Home

Agilent 1290 Infinity Multisampler

image

Contents

1. p n 01046 60201 Wire Color Pin Agilent SignalName Active module TTL White 1 Digital ground A o 1 oo Brown 2 Prepare run Low 00 p KEY Gray 3 Start Low oo o0 S H Blue 4 Shut down Low am Pink 5 Not oo connected 5 5 15 Q Yellow 6 Power on High Red 7 Ready High Green 8 Stop Low Black 9 Start request Low 1290 Infinity M ultisampler User M anual 193 11 Identifying Cables CAN LAN Cables Both ends of this cable provide a modular plug to be connected to Agilent modules CAN or LAN connectors CAN Cables p n Description 5181 1516 CAN cable Agilent module to module 0 5 m 5181 1519 CAN cable Agilent module to module 1 m LAN Cables p n Description 5023 0203 Cross over network cable shielded 3 m for point to point connection 5023 0202 Twisted pair network cable shielded 7 m for point to point connection 194 1290 Infinity M ultisampler User M anual Agilent M odule to PC p n G1530 60600 RS232 61601 5181 1561 Description RS 232 cable 2m RS 232 cable 2 5m Identifying Cables 11 Instrument to PC 9 to 9 pin female This cable has special pin out and is not compatible with connecting printers and plotters It s also called Null Modem Cable with full handshaking where the wiring is made between pins 1 1 2 3 3 2 4 6 5 5 6 4 7 8 8 7 9 9 RS 232 cable 8m 1290 Infinity M ultisampler User M anual 195 11 Identifying Cable
2. Multisampler Base plate Figure9 Leak and waste handling with multisampler in a mixed configuration as an example two stack configuration NOTE Do not place the multisampler directly on the bench Install Base plate G1328 44121 underneath 22 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual 2 Site Requirements and Specifications Site Requirements 24 Physical Specifications 28 Performance Specifications 29 Physical Specifications of the Sample Cooler 32 This chapter provides information on environmental requirements physical and performance specifications ee Agilent Technologies 23 2 Site Requirements and Specifications Site Requirements A suitable environment is important to ensure optimal performance of the instrument Power Considerations The module power supply has wide ranging capability It accepts any line voltage in the range described in Table 1 on page 28 Consequently there is no voltage selector in the rear of the module There are also no externally accessible fuses because automatic electronic fuses are implemented in the power supply WARNING Hazard of electrical shock or damage of your instrumentation can result if the devices are connected to a line voltage higher than specified gt Connect your instrument to the specified line voltage only WARNING The module is partially energized when switched off
3. 4 Use the twist and lock bayonet mechanims to reassemble the analytical head assembly Push the two parts together to couple the head body with the analytical head Once the pin reaches the bottom of the slot one or both parts are rotated so that the pin slides along the horizontal arm of the L until it reaches the serif The spring then pushes the male connector up into the serif to keep the pin locked into place 5 Press the piston carefully into the housing of the head body and the seal 6 Reinstall the complete analytical head with the actuator housing 136 1290 Infinity M ultisampler User M anual Maintenance Install the M etering Seal 9 7 Fixthe analytical head by pushing 1 and rotating 2 via twist and lock bayonet mechanism 8 Reconnect the capillaries 1290 Infinity M ultisampler User M anual 137 9 Maintenance 9 Close the front door In the Instant Pilot exit the maintenance mode and select Change metering device function OR In Agilent Lab Advisor software system screen exit Service amp Diagnostics Tools gt Maintenance Positions gt Change M etering Device click End and wait until the metering device is in Home position 10 Perform a pressure test 138 1290 Infinity M ultisampler User M anual Maintenance 9 Replace the Peristaltic Pump Cartridge When Tools required Parts required OR Pre
4. Toxic flammable and hazardous solvents samples and reagents The handling of solvents samples and reagents can hold health and safety risks gt When working with these substances observe appropriate safety procedures for example by wearing goggles safety gloves and protective clothing as described in the material handling and safety data sheet supplied by the vendor and follow good laboratory practice It is recommended to always exchange the needle assembly and the needle seat at the same time to prevent premature leakage 1290 Infinity M ultisampler User M anual 119 9 Maintenance Remove the Needle Assemb y 1 Inthe Instant Pilot start the maintenance mode and select Change needle seat function OR In the Agilent Lab Advisor software select Service amp Diagnostics in the system screen Tools Maintenance Positions gt Change Needle Loop click Start and wait until the needle assembly is in maintenance position 2 Open the front door Sharp needle Uncovered needles may cause injuries gt Do not unlock the saftey lock of needle assembly 3 Remove the needle assembly by slightly pulling the needle cartridge ry 120 1290 Infinity M ultisampler User M anual Maintenance 9 Remove the Needle Assembly CAUTION Damage of the loop The loop shape may be damaged if the loop is stretched or bent too far gt Avoid to change the loop shape gt Do not pull or b
5. gt Do not pull or bend the loop too far 4 Remove the needle assembly by slightly pulling the needle cartridge Uncovered needles may cause injuries gt Do not unlock the saftey lock of needle assembly 5 The needle assembly is still connected to the loop capillary Use a 1 4 inch wrench to loosen the fitting of the loop capillary 6 Remove the cartridge out of it proper position By gently tilting and pulling it out of the work space of the multisampler 146 1290 Infinity M ultisampler User M anual Maintenance 9 Installing the Sample Loop Flex When If the sample loop flex is defective or damaged Tools required p n Description 8710 0510 Wrench open 1 4 5 16 inch Parts required p n Description 64267 60300 Sample Loop Flex 20 uL right red coded 64267 60400 Sample Loop Flex 40 uL right green coded G4267 60500 Sample Loop Flex 100 uL right blue coded Preparations Finish any pending acquisition job and return any plate on the workspace back to the hotel WARNING Risk of injury by uncovered needle An uncovered needle is a risk of harm to the operator gt Do not open the safety lock of the needle assembly gt Be careful working at the z robot gt Wear safety goggles when removing the needle assembly 1 Take the new sample loop flex and install the shorter capillary of the sample loop to the analytical head 2 Click the sample loop cartridge in the designated location and keep the rig
6. Error Information 7 Leak Error ID 0064 A leak was detected in the module The signals from the two temperature sensors leak sensor and board mounted temperature compensation sensor are used by the leak algorithm to determine whether a leak is present When a leak occurs the leak sensor is cooled by the solvent This changes the resistance of the leak sensor which is sensed by the leak sensor circuit on the main board Probable cause Suggested actions 1 Loose fittings Ensure all fittings are tight 2 Broken capillary Exchange defective capillaries Open Cover Error ID 0205 The top foam has been removed Probable cause Suggested actions 1 Foam not activating the sensor Please contact your Agilent service representative 2 Defective sensor or main board Please contact your Agilent service representative 1290 Infinity M ultisampler User M anual 105 7 Error Information General Error Messages 106 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User Manual r e e e ee 8 70 Test Functions e e Tests and Calibrations in Agilent Lab Advisor This chapter describes the built in test functions Agilent Technologies 108 107 8 Test Functions Tests and Calibrations in Agilent Lab Advisor Use the tests and diagnostic features provided in the Agilent Lab Advisor software to check if your module is working correctly For further details refer to the Agile
7. 1290 Infinity M ultisampler User M anual UsingtheModule 3 Insert vial trays wellplates Insert vial trays wellplates 3 4 Ensure correct seat and orientation of vial trays wellplates 1290 Infinity M ultisampler User M anual 43 3 Using the Module Insert vial trays wellplates 44 1290 Infinity M ultisampler User M anual 3 Using the Module Remove vial trays wellplates Remove vial trays wellplates 45 1290 Infinity M ultisampler User M anual 3 Using the Module Installing the Sample Cooler Damaged Packaging If the delivery packaging shows signs of external damage please call your Agilent Technologies sales and service office immediately Inform your service representative that the instrument may have been damaged during shipment CAUTION Defective on arrival problems If there are signs of damage please do not attempt to install the module Inspection by Agilent is required to evaluate if the instrument is in good condition or damaged gt Notify your Agilent sales and service office about the damage gt An Agilent service representative will inspect the instrument at your site and initiate appropriate actions 46 1290 Infinity M ultisampler User M anual Using the Module Install the Sample Cooler Parts required p n G7167 60005 Description M ultisampler Sample cooler Power cord Hardware required Other cabl
8. Identifying Cables 11 5188 8044 ERI to ERI Connector D_Subminiature 15 pin Table 11 5188 8044 ERI to ERI p n 5188 8044 Pin ERI Signal Pin ERI cae 4 3 10 GND 10 4 31 Start Request 1 2 Stop 2 3 Ready 3 5 Poweron 5 4 Future 4 6 Shut Down 6 7 Start 7 8 Prepare 8 Ground Cable Shielding NC Connection 5188 8045 ERI to APG Connector D_Subminiature 15 pin ERD Connector D_Subminiature 9 pin APG p n 5188 8045 Pin ERI Signal Pin APG p e 10 GND 1 seul Start Request 9 2 Stop 8 3 Ready 7 5 Power on 6 4 Future 5 6 Shut Down 4 7 Start 3 8 Prepare 2 Ground Cable Shielding NC Connection 1290 Infinity M ultisampler User M anual 191 11 Identifying Cables One end of these cables provides a Agilent Technologies APG Analytical Products Group remote connector to be connected to Agilent modules The other end depends on the instrument to be connected to Agilent M odule to Agilent 35900 A D Converters p n 5061 3378 Pin 35900 Pin Agilent SignalName Active A D module TTL 1 White 1 White Digital ground 2 Brown 2 Brown Prepare run Low 3 Gray 3 Gray Start Low 4 Blue 4 Blue Shut down Low 5 Pink 5 Pink Not connected 6 Yellow 6 Yellow Power on High 7 Red 7 Red Ready High 8 Green 8 Green Stop Low 9 Black 9 Black Start request Low 192 1290 Infinity M ultisampler User M anual Agilent M odule to General Purpose Identifying Cables 11
9. Non condensing Operating altitude Non operating altitude Safety standards IEC CSA UL Up to 3000 m 9842 ft Up to 4600 m 15091 ft Installation category Il Pollution degree 2 For indoor use only 1290 Infinity M ultisampler User M anual Site Requirements and Specifications 2 CAUTION General hazards and improper disposal Improper disposal of the media and components used pollutes the environment gt The breakdown of the sample cooler unit must be carried out by specialist refrigeration company gt All media must be disposed of in accordance with national and local regulations gt Please contact your local Agilent Service Center in regard to safe environmental disposal of the appliance Table4 Performance Specifications Agilent 1290 Sample Cooler Type Specifications Temperature range Settable from 4 40 C in 1 increments Temperature accuracy lt 25 C lt 50 rH 2 C to 6 C at a setpoint of 4 C Temperature accuracy at ambient temperatures 2 C to 8 C at a setpoint of 4 C and humidity lt 60 Temperature Stability t 1 C 1290 Infinity M ultisampler User M anual 33 2 Site Requirements and Specifications Physical Specifications of the Sample Cooler 34 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual 3 Using the Module Magnets 36 Turn on off 40 Status indicators 41 Power Supply Indicator 41 Module Status Indicator 41 Draw
10. as long as the power cord is plugged in Repair work at the module can lead to personal injuries e g electrical shock when the cover is opened and the module is connected to power gt Always unplug the power cable before opening the cover gt Do not connect the power cable to the instrument while the covers are removed 24 1290 Infinity M ultisampler User M anual CAUTION Site Requirements and Specifications 2 Inaccessible power plug In case of emergency it must be possible to disconnect the instrument from the power line at any time gt Make sure the power connector of the instrument can be easily reached and unplugged gt Provide sufficient space behind the power socket of the instrument to unplug the cable Power Cords Different power cords are offered as options with the module The female end of all power cords is identical It plugs into the power input socket at the rear The male end of each power cord is different and designed to match the wall socket of a particular country or region Absence of ground connection or use of unspecified power cord The absence of ground connection or the use of unspecified power cord can lead to electric shock or short circuit gt Never operate your instrumentation from a power outlet that has no ground connection gt Never use a power cord other than the Agilent Technologies power cord designed for your region Use of unsupplied cables Using ca
11. installing sample loop flex 147 instrument layout 214 interfaces 95 Infinity Il 204 internet 234 L LAN cable 194 configuration 217 environment 218 setup 218 leaksensoropen 103 leak sensor short 102 leak 105 line frequency 28 line voltage 28 lost CAN partner 102 M maintenance feedback 215 overview 168 114 replacing firmware 165 message ignition without cover 105 105 remote timeout 101 236 metering seal install 135 remove 131 method parameter settings 69 module firmware replace 165 module configuration 71 overview 12 multisampler transport 53 N needle assembly installation 122 remove 119 needle port assembly 180 needle seat exchange 125 non operating altitude 28 non operating temperature 28 0 operating Altitude 28 operating temperature 28 optimization achieving higher resolution achieving higher sensitivity column use 86 overview cable 186 module 12 P packaging damaged 46 physical specifications 28 power consideration 24 86 power consumption 28 powercords 25 power supply indicator 41 93 principle 14 R radio interference 231 remote cables 190 removing sample loop flex 145 repairs replacing firmware 165 resolution Optimization 83 rotor seal replace 127 RS 232C cable 195 S safety class 222 safety general information 222 standards 28 symbols 226 sample cooler 184 installation 47 install 162 power supply fuses 159 remove 161 sam
12. main 169 assembly door 181 needle port 180 B bench space 26 C cable CAN 194 LAN 194 overview 186 RS 232 195 cables analog 188 remote 190 CAN cable 194 cleaning 115 compensation sensor open 103 compensation sensor short 104 condensation 26 configuration module 71 options 149 control settings 68 D defect on arrival 46 delay volume description 74 dimensions 28 door assembly 181 doors installation 116 removal 116 drawer upgrade installation 151 drawer status indicator 42 94 electrical connections descriptions of 201 electronic waste 228 EM F early maintenance feedback 215 error messages compensation sensoropen 103 compensation sensor short 104 1290 Infinity M ultisampler User M anual Index fan failed 104 ignition without cover 105 105 leak sensor open 103 leak sensor short 102 leak 105 lost CAN partner 102 remote timeout 101 shutdown 100 timeout 99 extra column volume 74 F fan failed 104 features 10 firmware description 198 main system 198 resident system 198 update tool 199 updates 198 165 upgrade downgrade 165 flushhead 176 frequency range 28 G general error messages 99 H hotel drawer configure in control software 156 configure in Lab Advisor 158 hotel drawer 171 humidity 28 235 Index indicator drawerstatus 42 94 indicators status 93 41 injection valve actuator 179 installation bench space 26 sample cooler 47 upgrade drawer 151
13. prepare and so on With the appropriate software the LAN connector may be used to control the module from a computer through a LAN connection This connector is activated and can be configured with the configuration switch With the appropriate software the USB connector may be used to control the module from a computer through a USB connection The power input socket accepts a line voltage of 100 240 VAC 10 with a line frequency of 50 or 60 Hz Maximum power consumption varies by module There is no voltage selector on your module because the power supply has wide ranging capability There are no externally accessible fuses because automatic electronic fuses are implemented in the power supply Never use cables other than the ones supplied by Agilent Technologies to ensure proper functionality and compliance with safety or EM C regulations 1290 Infinity M ultisampler User M anual 201 12 Hardware Information Electrical Connections Rear view of the module HO o a cree en OO t Se ew A gt oe ene a gt orm T 6S oe oD ee aa y n r m Figure 42 Rear view of detector example shows a G7114A B VW D electrical connections and label 202 1290 Infinity M ultisampler User M anual Hardware Information 12 Information on Instrument Serial Number Serial Number Information 1200 Series and 1290 Infinity The serial number information on the instrument labels provide the following informatio
14. pump cartridge Change rotor seal 30000 injections 114 1290 Infinity M ultisampler User M anual Maintenance 9 Clean the Module To keep the module case clean use a soft cloth slightly dampened with water or a solution of water and mild detergent WARNING Liquid dripping into the electronic compartment of your module can cause shock hazard and damage the module gt Do not use an excessively damp cloth during cleaning gt Drain all solvent lines before opening any connections in the flow path 1290 Infinity M ultisampler User M anual 115 9 Maintenance Removal and Installation of the Front Door When Tools required Parts required Preparations CAUTION If the front door is defective or the hinge are damaged Description Flat screwdriver p n Description 5067 5415 Door Assy IF 320 Right Finish any pending acquisition job and return any plate on the workspace back to the hotel For detailed information on position of the magnets refer to Magnets on page 36 Magnetic fields Magnets produce a far reaching strong magnetic field You can damage for example televisions laptops computer harddisks credit cards magnetic cards may be damaged as well gt Keep magnets at least 25 mm away from devices and objects that could be damaged by strong magnetic fields Heart pacemakers Magnets may derogate the function of heart pacemakers and implanted defibrillators Heart pacemakers may sw
15. 13 February 2003 is introducing producer responsibility on all electric and electronic appliances starting with 13 August 2005 This product complies with the WEEE Directive 2002 96 EC marking requirements The affixed label indicates that you must not discard this electrical electronic product in domestic household waste Product Category With reference to the equipment types in the WEEE Directive Annex this product is classed as a Monitoring and Control Instrumentation product s Do not dispose off in domestic household waste To return unwanted products contact your local Agilent office or see www agilent com for more information 228 1290 Infinity M ultisampler User M anual Appendix 14 Refrigerant Table 17 Physical properties of refrigerant HFKW 134a Molecular weight 102 Critical temperature 101 1 C Critical pressure 40 6 bar Boiling point 26 5 C 1290 Infinity M ultisampler User M anual 229 14 Appendix Refrigerant te Refrigerant HFKW 134a is known as a Safe refrigerant however accidents can occur if it is handled incorrectly For this reason the following instructions must be observed gt Avoid contact with liquid refrigerant HFKW 134a At atmospheric pressure HFKW 134a evaporates at approximately 26 C and causes frost bite gt After skin contact rinse the affected area with water gt After eye contact rinse the eye s with plenty of water for at least 15 minutes and consult a
16. 1H 2 p k including 2 G4267 60206 Sample Container 2 G7167 60020 Drawer 2H including 2 G4267 60205 Sample Container 3 G7167 60022 Drawer 3H 2 p k including 2 G4267 60205 Sample Container G4267 60024 Dummy Drawer not shown i 1 AAAA eA E pce Figure 29 Hotel drawer 1290 Infinity M ultisampler User M anual 171 10 Parts for Maintenance and Upgrade or Options Analytical Head Assembly 40 pL Analytical Head Assembly 40 pL ltem p n G4267 60042 G4267 60423 G4267 60432 G4267 60422 0905 1717 5067 5920 0515 4384 a A WUU N e Description Analytical Head 40 uL Head Assembly 40 uL Spring Adapter Assembly Seal Support Assembly 40 uL M etering seal 40 uL Piston ceramic Screw Figure 30 Analytical head assembly 40 uL 172 1290 Infinity M ultisampler User M anual Parts for Maintenance and Upgrade or Options 10 Analytical Head Assembly 100 pL Analytical Head Assembly 100 uL ltem p n G4267 60043 G4267 60433 G4267 60432 G4267 60434 0905 1719 5067 5678 0515 1052 a A WUU N e Description Analytical Head 100 uL Head Assembly 100 uL Spring Adapter Assembly Seal Support Assembly 100 uL M etering seal 100 uL Piston 1290 Infinity Pumps ceramic Screw 2 5 mm hex Figure31 Analytical head assembly 100 uL 1290 Infinity M ultisampler User M anual 173 10 Parts for Maintenance and Upgrade or Options Analytical Head Assembly 900 uL 174 Item no
17. If test and measurement equipment is operated with equipment unscreened cables and or used for measurements on open set ups the user has to assure that under operating conditions the radio interference limits are still met within the premises Radio Interference Cables supplied by Agilent Technologies are screened to provide optimized protection against radio interference All cables are in compliance with safety or EMC regulations Test and Measurement If test and measurement equipment is operated with unscreened cables or used for measurements on open set ups the user has to assure that under operating conditions the radio interference limits are still met within the premises 1290 Infinity M ultisampler User M anual 231 14 Appendix Sound Emission 232 Manufacturer s Declaration This statement is provided to comply with the requirements of the German Sound Emission Directive of 18 January 1991 This product has a sound pressure emission at the operator position lt 70 dB Sound Pressure Lp lt 70 dB A At Operator Position Normal Operation e According to ISO 7779 1988 EN 27779 1991 Type Test 1290 Infinity M ultisampler User M anual Appendix 14 Solvent Information Observe the following recommendations on the use of solvents Brown glass ware can avoid growth of algae e Avoid the use of the following steel corrosive solvents Solutions of alkali halides and their respective acids for
