Get the best Productivity
The Varian 400-MR provides unmatched productivity for a variety
of chemical applications by combining easy to use software with
outstanding performance. DirectDrive™ and DirectDigital™ RF architecture
and new Varian shim technology ensure optimal data quality for every
sample, with push button simplicity.
The Software Makes It Easy
The current Varian MR workstation software, VnmrJ 3.0, provides improved capabilities within the StudyQ, Protocols and
ViewPorts that make data acquisition and processing significantly more
straightforward.
Entering a frequently used sequence of experiments can be time consuming.
The Varian MR workstation software lets you save time by building Protocols- multiple
experiments combined as automated, reproducible procedures.
The StudyQ offers effortless selection and execution for
one or more experiments with one or more samples. Drag and drop experiments
into the StudyQ. Run, edit, or reprioritize as needed. Our ViewPort data viewing windows offer peak picking,
integration, insets, linked cursors, panning, stretch and zoom to manage the content and layout of spectra.
Unequaled Ownership Advantage
The distinctive low sample access height of the Varian 400-MR
magnet provides a system that is the easiest and safest to use.
In addition, its excellent stray field characteristics and compact
footprint ensure that you can locate the instrument where it
works best for you. The improved, longer helium hold time
permits a reduced maintenance schedule, saving you time and
money.
Varian’s DirectDrive electronic
architecture delivers precisely timed RF and gradient events and provides total
pulse programming control. Demanding data acquisition sequences with numerous
selective excitation events, such as Hadamard NMR, can be achieved with push-button
ease. By removing inconsistencies and unwanted delays in data acquisition, the Varian 400-MR allow
you to spend less time optimizing the method and more time analyzing the experimental
output.
DirectDigital™ The DirectDigital receiver system makes quadrature detection obsolete and
provides high dynamic range. It therefore reproducibly delivers flat baselines and less artifacts without
extensive post-acquisition algorithms. These features ensure reliable detection
and quantitation of minor components in the presence of other compounds and matrices,
with minimal sample preparation.
