Agilent 50/55 AA
Contents
1. Do not mix nitric or perchloric acid residues with organic solvent residues Keep the burner slot spraychamber and liquid trap clean Always use the internal igniter to light the flame as its operation indicates that all the safety interlocks are satisfied Agilent 50 55 AA User s Guide Safety Practices and Hazards exhaust ii system operating chimney TELAT mn vapor vent burner 3 adjuster lt drain tubing must slope downwards bench 7 Ais for full length with no kinks small non glass waste vessel in full wide opening view of operator J keep end of tube above highest liquid level large stable base Figure 1 How drain and vent should be set up Compressed Gases and Cylinders This spectrometer is to be used only with air nitrous oxide and acetylene for flame operation Never use oxygen or oxygen enriched air as the oxidant because this will result in an explosion NEVER use any gas except acetylene as the fuel gas Acetylene Unskilled improper or careless use of acetylene can create explosion hazards and fire hazards which can result in death severe personal injury or burns Agilent 50 55 AA User s Guide 21 Safety Practices and Hazards 22 Use acetylene at pressures lower than 105 kPa 15 psig At pressures above this level acetylene can explode spontaneously In some instances local regulations may prohibit the use of acetylene at pressures above 62 kPa 9 psig Your 50 552. Proof that a product complies with these directives is indicated by the CE Marking appearing on the rear of the product and the documentation package that accompanies the product containing a copy of the Declaration of Conformity The Declaration of Conformity is the legal declaration by Agilent that the product complies with the directives listed above and shows the EN standards to which the product was tested to demonstrate compliance Flame Operation Flammable Solvents Unskilled improper or careless use of flammable solvents in or near an atomic absorption spectrometer can create explosion hazards and fire hazards These can result in death or severe personal injury or burns Remember at all times that the combination of a flame and flammable solvents can present a serious hazard All relevant safety practices governing the use of flammable solvents must be strictly followed To reduce the possibility of fire or explosion When initially selecting an organic solvent choose a solvent having the highest flash point consistent with your analytical requirements Never use a solvent having a specific gravity lower than 0 75 Agilent 50 55 AA User s Guide 19 Safety Practices and Hazards 20 Never leave uncovered containers of flammable solvent standing near the burner When aspirating such solvents always use a covered container and feed the capillary tubing through a 2 mm diameter hole in the cover Always u
3. Must be clean amp dry Allowed range Recommended Normal flow rate L min Connection gt 99 0 pure 65 100 kPa 9 5 14 5 psig 75 kPa 11 psig 0 10 2 5 m 8 ft 4 in length of red 6 3 mm 1 4in ID hose with 9 16 in 18UNF L H thread fitting 245 455 kPa 35 65 psig 350 kPa 50 psig 13 5 20 2 5 m 8 ft 4 in length of black 6 3 mm 1 4 in ID hose with 9 16 in 18UNF Instrument grade gt 99 5 pure 245 455 kPa 35 65 psig 350 kPa 50 psig 11 16 2 5 m 8 ft 4 in length of blue 6 3 mm 1 4 in ID hose with 3 4 in 16UNF Air filter to be used 245 455 kPa 35 65 psig 10 Barb to take 6 3 mm 1 4 in hose fitting Adaptors are available Agilent 50 55 AA User s Guide fitting 35 Introduction 36 Other gas connections Sample compartment Push on Air N O connector for burner Push on C H connector for burner Weights and Dimensions Weights Packed 97 kg 214 Ib Unpacked 56 kg 123 lb Dimensions W x D x H Packed 1200 x 780 x 870 mm 47 x 31 x 34 in Unpacked 790 x 585 x 575 mm 31 x 23 x 23 in Agilent 50 55 AA User s Guide Installation e 3 Installation Instrument Overview 38 s Connections 39 2 Power 40 Moving Your Instrument 41 Lamp Compartment 41 Hollow Cathode Lamps 42 D2 Lamp 43 Sample Compartment 44 Nebulizer 44 Spraychamber 47 Burner 56 Sample Compartment Front Panel 57
4. To optimize the flame signal 1 Press the Optimize key and select the Signal option 2 Aspirate the blank and press the Alt and Read keys together to perform an Instrument Zero 3 Aspirate a standard solution that will give an absorbance of at least 0 2 If you are in emission mode aspirate the bulk standard or the highest concentration standard 4 Watch the signal bar and adjust the burner height using the outer knob on the burner adjuster to obtain the maximum absorbance but keep the burner below the light path Alternate between aspirating the blank and the top standard making a note of the nett absorbance value When this value stops increasing the burner height is correct The burner height controls the sensitivity and will also influence atomization interferences 5 Carefully move the burner horizontally by turning the inner adjustment knob on the burner adjuster In general once optimized for maximum sensitivity this position can be used for all analyses 6 Adjust the impact bead position by gradually turning the impact bead adjustment screw first clockwise then counter clockwise to find the maximum absorbance You can find the optimum bead position for most applications by aspirating a 5 mg L solution of copper The system is now optimized You can now take readings measure your calibration standards or perform a reslope as described in the following sections Agilent 50 55 AA User s Guide 89 Operation
5. 10 11 Ensure the exhaust system is working To do this hold a thin single ply tissue up to the mouth of the extraction hood or use the smoke from an extinguished match The tissue or smoke should be drawn towards the hood Check the gas supplies to make sure you have enough gas to complete your analysis You must also check that the acetylene cylinder pressure is above 700 kPa about 100 psi to ensure that acetone is not drawn into the instrument Set the delivery pressure of the gases to the following Recommended Permissible kPa PSI kPa PSI Acetylene 75 11 65 100 9 5 14 5 Air 350 50 245 455 35 65 Nitrous oxide 350 50 245 455 35 65 Inspect the gas hoses for damage replacing any damaged hoses Turn on the gas supplies to your instrument and test all hoses and connections for leaks If a leak is found turn off the gas supplies immediately and rectify the problem Develop or load a method as described on Page 81 Optimize the system as described on Page 85 Set the nebulizer uptake rate as described on Page 90 Calibrate the system as described on Page 93 Proceed with your analysis Starting the System The power switch is a rocker type located on the front of the instrument on the left side Switch this to T to start the system The green indicator light should come on When you switch on your instrument the startup screen will appear in the display area while the instrument performs its initialization tes
6. Nebulizer Setup This section assumes you have correctly assembled the nebulizer and installed the nebulizer spray chamber assembly in the sample compartment The nebulizer is fully adjustable allowing you to change the position of the internal capillary to vary the uptake rate from 0 8 mL min compensating for the fueling effect of organic solvents The setting of the thimble determines the position of the capillary in the venturi of the nebulizer This allows you to select the nebulizer setting best suited to the characteristics of your samples High Vacuum Setting For samples with relatively low levels of dissolved solids optimum performance is achieved with the nebulizer in high vacuum mode where the capillary is set to give the maximum pressure drop vacuum at the capillary tip This setting uses narrow bore plastic capillary tubing 0 38 mm ID A nebulizer set up in this way will show minimum variation in uptake rate with variation in liquid level in the sample tubes It may however be more susceptible to clogging by salts deposited from the sample To set the nebulizer in high vacuum mode 1 Take one length of the narrow bore 0 38 mm ID plastic capillary tubing supplied with your nebulizer and fit the flared end of this tubing to the nebulizer capillary 2 Setup the instrument to measure absorbance using an easily atomized element such as copper in an air acetylene flame Since the uptake rate will be low the initia
7. These keys are Load Method Instrument Parameters Options Optimization Measurement Parameters Calibration Parameters and Results For a description of the function of each page refer to Page 65 The Calibration Parameters key is also used in conjunction with the Alt key to view the calibration graph For details refer to Page 94 Numeric Keys The numeric keypad 0 9 and decimal point is used to enter entryfield values A Clear button Clr is also included in this group to delete any values entered Cursor Keys There are four cursor keys Up Down Left and Right They are used to move around the display The Enter key is used to update the parameter setting with the new value If the cursor is moved out of a field without Enter being pressed the field s contents returns to its previous value Enter is also used on the Optimization page to perform a Rescale command see Page 85 Agilent 50 55 AA User s Guide 63 Interface 64 Alt Alt is used in conjunction with other keys to modify their meaning Use the Alt key with the Up or Down keys to change the display contrast Press the Alt and Read keys together to perform an Instrument Zero or Alt and Calibration Parameters to display the calibration graph Pressing Alt alone has no effect The table below lists the shortcuts available via the keypad Table 1 Keypad shortcuts available Key sequence Action Available ALT Calibrate Display calibration graph A
8. argument s REMOTE PROCESS INST_ZERO READ STD DO_CALIBRATION DO_RESLOPE READ_ SAMPLE FLAME_OFF SET_MEAS_MODE SET_NEXT_SAMPLE SET_REPS SET_READ_TIME SET_PRECISION SET_PRE_READ_ DELAY SET_STD_1_CONC SET_STD_2_ CONC SET_STD_3_ CONC SET_STD_4 CONC SET_STD_5 CONC SET_RESLOPE_STD LOAD_USER_METHOD LOAD_CKBK_METHOD SET_INST_MODE SET_ACTIVE_LAMP SET_ACTIVE_CURRENT SET_STANDBY_CURRENT SET D2 SET_GAS TYPE SET_WAVELENGTH SET_SLIT ON OFF SHUTDOWN Integer e g 0 5 INTEG PROMT INT_RPT Integer e g 1 9999 Integer e g 1 10 Floating Point e g 3 0 Floating Point e g 5 0 Floating Point e g 2 0 Floating Point Floating Point Floating Point Floating Point Floating Point Integer e g 1 5 non SIPS Integer e g 1 30 Element symbol e g Ag Zr AA AE Integer e g 1 2 Floating Point e g 15 0 Floating Point e g 5 0 NO YES AIR_ONLY AIR_ACET N20_ACET Floating Point e g 234 5 MUST be a known wavelength 0 2 0 5 1 0 0 5R Agilent 50 55 AA User s Guide Interface Command name Command argument s ENABLE_SIPS NO YES SET_UPTAKE_RATE Floating Point e g 5 0 SET_MIN_DF Integer e g 1 50 SET_PRIME_TIME Floating Point e g 10 0 SET_PUMP_DELAY Floating Point e g 6 0 PRINT_METHOD The command PROCESS must be entered after one or more SET commands to execute the chan
9. have the chimney in place to ensure correct ventilation Agilent 50 55 AA User s Guide 13 Safety Practices and Hazards 14 Compressed Gases and Cylinders All compressed gases other than air can create a hazard if they leak into the atmosphere Even small leaks in gas supply systems can be dangerous Any leak can create an explosion hazard a fire hazard or can result in an oxygen deficient atmosphere Such hazards can cause death serious injury asphyxiation anesthetic effects and serious damage to equipment and property Cylinders must be stored and handled strictly in accordance with local safety codes and regulations Cylinders must be used and stored only in a vertical position Secure all cylinders to an immovable structure or a properly constructed cylinder stand The area in which cylinders are stored must be adequately ventilated to prevent toxic or explosive accumulations Move cylinders only on a properly constructed trolley Keep cylinders cool This rule applies to every cylinder of compressed gas Cylinders have pressure relief devices that will release the contents of the cylinder if the temperature exceeds 52 C 125 F Ensure that all cylinders are clearly labeled so that there can be no doubt about the contents If the cylinder label is not legible do not use the cylinder return it to your supplier Always ensure that you have the right cylinder before connecting the cylinder to the instrument If air
10. highest value but the signal was too low Possible causes include Flame not lit or correctly aligned Wrong wavelength selected The standard solution currently being aspirated has low concentration Emission Setup has not been performed Faulty PMT or related circuits 9324 High Emission No Peak The instrument failed to peak at the selected emission wavelength The instrument Gain had been set to its lowest value but the signal was too high Possible causes include Emission Setup has not been performed Wrong wavelength selected Faulty PMT or related circuit Agilent 50 55 AA User s Guide Troubleshooting Errors The standard solution currently being aspirated has high concentration 9329 No Peak detected The instrument failed to peak at the selected wavelength The instrument Gain had been raised to its highest value but the hollow cathode lamp signal was too low Incorrect or noisy readings will result if the instrument is not optimized again Possible causes include Wrong hollow cathode lamp for this element Hollow cathode lamp misaligned or the light path is blocked Faulty hollow cathode lamp The lamp current has been set to zero or too low The lamp selection lever is in the wrong position Suggested action Check that the optical light path is not obstructed in the sample compartment Exit then re enter the Optimize page window This will cause the instrument to retry the pea
11. is supplied from a compressor all moisture must be extracted from the air before it is supplied to the gas control module Moisture can affect the internal tubing and components of the gas control system and create a potentially hazardous situation Use only approved regulators and hose connectors Never attempt to refill cylinders Remember that for cylinder connections left hand thread fittings are used for fuel right hand thread fittings are used for support gases When your analytical program is complete or at the end of the working day always ensure that all gas supplies are turned off at the cylinders Agilent 50 55 AA User s Guide Safety Practices and Hazards Gas Hoses and Connections Even small leaks in gas supply systems can be dangerous Any leak can create an explosion hazard a fire hazard or can result in an oxygen deficient atmosphere Such hazards can cause death serious injury asphyxiation anesthetic effects and serious damage to equipment and property Use only approved regulators connectors and fittings If in any doubt consult your local gas supplier or your Agilent representative Ensure that all gas connectors and hoses are correctly assembled Arrange gas hoses so that they will not be damaged stepped on or have things dropped on them Never use frayed or damaged hoses Perform leak tests at all joints and seals every day before the instrument is used Test for leaks with a brush and soapy
12. layout is as follows Calibration Standard ID Concentration Background Absorbance Mean Absorbance Replicates Absorbances Batch Number Sample Number Concentration Background Absorbance Mean Absorbance Replicates Absorbances Agilent 50 55 AA User s Guide 97 Operation Remote Control 98 To enable you to export solution results to a file you can place the instrument in remote control mode In this mode Text style defaults to LIMS To control the instrument using an external PC for LIMS control you need to connect the RS 232C 9 pin cable from the serial port on the rear of the instrument to an available Com port on an external PC running Windows 95 You also need a Windows compatible terminal program such as Microsoft HyperTerminal To start your PC LIMS program using Microsoft HyperTerminal 1 With Windows started on your PC click the Start button Select Programs Accessories HyperTerminal Double click on Hypertrm to start HyperTerminal Enter a name and choose an icon for the connection oa Ff WwW N In the Phone Number dialog select the appropriate Direct to Com port option in the Connect using listbox and select OK 6 Use the default Port settings click on the Restore Defaults button to return the settings to their default values and select OK 7 Once connected type REMOTE ON and press Enter to place the system in LIMS control mode 8 Enter the c
13. or glowing particles can fall down through the slot into the spraychamber and ignite the combustible gas mixture inside Agilent 50 55 AA User s Guide 27 Safety Practices and Hazards 28 The use of a hard object to brush off glowing carbon particles during flame operation is not recommended because of the increased risk of knocking one of the particles down the slot When using an organic solvent the thimble of the nebulizer should be set in a reduced uptake position to restrict the amount of liquid fuel that is fed to the flame refer to the Operation chapter for more information The width of the burner slot must not exceed the maximum design specification Mark VIA 0 47 mm 0 0185 in for N30 Mark 7 0 46 mm 0 0181 in for N30 or 0 54 mm 0 021 in for air Even a small increase in width can greatly increase the possibility of a flashback occurring The burner slot must be regularly cleaned according to the instructions included in the Maintenance chapter of this manual Ensure that the spraychamber and liquid trap are kept clean If dirty solutions are being analyzed e g engine oils ensure that the spraychamber liquid trap float and drain tube are regularly cleaned and flushed with a suitable solvent so that sludge does not build up in the parts Ensure that the correct O rings are used on the burner nebulizer block and nebulizer and that they remain undamaged Damage to O rings in the spraychamber can r
14. 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 indicated conditions are fully understood and met Agilent 50 55 AA User s Guide Contents Contents 1 Safety Practices and Hazards 11 Electrical Hazards 12 Heat Vapors and Fumes 13 Compressed Gases and Cylinders 14 Gas Hoses and Connections 15 Ultraviolet Radiation 15 Warning and Caution Messages 16 Warning Symbols 16 CE Compliance 19 Flame Operation 19 Flammable Solvents 19 Compressed Gases and Cylinders21 Acetylene 21 Nitrous Oxide 23 Burners 23 Nebulizer 24 Liquid Trap 25 Heat Hazards 25 Perchloric Acid 26 Flashbacks 27 2 introduction 31 Pre Installation Requirements 32 50 55 AA Documentation 32 Agilent 50 55 AA User s Guide 3 Contents Conventions 32 Specifications 33 Environmental Specifications 33 Power 33 Gas Supplies 35 Weights and Dimensions 36 3 Installation 37 Instrument Overview38 Connections 39 Power 40 Moving Your Instrument 41 Lamp Compartment 41 Hollow Cathode Lamps 42 D2 Lamp 43 Sample Compartment 44 Nebulizer 44 Spraychamber 47 Burner 56 Sample Compartment Front Panel 57 Flame Shield 58 4 Interface 59 Introduction 59 Display 60 Keypad 63 Agilent 50 55 AA Pages 65 Load Method Page 65 4 Agilent 50 55 AA User s Guide Contents Instrument Parameters Page 65 Measurement Parameters Page 67 Options Page 68
15. promote the rapid buildup of carbon or other solids 104 10 11 Place some Brasso or a similar polish on a cloth and rub along the top of the slot For particularly hard deposits it may be necessary to use a fingernail or a wooden or plastic spatula The thin top edges on either side of the burner slot must be shiny to indicate that all the deposits have been cleaned off Rinse the burner thoroughly preferably in the ultrasonic bath again to remove all traces of the polish Dry the burner and inspect it under the microscope If necessary repeat some or all of the previous steps until the burner slot is clean Agilent 50 55 AA User s Guide Maintenance Soaking the burner in nitric acid and the use of the ultrasonic bath effectively removes soft chemical deposits inside the slot The removal of hard carbon deposits usually requires more significant physical effort If the width of the slot exceeds 0 47 mm 0 0185 for a nitrous oxide acetylene burner or 0 54 mm 0 021 for an air acetylene burner the burner cannot be refurbished and must be relaced with a new one Nebulizer This section describes how to remove disassemble clean and reassemble your nebulizer Routine maintenance Clean the nebulizer spraychamber assembly thoroughly at the end of every working day by aspirating at least 50 mL of the appropriate solvent through the system Regularly daily test all connections for leaks with a brush an
