you feel the button engage After you press the CAL button select Exit to close the HiVac Pressure Gauge Calibration dialog box 14 Select OK 15 For gauge 4083 350 Verify the correct gauge by noting the large blue Q logo on the gauge the right offset LED display and the recessed bolts on top This gauge has a factory calibration It has been calibrated in Helium No further calibration is necessary If one wishes to use a different gas in the system the gauge can be recalibrated for this gas Or one may wish to simply recalibrate the gauge The steps for calibration are as follows and may be done out of order a At atmospheric pressure 760 Torr press and hold the mode button for 3 seconds The display will flash all leds on if successful b At purged state must be 5 15 Torr as read on gauge press and hold the mode button for 3 seconds The display will flash all leds on if successful c At High Vacuum state le 5 Torr press and hold the mode button for 3 seconds The display will flash all leds on if successful In order to reset the ga
53. te the following steps to install the EPROMs Quantum Design PPMS Cryopump User s Manual Rev C 2 2 3 June 2005 Section 2 2 Chapter 2 Installing the Cryopump Installation and Removal 1 Back up the ROM configuration information by running the ROM configuration utility as follows Fal a Double click on the PPMS 32 bit Tools icon PPMS pii on the PC desktop Tools b Run the Romcfg32 utility Figure 2 2 PPMS 32 bit Tools icon c Select the Diag all Configs including above check box d Select the Read Configuration button e Specify a file name for the configuration you are saving and select OK f Wait for the program status at the bottom left corner of the screen to change from reading to idle 2 Tum off power to the Model 6000 3 Remove the power cord from the Model 6000 4 Remove the lid from the PPMS electronics cabinet 5 Remove the lid from the Model 6000 6 Locate the CPU board When you face the front of the electronics cabinet the CPU board is the board the furthest to the left and it has the GPIB connected at its back 7 Remove the two EPROMs from the CPU board 8 Install the two new EPROMs into the CPU board 9 Keep the power disconnected from the Model 6000 2 2 4 Install the Expansion Circuit Board CAUTION Work carefully while the cover is off the top of the Model 6000 PPMS Controller and avoid dropping hardware inside the unit If hardware is dropped inside the Mode
54. the sheet metal housing for the PPMS top plate assembly These components should be in the cryopump accessories box Use a 5 32 inch hex Allen key to unscrew the four 10 32 screws from the cryopump manifold Keep the screws in a safe place you use them to reinstall the standard PPMS top plate Vent the system continuously Remove the screws in the cryopump sheet metal side panels and then remove the side panels Remove any inserted probe or baffle set Slowly pull the entire cryopump assembly straight up and out of the cold bath Removing the cryopump slowly helps avoid damaging it by allowing it to heat up from the top slowly thus boiling off any nitrogen condensed inside the cryopump Do not move the cryopump any angle or the tube will bend Sometimes the o ring may freeze as you lift the cryopump straight out of the dewar and the tube will stick If this occurs do not force the pump to move as it may jolt upward and you may hurt yourself and damage the tube Wait approximately one minute until the pump can move freely then continue to lift it straight out Let the cryopump warm to room temperature Insert the blank plate part number 4078 092 into the dewar opening Refer to figure 2 7 Install the standard PPMS top plate assembly Use the four screws to attach the top plate assembly to the PPMS probe Disconnect the sample chamber pumpout line from the cryopump and plug it into the standard port on the back of the PPMS probe he
55. tiVu Double click on Execute Commands which is in the Advanced subgroup in the Sequence Commands bar When the Execute Commands dialog box opens enter CRYOREG 0 in the text box and click on the OK button to insert the command into the sequence 3 Allow the charcoal to cool back down to helium temperatures before entering high vacuum again The time required for the charcoal to cool depends on the amount of helium in the dewar You should wait at least 10 minutes before entering high vacuum but you might need to wait up to half an hour Note that the charcoal continues to cool whether the flapper valve is open or closed Section 4 3 contains detailed instructions for performing an out of dewar regeneration As is explained there the process includes removing the cryopump from the PPMS probe An out of dewar regeneration could become necessary if the cryopump has been accidentally exposed to air while it is in the high vacuum mode or if the system is routinely operated in a humid environment in which water often condenses on the probe and baffles 3 3 Using the Wait Sequence Command If you are using the cryopump as part of a sequence that requires a high vacuum state you can use the Wait sequence command to delay operations until the high vacuum state has been reached 3 4 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 3 Operation Section 3 3 Using the Wait Sequence Command T
