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SOFTWARE FOR SIPM CHARACTERIZATION WITH CAMAC, SCOPE, BIAS VOLTAGE AND TABLE POSITION SUPPORT
=============================================================================================
By Gasper Kukec Mezek, April 2015.

==============
= Contents ===
==============

  1.  Installation
  2.  Running the software
  3.  Program feature overview
  3a. Current program version (trunk)
  3b. Old program version (trunk_v0.9)
  4.  Preparing for measurements
  4a. Pre-software checks
  4b. Experimental setup pre-measurement checks
  4c. Software pre-measurement checks
  5.  Measurements
  5a. Measurement settings
  5b. Temperature chamber considerations
  5c. Movement table
  5d. Bias voltage supply
  6.  Measurement files
  6a. ROOT file structure
  6b. Opening measurement files
  7.  Analysis
  8.  Change log

=====================
= 1. Installation ===
=====================

See $sipmscan/doc/INSTALL for installation instructions or use "./configure help".

=============================
= 2. Running the software ===
=============================

Once installation is performed, use
   ./start.sh
to start the software in offline mode or
   sudo ./start.sh
to start the software in online mode. Once the software starts, it will let you know (in the terminal) if connection to CAMAC
was correctly established.

=================================
= 3. Program feature overview ===
=================================

This part describes the different parts of the software and a short description on what they do.
____________________________________
3a. Current program version (trunk):

The main window is divided into 4 tabs and then further into subwindows:
1) Measurement tab:
   a) Settings pane:
      - ON/OFF switches for voltage, surface, Z axis and rotation scans (ON when checked).
      - A voltage limiter -> Sets the maximum output voltage that can be set under Output voltage (sample safety reasons).
      - Nr. of channels -> The number of channels to measure. Each channel corresponds to an ADC/TDC pair.
      - Position units -> For display, use either movement table native units or micrometers (table units default).
      - Rotation units -> For display, use either rotation table native units or degrees (degrees default).
      - Scope IP -> Sets the oscilloscope IP address for connections to a device.
      - LASER settings info panel -> Additional information to be written to the output file header (most generally used for
        laser information).
      - Chamber temperature -> Chamber temperature to be written to the output file (temperature not directly taken from the
        fieldpoint sensor).
      - Live histogram ON/OFF -> ON/OFF switch for live histogram update. Offers quick overview of the current measurement.
        Should be avoided for scans.
   b) Display: Display of the live histogram, when it is turned on.
   c) Main measurement window:
      - Settings for bias voltage, table position and incidence angle measurements.
      - Additional settings enabled, when scans are enabled.
      - If only one directional scan in X or Y direction is needed, set measurement to a surface scan and leave the other
      step size to 0.
      - Number of events -> Number of events gathered in one measurement.
      - Time stamp -> Date and time of measurement that is written to the header of the output file.
      - Save to file -> Selecting of output file filename. For scans, sequential numbers are appended to the end of the
      selected filename (i.e. /path/to/test.root will in a scan have /path/to/test_001.root, /path/to/test_002.root,...).
      - Start acquisition -> Starts the measurement based on currently selected settings.
      - Current measurement progress bar -> Determines the status of the current measurement.

2) Analysis tab:
   a) Histogram file selection:
      - Open past measurements for analysis. Additional display of header information for quicker reference.
      - If using multiple files for the analysis, use multiple file select or select all listed files. They will be used in
      order displayed on the list.
      - Use the Clear list button to clear all entries in from the list.
      - Use the edit header button to update any information inside the headers of entries selected on the list.
   b) Histogram: Displays the currently selected histogram from the histogram file selection subwindow.
   c) Histogram controls:
      - Enables plotting options for the currently selected histogram and to setup spectral options for analysis.
      - ADC range -> Sets the range of the ADC spectrum. Ranges are automatic, when set to (0,0).
      - TDC range -> Sets the range of the TDC spectrum. TDC spectrum determines the events used for plotting the ADC spectrum.
      - Y range -> Sets the range of the Y axis on the spectrum. Ranges are automatic, when set to (0,0). 
      - Display channel -> Selects the channel to plot, when opening a multichannel measurement file.
      - Plot type buttons -> Buttons to change between ADC, TDC or ADC/TDC type of plot.
      - Logarithmic scale ON/OFF -> Toggle for logarithmic Y axis scale.
      - Clean plots ON/OFF -> Toggle for hiding plot information or not (such as plot title, fitting information, statistics
      information).
      - Export -> Exports the currently selected histograms (ADC, TDC or ADC/TDC form selected files) into the .pdf format.
      - Edit -> UNDER DEVELOPMENT! Opens the currently visible plot in the Histogram subwindow in a new tab to enable editing.
   d) Analysis:
      - Options for specific analysis types (integrate spectrum, relative PDE, breakdown voltage, surface scan, timing). When
      using Start button, analysis starts, saves results and quits. When using Start and edit button, analysis starts and gives
      options to further edit the results.
      - General fit settings (Peak sigma, S/N ratio, background interpolation, ADC spectrum offset, Maximum acceptable peak
      fit error, pedestal lower limit, background subtraction, export fits). Settings for analysis based on fitting of peaks
      on the ADC spectra (breakdown voltage and relative PDE). The current progress of the analysis is displayed on the
      progress bar.