16. selected with the lamp selection lever and allow the lamp time to warm up approximately 15 minutes If the lamp is not glowing review the method and set the Active lamp and Active current on the Instrument Parameters page Agilent 50 55 AA User s Guide 85 Operation Press the Optimize button and ensure nothing is in the optical path The HC lamp option is selected automatically upon entering the page While watching the lamp signal bar on the display slowly turn one of the lamp adjustment knobs If the signal decreases turn the knob in the other direction until you find the maximum signal If the HC lamp signal is too small first check that you have the correct lamp for the current method If so press Enter to Rescale This will bring the signal back into range for display You should also Rescale if the signal becomes too large Repeat the previous step with the other adjustment knob D2 Lamp The D lamp only needs aligning after a new one has been installed refer to Chapter 6 for instructions on installing a new D lamp To align a D lamp 1 2 On the Optimize page select the D lamp option While watching the lamp signal bar on the display slowly turn one of the D lamp adjustment knobs located on the front of the D lamp compartment If the signal decreases turn the knob in the other direction until you find the maximum signal If the D lamp signal is too small first check that
17. the maximum pump speed Although expressed in mL min the actual flow rate may be less than this depending on tube condition solution viscosity etc Ensuring the nebulizer uptake rate exceeds the number entered guarantees correct pump operation But beware subsequent nebulizer blockages which may invalidate this condition Minimum Sample DF Defines the minimal sample dilution factor to be used Primarily intended for where the majority of samples are suspected overrange This will prevent unnecessary dilution factor changes thus speeding up sample throughput Agilent 50 55 AA User s Guide 69 Interface Prime Time Defines the SIPS pre read delay which is the time required to pump solutions introduced with SIPS through the pump tubing from the solution vessel to the T piece Pump Delay Time Defines the time taken for the sample absorbance to reach equilibrium after a change in pump speed and for the signal to stabilize See Chapter 5 for information on how to use SIPS Serial Port Displays the following sub menu Cu Options Hone Boud rote LIMS Lines per page Printer Figure 17 The Serial port sub menu of options Text Style Enables LIMS or printer output default is none All output requires the Baud rate to be set correctly LIMS output has comma delimited fields Printer output has space delimited fields See Page 97 for details on printing solution results and Page 98 for detai
18. to zero and is not editable but allows the blank to be measured Agilent 50 55 AA User s Guide 71 Interface Standards 1 5 Defines the concentrations of the calibration standards The value must be greater than zero and have four significant figures with 0 3 decimal places No two standards may have the same value and they must be entered in increasing order Entering a value of zero will delete the current and subsequent standards The reslope standard is set by selecting the desired standard and pressing the Reslope key The standard selected will be marked with an asterisk beside it to indicate it is the Reslope standard See Page 94 for more information If SIPS is enabled the cursor is restricted to the last entryfield which is the concentration of the bulk standard Standards 1 4 are calculated from the bulk standard The reslope standard is fixed at 3 See Page 95 for more information 72 Results Page The Results page displays the solution results in tabular format and displays such information as sample name concentration RSD or precision mean solution reading dilution factor and the last replicate value Cu Results Sample Conc xPr Hean OF Reps Cal Figure 18 The Results page The Sample column displays text in the form nnn for a sample Std n for a standard and Reslope for the reslope standard Agilent 50 55 AA User s Guide Interface The Conc column displays the concentration values o
19. window and the lamp compartment windows with a gentle stream of filtered air or inert gas or a puffer brush like those used to clean camera lenses If the windows are dirty wipe them using an optical tissue held between plastic tweezers and dampened with a 50 ethanol water solution Filters Check the filter in the air supply line and clean if necessary instructions are included with the filter Agilent 50 55 AA User s Guide Maintenance Burners Burners should be cleaned after each day of use particularly if the solutions being analyzed have a high solids content or a rich nitrous oxide acetylene flame has been used If they are not cleaned regularly hard deposits that will be difficult to remove may build up It is impossible to determine with the naked eye whether or not a burner is clean Even a low power inspection lens will fail to show low levels of contamination The best way is to use a binocular microscope which allows you to look down inside the burner slot Cleaning the Burner WARNING Explosion Hazard The burner is correctly assembled sealed and pressure tested during manufacture To prevent gas leaks and flashbacks which may cause death injury or property damage the burner must NEVER be disassembled modified or mistreated ALWAYS use the correct procedure to clean the burner slot since the use of a burner with an oversize slot can cause a flashback To clean the burner 1 Remove the ch
20. 0 14 6 VAC 230 6 14 VAC Frequency 50 or 60 Hz 1 Hz Normal consumption 170 VA approx Mains inlet coupler 3 A 250 VAC IEC type Agilent 50 55 AA User s Guide 33 Introduction 34 Connections Mains power cord Australia 10 A 250 VAC Complies with AS3112 USA 10 A 125 VAC Complies with NEMA 5 15P Europe 6A250 VAC Complies with CEE7 sheet vii or NFC61 303VA Rear IEEE 488 RS 232C 9 way male D range type Accessory 9 way female D range type UltrAA lamp 1 amp 2 Burndy circular 6 way optional Shock Hazard To maintain safety only the UltrAA lamp power supplies should be used at this connection Front lamp compartment Deuterium lamp optional Molex 3 way connection behind lamp panel Shock Hazard To maintain safety only the deuterium lamp assembly should be used at this connection Agilent 50 55 AA User s Guide Introduction Hollow cathode lamps 2 lamp positions manually selected Shock Hazard To maintain safety only the hollow cathode lamps should be used at this connection Fuses T2 5 A H250 V IEC 127 sheet 5 5 x 20 mm 100 120 amp 220 240 VAC For safety reasons any other internal fuse or circuit breaker is not operator accessible and should be replaced only by Agilent authorized personnel Fuse information on the rear of the instrument is the most up to date Gas Supplies Rear of instrument C2H2 Instrument grade Air N20 Air purge
21. 06 Disassembling the Nebulizer 107 Cleaning a Blocked Nebulizer 108 Reassembling the Nebulizer 109 Impact Bead 110 Removing the Impact Bead 110 Installing and Adjusting the Impact Bead 113 Spraychamber 114 Disassembling the Spraychamber 114 Cleaning the Spraychamber 114 Gas Supplies 115 D2Lamp 115 Fuses 117 7 Spare Parts 121 Sample Introduction 121 Covers Doors 124 Fuses 124 Miscellaneous 124 8 Troubleshooting Errors 125 Common Problems 125 Agilent 50 55 AA User s Guide 7 Contents Error Messages 128 0804 2851 3800 5004 5005 5006 5008 6000 9159 9160 9307 9308 9309 9310 9311 9312 9313 9316 9317 9318 9319 9320 9321 9322 9323 9324 9329 9330 9337 LIMS porterror 128 SIPS comms error 128 EEPROM storage error 129 Signals not increasing 129 Slope test failure 129 Calibration fit failure 129 Reslope signal out of range 129 Check HC lamp selection 130 EEPROM checksum zero wl 130 EEPROM checksum mono correction 130 RBC Mains frequency below 48Hz 130 RBC Mains frequency 130 RBC Mains frequency above 62Hz 131 Optical RBC frequency 131 Instrument Fault 12V PSU 131 Instrument Fault 12V PSU 131 Instrument Fault 5V PSU 131 Wavelength out of range 132 No Peak Low HC Lamp Energy 132 No Peak High HC Lamp Energy 132 No Peak Low BC Lamp Energy 133 No Peak High BC Lamp Energy 133 No Peak Low HC Lamp Energy 133 No Peak High HC Lamp Energy 134 Low Emission No Peak 134 High Em
22. 07 RBC Mains frequency below 48Hz The instrument detected a power mains supply fault Low mains frequency Possible causes include Power supply failure Faulty RBC Rotating Beam Combiner on double beam instruments only Faulty Mains Supply to the instrument If the error persists a service call may be required 9308 RBC Mains frequency The instrument detected a power mains supply fault Mains frequency out of range Possible causes include Power supply failure Agilent 50 55 AA User s Guide Troubleshooting Errors Faulty RBC Rotating Beam Combiner on double beam instruments only Faulty Mains Supply to the instrument If the error persists a service call may be required 9309 RBC Mains frequency above 62Hz The instrument detected a power mains supply fault High mains frequency Possible causes include Power supply failure Faulty RBC Rotating Beam Combiner on double beam instruments only Faulty Mains Supply to the instrument If the error persists a service call may be required 9310 Optical RBC frequency Instrument fault The instrument detected a problem with the RBC A service call may be required Optical sensor or associated circuitry may be faulty 9311 Instrument Fault 12V PSU Instrument Fault The instrument detected a problem with the 12 volt supply A service call may be required 9312 Instrument Fault 12V PSU Instrument Fault The instrument detec
23. 83 Operation 84 To enter the calibration information 1 Select the Calibration Parameters page 2 Move the highlight to the Conc field and enter the concentration of standard 1 The number of decimal places entered will set the number of decimal places used for the remaining standard values Even when changing the number of decimal places all concentrations must still be valid not overrange or identical 3 Enter the remaining standard concentrations The values must be unique and increasing 4 Set the reslope standard to be used if required by moving the cursor to the appropriate standard and pressing the Reslope key An asterisk indicates the reslope standard For more information see Page 71 Saving Deleting Methods Methods are saved on the Instrument Parameters page There are 30 slots for you to save your customized methods Slots that are occupied are displayed on the Load Method page You may save a method into any slot even if the slot is already occupied by an existing method The existing method will be overwritten by the new method without a request for confirmation To save a method 1 Press the Instrument Parameters button 2 Move the highlight to the Save Method option and press Enter 3 Select an empty position and press Enter The method will be saved in the selected slot with the slot number and method element displayed in the list To delete a method 1 Press the Instrument Paramete
24. A User s Guide 117 Maintenance Always check the information printed on the rear of the instrument for the correct fuse type 118 Shock and Fire Hazard Hot Surface To prevent reduced safety protection or unwanted fusing ALWAYS ensure that the code on the fuse cap matches the screening shown adjacent to the fuseholders To check a fuse 1 Disconnect the instrument from the mains power supply 2 Remove the fuse holder located to the right of the mains input connection as shown in the following picture using a flat bladed screw driver in the slot 1 to lever the fuse holder 2 from the instrument 3 Check that the fuses are the correct type and are not damaged If necessary replace the fuses Agilent 50 55 AA User s Guide Maintenance 4 Replace the fuse holder in the instrument and reconnect the instrument to the mains power supply NOTE If a fuse blows repeatedly it may indicate other problems with the Agilent 50 55 AA instrument You should contact your local Agilent sales office and arrange a service call Agilent 50 55 AA User s Guide 119 Maintenance This page is intentionally left blank 120 Agilent 50 55 AA User s Guide Spare Parts e e e e e o e e 7 Spare Parts Sample Introduction 121 ie Covers Doors 124 Fuses 124 Miscellaneous 124 This chapter contains ordering information for 50 55 AA spare parts Unless otherwise specified only
25. AA is designed to operate at fuel supply pressures between 49 and 105 kPa 7 15 psig Refer to the Specifications section or the rear of the instrument for the exact range and recommended pressure Do not use any tubing or connector that will react chemically with acetylene Never pass acetylene through copper tubing or brass tubing or fittings containing more than 65 copper since this may provoke an explosion Never bring acetylene into direct contact with copper silver liquid mercury gaseous chlorine or grease as an explosion could result Use only acetylene that is packed in acetone with the Agilent 50 55 AA system Some gas suppliers offer acetylene packed in material other than acetone While these alternatives may overcome some of the disadvantages of acetone they may also introduce the more serious problem of corrosion in the gas control module and must not be used with Agilent atomic absorption spectrometers If the pressure in the acetylene cylinder is allowed to fall below 700 kPa 100 psig or the consumption is greater than 1 7 of the cylinder contents per hour acetone may be carried over from the cylinder and into the spectrometer Acetone in the spectrometer can damage seals O rings and hoses degrade analytical performance and precipitate flashbacks Minimize the amount of acetone which is carried over with the acetylene by Replacing cylinders when their contents pressure drops below 700 kPa 100 psi Ensur
26. Agilent 50 55 AA User s Guide oes Agilent Technologies Notices Agilent Technologies Inc 1997 2000 2002 2009 and 2010 No part of this manual may be reproduced in any form or by any means including electronic storage and retrieval or translation into a foreign language without prior agreement and written consent from Agilent Technologies Inc as governed by United States and international copyright laws Manual Part Number 8510154100 Edition Fifth edition September 2010 Printed in Australia Agilent Technologies Inc Warranty The material contained in this document is provided as is and is subject to being changed without notice in future editions Further to the maximum 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 particular purpose Agilent shall not be liable for errors or for incidental or consequential damages in connection with the furnishing use or performance 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 separate agreement shall control Technology Licenses The hardware and or software d
27. Agilent supplied parts should be used Sample Introduction 8 9 ey hee orale _ Figure 29 Nebulizer components 1 Thimble capillary adjuster 1510226800 2 Locking ring 1510226700 3 Clamp bush guide 0810134300 4 Ertalyte bush bearing 0310046600 5 Capillary assembly 9910093000 6 O ring 1 32 in ID x 3 32 in OD x 1 32 in nitrile 6910009700 7 Spring 4610017400 8 Capillary guide 0810134400 9 Venturi 1610117390 10 O ring 3 16 in ID x 5 16 in OD x 1 16 in nitrile 6910009800 O ring 3 16 in ID x 5 16 in OD x 1 16 in organics 6910013600 11 Impact bead adjuster screw 1510225000 Agilent 50 55 AA User s Guide 121 Spare Parts 4 Figure 30 Spraychamber nebulizer assembly with Mark 7 burner Older style drain tube float and liquid trap shown See following picture for new drain tube float liquid trap 12 13 14 15 16 17 18 19 122 Kit nebulizer block Mark 7 9910093100 Kit liquid trap system integrated comprising float 9910105800 liquid trap and drain tube O ring nitrile 6910037000 O ring organics 6910036800 Spraychamber molding fluorinated 6210092090 Mixing paddles 0110637000 Pressure relief bung 1610118800 O ring pressure relief bung nitrile 6910010500 O ring pressure relief bung organics 6910013100 Air acetylene burner Mark 7 0210164000 N20 acetylene burner Mark 7 0210164100 Agilent 50 55 AA User s Guide Spare Parts a lal Figure 31 Spraychamber nebulizer assembly showi
28. Flame Shield 58 This chapter describes how to set up your 50 55 AA system It includes all the installation procedures for the components of the system that are customer installable Prior to setting up your system you should have satisfied all of the requirements detailed in the AA Systems pre installation manual Installation checklist Use the following checklist to ensure that you set up your system correctly You must Connect the components of the system to one another see Connections Page 39 Connect the equipment to the power supply and check the setting of the two voltage taps see Power Page 40 Agilent 50 55 AA User s Guide 37 Installation Install the hardware components i e lamps spraychamber nebulizer burner flame shield sample compartment front panel chimney as described throughout this chapter Provide a suitable waste vessel Instrument Overview Use the following labeled picture as a guide when installing the various components of your 50 55 AA system Figure 2 Front view of spectrometer 1 Chimney 2 Flame shield 3 Flame on off buttons 4 Power on off switch 5 Burner controls 6 Sample compartment front panel 7 LCD display 8 Keypad 9 Lamp compartment 38 Agilent 50 55 AA User s Guide Installation A rear view of the instrument is not included since all connections are clearly labeled on the back panel of the instrument Connections Your 50 55 AA ins
29. Optimization Page 71 Calibration Parameters Page 71 Results Page 72 Remote Control Page 73 Navigating the Interface 75 Changing Pages 75 Selecting Menus 76 Moving Between Fields 77 5 Operation 79 Pre Analysis Checklist 79 Starting the System 80 Method Development 81 Selecting the Language of the Interface 81 Loading a Method 81 Setting the Instrument Parameters 82 Setting the Measurement Parameters 83 Defining the Calibration Standards 83 Saving Deleting Methods 84 Optimization 85 Aligning Lamps 85 Aligning the Burner 87 Lighting the Flame 87 Optimizing the Flame Signal 89 Nebulizer Setup 90 Agilent 50 55 AA User s Guide 5 Contents High Vacuum Setting 90 Low Vacuum Setting 91 Setting Zero Uptake Rate 91 Setting the Uptake Rate for Organic Solvents 92 Performance Checks 92 Calibrating the Method 93 Measuring Standards Manually 93 Measuring Standards Using SIPS 10 94 Displaying the Calibration Graph 94 Resloping the Calibration 95 Sample Measurement 96 Measuring Samples Manually 96 Measuring Samples with SIPS 96 Results 97 Printing the Results 97 Output to LIMS System 97 Remote Control 98 Shutting Down the System 100 6 Maintenance 101 Maintenance Schedule 101 Daily 101 Weekly 101 Yearly 102 Cleaning 102 General 102 Windows 102 Agilent 50 55 AA User s Guide Contents Filters 102 Burners 103 Cleaning the Burner 103 Nebulizer 105 Routine maintenance 105 Removing the Nebulizer Block 1
