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7/29/2019 How to Insert s File for Transistor in to MWO
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Microwave Office Training
Linear Simulation Low Noise Amplifier
2 Linear Simulation
Summary
Linear Simulation
S parameters at Ports - and derived parameters ... Gain, NF
Low Noise Amplifier as an Example to show:
Creating schematics
Data libraries
Editing schematic symbols (adding explicit ground nodes)
Creating graphs and adding measurements
Measurements: S parameters, Noise, Gain
Tuning Parameters
Step Response (Optional)
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3 Linear Simulation
Linear Simulation
Linear Simulation solves for S parameters in thefrequency domain at ports. Internally, it solves the Y matrix.
It is an ideal choice for: Linear Amplifier Analysis
Linear Noise Analysis
Interconnect / Passive elements
It Cannot: Show currents and voltages at nodes. (Use linear HB)
Show time domain transients and start up conditions.
It Can: Show step/pulse response for passive circuits.
Work with biased devices - if they have a model, not just Sparameter data. (For example - Gummel Poon)
4 Linear Simulation
Example - A Low Noise Amplifier
Design Goals of a 5 GHz amplifier are:
Gain > 10 dB.
Noise Figure < 1.15 (1.2 in dB)
We will learn:
Insert S parameter file for a transistor.
Add graphs and measurements to look at:
S parameters
Noise figures - NF and NFmin
Stability figures: K, B1
Smith Chart Graphs and Circle Measurements Stability Circles, Gain Circles, Noise Figure Circles
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5 Linear Simulation
Example - A Low Noise Amplifier -2
Step 1: Create a Schematic Device in a new project
Step 2: Import the S parameter data set for
the HEMT transistor - FHX35LG.s2p
Tip: Make sure youre looking for Touchstone files -
or you might not see the file in the directory.
6 Linear Simulation
Example - A Low Noise Amplifier -
3Step 3: Look at the S parameter for the device.
double click on the data file - to see the S parameters and the the
Noise data.
The S parameters are
from 100 MHz to 20
GHz
The noise data are
from 2 to 18 GHz.
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7 Linear Simulation
Example - A Low Noise Amplifier -4
Step 4: Insert the data set as a sub-circuit into the schematic Device.
Note: You can insert a sub-circuit
by:
Draw - Insert Sub-circuit
Hotkey is: Ctrl K
Subcircuits in Elements Library
Tip: Make sure you select Explicit Ground
Node. This is used for transistor S
parameter data - so you expose the 3rd port
(Usu. the source in common source.) For
interconnect S parameter data - use
Normal.
8 Linear Simulation
Example - A Low Noise Amplifier -
5Step 5: Change the Symbol to a FET.
It looks more like a transistor and is less confusing which port is which.
Select the Sub-Circuits
Properties
Right Click (RC)
Select the FET symbol
Tip: Make sure the port numbers of the symbol - match what you expect.
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9 Linear Simulation
Example - A Low Noise Amplifier -6
Step 6: Complete the amplifier by attaching ports.
Tip: Useful Hot Keys:
Add a port: Ctrl P
Add a ground: Ctrl G
You can rotate, flip, and mirror the port before placing it.
To rotate - right click (RC)
To Flip About the Horizontal Axis - Shift RC.
To Flip About the Vertical Axis - Alt Shift RC.
10 Linear Simulation
Example - A Low Noise Amplifier -
7Step 7: Set the simulation frequencies from 0.1 to 20 GHz - in steps of 0.1GHz.
Select Project Options
A very common error is to forget the Apply Button.
Note: This sets the
frequencies for all project
simulations - unless youoverride them. You can do
so at the individual circuit
level, or EM simulation
level.
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11 Linear Simulation
Example - A Low Noise Amplifier -8
Step 8: Create the Graphs and Measurements
Create a Graph called Input Port
Create a Measurement - S11
Measurement
Added to the Graph
12 Linear Simulation
Example - A Low Noise Amplifier -
9Add a measurement S22 to the same Graph.
Data source name
Various Control
Fields
We are sweeping the x - axis
with Frequency
This is a linear measurement.
Measurements in MWO are carried
out in the Graphs.
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13 Linear Simulation
Example - A Low Noise Amplifier -10
Step 9: Run the simulator. Three ways to do this:
Lightning Bolt in the Toolbar
Simulate > Analyze
F8
You will get a warning
message. Its saying you
dont have any noise data
at 20 GHz - so its
extrapolating.
