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cH[bDa]
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▓ ░ Polar Instruments SI9000 v7.1.0 ░ ▀▀▀█
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▀▀▀ Date.......: 04/10/07
░░ Disks......: 04 X 4.77MB ░░
▓▓ Supplier...: tDk ▓▓
░░ Protection.: Keyfile ░░
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With its fast, accurate,
frequency-dependent transmission line
modelling, the new Si9000e is designed
to model loss and extract full
transmission line parameters over a
wide range of popular PCB transmission
lines (over 80 structures). Employing
boundary element method field solving,
the Si9000e extracts RLGC matrices and
rapidly plots a range of transmission
line information for the structure you
are designing. Loss is graphed three
ways with clear indication of
dielectric, copper and total loss.
The Si9000 caters for both single and
multiple dielectric builds, along with
the ability to take into account solder
mask performance. Mask coverage can be
set adjacent, between and above traces.
Many Polar customers request
frequency-dependent impedance
modelling, with particular reference to
transmission line losses - the result
is the Si9000e. The Si9000e is built on
the same proven boundary element field
solving platform as the PCB fabrication
industry standard Si8000m. Increasing
numbers of engineers are using the
Si8000m as a rapid and accurate design
tool for transmission line impedance -
the Si9000e extends the output to
extract full transmission line
parameters.
Frequency-dependent calculations:
Employing its Boundary Element Method
field solving, the Si9000 extracts RLGC
matrices and 2-Port (single-ended) or
4-Port (differential) S-Parameters and
rapidly plots transmission line
information for the structure under
design. Graphing against frequency is
provided for impedance magnitude, loss
(conductor loss, dielectric loss and
insertion loss), inductance,
capacitance, resistance, conductance
and skin depth. The Polar Si9000 runs
within the Microsoft Windows
environment and provides for simple
transfer of table data to external
programs such as spreadsheets or
databases for subsequent analysis.
Extended substrate tables:
The Si9000 frequency-dependent
calculations can be refined using
extended substrate data. Assign
substrate values by frequency band to
accommodate material from manufacturers
who specify parameters that vary by
frequency. Manufacturers may specify,
for example, differing values of Er and
loss tangent across a range of
frequencies.
High layer-count builds:
For those working with complex high
layer-count builds the Si9000e also
links to the Polar SB200 PCB Stackup
Design System and is available in the
SB9000 package. Using the SB9000 allows
you to keep all your stack design data
in one convenient file - and you can
draw library material from your
fabricator or from base material
suppliers in the Polar Material Partner
program.
Designed to save you time compared with
traditional methods, the Si9000e lets
you choose graphically the structure
you need to model and enter the
geometric and material data and the
range of frequencies under analysis.
Select the graphs or table you need and
the Si9000e solves for the results.
Advanced users may also enter available
data for Er and TanD versus frequency -
the Si9000e will take these into
account.
▀▀▀
░░ Notes:
▓▓ 1.) Unpack.
▓▓ 2.) Install.
▓▓ 3.> Point FlexLM to the desired included license
▓▓ 4.) Enjoy.
▓▓
▓▓ ..tDk
▓▓ ░░
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▓▓ ▓▓
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▓▓ Greets fly out to: ▓▓
▓▓ HTG,RTS,RBS,LGN,AXiS ▓▓
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