30. PS is enabled the cursor is restricted to the Conc5 entry field The first four standards will be calculated automatically with the Reslope standard fixed at Conc3 7 Ensure the diluent tubing is connected to the Mariott vessel 8 Ensure the pump tubing is placed in the bulk standard and press Read Standards 0 5 are read in order The SIPS stops when the calibration is complete Displaying the Calibration Graph To view the calibration graph you must be on the Calibration Parameters page at least one standard must be defined and measured and the calibration must be valid i e the fit is good The calibration graph is viewed by pressing the Calibration Parameters key in conjunction with the Alt key The cross hairs on the graph can be moved using the arrow keys The numbers displayed indicate the current signal and concentration of the location of the cross hairs Agilent 50 55 AA User s Guide Operation Resloping the Calibration Reslopes are a quick way of adjusting the slope of the current calibration The nominated standard indicated on the Calibration Parameters page by an asterisk is remeasured a concentration calculated for the Reslope standard C and compared to the previous known concentration for that standard C All subsequent sample results are multiplied by the Reslope correction factor C C To perform a reslope 1 On the Calibration Parameters page move the highlight to the standard you want to us
31. Page 65 Agilent 50 55 AA User s Guide Operation Setting the Measurement Parameters All measurement parameters are set on the Measurement Parameters page with the exception of the Measurement mode and use of SIPS which are set on the Options page To set the measurement parameters 1 Select the Options page see Page 68 and specify a the Measurement mode b Whether SIPS is enabled or not If you choose to enable SIPS you will also need to set the SIPS parameters see Page 68 2 Select the Measurement Parameters page and specify Next sample to be measured Batch no Read time Number of Replicates Integration mode only Precision PROMT mode only Pre read delay oo a oO TDD For more information see Page 67 Defining the Calibration Standards Calibration standards are entered on the Calibration Parameters page Up to five standards may be defined Calibration standards must be unique and they must be entered in increasing order Cal Zero is not editable and is included solely to allow for measurement of the blank The field value is always zero If SIPS is enabled on the Options page the only editable field on the Calibration Parameters page is Conc5 which represents the concentration of the bulk standard Conc1 4 are calculated from the bulk standard and the Reslope standard is set at 3 For more information see Page 94 Agilent 50 55 AA User s Guide
32. a the Numeric keys it appears at the end of the field If Clr is pressed the entire field value is deleted When Enter is pressed the cursor moves to the next field providing the value is valid If the value entered is invalid the cursor remains on the entryfield and the value is not accepted Agilent 50 55 AA User s Guide 71 Interface 78 This page is intentionally left blank Agilent 50 55 AA User s Guide Operation e 5 Operation e ig Starting the System 80 09 Pre Analysis Checklist 79 Method Development 8 Optimization 85 Nebulizer Setup 90 Calibrating the Method 93 Sample Measurement 96 Results 97 Remote Control 98 Shutting Down the System 100 This chapter provides instructions for running your Agilent 50 55 AA instrument including how to develop methods optimize the system perform measurements and print the results This chapter assumes you have correctly installed the appropriate hardware as described in Chapter 3 and are familiar with the interface as described in Chapter 4 Pre Analysis Checklist To prepare your Agilent 50 55 AA spectrometer for analysis 1 Check that all the required hardware including SIPS and printer if necessary is correctly installed as per the instructions in Chapter 3 and any additional accessory manuals 2 Turn on the instrument and any peripheral accessories as described on Page 80 Agilent 50 55 AA User s Guide 79 Operation
33. age at the junction between the plastic capillary tubing and the nebulizer capillary If there is a blockage there either cut off the clogged section of plastic capillary or fit a new piece Cut off only the required amount of the plastic tubing that is required to remove the blockage Excessive shortening of the tubing will increase the uptake rate After cutting off the clogged section it may be necessary to flare the end of the capillary before it can be fitted to the nebulizer You may do this with a heated needle 108 Agilent 50 55 AA User s Guide Maintenance Reassembling the Nebulizer WARNING Fire and Explosion Hazard Incorrect assembly of nebulizers and incorrect fitting of nebulizers to an atomic absorption spectrometer can create explosion hazards and fire hazards which can cause serious injury to personnel and damage to equipment and property If you are going to fit a new venturi you should also replace all O rings If you are going to fit a new capillary you should also fit a new capillary guide and spring If you have to replace any of the O rings replace them all You should always replace O rings as a set If you are using organics ensure you fit the organic O ring kit If you have to replace the white plastic insert that the thimble screws into because the threads have been stripped use the tool provided to remove the old one and fit a new one Refer to Chapter 7 for ordering details To re
34. amber 3 Mixing paddles 4 Pressure relief bung The spraychamber which attaches to the rear of the nebulizer block via a bayonet twist and lock mount carries the burner Combustible gases and sample solution are mixed in the spraychamber before passing through the burner slot for consumption in the flame The spraychamber contains the following components mixing paddles pressure relief bung sometimes referred to as the spraychamber bung Mixing Paddles The mixing paddles fit into the centre of the spraychamber They remove the larger aerosol droplets which can cause photometric noise and burner blockage Agilent 50 55 AA User s Guide 47 Installation One end of the mixing paddles has a boss or knob at the center of the blades At the other end three of the blades have small bumps on their edges When installing the mixing paddles the boss end goes to the front of the spraychamber The bumps hold the paddles in position Pressure Relief Bung A pressure relief bung is located at the rear of the spraychamber In the unlikely event of a flashback occurring this bung is ejected away from the operator to relieve excess pressure The burner spraychamber system incorporates an interlock designed to do two things inhibit ignition if the pressure relief bung is not correctly fitted shut down the flame if the bung is ejected as a result of a flashback Even if the spraychamber is already assembled check t
35. and menu If the menu is a Parameter menu i e the left hand listbox contains items which access other sub menus you must press the Right arrow key on the required menu option to access the available sub menu Cu Instrument Porcometers Instrument mode Absorbance Active lamp Emission Active current Standby current Oe correction Gas type Cal Figure 20 An example of a Parameter menu An arrow appearing in the frame around a menu indicates there are additional items available Use the Up Down arrow keys to scroll through the list or the Left Right arrow keys to move from one menu to the next 76 Agilent 50 55 AA User s Guide Interface In the previous example you would press the Right arrow key to access the available options for the Instrument mode field use the Up Down arrow keys to move the highlight to the desired option and press Enter to select it Pressing Enter accepts the current value and returns the cursor to the left hand field Moving Between Fields The cursor shows where the current focus is When the cursor is on an entryfield the entire field is highlighted To move between entryfields use the Up Down arrow keys Cut Meosurement Porometers Next sample 1 Botch number Pre read delay 0 0 secs Fead time EE secs Feplicotes 3 kange is 0 2 to 60 0 Cal Figure 21 The Measurement Parameters page with the focus on the Read time field As data is entered vi
36. anged inspect all gas hoses Replace any hoses showing signs of damage or deterioration Test all connections for leaks using a commercial leak testing solution a mild detergent or an electronic leak detector When changing gas cylinders check all gas supply pipes and hoses for leaks test the operation of all regulators ensure that shut off valves are functioning correctly D2 Lamp The D lamp will need changing every 1000 operating hours approximately If you need to replace D lamps frequently you should contact your Agilent field service engineer for advice WARNING Hot Surface The D2 lamp and its cover become very hot during operation To prevent skin burns allow the assembly to cool down before removing it Agilent 50 55 AA User s Guide 115 Maintenance Do not handle the deuterium lamp or hollow cathode lamp optical surfaces with bare hands 116 To change a D lamp 1 Make sure the instrument is turned off Allow time for the D lamp and housing to cool Remove the hollow cathode lamp in position 1 if fitted see Page 42 Undo the thumbscrew at the top of the D lamp compartment Use the two lamp alignment screws to lift the lamp assembly up and out from the lamp compartment Pull the white plug at the end of the D lamp lead out of its socket and then remove the D lamp assembly from the instrument completely Loosen the star head screw in the lamp holder assembly labeled 1 i
37. assemble the components of the nebulizer 1 Hold the nebulizer block front end up 2 Place the venturi into the nebulizer body thin end first use the plastic tool provided to push the venturi in as far as it will go 3 Place the capillary guide into the nebulizer body with the O ring end up 4 Place the spring in the nebulizer body 5 Carefully insert the capillary assembly O ring end first through the spring in the nebulizer body 6 Put the bush thread end first in the nebulizer body and screw it in until it stops using the tool provided Do not over tighten 7 Carefully guide the locking thimble and ring over the capillary and screw it onto the nebulizer body You may need to push it in slightly before the threads will catch Agilent 50 55 AA User s Guide 109 Maintenance Refer to the next section for instructions on removing replacing and adjusting the impact bead For instructions of installing the nebulizer block in the sample compartment refer to Sample Compartment on Page 44 Impact Bead 110 The section describes how to remove and replace the impact bead Check the impact bead for erosion or other damage If the bead is damaged or broken follow the steps below to remove it and fit a new one Removing the Impact Bead To remove the impact bead 1 Ifnot already done so remove the nebulizer block from the sample compartment and remove the liquid trap drain tube and spraychamber as described o
38. aust system The instrument must be vented into a self contained arrangement of collector hood ducting and exhaust fan The system must be vented to the outside air never within the building Locate the system outlet such that the exhaust cannot re enter the building through any door window air conditioning inlet or other ventilator Construct the system in accordance with local codes and regulations for ventilation The exhaust system must be capable of providing an exhaust ventilation rate of at least 6 cubic meters per minute 200 scfm Locate the exhaust fan at least 3 meters 10 feet away from the flame and as close to the outlet as possible The motor must be mounted away from the hot gases and plastic parts must not be used as they will melt Fit a back draft damper to the outlet end of the system Equip the exhaust fan power supply with a pilot light situated immediately adjacent to the instrument to indicate whether the exhaust fan is on or off ALWAYS switch the exhaust fan on BEFORE lighting the flame Use fireproof ducting which is in accordance with your local fire prevention regulations Locate the ducting away from fire alarms sprinkler heads and other heat sensitive devices Do not make solder joints in the ducting the hot exhaust in the duct may melt the joint Regularly check the system by smoke test to ensure that the exhaust system is functioning correctly When operating the atomic absorption spectrometer ALWAYS
39. ay be very hot Always use protective gloves to handle hot burners Burners are clearly identified by the fuel oxidant combination for which they are intended Always fit the correct burner Never attempt to use an air acetylene burner for nitrous oxide acetylene as this will cause a flashback Use only acetylene as the fuel gas Use only air or nitrous oxide as oxidant Never attempt to use oxygen or oxygen enriched air as this will cause a flashback Agilent 50 55 AA User s Guide 23 Safety Practices and Hazards 24 Burner interlocks are incorporated to minimize the possibility of using the wrong burner Never interfere with or attempt to bypass any interlock fitted to this instrument To minimize the rate of burner blockage the burner slot must be cleaned and polished as described in the Maintenance chapter Never allow burners to become blocked Progressive burner blockage can increase the static pressure in the liquid trap to the point at which the liquid seal is breached This can cause a flashback and create an explosion hazard or a fire hazard Never allow carbon to build up on the slot as glowing particles can dislodge and fall through the slot thus causing a flashback Always turn the flame off before attempting to clean the burner slot Never clean the burner slot while a flame is running Never leave a flame unattended Never disassemble modify or ill treat a burner Nebulizer Incorrect assembly and fi
40. ck 7 Pul the complete nebulizer spraychamber assembly sideways toward the right side of the sample compartment until it is clear of the mounting and remove it from the sample compartment 8 Remove the liquid trap by holding the nebulizer spraychamber assembly firmly in one hand and twisting the liquid trap in a counter clockwise direction to unlock the bayonet mount 9 Unscrew the plastic drain tube from the bottom of the nebulizer block 106 Agilent 50 55 AA User s Guide Maintenance 10 Separate the nebulizer block and spraychamber by holding the nebulizer block firmly in one hand and twisting the spraychamber in a counter clockwise direction to unlock the bayonet mount 11 Disassemble the nebulizer as described in the following section Disassembling the Nebulizer Take apart the nebulizer according to the following steps As you do so carefully inspect all components for wear and corrosion Replace all faulty items If the nebulizer is blocked clean it as described in the next section 12 4 5 Figure 23 Nebulizer components 1 Thimble 2 Locking ring 3 Clamp bush guide 4 Capillary assembly 5 O ring 1 32 ID x 3 32 OD x 1 32 6 Spring 7 O ring 3 16 ID x 5 16 OD x 1 16 8 Capillary guide 9 O ring 3 16 ID x 5 16 OD x 1 16 10 Venturi To disassemble the nebulizer 1 Remove the capillary adjuster thimble and locking ring by unscrewing the thimble in a counter clockwise direction 2 Using the narro
41. d soap solution or a proprietary leak detecting solution Never use a naked flame when testing for leaks Rectify all leaks before lighting the flame Test the nebulizer for leaks If any leakage is detected replace the internal O rings Regularly daily check the uptake tubing for blockage both at the solution end and where it is joined to the nebulizer capillary Regularly monthly remove and check the nebulizer as described below then re install the nebulizer as described in Chapter 3 and measure the uptake rate as described in Chapter 5 Agilent 50 55 AA User s Guide 105 Maintenance Removing the Nebulizer Block To remove the nebulizer 1 Turn the flame off 2 Remove the burner as described in the previous section 3 Remove the length of capillary tubing from the nebulizer 4 Pour about 500 mL of water through the top of the spraychamber to remove toxic or corrosive waste out of the spraychamber drain tube and liquid trap WARNING Corrosive Liquid and Toxic Hazard Contact with corrosive or toxic substances can result in death or severe personal injury or burns Always wear appropriate safety equipment and dispose of waste liquids according to your local laws and regulations E ate 5 Detach the length of tubing from the liquid trap drain outlet If fitted detach the length of tubing from the liquid trap vapor outlet 6 Unscrew both knurled retaining screws on the side of the nebulizer blo
42. d seal can be breached This can create a flashback and create an explosion hazard or a fire hazard A drainage tube must be connected to the drain outlet the lower nipple on the liquid trap and led to a suitable waste vessel The free end of the tube must remain above the liquid in the waste vessel Do not use glass waste vessels use vessels made of a material that will not shatter in the event of a flashback A venting tube should be connected to the vapor vent the upper nipple on the liquid trap when you are analyzing organic or toxic liquids This tubing should be led out from the sample compartment parallel to the drain tubing and MUST slope downwards to enable any liquid overflow to drain out and prevent the tubing from becoming blocked Do NOT lead the vapor tube to the waste vessel If necessary an active exhaust system should be used to draw away toxic vapors If you are not analyzing solutions of a toxic nature leave the vapor outlet uncovered Heat Hazards An open flame burners and other hot surfaces can present heat hazards that can result in severe burns Agilent 50 55 AA User s Guide 25 Safety Practices and Hazards 26 When operating a flame system always operate your spectrometer with the flame shield closed the chimney in place and the sample compartment front panel in place Keep your hands out of the sample compartment while a flame is burning Before you touch the instrument chimney turn the flame of
43. ded such as method number and element Solution results include the mean value in absorbance Abs or transmittance T if the method is uncalibrated or concentration if calibrated and precision in RSD or Pr depending on the measurement mode Method details are displayed in normal font Results are shown in enlarged font 60 Agilent 50 55 AA User s Guide Interface Signal Bar The signal bar appears at the top of the display screen on certain pages spans the entire width of the screen and graphically displays signal values depending on the type of reading that the instrument is performing If you are optimizing a hollow cathode lamp or D lamp the signal bar will display the lamp emission If you are optimizing the flame signal the signal bar will display the atomic absorption or emission The signal bar is only active when the Optimize Calibration Results or Remote page is selected At other times the bar is blank Page Area The page area displays the name of the current page and page specific information such as input fields and text or graphics Refer to Page 65 for details on the different pages in the system Message Line The message line displays information warning error messages This information may be the permissible range of the current parameter or a warning or error message Refer to Chapter 8 for a detailed description of possible error messages and possible solutions to these errors It also infor
44. e Maintenance Maintenance Schedule 101 s Cleaning 102 Burners 103 Nebulizer 105 Impact Bead 110 Spraychamber 114 Gas Supplies 115 D2 Lamp 115 Fuses 117 This chapter describes how to maintain your Agilent 50 55 AA system You should keep a record in your Instrument Log Book of all maintenance carried out Before you remove any hardware you must shut down the instrument Maintenance Schedule Daily Check the exhaust system Check the gas supplies Check all hoses and connections Clean the instrument Clean the burner Weekly Clean the lamp and sample compartment windows Agilent 50 55 AA User s Guide 101 Maintenance 102 Check the air filter spraychamber and liquid trap Yearly Cleaning Arrange for an Agilent field service engineer to perform preventative maintenance General Clean the instrument surfaces as follows 1 When you are finished switch off the instrument and allow it to cool Remove any hardware present in the sample compartment refer to the appropriate instructions if necessary Using a cloth dampened with water clean the sample compartment instrument cover flame shield and chimney If necessary use a mild detergent to clean the cover Do NOT use an abrasive cleaner When analyzing biological samples wipe the instrument with chlorhexidine in 95 ethanol Windows Clean the windows as follows 1 Clean the sample compartment
