EPOND presents the autosamplers from ESI : the SC-Series Clean Intelligent Autosamplers
SC-series autosamplers re-define the state of automated ICP analyses
The ESI SC-Series has been developed to solve the current limitations
of autosamplers available to the analyst. Dual flowing rinse station
allows for the use of two different rinse solutions ensuring fast
wash-out of sample and minimal blank contamination. The
sample probe has no guide, thus eliminating a major cause of cross
contamination between samples.
Rapid, Accurate and Clean
The Linear/Polar motion - gives rapid sample changeover.
Auto zero feature after each sample ensures no missed vials.
Ultraclean dual-flowing rinse station does not use a peristaltic pump, ensuring no contamination from tubing.
Contamination from external sources eliminated with the optional HEPA filter cabinet.
No probe guide - eliminates a major cause of cross contamination.
Inert, Flexible and User Friendly
All fluoropolymer sample flow path construction - corrosion resistance.
All electrical components are encapsulation-sealed.
No metal or mechanical parts move over the samples vials.
Simple user set-up.
Multiple rack sizes can be utilized, for maximum flexibility.
Unique Features of the SC-Series Autosamplers
Unsurpassed Capacity
Maximum sample space made available on the sample platform
- up to 1260 samples in the case of the SC-14 ...
Smallest footprint / sample.
Dual Rinse Station
Allows the use of 2 rinse solutions.
Mimics best manual procedure.
Reduces contamination of blank solutions.
Ultra clean option.
- Uses pressurized containers to supply rinse solutions.
- No Contamination from Peristaltic Pump tubing.
Rapid
Simultaneous Linear / Polar motion ensures rapid movement between samples.
Sample to Rinse time ~3secs.
X-Y-Z speed user controllable.
Carriage is easily accessible for simple repair.
No Cross Contamination
Teflon-encapsulated carbon fibre sample arm & probe.
No probe guide, eliminates a major cause of sample cross contamination.
No metal or mechanical parts move over the sample platform.
