The AA-7000 series of Atomic Absorption Spectrophotometers features high-sensitivity
analysis, flexible system configurations, a number of safety features, and a
compact footprint, ensuring efficient and comfortable operation in your laboratory.
In combination with easy-to-use software and the powerful ASC-7000 autosampler,
the AA-7000 series is your choice for enhanced flame and furnace analysis.
Features
- Double-Beam Optics and Stable Hardware Achieve Superior Stability
The AA-7000 series' newly developed 3-D optical system is capable of
producing maximum performance for both flame and furnace detection. This is
achieved through optimal adjustment of the light beam and digital filter,
and by using optical components that restrict light loss.
- Achieves World-Class Lower Limits of Detection
Advances in optics and a new graphite furnace design achieve improved lower
limits of detection for furnace analysis (comparison with previous Shimadzu
models). This superb analysis performance is possible in all fields.
- Dual-Background Correction Functions
The optimal background correction methods, high-speed self-reversal
method (SR method) and deuterium lamp method (D2 method), are installed as
standard.
- Advanced Safety Technology
Safety is an extremely important consideration for flame atomic
absorption spectrophotometers using acetylene gas. The AA-7000 Series instruments
are the first ones in the world fitted with a vibration sensor as standard.
They also incorporate a comprehensive range of safety mechanisms, including
gas leak detectors.
- Configuration Flexibility
When attached to the AA-7000F, the optional AAC-7000 Auto Atomizer
Changer creates an integral burner and furnace that remains permanently installed
in the combustion chamber. It supports both flame analysis of high-concentration
samples and furnace analysis of trace samples, without changing the atomizer
unit. The integral construction with the atomizer saves space. .
The AA-7000 Series can be upgraded by adding units to allow the system to handle
the analysis targets.