ANSOFT Q3D TRANING - Electro Magnetic Compatibility...
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Transcript of ANSOFT Q3D TRANING - Electro Magnetic Compatibility...
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ANSOFT Q3D TRANING
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Introduction
HFSS 3D EM Analysis
S-parameter
Q3D R/L/C/G Extraction
Model
0 1 2 3 4 5 6 7 8 9 10
Frequency [GHz]
-35
-30
-25
-20
-15
-10
-5
0
mag
nit
ud
e [
dB
]
S11
S21
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Quasi-static or full-wave techniques
Measure the size of the interconnect in units of wavelength!
Size < λ/10, use quasi-static solvers. Output circuit model in RLGC.
Size > λ/10, and/or radiation important, use full-wave solvers.
Output S, Y, and Z parameters and fields.
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Wavelength issues
νp= λ × f
low frequencies (lump model) : λ/10 wavelengths >> wire length
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Q3D Extractor
Arbitrary
3D
structure
1. 3D Fast Quasi-static EM solver 2. 2D Fast R/L/C/G EM solver
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Capacitance matrix
The equation relating the total charge on a capacitor with the
potential difference relative to a ground at zero volts is : Q=CV
In a three-conductor system, matrix notation is used:
1 11 12 13 1
2 21 22 23 2
3 31 32 33 3
Q C C C V
Q C C C V
Q C C C V
The off diagonals are always negative, which
accounts for the sign of the charge on each of
the conductors.
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Q3D and circuit capacitance
11 12
21 22
1 1
2 2
s s
s s
C CQ V
C CQ V
Q3D solution:
circuit solution:
11 12
21 22
1 1 1 2
2 2 1 2
k k
k k
Q C V C V V
Q C V V C V
11 11 12
12 12
s k k
s k
C C C
C C
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Self-inductance
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Mutual-inductance
A voltage is induced across a conductor when the number of field
lines around it changes.
a bs ab
dI dIV L L
dt dt
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Partial inductance
Partial self inductance: number of field lines per amp around just
the conductor segment.
Partial mutual inductance: number of field lines per amp around both
the conductor segment.
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Partial inductance matrix
Defined for any collection of conductors
kj jk
k
dIV L
dt
1 2 3 41 11 12 13 14
dI dI dI dIV L L L L
dt dt dt dt
Partial
self
inductance
Partial
mutual
inductance
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Loop inductance
2 22 2 21 1 23 3 2g gV L I L I L I L I
1 1 2 2 3 3gnd gg g g g gV L I L I L I L I
'
2 2 gndV V V
'
2 1 21 2 1
2 22 2 2
3 23 2 3
( )
( )
( )
g g gg
g g gg
g g gg
V I L L L L
I L L L L
I L L L L
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Inductance matrix
The individual elements of the inductance matrix are computed in
the same way as the elements of the capacitance matrix.
For a three-conductor system with a well-defined ground return
path, the relationship between the magnetic flux in each loop and
the current loop I in each is given by:
1 11 12 13 1
2 21 22 23 2
3 31 32 33 3
L L L I
L L L I
L L L I
The diagonal elements are self-inductances and the symmetric off
diagonal elements are the mutual inductances of the loops.
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Solve setup
Capacitance matrix
DC Resistance and inductance
matrix
AC Resistance and inductance
matrix
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Solve setup
Number of conduction
passes to refine FEM mesh
% total error as
stopping criteria
% with the largest error,
changed per pass
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Solve setup
Conduction passes.
C: optimizes DC mesh
M: calculate the R, L and
optimizes the large scale
structure of the mesh
Difference between the n
and n-1 iteration
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Mesh of DC and AC solution
DC AC
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Reduced matrix operation
Move sink
Add sink
Join in series
Join in parallel
Float net
Return path
Ground net
Float terminal
Float at infinity
Change frequency
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Move sink
1 2 3outi i i i
Let you switch the placement of sink terminals in a conductor
without having to change the terminal assignment and generate a
new solution.
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Add sink
Allow user to add current sinks to a model without having to
change the setup and generate a new solution.
Allows user to simulate the presence of multiple current sinks in a
conductor. While actually solving the model, only a single sink is
allowed for conduction simplicity.
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Join in series and parallel
This feature allows you to connect two or more conductors in
series and parallel.
Series
Parallel
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Ground net and Return path
Grounded net reduce feature allows you to add grounded
conductors to your model.
Return path lets you select a conductor that is identified as a return
path enabling you to model the effects of return currents on the
inductance and resistance matrices.
Notice that the negative reference node for defining the branch
voltages has also been changed.
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Q3D extractor processes
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Reference
A. E. Ruehli, “Inductance calculations in a complex
integrated circuit environment,” IBM J. Res. Develop.,
vol. 16, pp. 470-481, Sept. 1972.
A. E. Ruehli and P. A. Brennan, “Capacitance models
for integrated circuit metallization wires,” IEEE J.
Solid-State Cir., vol. SC-10, pp.530-536, Dec. 1975.