Any Application







 Advanced Basic Performance Supports Wide Variety of Applications  Flame Analysis Offers Superior General Applicability




 Double-Beam Optical System  Analyzes High-Concentration Elements by Changing the Burner Angle
 The AA-7800 is equipped with a three-dimensional   Elements present in high concentrations can be measured in the flame analysis mode by adjusting the burner angle to decrease
 optical system that is automatically set to the optical   Detector  absorbance. That enables measurement of up to about 20 times higher element concentrations, which helps minimize dilution
 double-beam mode for flame measurements. In   Monochromator  errors and the effects of measurement element contamination from containers or reagents used.
 addition, the high-speed digital filter and use of   D2 lamp  Note: The automatic dual atomizer system, which is a combination of the model with AAC and the GFA-7800, cannot change the burner angle.
 optical components with extremely low optical loss   Chopper mirror
 Reference beam
 levels achieve data stability and high sensitivity.  Reference beam  1
 Sample beam    0.8
 0.4  Beam splitter  Relative Sensitivity  0.6
 Absorbance  0.2  0.4


                0.2
 0
 0:00  1:00
 Time (hh:mm)    0
 Hollow cathode lamp  0  10  20  30  40  50  60  70  80  90
 Results are shown from measuring 2 ppm of copper for over   Burner Angle
 an hour (average of 11 successive measurements plotted).   Burner Angle vs. Relative Sensitivity  With Burner Angle Changed  Burner Head with
 Over the course of hundreds of measurements, the                                    Angle-scale Markings (Optional)
 instrument achieved a relative standard deviation within 1%.
               High-Sensitivity Analysis Using Atom Booster (Optional)
               The atom booster is a 15 cm long quartz tube with a vertical slit cut in the tube. Positioned above the burner head, the tube
 Digital Temperature Control and Gas Control Results in High Stability  increases the delay time of atoms inside the flame, which increases absorbance by increasing the atomization density.
                              Atom Booster
                Element                        Sensitivity Increase
 The high-sensitivity optical sensor in combination with Shimadzu’s unique   0.25  Without  With
 temperature control method results in precise temperature control throughout all   Cd  0.0015  0.0007  Approx. 2.1 x
 0.2
 temperature regions for drying to atomization.  Pb  0.025  0.012  Approx. 2.3 x
       An electronically controlled flow controller enables the inner gas flowrate to   0.15  Comparison of Lower Limit of Detection with or without Atom Booster (Units: mg/L)
 be controlled precisely in 0.01 L/min increments.
 0.1
       That ensures high data stability even for furnace analysis.  * This option cannot be used with N2O-C2H2 flame. Contact us for information about the types
 0.05
                    of samples for which this option is available and the elements for which this option is useful.
 0                                                                                  Atom Booster
 Furnace Analysis Stability Data for Manganese
 (Plot of 50 Repetitions of  Compatible with Various Organic Solvents
 Averaging 5 Absorbance Measurements)
               By replacing standard parts with optional organic solvent-resistant parts, organic solvents that normally cause difficulties if
               injected in the standard configuration, such as MIBK or butyl acetate, can be injected.
 Automatically Switches Between Eight Hollow Cathode Lamps

 The AA-7800 lamp housing includes functionality for automatically switching   Support Gas Flow  Also Compatible with Flame Emission
 between eight hollow cathode lamps installed in a turret and simultaneously   Meter Included Standard  Spectrophotometry
 illuminating any two of the lamps.
       In combination with an ASC-7800 autosampler, it can measure multiple   Float-type flow meter (rotameter)   The AA-7800 can also be used as a flame emission spectro-
 elements automatically.  included standard for Support gas (N2O).  photometer. By using the wavelength shift function to
                                                            specify two measurement wavelengths, the background can
                                                            be corrected even for flame emission spectrophotometry.



 Lamp History Function is Helpful for Lamp Management

 In the lamp registration window, cumulative operating times can be calculated for
 each lamp, which is helpful for managing the service life of lamps. Multiple lamps
 for the same element can be differentiated based on lamp IDs.
                                                                          [Wavelength Shift] Window


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