GSMC(1) User Manuals GSMC(1)NAMEgsmc - A GTK Smith Chart Calulator for RF impedance matching
SYNOPSISgsmcDESCRIPTIONgsmc is a GTK application that allow to do all the calculation usually
done on a Smith Chart. It permits to make calculation for network com‐
posed by resistor, capacitor, inductance, and trasmission line (also as
stub). Network topology is limitated to series, parallel and as
trasmissive for trasmission line. No series connection are allowed in
parallel branch, neither parallel connection in series branch.
Trasmission line can be placed as quadrupole or as a parallel or series
stub, either opened or shorted at the other end.
Calculation procedure starts with setting the initial impedance to be
matched, next network elements are added and tuned to obtain the
desidered impedance value.
The network so obtained can be saved in spice format for other anal‐
isys; current work can be saved for succesive retrieve.
The initial (start) impedance is thought as "the load" so when adding a
trasmission line placed as a quadrupole rotation is clockwise, going
"toward generator"; generator is placed after the last network element,
as can be seen from spice output.
OPTIONS
None
INTERACTIVE COMMANDSgsmc is a menu based GTK application with as much as possible accelera‐
tors and mnemonics. Nearly all the command can to be issued as a single
keystroke or keystroke with modifiers. This is, in the author's opin‐
ion, the preferable way for very specialistic programs that has to be
used extensively.
Ctrl+q Quit the program.
Ctrl+1 Toggle visualization of impedance (Z) circle
Ctrl+2 Toggle visualization of admittance (Y) circle
Ctrl+3 Toggle visualization of reflection coefficient (RHO) circle
Ctrl+4 Toggle visualization of constant Q circle
s Set start point: can be entered as impedance, admittance or
reflection coefficient
Ctrl+0 (zero)
Set characteristic impedance z0
f Set frequency (f0)
r Add a resistor
l Add an inductor
c Add a capacitor
t Add a transmission line or stub
Shift+r
Insert a resistor before the highlighted element
Shift+l
Insert an inductor before the highlighted element
Shift+c
Insert a capacitor before the highlighted element
Shift+t
Insert a transmission line or stub before the highlighted ele‐
ment
d Delete the currently highligthed element
Shift+Curs Up
Highlight previous element
Shift+Curs Down
Highlight next element
Shift+Curs Left
Decrease the first field of currently highlighted element
Shift+Curs Rigth
Increase the first field of currently highlighted element
Mod+Curs Left
Decrease the second field of currently highlighted element
Mod+Curs Rigth
Increase the second field of currently highlighted element
Mod+Curs Up
Increase the tuning step
Mod+Curs Down
Decrease the tuning step
Ctrl+w Write network file in spice format
Ctrl+n Restart for a new calculation with a clean chart
= Change first field of currently highlighted element
Mod+= Change second field of currently highlighted element
Ctrl+a Start autotune procedure (tune goal is characteristic impedance)
Ctrl+x Toggle lock flag in autotune procedure
Ctrl+p Write an EPS or PS file
Ctrl+l Load a previously saved .B gsmc job
Ctrl+l Save a .B gsmc job
Ctrl+f Increase frequency
Shift+Ctrl+f
Decrease frequency
Check online keystroke for an updated list of commands.DIALOG WINFor operation that requires data entry a widget is created; it is composed by
an text entry field and optionaly some radio button to chose the format of
data entry.The format for data entry can be a single number, or a more complex string.
First of all every number can be supplyed using standar prefix for unit of
measure i.e.:a (atto) 1e-18
f (femto) 1e-15
p (pico) 1e-12
n (nano) 1e-9
u (micro) 1e-6
m (milli) 1e-3
k (kilo) 1e3M (mega) 1e6G (giga) 1e9T (tera) 1e12Note that for spice output format mega is written as MEG instead of M, that
will be otherwise recognized by spice as milli. Unit of measure are not
allowed to be in the text entered.Where a complex number is required both the rectangular and the polar format
are recognized: the former can be supplied as '12.3-j456m' while the latter
can be supplied as '34.2 145' meaning a modulus of 34.2 with a phase of 145
degrees. If the complex number is purely immaginary only something like 'j82'can be supplied, while if immaginary part is zero a single number can be
given. Immaginary operator can be issued as 'i' as well as 'j'.DATA PRESENTATION
The single window of gsmc is divided in four parts:
- The Smith chart itself in the upper left portion, where arcs and
constant circle are drawn.
- The vertical bar on the rigth of the Smith chart, where initial,
final and cursor impedance are presented togheter general data.
- The horizontal bar on the bottom of Smith chart where the net‐
work element are listed.
- The portion in the lower right portion, for future use...
EXAMPLE OF USE
Let's try a simple example to understand how gsmc work. Suppose to have
a load of 10-j35ohm to be matched to 50+j0ohm at an operating frequency
of 15.5MHz and we can use only concentrated reactive elements, i.e.
inductances and capacitors.