45. e as the Reslope standard 2 Press the Reslope key to mark the standard as the reslope standard If you are using SIPS the Reslope standard defaults to Conc3 3 Aspirate the appropriate standard if you are using SIPS the standard will be prepared automatically 4 On the Results page press the Reslope key The system will measure the reslope standard selected in the method and update the existing calibration Cal Zero is not remeasured when a Reslope is performed Agilent 50 55 AA User s Guide 95 Operation Sample Measurement Samples are measured on the Results page You can measure samples manually or use SIPS to facilitate online dilution of overrange samples Measuring Samples Manually To measure samples manually 1 Set the Measurement Parameters as described on Page 83 2 Press the Results key 3 Aspirate the appropriate sample the sample highlighted on the Results page and press the Read key 4 Repeat the previous step for the remaining samples Measuring Samples with SIPS You can use SIPS 10 to perform automatic dilution of overrange samples To measure samples using SIPS 10 1 Set up the SIPS 10 as described in the SIPS manual 2 Enable SIPS on the Options page and set the parameters as required see Page 68 3 Set the remaining Measurement Parameters as described in Page 83 4 Press the Results key Ensure the diluent tubing is connected to the Mariott vessel 6 Place the pump tubin
46. e lamp code for one of the installed hollow cathode lamps Possible causes include One of the installed hollow cathode lamps is faulty A electronic fault in the instrument s lamp recognition circuity 9422 Instrument Fault Lamp current The instrument could not detect any lamp current for the selected hollow cathode lamp Possible causes include No hollow cathode lamp is installed in the selected lamp position Faulty hollow cathode lamp Faulty lamp supply circuits Agilent 50 55 AA User s Guide Troubleshooting Errors 9514 Instrument Signal saturation The instrument signal reached saturation on one or more signal values Either the signal went below 0 3 Abs or went too high above 130 in a Flame Emission method Suggested action Re optimize the instrument or for a Flame Emission method redo Emission Setup 9517 Low HC Lamp Energy Low hollow cathode lamp energy The instrument Gain had been raised to its highest value but the hollow cathode lamp signal was too low Possible causes include Hollow cathode lamp misaligned The light path is obstructed Faulty hollow cathode lamp The lamp selection lever is in the wrong position 9518 High HC Lamp Energy High hollow cathode lamp energy The instrument Gain had been set to its lowest value but the hollow cathode lamp signal was too high Possible causes include Hollow cathode lamp misaligned Faulty hollow cathode lamp Faul
47. e spraychamber and nebulizer block 1 Place the O ring in the recess at the rear of the nebulizer block as shown in the following picture N Figure 9 O ring in place in the nebulizer block Agilent 50 55 AA User s Guide 49 Installation 50 2 Holding the nebulizer block in one hand insert the front end bayonet mount of the spraychamber into the rear end of the nebulizer block using a clockwise twisting motion as you push the spraychamber into the nebulizer block to lock the bayonet mount Attaching the drain tube float liquid trap to the nebulizer block This is for products with serial numbers before 0110xxxx For products with serial numbers 0110xxxx and later refer to the instructions on Page 52 1 Screw the plastic drain tube into the bottom of the nebulizer block Explosion Hazard Failure to install the drain tube will cause violent and loud explosions to occur in both the liquid trap and drain vessel when the flame is lit The explosion may be severe enough to cause death personal injury or damage to the instrument or laboratory NEVER attempt to light a flame with the drain tube missing 2 Refer to the following picture and insert the float 1 in the liquid trap Figure 10 Top view of liquid trap showing correct placement of float Agilent 50 55 AA User s Guide Installation WARNING Fire Hazard To ensure correct operation the float must be inserted in the trap with the A open end o
48. em The tubing should run parallel to the drain tubing and must slope downwards to prevent it becoming blocked should liquid overflow and drain from the vapor vent Do not lead the vapor vent tubing to the waste vessel If you are not using hazardous solutions in the spraychamber you may leave the vapor vent free Float For products with serial numbers 0110xxxx and later the float is captive to the drain tube and contains a magnet which is designed to operate a reed switch when the float and tube are present and the trap is filled to the correct level Settings For instructions on how to set up your nebulizer to suit your analytical requirements refer to Chapter 5 Installing the Nebulizer When you receive your instrument the nebulizer will be assembled and installed in the sample compartment For instructions on how to remove disassemble and reassemble the nebulizer refer to Page 105 46 1 Ensure that the nebulizer is correctly assembled in the nebulizer block with the metal capillary protruding through the locking thimble as described in Reassembling the Nebulizer Page 109 2 Attach the spraychamber to the nebulizer block and install the complete assembly in the sample compartment as described on Page 54 Agilent 50 55 AA User s Guide Installation Spraychamber bi Figure 8 Nebulizer spraychamber components older style drain tube and float and Mark VI burner shown 1 Nebulizer block 2 Spraych
49. ent Front Panel The sample compartment front panel is designed to reduce heat and radiation hazards Always fit this panel before using your 50 55 AA To fit the sample compartment front panel 1 Position the panel in the sample compartment orientated as shown in the picture at the start of this section 2 Align the panel so that the two small holes fit over the two lugs on top of the burner adjuster and lower the panel until it rests on the burner adjuster Agilent 50 55 AA User s Guide 57 Installation 58 Flame Shield The flame shield hinges onto the front of the sample compartment and is designed to reduce heat and radiation hazards from the flame An interlock prevents you from igniting the flame unless the flame shield is closed Always fit the flame shield before using your 50 55 AA and leave it closed unless you need access to the burner Eye Hazard Some flames emit hazardous levels of UV radiation which can cause cataracts and skin cancer Always keep the flame shield sample compartment front panel and chimney in place when the flame is operating To fit the flame shield 1 Hook the flame shield onto the bar at the top of the sample compartment 2 Lower the flame shield until it rests on the stainless steel bosses on either side of the sample compartment To remove the flame shield lift it up and unhook it from the front of the sample compartment Hot Surface The chimney and flame shield may bec
50. ent for manual selection of the appropriate lamp position The D lamp module if fitted is located within the lamp compartment on the lower left hand side and is interlocked to prevent inadvertent exposure to hazardous UV radiation Figure 3 Lamp compartment 1 Lamp selection lever 2 D2 lamp compartment Agilent 50 55 AA User s Guide 41 Installation 42 Hollow Cathode Lamps Cathode Glass shield Guide pn Quartz window Anode Glass envelope Figure 4 Hollow cathode lamp You can use the following types of lamps Single element Multi element UltrAA lamps UltrAA lamps are boosted lamps that operate with a separate external power supply and offer higher performance Installing Hollow Cathode Lamps To install a hollow cathode lamp 1 Open the lamp compartment door 2 Ensure that the required lamp position is turned off If it is not go to the Instrument Parameters page and set the Active current field to zero see Instrument Parameters Page Page 65 for more information 3 Hold the lamp by its base aligning it so that the ridge on the guide pin is matched with the notch in the socket 4 Press and hold the white button located at the end of the socket see the following picture and push the lamp into the socket releasing the button as you push the lamp fully home Hold the lamp by its base Do not touch the quartz window at the end of the lamp Agilent 50 55 AA User
51. er from the nebulizer block as described on Page 106 2 Pull the pressure relief bung from the rear of the spraychamber 3 Remove the mixing paddles by inserting a blunt inert object through the front of the spraychamber and pushing the centre of the paddles to remove them through the rear of the spraychamber Cleaning the Spraychamber To clean the spraychamber 1 Flush the spraychamber components with an appropriate solvent and then wash them thoroughly in laboratory detergent and warm water 2 Use a bottlebrush to clean the inside of the spraychamber If necessary clean the mixing paddles in an ultrasonic bath 4 Rinse all parts thoroughly with distilled water and dry thoroughly 5 Inspect all O rings and replace any that are cracked or deformed Replacement is easier if the O rings are wetted with distilled water 6 Reassemble the spraychamber according to the instructions in Chapter 3 114 Agilent 50 55 AA User s Guide Maintenance You may use Dow Corning High Vacuum grease to sparingly grease O rings immediately wiping off any excess with a clean cloth Do not use hydrocarbon or silicon grease O ring replacement kits are available from Agilent refer to the Spare Parts chapter for ordering information Gas Supplies Change gas cylinders according to the instructions supplied by the manufacturer Refer also to the Safety Practices and Hazards chapter at the start of this manual When any gas cylinder is ch
52. es and Connections 15 Ultraviolet Radiation 15 Warning and Caution Messages 16 Warning Symbols 16 CE Compliance 19 Flame Operation 19 Flammable Solvents 19 Compressed Gases and Cylinders 21 Acetylene 21 Nitrous Oxide 23 Burners 23 Nebulizer 24 Liquid Trap 25 Heat Hazards 25 Perchloric Acid 26 Flashbacks 27 Your Agilent 50 55 AA instrument and accessories have been carefully designed so that when used properly you have an accurate fast flexible and safe analytical system If the equipment is used in a manner not specified by the manufacturer the protection provided by the equipment may be impaired Agilent 50 55 AA User s Guide 11 Safety Practices and Hazards 12 Operation of an atomic absorption spectrometer can involve the use of compressed gases flames and hazardous materials including corrosive fluids and flammable liquids Unskilled improper or careless use of this instrument can create explosion hazards fire hazards or other hazards which can cause death serious injury to personnel or severe damage to equipment and property Information on safety practices is provided with your instrument and operation manuals and also referenced in your Agilent accessory manuals Before using your instrument or accessories you must thoroughly read these safety practices Observe all relevant safety practices at all times Electrical Hazards The instrument and accessories contain electrical circuits devices a
53. escribed in this document are furnished under a license and may be used or copied only in accordance 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 subcontract Software is delivered and licensed as Commercial computer software as defined in DFAR 252 227 7014 June 1995 or as a commercial item as defined in FAR 2 101 a or as Restricted computer software as defined in FAR 52 227 19 June 1987 or any equivalent agency regulation or contract clause Use duplication or disclosure 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 June 1987 U S Government users will receive no greater than Limited Rights as defined in FAR 52 227 14 June 1987 or DFAR 252 227 7015 b 2 November 1995 as applicable in any technical data Safety Notices A CAUTION notice denotes a hazard It calls attention to an operating procedure practice or the like that if not correctly performed 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 conditions are fully understood and met A WARNING notice denotes a hazard It calls attention to an operating procedure practice
54. esult in the leakage of gas which can be ignited by the flame and in turn set fire to the spraychamber Damage to O rings in the nebulizer can allow leakage of the oxidant which can reduce the total flow of gas through the burner slot and so increase the possibility of a flashback occurring The liquid trap must be filled with the same solution as the matrix used for the standards and samples A drain tube must be attached to the lower nipple of the liquid trap and it must slope downwards all the way to the drain vessel so that the waste liquid drains smoothly The end of the drain tube must not be allowed to drop below the level of the liquid in the vessel Conversely the level of liquid must not be allowed to rise sufficiently to cover the end of the tube Agilent 50 55 AA User s Guide Safety Practices and Hazards When using organic or toxic liquids in the spraychamber a vent tube must be attached to the upper vent nipple of the liquid trap It must slope downwards running parallel to the drain tube to prevent it becoming blocked should any liquid drain out and be vented to an active exhaust system All of the above points must be observed because a sudden surge of waste liquid can affect the pressure in the spraychamber and result in a flashback 7 Since N O is stored in the cylinder under pressure as a liquid when it expands through the regulator it can cool the regulator sufficiently to form ice on the outside and pr
55. eturning the cursor to the appropriate field and pressing Read 5005 Slope test failure The calibration has failed The slope of the calibration curve changes too much between successive standard signal readings 5006 Calibration fit failure The calibration has failed A calibration curve could not be fitted to the measured standards Effective calibration is indicated by the symbol Cal in the bottom right of the display screen area 5008 Reslope signal out of range Reslope calibration has failed The reslope standard signal reading was too far out to be used The Reslope signal value cannot differ from the original value by more than 25 Agilent 50 55 AA User s Guide 129 Troubleshooting Errors 130 6000 Check HC lamp selection This message is for information only It is intended as a prompt for the operator to ensure that the lamp selection lever is in the position consistent with both the selected method element and lamp current 9159 EEPROM checksum zero wl This error means the instrument will take several minutes to start up but will have no effect on operation If the error persists a service call may be required 9160 EEPROM checksum mono correction This error will mean the monochromator wavelength may not be accurate Because of this the instrument may fail to find a particular Hollow Cathode lamp Resonance Line resulting in No Peak Detected errors If the error persists a service call may be required 93
56. event it from operating correctly Prevent freezing by using a heater on the N O regulator on the supply cylinder Contact the supplier of the regulator for a suitable heater 8 As free acetylene is unstable at elevated pressures it has to be stored in the cylinder by dissolving it in acetone If the gas is withdrawn too quickly or the cylinder pressure is allowed to drop below 700 kPa acetone may be drawn off in sufficient quantities to affect analytical performance damage seals O rings and hoses or even cause a flashback Observe the recommendations concerning the use of acetylene 9 Perchloric acid is well known for forming unstable salts Operators using this acid should ensure that the minimum amount is allowed to reach the spectrometer and that the burner spraychamber and liquid trap are thoroughly cleaned after each analysis to ensure that unstable salts are not allowed to build up Failure to do this can result in unpredictable flashbacks 10 Aspirating solutions especially alkaline ammoniacal ones that contain high concentrations of Ag Cu and Hg can lead to the formation of acetylides which can spontaneously decompose and cause a flashback Agilent 50 55 AA User s Guide 29 Safety Practices and Hazards This page is intentionally left blank 30 Agilent 50 55 AA User s Guide Introduction e 2 Introduction Pre Installation Requirements 32 P 50 55 AA Documentation 32 Conventions 32 Specif
57. f and allow the chimney to cool When you change burners remember that the burner may be very hot Always use protective gloves when removing a burner from the instrument Perchloric Acid Aspiration of perchloric acid and perchlorates into a nitrous oxide acetylene flame can create an explosion hazard which can result in death or serious injury including temporary or permanent impairment of hearing Do not use perchloric acid unless it is absolutely essential for sample preparation If perchloric acid must be used it may be possible to reduce the risk of explosion by taking the following measures Usean air acetylene flame instead of a nitrous oxide acetylene flame Reduce the concentration of perchloric acid and metal in all analytical solutions to the lowest practicable level The concentration of perchloric acid should be reduced in the digestion stage and further reduced by extending the fuming stage Aspirate all solutions for the shortest practicable period Aspirate distilled water between samples Minimize the aspiration of air Use separate spraychamber liquid trap and drain assemblies for perchloric acid analyses and organic solvent analyses to prevent perchloric acid from mixing with organic solvent residues Agilent 50 55 AA User s Guide Safety Practices and Hazards When solvent extractions of perchloric solutions are performed some of the acid may dissolve in the organic solvent that is subsequen
58. f the float facing down and the concave section facing inwards 3 Add the appropriate solvent to the liquid trap until the float just starts to rise WARNING Explosion Hazard Failure to fill the liquid trap will cause violent and loud explosions to occur in both the liquid trap and drain vessel when the flame is lit NEVER attempt to light a flame unless the liquid trap is full 4 Attach the liquid trap to the bottom of the nebulizer block by inserting the end of the plastic drain tube into the liquid trap and using a counter clockwise twisting motion to engage the bayonet lock Figure 11 Complete nebulizer spraychamber assembly Agilent 50 55 AA User s Guide 51 Installation 52 You should now install the complete spraychamber nebulizer assembly as pictured above in the sample compartment of the instrument as described on Page 54 Attaching the drain tube float liquid trap to the nebulizer block products with serial numbers 0110xxxx and later For products with serial numbers before 0110xxxx refer to the instructions on Page 50 1 Hold the nebulizer block spraychamber assembly upside down so that the float falls down clear of the hand and screw the new drain tube into the nebulizer block Refer to Figure 12 Explosion Hazard Failure to install the drain tube will cause violent and loud explosions to occur in both the liquid trap and drain vessel when the flame is lit The explosion may be severe enough