18. M ultisampler User M anual 133 9 Maintenance Remove the Metering Seal 11 Carefully remove the metering seal using the steel side of the insert tool Clean the chamber with an appropriate solvent and ensure that all particulate matter is removed 134 1290 Infinity M ultisampler User M anual Maintenance 9 ins ta the N etering 3 a Install the Metering Seal When After removing the metering seal Tools required p n Description 8710 0510 Wrench open 1 4 5 16 inch 8710 2392 4mm Hex key 01018 23702 Insert tool Cleaning tissue and appropriate solvent like isopropanol or methanol Parts required p n Description 1 0905 1717 Metering seal for 40 uL analytical head 1 0905 1719 Metering seal 100 uL for 100 uL analytical head 1 5067 5920 Piston ceramic If previous piston is scratched Preparations Removing the metering seal see Remove the Metering Seal on page 131 1 Install the new metering seal using the plastic side of the 2 Reassemble the support ring insert tool Press it firmly into position Avoid any offset angle as it might deform the seal 1290 Infinity M ultisampler User M anual 135 9 Maintenance Install the Metering Seal 3 Make sure to comply to the following order of actions a Tighten the three screws fingerthight then b Tighten the screws alittle at a time to keep the Support ring surface parallel important to the surface of the analytical head
19. Replace the Rotor Seal 3 Use a 9 64 inch hex driver to unscrew the two socket screws which hold the stator head in place CAUTION Damage to the stator head The polished sealing surface of the stator head contains six ports that access handling can easily damage gt Avoid touching the polished surface of the stator head gt Never place the polished surface on a hard surface 4 Carefully remove the stator head To ensure that the sealing surface of the stator head is not damaged place it on its outer face 128 1290 Infinity M ultisampler User M anual Maintenance 9 Replace the Rotor Seal 5 Remove the rotor seal Remove the rotor seal with a small tool gently pry the rotor seal away from the drive Examine the rotor sealing surface for scratches and nicks e If scratches are visible the rotor seal must be replaced e Ifno scratches are visible clean all the parts with an appropriate solvent taking care that no surfaces get scratched CAUTION Damage to the rotor seal and cross port leaks gt Before you replace the rotor seal clean the stator gt Inspect the stator head and swab it with the appropriate solvent If more stringent cleaning is required use a sonicator Inspect the remaining valve components for contamination Clean them as necessary gt Ifthe stator head is scratched replace the valve 6 Install new rotor seal NOTE M ake sure tha
20. Resolution increases with the square root of N so doubling the length of the column will increase resolution by a factor of 1 4 What is achievable depends on the viscosity of the mobile phase as this relates directly to the pressure Methanol mixtures will generate more back pressure than acetonitrile mixtures Acetonitrile is often preferred because peak shapes are better and narrower in addition to the lower viscosity but methanol generally yields better selectivity certainly for small molecules less than about 500 Da The viscosity can be reduced by increasing the temperature but it should be remembered that this can change the selectivity of the separation Experiment will show if this leads to increase or decrease in selectivity As flow and pressure are increased it should be remembered that frictional heating inside the column will increase and that can lead to slightly increased dispersion and possibly a small selectivity change both of which could be seen as a reduction in resolution The latter case might be offset by reducing the temperature of the thermostat by a few degrees and again experiment will reveal the answer 1290 Infinity M ultisampler User M anual Optimizing Performance 5 The van Deemter curve shows that the optimum flow rate through an STM column is higher than for larger particles and is fairly flat as the flow rate increases Typical close to optimum flow rates for STM columns are 2 ml min for 4 6 mm i d and 0 4
21. START L Request to start run timetable Receiver is any module performing run time controlled activities 4 SHUT DOWN L System has serious problem for example leak stops pump Receiver is any module capable to reduce safety risk 5 Not used 6 POWER ON H All modules connected to system are switched on Receiver is any module relying on operation of others 7 READY H System is ready for next analysis Receiver is any sequence controller 8 STOP L Request to reach system ready state as soon as possible for example stop run abort or finish and stop injection Receiver is any module performing run time controlled activities 9 START REQUEST L Request to start injection cycle for example by start key on any module Receiver is the autosampler Special Interfaces There is no special interface for this module 208 1290 Infinity M ultisampler User M anual Hardware Information 12 Interfaces ERI Enhanced Remote Interface ERI replaces the AGP Remote Interface that is used in the HP 1090 1040 1050 1100 HPLC systems and Agilent 1100 1200 1200 Infinity HPLC modules All new 1200 Infinity 2 products Infinity Series II using the FUSION core electronics use ERI This interface is already used in the Agilent Universal Interface Box 2 UIB2 ERI Description The ERI interface contains eight individual programmable input output pins In addition it provides 24 V power and 5 V power and a serial data line to detec
22. _layouts agilent downloadFirmware aspx w hid 69761 2 For loading the firmware into the module follow the instructions in the documentation Module Specific Information There is no specific information for this module 1290 Infinity M ultisampler User M anual 165 9 Maintenance Replace the Module Firmware 166 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual 10 Parts for Maintenance and Upgrade or Options Overview of Maintenance Parts 168 Sampler Main Assemblies 169 Hotel Drawer 171 Analytical Head Assembly 40 uL 172 Analytical Head Assembly 100 uL 173 Analytical Head Assembly 900 uL 174 Flush Head Assembly 500 uL 176 Injection Valve Assembly 178 Injection Valve with Actuator 179 Needle Port Assembly 180 DoorAssyIF 181 Accessory Kit 182 Tubing Kit Sampler Standard 183 Sample Cooler 184 This chapter provides information on parts material required for the module ee Agilent Technologies 167 10 Parts for Maintenance and Upgrade or Options Overview of Maintenance Parts 168 p n 0905 1717 0905 1719 5067 5918 5068 0007 64267 87201 64267 87012 64267 60300 64267 60400 64267 60500 5065 4445 Description Metering seal 40 uL Metering seal 100 uL Metering seal 500 uL Injection valve rotor seal Needle Assembly High Pressure Needle Seat 0 12 mm PEEK Sample Loop Flex 20 uL right red coded Sample Loop Flex 40 uL right green coded Sample Loop Flex 100 uL r
23. blue Idle green e Offline dark gray Standby light gray Injection Volume 0 00 pL Sample Location gt Multisampler gt EM F Status shows Run Ready Error state and Not a Ready text or Error text OXO idie B Offline gray Ok 0 00 uL No Maintenance required green a EMF warning Maintenance might be required yellow e EMF warning Maintenance required red Injection Volume 0 00 pL Sample Location 1290 Infinity M ultisampler User M anual 67 4 Preparing the module Setting up the Autosampler with Agilent Open Lab ChemS tation Control Settings These settings are available via right click on the Active Area of the ALS GUI Table 7 Control settings e Missing Vessel The handling of missing vessels can be configured Illumination Switch on off the internal illumination Linked Pump To configure which pump delivers flow to the Autosampler Prime Flush Pump Priming the Needle wash flush pump Work space Clear the workspace gt Immediately At the End of the Analysis and Never 68 1290 Infinity M ultisampler User M anual M ethod Parameter Settings These settings are available via Menu gt Instrument gt Set up Instrument M ethod Multisampler or via right click on the Active area The signal window in the lower part is not shown when opening the parameter settings via right mouse on the Multisampler user interface wa mssp iP Muttsempler G7167E B Fig
24. doctor gt HFKW 134a must not be allowed to escape in enclosed areas Although HFKW 134a is not toxic there is a danger of suffocation as gaseous refrigerant is heavier than air gt Please observe the following first aid instructions After inhalation move the affected person to fresh air keep him warm and allow him to rest If necessary he should be supplied with oxygen If he has stopped breathing or is breathing erratically he should be given artificial respiration In the case of cardiac arrest carry out heart massage Send for a doctor immediately gt Moreover it must be noted that HFKW 134a must always be extracted from the system and collected It must never be discharged into the atmosphere on environmental grounds greenhouse effect CAUTION General hazards and improper disposal Improper disposal of the media and components used pollutes the environment gt The breakdown of the sample cooler unit must be carried out by specialist refrigeration company gt All media must be disposed of in accordance with national and local regulations gt Please contact your local Agilent Service Center in regard to safe environmental disposal of the appliance 230 1290 Infinity M ultisampler User M anual Appendix 14 Radio Interference Never use cables other than the ones supplied by Agilent Technologies to ensure proper functionality and compliance with safety or EMC regulations Test and Measurement
25. example lithium iodide potassium chloride and so on High concentrations of inorganic acids like sulfuric acid and nitric acid especially at higher temperatures if your chromatography method allows replace by phosphoric acid or phosphate buffer which are less corrosive against stainless steel Halogenated solvents or mixtures which form radicals and or acids for example 2CHCly O gt gt 2COCly 2HCl This reaction in which stainless steel probably acts as a catalyst occurs quickly with dried chloroform if the drying process removes the stabilizing alcohol Chromatographic grade ethers which can contain peroxides for example THF dioxane di isopropyl ether such ethers should be filtered through dry aluminium oxide which adsorbs the peroxides Solvents containing strong complexing agents e g EDTA Mixtures of carbon tetrachloride with 2 propanol or THF 1290 Infinity M ultisampler User M anual 233 14 Appendix Agilent Technologies on Internet For the latest information on products and services visit our worldwide web site on the Internet at http www agilent com 234 1290 Infinity M ultisampler User M anual Index A accessory kit standard 182 Agilent Lab Advisor software 96 Agilent Lab Advisor 96 Agilent oninternet 234 algae 233 ambient non operating temperature 28 ambient operating temperature 28 analog signal 207 analytical head assembly 100 173 40 172 apg remote 207 assemblies
26. in this manual For details refer to the Agilent Lab Advisor software help files 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual e e r amp a e e e00 ee 7 209 Error Information o j What Are Error Messages 98 General Error Messages 99 Timeout 99 Shutdown 100 Remote Timeout 101 Lost CAN Partner 102 Leak Sensor Short 102 Leak SensorOpen 103 Compensation Sensor Open 103 Compensation Sensor Shot 104 Fan Failed 104 Leak 105 Open Cover 105 This chapter describes the meaning of error messages and provides information on probable causes and suggested actions how to recover from error conditions Agg Agilent Technologies 97 7 Error Information W hat Are Error Messages 98 Error messages are displayed in the user interface when an electronic mechanical or hydraulic flow path failure occurs which requires attention before the analysis can be continued for example repair or exchange of consumables is necessary In the event of such a failure the red status indicator at the front of the module is switched on and an entry is written into the module logbook If an error occurs outside a method run other modules will not be informed about this error If it occurs within a method run all connected modules will get a notification all LEDs get red and the run will be stopped Depending on the module type this stop is implemented differently For example
27. into the solvent channel Therefore priming and purging of the system is required before starting an application 1290 Infinity M ultisampler User M anual Preparing the module 4 Table5 Choice of Priming Solvents for Different Purposes Activity Solvent Comments After an installation Isopropanol Best solvent to flush air out of the system When switching between Isopropanol Best solvent to flush air out of reverse phase and normal the system phase both times After an installation Ethanol or methanol Alternative to isopropanol second choice if no isopropanol is available To clean the system when Bidistilled water Best solvent to re dissolve using buffers buffer crystals After a solvent change Bidistilled water Best solvent to re dissolve buffer crystals 1290 Infinity M ultisampler User M anual 59 4 Preparing the module Solvent Information 60 Observe the following recommendations on the use of solvents Follow recommendations for avoiding the growth of algae see pump manuals Small particles can permanently block capillaries and valves Therefore always filter solvents through 0 4 um filters Avoid or minimize the use of solvents that may corrode parts in the flow path Consider specifications for the pH range given for different materials like flow cells valve materials etc and recommendations in subsequent sections Recommended Wash Solvents water ethanol methanol water acid es
28. materials PEEK PEEK Polyether Ether Ketones combines excellent properties regarding biocompatibility chemical resistance mechanical and thermal stability PEEK is therefore the material of choice for UHPLC and biochemical instrumentation It is stable in a pH range between 1 12 and inert to many common solvents There is still a number of known incompatibilities with chemicals such as chloroform methylene chloride THF DMSO strong acids nitric acid gt 10 sulphuric acid gt 10 sulfonic acids trichloroacetic acid halogenes or aequous halogene solutions phenol and derivatives cresols salicylic acid etc Polyimide Agilent uses semi crystalline polyimide for rotor seals in valves and needle seats in autosamplers One supplier of polyimide is DuPont which brands polyimide as Vespel which is also used by Agilent Polyimide is stable in a pH range between 1 and 10 and in most organic solvents It is incompatible with concentrated mineral acids e g sulphuric acid glacial acetic acid DMSO and THF It is also degraded by nucleophilic substances like ammonia e g ammonium salts in basic conditions or acetates 1290 Infinity M ultisampler User M anual 61 4 62 Preparing the module Polyethylene PE Agilent uses UHMW ultra high molecular weight PE PTFE blends for yellow piston and wash seals which are used in 1290 Infinity pumps and for normal phase applications in 1260 Infinity pumps Polye
29. ml min for 2 1 mm i d columns In isocratic separations increasing the retention factor k results in better resolution because the solute is retained longer In gradient separations the retention is described by k in the following equation je ba F 100 A B V S m where k mean k value tg time length of gradient or segment of gradient min F flow ml min Vin column delay volume e A B change in fraction of solvent B during the gradient S constant ca 4 5 for small molecules This shows that k and hence resolution can be increased by having a shallower gradient 2 to 5 min change is a guideline higher flow rate and a smaller volume column This equation also shows how to speed up an existing gradient if the flow is doubled but the gradient time is halved k remains constant and the separation looks the same but happens in half the time Recently published research has shown how a shorter STM column at temperatures above 40 C can generate higher peak capacity than a longer STM column by virtue of running it faster Refer to Petersson et al JSep Sci 31 2346 2357 2008 Maximizing peak capacity and separation speed in liquid chromatography 1290 Infinity M ultisampler User M anual 85 5 Optimizing Performance How to Achieve Higher Sensitivity 86 The sensitivity of a separation method is linked to the choice of stationary and mobile phases as good separation with
30. of injection The question should be asked whether the gradient has already reached the autosampler in which case a small step in the gradient will result This happens when the delay volume is less than the flush out volume and is not necessarily a problem but may be a factor to be considered in a method transfer With a flush out factor of 5 and an injection volume of 10 ul the autosampler will allow 50 ul to pass through before switching to bypass which with a delay volume of 50 ul means the gradient just reached the injection valve Smaller injection volumes will have no effect but for larger injection volumes this will introduce a small step in the gradient The flow rate in use will also have an impact on the decision to use ADVR or not At 0 2 ml min the delay time saved is 21 seconds while at 1 0 ml min it is 4 seconds 1290 Infinity M ultisampler User M anual 77 5 Optimizing Performance The ADVR function is unlikely to be suitable for applications involving compounds which are known to cause carry over problems The best solution to reduce the delay volume is to install the 40 uL Analytical Head and the 20 uL Loop To get the best results it is also recommended to order the Low dispersion heat exchanger and the micro flow cell for UV This will reduce the the delay volume by 120 uL 78 1290 Infinity M ultisampler User M anual Optimizing Performance 5 How to Achieve Higher Injection Volumes The standard configuration of th
31. synchronization through APG remote error handling diagnostic functions or module specific functions like internal events such as lamp control filter movements raw data collection and conversion to absorbance Firmware Updates Firmware updates can be done using the following tools latest version should be used 1290 Infinity M ultisampler User M anual Hardware Information 12 Agilent Lab Advisor software with files on the hard disk Firmware Update Tool with local files on the hard disk Instant Pilot G4208A with files on a USB Flash Disk Required tools firmware and documentation are available from the Agilent web http www chem agilent com _layouts agilent downloadFirmware aspx whid 69761 The file naming conventions are PPPP_RVVV_XXX dlb where PPPP is the product number for example 1315B for the G1315B DAD R the firmware revision for example A for G1315B or B for the G1315C DAD VVV is the revision number for example 650 is revision 6 50 XXX is the build number of the firmware For instructions on firmware updates refer to section Replacing Firmware in chapter Maintenance or use the documentation provided with the Firmware Update Tools Update of main system can be done in the resident system only Update of the resident system can be done in the main system only Main and resident firmware must be from the same set 1290 Infinity M ultisampler User M anual 199 12 Hard
32. valve remains in this position during analysis so that the autosampler is continually flushed and hence the gradient has to flow through this delay volume to reach the column This can be eliminated by switching the injection valve from mainpass to bypass after the injection has been made and the injected sample has been flushed onto the column In practice this can be done a few seconds after injection and is activated by selecting the Automatic Delay Volume Reduction ADVR function in the autosampler setup menu The Flush out Factor typically 5 times injection volume ensures that enough time is allowed to flush the sample out of the injector before switching to bypass For instance a 1 uL injection under standard conditions effectively reduces the system delay volume by approximatly 160 uL 1290 Infinity M ultisampler User M anual 75 5 Optimizing Performance Table8 Schematic of injection steps in 1290 Infinity M ultisampler Figure 18 Valve in mainpass flow through Figure 19 Valve in bypass drawing sample Figure 20 Valve in bypass washing needle 76 1290 Infinity M ultisampler User M anual Optimizing Performance 5 Table 8 Schematic of injection steps in 1290 Infinity M ultisampler Figure 21 Valve in mainpass sample injected Figure 22 Valve in bypass needle backflush M ultiwash When using ADVR it should be noted that the gradient has already started at the pump at the instant
33. 0 uL 172 Analytical Head Assembly 100 uL 173 Analytical Head Assembly 900 uL 174 Flush Head Assembly 500 uL 176 Injection Valve Assembly 178 Injection Valve with Actuator 179 Needle PortAssembly 180 DoorAssyIF 181 Accessory Kit 182 Tubing Kit Sampler Standard 183 Sample Cooler 184 11 Identifying Cables 185 Cable Overview 186 Analog Cables 188 Remote Cables 190 CAN LAN Cables 194 Agilent Module to PC 195 USB 196 1290 Infinity M ultisampler User M anual Contents 12 Hardware Information 197 Firmware Description 198 Electrical Connections 201 Interfaces 204 Setting the 6 bit Configuration Switch 212 Instrument Layout 214 Early Maintenance Feedback 215 13 LAN Configuration 217 Setting up the module ina LAN environment 218 Connecting the module via LAN 219 14 Appendix 221 General Safety Information 222 Waste Electrical and Electronic Equipment Directive 228 Refrigerant 229 Radio Interference 231 Sound Emission 232 Solvent Information 233 Agilent Technologies on Internet 234 8 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual 1 Introduction Features 10 Overview ofthe Module 12 Multisampler Principle 14 System Overview 19 Leak and Waste Handling 19 This chapter gives an introduction to the M ultisampler ott Agilent Technologies 1 Introduction Features 10 The Agilent 1290 Infinity Multisampler sets a new benchmark in flexibility This autosampler c
34. 2 4 6 5 5 6 4 7 8 8 7 9 9 RS 232 cable 8 m 1290 Infinity M ultisampler User M anual 187 11 Identifying Cables Analog Cables One end of these cables provides a BNC connector to be connected to Agilent modules The other end depends on the instrument to which connection is being made Agilent M odule to 35900 A D converters p n 35900 60750 35900 Pin Agilent Signal Name module 1 Not connected 2 Shield Analog 3 Center Analog 188 1290 Infinity M ultisampler User M anual Identifying Cables 11 Agilent M odule to BNC Connector p n 8120 1840 Pin BNC Pin Agilent Signal Name module o AN Shield Shield Analog _ lt Center Center Analog Agilent M odule to General Purpose p n 01046 60105 Pin Pin Agilent Signal Name module 1 Not connected 2 Black Analog E 3 Red Analog ee 1290 Infinity M ultisampler User M anual 189 11 Identifying Cables Remote Cables ERI Enhanced Remote Interface 5188 8029 ERI to general purpose p n 5188 8029 pin EnhancedRemote Classic Remote 101 START REQUEST D Sub female 15way Q user s view to connector 2 102 STOP sos 3eses8e8s 3 103 READY TEREE 104 POWER ON 50 000000 5 105 NOT USED D400 r peeeegs 6 106 SHUT DOWN amp O0 ou S 7 107 START 8 108 PREPARE 9 lwire DATA 10 DGND 11 5V ERI out 12 PGND 13 PGND 14 24V ERI out 15 24V ERI out 190 1290 Infinity M ultisampler User M anual