Standard Toolbar
14 Linear Simulation
Example - A Low Noise Amplifier -
11
Tip: You can RC on the graph - and bring up properties.
There you can change the Graphs appearance: traces, axes, fonts, etc.
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15 Linear Simulation
Example - A Low Noise Amplifier -12
Step 10: Change the graph to a Smith Chart.
RC on the Graph in the Browser
16 Linear Simulation
Example - A Low Noise Amplifier -
13Step 11: Add a graph - Two Port Gain.
-Add measurement: S21 (Measurement type Linear > Port Parameters)
-Add measurement: Maximum Stable Gain (MSG) (Measurement Type -
Linear > Gain)
Maximum Stable Gain is in dB.
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17 Linear Simulation
Example - A Low Noise Amplifier -14
Step 12: Make the Graph Look Nicer.
RC on the Graph > Properties
Change the x axis limits to 0 to 20GHz.
We will use the left axis for S21 and the right axis for MSG.
18 Linear Simulation
Example - A Low Noise Amplifier -
15
Setting the MSG to the right axis.
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19 Linear Simulation
Example - A Low Noise Amplifier -16
Tip - Interpolation between datapoints
The wiggle in the S21 curve
is because we are using
linear interpolation.
This can be changed in Project Options
> Interpolation.Change it to Spline or Rational
Its Smoother!
20 Linear Simulation
Example - A Low Noise Amplifier -
17Step 13: Make a Graph Two Port Noise Parameters
-Add measurements for Noise Figure (NF) and Noise FigureMinimum (NFmin)
(The measurement type is Noise.)
- Make the graph nice by resetting the lower frequency to 0.
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21 Linear Simulation
Example - A Low Noise Amplifier -18
Step 14: Create a graph Stability Data
- Add measurements for K and B1. (Measurement type is -
linear.)
Note: Dont use dB.
22 Linear Simulation
Example - A Low Noise Amplifier -
19Step 15: Add a marker to the trace for K.
RC on the graph and select
Add Marker ( Ctrl M).
Select the K trace and add the marker.
RC on the marker and select search - for
1.
Remember K < 1 and/or B1 < 0 is unstable.
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23 Linear Simulation
Example - A Low Noise Amplifier -20
Step 16: Stabilize the amplifier by adding resistance.
Copy the schematic and rename the copy Stable Device.
Tip: The easiest way to do this is drag Device into Circuit Schematics
- and Copy of Device will be created.
This line takes out the resistor R3 at 5
GHz.
Stable Device
24 Linear Simulation
Stable Device
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25 Linear Simulation
Example - A Low Noise Amplifier -21
Step 17: Update the graphs with the new Stable Device Sparameters, Gain, Nose, and Stability measurements.
Tip: A quick way to do this - is any measurement can be dragged on top of the
graph in the browser - creating a copy. Then open it, and change the Data
Source Name to Stable Device.
K and B1
K > 1 and B1 > 0
Note: Autoscaling is
turned off for the left
axis, as K gets verylarge near DC.
26 Linear Simulation
Example - A Low Noise Amplifier -
22
S11 and S22
S22 has gotten smaller
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27 Linear Simulation
Example - A Low Noise Amplifier -23
The Gain is lower - as expected.
28 Linear Simulation
Example - A Low Noise Amplifier -
24Step 18: Stability Circles
Create a graph - Smith Chart type, named Stability Circles
-Add the measurement: SCIR1 (Measurement Type - Circle).
-Use the Source Name Device. (Its more interesting - not stable.)
A circle has been added for
each frequency.
Unstable regions.
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29 Linear Simulation
Example - A Low Noise Amplifier -25
What if I want only a few circles?
Method 1: Have fewer frequencies.
- You can do this in Options at the Project level or the circuit level.
Method 2: In the Device Schematic - insert a SWPFREQ block.
- For values: stepped(1.0e9,10.0e9,1e9) - 1 to 10 GHz in 1 GHz increments
In the measurement dialog box
- Change the Sweep Freq to
SWPFRQ.FWP1
Now we can use these frequencies - instead of all the project frequencies.
Click the arrow to select FSWP1.
Optional
Located under Simulation Control.