3) Monitoring tab: UNDER DEVELOPMENT! Fieldpoint temperature sensor data view.

4) Help tab: Displays the contents of this help file.

On the top, there are 3 menus:
a) File:
   - Set user layout -> Set a user saved layout of the program subwindows or use the default.
   - Save current layout -> Save the program subwindow layout to be used later. This will remember the sizes of each subwindow
   (Settings pane, Main measurement window, Display, Histogram file selection,...) and the overall size of the program window.
   - Save current measurement settings -> UNDER DEVELOPMENT! Will evantually save the entered values from the Measurement tab.
   - Save current analysis settings -> UNDER DEVELOPMENT! Will eventually save the entered values from the Analysis tab.
   - Exit -> Exit the software (shortkey x)

b) Analysis (each takes you to the appropriate options for the analysis):
   - Histogram type -> Change between histogram types (same as in histogram controls window).
   - Fit spectrum -> UNDER DEVELOPMENT! Will produce a fit of ADC spectrum peak structure of the current file/files.
   - Integrate spectrum -> Integrate the ADC spectrum of the current file/files inside the selected ADC range.
   - Integrate spectrum (X direction) -> Same as Integrate spectrum, but the selected files were produced as X axis scans.
   Makes the determination of an X directional edge scan and produces a 2D plot if Z axis scan was also enabled.
   - Integrate spectrum (Y direction) -> Same as Integrate spectrum (X direction), but the selected files were produced as
   Y axis scans.
   - Relative PDE -> Produce a relative PDE plot, where selected files were produced as incidence angle scans.
   - Surface 2D scan -> Produce an integral of the ADC spectrum, where selected files were produced as surface scans (in
   X and Y directions).
   - Timing analysis -> UNDER DEVELOPMENT! Will make an analysis on the TDC spectrum of measurements.

c) Help information

Important!
When using any analysis method, only events inside the selected TDC window will be used (set the TDC range accordingly).

_____________________________________
3b. Old program version (trunk_v0.9):

The main window is divided into 5 subwindows:
a) Settings window:
   - ON/OFF switches for voltage and surface scans.
   - a voltage limiter -> sets the maximum output voltage for safety reasons
   - clean plots toggle switch -> when ON, no additional stats will be displayed on plots/histograms
   - scope IP -> sets the oscilloscope IP address
   - LASER settings info panel -> this will be written to the output file and is used for supplying additional information
   - chamber temperature -> the chamber temperature to be written to the output file
   - incidence angle -> the angle at which the sample is rotated around its axis, relative to the LASER beam (0 degrees is
   perpendicular to LASER beam)

b) Main measurement window:
   - settings for table position and bias voltage
   - when scans are enabled, additional settings for scans
   - number of events -> setting for the number of events to gather in a measurement
   - time stamp -> informational time (start time of measurement is written to output file)
   - file selector (for scans, the filenames will be appended sequential numbers to distinguish them)
   - start acquisition button -> starts the measurement based on selected settings
   - waveform analysis settings (channel, measurement type)
   - possibility to send custom one-line commands

c) Histogram file selection window:
   - open past measurements for analysis
   - if using multiple files, use multiple file select or select all listed files
   - files will be used in order displayed on the list
   - to clear the complete list, use the clear list button
   - to edit the header information of currently selected files, use the edit header button
   - any opened measurement has an info display of its header at the bottom for easier navigation

d) Histogram window:
   - displays the currently selected histogram in the histogram file selection window

e) Histogram controls window:
   - directly linked to the histogram window, it enables plotting options
   - can set ranges on histogram plots
   - can change between different histogram types (ADC, TDC, ADC vs. TDC, 2D surface plot)
   - for the 2D surface plot, the relevant files need to be selected in the histogram file selection window
   - toggle for logarithmic Y scale
   - the currently selected histogram can be manually exported with the export button
   - fit settings used when running "Fit spectrum" and "Fit all selected" options in the Analysis menu

On the top, there are 4 menus:
a) File:
   - New Measurement -> not working
   - Exit -> exit the software (shortkey x)

b) Analysis:
   - Histogram type -> change between histogram types (same as in histogram controls window)
   - Fit spectrum -> fit the currently open spectrum for peaks
   - Fit all selected -> fit all the selected ADC spectra selected in the histogram file selection window for peaks and display
   the breakdown voltage plots
   - Integrate spectrum (X, Y) -> integrate the ADC spectrum for multiple files with an X or Y scan (used for edge scans)
   - Relative PDE -> calculation of the relative PDE for the currently selected files

c) Tools:
   - Fieldpoint temperature sensor -> direct graphing of the fieldpoint temperature sensor (with settings for fieldpoint channel,
   start time and end time), output is a graph (if exporting) and a comma separated list saved to folder ./fieldpoint. Updating
   the graph can cause unstable behavior. If possible, use ~/sipmscan/fieldpoint_standalone instead.

d) Windows:
   - Specific window tiling
   - Switch between active windows

e) Help information

Important!
When using any analysis method (surface 2D plot, fitting, integration, ADC spectra display) only events inside the selected TDC
window will be used so set the TDC range accordingly.