59. f the solutions measured or the text UNDER or OVER if the solution is underrange or overrange or UNCAL if the method is uncalibrated The Precision column displays RSD in Integration mode Pr in PROMT mode and remains blank in Integrate Repeat mode with the heading Pr The Mean column always displays the mean reading for each solution The DF dilution factor column only includes values if SIPS is enabled and will be within the range 1 000 200 0 The Reps last replicate value column is only used for Integration mode displaying the value of each replicateas it is calculated Each value overwrites the previous value If a new method is loaded or the Measurement mode or Instrument mode is changed the contents of the Results window are cleared Remote Control Page This page appears when the instrument in placed in remote control mode In this mode the keypad is disabled Control of your Agilent 50 55 AA from a external computer is facilitated using a program such as Microsoft HyperTerminal For more information on HyperTerminal refer to Windows Help search for HyperTerminal in the Help index Remote commands are read from the serial port When the instrument is placed in remote control mode the Text style defaults to LIMS Commands are case sensitive and are in English only Agilent 50 55 AA User s Guide 73 Interface 74 The commands are as follows Command name Command
60. g in the appropriate sample and press the Read key If the sample is overrange SIPS automatically dilutes the sample online and measurement continues The dilution factor used is given on the Results page and the final dilution corrected concentration is reported Agilent 50 55 AA User s Guide Operation Results The solution results are displayed on the Results page Refer to Page 72 for more information on the Results page Printing the Results You can print the solution results to an external printer using the RS 232 9 pin cable to connect the instrument to your PC or printer If the printer is not a serial printer use a serial to parallel converter To print the results 1 Set the Text style to Printer on the Options page and set the Baud rate and Lines per page 2 Ensure the RS 232 cable is connected from the serial port on the back of the instrument to the printer 3 Press the Read key to measure the current solution As each solution is measured the result will be sent to the printer Output to LIMS System Results can be sent to a LIMS system using the RS 232 output on the rear of the Instrument To do this 1 Connect a RS 232 cable from the rear of the instrument to the RS 232 input on the LIMS for example the COM1 connector on the rear of a PC 2 Set the baud rate of the connection to that of the controlling system Each time the READ key is pressed data is output as follows The
61. ges i e the PROCESS command is equivalent to a page change in local control The REMOTE SHUTDOWN command returns the system to local control with the Instrument Parameters page displayed and hollow cathode and or D lamps extinguished This complements REMOTE OFF which returns the system to local control with lamps on Refer to Page 98 for details of how to set up your system for remote operation and an example of a remote analysis Navigating the Interface Changing Pages To access a particular page press the key that corresponds to the desired page Any modifications made to the previous page will be kept and downloaded to the instrument as the page is exited Changes made on a given page are only executed when the current page is exited another page is selected An exception to this is when changing from the Load Method page to the Instrument Parameters page or vice versa The parameters are not downloaded at this time allowing you to load a method and edit the instrument parameters in one go rather than having the instrument settings updated twice upon each page exit Agilent 50 55 AA User s Guide 75 Interface Selecting Menus For Command menus i e single level menus appearing in the left of the screen use the Up and Down keys to move from one item to the next and if necessary press Enter to select the desired option Cut Optimization Press ENTER for Rescale Cal Figure 19 An example of a Comm
62. gs in the documentation or on the instrument itself are as follows Agilent 50 55 AA User s Guide Safety Practices and Hazards gt A gt Corrosive liquid Electrical shock Eye hazard Explosion hazard Fire hazard Heavy weight danger to feet Heavy weight Hot surface Moving parts danger to hands gt Noxious gas Toxic hazard The following symbol may be used on warning labels attached to the instrument When you see this symbol refer to the relevant operation or service manual for the correct procedure referred to by that warning label Agilent 50 55 AA User s Guide 17 Safety Practices and Hazards The following symbols appear on the instrument for your information Mains power on 0 Mains power off SS rse NY Single phase alternating current EU directives Flame off Flame on Le dy O When attached to the rear of the instrument indicates that the product complies with the requirements of one or more Indicates lamp present 18 Agilent 50 55 AA User s Guide Safety Practices and Hazards CE Compliance Your Agilent AA instrument has been designed to comply with the requirements of the Electromagnetic Compatibility EMC Directive and the Low Voltage electrical safety Directive commonly referred to as the LVD of the European Union Agilent has confirmed that each product complies with the relevant Directives by testing a prototype against the prescribed EN European Norm standards
63. hat it is correctly assembled before installing it in the sample compartment Instructions for disassembling the spraychamber are provided on Page 114 Especially check the correct positioning of the mixing paddles as described in step 1 below Assembling the Spraychamber Touching or otherwise contaminating any part of the mixing paddles will degrade the performance of the spraychamber You must be careful to avoid contaminating the mixing paddles when handling them For cleaning instructions refer to the Maintenance chapter 48 Agilent 50 55 AA User s Guide Installation To assemble the spraychamber 1 Position the boss end of the mixing paddles in the opening at the rear of the spraychamber being careful not to contaminate them Align the mixing paddles so that an opening between any two of the front blades is at the bottom 2 Slide the paddles into the spraychamber until the rear paddle is about to enter the hole wo Check that the paddles are still positioned as described in Step 1 then carefully push the back paddle into the spraychamber using a blunt inert and clean object for example a plastic stirring rod until the paddles are stopped by the shoulder Fa Wet the O ring of the pressure relief bung with distilled water to lubricate it o Insert the pressure relief bung into the rear of the spraychamber and push it firmly into position as far as it will go using a slight twisting motion To join th
64. he analysis default is the recommended gas type for the selected element Wavelength Defines the wavelength to be used for the current element default is the first listed wavelength The listed wavelengths are element and instrument mode specific Under remote control only listed wavelengths are valid values Agilent 50 55 AA User s Guide Interface Other A Defines the wavelength to be used when Other is selected in the Wavelength field Range is 180 0 900 0 Slit Defines the spectral bandwidth SBW for the current wavelength default is the recommended slit width for the current wavelength Save Method Saves the current method and calibration if completed to memory Any conditions being used on the Measurement Parameters page and Options page should also be saved using this function Delete Method Deletes a method from memory Measurement Parameters Page This page is used to set the measurement parameters Due to the nature of the field type the Measurement mode is located on the Options page see Page 68 This parameter must be set prior to setting the remaining measurement parameters Batch No amp Next Sample Identifies the next sample to be measured This has no effect on the reading Pre read Delay Defines the time allowed for the sample to reach the light path and for the signal to stabilize Agilent 50 55 AA User s Guide 67 Interface Read Time Defines the time for
65. he section Electrical Power Supplies in the pre installation manual before connecting the 55 55 AA system to the power supply Consult the manuals supplied with your printer and PC if required for their power requirements Connection Before connecting the instrument to the power supply ensure that the spectrometer is turned OFF Also ensure that the two voltage selector switches on the instrument rear panel are both set to the correct mains power supply voltage refer to the table on the rear panel The voltage selectors are set by the engineer when the instrument is first installed To connect the power supply plug the mains power cord into the back of the instrument and the free end of the power cord into the mains power supply Consult the manuals supplied with your printer and PC if required and any other accessories for instructions on how to connect these to the power supply Agilent 50 55 AA User s Guide Installation Moving Your Instrument WARNING Heavy Weight The instrument weighs over 50 kg 110 Ib Do not attempt to lift the instrument alone Always use two or more people when lifting or carrying the instrument into position Lamp Compartment The lamp compartment is located behind the hinged perspex door on the right hand side of the instrument The lamp compartment contains positions for two hollow cathode lamps A lamp selection lever is located in the upper left corner of the lamp compartm
66. high to sustain a flame The detector may be faulty 9922 Flame Shutdown Gas type This is an internal system error If a flame was present this error will cause the flame to be shutdown for safety reasons 9923 Flame Ignition Timeout The flame failed to ignite within 7 seconds during an ignition sequence Wait at least 4 seconds for the gases to disperse then try again Possible causes include The acetylene gas cylinder is empty or turned off The fuel flow is too low only on the MANUAL gas box The igniter failed Agilent 50 55 AA User s Guide 141 Troubleshooting Errors 142 9934 Flame Shutdown host offline The Flame has been extinguished due to an internal fault or power failure 9937 Flame Pressure Relief Bung The pressure relief bung is detected as not fitted either while a flame is attempting to ignite or while a flame is active The pressure relief bung is located at the rear of the nebulizer assembly in the sample compartment 9938 Liquid Trap Not Ready The liquid trap connected to the bottom of the nebulizer assembly has insufficient liquid Possible causes include Insufficient liquid in the trap The float in the liquid trap has jammed or been inserted incorrectly Faulty sensor 9xxx GPIB Fault This is an internal instrument fault If a SIPS unit is attached check that the cable is correctly installed Restart the instrument If the error persists contact your Agilent field ser
67. ications 33 Environmental Specifications 33 Power 33 Gas Supplies 35 Weights and Dimensions 36 The Agilent 50 AA single beam and Agilent 55 AA double beam flame atomic absorption spectrometers combine minimal user setup and fast sample throughput with unparalleled ease of use The instruments are controlled via a built in keyboard and display and can be upgraded by purchasing a PC and Agilent SpectrAA software for more information contact your local Agilent office Agilent 50 55 AA features include automatic monochromator slit width and gas selection two fixed hollow cathode lamp positions with manual selection lever universal Mark 7 spraychamber nebulizer with Mark 7 burner Deuterium background correction and wide range PMT are optional Agilent 50 55 AA User s Guide 31 Introduction Pre Installation Requirements Prior to receiving your instrument you will have been provided with an Agilent AA Systems pre installation manual which describes the environmental and operating requirements of the 50 55 AA system You must prepare your laboratory according to these instructions before the 50 55 AA can be installed You should keep the pre installation manual for future reference If you have misplaced your copy you can obtain a replacement from your local Agilent office 50 55 AA Documentation This manual covers the setup and operation of the basic 50 55 AA system only Operating instructions for the Sample Introd
68. illary wide or narrow bore is used Check the impact bead adjustment Check that the acetylene bottle pressure is gt 700 kPa and that acetone has not been allowed to enter the instrument Check nebulizer uptake rate is faster than fastest SIPS pump rate Check as for fault 11 Check correct wavelength selected For flame emission check sufficient concentration of solution and the high standard is used to optimize Check that the correct hollow cathode lamp is being used Check as for fault 11 Reduce hollow cathode lamp current Increase slit width Change Dz lamp Check hollow cathode lamp energy Reduce slit width Check standard solutions particularly high standard Select a different wavelength Reduce lamp current Reduce slit width Operate within the working range 0 1 to 0 8 Abs 127 Troubleshooting Errors 128 Error Messages This section lists all of the errors messages that may occur and includes some of the possible reasons for the occurrence of the error where this may not be so obvious Error messages appear on the bottom line of the display and remain there for five seconds They consist of a single letter severity code followed by a four digit number and a short message For example W1234 Check HC lamp selection The severity codes are I Information This type of message provides information only such as prompting the user to perform some action W Warning Provides informa
69. imney flame shield and sample compartment front panel from the instrument 2 Remove the burner from the spraychamber by lifting the burner assembly upwards This may require a slight twisting motion 3 Invert the burner in dilute 5 nitric acid so that the slot is completely submerged in acid Leave to stand overnight to soften the deposits 4 Rinse with distilled water and place the burner inverted in an ultrasonic bath containing dilute laboratory detergent such as Decon 90 for approximately 10 minutes 5 Rinse with distilled water and allow to dry Agilent 50 55 AA User s Guide 103 Maintenance To speed up drying dry the burner with a paper or lint free towel and then use compressed oil free air or inert gas Insert a non metallic business card or the Agilent burner cleaning and alignment strip part number 99 100539 00 into the burner slot and pour a small amount of metal polishing fluid such as Brasso on each side just above the burner slot Slide the card up and down in the slot perpendicular to the top to remove any deposits that may be present within the slot If the deposits are baked on hard their removal may require some effort and several cards may be required Another possibility is to use a strip of plastic which is just thinner than the dimension of the burner slot CAUTION Under no circumstances should a metal strip or implement be used on or in the burner slot as it will scratch the surface and
70. in the event of a flashback Do not use glass vessels 5 Ifyou are using materials that produce hazardous or flammable vapors attach a convenient length of 9 mm ID tubing to the upper outlet of the liquid trap Lead the free end of the tubing out from the sample compartment parallel to the drain tubing The tubing must slope downwards for its entire length to prevent it becoming blocked should liquid drain from the vapor vent Do not lead the vapor tubing to the waste vessel It should be lead to an active exhaust system WARNING Fire and Explosion Hazard Failure to connect the vapor vent tubing correctly can cause a flashback or explosion Ensure that the tubing is configured as described in the previous ij AN step Agilent 50 55 AA User s Guide 55 Installation Burner There are two types of burner available for use with your 50 55 AA system an air acetylene burner or a nitrous oxide acetylene burner Both burners include an interlock key designed to prevent ignition if either a burner is not fitted or a burner is fitted which is not suitable for the flame type selected A handle allows you to rotate the burner to any position Only Mark VI A or Mark 7 burners should be used with this system Previous versions should not be installed 56 Explosion and Fire Hazard and Hot Surface Improper or careless use of burners can create explosion hazards and fire hazards which can cause death serious injury to person
71. ing that the rate of acetylene drawn off from each cylinder is not excessive If high rates of consumption are observed then connect 2 or more cylinders in parallel to a manifold This will reduce the rate at which acetylene is drawn from each cylinder Agilent 50 55 AA User s Guide Safety Practices and Hazards To reduce the possibility of fire or explosion Test the supply plumbing regularly for leaks with a brush and soapy water or a proprietary leak detecting solution never use a naked flame when testing for leaks Crack the cylinder before use by gently opening the valve to check for any drops or spray of acetone Any cylinder showing acetone should be returned to the supplier for replacement Use Instrument Grade acetylene that is at least 99 5 pure Turn off fuel gas at the cylinder when you have finished your flame analysis Refer also to your local regulations governing the use of acetylene Nitrous Oxide The conversion of high pressure N O liquid to N O gas at the regulator can cause excessive cooling and eventual freezing of the regulator To prevent regulator malfunction and possible flashback the gas should be heated with an in line or wrap around heater Burners Improper or careless use of burners can create explosion hazards and fire hazards which can cause death serious injury to personnel and damage to equipment and property Whenever you handle burners remember that the burner m
72. ission No Peak 134 No Peak detected 135 No Peak detected 135 Instrument Fault 310V PSU 136 Agilent 50 55 AA User s Guide Agilent 50 55 AA User s Guide 9339 9415 Mono resetting Please wait 136 Instrument Fault Lamp code 136 9422 Instrument Fault Lamp current 136 9514 9517 9518 9524 9525 9527 9528 9529 9530 9531 9602 9911 9912 9914 9915 9916 9917 9920 9921 9922 9923 9934 9937 9938 9xxx 9xxx 9xxx Instrument Signal saturation 137 Low HC Lamp Energy 137 High HC Lamp Energy 137 Low BC Lamp Energy 138 High BC Lamp Energy 138 Instrument Fault EHT failed 138 Background Lamp failed 138 Background Lamp interlock 139 Instrument Fault Signal diagnostics No Lamp Current detected 139 Instrument Fault Mono Datum No Burner Fitted 139 N20 Burner not fitted 140 No Gas Control Unit 140 Flame Shield Open 140 Fault Gas pressure sensor 140 No Oxidant gas pressure 140 Fault Flame detected 141 Flame Out Detected 141 Flame Shutdown Gas type 141 Flame Ignition Timeout 141 Flame Shutdown host offline 142 Flame Pressure Relief Bung 142 Liquid Trap Not Ready 142 GPIB Fault 142 Instrument Error 142 SpectrAA Error 142 Contents Contents This page is intentionally left blank 10 Agilent 50 55 AA User s Guide Safety Practices and Hazards e e e 1 Safety Practices and Hazards Electrical Hazards 12 Heat Vapors and Fumes 13 Compressed Gases and Cylinders 14 Gas Hos