35. 20 Piston ceramic If previous piston is scratched 1 Inthe Instant Pilot start the maintenance mode and 2 Open the front door select Change metering device function OR In the Agilent Lab Advisor software select Service amp Diagnostics in the system screen Tools gt Maintenance Positions gt Change Needle click start and wait until the metering device is in maintenance position 1290 Infinity M ultisampler User M anual 131 9 Maintenance Remove the Metering Seal 3 Disconnect all capillaries from the metering device 4 To release the bayonet lock push 1 and rotate 2 the analytical head a quarter left Then you can pull and detach the analytical head assembly from the actuator 6 Take the metering device Push against the rear side of the metering device and rotate a quarter left to release the bayonet lock 132 1290 Infinity M ultisampler User M anual Maintenance 9 Remove the Metering Seal 7 Now you can separate the analytical head and head body 8 Remove the piston out of the head body 9 Inspect the piston for cleanliness and scratches e If dirty Clean the piston with an appropriate solvent e If scratched Replace the piston by a new one 10 Take the analytical head and remove the three screws on the rear side which holds the support ring in place Check the support ring for any damages it 1290 Infinity
36. 218 1290 Infinity M ultisampler User M anual LAN Configuration 13 Connecting the module via LAN If the module is being operated as a standalone module or if a connection via LAN is required regardless of above mentioned recommendation a G1369B C LAN card has to be used For installation and configuration see the G1369B C documentation 1290 Infinity M ultisampler User M anual 219 13 LAN Configuration Connecting the module via LAN 220 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual e 14 009 Appendix General Safety Information 222 General Safety Information 222 Safety Standards 222 General 222 Before Applying Power 223 Ground the Instrument 223 Do Not Operate in an Explosive Atmosphere 224 Do Not Remove the Instrument Cover 224 Do Not M odify the Instrument 224 In Case of Damage 224 Solvents 225 Symbols 226 Waste Electrical and Electronic Equipment Directive 228 Refrigerant 229 Radio Interference 231 Sound Emission 232 Solvent Information 233 Agilent Technologies on Internet 234 This chapter provides addition information on safety legal and web ott Agilent Technologies 221 14 Appendix General Safety Information General Safety Information The following general safety precautions must be observed during all phases of operation service and repair of this instrument Failure to comply with these precautions or with specific warnings elsewhere in this manual
37. 9 CAUTION Damage to the cables gt Do not bend or pinch the cables gt Fitin the cooler perfectly CAUTION Damage to the cooler gt Wait at least 30 min before switching on the multisampler 6 1290 Infinity M ultisampler User M anual 163 9 Maintenance Install the Sample Cooler Power switch 1 On 2 Off 164 1290 Infinity M ultisampler User M anual Maintenance Replace the M odule Firmware When Tools required OR OR Parts required Preparations The installation of newer firmware might be necessary if a newer version solves problems of older versions or to keep all systems on the same validated revision The installation of older firmware might be necessary e to keep all systems on the same validated revision or if anew module with newer firmware is added to a system or e if third party control software requires a special version Description LAN USB Firmware Update Tool Agilent Lab Advisor software Instant Pilot G4208A only if supported by module Description 1 Firmware tools and documentation from Agilent web site Read update documentation provided with the Firmware Update Tool 9 To upgrade downgrade the module s firmware carry out the following steps 1 Download the required module firmware the latest LAN USB FW Update Tool and the documentation from the Agilent web http www chem agilent com
38. 90 Infinity M ultisampler User M anual 29 2 Site Requirements and Specifications Table 2 Performance Specifications Type Specification Comment Carry Over lt 0 003 30 ppm M ultisampler Standard Using the following conditions lt 0 0009 9 ppm M ultisampler M ultiwash Column Agilent ZORBAX SB C18 2 1x 50 mm1 8 mm 827700 902 Control and data evaluation Local Control Communications Safety and maintenance Mobile Phase A 0 1 TFA in water B 0 1 TFA in Acetonitrile Isocratic B 35 Flow rate 0 5 mL min Temperature 25 C e Wavelength 257 nm Sample 1200 ng uL Chlorhexidine for UV 2400 ng uL Chlorhexidine for MS dissolved with mobile phase A 1 uL injected and measured both on Agilent 6410 QQQ and G4212A DAD Wash solution H20 with 0 1 TFA 5s Agilent Open Lab CDS A 01 03 or above A 02 02 supports Sample Entry UI Slydini Mass hunter QQQ B 07 01 or above Mass hunter QTOF B 06 01 or above Lab Advisor B 02 05 or above ICF for 3rd party SW control A 02 01 or above LC and CE Drivers A 02 10 or above Agilent Instant Pilot G4208A B 02 16 or above currently not supported official release 2015 Controller area network CAN Local Area Network LAN ERI ready start stop and shut down signals Extensive support for troubleshooting and maintenance is provided by the Instant Pilot Agilent Lab Advisor and the Chromatography Data System Safety related features ar
39. L Vials 2 mL Vials 384 MTP G4267 60024 3x G7167 60022 2x 1290 Infinity M ultisampler User M anual 149 9 Maintenance Replace the Dummy Drawer NOTE Mixed configurations are possible for example 1x3H with 1x2H and 3x1H drawer All positions in the Sample Hotel must be filled either with dummies or drawers The drawers must be installed from bottom to top 150 1290 Infinity M ultisampler User M anual Maintenance Installing and Replacing of Drawers Upgrade Drawer Kit Tools required Parts required Description Screwdriver p n G7167 60020 G7167 60021 G7167 60022 Description Drawer 2H Drawer 1H Drawer 3H Before you start the new drawer installation you have to remove the lower drawer 2H draw er default configuration from the Sample Hotel 9 1 Open the drawer 2 Pull the drawer completely out 1290 Infinity M ultisampler User M anual 151 9 Maintenance Replace the Dummy Drawer 3 Unlatch the drawer Use a screwdriver to press the clamping lever lightly to the left 4 Remove the drawer from the rail guide 152 1290 Infinity M ultisampler User M anual Maintenance 9 5 Grab in the recession below the dummy drawer front panel 1 and lift the left side 2 6 Remove the dummy drawer At this stage remove all other dummies that will be replaced by hotel drawers 1290 Infinity M ultisampler User
40. LABLE INJECTION VOLUMES Our unique dual needle setup also enhances flexibility by providing two differently optimized injectors in a single instrument You can for example optimize one path for large volume injections and the other for low delay volumes UNMATCHED FLEXIBILITY Use vials microtiter plates or any combination of formats Sample drawers are available in three heights and you can mix shallow drawers with deeper ones to accommodate different sample sizes For specifications see Performance Specifications on page 29 This 1290 Infinity Autosampler has been introduced together with the Agilent 1290 Infinity Liquid Chromatograph 1290 Infinity M ultisampler User M anual 11 1 Introduction Overview of the Module 12 The Multisampler transport mechanism uses a Cartesian robot The X Y drive together with the Z drive optimize the grabbing and positioning for the sample trays and the needle handling inside of the Multisampler The sample coupler moves the sample container from the sample hotel which stores all the samples and place it on the central workspace Then the needle coupler of the Z drive take over and grab the needle assembly from the needle station and perform the analytical procedures inside of the Multisampler Due the uncoupled needle design the robot can do other liquid handling jobs during the analysis The multisampler employ an active vial plate pusher mechanism to hold down the vial or the pl
41. M anual 153 9 Maintenance Replace the Dummy Drawer 7 Place the new drawer horizontally into the middle 8 Push until the complete drawer locks in place bracket a s TEY A d f aa A I A Always fill sample hotel completely no empty drawer slots Otherwise the drawers can t be configured in the software 9 Configure the hotel drawers in the controller software see the Online Help of the software for details 154 1290 Infinity M ultisampler User M anual Maintenance 9 Configuration of the Hotel Drawers The configuration of your drawers is necessary to detect the new drawer configuration for your CDS system When a wrong configuration is detected there will be a mismatch in your CDS system and your are not able to use the new drawers The new drawer configuration is active and stored after you have done the Drawer Configuration 1290 Infinity M ultisampler User M anual 155 9 Maintenance Replace the Dummy Drawer Configure the Hotel Drawers in the Control Software Software required OpenLAB A 01 03 or above LC driver A 02 10 or above Preparations Stop the acquisition run Remove the sample containers trays and well plates from workspace Complete the drawer installation Remove the sample containers trays and well plates from the drawers Verify that all sample trays palettes are installed in their drawers All open drawers and dummies have to be closed and installed
42. Mixed Configurations or the service manual Refer to the documentation of the Agilent 1200 Infinity Series Instant Pilot or ChemStation for LC for more information In an Agilent 1290 Infinity or 1260 Infinity system the individual modules are connected by a CAN cable The Agilent 1200 Infinity Series Instant Pilot can be connected to the CAN bus at any of the modules in the system If an Agilent detector is part of the system the LAN connection must be at the detector For more information about connecting the instant pilot or control software refer to the respective user manual For connecting the Agilent 1290 Infinity equipment to non Agilent 1290 Infinity equipment see Cable Overview on page 186 CAUTION Damage to the sample cooler gt Wait at least 30 min before switching on the multisampler gt This allows the refrigerant and system lubrication to reach equilibrium 15 Connect the power cable to the power connector at the rear of the module 52 1290 Infinity M ultisampler User M anual UsingtheModule 3 Transporting the M ultisampler with a Sample Cooler Installed There are magnets in the front area of the multisampler see M agnets on page 36 When moving the multisampler around the laboratory make sure that any condensed water inside the thermostat is removed e Tilt the module to the back so that the water inside the thermostat can safely flow into the leak funnel Othe
43. Probable cause Suggested actions 1 Defective main board Please contact your Agilent service representative 1290 Infinity M ultisampler User M anual 103 7 104 Error Information Compensation Sensor Short Error ID 0080 The ambient compensation sensor NTC on the main board in the module has failed open circuit The resistance across the temperature compensation sensor NTC on the main board is dependent on ambient temperature The change in resistance is used by the leak circuit to compensate for ambient temperature changes If the resistance across the sensor falls below the lower limit the error message is generated Probable cause Suggested actions 1 Defective main board Please contact your Agilent service representative Fan Failed Error ID 0068 The cooling fan in the module has failed The hall sensor on the fan shaft is used by the main board to monitor the fan speed If the fan speed falls below a certain limit for a certain length of time the error message is generated Depending on the module assemblies e g the lamp in the detector are turned off to assure that the module does not overheat inside Probable cause Suggested actions 1 Fan cable disconnected Please contact your Agilent service representative 2 Defective fan Please contact your Agilent service representative 3 Defective main board Please contact your Agilent service representative 1290 Infinity M ultisampler User M anual
44. Remove the power cable from the module before opening the cover gt Do not connect the power cable to the module while the covers are removed gt If the sample cooler is disconnected from the power supply you should wait for at least five minutes before plugging it back CAUTION Damaged electronics gt To avoid damages of the electronics of the module make sure the power cords are unplugged before disconnecting or reconnecting the multisampler to the sample cooler cables 7 Connect power cable and signal data cable CAUTION Damage to the cables gt Do not bend or pinch the cables gt Fitin the sample cooler perfectly 8 Slide in the whole unit 1290 Infinity M ultisampler User M anual 49 3 Using the Module Installing the Sample Cooler 9 Tighten the 4 screws which holds the sample cooler unit in place Heavy weight The module is heavy gt 22 kg gt 46 lbs gt Carry the module at least with 2 people gt Avoid back strain or injury by following all precautions for lifting heavy objects gt Ensure that the load is as close to your body as possible gt Ensure that you can cope with the weight of your load 10 Lift the multisampler with the sample cooler installed into the LC stack 50 1290 Infinity M ultisampler User M anual Using the Module Installing the Sample Cooler 3 CAUTION Routing of the condensation tubing Proper routin
45. a AMO SEE yt a OL hae Agilent Technologies Notices Agilent Technologies Inc 2014 No part of this manual may be reproduced in any form or by any means including elec tronic storage and retrieval or translation into a foreign language without prior agree ment and written consent from Agilent Technologies Inc as governed by United States and international copyright laws Manual Part Number 67167 90000 Edition 08 2014 Printed in Germany Agilent Technologies Hewlett Packard Strasse 8 76337 Waldbronn Warranty The material contained in this docu ment is provided as is and is sub ject to being changed without notice in future editions Further to the max imum extent permitted by applicable law Agilent disclaims all warranties either express or implied with regard to this manual and any information contained herein including but not limited to the implied warranties of merchantability and fitness for a par ticular purpose Agilent shall not be liable for errors or for incidental or consequential damages in connection with the furnishing use or perfor mance of this document or of any information contained herein Should Agilent and the user have a separate written agreement with warranty terms covering the material in this document that conflict with these terms the warranty terms in the sep arate agreement shall control Technology Licenses The hardware a
46. a A Ww N p n G4267 60046 G4267 60461 0905 1294 G4267 60463 0515 4864 G4267 60432 G4267 60462 Description Analytical head 900 uL 400 bar Head Assembly 900 uL M etering seal 900 uL Seal Support Assembly 900 uL Screw for heat exchangers Spring Adapter Assembly Piston Assembly 900 uL 1290 Infinity M ultisampler User M anual Parts for Maintenance and Upgrade or Options 10 Analytical Head Assembly 900 pL Figure 32 Analytical head assembly 900 uL 1290 Infinity M ultisampler User M anual 175 10 Parts for Maintenance and Upgrade or Options Flush Head Assembly 500 pL Item p n Description G4267 60049 Flush head 500 uL 1 G4267 60491 Flush Head Assembly 500 uL 2 G4267 60482 Cylinder Assembly 500 uL 3 5023 2473 Sealing Plate 500 uL 4 G4267 60432 Spring Adapter Assembly 5 1410 1881 Bearing Sleeve 8 mm ID 10 mm OD 10 mm LG PI 6 5067 5918 Seal 500 uL 7 5067 5919 Piston Assembly 500 uL 8 64267 60451 Pump Valve IN 9 64267 60452 Pump Valve Out 176 1290 Infinity M ultisampler User M anual Parts for Maintenance and Upgrade or Options 10 Flush Head Assembly 500 pL Figure 33 Flush head assembly 500 uL 1290 Infinity M ultisampler User M anual 177 10 Parts for Maintenance and Upgrade or Options Injection Valve Assembly Item p n Description 5067 4232 2pos 6port Injection Valve VICI 1 5068 0197 Stator head 2 5068 0198 Rotor Seal for VICI Injection Valve PAEK 3 5068 0019 Stator screws 5500 1159 Capil
47. additional and perfect way to achieve the lowest carry over in the Multi Wash configuration by using the intergrated flush 1290 Infinity M ultisampler User M anual Introduction 1 pump This high pressure pump can also select between three different solvents and it is capable of reducing the carry over to a minimum by using the seat backflushing The flush pump outlet capillary is connected to the port 4 of the Multisampler which normally holds the waste line If the Multisampler is in bypass mode the flush pump connects to the needle seat and can flush backwards through the needle seat into the waste line attached to the needle seat outlet port The six port only 5 ports are used injection valve unit is driven by a high speed hybrid stepper motor During the sampling sequence the valve unit bypasses the Multisampler and connects flow from the pump to the column directly During injection and analysis the valve unit directs the flow through the Multisampler which ensures that all of the sample is injected onto the column and that the metering unit and needle are always free from sample residue before the next sampling sequence begins The Cooling Control of the vial plate temperature in the Multisampler is achieved using an additional Agilent Sample Cooler module The sample cooler is a micro compressor based refrigerator A fan draws air from the central workstation above the sample container of the Multisampler It is then blown thro
48. al 123 9 Maintenance Install the Needle Assembly 3 Pinch and reinsert the needle assembly and the 4 Inthe Instant Pilot close Change needle seat connected loop capillary into the z arm coupler OR In the Agilent Lab Advisor software Change needle loop gt End click End and wait until the needle assembly is in the needle park station 5 Close the front door 6 Perform a pressure test 124 1290 Infinity M ultisampler User M anual Maintenance 9 Exchange the Needle Seat When When seat is visibly damaged blocked or leaks Tools required p n Description 8710 0510 Wrench open 1 4 5 16 inch Flat head screwdriver Parts required p n Description G4267 87012 High Pressure Needle Seat 0 12 mm PEEK Preparations In order to avoid leaks stop the pump running and remove the tubings from the solvent bottles If available close the shutoff valves WARNING Risk of injury by uncovered needle An uncovered needle is a risk of harm to the operator gt Do not open the safety lock of the needle assembly gt Be careful working at the z robot gt Wear safety goggles when removing the needle assembly 1 Inthe Instant Pilot start the maintenance mode and 2 Open the front door select Change needle seat function OR In the Agilent Lab Advisor software select Service amp Diagnostics in the system screen Maintenance Positions gt Change Needle click start and wait until the needle assemb
49. an handle both vials and microtiter plates whether shallow or deep with ease and efficiency In fact this compact module has the capacity to house up to 6 144 samples all within the footprint of an Agilent 1200 Infinity LC plus the robotics to smoothly inject each into the chromatograph in turn With Agilent s unique dual needle design cycle time can be as low as just 5 seconds And with our multi wash capability you can reduce carryover to less than 10 parts per million In short this innovative Multisampler is designed to provide maximum flexibility and scalability HIGH CAPACITY Using shallow well plate drawers the Multisampler takes a maximum load of 16 microtiter plates and up to 6 144 samples FAST INJECTION CYCLES The dual needle design lets you alternate samples through one injection path and then the other virtually eliminating conventional wait times whether for large volume or flushing procedures SEAMLESS AUTOMATION Internal robotics move microtiter plates and other sample containers from the sample hotel to the central workspace for sample processing steps and injections ULTRALOW CARRYOVER The Multisampler is designed for low carryover but you can take clean to a whole new level with our multi wash capability This integrated feature flushes the injection needle inside and outside with three solvents uses seat back flush procedures 1290 Infinity M ultisampler User M anual Introduction 1 SCA
50. ate while the needle is drawn back from the sample vessel a must in the case a septum is used This active vial plate pusher employs a sensor to detect the presence of a plate and to ensure accurate movement regardless of plate used All axes of the transport mechanism are driven by very fast BLCD motors Optical encoders ensure the correct operation of the movement The standard metering device provides injection volumes from 0 1 20 uL A 0 1 40 uL injection volume metering device is installed in the G7167B with a 20 uL low restriction loop capillary restricting the injection volume The entire flowpath including the metering device is always flushed by the mobile phase after injection for minimum internal carry over To reduce the carry over you have two different possibilities First the external needle wash In the Standard configuration the needle flush station is equipped with a peristaltic pump to wash the outside of the needle This reduces the already low carry over for very sensitive analysis The bottle containing the mobile phase for the wash procedure will be located in the solvent bottle cabinet Produced waste during this operationis channeled safely away through a waste drain In the Multi Wash configuration the external needle wash will be done by a micro piezo pump combined with a solvent selection valve Where you can select between three different solvents If this is not sufficient to reduce the carry over there is an
51. avoid condensation 26 1290 Infinity M ultisampler User M anual Site Requirements and Specifications 2 Warranty Provisions and Reference Warranty provisions Agilent standard warranty does not cover Improper use or operation outside the product specification Defects due to adjustments or maintenance by customer or unauthorized parties Visible abuse negligence or shipping damage Unsupported configurations Improper site preparations Use of non Agilent parts Reference The removal of nameplates leads to loss of Warranty claim e Any unauthorized destruction of seals will invalidate the Warranty claim 1290 Infinity M ultisampler User M anual 27 2 Site Requirements and Specifications Physical Specifications Table1 Physical Specifications Type Specification Comments Weight 22 kg w o sample cooler Dimensions height x 320 mm x 396 mm x 468 mm width x depth Line voltage 100 240 V 10 Wide ranging capability Line frequency 50 or 60 Hz 5 Power consumption Ambient operating temperature Ambient non operating temperature Humidity Operating altitude Non operating altitude Safety standards IEC CSA UL 180 VA 180 W 614 BTU h 4 40 C 39 2 131 F 40 70 C 40 158 F lt 95 r h at 40 C 104 F Up to 3000 m 9842 ft Up to 4600 m 15091 ft Non condensing For storing the module Installation category Il Pollution degree 2 For