56. ts e g the Helium 3 insert are warm and dry before you insert them into the sample chamber and always purge the sample chamber after you insert a puck or probe and before you initiate high vacuum These practices all restrict the amount of moisture to which the sample chamber is exposed Instructions for the out of dewar regeneration are given in Sections 4 3 1 through 4 3 3 WARNING Always wear protective clothing including thermal gloves eye protection and covered shoes when you install or remove the cryopump from the dewar or when you work with liquid helium liquid nitrogen or any other cryogen For more information about cryogenic safety refer to the Physical Property Measurement System Hardware Manual Remove the Cryopump from the Dewar Set the PPMS system temperature to 320 K 2 Use a 5 32 inch hex Allen key to unscrew the four 10 32 screws from the cryopump manifold Keep the screws in a safe place you use them to reinstall the standard PPMS top plate 3 Vent the system continuously 4 Remove the screws in the cryopump sheet metal side panels and then remove the side panels 5 Remove any probe or baffle set 6 Slowly pull the entire cryopump assembly straight up and out of the cold bath When you remove the cryopump slowly you help prevent damage to it by allowing it to heat up slowly from the top This method boils off any nitrogen that has condensed inside it PPMS Cryopump Use
57. u want to reduce the amount of boil off 2 Continue inserting the cryopump until the four 10 32 screws that hold down the cryopump manifold can be inserted and tightened Use a 5 32 inch hex Allen key to tighten the screws very well so that they compress the O ring on the sample chamber 3 Assembly the sample chamber baffle assembly part numbers 4078 113 4078 105 4083 010 and insert the baffle assembly into the top opening of the sample chamber Figure 2 9 shows the dewar with the cryopump installed 2 10 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 2 Section 2 2 Installation and Removal Installing the Cryopump Figure 2 9 Cryopump installed in PPMS 4 Purge the system 5 After you install the cryopump let the system stabilize for 30 minutes before you proceed While you are waiting you can put the parts you used to install the cryopump back in the accessories box Important The charcoal must be cool before the system can enter high vacuum 6 Verify that the temperature of the sample chamber is 300 K or greater 7 Verify that the sample chamber is closed 8 Verify that the pressure gauge has been powered up for at least 30 minutes Important To obtain accurate results the pressure gauge must be powered up for at least 30 minutes before you use it Although you can run the calibration before the pressure gauge is warm the test results will be suspect 9 You can now put th
58. uge to the factory default calibration a Press and hold the mode button for more than 10 seconds The display will flash all leds on if successful 2 12 PPMS Cryopump User s Manual Rev C 2 Quantum Design June 2005 Chapter 2 Section 2 2 Installation and Removal Installing the Cryopump 16 Back up the system ROM configuration to a cfg file as follows a double click on the PPMS 32 bit Tools icon on the PC desktop b run the Romcfg32 utility c select the Diag all Configs including above check box d select the Read Configuration button e specify a file name for the configuration you are saving and then f select OK Quantum Design PPMS Cryopump User s Manual Rev C 2 2 13 June 2005 Section 2 4 Chapter 2 Reinstalling the Cryopump Installation and Removal 2 3 Warning Caution E Be NOT 2 14 Removing the Cryopump Always wear protective clothing including thermal gloves eye protection and covered shoes when you install or remove the cryopump from the dewar or when you work with liquid helium liquid nitrogen or any other cryogen For more information about cryogenic safety refer to the Physical Property Measurement System Hardware Manual Complete the following steps to remove the cryopump from the PPMS and reinstall the standard PPMS top plate assembly A DN E 10 11 12 Set the PPMS system temperature to 320 K Locate the blank plate the PPMS top plate assembly and