73. izer is now ready for use If you have just installed the nebulizer you should carry out the performance checks described in the next section Performance Checks You should check the performance of your nebulizer At installation Weekly When you are using a new type of solution To check the performance of your nebulizer 1 Set the nebulizer to high vacuum mode as per High Vacuum Setting on Page 90 or if you are using organics set the nebulizer to maximum uptake rate thimble fully clockwise 2 Set the instrument up to measure the absorbance of copper in an air acetylene flame Agilent 50 55 AA User s Guide Operation 3 With the system fully optimized as described in Optimization on Page 85 aspirate distilled water from a 10 mL calibrated cylinder for a carefully timed period and calculate the uptake rate This should be approximately 5 mL min 4 Zero the instrument press the Alt and Read keys together while aspirating distilled water 5 Aspirate a solution of 5 mg mL copper and note the absorbance reading Agilent guarantee an absorbance of 0 75 or better using the Mark 7 flame atomization system under fully optimized conditions Calibrating the Method All calibrations use the New Rational algorithm which provides a quadratic least squares line of best fit in the Abs Conc vs Abs domain A C a b A c A2 where A Absorbance C concentration and a b c are curve coefficients Calib
74. king 9330 No Peak detected The instrument failed to peak at the selected wavelength Another peak may be near this wavelength Incorrect or noisy readings will result if the instrument is not optimized again Possible causes include Wrong hollow cathode lamp Wrong wavelength or method selected Slit width SBW selection incorrect The lamp selection lever is in the wrong position A wavelength correction fault The error 9621 Instrument Fault W1 correction occurred prior to this error Agilent 50 55 AA User s Guide 135 Troubleshooting Errors 136 Suggested action Check that the optical light path is not obstructed in the sample compartment Correct any of the possible causes listed above Exit then re enter the Optimize page window This will cause the instrument to retry the peaking 9337 Instrument Fault 310V PSU Instrument Fault The instrument detected a problem with the 310 volt supply on the control board A service call may be required 9339 Mono resetting Please wait This message is for information only It can only occur when the instrument is just switched on If this message appears then the instrument will take several minutes to find its wavelength reference The instrument will function correctly after the delay If this message continues to occur and the startup delay is a problem then a service call will be required 9415 Instrument Fault Lamp code The instrument could not recognise th
75. l with the end of the tube as high as possible in the vessel above the expected liquid level the correct burner is fitted the flame shield sample compartment front panel and chimney have been fitted you have checked the exhaust system and gas supplies as described on Page 79 To light the flame 1 Press the Flame on button the black button on the left of the instrument and keep it pressed until the flame ignites If the ignition sequence times out before the flame ignites release the button wait about five seconds and restart the sequence Explosion Hazard Operation of a flame with an incomplete safety system can result in a violent explosion that can cause death injury hearing loss or property damage To prevent unsafe ignition of the flame operation of the inbuilt igniter is inhibited unless all safety interlocks are satisfied If the igniter fails to operate and all safety interlocks are satisfied call an Agilent field service engineer to find and fix the fault Never use an external igniter to light the flame because this bypasses the inherent self checking of the safety system Check the gas regulator settings and readjust if necessary When the flame has stabilized adjust the flame conditions Aspirate 50 mL of the appropriate solvent When you are not aspirating a solution you should be aspirating the appropriate solvent Agilent 50 55 AA User s Guide Operation Optimizing the Flame Signal
76. l and oxidant outlet nipples on the instrument are engaged in the fuel and oxidant ports on the nebulizer block Push the assembly firmly sideways Tighten the knurled retaining screws alternately one turn each at a time so that the assembly is pulled up evenly into place Tighten both screws firmly with the fingers only Place a suitable wide necked waste vessel in a convenient position at floor level The waste vessel must be made of a non glass material which will not shatter in the event of a flashback or fire Locate your waste vessel in an open well ventilated area where you can see it Never locate the waste vessel in a confined space Use small stable vessels and empty them frequently Do not accumulate large volumes of flammable liquid Attach a convenient length of 9 mm ID tubing to the lower outlet of the liquid trap Lead the free end of this tubing to your waste vessel Ensure the tubing is relatively straight and free of kinks sharp bends or upward slopes the waste liquid must be allowed to drain freely into the waste vessel The free end of the tubing must remain above the level of the liquid in the vessel Agilent 50 55 AA User s Guide Installation WARNING Fire and Explosion Hazard Failure to connect the drain tubing correctly can cause a flashback or an explosion in the waste vessel Ensure that the tubing is configured as described in the previous step Use vessels made of a material that will not shatter
77. l sensitivity will be less than normal 3 Set the instrument in continuous read mode Zero the instrument by pressing the Alt and Read keys together Loosen the locking ring and turn the ring and thimble fully clockwise 6 While nebulizing a suitable standard solution observe the absorbance Slowly and carefully turn the thimble counter clockwise until the absorbance reaches a maximum Agilent 50 55 AA User s Guide Operation 7 Hold the thimble so it cannot turn then turn the locking ring until it is firmly against the spray chamber body to lock it in place The nebulizer is now ready for use If you have just installed the nebulizer you should carry out the performance checks described on Page 92 Low Vacuum Setting In low vacuum mode the high solids setting the capillary position is adjusted close to the end of the venturi throat The greater clearance around the capillary tip reduces clogging caused by solutions with a high solids content With this setting the vacuum at the capillary tip is relatively low Consequently you must use wide bore 0 64 mm ID plastic sampling capillary to achieve the uptake rates required for maximum sensitivity At this setting the uptake rate is more sensitive to variation in sample liquid level To set the nebulizer to low vacuum mode 1 Fit the wide bore 0 64 mm ID tubing to the capillary 2 Loosen the locking ring and turn the thimble and ring fully clockwise The nebulize
78. ls on how to control the system remotely The value of this parameter is ignored in Remote Control mode with LIMS format used automatically 70 Agilent 50 55 AA User s Guide Interface Baud Rate Defines the baud rate to be used for the serial port Default is 9600 Lines Per Page Used when Printer is selected as the text style default is 66 Each page has a header Form feeds are used to separate pages Language Selects the language of the interface default is English Refer to Page 81 for instructions on how to change the language of the interface Optimization Page The Optimization page is used to optimize the hollow cathode lamps and D lamp if fitted and to optimize the signal In Absorbance mode there are up to three options present on this page HC lamp D lamp if fitted and Signal In Emission mode there is only one option present Signal because during emission optimization the system uses the highest standard to carry out the wavelength peaking procedure i e no lamps are used The signal bar appearing at the top of the page facilitates optimization of the lamps burner position and impact bead position to obtain the optimum signal Refer to Page 85 for instructions on optimizing the system Calibration Parameters Page This page is used to define the standards to be used for the calibration measure the standards and select the reslope Standard Conc 0 This field is set
79. mon Problems 125 Error Messages 128 The following troubleshooting chart provides solutions to some common problems you may encounter during routine AA analysis Please note that this list is not exhaustive Check Fault 1 Oxidant pressure low 2 Burner fault 3 Liquid trap fault 4 Spraychamber bung fault 5 Lack of control of gas flows 6 High oxidant flow 7 Flame sensed with no flame Agilent 50 55 AA User s Guide Check gas supply pressure Check the burner type is correct for the selected flame type and it is correctly installed Check liquid trap is full and float is free to move Check the operation of the liquid trap interlock in the burner adjuster Check pressure relief bung is correctly installed in the spraychamber Check operation of pressure relief bung interlock Check as for 1a Check for blockages in gas supply lines Check O rings in nebulizer block Check nebulizer is correctly assembled and adjusted Check for leaks Too much light in the sample compartment Ensure chimney and flame shields are fitted Turn off nearby lights Flame sensor faulty 125 Troubleshooting Errors 8 Igniter flame too short 9 Igniter will not light 10 Flame will not light 11 Poor light throughput 12 High gain readings 13 Low sensitivity with flame 126 Low acetylene pressure check supply Check that igniter solenoid operates correctly Check for blockage or carbon in igniter capillary Check that the
80. ms you of the calibration status of the method If the text Cal appears in the message line the method has been calibrated The text Rslp indicates the calibration has been resloped No text indicates that the method has not been calibrated Agilent 50 55 AA User s Guide 61 Interface A number of icons may appear in the message line to provide you with instrument status information Some of these icons are animated to indicate that the instrument is active The icons and their meanings are as follows Instrument busy please wait li Monochromator slewing A Instrument peaking H Slit changing D2 lamp warming up Os A Instrument finding zero order _ No burner fitted TI Air acetylene burner and ignition sequence mt N20 acetylene burner showing narrower slit and ignition sequence Gas type and oxidant pressure status icons are as follows a Air acetylene oxidant pressure present AR Air acetylene no oxidant pressure a7 Air only oxidant pressure present AG Air only no oxidant pressure Ta Nitrous oxide acetylene oxidant pressure present HA Nitrous oxide acetylene no oxidant pressure Gas type icons are only displayed during times of other instrument activity 62 Agilent 50 55 AA User s Guide Interface Keypad The keypad keys are divided into a number of groups as discussed below Page Keys There are seven page keys each of which take you to a specific page in the system
81. n The flame shield was detected open or removed when the gasbox attempted to ignite the flame 9916 Fault Gas pressure sensor The oxidant pressure in the reservoir is detected when the Ignite button is pressed but the gas control is shutdown This is either a control board electronics or pressure sensor fault 9917 No Oxidant gas pressure The oxidant pressure in the reservoir failed to reach the required operating pressure during the ignition sequence or has dropped unexpectedly while a flame was operating This error may also be returned while running in Air Only mode Possible causes include Air or N O gas cylinders empty or turned off Faulty pressure sensor Faulty gas supply regulation Agilent 50 55 AA User s Guide Troubleshooting Errors 9920 Fault Flame detected When the Ignite button was pressed the flame detector sensed that a flame is present prior to the ignition sequence For safety reasons this error will prevent the flame from being lit Possible causes include Excessive light in the sample compartment A faulty flame sensor The flame override service switch is in the Flame Sense position 9921 Flame Out Detected After the flame ignition the flame had been detected by the flame sensor but it is now no longer detected This is unexpected as no Flame Off command has been given Possible causes include The acetylene gas flow may be too low to sustain a flame The oxidant flow may be too
82. n Page 106 2 Slacken the clamping screw that secures the impact bead in the adjuster block approximately two turns as shown in the following picture Figure 24 Nebulizer block 1 Flat blade screw driver 2 Clamping screw 3 Impact bead adjuster block 3 Remove the impact bead from the nebulizer block using a twisting motion if necessary Agilent 50 55 AA User s Guide Maintenance You should only perform the remainder of this procedure if the bead is broken and glass is trapped in the adjuster block 4 Loosen the trapping screw securing the impact bead adjuster 3 4 turns as shown in the following picture o z E Figure 25 Gas inlet side of nebulizer block 1 Trapping screw 2 Impact bead adjuster 5 Unscrew and remove the impact bead adjuster If the adjuster does not come out as it is unscrewed loosen the trapping screw further 6 Remove the impact bead adjuster block from the nebulizer block Git should drop out once the impact bead adjuster is removed and push the broken portion of the impact bead out from the adjuster block If the adjuster block is difficult to remove due to broken glass trapped in the bead use a piece of wire or similar to pry the broken glass out from the cavity in the nebulizer block Agilent 50 55 AA User s Guide 111 Maintenance This procedure may dislodge small fragments of glass To protect the eyes from flying pieces of glass protective eye wear should always be wo
83. n the following picture and slide out the lamp Slide a new D lamp through the clamp until the aperture 2 is aligned with the notch in the backing plate 8 as in Figure 27 Figure 27 D2 lamp alignment top view 8 Refer to Figure 28 and rotate the lamp so that the face with the aperture 1 is parallel with the top edge of the bracket 2 Agilent 50 55 AA User s Guide Maintenance Figure 28 D2 lamp alignment end view 9 Tighten the screw you loosened in Step 6 to secure the lamp in the holder 10 Reconnect the D lamp plug in the lamp compartment 11 Replace the lamp assembly in the lamp compartment 12 Replace the thumbscrew at the top of the D lamp compartment After installation a new D2 lamp must be aligned Refer to the Operation chapter for instructions on how to align lamps Fuses The spectrometer contains two operator accessible fuses located at the back of the instrument To replace a fuse you must disconnect the instrument from the power supply and replace the blown fuse with one of the type and rating as indicated in the Specifications section The fuses have a code marked on the cap e g T 2AH250V This refers to the fuse characteristic T time lag F fast acting the current rating in amperes the breaking capacity H heavy L low and the voltage rating in volts This code must correspond to the code appearing next to the fuseholders Agilent 50 55 A
84. nd components operating at dangerous voltages Contact with these circuits devices and components can cause death serious injury or painful electric shock Panels and covers that are retained by fasteners which require the use of a tool for removal may be opened only by Agilent field service engineers Consult the manuals or product labels supplied with your PC monitor printer plotter water cooling system and vacuum pump where required to determine which parts are operator accessible Application of the wrong supply voltage connection of the instrument to an incorrectly wired supply outlet or lack of proper electrical grounding can create a fire hazard or a potentially serious shock hazard and could seriously damage the instrument and any attached ancillary equipment Always use a 3 wire outlet with ground connection which is adequately rated for the load The installation must comply with local State and Federal safety regulations Do not connect the instrument to the mains power supply until you have made sure that the operating voltage is correctly set for the mains power supply in the specific outlet in your laboratory to which the equipment will be connected Agilent 50 55 AA User s Guide Safety Practices and Hazards Heat Vapors and Fumes The heat vapors and fumes generated can be hazardous toxic or otherwise injurious to personnel Heat vapors and fumes must be extracted from the instrument by means of an exh
85. nel and damage to equipment and property Whenever you handle a burner remember that it may be very hot Always use protective gloves to handle hot burners Always fit the correct burner Never attempt to use an air acetylene burner with a nitrous oxide acetylene flame as this will cause a flashback Never interfere with or attempt to bypass burner interlocks Never attempt to dismantle or modify a burner To install a burner 1 Check the O ring on the burner It must be supple and free from nicks or cracks to ensure that the burner makes a gas tight seal with the spraychamber 2 Position the burner in the sample compartment with the slot along the optical path and the plate with the warning towards the front of the instrument 3 Align the interlock key with the guide in the burner adjuster Agilent 50 55 AA User s Guide Installation 4 Lower the burner so that the interlock key enters the guide in the burner adjuster and the burner neck enters the hole for the burner in the spraychamber 5 Push the burner down as far as it will go using a slight twisting motion WARNING Fire and Explosion Hazard Leaking gas mixtures may explode or ignite and cause injury and damage Do A not damage the O ring when fitting the burner 6 Squeeze the prongs of the rotation handle together to move the handle left or right to rotate the burner You should align the burner after installing it refer to Page 87 Sample Compartm
86. ng new drain tube float liquid trap Figure 32 Various components from the nebulizer block 20 Glass impact bead packet of 5 9910025700 21 Clamp bead adjuster 0810133400 22 Impact bead locking screw PEEK 1510226500 23 Trapping screw stainless steel 1510226000 24 Plug grey PEEK 1610118400 25 O ring 3 16 in ID 6910009800 Agilent 50 55 AA User s Guide 123 Spare Parts Universal Mark 7 spraychamber assembly complete Includes 0110634490 nebulizer block and spraychamber spraychamber bung and liquid trap Aqueous o ring kit 9910093400 Organics o ring kit 9910093500 Capillary tubing standard 9910024800 Capillary tubing Hi vac 9910044000 Nebulizer tool capillary extraction 7210027600 Nebulizer tool venture extraction 7210027700 Burner cleaning and alignment strip packet of 100 9910053900 Nebulizer cleaning wire 9910024700 Covers Doors Flame shield 0110628090 Sample compartment front panel lower 0910123400 Flame shield window only 2010057390 Fuses 72 5 AH 250 V 1910009500 Miscellaneous Drip tray 6610017500 Chimney 0110621900 Serial to parallel converter 240 V 0110360690 110 V 0110360700 SpectrAA mouse mat 7910032000 Kit 50 55 AA keyboard overlays 9910091800 Includes overlays in French German Italian and Spanish Kit spraychamber stand 9910049800 Remote read footswitch 0110454200 124 Agilent 50 55 AA User s Guide Common Problems Troubleshooting Errors e 8 Troubleshooting Errors Com
87. nt group 4 Select the required element from the list and press Enter Agilent 50 55 AA User s Guide 81 Operation 82 The cookbook method will be loaded and the following parameters updated accordingly element method number instrument mode active lamp current gas type wavelength and slit width In addition all previous standard concentration values will be deleted To customize a method 1 Load the cookbook method for the required element as described previously and modify the parameter settings as necessary see the following sections for instructions on setting the various parameters 2 Save the method on the Instrument Parameters page as described on Page 84 To load modify an existing user method 1 Press the Load Method button 2 Select User methods and press Enter 3 Select the method you wish to use 4 Modify the method as required Setting the Instrument Parameters The instrument settings are defined on the Instrument Parameters page To set the instrument parameters select the Instrument Parameters page and specify the Instrument mode Absorbance or Emission the Active lamp position 1 or 2 the Active current for the active lamp the Standby current for the standby lamp whether D correction is on or off if available the Gas type the Wavelength the spectral bandwidth the width of the Slit For more information see