52. bles not supplied by Agilent Technologies can lead to damage of the electronic components or personal injury gt Never use cables other than the ones supplied by Agilent Technologies to ensure proper functionality and compliance with safety or EMC regulations 1290 Infinity M ultisampler User M anual 25 2 Site Requirements and Specifications Unintended use of supplied power cords Using power cords for unintended purposes can lead to personal injury or damage of electronic equipment gt Never use the power cords that Agilent Technologies supplies with this instrument for any other equipment Bench Space The module dimensions and weight see Table 1 on page 28 allow you to place the module on almost any desk or laboratory bench It needs an additional 2 5 cm 1 0 inches of space on either side and approximately 8 cm 3 1 inches in the rear for air circulation and electric connections If the bench shall carry a complete HPLC system make sure that the bench is designed to bear the weight of all modules The module should be operated in a horizontal position Condensation CAUTION Condensation within the module Condensation can damage the system electronics gt Do not store ship or use your module under conditions where temperature fluctuations could cause condensation within the module gt If your module was shipped in cold weather leave it in its box and allow it to warm slowly to room temperature to
53. ce the Module Firmware on page 165 If this does not help a main board replacement is required Drawer Status Indicator The module status indicator indicates one of three possible module conditions When the status indicator is OFF no sample containers are loaded When the upper lower or both semi circle status indicator are ON indicates the rear or front position of the drawer or both positions are loaded with a sample containers When semi circle indicators are blinking the robot interacts with a drawer Do not try to open the drawer at this point 1290 Infinity M ultisampler User M anual Troubleshooting and Diagnostics 6 User Interfaces Depending on the user interface the available tests and the screens reports may vary Preferred tool should be Agilent Lab Advisor Software see Agilent Lab Advisor Software on page 96 The Agilent OpenLab ChemStation C 01 03 and above do not include any maintenance test functions Screenshots used within these procedures are based on the Agilent Lab Advisor Software 1290 Infinity M ultisampler User M anual 95 6 Troubleshooting and Diagnostics Agilent Lab Advisor Software 96 The Agilent Lab Advisor Software is a standalone product that can be used with or without chromatographic data system Agilent Lab Advisor helps to manage the lab for high quality chromatographic results by providing a detailed system overview of all connected analytical ins
54. cells with sapphire windows is recommended Gold Gold is inert to all common HPLC solvents acids and bases within the specified pH range It can be corroded by complexing cyanides and concentrated acids like aqua regia Zirconium Oxide Zr0 gt Zirconium Oxide is inert to almost all common acids bases and solvents There are no documented incompatibilities for HPLC applications Platinum Iridium Platinum Iridium is inert to almost all common acids bases and solvents There are no documented incompatibilities for HPLC applications 1290 Infinity M ultisampler User M anual 63 4 64 Preparing the module Fluorinated polymers PTFE PFA FEP FFKM Fluorinated polymers like PTFE polytetrafluorethylene PFA perfluoroalkoxy and FEP fluorinated ethylene propylene are inert to almost all common acids bases and solvents FFKM is perfluorinated rubber which is also resistant to most chemicals As an elastomer it may swell in some organic solvents like halogenated hydrocarbons TFE PDD copolymer tubings which are used in all Agilent degassers except 1322A are not compatible with fluorinated solvents like Freon Fluorinert or Vertrel They have limited life time in the presence of Hexafluoroisopropanol HFIP To ensure the longest possible life with HFIP it is best to dedicate a particular chamber to this solvent not to switch solvents and not to let dry out the chamber For optimizing the life of the pressure sens
55. cemaker Magnets could affect the functioning of pacemakers and implanted heart defibrillators A pacemaker could switch into test mode and cause illness A heart defibrillator may stop working If you wear these devices keep at least 55 mm distance to magnets Warn others who wear these devices from getting too close to magnets 1290 Infinity M ultisampler User M anual Appendix 14 Table 16 Symbols Magnetic field Magnets produce a far reaching strong magnetic field They could damage TVs and laptops computer hard drives credit and ATM cards data storage media mechanical watches hearing aids and speakers Keep magnets at least 25 mm away from devices and objects that could be damaged by strong magnetic fields Indicates a pinching or crushing hazard Indicates a piercing or cutting hazard L WARNING anes alerts you to situations that could cause physical injury or death gt Do not proceed beyond a warning until you have fully understood and met the indicated conditions CAUTION A CAUTION alerts you to situations that could cause loss of data or damage of equipment gt Do not proceed beyond a caution until you have fully understood and met the indicated conditions 1290 Infinity M ultisampler User M anual 227 14 Appendix Waste Electrical and Electronic Equipment Directive Abstract The Waste Electrical and Electronic Equipment WEEE Directive 2002 96 EC adopted by EU Commission on
56. e Agilent 1290 Infinity Multisampler can inject a maximum volume of 20 uL with the standard loop capillary To increase the injection volume the Multidraw upgrade kit G4216 68711 can be installed With this kit you can add a maximum of 80 uL to the injection volume of your injector The total volume for the standard 1290 Infinity Multisampler is then 100 uL or 120 uL depending on the loop size with 40 uL analytical head installed For higher injection volume you can choose between further options This requires additional hardware modifications One way to increase the injection volume is to change the analytical head volume There are a 100 uL and 900 uL analytical heads available Additional you can install the Multidraw kit G1313 68711 With the kit you can add a maximum of 400 uL or 1400 uL to the injection volume of your injector The total volume is then 500 uL or 1500 uL for the 1290 Infinity Multisampler with a 100 uL analytical head setup Note the delay volume of your Mulisampler is extended when using the extended seat capillaries fromthe multi draw kit When calculating the delay volume of the Multisampler you have to double the volume of the extended capillaries The system delay volume due to the Multisampler will increase accordingly Whenever a method is scaled down from a larger column to a smaller column it is important that the method translation makes an allowance for reducing the injection volume in proportion to the volume o
57. e leak detection safe leak handling leak output signal for shutdown of pumping system and low voltages in major maintenance areas 30 1290 Infinity M ultisampler User M anual Site Requirements and Specifications 2 Table 2 Performance Specifications Type Specification Comment GLP features Early maintenance feedback EM F for continuous tracking of instrument usage with user settable limits and feedback messages Electronic records of maintenance and errors Housing All materials recyclable Metering device Metering device in high pressure flow path 1290 Infinity M ultisampler User M anual 31 2 Site Requirements and Specifications Physical Specifications of the Sample Cooler Cooling unit is designed as vapor compression refrigeration system Contains fluorinated greenhouse gas refrigerant according to the Kyoto protocol For specifications of refrigerant charge capacity carbon dioxide equivalent CDE and global warming potential GWP see instrument label Table3 Physical Specification of the Sample Cooler Type Specification Comments Weight lt 6kg Dimensions height x width x 205 mm X 340 mm X 370 mm depth Refrigerant gas HFKW 134a 0 042 kg Ozone depletion potential ODP 0 Line voltage 24 VDC nominal Current 10 A max Ambient operating 4 40 C 39 2 131 F temperature Ambient non operating 40 70 C 20 158 F temperature Humidity lt 95 rh at 40 C 104 F
58. e sample loop Sample is applied to the column when the injection valve returns to the mainpass position at the end of the sampling sequence The standard sampling sequence occurs in the following order The robot load the required sample container on the central workspace The injection valve switches to the bypass position The plunger of the metering device moves to the initialization position The robot couple into the needle assembly from the needle parkstation The robot unlock the needle assembly and moves up ao ur W N Pe The coupled needle assembly robot moves to the desired sample vial or well plate position on the central workstation 7 The needle lowers into the sample vial or well plate 8 The metering device draws the preset sample volume 9 The needle lifts out of the sample vial or well plate 10 The coupled needle assembly robot is then moved to the park station onto the seat to close the sample loop 1290 Infinity M ultisampler User M anual Introduction 1 11 The needle assembly is locked into the park station and moves down 12 The injection cycle is completed when the injection valve switches to the mainpass position 13 The robot move the sample container back into the sample hotel if the sampling sequence is done If needle wash is required it will be done between step 7 and 8 For the needle seat backflush the M ultisampler must be in bypass mode Injection Sequence Before the start of the injec
59. e vial and into the flush port These manipulations can be performed while the previous separation is running This is known as overlapped injection and it can be easily turned on from the Multisampler setup screen in the control software The Multisampler can be told to switch the flow through the Multisampler to bypass after the injection has been made and then after for example 3 minutes into a 4 minutes run to start the process of aspirating the next sample and preparing for injection This can typically save 0 5 to 1 minute per injection 1290 Infinity M ultisampler User M anual Optimizing Performance 5 How to Achieve Higher Resolution Increased resolution in a separation will improve the qualitative and quantitative data analysis allow more peaks to be separated or offer further scope for speeding up the separation This section explains how resolution can be increased by examining the following points Optimize selectivity Smaller particle size packing Longer Columns Shallower gradients faster flow Resolution between two peaks is described by the resolution equation Rs l Jn amp 1 k 1 4 a k where R resolution N plate count measure of column efficiency a selectivity between two peaks ky retention factor of second peak formerly called capacity factor The term that has the most significant effect on resolution is the selectivity a and practically varying this term i
60. eference Vial Bar nae Assign Wellplates Within the M ultisampler user interface there are active areas If you move the mouse cursor across the icons tray EMF button the cursor will change and you may click on the icon to 1 Turn on off the autosampler 2 Configure the sample hotel 3 Get the status of the EMF Early M aintenance Feature 4 Cooling Temperatur Current instrument information on Injection volume Sample location A right click into the Active Area will open a menu to Show the Control User Interface special module settings Show the Method User interface same as via menu Instrument gt Set up Instrument M ethod gt Setup G7167B Injector Program When you activate a pretreatment injector program it replaces the standard injection cycle Identify Device Home All Switch on Tray Illumination Auto Clean Prime Drawer Configuration Changing the load capacity of the Sample Hotel Right Capillaries e Reference Vial Bar Assign Wellplates Wellplate Configuration same as click on the Tray icon 66 1290 Infinity M ultisampler User M anual Preparing the module 4 ng up the Autosampler with Agilent Open Lab ChemStation Table6 The Autosampler User Interface D Multisampler gt Module Status shows Run Ready Error state and Not Ready text or Error text OO Idle Error Red Not ready yellow Ready green Pre run Post run purple Run
61. end the loop too far 5 The needle assembly is still connected to the loop capillary 6 Usea 1 4inch wrench to loosen the fitting of the loop capillary 1290 Infinity M ultisampler User M anual 121 9 Maintenance Install the Needle Assembly When Tools required Parts required Preparations When the limit in the needle into seat counter in the EM F is exceeded or when needle shows indications of damage blockage or leaks p n Description 8710 0510 Wrench open 1 4 5 16 inch p n Description 64267 87201 Needle Assembly In order to avoid leaks stop the pump running and remove the tubings from the solvent bottles If available close the shutoff valves Risk of injury by uncovered needle An uncovered needle is a risk of harm to the operator gt Do not open the safety lock of the needle assembly gt Be careful working at the z robot gt Wear safety goggles when removing the needle assembly 122 It is recommended to always exchange the needle assembly and the needle seat at the same time to prevent premature leakage 1290 Infinity M ultisampler User M anual Maintenance 9 Install the Needle Assembly 1 Install the loop capillary on top of the needle cartridge 2 Install loop plastic adapter which shows the orientation and tighten the fitting hand tight Then use a 1 4 inch wrench to tighten the fitting of the loop capillary 1290 Infinity M ultisampler User M anu
62. er Status Indicator 42 Insert vial trays wellplates 43 Remove vial trays wellplates 45 Installing the Sample Cooler 46 Damaged Packaging 46 Install the Sample Cooler 47 Transporting the Multisampler with a Sample Cooler Installed 53 This chapter explains the essential operational parameters of the module ott Agilent Technologies 35 3 Using the Module Magnets WARNING Heart pacemakers Magnets may derogate the function of heart pacemakers and implanted defibrillators Heart pacemakers may switch to the test modus which may cause malaise Defibrillators may malfunction gt Bearers of heart pacemakers or implanted defibrillators must stay off at least 55 mm from the magnets CAUTION Magnetic fields Magnets produce a far reaching strong magnetic field You can damage for example televisions laptops computer harddisks credit cards magnetic cards may be damaged as well gt Keep magnets at least 25 mm away from devices and objects that could be damaged by strong magnetic fields 36 1290 Infinity M ultisampler User M anual Using the Module 3 M agnets Figure 10 Position of magnets at the multisampler door closed Figure 11 Position of magnets at the multisampler open doors and drawers 1290 Infinity M ultisampler User M anual 37 3 Using the Module Magnets Figure 12 Position of the magnet at the door Figure 13 Position of the magnets at the drawer 38 1290 Infinity M
63. er accessible assemblies standard 1290 Infinity M ultisampler User M anual Maintenance 9 ntroduction to Maintenance SSV piezo pump Flush head Metering device Dummy drawer Needle assembly Needle seat Injection valve Figure 26 Main user accessible assemblies multiwash 1290 Infinity M ultisampler User M anual 111 9 Maintenance Warnings and Cautions WARNING Personal injury or damage to the product Agilent is not responsible for any damages caused in whole or in part by improper use of the products unauthorized alterations adjustments or modifications to the products failure to comply with procedures in Agilent product user guides or use of the products in violation of applicable laws rules or regulations gt Use your Agilent products only in the manner described in the Agilent product user guides WARNING Electrical shock Repair work at the module can lead to personal injuries e g shock hazard when the cover is opened gt Do not remove the cover of the module gt Only certified persons are authorized to carry out repairs inside the module WARNING Sharp metal edges Sharp edged parts of the equipment may cause injuries gt To prevent personal injury be careful when getting in contact with sharp metal areas 112 1290 Infinity M ultisampler User M anual Maintenance 9 WARNING Toxic flammable and hazardous solvents samples and reagents The ha
64. es see below and Cable Overview on page 186 Software required OpenLabCDS and or Instant Pilot G4208A with the appropriate revisions see Table 2 on page 29 3 If the sample cooler is disconnected from the power supply you should wait for at least five minutes before plugging it back Even under average humidity conditions a significant amount of condensed water gathers every day A suitable container must be provided and emptied regularly in order to avoid overflow 1 Place the Autosampler on the bench is OFF switch stands out LEM SENEE ASNN v 2 Ensure that the power switch on the front of the module 1290 Infinity M ultisampler User M anual 47 3 Using the Module Installing the Sample Cooler 3 Ensure that the power cable is removed from the 4 Open the 4 screws on the rear of the module instrument 48 1290 Infinity M ultisampler User M anual Using the Module Installing the Sample Cooler 3 Module is partially energized when switched off as long as the power cord is plugged in Repair work at the module can lead to personal injuries e g Shock hazard when the cover is opened and the module is connected to power gt Make sure that it is always possible to access the power plug gt Do not use the sample cooler if it is not operating correctly or has been damaged Disconnect it from the power supply and call your local service center gt
65. f the column to maintain the performance of the method This is to keep the volume of the injection at the same percentage volume with respect to the column This is particular important if the injection solvent is stronger more eluotropic than the starting mobile phase and any increase will affect the separation particularly for early running peaks low retention factor In some cases it is the cause of peak distortion and the general rule is to keep the injection solvent the same or weaker than the starting gradient composition This has a bearing on whether or by how much the injection volume can be increased and the user should check for signs of increased dispersion wider or more skewed peaks and reduced peak resolution in trying to increase the injection size If an injection is made in a weak solvent then the volume can probably be increased further because the effect will be to concentrate the analyte on the head of the column at the 1290 Infinity M ultisampler User M anual 79 5 80 Optimizing Performance start of the gradient Conversely if the injection is in a stronger solvent than the starting mobile phase then increased injection volume will spread the band of analyte down the column ahead of the gradient resulting in peak dispersion and loss of resolution Perhaps the main consideration in determining injection volume is the diameter of the column as this will have a big impact on peak dispersion Peak heights can be hig
66. for a pump the flow will be stopped for safety reasons For a detector the lamp will stay on in order to avoid equilibration time Depending on the error type the next run can only be started if the error has been resolved for example liquid from a leak has been dried Errors for presumably single time events can be recovered by switching on the system in the user interface Special handling is done in case of a leak As a leak is a potential safety issue and may have occurred at a different module from where it has been observed a leak always causes a shutdown of all modules even outside a method run In all cases error propagation is done via the CAN bus or via an APG remote cable see documentation for the APG interface 1290 Infinity M ultisampler User M anual Error Information 7 General Error Messages General error messages are generic to all Agilent series HPLC modules and may show up on other modules as well Timeout Error ID 0062 The timeout threshold was exceeded Probable cause Suggested actions 1 The analysis was completed successfully Check the logbook for the occurrence and and the timeout function switched off the source of a not ready condition Restart the module as requested analysis where required 2 A not ready condition was present duringa Check the logbook for the occurrence and sequence or multiple injection run for a source of a not ready condition Restart the period longer than the timeout
67. g of the condensation tubing is critical for correct condensate drainage gt Do not place the multisampler directly on the bench Install Base plate G1328 44121 underneath CAUTION Damage through condensation If the condensation tube is located in liquid the condensed water cannot flow out of the tube and the outlet is blocked Any further condensation will then remain in the instrument This may damage the instruments electronics gt Make sure the condensation tube is always above the liquid level in the vessel gt Make sure the waste container is not sealed gt Ensure the drain tube has no loops and leads directly into the waste bottle 11 Install the condensate tubing on the drain outlet of the sample cooler and guide the condensation tubing out to the central waste Do not kink the drain tubing and avoid siphoning effects of the drainage 12 Ensure the power switch on the front of the module is OFF switch stands out 1290 Infinity M ultisampler User M anual 51 3 Using the Module Installing the Sample Cooler 13 Connect the CAN interface cables to other modules in the system see section Recommended Stack Configurations in the technical note Use of M ultisampler in Mixed Configurations or the service manual 14 If required connect additional interface and control cables to the autosampler see section Recommended Stack Configurations in the technical note Use of M ultisampler in
68. he outside of the needle At the end of this process the needle assembly returns to the needle port Figure3 Valve in bypass washing needle 16 1290 Infinity M ultisampler User M anual Introduction 1 Inject and Run The final step is the inject and run step The six port valve is switched to the mainpass position and directs the flow back through the sample loop which now contains a certain amount of sample The solvent flow transports the sample onto the column and separation begins This is the beginning of a run within an analysis In this stage all major performance influencing hardware is flushed internally by the solvent flow For standard applications no additional flushing procedure is required Figure4 Valve in mainpass sample injected 1290 Infinity M ultisampler User M anual 17 1 18 Introduction Needle seat back flush After the injection to reduce the carry over for very sensitive analysis the needle seat can be flushed by an integrated flush pump with up to 3 different solvents which may have different properties and solvent strengths As soon as injection valve is in bypass mode the flush pump delivers some solvent during a defined time to clean the needle seat The back flushing solvent will be guided into the waste line attached on the needle wash port At the end of this process the injection valve switch back into the mainpass position ready for the next injection The last rinsing s