So start with setting operating frequency: press 'f' and a dialog win
will appear. Type in the string '15.5M' and then press enter. Now in
the vertical bar the frequency entered is displayed.
Next set the start point impedance: press 's' and a dialog win will
appear with the title "Start Point"; select the format for start point
either clicking the "Z" radio buttono or using the menmonic via Mod+Z.
Now the impedance can be entered as the string '10-j35' followed by
enter. The starting point is now displayed as a small circle.
The network has now to be constructed: let start with a series induc‐
tance of 800nH, so press 'l' and next introduce the value as enter. TAB
and Shift+TAB is usefull to move across items in dialog win without
leave hands from keyboard. This value is really too large, use
Shft+Left cursor to reduce a bit. Up to where? Let's help you displaing
the admittance constant circles pressing "Ctrl+2", the arc should
arrive to the G=1 circle (also called the mirror circle), it's arround
546nH.
Now add a capacitor in parallel connection, saying of 200pF: press 'c'
and insert the string '200p' and select Parallel either with mouse or
with "Mod+p". Now the admittance circles may confuse, remove it by
pressing "Ctrl+2" again. The value of 200pF is too small, enlarge it by
pressing Shift+Left cursor up to get the end point near to the chart's
center. The point reached with 429pF has nearly zero imaginary but is
43ohm of real part instead of 50ohm.
So back to the inductance and try to modify it, with Shift+Cursor up
move to the first component and then try to change the inductance value
by pressing cursor left and right. The changes are too large and 50+j0
cannot be reached. So press "Mod+Cursor down" and the "tunestep" value
shown in the vertical bar is reduced from 10% to 5%, try again to use
Shift+Curors left and right. It feel better. Now do the same on the
capacitor, moving to it by pressing cursor down and than adjusting
value as for the inductance.
Final values should be arround 568nH and 408pF. Now you want to see
what appen using the closest standard commercial values, that is 560nH
and 390pF in the E12 series. Select (with Shift+Cursor Up), if needed,
the inductance and then press '=', the dialog window appear (middle
line is unused) and the string '560n s' has to be introduced. Next move
to capacitor (Shift+Curs Down) and pressing '=' here insert '390p p'.
The final result is of SWR=1.14, if it's enough for you...
Moving the mouse to the point where the two arcs ends you can see that
the point has an impedance of about 10+j20ohm.
Trasmission line and resistor can be used similary refer to the section
INTERACTIVE COMMANDS for knowing how they can be placed. The major
difference with transmission line is that they have two parameter, the
electrical lenght and the caracteristic impedance: the former can be
adjusted with Shift+Cursor left/rigth as for resistor, inductance and
capacitor; the latter can be adjusted with Mod+cursor left/right.
Now the network can be saved either in a gsmc format (.gdt extension)
by pressing Ctrl+s or in spice format pressing Ctrl+w: The file so
generated can be now analized with a spice simulator or gnucap or
ngspice ; maybe you are interested in simulating it sweeping arround
15.5MHz, so modify the line
.ac lin 1 15.50MEG 15.50MEG
in
.ac lin 51 10MEG 30MEG
and run spice or gnucap
This example should be included in gsmc package an can be retreived by
pressing Ctrl+l and selecting example1.gdt.
Autotune algorithm is very primitive and may not reach what is very
simple to do by hand, do not ask to much from it, work in progress...
Charts so drawed can be printed to a Postscript or Encapsulated Post‐
script file; in printed file some information are added on the chart
drawing as well as Circuit Description and some of the Current Value
are transcripted. Automatic recognition of filename extension .eps or
.ps allow to specify if the file has to be in encapsulated format or
not.
FILESgsmc don't use special configuration file, a gtkrc file is supplied and
can be tuned to user preferences; if present it must be in
/root/.gsmc/gtkrc. File describing the network currently analized can
be generated, it's only needed that a minimum file permission is
allowed, if not the program will work but data could not be saved.
Data file (.gdt) contain a copy of internal data structures in a quite
human readable format; by inspection one can recognize and modify some
parts using a text editor. For more details compare a .gdt file with
smcdata struct defined in source file main.h.
LIMITATIONS
Porting can be very very difficult, since all is based on X windows
programming and GTK library, but for other platform a plenty of similar
program are available, free and good one too.
BUGS
Help me to find.
TODO
· Improve autotune algorithm
· Target settting (not alwais one want to match to z0) for autotune.
· Auxiliary window for error reporting instead of stderr.
COPYING
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2 of the License, or (at your
option) any later version.
AUTHOR
Lapo Pieri (IK5NAX)
Home address: via A. dei Corbizi 9 I-50127 Firenze Italy
Phone: +39 055 410209
e-mail: ik5nax@amsat.org, lapo_pieri@virgilio.it
website: www.qsl.net/ik5nax
SEE ALSO
spice3(?), gnucap(1), ngspice(1)Linux SEPTEMBER 2003 GSMC(1)