88. nywhere ALT Result Display error log Anywhere ALT Up Increase LCD contrast Anywhere ALT Down Decrease LCD contrast Anywhere ALT Clear Flame shutoff for N20 Anywhere ALT Enter Print method if Serial PRINTER Anywhere ALT Save general info EEPROM Anywhere ALT 50 General diagnostic page Anywhere ALT 51 EEPROM data diagnostic Anywhere ALT 52 Motor diagnostic page Anywhere ALT 53 RS232 loopback test Anywhere ALT 54 SIPS arm pressure page Anywhere ALT 59 Keyboard diagnostic page Anywhere ALT Calibrate Exit keyboard diagnostics ALT Results Exit keyboard diagnostics ALT Left Menu scroll text Any menu ALT Right Menu scroll text Any menu ALT Read Instrument zero Optimization page Read Read next standard Calibration page ALT Read Instrument zero Calibration page Reslope Perform reslope Calibration page ALT Reslope Drop reslope standard Calibration page Read Take next reading Results page ALT Read Instrument zero Results page Reslope Perform reslope Results page Agilent 50 55 AA User s Guide Interface Key sequence Action Available ALT Reslope Drop reslope standard Results page Right Prime SIPS pump page Results page Up Increment next sample Results page Down Decrement next sample Results page Clear Clear result window start new page if Results page Serial PRINTER Miscellaneous The Read key is used to measure a solution see Pages 93 and 96 The Reslope key is used to select the reslope standard and to perform a reslope opera
89. ome very hot during operation and cause severe burns if touched Always wear protective gloves when handling a hot chimney Agilent 50 55 AA User s Guide Interface e e 4 Interface Introduction 59 s Display 60 Keypad 63 Agilent 50 55 AA Pages 65 Load Method Page 65 Instrument Parameters Page 65 Measurement Parameters Page 67 Options Page 68 Optimization Page 71 Calibration Parameters Page 71 Results Page 72 Remote Control Page 73 Navigating the Interface 75 Changing Pages 75 Selecting Menus 76 Moving Between Fields 77 This chapter provides an overview of the Agilent 50 55 AA user interface to help you become familiar with its various components You should read through this chapter while exploring the interface Introduction The Agilent 50 55 AA user interface consists of the following Liquid Crystal Display LCD Keypad Speaker to provide audible prompts or warnings Agilent 50 55 AA User s Guide 59 Interface Serial port to facilitate remote control or LIMS printer output Memory for storage of up to 30 customized methods Figure 15 Agilent 50 55 AA keypad and display area Display The display is divided into four areas status area signal bar page area and message line each of which is discussed below Status Area The status area displays the method details and solution results Method details include settings relating to the method currently loa
90. ommands as required for your analysis see Page 73 for the list of available commands The following is an example of the commands used to perform an analysis of gold using LIMS control Agilent 50 55 AA User s Guide Operation Load Instrument Parameters for Au REMOTE LOAD_CKBK_METHOD SET_INST_MODE SET_ACTIVE_LAMP SET_ACTIVE_CURRENT SET_SLIT SET_D2 SET_WAVELENGTH SET_GAS_TYPE PROCESS ON Au AA 1 4 0 1 0 YES 242 8 AIR_ACET After entering the PROCESS command the instrument will configure itself Load Instrument Measurement Mode SET_MEAS_MODE SET_NEXT_SAMPLE SET_REPS SET_READ_TIME SET_PRE_READ_DELAY SET_STD_1_CONC SET_STD_2_CONC PROCESS Start Analysis INST_ZERO READ_STD READ_STD READ_STD READ_SAMPLE READ_SAMPLE READ_SAMPLE READ_SAMPLE READ_SAMPLE etc REMOTE Agilent 50 55 AA User s Guide INTEG 1 3 2 0 3 0 5 0 10 0 _ OFF 99 Operation 100 Shutting Down the System Prior to shutting down the system at the end of the working day you should aspirate pure solvent for 10 minutes To shut down the system Shut down any accessories according to their manuals Turn off the instrument Shut off all gas supplies at the regulators and gas cylinders Empty the waste vessel Turn off the exhaust fan oa A Q N Remove and clean any hardware according to the instructions in the Maintenance Chapter Agilent 50 55 AA User s Guide Maintenance
91. r is now ready for use At this setting the uptake rate will be sensitive to the hydrostatic head of the liquid in the sample container thus care is required to minimize variations in liquid levels in the sample and standard containers Setting Zero Uptake Rate Before adjusting the nebulizer for use with organic solvents you should set zero uptake rate as follows using distilled water as the solvent 1 Fit the wide bore 0 64 mm ID tubing to the capillary 2 Turn the locking ring clockwise until it is up against the nebulizer body 3 Turn the thimble clockwise as far as it will go Agilent 50 55 AA User s Guide 91 Operation 92 4 Aspirating distilled water turn the thimble counter clockwise until bubbles emerge from the end of the capillary tubing 5 Turn the thimble clockwise to the point where bubbling ceases This is the zero uptake point no solution is being aspirated through the nebulizer Setting the Uptake Rate for Organic Solvents Because of the fueling effect of organic solvents you should carefully adjust the nebulizer uptake rate for all analyses involving organic solutions Set the uptake rate as follows using an air acetylene flame and the selected solvent 1 Set the nebulizer for zero uptake as described previously 2 Adjust the gas flows to give a very lean flame 3 Slowly rotate the thimble clockwise until the flame is beginning to turn fuel rich some yellow may be seen The nebul
92. ration standards are measured on the Calibration Parameters page You can measure the standards manually or use SIPS to prepare and present the standards automatically from one bulk standard Remeasuring Cal Zero adjusts the signals of all standards If you receive an error due to calibration failure note the error number and refer to Chapter 8 for a description of the problem Measuring Standards Manually To measure the calibration standards manually 1 Define the standards to be used for the calibration as described on Page 83 2 Select the Cal Blank by moving the focus to the Conc0 field then aspirate the blank and press the Read key Agilent 50 55 AA User s Guide 93 Operation 94 3 Select Concl aspirate the first standard and press the Read key 4 Repeat the previous step for the remaining standards Measuring Standards Using SIPS 10 Automatic calibration from a single standard can be performed using the SIPS 10 Refer to the SIPS manual for installation information To calibrate a method using the SIPS 10 1 Set up the SIPS 10 as described in the SIPS manual 2 Develop or modify a method as described earlier in this section 3 To incorporate SIPS operation into the method enable SIPS on the Options page 4 Inthe SIPS sub menu set the parameters as required see Page 68 5 Select the Calibration Parameters page 6 Enter the concentration of the bulk standard in the Conc5 field When SI
93. re is a spark to light the tongue of the flame If not call an Agilent field service engineer Check operation of Ignite pushbutton Check as for fault 8 Oxidant flow may be too high see fault 5 There may not be an error message Check as for faults 1 2 3 8 Check operation of Ignite pushbutton If flame sensed error message displayed check as for fault 7 Check flame shield interlock Check lamp alignment Clean lamp windows Check PMT supply Change HC lamp Check as for fault 11 Check nebulizer uptake rate Check nebulizer capillary is not blocked Check glass bead alignment Check for chemical interference Check fuel to oxidant ratio is correct Check burner is clean and clear of deposits Check solutions have not expired Check wavelength selection and calibration Agilent 50 55 AA User s Guide 14 15 16 17 18 19 Unstable signals with flame When using SIPS the high standards curve excessively No peak found D2 lamp energy low D2 lamp energy high Signal not increasing and excessive curvature Agilent 50 55 AA User s Guide Troubleshooting Errors Check burner alignment Check flame shield and front panel installed in sample compartment Check purity of gas supplies No moisture or oil in the air supply Check nebulizer burner spraychamber and paddles are clean Check without mixing paddles installed Check nebulizer is correctly set up and correct plastic cap
94. rn when performing this procedure 7 Replace the adjuster block in the cutout in the nebulizer block and replace the impact bead adjuster by gently screwing it in until it engages with the adjuster block as shown in the following picture Figure 26 Nebulizer block 1 Impact bead adjuster block 2 Impact bead adjuster 8 Turn the impact bead adjuster clockwise as far as possible without forcing it 9 Tighten the trapping screw 2 3 turns to secure the impact bead adjuster The impact bead adjuster block must be positioned as close as possible to the front of the nebulizer block as shown above This will avoid breaking the impact bead when a new one is installed 112 Agilent 50 55 AA User s Guide Maintenance Installing and Adjusting the Impact Bead The following should only be necessary when a new impact bead is installed or if the nebulizer has been replaced To install adjust the impact bead 1 If necessary remove the old impact bead as described in the previous section 2 Carefully insert the new impact bead into the nebulizer block pushing it in as far as possible so that the bead is in the throat of the nebulizer nozzle there should be a small gap of approximately 0 5 mm between the end of the venturi and the bead The position of the adjuster block means that it can only be adjusted forward which moves the impact bead away from the nozzle Carefully tighten the impact bead locking screw T
95. rs button 2 Move the highlight to the Delete Method option and press Enter 3 Move the highlight to the method in the list you wish to delete and press Enter The method will be deleted leaving an empty slot in the list Agilent 50 55 AA User s Guide Operation Optimization This section describes how to optimize the various components of the Agilent 50 55 AA system including the lamp burner and flame signal Aligning Lamps Hollow Cathode Lamps If you are developing a new method install the lamp and note the position ensuring this position is selected with the lamp selection lever The numbers of each lamp position are clearly marked You will need to enter the position number of the lamp on the Instrument Parameters page If you are using a lamp with an existing method review the method to find where the lamp must be installed install the lamp in this position and ensure the position is selected with the lamp selection lever You should align a hollow cathode lamp if you have just installed the lamp you need the best possible signal to noise ratio you are using a non Agilent lamp you are using a position previously used for a non Agilent lamp You do not need to align the lamps in Emission mode because lamps are not used signal optimization is performed while aspirating the top bulk standard To align a hollow cathode lamp 1 Load an appropriate method ensure the required lamp position is
96. s Guide Installation Figure 5 Hollow cathode lamp mount 1 White button 2 Lamp alignment knobs Removing Hollow Cathode Lamps To remove a hollow cathode lamp 1 Open the lamp compartment door 2 Ensure that the lamp is turned off If it is not go to the Instrument Parameters page and set the Active current field to zero see Instrument Parameters Page Page 65 for more information 3 Hold the lamp by its base and press the white button at the end of the socket to release the lamp 4 Gently remove the lamp from the socket and release the white button D2 Lamp Deuterium arc background correction is optional on 50 55 AA instruments If you have this option you will need to replace the D lamp approximately every 1000 hours of operation For instructions on how to change a D lamp refer to the Maintenance chapter Agilent 50 55 AA User s Guide 43 Installation Sample Compartment Nebulizer The nebulizer is housed in the nebulizer block which attaches to the side of the burner adjuster The following components are connected to the nebulizer block drain tube liquid trap spraychamber see Page 47 Figure 6 Nebulizer components for products with serial numbers before 0110xxxx 1 Nebulizer block 2 Nebulizer 3 Drain tube 4 Liquid trap 5 Float 6 Spraychamber Agilent 50 55 AA User s Guide Installation Figure 7 Nebulizer components for products with serial numbers 0110xx
97. s position Remove and re install the D lamp bracket as described in Chapter 6 If the problem persists a service call may be required 9530 Instrument Fault Signal diagnostics Instrument Fault The instrument detected a problem with the signal electronics on the control board Restart the instrument If the problem persists a service call will be required 9531 No Lamp Current detected The instrument could not detect any lamp current for the selected Hollow Cathode lamp and has aborted the peaking Rectify the problem and optimize the instrument Possible causes include No hollow cathode lamp in the selected lamp position Faulty hollow cathode lamp 9602 Instrument Fault Mono Datum Instrument Fault The instrument detected a problem with the monochromator Restart the instrument If the problem persists a service call will be required 9911 No Burner Fitted An attempt was made to ignite the flame without any burner installed in the sample compartment Agilent 50 55 AA User s Guide 139 Troubleshooting Errors 140 9912 N20 Burner not fitted Wrong burner fitted Change to N O acetylene burner Possible causes include Wrong burner fitted The burner fitted is an air acetylene type but an N O acetylene flame is requested Burner detection circuitry failure 9914 No Gas Control Unit There is no flame control unit fitted to this instrument An attempt was made to load a flame method 9915 Flame Shield Ope
98. se the smallest volume of solvent consistent with your analytical requirements Always use solvent resistant tubing such as nitrile rubber for the drainage system and the vapor vent Lead the drainage tube to a suitable wide necked waste vessel as described in the next paragraph The standard plastic laboratory tubing supplied with your instrument is not suitable for draining organic solvents or venting organic vapors If organic or toxic solutions are being used in the spraychamber vent tubing must be connected to the vapor vent on the liquid trap and led to an active exhaust system Do not lead the vapor tube to the waste vessel If you are not using toxic or hazardous liquids in the spraychamber leave the vapor vent uncovered Use small wide necked waste vessels and empty them frequently do not accumulate large volumes of flammable solvent Do not use glass waste vessels use vessels made of a material that will not shatter in the event of a flashback Metal vessels will corrode and are difficult to determine the level of liquid in them Ensure that your waste vessel is below the instrument and located in an open well ventilated position where you can see it Never locate the vessel in a confined space When your analytical program has been completed or at the end of the working day always empty the waste vessel When your analytical program has been completed or at the end of the working day always empty and clean the liquid trap
99. ted a problem with the 12 volt supply A service call may be required 9313 Instrument Fault 5V PSU Instrument Fault The instrument detected a problem with the 5 volt supply A service call may be required Agilent 50 55 AA User s Guide 131 Troubleshooting Errors 132 9316 Wavelength out of range The Instrument is reporting that the current method has specified a wavelength that is out of range for the Photomultiplier Tube PMT Possible causes include A method wavelength suitable for a Wide Range PMT was specified but the instrument is currently fitted with a Short Range PMT Use a valid wavelength Currently available PMTs Wide range up to 900 nm Standard up to 650 nm 9317 No Peak Low HC Lamp Energy Low hollow cathode lamp energy The instrument Gain had been raised to its highest value but the hollow cathode lamp signal was too low Possible causes include Hollow cathode lamp misaligned The light path is obstructed in the sample compartment Faulty hollow cathode lamp Faulty PMT or related circuits 9318 No Peak High HC Lamp Energy High hollow cathode lamp energy The instrument Gain had been set to its lowest value but the hollow cathode lamp signal was too high Possible causes include Hollow cathode lamp misaligned Faulty hollow cathode lamp Faulty PMT or related circuits Agilent 50 55 AA User s Guide Troubleshooting Errors 9319 No Peak Low BC Lamp Energy Lo
100. tion see Page 93 Agilent 50 55 AA Pages The system consists of seven pages each accessed by pressing its corresponding key plus one additional page the Remote Control page which appears when the system is placed in remote control mode see Page 73 The pages are as follows Load Method Page The Load Method page is used to load either a user method or a cookbook method You should follow the prompts appearing on this page to load the type of method you want For more information refer to Page 81 Instrument Parameters Page The Instrument Parameters page is used to set the instrument parameters and save and delete methods The element can only be selected by loading an appropriate method user or cookbook This page includes the following instrument specific fields Agilent 50 55 AA User s Guide 65 Interface Instrument Mode Defines the mode you want to use Absorbance or Emission default is Absorbance Active Lamp Defines which lamp position to use default is 1 in Absorbance mode Active Current Defines the current for the active lamp default setting is the recommended current for the lamp of the selected element Standby current Defines the current for the standby lamp default is 0 0 D2 Correction Only available on instruments with D background correction Defines whether D correction is to be used or not default is no Gas Type Defines the flame type to be used for t
101. tion about a system difficulty or potential difficulty which the user should be aware of E Error A message relating to a condition that will terminate the current operation The system will continue to run but the operation will have failed 0804 LIMS port error A communication error or problem has been identified with the LIMS Laboratory Information Management System via the serial RS 232C port 2851 SIPS comms error There has been a communication problem with the SIPS sample introduction pump unit Check all cables to this unit are connected securely Agilent 50 55 AA User s Guide Troubleshooting Errors 3800 EEPROM storage error A problem has been identified with the User Method storage device The method parameters have failed to store or were retrieved with error and hence ignored 5004 Signals not increasing The calibration has failed The signal readings of the calibration standard solutions are not increasing in the expected order The instrument cannot calibrate using this sequence of standards Suggested actions Move the cursor to the last standard measured and press Enter to clear the field and remove the invalid concentration from the calibration If more than one standard has been measured the calibration should now be valid indicated by the symbol Cal in the bottom right of the display screen area Alternatively remeasure the previous standard ensuring you are using the correct standard by r