69. her on a narrow column than with a larger injection on a wider column because there is less peak dispersion With 2 1 mm i d columns typical injection volumes might range up to 5 to 10 uL but it is very dependent on the chemistry of the analyte and mobile phase as discussed above In a gradient separation injection volumes of about 5 of the column volume might be achieved whilst maintaining good resolution and peak dispersion One way to achieve larger injections is to use a trapping column selected by a switching valve to capture and concentrate the injection before switching it i e injecting it onto an analytical column see Figure 23 on page 81 The valve can be conveniently located in the Thermostatted Column Compartment 1290 Infinity M ultisampler User M anual Optimizing Performance How to Achieve Higher Injection Volumes PumpA Autosampler Position 1 Enrichment Pump B column Pump A Autosampler Position 2 Enrichment Pump B calumn Figure 23 Sample enrichment 1290 Infinity M ultisampler User M anual 5 81 5 Optimizing Performance How to Achieve High Throughput 82 The injection can be optimized for speed remembering that drawing the sample too fast can reduce the reproducibility Marginal gains are to be made here as the sample volumes used tend towards the smaller end of the range in any case A significant portion of the injection time is the time taken with the needle movements to and from th
70. hieve maximal safety check the correct installation regularly gt Do not use solvents with an auto ignition temperature below 200 C 392 F 56 Recommendations for Solvent Cabinet For details see the usage guideline for the Agilent 1200 Infinity Series Solvent Cabinets 1290 Infinity M ultisampler User M anual Preparing the module 4 Leak and Waste Handling For details on correct installation see section Installation Information on Leak and Waste Handling in the service manual 1290 Infinity M ultisampler User M anual 57 4 Preparing the module Preparing the M ultisampler 58 For best performance of the multisampler When using the multisampler in a system with a vacuum degassing unit shortly degas your samples before using them in the multisampler Filter samples before use in a 1200 Infinity Series system Use High pressure filter kit 5067 4638 for inline filtering When using buffer solutions flush the system with water before switching it off Check the multisampler plungers for scratches grooves and dents when changing the piston seal Damaged plungers cause micro leaks and will decrease the lifetime of the seal Solvent Information Observe recommendations on the use of solvents see Solvent Information on page 60 Priming and Purging the System When the solvents have been exchanged or the system has been turned off for a certain time for example overnight oxygen will re diffuse
71. ht orientation 3 Install the sample loop capillary on top of the needle cartridge and tighten the fitting hand tight 4 Install loop plastic adapter which shows the orientation Then Use a 1 4 inch wrench to tighten the fitting of the sample loop capillary 1290 Infinity M ultisampler User M anual 147 9 Maintenance 5 Pinch and reinsert the needle assembly and the connected sample loop capillary into the z arm coupler 6 In the Instant Pilot close Change needle seat OR In Agilent Lab Advisor software Change needle loop Click End and wait until the needle is in the needle park station 7 Close the front door 148 1290 Infinity M ultisampler User M anual Replace the Dummy Drawer Optional Configurations Table 10 Overview on optional configurations examples for uniform types 1H 2H Maintenance 9 Replace the Dummy Drawer 3H Dummy Draw er gt Delivery Status G7167 60020 1x Up to 8 single height G7167 60021 drawers 8x 16 positions Shallow wellplates and MTP M ax Sample capacity 1536 6144 samples 96 Shallow Wellplates 384 MTP Up to 4 Dual Height drawers G7167 60020 8 positions Vials 2 mL deep 4x well plates MTP Eppendorf M ax Sample capacity 432 3072 samples 2 mL Vials 384 MTP Up to 2 Drawers Triple G7167 60020 Height 1x 4 positions 2H or 2 1H option left over Vials 6 ml deep well plates MTP Eppendorf M ax Sample capacity 60 216 1536 samples 6 m
72. ight blue coded Peristaltic pump with Pharmed tubing 1290 Infinity M ultisampler User M anual Parts for Maintenance and Upgrade or Options 10 Sampler Main Assemblies p n 64267 60002 G7167 60020 G7167 60021 G7167 60022 64267 60001 5067 4232 64267 87201 64267 60044 64267 60045 64267 87012 64267 60300 64267 60400 64267 60500 64267 60050 1290 Infinity M ultisampler User M anual Description Hotel Assembly Drawer 2H Drawer 1H Drawer 3H Sample Handler Assembly 2pos 6port Injection Valve VICI Needle Assembly Needle Port Assembly Station Flush head 500 uL High Pressure Needle Seat 0 12 mm PEEK Sample Loop Flex 20 uL right red coded Sample Loop Flex 40 uL right green coded Sample Loop Flex 100 uL right blue coded Baseplate Assembly 169 10 Parts for Maintenance and Upgrade or Options Peristaltic pump Metering device Dummy drawer Needle assembly Needle seat Injection valve Figure 27 Main user accessible assemblies standard a FE SSV piezo pump a Boy on L Flush head Metering device Dummy drawer Needle assembly amp Needle seat Injection valve Figure 28 Main user accessible assemblies multiwash 170 1290 Infinity M ultisampler User M anual Parts for Maintenance and Upgrade or Options 10 Hotel Drawer Hotel Drawer ltem p n Description 1 G7167 60021 Drawer
73. iguration Switch Mode Function Setting Switch 1 Switch 2 Switch 3 Switch 4 Switch 5 Switch 6 com 0 naz na LAN Init M ode na Use Default IP Address 0 0 0 0 0 Use Stored IP Address 0 0 0 1 0 Use DHCP to request IP Address 0 0 1 0 0 Test 1 System na n a n a ColdStart Boot Resident System 1 0 0 0 X Revert to Default Data x 0 0 0 1 en from non volatile memory 3 Default IP Address is 192 168 254 11 4 Host Name will be the MAC address 1290 Infinity M ultisampler User M anual not assigned Always keep these switches on position 0 off When selecting mode COM settings are stored to non volatile memory When selecting mode TEST COM settings are tak 213 12 Hardware Information Instrument Layout The industrial design of the module incorporates several innovative features It uses Agilent s E PAC concept for the packaging of electronics and mechanical assemblies This concept is based upon the use of expanded polypropylene EPP layers of foam plastic spacers in which the mechanical and electronic boards components of the module are placed This pack is then housed in a metal inner cabinet which is enclosed by a plastic external cabinet The advantages of this packaging technology are virtual elimination of fixing screws bolts or ties reducing the number of components and increasing the speed of assembly disassembly the plastic layers have air channels molded into them so that c
74. ilentModuletoPC 195 USB 196 a Agilent Technologies 185 11 Identifying Cables Cable Overview Never use cables other than the ones supplied by Agilent Technologies to ensure proper functionality and compliance with safety or EM C regulations Analog cables p n 35900 60750 01046 60105 Remote cables p n 5188 8029 5188 8044 5188 8045 5061 3378 01046 60201 CAN cables p n 5181 1516 5181 1519 186 Description Agilent 35900A A D converter Analog cable BNC to general purpose spade lugs Description ERI to general purpose Remote Cable ERI ERI Remote Cable APG ERI Remote Cable to 35900 A D converter Agilent module to general purpose Description CAN cable Agilent module to module 0 5 m CAN cable Agilent module to module 1 m 1290 Infinity M ultisampler User M anual LAN cables p n 5023 0203 5023 0202 RS 232 cables notfor FUSION p n r board 1530 60600 RS232 61601 5181 1561 Description Cross over n connection Twisted pair connection Description Identifying Cables 11 etwork cable shielded 3 m for point to point network cable shielded 7 m for point to point RS 232 cable 2 m RS 232 cable 2 5 m Instrument to PC 9 to 9 pin female This cable has special pin out and is not compatible with connecting printers and plotters It s also called Nul M odem Cable with full handshaking where the wiring is made between pins 1 1 2 3 3
75. imple coupling requirements The subminiature D connector is used The module provides one remote connector which is inputs outputs wired or technique To provide maximum safety within a distributed analysis system one line is dedicated to SHUTDOWN the system s critical parts in case any module detects a serious problem To detect whether all participating modules are switched on or properly powered one line is defined to summarize the POWER ON state of all connected modules Control of analysis is maintained by signal readiness READY for next analysis followed by START of run and optional STOP of run triggered on the respective lines In addition PREPARE and START REQUEST may be issued The signal levels are defined as standard TTL levels 0 V is logic true 5 0 V is false 1290 Infinity M ultisampler User M anual 207 12 Hardware Information fan out is 10 input load is 2 2 kOhm against 5 0 V and output are open collector type inputs outputs wired or technique All common TTL circuits operate with a 5 V power supply A TTL signal is defined as low or L when between 0 V and 0 8 V and high or H when between 2 0 V and 5 0 V with respect to the ground terminal Table 14 Remote Signal Distribution Pin Signal Description 1 DGND Digital ground 2 PREPARE L Request to prepare for analysis for example calibration detector lamp on Receiver is any module performing pre analysis activities 3
76. indoor use only 28 1290 Infinity M ultisampler User M anual Performance Specifications Table 2 Type Performance Specifications Specification Site Requirements and Specifications 2 Comment Injection range Precision Pressure range Sample viscosity range Sample capacity Injection cycle time 0 1 20 uL in 0 1 uL increments default 0 1 40 uL in 0 1 uL increments if 40 uL loop is installed 0 1 120 uL in 0 1 uL increments with 1290 Infinity large volume injection kit hardware modification required pressure range up to 1200 bar 0 1 100 uL in 0 1 uL increments with 100 uL upgrade kit hardware modification required up to 1200 bar Typically lt 0 15 RSD or SD lt 10 nL Up to 1200 bar gt 500 uL M ultidraw with 100 uL Analytical Head Up to 400 bar gt 900 uL Analytical Head 0 2 5cp 1H Drawer Up to 8 drawers and 16 positions Shallow well plates MTP 2H DrawerUp to 4 drawers and 8 positions MTP deep well plates vials Eppendorf 3H DrawerUp to 2 drawers and 4 positions MTP deep well plates vials up to 6 mL Eppendorf lt 10 s using following standard conditions Default draw speed 100 uL min Default eject speed 400 uL min Injection volume luL M easured caffeine with Upgrade Kit hardware modification required M ax 6144 1536 samples 384M TP 96 3072 samples 432 vials 2 mL 1536 samples 60 vials 6 mL 384 vials 1 mL 216 vials 2 mL 12
77. ing An error condition is indicated when the status indicator is red An error condition indicates the module has detected an internal problem which affects correct operation of the module Usually an error condition requires attention e g leak defective internal components An error condition always interrupts the analysis If the error occurs during analysis it is propagated within the LC system i e a red LED may indicate a problem of a different module Use the status display of your user interface for finding the root cause module of the error A red blinking indicator indicates that the module is in resident mode e g during update of main firmware A fast red blinking indicator indicates that the module is in a low level error mode In such a case try to re boot the module or try a cold start see Table 15 on page 213 Then try a firmware update see Replace the Module Firmware on page 165 If this does not help a main board replacement is required Drawer Status Indicator The module status indicator indicates one of three possible module conditions When the status indicator is OFF no sample containers are loaded When the upper lower or both semi circle status indicator are ON indicates the rear or front position of the drawer or both positions are loaded with a sample containers When semi circle indicators are blinking the robot interacts with a drawer Do not try to open the drawer at this point
78. ing the type based on hardware firmware This results in a change of features and functions Serial number based on the module Firmware revision based on the module Options lists installed GRENI Sem maerdi 1 nen 120 b options 1290 Infinity M ultisampler User M anual 71 4 Preparing the module Setting up the Autosampler with Agilent Open Lab ChemStation 72 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual 5 Optimizing Performance Delay Volume and Extra Column Volume 74 Delay Volume 74 How to Configure the Optimum Delay Volume 75 How to Achieve Higher Injection Volumes 79 How to Achieve High Throughput 82 How to Achieve Higher Resolution 83 How to Achieve Higher Sensitivity 86 How to Achieve Lowest Carry Over 87 This chapter gives hints on how to optimize the performance or use additional devices ee Agilent Technologies 73 5 Optimizing Performance Delay Volume and Extra Column Volume 74 The delay volume is defined as the system volume between the point of mixing in the pump and the top of the column The extra column volume is defined as the volume between the injection point and the detection point excluding the volume in the column Delay Volume In gradient separations this volume causes a delay between the mixture changing in the pump and that change reaching the column The delay depends on the flow rate and the delay volume of the
79. ip on the tubing 7 Connect the inlet filter of the solvent bottle again Use the syringe to draw enough solvent for completely filling of the peristaltic pump tubing before continuing to prime the peristaltic pump 1290 Infinity M ultisampler User M anual 141 9 Maintenance Replace the Flushhead Seal In the Instant Pilot start the maintenance mode and select Change metering device function OR In the Agilent Lab Advisor software select Service amp Diagnostics in the system screen Tools gt Maintenance Positions gt Change Needle click start and wait until the metering device is in maintenance position 2 Open the front door 142 1290 Infinity M ultisampler User M anual Maintenance 9 3 Remove all capillaries from the flush head 4 Press and turn the Flush Head a quarter left bayonet 5 Pull the flush head away from the hydraulic box 6 Press against the rear side of flush head and turn a quarter left bayonet fitting and separate the flush head head body and the piston Be careful not to break the piston 7 Take the flush head and remove the three screws on the rear side which hold the support ring in place 8 Check the support ring for any damages If the support is scratched or damaged replace the support ring by a new one 9 After removing of the support ring Carefully remove the metering seal by using the steel side of the insert tool 10 C
80. isampler 10 Parts for Maintenance and Upgrade or Options This chapter provides information on parts material required for the module 11 Identifying Cables This chapter provides information on cables used with the modules 12 Hardware Information This chapter describes the module in more detail on hardware and electronics 13 LAN Configuration This chapter provides information on connecting the detector to the Agilent ChemStation PC 14 Appendix This chapter provides addition information on safety legal and web 4 1290 Infinity M ultisampler User M anual Contents Contents Introduction 9 Features 10 Overview of theModule 12 Multisampler Principle 14 System Overview 19 Site Requirements and Specifications 23 Site Requirements 24 Physical Specifications 28 Performance Specifications 29 Physical Specifications of the Sample Cooler 32 Using the Module 35 Magnets 36 Turn on off 40 Status indicators 41 Insert vial trays wellplates 43 Remove vial trays wellplates 45 Installing the Sample Cooler 46 Transporting the M ultisampler with a Sample Cooler Installed 53 Preparing the module 55 Leak and Waste Handling 56 Preparing the Multisampler 58 Solvent Information 60 Setting up the Autosampler with Agilent Open Lab ChemStation 65 1290 Infinity M ultisampler User M anual Contents Optimizing Performance 73 Delay Volume and Extra Column Volume 74 How to Configure the Optimum Delay V
81. itch to the test modus which may cause malaise Defibrillators may malfunction gt Bearers of heart pacemakers or implanted defibrillators must stay off at least 55 mm from the magnets 116 1290 Infinity M ultisampler User M anual Maintenance Removal and Installation of the Front Door 9 1 Open the front door 2 Press the release buttons and pull the front door out 1290 Infinity M ultisampler User M anual 117 9 Maintenance Removal and Installation of the Front Door 3 For the Installation of the front door Insert the hinges into their guides and move the door in until the release buttons click into their final position 118 1290 Infinity M ultisampler User M anual Maintenance 9 Remove the Needle Assembly When Tools required Parts required Preparations When the limit in the needle into seat counter in the EM F is exceeded or when needle shows indications of damage blockage or leaks p n Description 8710 0510 Wrench open 1 4 5 16 inch p n Description 64267 87201 Needle Assembly In order to avoid leaks stop the pump running and remove the tubings from the solvent bottles If available close the shutoff valves Risk of injury by uncovered needle An uncovered needle is a risk of harm to the operator gt Do not open the safety lock of the needle assembly gt Be careful working at the z robot gt Wear safety goggles when removing the needle assembly
82. lary ST 0 17x100 SX S 2 3 Metering Device to Injection Valve 5067 4650 Capillary ST 0 12 mm x 150 mm SL SX Pump to sampler 5500 1157 Capillary ST 0 12 mmx500 mm Sampler to column compartment re 2 Any S RELY Pa _ We g IY fo S o 09 o Oez n D x 9 Figure 34 Injection valve assembly VICI 178 1290 Infinity M ultisampler User M anual Parts for Maintenance and Upgrade or Options 10 Injection Valve with Actuator Injection Valve with Actuator Item p n Description 1 5067 4162 Direct A ctuator 50 Assembly 2 5043 0291 Lock Nut 3 5067 4232 2pos 6port Injection Valve VICI 4 5188 8030 Tag Reader 3 Figure 35 Injection valve with actuator 1290 Infinity M ultisampler User M anual 179 10 Parts for Maintenance and Upgrade or Options Needle Port Assembly Needle Port Assembly ltem p n Description 1 64267 60044 Needle Port Assembly Station 2 G4267 40045 Needle port Adapter Figure 36 Needle port assembly 180 1290 Infinity M ultisampler User M anual Door Assy IF Item p n 5067 5415 1 5067 5412 2x 2 64267 68713 3 5021 1879 Figure 37 Door assy 1290 Infinity M ultisampler User M anual Parts for Maintenance and Upgrade or Options 10 Door Assy IF Description Door Assy IF 320 Right Hinge Universal 180 Pressure Spring Permanent M agnet 181 10 Parts for Maintenance and Upgrade or Options Accessory Kit Accessory Kit Item p n Description 64267 68705 Accessor
83. lder 6 Close the mainboard cover plate 8 Switch ON the power switch 160 1290 Infinity M ultisampler User M anual Maintenance 9 Remove the Sample Cooler The module is heavy gt 22 kg gt 46 lbs gt Carry the module at least with 2 people gt Avoid back strain or injury by following all precautions for lifting heavy objects gt Ensure that the load is as close to your body as possible gt Ensure that you can cope with the weight of your load CAUTION Routing of the condensation tubing Proper routing of the condensation tubing is critical for correct condensate drainage gt Do not place the multisampler directly on the bench Install Base plate G1328 44121 underneath 1 Next Steps Remove the power cable from the module Open the four screws on cooler cover Slide the sample cooler the half way out Remove power and the signal cable Slide the cooler completely out y OOU RAUN Place the sample cooler on the bench Power switch 1 On 2 Off 1290 Infinity M ultisampler User M anual 161 9 Maintenance Install the Sample Cooler Install the Sample Cooler When If the cooler is damaged or defective Tools required Description Screwdriver Pozidriv 1 PT3 Parts required p n Description G4267 60005 Sample Cooler 1 Slide in halfway 2 162 1290 Infinity M ultisampler User M anual Maintenance Install the Sample Cooler
84. lean the chamber with the appropriated solvent and ensure all particulate matter is removed 11 Install the new flush head seal using the plastic side of the insert tool Press it firmly into position Avoid any offset angle as it might deform the seal 12 Reassemble the support ring M ake sure to comply to the following order of actions 1 Tighten the three screws fingerthight then c Tighten the screws alittle at a time to keep the support ring surface parallel important to the surface of the flush head 13 Reassemble the head body with the flush head by pressing and turning the head body against the head body 14 Press the piston into the seal 15 Reinstall the flush head to the actuator housing 16 Fix the flush head 17 Connect the capillaries fitting and detach the metering device from the actuator 18 Close the front door 1290 Infinity M ultisampler User M anual 143 9 Maintenance Replace the Injection Valve When Tools required Parts required Preparations 144 Add new injection valve or replace defective injection valve Description Wrench 9 64 p n Description 5067 4232 2pos 6port Injection Valve VICI Switch off the power of the M ultisampler 1 Disconnect the capillaries 2 Open the spanner 3 Remove the pod 4 Install the new valve Check the orientation of the rear side 5 Push the injection valve into the actuator The index pin must fit in the slo
85. line condition is installed correctly and is set up correctly for analysis 2 Defective remote cable Exchange the remote cable 3 Defective components in the instrument Check the instrument for defects refer to the showing the not ready condition instrument s documentation 1290 Infinity M ultisampler User M anual 101 7 102 Error Information Lost CAN Partner Error ID 0071 During an analysis the internal synchronization or communication between one or more of the modules in the system has failed The system processors continually monitor the system configuration If one or more of the modules is no longer recognized as being connected to the system the error message is generated Probable cause 1 CAN cable disconnected 2 Defective CAN cable 3 Defective main board in another module Leak Sensor Short Error ID 0082 Suggested actions Ensure all the CAN cables are connected correctly Ensure all CAN cables are installed correctly Exchange the CAN cable Switch off the system Restart the system and determine which module or modules are not recognized by the system The leak sensor in the module has failed short circuit The current through the leak sensor is dependent on temperature A leak is detected when solvent cools the leak sensor causing the leak sensor current to change within defined limits If the current increases above the upper limit the error message is generated P