30 Linear Simulation
Example - A Low Noise Amplifier -
26
Fewer Circles - Much Easier to Read.
Tip: The dotted side of the circles is the unstable region.
Optional
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31 Linear Simulation
Example - A Low Noise Amplifier -27
Method 3: Create a dummy sweep variable.
Circle measurements require a swept variable - which by default is frequency.
Idea: Create a dummy sweep variable - and sweep on that - in effect disabling
the sweep.
Insert the SWPVAR into the
schematic device and create a
variable foo.
Create an equation for foo.
To insert an equation - Ctrl E or
Draw > Insert Equation
Optional
Located under Simulation Control.
32 Linear Simulation
Example - A Low Noise Amplifier -
28
Change the measurement settings
The swept variable
foo is set to the xaxis. (So - we are
using a dummy for
the x axis sweep.)
The frequency is
selected by the
tuner.
Optional
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33 Linear Simulation
Example - A Low Noise Amplifier -29
The Tuner
You can now use the tuner to shift through
frequencies and stability circles.
OptionalEquations Toolbar
34 Linear Simulation
Example - A Low Noise Amplifier -
30Step 19: Add a graph called Noise and Gain
Circles. We will work with the Stable Device data.
Set the Project Frequency to
1 point - 5 GHz. This is where we want totune.
Add NFCIR (Linear > Circle) with
2 circles and 0.5 dB steps.
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35 Linear Simulation
Example - A Low Noise Amplifier -31
Add GAC_MAX - Available Gain (Linear > Circle)
with a Gain step 1 and 2 circles.
36 Linear Simulation
Example - A Low Noise Amplifier -
32Lets make a matching input circuit.
Step 20: Create a schematic Input Matching Circuit
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37 Linear Simulation
Example - A Low Noise Amplifier -33
Step 21: Create a schematic - Amp
- Include Stable Device and Input Matching Circuit as
subcircuits.
Amp Schematic
38 Linear Simulation
Example - A Low Noise Amplifier -
34
Window in Window Technology
Allows you to see other circuits, and graphs in your schematic.
Open up Amp.
LC on Stable Device in the browser and drag it into the schematic.
Drag - to create the area. You see the window Stable
Device.
Optional
Looks Pretty!
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39 Linear Simulation
Example - A Low Noise Amplifier -35
Step 22: Tune the Ls to get a good compromise between Gain and NF.
In Input Matching select L1 and L2 for tuning.
-Method 1: Use the tuning tool. Select each of them.
-Method 2: Select Properties for each of them.
Equations Toolbar
Set to tune 0 to 10 nH.
When selected for tuning - the parameters
turn blue.
40 Linear Simulation
Example - A Low Noise Amplifier -
36Step 23: Tune the Ls to get a reasonable compromise between NF and Gain.
- Add S22 of Input matching to the graph Noise and gain Circles.
TunerTune until there is a
reasonable compromise
between Gain and NoiseFigure.
S22 of your input
matching will equal S11
of your stable device.
Equations Toolbar
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41 Linear Simulation
Example - A Low Noise Amplifier -37
Step 24: Add an Output Matching Circuit.Optional
Tune the values to get maximum gain.
Note: We have not used simultaneous, conjugate match
designs - so the output circuit will influence the design
of the input circuit.
You can add - S21 of the Amp to
the Two Port Gain for example,
and tune over the C and Ls.
42 Linear Simulation
Example - A Low Noise Amplifier -
38
Step 25: Set the simulation frequencies back to 1 to 20 GHz
and look at the Gain and NF.
Optional
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43 Linear Simulation
Example - Step Response
Step 1: Make a new schematic - Test Loads.
Step Response to the input of the device
These are some test loads for us to try to make sure we understand step
response.
Optional
44 Linear Simulation
Example - Step Response - 2
Step 2: Make a graph - Step Response
Add step response measurements: (Linear > TDR) TDR_LPS.
- Try S11, S22, and S33 of Test Loads.
Select Real
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45 Linear Simulation
Example - Step Response - 3
The results are the same as a Time Domain Reflectometer.
A short circuit
A 100 Ohm Load
Tip: Linear analysis can do this because its taking the
FFT of the S parameters.
An RC circuit.
46 Linear Simulation
Example - Step Response - 4
Step 3: Add the Step Response of the Device. Convinceyourself it looks like an RC curve.
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