Tutorial for Automated Design System (ADS)

 

 

 

You Chung Chung

Cynthia Furse

 

January 23, 2001

 

 

 

 

 

 

 

In this tutorial we will see how to use ADS.

We see in this tutorial how to do Single-Stub Shunt matching

We see how to use Smith Chart and also Rectangular to get matching

 

 

To Start ADS in the SUN lab

•type: “hpads” to run the program

 

 

 

If display environment is not matched for ADS, set your environment as following.

            Add to your .cshrc file:

            #hpeesof (ads 1.3) config

 

setenv HPEESOF_DIR /opt/hpeesof

set path = ( $path $HPEESOF_DIR/bin)

setenv HPEESOF_KEY $HPEESOF_DIR/licenses/hpeesof.key

•source .cshrc

•type: “hpads” to run the program

 

 

 

To Start ADS in the EM lab (PC)

Double Click on ADS icon: Advanced System Design.

 

 

 

 

Table of Contents

 

                                                                                                                                                           

1.  Create a NEW Project Directory

2.  Open a Schematic Window

3.  Get parts and Paste

4.  Copy/Paste and Move a part

5.  Calculate length and width of MLIN with Line Calculation Tool

6.  Change Component Parameters

7.  Add MTEE part, Change width of MTEE and Move Text of a part

8.  Add Open Circuit Stub (MLOC)

9.  Calculate the length of MLOC and Change Parameters of Open Circuit Stub (MLOC)

10. Add Term, R and L

11. Add S Parameter

12. Add MSUB

13. Saving and Simulation of the Circuit

14. Open a Data Display Window, and Rectangular Plot in the Data Display Window

15. Select S(1,1)/Plot Magnitude Parameter

16. Add Marker on S(1,1) graph

17. Tuning Parameters

18. Fine Tuning Parameters

19. Changing Impedance to Admittance

20. Tuning with Smith Chart

21. Matching with Admittance

 

 

 

 

 

1. Create a NEW Project Directory.

 

·  Create a new project by clicking on New Directory icon

 

 

·  Then, you will have the window below. Click on Length Unit and select ‘micron’. Click on ‘OK’ on Length Unit window.

·  Then, Type the directory name that you want. Click ‘OK’

 

 

 

 

 

 

2. Open a Schematic Window

 

·  Click on the icon ‘New Schematic Window’

 

 

 

3. Get parts and Paste

 

·  On the Schematic Window: get a part MLIN under Tlines-Microstrip category, or type ‘MLIN’ in the part window. 

·  Then, paste the part on the center of the window by clicking left mouse button.

·  To stop adding the part, push ESC key, or select ‘End commend ESC’ in the menu by clicking right mouse button.

                                                Category                                         Part Window

 

Select TLine-Microstrip category Use the scroll bar, and find/select MLIN.

 

 

 

4. Copy/Paste and Move a part

 

·  Highlight/select the part that you want to copy, and click on copy under edit.

·  Click on left mouse button at the place to paste.

·  To move a part, select a part and drag the part.

           

 

 

 

5. Calculate length and width of MLIN with Line Calculation Tool

 

· Select/highlight the part and click on Start Line Calc under Tool/LineCalc menu.

 

 

· Insert substrate parameters: H=1270um, T=12.7um, Er=2.2 (Match with your substrate parameters).

· Type in Zo=50ohm, Frequency=2GHz and E_eff value.

· Click on Synthesize arrow.  It will calculate W and L for you. (Check Unit =um)

 

 

Zo=50   E_eff = Length of line = 0.044l*360i/l =15.84

Substrate-parameters   Frequency

 

 

 

6. Change Component Parameters

 

· Either double click on the part or select the part & click right mouse button (Then, click on ‘Edit component parameters’)

· You can change the part parameters on the Schematic Window by click on the value of W or L.

· Change width (W=3891.85um) and length (L=4804.24), from the numbers (W, L) in LineCalc window. 

 

 

 

 

 

 

7. Add MTEE part, Change width of MTEE and Move Text of a part

 

· On the Schematic Window: get a part MTEE under Tlines-Microstrip category, or type ‘MTEE’ in the part window. 

· Then, paste the part on the center of the window by clicking left mouse button (Connect to MLIN).

· To stop adding the part, push ESC key, or select ‘End commend ESC’ by clicking right mouse button

· Change Width of MTEE is 3891.85 um.

· To move a text box of a part, push F5 and click on the part. Then, move the text box and place.

 

 

 

 

8. Add Open Circuit Stub (MLOC)

 

· On the Schematic Window: get a part MLOC under Tlines-Microstrip category, or type ‘MLOC’ in the part window. 

· Then, connect to the MTEE part.