86. llary Plex Ii Lett 4267 40901 Hotel Corfiguraton E E Set Detect Orewers Ato Reterencng 4 Follow the Detect Hotel Configuration screen to detect the physical available drawers 5 System is ready after the robot has done Auto Referencing 1290 Infinity M ultisampler User M anual Maintenance 9 Exchange the Power Supply Fuses Sample Cooler Exchange the Power Supply Fuses Sample Cooler The fuse holders are located on the mainboard of the multisampler When If wrong fuses are installed Tools required Description Flat head screwdriver Parts required p n Description 2110 0015 Fuses T2 5 A 250V CSA UL listed CAUTION Damaged electronics Disconnecting or reconnecting the autosampler fraction collector to thermostat cable when the power cords are connected to either of the two modules will damage the electronics of the modules In such a case mainboards of both instruments must be exchanged otherwise they can damage the other instrument gt Make sure the power cords are unplugged before disconnecting or reconnecting the autosampler fraction collector to thermostat cable 1 Switch OFF the power switch at the front of the cooled 2 Remove the power cable from the multisampler module multisampler 1290 Infinity M ultisampler User M anual 159 9 Maintenance Exchange the Power Supply Fuses Sample Cooler 4 Pull the fuse out of the fuse holder 5 Insert the new fuse into the fuse ho
87. ly is in maintenance position 1290 Infinity M ultisampler User M anual 125 9 Maintenance Exchange the Needle Seat 3 Disconnect the seat capillary from the Injection valve EI A HE eT h 4 Unclick the needle seat assembly carefully by lifting the leak tube from the holder 7 Inthe Instant Pilot close Change needle seat OR In the Agilent Lab Advisor software Change needle click End and wait until the needle assembly is in the needle park position 8 Close the front door 9 Perform a pressure test 126 1290 Infinity M ultisampler User M anual Maintenance 9 Replace the Rotor Seal Replace the Rotor Seal When When poor injection volume reproducibility or when injection valve is leaking Tools required p n Description 8710 0510 Wrench open 1 4 5 16 inch 8710 2394 Hex key 9 64 inch 15 cm long T handle Cleaning tissue and appropriate solvent like isopropanol or methanol Parts required p n Description 5068 0198 Rotor Seal for VICI Injection Valve PAEK CAUTION Reduced life time of the injection valve Component cleanliness is crucial for the life time of the injection valve gt Replace the rotor seal in a clean environment 1 Open the front door 2 Remove all capillaries from the injection valve with a 1 4 inch wrench NOTE Remember the correct plumbing 1290 Infinity M ultisampler User M anual 127 9 Maintenance
88. n CCYWWSSSSS Format cC country of manufacturing DE Germany JP Japan CN China YWW year and week of last major manufacturing change e g 820 could be week 20 of 1998 or 2008 SSSSS real serial number Serial Number Information 1260 Infinity The serial number information on the instrument labels provide the following information CCXZZ00000 Format cC Country of manufacturing DE Germany JP Japan CN China X Alphabetic character A Z used by manufacturing ZZ Alpha numeric code 0 9 A Z where each combination unambiguously denotes a module there can be more than one code for the same module 00000 Serial number 1290 Infinity M ultisampler User M anual 203 12 Hardware Information Interfaces The Agilent 1200 Infinity Series II modules provide the following interfaces Table 12 Agilent 1200 Infinity II Series Interfaces Module CAN USB LAN RS 232 Analog APG Special on board A ERI E Pumps G7104A Flexible Pump 2 No Yes Yes 1 A G7120A High Speed Pump 2 No Yes Yes 1 A Samplers G7129A B ALS 2 Yes No No E G7167A B Multisampler 2 Yes No No E Detectors G7114A B VWD 2 Yes Yes No 1 E G7117A B DAD 2 Yes Yes No 1 E G7115A B DAD 2 Yes Yes No 1 E Others G7116A MCT 2 No No No No No Requires a HOST module via CAN The detector DAD M WD FLD VW D RID is the preferred access point for control via LAN The inter module communication is done via CAN CAN connectors as interface to othe
89. narrow peaks and a stable baseline with minimal noise are desirable The choice of instrument configuration will have an effect and a major impact is the setup of the detector This section considers how sensitivity is affected by Pump mixer volume Narrower columns Detector flow cell Detector parameters In addition the discussion on detector parameters also mentions the related topics of selectivity and linearity Columns Sensitivity is specified as a signal to noise ratio S N and hence the need to maximize peak height and minimize baseline noise Any reduction in peak dispersion will help to maintain peak height and so extra column volume should be minimized by use of short narrow internal diameter connection capillaries and correctly installed fittings Using smaller inner diameter columns should result in higher peak height and is therefore ideal for applications with limited sample amounts If the same sample amount can be injected on a smaller i d column then the dilution due to column diameter will be less and the sensitivity will increase For example decreasing the column i d from 4 6 mm to 2 1 mm results in a theoretical gain in peak height of 4 7 times due to the decreased dilution in the column For a mass spectrometer detector the lower flow rates of narrow columns can result in higher ionization efficiencies and therefore higher sensitivity 1290 Infinity M ultisampler User M anual Optimizing Performa
90. nce 5 How to Achieve Lowest Carry Over Carryover is measured when residual peaks from a previous active containing injection appear in a subsequent blank solvent injection There will be carry over between active injections which may lead to erroneous results The level of carryover is reported as the area of the peak in the blank solution expressed as a percentage of the area in the previous active injection The Agilent 1290 Infinity Multisampler is optimized for lowest carryover by careful design of the flow path and use of materials in which sample adsorption is minimized A carryover figure of 0 001 should be achievable even when a triple quadrupole mass spectrometer is the detector Operating settings of the Multisampler allow the user to set appropriate parameters to minimize carryover in any application involving compounds liable to stick in the system The following functions of the Multisampler can be used to minimize carryover Internal needle wash External needle wash Needle seat backflush Injection valve cleaning The flow path including the inside of the needle is continuously flushed in normal operation providing good elimination of carryover for most situations Automated delay volume reduction ADVR will reduce the delay volume but will also reduce the flushing of the Standard Multisampler and should not be used with analytes where carryover might be a problem The outside of the needle can be washed usi
91. nd or software described in this document are furnished under a license and may be used or copied only in accor dance with the terms of such license Restricted Rights Legend If software is for use in the performance of a U S Government prime contract or subcon tract Software is delivered and licensed as Commercial computer software as defined in DFAR 252 227 7014 J une 1995 oras a commercial item as defined in FAR 2 101 a or as Restricted computer soft ware as defined in FAR 52 227 19 J une 1987 or any equivalent agency regulation or contract clause Use duplication or dis closure of Software is subject to Agilent Technologies standard commercial license terms and non DOD Departments and Agencies of the U S Government will receive no greater than Restricted Rights as defined in FAR 52 227 19 c 1 2 J une 1987 U S Government users will receive no greater than Limited Rights as defined in FAR 52 227 14 J une 1987 or DFAR 252 227 7015 b 2 November 1995 as applicable in any technical data Safety Notices CAUTION A CAUTION notice denotes a hazard It calls attention to an operating procedure practice or the like that if not correctly per formed or adhered to could result in damage to the product or loss of important data Do not proceed beyond a CAUTION notice until the indicated condi tions are fully understood and met A WARNING notice denotes a hazard It calls atte
92. nd or acids for example 2 CHCly O2 gt 2 COCly 2 HCl This reaction in which stainless steel probably acts as a catalyst occurs quickly with dried chloroform if the drying process removes the stabilizing alcohol 1290 Infinity M ultisampler User M anual Preparing the module 4 e Chromatographic grade ethers which can contain peroxides for example THF dioxane di isopropylether Such ethers should be filtered through dry aluminium oxide which adsorbs the peroxides e Solutions of organic acids acetic acid formic acid and so on in organic solvents For example a 1 solution of acetic acid in methanol will attack steel Solutions containing strong complexing agents for example EDTA ethylene diamine tetra acetic acid Mixtures of carbon tetrachloride with 2 propanol or THF Diamond Like Carbon DLC Diamond Like Carbon is inert to almost all common acids bases and solvents There are no documented incompatibilities for HPLC applications Fused silica and Quartz Si0 Fused silica is used in 1290 Infinity Flow Cells and capillaries Quartz is used for classical flow cell windows It is inert against all common solvents and acids except hydrofluoric acid and acidic solvents containing fluorides It is corroded by strong bases and should not be used above pH 12 at room temperature The corrosion of flow cell windows can negatively affect measurement results For a pH greater than 12 the use of flow
93. ndling of solvents samples and reagents can hold health and safety risks gt When working with these substances observe appropriate safety procedures for example by wearing goggles safety gloves and protective clothing as described in the material handling and safety data sheet supplied by the vendor and follow good laboratory practice gt The volume of substances should be reduced to the minimum required for the analysis gt Do not operate the instrument in an explosive atmosphere CAUTION Safety standards for external equipment gt If you connect external equipment to the instrument make sure that you only use accessory units tested and approved according to the safety standards appropriate for the type of external equipment 1290 Infinity M ultisampler User M anual 113 9 Maintenance Overview of Maintenance It is necessary to perform periodic inspection of this instrument to ensure its safe use It is possible to have these periodic inspections performed by Agilent service representatives on a contractual basis For information regarding the maintenance inspection contract contact your Agilent representative The following pages describe the maintenance simple repairs of the module that can be carried out without opening the main cover Table9 Overview of maintenance Procedure Typical interval minimum Notes Change 60000 needle into seat needle needle seat Change peristaltic 3000 h on time
94. ng a wash vial in a specific location or the needle can be washed using the flush port If a wash vial in a tray location specified by the user is chosen then this vial should have no septum and should contain a solvent suitable for washing the sample from the needle The septum is not used to avoid wiping contamination off the needle on the downstream only to re apply it on the upstroke The needle can be dipped into the vial multiple times This will be effective in removing a small degree of carryover but for more effective washing of the outside of the needle use the flushport 1290 Infinity M ultisampler User M anual 87 5 88 Optimizing Performance The flush port is located above and behind the needle seat and in the standard hardware configurationa peristaltic pump delivers the wash solvent It has a volume of 0 68 mL and the peristaltic pump delivers 5 mL min which means the flush port volume is completely refilled with fresh solvent in 7 s If the flush port is selected the user can set how long the outside of the needle is to be washed with fresh solvent This maybe as low as two or three seconds in routine situations where carryover is less of a problem and 10 20 s for more complete washing It is recommended that washing the outside of the needle in the flush port should be standard procedure to avoid contaminating the needle seat If the needle seat becomes contaminated it will have to be back flushed In the standard
95. nt Lab Advisor software help files 108 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual 9 Maintenance Introduction to Maintenance 110 Warnings and Cautions 112 Overview of Maintenance 114 CleantheModule 115 Removal and Installation of the Front Door 116 Remove the Needle Assembly 119 Install the Needle Assembly 122 Exchange the Needle Seat 125 Replace the Rotor Seal 127 Remove the Metering Seal 131 Install the Metering Seal 135 Replace the Peristaltic Pump Cartridge 139 Replace the Flushhead Seal 142 Replace the Injection Valve 144 Removing the Sample Loop Flex 145 Installing the Sample Loop Flex 147 Replace the Dummy Drawer 149 Optional Configurations 149 Installing and Replacing of Drawers Upgrade Drawer Kit 151 Configuration of the Hotel Drawers 155 Exchange the Power Supply Fuses Sample Cooler 159 Remove the Sample Cooler 161 Install the Sample Cooler 162 Replace the Module Firmware 165 This chapter describes the maintenance of the M ultisampler oe Agilent Technologies 109 9 Maintenance Introduction to M aintenance Peristaltic pump Metering device Dummy drawer Needle assembly Needle seat Injection valve 110 Figure 25 on page 110 shows the main user accessible assemblies of the multisampler These parts can be accessed from the front simple repairs and don t require to remove the multisampler from the system stack Figure 25 Main us
96. ntion to an operating procedure practice or the like that if not correctly performed or adhered to could result in personal injury or death Do not proceed beyond a WARNING notice until the indi cated conditions are fully under stood and met 1290 Infinity M ultisampler User M anual In This Guide In This Guide This manual covers the Agilent 1290 Infinity Multisampler G7167B 1 Introduction This chapter gives an introduction to the Multisampler 2 Site Requirements and Specifications This chapter provides information on environmental requirements physical and performance specifications 3 Using the Module This chapter explains the essential operational parameters of the module 4 Preparing the module This chapter explains the operational parameters of the module 5 Optimizing Performance This chapter gives hints on how to optimize the performance or use additional devices 6 Troubleshooting and Diagnostics This chapter gives an overview about the troubleshooting and diagnostic features and the different user interfaces 7 Error Information This chapter describes the meaning of error messages and provides information on probable causes and suggested actions how to recover from error conditions 8 Test Functions This chapter describes the built in test functions 1290 Infinity M ultisampler User M anual 3 In This Guide 9 Maintenance This chapter describes the maintenance of the Mult
97. ntoxication gt Instruments that appear damaged or defective should be made inoperative and secured against unintended operation until they can be repaired by qualified service personnel 224 1290 Infinity M ultisampler User M anual Appendix 14 Solvents WARNING Toxic flammable and hazardous solvents samples and reagents The handling of solvents samples and reagents can hold health and safety risks gt When working with these substances observe appropriate safety procedures for example by wearing goggles safety gloves and protective clothing as described in the material handling and safety data sheet supplied by the vendor and follow good laboratory practice gt The volume of substances should be reduced to the minimum required for the analysis gt Do not operate the instrument in an explosive atmosphere gt Never exceed the maximal permissible volume of solvents 6 L in the solvent cabinet gt Do not use bottles that exceed the maximum permissible volume as specified in the usage guideline for the Agilent 1200 Infinity Series Solvent Cabinets gt Arrange the bottles as specified in the usage guideline for the solvent cabinet gt A printed copy of the guideline has been shipped with the solvent cabinet electronic copies are available on the Internet gt Ground the waste container gt The residual free volume in the appropriate waste container must be large enough to collect the waste liq
98. nts for use Therefore the definition of the maximum limits need to be determined based on the specific operating conditions of the instrument Setting the EMF Limits The setting of the EMF limits must be optimized over one or two maintenance cycles Initially the default EMF limits should be set When instrument performance indicates maintenance is necessary take note of the values displayed by the EMF counters Enter these values or values slightly less than the displayed values as EMF limits and then reset the EMF counters to zero The next time the EMF counters exceed the new EMF limits the EMF flag will be displayed providing a reminder that maintenance needs to be scheduled 1290 Infinity M ultisampler User M anual 215 12 Hardware Information Early Maintenance Feedback 216 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual e H e e e c 0 ee 13 one LAN Configuration Setting up the module in a LAN environment Connecting the module viaLAN 219 218 This chapter provides information on connecting the detector to the Agilent ChemStation PC ee Agilent Technologies 217 13 LAN Configuration Setting up the module in a LAN environment It is not recommended to connect a system via an autosampler The detector is producing the most data in the stack followed by the pump and it is therefore highly recommended to use either of these modules for the LAN connection
99. nvolves changing the type of stationary phase C18 C8 phenyl nitrile etc the mobile phase and temperature to maximize the selectivity differences between the solutes to be separated This is a substantial piece of work which is best done with an automated method development system which allows a wide range of conditions on different columns and mobile phases to be assessed in an ordered scouting protocol This section considers how to get higher resolution with any chosen stationary and mobile phases If an automated method development system was used in the decision on phases it is likely that short columns were used for fast analysis in each step of the scouting 1290 Infinity M ultisampler User M anual 83 5 84 Optimizing Performance The resolution equation shows that the next most significant term is the plate count or efficiency N and this can be optimized in a number of ways N is inversely proportional to the particle size and directly proportional to the length of a column and so smaller particle size and a longer column will give a higher plate number The pressure rises with the inverse square of the particle size and proportionally with the length of the column This is the reason that the 1290 Infinity LC system was designed to go to 1200 bar so that it can run sub two micron particles and column length can be increased to 100 mm or 150 mm There are even examples of 100 mm and 150 mm columns linked to give 250 mm length
100. olume 75 How to Achieve Higher Injection Volumes 79 How to Achieve High Throughput 82 How to Achieve Higher Resolution 83 How to Achieve Higher Sensitivity 86 How to Achieve Lowest Carry Over 87 Troubleshooting and Diagnostics 91 Overview of the M odule s Indicators and Test Functions 92 Status Indicators 93 User Interfaces 95 Agilent Lab Advisor Software 96 Error Information 97 What Are Error Messages 98 General Error Messages 99 Test Functions 107 Tests and Calibrations in Agilent Lab Advisor 108 Maintenance 109 Introduction to Maintenance 110 Warnings and Cautions 112 Overview of Maintenance 114 Clean the Module 115 Removal and Installation of the Front Door 116 Remove the Needle Assembly 119 Install the Needle Assembly 122 Exchange the Needle Seat 125 Replace the Rotor Seal 127 Remove the M etering Seal 131 Install the Metering Seal 135 Replace the Peristaltic Pump Cartridge 139 Replace the Flushhead Seal 142 1290 Infinity M ultisampler User M anual Contents Replace the Injection Valve 144 Removing the Sample Loop Flex 145 Installing the Sample Loop Flex 147 Replace the Dummy Drawer 149 Exchange the Power Supply Fuses Sample Cooler 159 Remove the Sample Cooler 161 Install the Sample Cooler 162 Replace the Module Firmware 165 10 Parts for Maintenance and Upgrade or Options 167 Overview of Maintenance Parts 168 Sampler Main Assemblies 169 Hotel Drawer 171 Analytical Head Assembly 4
101. ooling air can be guided exactly to the required locations the plastic layers help cushion the electronic and mechanical parts from physical shock and the metal inner cabinet shields the internal electronics from electromagnetic interference and also helps to reduce or eliminate radio frequency emissions from the instrument itself 214 1290 Infinity M ultisampler User M anual Hardware Information 12 Early Maintenance Feedback Maintenance requires the exchange of components which are subject to wear or stress Ideally the frequency at which components are exchanged should be based on the intensity of usage of the module and the analytical conditions and not on a predefined time interval The early maintenance feedback EMF feature monitors the usage of specific components in the instrument and provides feedback when the user selectable limits have been exceeded The visual feedback in the user interface provides an indication that maintenance procedures should be scheduled EM F Counters EMF counters increment with use and can be assigned a maximum limit which provides visual feedback in the user interface when the limit is exceeded Some counters can be reset to zero after the required maintenance procedure Using the EM F Counters The user settable EMF limits for the EMF Counters enable the early maintenance feedback to be adapted to specific user requirements The useful maintenance cycle is dependent on the requireme
102. or do not leave HFIP in the chamber when the unit is off Sapphire Ruby and Al 03 based ceramics Sapphire ruby and ceramics based on aluminum oxide Al Og are inert to almost all common acids bases and solvents There are no documented incompatibilities for HPLC applications 1290 Infinity M ultisampler User M anual Preparing the module 4 Setting up the Autosampler with Agilent Open Lab ChemStation Setting up the Autosampler with Agilent Open Lab ChemStation The setup of the Multisampler is shown with the Agilent OpenLab ChemStation C 01 05 Depending on the controller e g Agilent Instant Pilot OpenLab EZChrom Masshunter the screens look different This section describes the autosampler settings only For information on the Agilent OpenLab ChemStation or other 1290 Infinity modules refer to the corresponding documentation Male een Sich em O 2 ower ih heh i ES PP ee Y Meee aren bs ened ome 3 verge naes j __ bens is Figure 16 ChemStation M ethod and Run Control After successful load of the OpenLab ChemStation you should see the module as an active item in the graphical user interface GUD 1290 Infinity M ultisampler User M anual 65 4 Preparing the module setl a tho g up the up Me Table6 The Autosampler User Interface Injector Program f Identity Device P T N Home All Switch on Tray Illumination Auto chean Prime Drawer Configurabon Right Capillaries R
