xoscope - Digital Oscilloscope
xoscope [X toolkit options] [xoscope options] [file]
Xoscope is a digital real-time oscilloscope. It graphically
displays signal amplitude or bit logic as a function of time. Signals may be
displayed, saved, recalled, and manipulated by math functions. Signal input
devices currently include:
- Soundcard
- Audio sound recording via Advanced Linux Sound Architecture (ALSA). Two
8-bit analog channels at 8000 S/s to 44100 S/s. Left and right audio is
connected to A and B inputs respectively. Use an external mixer program to
select which sound inputs to record. AC coupled, voltages unknown, 256K
sample memory.
- EsounD
- Shared audio sound via the Enlightened Sound Daemon. This is great for
watching music but support for it is an option at compile-time. EsounD is
auto-detected and preferred over /dev/dsp.
- COMEDI
- The COMEDI project (www.comedi.org) develops Linux drivers, tools, and
libraries for data acquisition. Many commercially available ADC cards are
supported by COMEDI, and Xoscope can receive signals from them via
the COMEDI library.
Xoscope is an interactive program and can be completely
controlled from the keyboard at run-time. In verbose key help mode, each
available key is shown on the screen in (parentheses). The following single
key commands are available:
- ?
- Toggle verbose key help display mode.
- Escape
- Immediately quit the program.
- @
- Load a previously saved file. You are prompted for the filename.
- #
- Save current settings and memory buffers to a file that can be loaded
later. You are prompted for the filename and asked for confirmation to
overwrite if it already exists.
- Enter
- Clear and refresh the entire screen.
- &
- Cycle between the various input devices. Note that this key will not
toggle to an unresponsive input device, so if only one device is present,
it will appear to have no effect.
- *
- Different behavior for different input devices
Under EsounD, this value instead determines whether the
connection to EsounD will block or not. Blocking mode is nicest to CPU
usage but the xoscope interface will not respond when the there
is no sound stream coming from EsounD. Nonblocking mode will let
xoscope be responsive whether sound is available or not, but will
consume all available CPU cycles.
Under COMEDI, this key toggles between different analog
reference points (ground, differential, or common).
- ^
- Different behavior for different input devices
- (/)
- Decrease/increase the sampling rate.
- 9/0
- Increase/decrease the Sec/Div horizontal time scale (zoom out/in on time).
- -/=
- Decrease/increase the trigger level.
- _
- Cycle the trigger channel.
- +
- Cycle the trigger type: none, rising edge, or falling edge.
- Space
- Cycle the trigger mode: run, wait, stop. Run mode continuously acquires
and displays samples after trigger events. Wait mode waits for the first
trigger event and displays only the first set of samples; this is
"single-shot" mode. Stop mode suspends the data acquisition and
displays the current samples.
- !
- Cycle the plotting mode: point, point accumulate, line, or line
accumulate. In the accumulate modes, all samples stay on the screen; use
Enter to clear them.
- ,
- Cycle the graticule style: none, minor divisions only, or minor and major
divisions.
- .
- Toggle the graticule position: behind or in front of the signals.
- '
- Toggle the manual cursors on/off. When manual cursors are displayed, the
measurements between the cursor positions are shown. When cursors are not
displayed, automatic measurements are shown.
- "
- Reset both manual cursor positions to the sample just after trigger.
- Ctrl-q/w/e/r
- The Control key held down in combination with q/w/e/r moves the first
cursor back or forward by 10 samples or back or forward by 1 sample
respectively.
- Ctrl-a/s/d/f
- The Control key held down in combination with a/s/d/f moves the second
cursor back or forward by 10 samples or back or forward by 1 sample
respectively.
- 1-8
- Select the corresponding display channel. Measurements are displayed for
the channel. Channel 1 and 2 are used as input to the math functions so
they can't be used to do math. By default, they are connected to the A and
B input channels. Channel 1 and 2 can also be used to display memory
buffers or for doing math on memory or the alternate input. Channel 3
through 8 are not restricted and can be used for any purpose. The
remaining single key commands operate on the currently selected channel:
- Tab
- Toggle visibility: Hide or show the selected channel.
- {/}
- Decrease/Increase vertical scale of the selected channel.
- [/]
- Decrease/Increase vertical position of the selected channel.
- `/~
- Decrease/Increase number of logic analyzer bits displayed. The default of
zero bits plots the signal as one analog line of varying amplitude. Any
other value plots multiple digital lines representing the least
significant bits from bottom to top.
- ;/:
- Increase/Decrease the math function of the selected channel. This is not
available on channel 1 & 2.
- $
- Show the result of an external math command on the selected channel. You
are prompted for the command. The command must accept samples of channel 1
& 2 on stdin and write a new signal to stdout. See operl, offt.c and
xy.c in the distribution for examples of external math filter commands.
Not available on channel 1 & 2.
- a-z
- Recall the corresponding memory buffer or input device to the currently
selected channel. Input device channels are mapped to the earliest letters
of the alphabet; the rest of the buffers are available for signal memory.
- A-Z
- Store the currently selected channel into the corresponding memory buffer.
Early letters of the alphabet can not be used because they're reserved as
the signal inputs, so the exact number of available buffers is dependant
on the input device. Memories are stored from time zero to the current
display update position. So it is best to STOP the display before storing
to a memory buffer.
Xoscope adds mouse controls to menus or around the edges of
the scope area. These should be nearly self-explanatory. They perform the
same functions as the equivalent keyboard commands above. If built with
GTK+, a context-sensitive pop-up menu is available with right-click to
select channels, change scale and position, recall and store signals and so
on. Left click decreases a variable while right click increases. The manual
measurement cursors can also be positioned with the mouse.