59. ump by the tube because the head is heavy and the tube is thin so the tube can be easily bent and damaged If the tube is bent you will not be able to insert it into the dewar 1 Remove the cryopump system from the packing crate 2 Verify that you have received all system components Table 1 1 lists the major hardware components that are shipped with the cryopump 3 Run the Heater Continuity Diagnostic Test to verify that the regeneration heater was not damaged during shipping If the system does not pass this test contact Quantum Design Heater Continuity Diagnostic Test At room temperature check continuity between Pins 7 and 8 on the green Lemo connector The value should be 100 0250 Then check Pin 7 to ground chassis for infinite resistance and Pin 8 to ground for the same refer to the cryopump wiring diagram in Section 4 4 of this manual 2 2 2 Prepare for Installation Set the PPMS system temperature to 320 K Vent the system continuously Put the system in standby mode eee LA ee Install any software that accompanied the Cryopump option To install the software run setup exe from the installation disk s The Cryopump option requires PPMS MultiVu version 1 2 or later in order to take full advantage of the cryopump features 2 2 3 Power Down and Change the EPROMs If you received new EPROMs you must install them in the Model 6000 PPMS Controller The Cryopump option requires EPROMs version 1 80 or later Comple
60. umpout fixture and the O ring seal Note that you only need to insert the screws into the top plate you do not need to torque them down Quantum Design PPMS Cryopump User s Manual Rev C 2 4 5 June 2005 Section 4 3 Chapter 4 Out of Dewar Regeneration Procedure Troubleshooting and Maintenance 4 3 3 Re Install the Cryopump Vent the system continuously 2 Remove the two Phillips head screws that attach the blank plate part number 4078 092 to the dewar opening refer to Figure 2 7 You can store the screws in the accessories box 3 Use the plug removal tool which is the long screw in the middle of the blank plate to remove the blank plate from the opening to the dewar The plug covers the opening through which the cryopump pumping tube penetrates into the dewar 4 Slowly and carefully slide the cryopump pumping tube into the opening to the dewar continuing until you can screw down the cryopump CAUTION Handle the cryopump carefully by holding the head with two hands Use your finger to put a small mount of vacuum grease on the inside surface of the O ring It is not necessary to remove the O ring Carefully insert the tube straight into the dewar Inserting it at an angle can cause the thin tube to bend which will prevent the cryopump from working 5 Use a 5 32 inch hex Allen key to install the four 10 32 screws that hold down the cryopump manifold It is important to tighten these screws firmly so that they compress t
61. uses a charcoal sorption pump maintained at liquid helium temperatures as the active pumping element The sorption pump is located at the bottom of a stainless steel tube that penetrates through the top plate of the PPMS probe into the belly of the helium dewar see Figure 1 1 The cold helium gas and liquid in the dewar provide the cooling During routine sample chamber operations that is pumping venting sealing and purging the sorption pump is always cold and pumping The cryopump uses a large orifice flapper valve located on the PPMS top plate to isolate the sorption pump from the sample chamber during non high vacuum chamber operations A smaller isolation solenoid valve also located in the top plate assembly isolates the sample chamber from the Model 6000 pumping line Quantum Design PPMS Cryopump User s Manual Rev C 2 1 1 June 2005 Section 1 2 Chapter 1 Theory of Operation Introduction When the system receives a high vacuum request and it is in the proper state 1 e the sample chamber has been vented the isolation solenoid has been opened and the sample space has been pumped out by using the Model 6000 pumping line it automatically performs the following operations When the pressure is below about 10 Torr 1 kP the system closes the isolation solenoid and opens the large flapper valve thus exposing the sample chamber to the sorption pump The system monitors the pressure after the chamber has been exposed and indicate
62. yopump User s Manual Rev C 2 Quantum Design June 2005 Contents Table of Figures and Table of Tables Figures Figure 1 1 Figure 1 2 Figure 1 3 Figure 1 4 Figure 1 5 Figure 1 6 Figure 1 7 Figure 2 1 Figure 2 2 Figure 2 3 Figure 2 4 Figure 2 5 Figure 2 6 Figure 2 7 Figure 2 8 Figure 2 9 Figure 3 1 Figure 3 2 Figure 3 3 Figure 3 4 Figure 4 1 Cryopump assembly ci en Raten ask en Miia he ats aA at 1 2 Cryopump head assembly and pumping tube nn sss 1 4 Pumpout fixture and blanking plate cececceseceseesceeeeeseeeceeeeceeceecnsecesecesecnaecaecnseeaeeeaes 1 4 Exploded view of installed cryopump ccccesccescessecsseeeeeseeeseececeeeeeseceseeeeeeereneeneeneenaeenaes 1 5 Sample chamber baffle assembly with contact baffle 1 5 Cryopump Cable 000 e al 1 5 Expansion circuit board and enhanced user bridge board in Model 6000 1 6 Accessories box for the Cryopump High Vacuum option csccesccesecsteceeeeneeeseeeeeeeeeenseess 2 2 PPMS32 Dif A A a S SSS een abe Dun Some 2 4 Installing the expansion circuit board in the Model 6000 a 2 5 POr Expanded 2 6 Cryopump connection diagram sorene nono nonn nono non ron n rro rro n rro n nro r nn nr nennen E 2 7 Cryopump Cable muii di RS usya 2 7 Exploded view of pumpout fixture and
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