103. oubleshooting and Diagnostics Overview of the M odule s Indicators and Test Functions Status Indicators The module is provided with two status indicators which indicate the operational state of the module The status indicators provide a quick visual check of the operation of the module Error Messages In the event of an electronic mechanical or hydraulic failure the module generates an error message in the user interface For each message a short description of the failure a list of probable causes of the problem and a list of suggested actions to fix the problem are provided see chapter Error Information Test Functions A series of test functions are available for troubleshooting and operational verification after exchanging internal components see Tests and Calibrations 92 1290 Infinity M ultisampler User M anual Troubleshooting and Diagnostics 6 Status Indicators Three status indicators are located on the front of the module The lower left indicates the power supply status the upper right indicates the module status and those on the drawers indicate the drawer status Module status Drawer status Power status Figure 24 Module status indicators Power Supply Indicator The power supply indicator is integrated into the main power switch When the indicator is illuminated green the power is ON Module Status Indicator The module status indicator indicates one of six possible module condition
104. parations Tubing blocked or broken Description p n Description 1 5042 6401 Peristalic Pump Pharmed 1 5065 4445 Peristaltic pump with Pharmed tubing Remove the inlet filter of the solvent bottle which guides the solvent to the peristaltic pump to avoid syphoning effects When opening capillary or tube fittings solvents may leak out The handling of toxic and hazardous solvents and reagents can hold health risks gt Please observe appropriate safety procedures for example goggles safety gloves and protective clothing as described in the material handling and safety data sheet supplied by the solvent vendor especially when toxic or hazardous solvents are used The peristaltic pump cartridge is a replaceable unit The tubing inside the pump is not replaceable 1290 Infinity M ultisampler User M anual 139 9 Maintenance Replace the Peristaltic Pump Cartridge 1 Open the front door 2 Press the two clips on the front of the peristaltic pump cartridge 3 Pull the cartridge forward off the motor shaft 4 Disconnect the tubing coupler leading to the wash port and the tubing coupler coming from the solvent bottle 140 1290 Infinity M ultisampler User M anual Maintenance 9 Replace the Peristaltic Pump Cartridge 5 Push the new cartridge onto the motor shaft until the 6 Connect the wash port tubing to the upper tubing of the clips click into place new cartridge use sand paper to get a good gr
105. pecially for basic compounds water base especially for acidic compounds water acetonitrile Material Information Materials in the flow path are carefully selected based on Agilent s experiences in developing highest quality instruments for HPLC analysis over several decades These materials exhibit excellent robustness under typical HPLC conditions For any special conditions please consult the material information section or contact Agilent 1290 Infinity M ultisampler User M anual Preparing the module 4 Disclaimer Subsequent data were collected from external resources and are meant as a reference Agilent cannot guarantee the correctness and completeness of such information Data is based on compatibility libraries which are not specific for estimating the long term life time under specific but highly variable conditions of UHPLC systems solvents solvent mixtures and samples Information can also not be generalized due to catalytic effects of impurities like metal ions complexing agents oxygen etc Apart from pure chemical corrosion other effects like electro corrosion electrostatic charging especially for non conductive organic solvents swelling of polymer parts etc need to be considered Most data available refers to room temperature typically 20 25 C 68 77 F If corrosion is possible it usually accelerates at higher temperatures If in doubt please consult technical literature on chemical compatibility of
106. ple loop flex install 147 removal 145 sampler main assemblies 169 tubing kit 183 sensitivity optimization 86 1290 Infinity M ultisampler User M anual serial number information 203 203 setup LAN 218 shutdown 100 site requirements powercords 25 solvents 233 sound emission 232 special interfaces 208 specification physical 28 status indicators 93 41 T temperature sensor 105 test functions 92 timeout 99 transport 53 troubleshooting error messages 92 98 status indicators 92 tubing kit sampler 183 V voltage range 28 W waste electrical and electronic equipment 228 WEEE directive 228 weight 28 1290 Infinity M ultisampler User M anual Index 237 www agilent com In This Book This manual contains technical reference information about the Agilent 1290 Infinity Multisampler G7167B The manual describes the following Introduction Site requirements and specifications Using the module Preparing the module Optimizing performance Troubleshooting and diagnostics Error information Test functions Maintenance Parts Hardware information LAN configuration Safety and related information Agilent Technologies 2014 Printed in Germany 08 2014 Er1B7 80000 G7167 90000 os Agilent Technologies
107. properly 1 Start OpenLAB CDS ChemStation Edition 2 Right click on the Multisampler GUI Multisampler amp OO g Idie M 156 1290 Infinity M ultisampler User M anual Maintenance 9 Replace the Dummy Drawer 3 Select Modify gt Drawer Configuration in the GUI screen 4 Follow the Setup or Change configuration screen 5 System is ready after the robot has done Auto Referencing 1290 Infinity M ultisampler User M anual 157 9 Maintenance Software required Preparations 158 Configure the Hotel Drawers in Lab Advisor Lab Advisor B 02 05 or above e Stop the acquisition run Remove the sample containers trays and well plates from workspace Complete the drawer installation e Remove the sample containers trays and well plates from the drawers e Verify that all sample trays palettes are installed in their drawers All open drawers and dummies have to be closed and installed properly 1 Start the Lab Advisor Software 2 Connect the instrument and select Instrument Control in the system screen 3 Switch In the Configuration menu of the Multisampler Select Detect Drawers in the Hotel Configuration Configuration Set Piste Type Matar Corfags mbar Drawers Plate type Frot gt gt gt none lt lt lt few 3ARetSpecial SvialPiae JHAgileet Synge 40 4 54267 40042 X IMPCR_EPOF 5 4 vial Plate MEdcilert Saat Capillary Seat assembly 0 12mm 1250F 4 Loop Capi
108. r modules LAN connector as interface to the control software RS 232C as interface to a computer 204 1290 Infinity M ultisampler User M anual Hardware Information 12 USB Universal Series Bus as interface to a computer REMOTE connector as interface to other Agilent products Analog output connector s for signal output Overview Interfaces CAN The CAN is inter module communication interface It is a 2 wire serial bus system supporting high speed data communication and real time requirement LAN The modules have either an interface slot for an LAN card e g Agilent G1369B C LAN Interface or they have an on board LAN interface e g detectors G1315C D DAD and G1365C D MWD This interface allows the control of the module system via a PC with the appropriate control software Some modules have neither on board LAN nor an interface slot for a LAN card e g G1170A Valve Drive or G4227A Flex Cube These are hosted modules and require a Host module with firmware B 06 40 or later or with additional G1369C LAN Card If an Agilent detector DAD MW D FLD VW D RID is in the system the LAN should be connected to the DAD MW D FLD VW D RID due to higher data load If no Agilent detector is part of the system the LAN interface should be installed in the pump or autosampler RS 232C Serial The RS 232C connector is used to control the module from a computer through RS 232C connection using the appropriate softwa
109. re For digital circuits or similar Provided 500 mA maximum Short circuit proof with automatic switch off by firmware 24V Distribution Future Use Available by firmware command defined turn on off For devices that need higher power Class 0 0 5 A maximum 12 W Class 1 1 0 A maximum 24 W Class 2 2 0 A maximum 48 W e Class depends on hosting module s internal power overhead If a connected device requires more power the firmware detects this overcurrent detection and provides the information to the user interface Fuse used for safety protection on board Short circuit will be detected through hardware 1290 Infinity M ultisampler User M anual 211 12 Hardware Information Setting the 6 bit Configuration Switch Setting the 6 bit Configuration Switch The 6 bit configuration switch is located at the rear of the module with FUSION electronics Switch settings provide configuration parameters for LAN and instrument specific initialization procedures All modules with FUSION electronics Default is ALL switches DOWN best settings Default IP address for LAN 192 168 254 11 For specific LAN modes switches 4 5 must be set as required For boot resident cold start modes switches 1 2 or 6 must be UP Figure 45 Location of Configuration Switch example shows a G7114A B VWD 212 1290 Infinity M ultisampler User M anual Hardware Information 12 Table 15 6 bit Conf
110. re This connector can be configured with the configuration switch module at the rear of the module Refer to Communication Settings for RS 232C 1290 Infinity M ultisampler User M anual 205 12 Hardware Information There is no configuration possible on main boards with on board LAN These are pre configured for 19200 baud e 8 data bit with no parity and one start bit and one stop bit are always used not selectable The RS 232C is designed as DCE data communication equipment with a 9 pin male SUB D type connector The pins are defined as Table 13 RS 232C Connection Table Pin Direction Function 1 In DCD 2 In RxD 3 Out TxD 4 Out DTR 5 Ground 6 In DSR 7 Out RTS 8 In CTS 9 In RI 206 1290 Infinity M ultisampler User M anual Hardware Information 12 Instrument PC DCD 1 1 DCD RX 2 2 RX TX 3 3 TX DTR 4 4 DTR GND 5 5 GND DSR 6 6 DSR RTS 7 7 RTS CTS 8 8 CTS RI 9 9 RI DB9 D89 DB9 DB9 Male Female Female Male Figure 43 RS 232 Cable Analog Signal Output The analog signal output can be distributed to a recording device For details refer to the description of the module s main board APG Remote The APG Remote connector may be used in combination with other analytical instruments from Agilent Technologies if you want to use features as common shut down prepare and so on Remote control allows easy connection between single instruments or systems to ensure coordinated analysis with s
111. robable cause 1 Defective leak sensor 2 Leak sensor incorrectly routed being pinched by a metal component Suggested actions Please contact your Agilent service representative Please contact your Agilent service representative 1290 Infinity M ultisampler User M anual Error Information 7 Leak Sensor Open Error ID 0083 The leak sensor in the module has failed open circuit The current through the leak sensor is dependent on temperature A leak is detected when solvent cools the leak sensor causing the leak sensor current to change within defined limits If the current falls outside the lower limit the error message is generated Probable cause Suggested actions 1 Leak sensor not connected to the main Please contact your Agilent service board representative 2 Defective leak sensor Please contact your Agilent service representative 3 Leak sensor incorrectly routed being Please contact your Agilent service pinched by a metal component representative Compensation Sensor Open Error ID 0081 The ambient compensation sensor NTC on the main board in the module has failed open circuit The resistance across the temperature compensation sensor NTC on the main board is dependent on ambient temperature The change in resistance is used by the leak circuit to compensate for ambient temperature changes If the resistance across the sensor increases above the upper limit the error message is generated
112. rument WARNING Missing electrical ground Electrical shock gt If your product is provided with a grounding type power plug the instrument chassis and cover must be connected to an electrical ground to minimize shock hazard gt The ground pin must be firmly connected to an electrical ground safety ground terminal at the power outlet Any interruption of the protective grounding conductor or disconnection of the protective earth terminal will cause a potential shock hazard that could result in personal injury 1290 Infinity M ultisampler User M anual 223 14 Appendix Do Not Operate in an Explosive Atmosphere WARNING Presence of flammable gases or fumes Explosion hazard gt Do not operate the instrument in the presence of flammable gases or fumes Do Not Remove the Instrument Cover WARNING Instrument covers removed Electrical shock gt Do Not Remove the Instrument Cover gt Only Agilent authorized personnel are allowed to remove instrument covers Always disconnect the power cables and any external circuits before removing the instrument cover Do Not Modify the Instrument Do not install substitute parts or perform any unauthorized modification to the product Return the product to an Agilent Sales and Service Office for service and repair to ensure that safety features are maintained In Case of Damage WARNING Damage to the module Personal injury for example electrical shock i
113. rwise no special precautions are needed for the modules Heavy weight The module is heavy gt 22 kg gt 46 lbs gt Carry the module at least with 2 people gt Avoid back strain or injury by following all precautions for lifting heavy objects gt Ensure that the load is as close to your body as possible gt Ensure that you can cope with the weight of your load CAUTION Mechanical damage of the module If the transport assembly is not parked the module could be damaged due to excessive shock of the shipping container during transport gt Always park the transport assembly before shipment 1290 Infinity M ultisampler User M anual 53 3 Using the Module If the multisampler with a sample cooler needs to be shipped to another location via carrier ensure The two modules are shipped in separate boxes The Sample handler of the multisampler is parked see Park Robot in Agilent Lab Advisor online help for more information The sample containers vial trays are removed from the sample hotel The condensed water inside of the sample cooler is removed 54 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual KP e o e 0 ee 4 7 e Preparing the module amp a Leak and Waste Handling 56 Preparing the Multisampler 58 Solvent Information 60 Setting up the Autosampler with Agilent Open Lab ChemStation 65 Control Settings 68 Method Parameter Set
114. s When the status indicator is OFF and power switch light is on the module is in a prerun condition and is ready to begin an analysis 1290 Infinity M ultisampler User M anual 93 6 94 Troubleshooting and Diagnostics A green status indicator indicates the module is performing an analysis run mode A yellow indicator indicates a not ready condition The module is in a not ready state when it is waiting for a specific condition to be reached or completed for example immediately after changing a set point or while a self test procedure is running An error condition is indicated when the status indicator is red An error condition indicates the module has detected an internal problem which affects correct operation of the module Usually an error condition requires attention e g leak defective internal components An error condition always interrupts the analysis If the error occurs during analysis it is propagated within the LC system i e a red LED may indicate a problem of a different module Use the status display of your user interface for finding the root cause module of the error A red blinking indicator indicates that the module is in resident mode e g during update of main firmware A fast red blinking indicator indicates that the module is in a low level error mode In such a case try to re boot the module or try a cold start see Table 15 on page 213 Then try a firmware update see Repla
115. s USB To connect a USB Flash Drive use a USB OTG cable with Mini B plug and A socket for future use 196 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual 12 Hardware Information Firmware Description 198 Electrical Connections 201 Rear view ofthe module 202 Information on Instrument SerialNumber 203 Interfaces 204 Overview Interfaces 205 ERI Enhanced Remote Interface 209 Setting the 6 bit Configuration Switch 212 Instrument Layout 214 Early Maintenance Feedback 215 This chapter describes the module in more detail on hardware and electronics ot Agilent Technologies 197 12 Hardware Information Firmware Description 198 The firmware of the instrument consists of two independent sections e a non instrument specific section called resident system an instrument specific section called main system Resident System This resident section of the firmware is identical for all Agilent 1100 1200 1220 1260 1290 series modules Its properties are e the complete communication capabilities CAN LAN and RS 232C memory management ability to update the firmware of the main system Main System Its properties are the complete communication capabilities CAN LAN and RS 232C memory management ability to update the firmware of the resident system In addition the main system comprises the instrument functions that are divided into common functions like run
116. setup it must be done by manually changing the flow connections to clean it In this standard configuration the task can be done automated by using the Flexible Cube module If you have installed the multiwash option of the Agilent 1290 Multisampler for priming of the flushport a micro piezo pump with 3 different wash solvent connections is installed the integrated high pressure flush pump which will do the seat back flush The flush port and its solvent delivery pump and tubing should be regularly flushed to ensure the lowest carryover For example before using the system each day prime the flush pump for three minutes with appropriate solvent When other measures have failed to eliminate carryover it might be that analyte is sticking inside the injector valve With auto clean feature in the CDS system the injector valve can be set to make additional switching movements to clean out the flow path in the valve if problems occur here with carryover If the problem compounds need a high percentage of organic phase for elution it is recommended to switch the injection valve at the high percentage of organic phase after the last peak has eluted It is also recommended to switch the injection valve again after the initial conditions for the mobile phase have stabilized This ensures that the bypass groove in the rotor seal of the valve contains the gradient start conditions which is especially important for flow rates below 0 5 mL min For samples
117. system In effect this means that in every HPLC system there is an additional isocratic segment in the gradient profile at the start of every run Usually the gradient profile is reported in terms of the mixture settings at the pump and the delay volume is not quoted even though this will have an effect on the chromatography This effect becomes more significant at low flow rates and small column volumes and can have a large impact on the transferability of gradient methods It is important therefore for fast gradient separations to have small delay volumes especially with narrow bore columns e g 2 1 mm i d as often used with mass spectrometric detection 1290 Infinity M ultisampler User M anual Optimizing Performance 5 How to Configure the Optimum Delay Volume For very fast gradients over 0 5 min the delay volume of the system can be easily reduced without changing the physical configuration of the system The change is achieved by changing the behavior of the multisampler The 180 uL delay volume of the autosampler is due to the flow path from the injection valve through the metering device needle needle seat and connecting capillaries back to the injection valve see Table 8 on page 76 To make an injection the valve switches from mainpass to bypass so that the metering device can draw the sample into the needle capillary The injection is made when the valve switches back to mainpass and the sample is flushed onto the column The
118. t 6 Close the spanner 7 Reconnect the capillaries 1290 Infinity M ultisampler User M anual Maintenance 9 Removing the Sample Loop Flex When If the sample loop flex is defective or damaged Tools required p n Description 8710 0510 Wrench open 1 4 5 16 inch Parts required p n Description 64267 60300 Sample Loop Flex 20 uL right red coded 64267 60400 Sample Loop Flex 40 uL right green coded G4267 60500 Sample Loop Flex 100 uL right blue coded Preparations Finish any pending acquisition job and return any plate on the workspace back to the hotel WARNING Risk of injury by uncovered needle An uncovered needle is a risk of harm to the operator gt Do not open the safety lock of the needle assembly gt Be careful working at the z robot gt Wear safety goggles when removing the needle assembly 1 In the Instant Pilot start the maintenance mode and select Change needle seat function OR In the Agilent Lab Advisor software select Service amp Diagnostics in the system screen Tools Maintenance Positions gt Change Needle Loop click Start and wait until the needle assembly is in maintenance position 2 Open the front door 3 Disconnect the sample loop flex capillary from the analytical head 1290 Infinity M ultisampler User M anual 145 9 Maintenance CAUTION Damage of the loop The loop shape may be damaged if the loop is stretched or bent too far gt Avoid to change the loop shape
119. t and recognize further add ons that could be connected to this interface This way the interface can support various additional devices like sensors triggers in and out and small controllers etc Figure 44 Location of the ERI interface example shows a G7114A B VWD 1290 Infinity M ultisampler User M anual 209 12 Hardware Information 210 B 5 Enhanced Remote m 101 102 103 10 4 105 106 107 108 1 wire DATA DGN D 5 V ERI out PGND PGND 24 V ERI out D Sub female 15way user s view to connector TOI ol 901 sol o ol zol soi 9 ASt TO Avz amp Avze GNSod amp anod O ansa woJd3MT Ol OA AIH IOI FP UJN Ha ee l a a A w NY e O 24 V ERI out 10 Input Output Lines Eight generic bi directional channels input or output Same as the APG Remote e Devices like valves relays ADCs DACs controllers can be supported controlled 1 Wire Data Future Use This serial line can be used to read out an EPROM or write into an EPROM of a connected ERI device The firmware can detect the connected type of device automatically and update information in the device if required 1290 Infinity M ultisampler User M anual Hardware Information 12 5V Distribution Future Use Available directly after turn on oft the hosting module assures that certain base functionality of the device can be detected by firmwa