The command-line options define the startup state of
xoscope and have reasonable defaults. All options may be capitalized
in case they conflict with an X toolkit option. These options are also
recorded in text files saved by xoscope.
- -h
- Help usage message showing these startup options with their default
values, then exit.
- -# <code>
- Startup conditions of each channel. # is a channel number from 1 to 8.
Code can have up to three fields, separated by colons:
position[.bits][:scale[:function #, memory letter, or external command]].
Position is the number of pixels above (positive) or below (negative) the
center of the display. Bits is the number of logic analyzer bits to
display. Scale is a valid scaling factor from 1/50 to 50, expressed as a
fraction. The third field may contain a built-in math function number,
memory letter, or external math command to run on the channel. Using these
options makes the channel visible unless position begins with a '+', in
which case the channel is hidden.
- -a <channel>
- Active, or selected, channel.
- -r <rate>
- Sampling Rate in samples per second. For the sound card, current valid
values are 8000, 11025, 22050, or 44100.
- -s <scale>
- Time Scale factor from 1/500000 to 2000 (2 ns/div - 2 s/div) expressed as
a fraction where 1/1 is 1 ms/div.
- -t <trigger>
- Trigger conditions. Trigger can have up to three fields, separated by
colons: position[:type[:channel]]. Position is the number of pixels above
(positive) or below (negative) the center of the display. Type is a number
indicating the kind of trigger, 0 = automatic, 1 = rising edge, 2 =
falling edge. Channel should be x or y.
- -l <cursors>
- Manual cursor Line positions. Cursors can have up to three fields,
separated by colons: first[:second[:on?]]. First is the sample position of
the first cursor. Second is the sample position of the second cursor. The
final field is weather the manual cursors are displayed (1) or the not
displayed (0).
- -p <type>
- Plot type. 0 = point, 1 = point accumulate, 2 = line, 3 = line accumulate,
4 = step, 5 = step accumulate.
- -g <style>
- Graticule style. 0 = none, 1 = minor divisions only, 2 = minor and major
divisions.
- -b
- Whether the graticule is drawn Behind or in front of the signals.
- -v
- Whether the Verbose key help is displayed.
- file
- The name of a file to load upon startup. This should be a file previously
saved by xoscope.
- xoscope -1 80 -2 -80
-3 0:1/5:6 -4 -160:1/5:7
-
This runs xoscope with channel 1 above and channel 2
below the center of the display. Also channel 3 and 4 are made visible
to show the FFT of channel 1 and 2 respectively at a reduced scale of
1/5.
- xoscope
oscope.dat
-
This runs xoscope, loading settings and memory buffers from a
previously saved data file called "oscope.dat".
Xoscope creates readable text data files. The files contain
at least a comment header which holds the current settings of
xoscope. Loading the file causes these saved settings to be
restored.
To record your signals permanently first store them into memory
buffers, optionally recall them to channels, and then save the file. All
non-empty memory buffers are written to a column of the file following the
comment header. Columns are separated by tab characters. These are stored
back into the memory buffers when the file is later loaded. Simply recall
them to channels to view them.
This format could also be read by some spreadsheet or plotting
programs. For example, the gnuplot (1) command
plot "oscope.dat" using 0:1, "oscope.dat"
using 0:2
would plot the first and second columns of the
"oscope.dat" data file.
- OSCOPEPATH
- The path to use when looking for external math commands. If unset, the
built-in default is used.
- ESPEAKER
- The host:port of the EsounD to connect to if built with EsounD support. If
unset, localhost is assumed. If no EsounD connection is made or if there
is no EsounD support compiled in, then xoscope will try to read
/dev/dsp directly.
The sound card should be capable of 44100 Hz sampling via the
sound drivers. You must use an external mixer program to select the input
source device, level, etc. Since these unknowns affect the amplitude, there
is no reference to voltage on the Y axis; it is in fact, unknown. Instead
you're given the scale in pixels per sample unit. Note that the serial
oscilloscope devices don't have this limitation. They have real voltage
labels on the Y axis.
Signal math is only valid if Channel 1 and 2 contain signals of
the same sampling rate. It is up to you to make sure this is the case.
Doing math on signals of different sample rates will produce
incorrect results!
The automatic measurements count zero crossings and divide to
determine the frequency and period. If these zero crossings are not
"regularly-periodic", these measurements could be invalid.
Xoscope does understand how to measure the built-in FFT functions by
locating the peak frequency. Use manual cursor positioning to get more
precise measurements.
Your sound card is most-likely AC coupled so you will never see
any DC offset. You probably can't get DC coupling by just shorting the input
capacitors on your sound card. Use serial hardware to see DC offsets.
The display may not be able to keep up if you give it too much to
plot, depending on your sound card, graphics card, and processor speed.
External math commands are particularly expensive since the kernel must then
split the available CPU cycles across multiple processes. To maximize
refresh speed, hide all unneeded channels, use point or point accumulate
mode, zoom in on Sec/Div as much as possible, and turn off the
graticule.
The keyboard interface may be confusing.
Oscope was written by Tim Witham (twitham@quiknet.com),
originally based on "scope" by Jeff Tranter
(Jeff_Tranter@Mitel.COM). Most recent work is by Brent Baccala
(cosine@freesoft.org). ALSA support by Gerhard Schiller
(gerhard.schiller@gmail.com). Xoscope is released under the
conditions of the GNU General Public License. See the files README and
COPYING in the distribution for details.