· To stop adding the part, push ESC key, or select ‘End commend ESC’ by clicking right-side mouse button

· Change Width of MLOC (3891.85um).

· To rotate a part after paste the part, select/highlight the part and click on Rotate under Edit menu, or click on Rotation icon. Then, move the mouse and rotate the part/paste. 

· To move a text box of a part, push F5 and click on the part. Then, move the text box and place.

                                                      Rotation Icon

 

Change Width W=3891.85 um

 

 

 

9. Calculate the length of MLOC and Change Parameters of Open Circuit Stub (MLOC)

 

· Select/highlight the part and click on Start Line Calc under Tool/LineCalc menu.

· Insert substrate parameters: H=1270um, T=12.7um, Er=2.2 (Match with your substrate parameters). Frequency =2 GHz.  Verify the units of parameters.

· Type in Zo=50 ohm, Frequency=2GHz and E_eff value=52.920.

· Click on Synthesize arrow.  It will calculate L for you (given W=3891.85um).

Zo=50   E_eff = Length of line = 0.147l*360i/l =52.92

 

· Change the parameters of MLOC (W=3891.85um, L = 16050.5um from LineCalc window)

W=3891.85um L= 16050.5um

 

 

 

10. Add Term, R and L.

 

· On the Schematic Window: get a part TERM under Simulation-Sparam category, or type ‘Term’ in the part window.  (Get R and L from Lumped-Components category, Ground from next to the part window.)

· Then, paste the parts as shown in Figure.

· Change values: Z=50ohm for Term, R=15ohm, L=0.796nH (This gives Z=15+j10.

· To move a text box of a part, push F5 and click on the part. Then, move the text box and place.

 

 

 

 

11. Add S Parameter

 

· On the Schematic Window: get a part S P under Simulation-Sparam, or type ‘S_param’ in the part window. 

· Then, paste the part as shown in Figure.

· Change parameters of the S Parameter part. Start = 1GHz, Stop=3GHz and Step=0.2GHz.

 

Start= 1 GHz Stop= 3 GHz Step =0.2GHz

 

 

 

12. Add MSUB

 

· On the Schematic Window: get a part MSUB under Tlines-Microstrip category manually, or type ‘MSUB’ in the part window. 

· Then, paste the part as shown in Figure.

· Change MSUB parameters of the part. H=1270um, T=12.7um, Er=2.2, Mur=1,

Cond=high value (1E+50), Hu=high value (1E+36um).

 

Add  MSUB

MSUB H=1270um, T=12.7um, Er=2.2, Mur=1, Cond=high value (1E+50), Hu=high value (1E+36um).

 

 

 

13. Saving and Simulation of the Circuit

 

· Click on save icon and click on simulate. (If you save your file not in the current project directory, you cannot simulate.)

 

 

 

 

14. Opening a Data Display Window, and Rectangular Plot in the Data Display Window.

 

· Click on New Data Display Window. Then, click on ‘Rectangular Plot’ icon in the data display window.  Place the rectangular plot window in the data display window.

 

· Data Display Window.

 

 

 

15. Select S(1,1)/Plot Magnitude Parameter

 

· Select S(1,1) parameter, and click on ADD. 

· Select Magnitude option in Complex Data window. Click on ‘OK’.

· Click on ‘OK’  on Plot Trace & Attributes window. 

 

 

 

16. Adding Marker on S(1,1) graph.

 

· Click on New under Marker menu, and click on the point on the graph where you want to put a marker. (Put it on 2GHz.)

 

 

 

17. Tuning Parameters.

 

· Select/highlight the MLIN part in the center of Schematic window, and Click on Turn Parameters.

· Select only L parameter on Text part of MLIN by clicking on L.

 

 

 

 

18. Fine Tuning Parameters.

 

· Then change the length of MLIN in Tune Control window, and look at the graph.

· Repeat this until the graph touches the minimum point on 2.0 GHz.

· To see the results on Smith chart on data display window, click on Smith chart icon and add S(1,1) like in Section 14. (Add a Marker on 2GHz in the Smith Chart. See Section 15.)

 

 

 

19. Changing Impedance to Admittance.

 

· Double click on marker on 2GHz on either S11 amplitude data or on Smith chart.

· Change the Edit marker to Smith and Change type as Admittance.

 

 

 

 

20. Tuning with Smith Chart

 

· If you are using Smith chart instead of using S11 amplitude data, control length of MLIN until the real part of the admittance is 1.

· Then change the length of MLOC until the imaginary part of admittance is 0.

· After matching the length of MLIN, the point on 2GHz should be at the center.

 

 

 

 

21. Matching with Admittance

 

· Repeat the process of changing lengths. Real part almost equal to 1, and imaginary part almost equal to zero. Change the length of MLIN and see the results (S11, Smith Chart)