120. t the rotor sealing surface with its engraved flow passages is facing out The pattern is asymmetrical to prevent improper placement 1290 Infinity M ultisampler User M anual 129 9 Maintenance Replace the Rotor Seal 7 Reinstall the stator head The index pins on the drive and the stator head must engage in the corresponding holes Insert the two socket head screws 8 Using a 9 64 in L Hex wrench tighten each screw gently until you feel resistance approximately fingertight Tighten each screw by 1 8 turn and then tighten each screw again until the stator is secured to the driver Do not over tighten the screws The screws hold the assembly together and do not affect the sealing force The sealing force is automatically set as the screws close the stator head against the valve body 9 Reconnect all capillaries to the proper injection valve ports with a 1 4 inch wrench 10 Close the front door 11 Perform a pressure test 130 1290 Infinity M ultisampler User M anual Maintenance 9 Remove the M etering Seal When When poor injection volume reproducibility or when metering device analytical head is leaking Tools required p n Description 8710 0510 Wrench open 1 4 5 16 inch 8710 2392 4mm Hex key 01018 23702 Insert tool Parts required p n Description 1 0905 1717 Metering seal for 40 uL analytical head 1 0905 1719 Metering seal 100 uL for 100 uL analytical head 1 5067 59
121. tep should always include the mobile phase as solvent to get the initial conditions again Figure5 Valve in bypass needle backflush M ultiwash 1290 Infinity M ultisampler User M anual Introduction 1 System Overview System Overview Leak and Waste Handling The 1200 Infinity Series has been designed for safe leak and waste handling It is important that all security concepts are understood and instructions are carefully followed Figure6 Leak and waste handling concept overview typical stack configuration as an example 1290 Infinity M ultisampler User M anual 19 1 20 Introduction The solvent cabinet 1 is designed to store a maximum volume of 6 L solvent The maximum volume for an individual bottle stored in the solvent cabinet should not exceed 2 5 L For details see the usage guideline for the Agilent 1200 Infinity Series Solvent Cabinets a printed copy of the guideline has been shipped with the solvent cabinet electronic copies are available on the Internet The leak pan 2 individually designed in each module guides solvents to the front of the module The concept covers also leakages on internal parts e g the detector s flow cell The leak sensor in the leak pan stops the running system as soon as the leak detection level is reached The leak pan s outlet port 8 A guides excessive overfill from one module to the next as the solvent flows into the next module s leak funnel 3 B and
122. the connected corrugated waste tube 3 C The corrugated waste tube guides the solvent to the next lower positioned module s leak tray and sensor The waste tube of the sampler s needle wash port 4 guides solvents to waste The condense drain outlet of the autosampler cooler 5 guides condensate to waste The waste tube of the purge valve 6 guides solvents to waste The waste tube connected to the leak pan outlet on each of the bottom instruments 7 guides the solvent to a suitable waste container Warning Attention Warnung Attenzione Advertencia Disconnect power cord before moving D branchez le cordon secteur avant tout d placement Entlernen Sie das Netzkabel bevor Sie das Gerat bewegen TT Scollegare i cavo di alimentazone pama di spostare lo strumento Desconectar ol aparato de la red antes de moverio K w Figure7 Warning label illustration for correct waste tubing 1290 Infinity M ultisampler User M anual Introduction 1 System Overview Leak and Waste Handling in a Mixed Configuration The leak pan outlet of the upper module must be vertically positioned above the leak tray of the lower module Detector Oven Sampler For the lowest module the central waste is guided directly into the waste container Pump Figure8 Leak and waste handling with multisampler in a mixed configuration as an example 1290 Infinity M ultisampler User M anual 21 1 Introduction System Overview
123. threshold analysis where required 1290 Infinity M ultisampler User M anual 99 7 Error Information Shutdown Error ID 0063 An external instrument has generated a shutdown signal on the remote line The module continually monitors the remote input connectors for status signals A LOW signal input on pin 4 of the remote connector generates the error message Probable cause Suggested actions 1 Leak detected in another module with a Fix the leak in the external instrument before CAN connection to the system restarting the module 2 Leak detected in an external instrument Fix the leak in the external instrument before with a remote connection to the system restarting the module 3 Shut down in an external instrument with a Check external instruments for a shut down remote connection to the system condition 100 1290 Infinity M ultisampler User M anual Error Information 7 Remote Timeout Error ID 0070 A not ready condition is still present on the remote input When an analysis is started the system expects all not ready conditions for example a not ready condition during detector balance to switch to run conditions within one minute of starting the analysis If a not ready condition is still present on the remote line after one minute the error message is generated Probable cause Suggested actions 1 Not ready condition in one of the Ensure the instrument showing the not ready instruments connected to the remote
124. thylene has a good stability for most common inorganic solvents including acids and bases in a pH range of 1 to 12 5 It is compatible to many organic solvents used in chromatographic systems like methanol acetonitrile and isopropanol It has limited stability with aliphatic aromatic and halogenated hydrocarbons THF phenol and derivatives concentrated acids and bases For normal phase applications the maximum pressure should be limited to 200 bar Tantalum Ta Tantalum is inert to most common HPLC solvents and almost all acids except fluoric acid and acids with free sulfur trioxide It can be corroded by strong bases e g hydroxide solutions gt 10 diethylamine It is not recommended for the use with fluoric acid and fluorides Stainless Steel ST Stainless steel is inert against many common solvents It is stable in the presence of acids and bases in a pH range of 1 to 12 5 It can be corroded by acids below pH 2 3 It can also corrode in following solvents Solutions of alkali halides their respective acids for example lithium iodide potassium chloride and so on and aqueous solutions of halogens High concentrations of inorganic acids like nitric acid sulfuric acid and organic solvents especially at higher temperatures replace if your chromatography method allows by phosphoric acid or phosphate buffer which are less corrosive against stainless steel Halogenated solvents or mixtures which form radicals a
125. tings 69 Module Configuration 71 This chapter explains the operational parameters of the module ot Agilent Technologies 55 4 Preparing the module Leak and Waste Handling WARNING Toxic flammable and hazardous solvents samples and reagents The handling of solvents samples and reagents can hold health and safety risks gt When working with these substances observe appropriate safety procedures for example by wearing goggles safety gloves and protective clothing as described in the material handling and safety data sheet supplied by the vendor and follow good laboratory practice gt The volume of substances should be reduced to the minimum required for the analysis gt Do not operate the instrument in an explosive atmosphere gt Never exceed the maximal permissible volume of solvents 6 L in the solvent cabinet gt Do not use bottles that exceed the maximum permissible volume as specified in the usage guideline for the Agilent 1200 Infinity Series Solvent Cabinets gt Arrange the bottles as specified in the usage guideline for the solvent cabinet gt A printed copy of the guideline has been shipped with the solvent cabinet electronic copies are available on the Internet gt Ground the waste container gt The residual free volume in the appropriate waste container must be large enough to collect the waste liquid gt Check the filling level of the waste container regularly gt To ac
126. tion sequence and during an analysis the injection valve is in the mainpass position In this position the mobile phase flows through the Multisampler metering device sample loop and needle ensuring all parts in contact with sample are flushed during the run thus minimizing carry over Figure1 Valve in mainpass flow through When the sample sequence begins the valve unit switches to the bypass position Solvent from the pump enters the valve unit at port 1 and flows directly to the column through port 6 The standard injection starts with draw sample from vial wellplate from the central workstation In order to do this the needle assembly moves via robot to the desired sample position and is lowered into the sample liquid in the sample to allow the metering device to draw up the desired volume by moving its plunger back a certain distance The needle assembly is then raised again and moved to the needle park station onto the seat to close 1290 Infinity M ultisampler User M anual 15 1 Introduction the sample loop In case of an injector program several steps are interspersed at this point Figure 2 Valve in bypass drawing sample Flush the Needle Before injection and to reduce the carry over for very sensitive analysis the outside of the needle can be washed in a flush port located behind the injector port As soon as the needle is on the flush port a wash pump delivers some solvent during a defined time to clean t
127. truments with instrument status Early Maintenance Feedback counters EMF instrument configuration information and diagnostic tests By the push of a button a detailed diagnostic report can be generated Upon request the user can send this report to Agilent for a significantly improved troubleshooting and repair process The Agilent Lab Advisor software is available in two versions Lab Advisor Basic Lab Advisor Advanced Lab Advisor Basic is included with every Agilent 1200 Infinity Series and Infinity II Series pump The Lab Advisor Advanced features can be unlocked by purchasing a license key and include real time monitoring of instrument actuals all various instrument signals and state machines In addition all diagnostic test results calibration results and acquired signal data can be uploaded to a shared network folder The Review Client included in Lab Advisor Advanced allows to load and examine the uploaded data no matter on which instrument it was generated This makes Data Sharing an ideal tool for internal support groups and users who want to track the instrument history of their analytical systems The optional Agilent Maintenance Wizard Add on provides an easy to use step by step multimedia guide for performing preventive maintenance on Agilent 1200 Infinity and Infinity II Series instruments The tests and diagnostic features that are provided by the Agilent Lab Advisor software may differ from the descriptions
128. ugh the fins of the cooling module There it is cooled according the temperature setting The cooled air enters the Sampler Hotel through a recess underneath the special designed base plate The air is then distributed evenly through the Sample Hotel ensuring effective temperature control regardless of how many sample container are in the drawer In cooling mode condensation is generated on the cooled side of the Sample Cooler This condensed water is safely guided into a waste bottle for condensed water 1290 Infinity M ultisampler User M anual 13 1 Introduction Multisampler Principle 14 The movements of the Multisampler components during the sampling sequence are monitored continuously by the Multisampler processor The processor defines specific time windows and mechanical ranges for each movement If a specific step of the sampling sequence is not completed successfully an error message is generated Solvent is bypassed from the Multisampler by the injection valve during the sampling sequence After the required sample container was automatically loaded from the sample hotel and placed on the central workspace The Needle assembly moves via robot to the desired sample position and is lowered into the sample liquid in the sample to allow the metering device to draw up the desired volume by moving its plunger back a certain distance The needle assembly is then raised again and moved to the needle park station onto the seat to close th
129. uid gt Check the filling level of the waste container regularly gt To achieve maximal safety check the correct installation regularly 1290 Infinity M ultisampler User M anual 225 14 Appendix 226 Symbols Table 16 Symbols P el O gt BP Pcs The apparatus is marked with this symbol when the user should refer to the instruction manual in order to protect risk of harm to the operator and to protect the apparatus against damage Indicates dangerous voltages Indicates a protected ground terminal Indicates eye damage may result from directly viewing the light produced by the deuterium lamp used in this product The apparatus is marked with this symbol when hot surfaces are available and the user should not touch it when heated up Cooling unit is designed as vapor compression refrigeration system Contains fluorinated greenhouse gas refrigerant according to the Kyoto protocol For specifications of refrigerant charge capacity carbon dioxide equivalent CDE and global warming potential GWP see instrument label Confirms that a manufactured product complies with all applicable European Community directives The European Declaration of Conformity is available at http regulations corporate agilent com DoC search htm Manufacturing date Power symbol indicates On Off The apparatus is not completely disconnected from the mains supply when the power switch is in the Off position Pa
130. ultisampler User M anual UsingtheModule 3 Magnets Figure 14 Position of the magnet at the dummy drawer 1290 Infinity M ultisampler User M anual 39 3 Using the Module Turn on off Turn on off Power switch 1 On 2 Off 40 1290 Infinity M ultisampler User M anual UsingtheModule 3 Status indicators Three status indicators are located on the front of the module The lower left indicates the power supply status the upper right indicates the module status and those on the drawers indicate the drawer status Module status Drawer status Power status Figure 15 Module status indicators Power Supply Indicator The power supply indicator is integrated into the main power switch When the indicator is illuminated green the power is ON Module Status Indicator The module status indicator indicates one of six possible module conditions When the status indicator is OFF and power switch light is on the module is in a prerun condition and is ready to begin an analysis 1290 Infinity M ultisampler User M anual 41 3 42 Using the Module A green status indicator indicates the module is performing an analysis run mode A yellow indicator indicates a not ready condition The module is in a not ready state when it is waiting for a specific condition to be reached or completed for example immediately after changing a set point or while a self test procedure is runn
131. ure 17 Method parameter settings For additional help and support Highlight the desired cell and press the F1 key A help screen will open with additional information and documentation about the topic 4 Preparing the module uas Injection Mode Needle Wash wma iee Er The settable Injection volume is depending on what kind of configuration is installed Default configuration 0 1 It is possible to select between using the Standard Wash or Standard Wash off Using needle wash is one option to obtain minimum carry over ean The Injection cleaning section allows you to select maven between the Standard Wash option and the Multi wash C option With the Standard Wash default configuration you can choose between two modes the Flush port or Wash Vial If the Multi Wash option is installed anes additional hardware is required you can use Needle Wash and Seat Back Flush together to obtain the lowest carry over See Stoptime Posttime i m Reetline io A Multisampler Stoptime can be set For equilibration of the Multisampler a Posttime can be set 70 1290 Infinity M ultisampler User M anual Preparing the module 4 Setting up the Autosampler with Agilent Open Lab ChemStation Module Configuration The settings are available via menu Instrument gt Instrument Configuration gt Multisampler Configuration Device name based on the module Type ID based on the module product number Some modules may allow chang
132. violates safety standards of design manufacture and intended use of the instrument Agilent Technologies assumes no liability for the customer s failure to comply with these requirements WARNING Ensure the proper usage of the equipment The protection provided by the equipment may be impaired gt The operator of this instrument is advised to use the equipment in a manner as specified in this manual Safety Standards This is a Safety Class I instrument provided with terminal for protective earthing and has been manufactured and tested according to international safety standards General Do not use this product in any manner not specified by the manufacturer The protective features of this product may be impaired if it is used in a manner not specified in the operation instructions 222 1290 Infinity M ultisampler User M anual Appendix 14 Before Applying Power WARNING Wrong voltage range frequency or cabling Personal injury or damage to the instrument gt Verify that the voltage range and frequency of your power distribution matches to the power specification of the individual instrument gt Never use cables other than the ones supplied by Agilent Technologies to ensure proper functionality and compliance with safety or EMC regulations gt Make all connections to the unit before applying power Note the instrument s external markings described under Symbols on page 226 Ground the Inst
133. ware Information 200 Main FW update Resident System Main System Resident FW Update Figure 41 Firmware Update M echanism Some modules are limited in downgrading due to their main board version or their initial firmware revision For example a G1315C DAD SL cannot be downgraded below firmware revision B 01 02 or to a A XX xx Some modules can be re branded e g G1314C to G1314B to allow operation in specific control software environments In this case the feature set of the target type are use and the feature set of the original are lost After re branding e g from G1314B to G1314C the original feature set is available again All these specific informations are described in the documentation provided with the firmware update tools The firmware update tools firmware and documentation are available from the Agilent web http www chem agilent com _layouts agilent downloadFirmware aspx whid 69761 1290 Infinity M ultisampler User M anual Hardware Information 12 Electrical Connections The CAN bus is a serial bus with high speed data transfer The two connectors for the CAN bus are used for internal module data transfer and synchronization One analog output provides signals for integrators or data handling systems The ERI REMOTE connector may be used in combination with other analytical instruments from Agilent Technologies if you want to use features such as start stop common shutdown
134. where the outside of the needle cannot be cleaned sufficiently with water or alcohol from the flush pump use wash vials with an appropriate solvent With an injector program several wash vials can be used for cleaning 1290 Infinity M ultisampler User M anual Optimizing Performance 5 The optimum carry over performance of the Multisampler is achieved after a run in period of new instruments or after the exchange of consumable parts like needle needle seat and valve parts During injections in this period surfaces of these parts adjust to each other After this period we recommend back flushing the needle seat in order to get the sealing areas between needle and needle seat clean Regular Preventive Maintenance service is recommended as the carry over performance of the Autosampler depends on the integrity of these consumable parts 1290 Infinity M ultisampler User M anual 89 5 90 Optimizing Performance How to Achieve Lowest Carry Over 1290 Infinity M ultisampler User M anual 1290 Infinity M ultisampler User M anual 6 Troubleshooting and Diagnostics Overview of the M odule s Indicators and Test Functions 92 Status Indicators 93 Power Supply Indicator 93 Module Status Indicator 93 Drawer Status Indicator 94 User Interfaces 95 Agilent Lab Advisor Software 96 This chapter gives an overview about the troubleshooting and diagnostic features and the different user interfaces ott Agilent Technologies 91 6 Tr
135. y Kit 1 5063 6527 Tubing assembly i d 6 mm o d 9 mm 1 2 m to waste 2 5181 1519 CAN cable Agilent module to module 1 m 3 5500 1157 Capillary ST 0 12 mmx500 mm 4 G4220 60007 Bottle Head Assembly 5 5043 1013 Tubing Clip lt ied ae ee a5 4 v l 1 ag _ 3 Figure 38 Accessory kit standard 182 1290 Infinity M ultisampler User M anual Parts for Maintenance and Upgrade or Options 10 Tubing Kit Sampler Standard Tubing Kit Sampler Standard Item p n Description 64267 60061 Tubing Kit Sampler Standard contains 1 5500 1155 Tube Connector 90 degree ID 6 4 2 5042 6422 Tubing connector 1 mm o d 3 0100 1846 UNION TEFZEL 4 0100 1708 Nut 1 8 PPS 5 0890 1760 Tubing Flexible 1 ea 1 meter 6 0100 1700 FERRULE AY 18IN 7 5042 9974 Tubing Flex 1 5 m 5 3 Figure 39 Tubing kit sampler standard 1290 Infinity M ultisampler User M anual 183 10 Parts for Maintenance and Upgrade or Options Sample Cooler Sample Cooler Item p n Description 1 G4267 60005 Sample Cooler G4267 81015 Cable Power Sample Cooler not shown G4267 81014 Cable Ribbon Sample Cooler not shown 2110 1519 Fuse 3 50 A125 V not shown Figure 40 Sample cooler 184 1290 Infinity M ultisampler User M anual This chapter provides information on cables used with the modules 1290 Infinity M ultisampler User M anual 11 Identifying Cables Cable Overview 186 AnalogCables 188 Remote Cables 190 CAN LAN Cables 194 Ag

Download Pdf Manuals

image

Related Search

Related Contents

measuring indicators catalog  イベント会場等における火気取扱い時の留意事項  Manual do usuário  tour-pak for flhp/e/i, flhtp/i police models - Harley  Lindy KVM Extender C5 PRO-300  Manuale di Installazione Manuale di Installazione IT  User Guide    Tektronix: Products > Curve Tracers 370B 371B  User's Guide EasyCoder® PM4i Bar Code Label Printer  

Copyright © All rights reserved.
Failed to retrieve file