102. tly aspirated Also if the organic solution is aspirated while floating on the surface of the acid do not allow the capillary tube to drop below the organic layer and suck up aqueous perchloric acid Never allow the burner to clog Clean the burner frequently washing it thoroughly both inside and out Minimize the amount of acetone that is carried over with the acetylene by taking the following precautions Crack the cylinder before use by gently opening the valve to check for any drops or spray of acetone Any cylinder showing acetone should be returned to the supplier for replacement Store and use the cylinder in the vertical position Use only one instrument per cylinder Use only instrument grade acetylene Replace cylinders when the pressure drops to 700 kPa 100 psig When using perchloric acid wear approved ear protectors and approved safety glasses and ensure that all instrument safety covers are in position Flashbacks Analysis over many years has shown that in most cases flashbacks are associated with one or more of the following points If you experience a flashback check this list to see if any of the points are relevant and take steps to remedy the situation 1 Keep the burner clean Deposits must not be allowed to build up in or on the burner slot because they can partially block it thus causing the pressure to build up in the spraychamber and breach the seal provided by the liquid trap
103. to cause death personal injury or damage to the instrument or laboratory NEVER attempt to light a flame with the drain tube missing Figure 12 Screw the drain tube into the nebulizer block 2 With the two vent nipples aligned with the nebulizer lower the drain tube into the trap ensuring that the float drops into the space between the two ribs that are opposite the two vent nipples Refer to Figure 13 Agilent 50 55 AA User s Guide Installation Figure 13 Lower the drain tube and float into the trap 3 Push the trap home and then twist it 1 4 turn clockwise to lock it into position Refer to Figure 13 n y Figure 14 Lock the trap into position WARNING Explosion Hazard Failure to fill the liquid trap will cause violent and loud explosions to occur in both the liquid trap and drain vessel when the flame is lit The explosion may be severe enough to cause death personal injury or damage to the instrument or laboratory NEVER attempt to light a flame unless the liquid trap is full Agilent 50 55 AA User s Guide 53 Installation 54 You should now install the complete spraychamber nebulizer assembly as pictured above in the sample compartment of the instrument as described in the next section Installing the Spraychamber Nebulizer Assembly To install the spraychamber nebulizer assembly 1 Place the spraychamber nebulizer assembly in position in the sample compartment so that the fue
104. trument is supplied with a set of gas hose fittings and a mains cable which suits the common utility standard in the local region The country kit must be ordered with the 50 55 AA instrument Power The mains power connection is located at the rear of the instrument Refer to Power on Page 40 for instructions on connecting the instrument to the mains power supply Gas Hoses Three rubber hoses are permanently attached to the instrument Each hose is two meters long and is color coded for air black nitrous oxide blue and acetylene red Each is fitted with female fittings suitable for USA standard regulators Gas hose connections are not detailed in this section as they are described in your 50 55 AA pre installation manual Printer If you are using a printer it should be connected to the instrument via a RS 232 cable in the RS 232C 9 pin port at the rear of the instrument upper left corner when viewed from the rear If your printer is not a serial printer you must use a serial to parallel converter Agilent 50 55 AA User s Guide 39 Installation 40 Accessories For details on connecting accessories such as SIPS or UltrAA lamps refer to the manuals accompanying the accessories Power Requirements Power requirements are detailed in your 50 55 AA pre installation manual and also in the Specifications section in Chapter 1 of this manual You should check the power requirements and read through t
105. ts When the initialization setup is complete the Load Method page is displayed For instructions on how to start any accessories refer to the manuals supplied with the accessories Agilent 50 55 AA User s Guide Operation Method Development A method stores the parameters to be used for analysis such as instrument measurement and calibration settings You must have a method loaded in order to run samples There are two types of methods user methods defined by the user and cookbook methods containing recommended settings for the selected element Selecting the Language of the Interface Before proceeding you may need to select the language of the interface This is done on the Options page To change the language of the interface 1 Press the Options key If the Options page displays the SIPS sub menu press the Left arrow key to return to the main menu see Page 68 for more information 2 Move the cursor to Language and press the Right arrow key 3 Move the cursor to the desired language from the list of available options and press Enter Keyboard overlays are also available in these languages see Chapter 7 for ordering information Loading a Method You can load a cookbook method customize your own user method or load an existing user method To load a cookbook method 1 Press the Load Method button 2 Select the Cookbook option 3 Select the appropriate eleme
106. tting of nebulizers to an atomic absorption spectrometer can create explosion hazards and fire hazards which can cause serious injury to personnel and damage to equipment and property Ensure that the nebulizer is correctly assembled and correctly fitted to the spraychamber before lighting the flame Nebulizers should be correctly adjusted before lighting the flame Never remove a nebulizer while the flame is on and do not use a mechanical device e g a wire to clean the capillary of a nebulizer while a flame is operating ALWAYS extinguish the flame before removing the nebulizer from the nebulizer block Regularly test all connections for leaks Rectify all leaks before lighting the flame Agilent 50 55 AA User s Guide Safety Practices and Hazards Liquid Trap Improper use of the liquid trap can create explosion hazards fire hazards and toxic vapor hazards which can result in death or serious personal injury The liquid trap interlock is incorporated to minimize the possibility of attempting to operate the instrument with an empty trap Never interfere with this interlock Never attempt to bypass this interlock Always fill the liquid trap with the same solvent that is being used for your samples The trap is designed to provide a liquid seal under all normal conditions with solutions having a specific gravity greater than 0 75 Never use a solution or solvent having a specific gravity lower than 0 75 otherwise the liqui
107. ty PMT or circuits The lamp selection lever was in the wrong position when the instrument was Optimized Agilent 50 55 AA User s Guide 137 Troubleshooting Errors 138 9524 Low BC Lamp Energy Low Background Corrector D lamp energy Possible causes include D lamp misaligned The wavelength selected is inappropriate for D background correction The light path has been obstructed in the sample compartment Faulty D lamp 9525 High BC Lamp Energy High Background Corrector D lamp energy Possible causes include D lamp misaligned The hollow cathode lamp energy is too low Faulty D lamp Faulty EHT circuit 9527 Instrument Fault EHT failed Instrument Fault The instrument detected a problem with the EHT supply Restart the instrument If the problem persists a service call may be required 9528 Background Lamp failed Instrument Fault The instrument detected a problem with the Background Corrector D lamp No lamp current has been detected and the D lamp has been presumed faulty Change the D lamp as described in Chapter 6 If the problem persists a service call may be required Agilent 50 55 AA User s Guide Troubleshooting Errors 9529 Background Lamp interlock Instrument Fault The instrument detected a problem with the Background Corrector D lamp The safety interlock switch suggests that the D lamp is not safely installed in the instrument The lamp will not light in thi
108. uction Pump System SIPS and other AA accessories are given in the manuals accompanying those accessories If you are controlling the instrument with an external PC and SpectrAA software you should disregard this manual and refer to the documentation provided with the SpectrAA software Conventions The following conventions have been used throughout this manual Single quotes indicate menu options and field names e g select the Cookbook option Bold text indicates the Keypad keys on your 50 55 AA instrument e g press the Read key ALL CAPITALS indicates text you must type in from the keyboard attached to an external PC 32 Agilent 50 55 AA User s Guide Specifications Introduction Your 50 55 AA instrument is designed for indoor use only It is suitable for the following categories Installation category II Pollution degree 2 Safety Class 1 EN 61010 1 Environmental Specifications Condition Altitude Temp t C Non operating 0 2133 m 0 7000 ft 5 45 transport Operating within 0 853 m 0 2800 ft 10 35 performance 853 2133 m 2800 7000 ft 10 25 specifications Humidity RH non condensing 20 80 8 80 8 80 For optimum analytical performance it is recommended that the ambient temperature of the laboratory be between 20 25 C and be held constant to within 2 C throughout the entire working day Power Voltage 100 10 5 VAC 120 220 or 240 VAC 10 23
109. urn the impact bead adjuster counter clockwise until the block appears midway in the cutout in the nebulizer block 5 Check that the impact bead will not slip in the block by gentle rotational pressure 6 Reassemble the nebulizer and spraychamber components and install the complete assembly in the sample compartment as described in Chapter 3 This adjustment of the impact bead is close to the maximum sensitivity position for easily atomized elements It can be confirmed by aspirating a 5 ppm copper standard and monitoring the absorbance Gradually turn the impact bead adjuster first clockwise then anticlockwise until the signal is at a maximum The reduced sensitivity setting is obtained by turning the impact bead adjuster clockwise until the signal is about 40 of the maximum signal Agilent 50 55 AA User s Guide 113 Maintenance Spraychamber Unless you have been using organics or hazardous materials clean the spraychamber at the end of the day by aspirating a weak about 0 1 solution of a detergent like Triton X 100 for 10 minutes You should disassemble and clean the spraychamber after every analysis that uses organic or hazardous materials If you are only using aqueous solutions you need only do this every 1 4 weeks depending on frequency of use Disassembling the Spraychamber To disassemble the spraychamber 1 Remove the nebulizer block spraychamber assembly from the sample compartment and separate the spraychamb
110. vice engineer 9xxx Instrument Error This is an internal instrument error and should not occur Record the actual error number e g 9903 Restart the instrument If the error persists contact your Agilent field service engineer 9xxx SpectrAA Error This is an internal instrument error and should not occur Record the actual error number e g 9903 Restart the instrument If the error persists contact your Agilent field service engineer Agilent 50 55 AA User s Guide
111. w Background Corrector D lamp energy Possible causes include D lamp misaligned The light path has been obstructed Faulty D lamp or circuits 9320 No Peak High BC Lamp Energy High Background Corrector D lamp energy Possible causes include D lamp misaligned Faulty D lamp Faulty PMT or related circuits 9321 No Peak Low HC Lamp Energy Low hollow cathode lamp energy Monochromator reference wavelength not found The instrument Gain had been raised to its highest value but the hollow cathode lamp signal was too low Possible causes include Hollow cathode lamp misaligned The light path is obstructed Faulty hollow cathode lamp Suggested action Check that the optical light path is not obstructed in the sample compartment Exit then re enter the Optimize page window This will cause the instrument to retry the peaking Agilent 50 55 AA User s Guide 133 Troubleshooting Errors 134 9322 No Peak High HC Lamp Energy High hollow cathode lamp energy Monochromator reference wavelength not found The instrument Gain had been set to its lowest value but the hollow cathode lamp signal was too high Possible causes include Hollow cathode lamp misaligned Faulty hollow cathode lamp Faulty EHT circuit 9323 Low Emission No Peak The instrument failed to peak at the selected wavelength Low Emission energy at the selected wavelength The instrument Gain had been raised to its
112. w end of the nebulizer tool provided unscrew the clamp bush guide and carefully remove it from the nebulizer body 3 Remove the capillary assembly and the spring 4 Before you remove the venturi you must move the impact bead sideways away from the venturi To do this slacken the clamping screw that secures the impact bead in the adjuster block and move the impact bead to the side see Page 110 if necessary Agilent 50 55 AA User s Guide 107 Maintenance Push the venturi from the rear through the nebulizer body using the plastic tool provided to dislodge the capillary guide The capillary guide should drop out Finally extract the venturi from the nebulizer body If you need to replace the white plastic insert that the thimble screws into because the threads have been stripped unscrew the insert using the other end of the tool you used at Step 2 above Refer to Chapter 7 for ordering information Cleaning a Blocked Nebulizer 1 Remove the nebulizer disassemble it and check it as described previously Place the nebulizer in an ultrasonic cleaner containing 0 5 liquid detergent solution such as Triton X 100 for 5 to 10 minutes If the ultrasonic bath fails to clear the blockage pass a burr free nebulizer cleaning wire some are supplied with the nebulizer carefully through the nebulizer then repeat the ultrasonic cleaning procedure Rinse the nebulizer in distilled water then allow to dry Check for a block
113. water or a proprietary leak detecting solution NEVER use a naked flame when testing for leaks Ultraviolet Radiation Hazardous ultraviolet radiation is emitted by flames hollow cathode lamps and deuterium lamps This radiation can cause serious damage to human eyes and skin Always wear safety glasses conforming to an approved standard and certified or otherwise warranted to protect the eyes from ultraviolet radiation Never look directly at the light emitted by a hollow cathode lamp When using a flame always operate your spectrometer with the flame shield closed and the sample compartment front panel and chimney in place Agilent 50 55 AA User s Guide 15 Safety Practices and Hazards Warning and Caution Messages Name of Warning A Warning message is used in the text when failure to observe instructions or precautions could result in death or injury A Caution message is used when failure to observe instructions could result in damage to equipment Agilent supplied and or other associated equipment A Note message is used to give advice or information Warning Symbols 16 The following is a list of symbols that appear in conjunction with warnings in this manual and on the spectrometer The hazard they describe is also shown The beginning of the warning text is noted by a warning icon A triangular symbol indicates a warning The meanings of the symbols that may appear alongside warnin
114. which the signal is measured Replicates Defines the number of readings per solution This option is only available in Integration mode Precision Defines the precision for the PRecision Optimized Measurement Time PROMT measurement mode Not available when SIPS is enabled Options Page In addition to selecting the Measurement mode this page is used to enable options such as SIPS use and serial output and select the language of the interface Measurement Mode Determines how the signal will be measured The following modes are available Integration The signal is averaged over the selected Read time for the set number of replicates PROMT PRecision Optimized Measurement Time The signal is averaged until the desired precision RSD is achieved or until the end of the Read time When SIPS is being used set this value to 0 3 68 Agilent 50 55 AA User s Guide Interface Integrate Repeat Replicates are read continuously without being initiated by the Read key Pressing the Read key takes the most recent replicate as the solution sample or standard result This mode should NOT be used when the SIPS accessory is being used SIPS Displays the following sub menu Cu Options Enabled Minimum sample OF Prime time Pump delay time kange if 0 5 to 5 0 Cal Figure 16 The SIPS sub menu of options Enabled Enables SIPS use default is No Neb uptake rate Controls
115. xx and later 1 Nebulizer block 2 Nebulizer 3 Drain tube 4 Liquid trap 5 Float captive 6 Spraychamber Drain Tube The drain tube is a plastic tube which screws into the bottom of the nebulizer block to facilitate drainage of waste solution into the liquid trap Liquid Trap The liquid trap allows excess solution to be drained from the nebulizer assembly The trap is designed to provide a gas seal under all normal gas flows when using solutions having a specific gravity greater than 0 75 You must fill the liquid trap with the solvent being used to aspirate the analytical solution A float in the trap activates a level sensor which is designed to inhibit ignition if the liquid trap is not filled to the correct level or the drain tube has been left out The sensor is also designed to shut down the flame if the level falls below the required minimum during operation Agilent 50 55 AA User s Guide 45 Installation A length of tubing must be connected to the drain outlet lower nipple and led to a suitable waste vessel The free end of the tube must always remain above the level of liquid in the waste vessel Use vessels made of an inert material that will not corrode or in the event of a flashback shatter Do not use glass or metal waste vessels If you are using organic or toxic liquids in the spraychamber a length of tubing must be connected to the vapor vent upper nipple to vent toxic vapors to an active exhaust syst
116. you have installed the D lamp correctly refer to Page 115 If so press Enter to Rescale This will bring the signal back into range for display You should also Rescale if the signal becomes too large Repeat the previous step with the second D lamp adjustment knob Agilent 50 55 AA User s Guide Operation Aligning the Burner To align the burner 1 Use one of the Agilent supplied burner cleaning and alignment strips or a business card to locate the light path 2 Rotate the burner by squeezing the prongs of the rotation handle until the slot is parallel to the light path NOTE Burner cleaning and alignment strips are available from Agilent as part number 9910053900 3 Place the card halfway along the burner slot Position the card with the vertical line perpendicular to the slot and adjust the burner height until the light beam falls within the target area Figure 22 Aligning the burner 4 Check that the slot is parallel to the light path by placing the card at the ends of the burner slot Readjust if necessary You can now light the flame and optimize the signal Lighting the Flame Prior to lighting the flame you must ensure that the working area is completely clear of all hazardous materials including corrosive liquids and flammable solvents the liquid trap is filled with an appropriate solvent Agilent 50 55 AA User s Guide 87 Operation the drain tube is positioned correctly in the waste vesse
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