===================================
= 4. Preparing for measurements ===
===================================

General information for preparing the experimental setup and software for measurements.

________________________
4a. Pre-software checks:

Before running the Online version of the program, make sure that CAMAC (Computer Automated Measurement And Control) is turned
on and is connected to the computer via a USB cable. If upon starting, the program gives the following message:

        daq::connect() - No devices were detected!

then CAMAC was not started or the program did not properly register it.

In addition, for the Online version of the program, make sure that all movement table controllers are turned on and are connected
to the computer via a USB cable.

For the connection with the oscilloscope (Online and Offline with scope control versions of the program), make sure it is
connected to the same network with a UTP cable and that the VXI software is started on it.

______________________________________________
4b. Experimental setup pre-measurement checks:

When making changes inside the setup, make sure that no cables are hindering the movement of any of the movement tables. For
the X, Y and Z axis table, the most critical are motor control cables (white, flat, multiwire cables) and the optical cable
for laser optics (yellow or orange optical fibre). For the rotation table, the most critical are voltage supply cable (marked
with BIAS) and signal cables (the same as bias cable, but unmarked or marked with SIGNAL).

Additionally, whenever putting the experimental setup back together, note the distance between the laser optics and the sample.
The sample should be placed out of harms way from the collimator of the optics (check it by setting Z axis position to 0).

____________________________________
4c. Software pre-measurement checks:

Before starting any measurement, it is suggested to set the Voltage limit (Settings pane, Measurement tab) in order to avoid
any unwanted mistakes in bias voltage settings (to avoid any irreparable damage to the sample). Also, make sure to note the
output channel for bias voltage supply and not change any other channels (since they could be connected to other experimental
setups).

=====================
= 5. Measurements ===
=====================

Information on the settings for performing measurements available in this program and information on the movement tables.

_________________________
5a. Measurement settings:

On the Settings pane in the Measurement tab, the type of measurement can be selected:
- None is checked: The program will perform a single measurement (useful for quickly determining the state of the setup).
- Voltage scan is checked: The program will enable V(min), V(max) and V(step) settings and perform multiple measurements at
different bias voltages. The number of measurements is equal to:

        Floor( [V(max) - V(min)]/V(step) )

  The last measurement is at a voltage always lower or equal to V(max) for safety reasons. Whenever V(step) is 0, only one
measurement will be performed at V(min).

- Surface scan is checked: The program will enable X(min), X(max) and X(step), and Y(min), Y(max) and Y(step) settings and
perform multiple measurements at different table positions (surface scan). The number of measurements is equal to:

        Floor( [X(max) - X(min)]/X(step) )          Floor( [Y(max) - Y(min)]/Y(step) )

  The last measurement is at a position always smaller or equal to X(max) or Y(max). Whenever X(step) is 0, only one measurement
will be performed at X(min) and equally in the Y axis direction. By setting one axis step size to 0, only scans along one axis
are performed (for example for edge scans).

- Z-axis scan is checked: The program will enable Z(min), Z(max) and Z(step) settings and perform multiple measurements at
different distances between laser optics and the sample (Z axis). The number of measurements is equal to:

        Floor( [Z(max) - Z(min)]/Z(step) )

  The last measurement is at a position always smaller or equal to Z(max). Whenever Z(step) is 0, only one measurement will be
performed at Z(min).

- Rotation scan is checked: The program will enable Angle(min), Angle(max) and Angle(step) settings and perform multiple
measurements at different incidence angles (angle away from perpendicular incidence of laser light on the sample). The number
of measurements is equal to:

        Floor( [Angle(max) - Angle(min)]/Angle(step) )

  The last measurement is at an angle always smaller or equal to Angle(max). Whenever Angle(step) is 0, only one measurement
will be performed at Angle(min).

Surface scan and Z axis scan can be combined to perform edge scans at different distances between optics and sample (useful
for finding the focal point of the laser).

_______________________________________
5b. Temperature chamber considerations:

Whenever using the temperature chamber, be careful about the set temperature. SiPM samples have a specific operational and
storage temperatures that should not be exceeded. The temperature chamber, however, has slight overshoots when increasing
the temperature, thus heating slightly above the set temperature (sometimes as much as 5 degrees) and then cooling back down.

The chamber also has some problems cooling after previous heating (ex. coming from 0 degrees to 25 degrees and then again
cooling the chamber). In this case, it will seem to remain around some temperature, although it is supposed to be cooling
down. Sometimes this can be solved by turning off the chamber and waiting for some time or by making a large temperature
jump from higher to lower temperature (taking into consideration the sample temperature range).

Opening the chamber after measurements at low temperatures should be very short, since condensation forms very quickly that
can then lead to the water droplets freezing at low temperatures. Ideally, the chamber should be warmed close to room
temperature before opening, but any very short changes to the setup can still be performed when at lower temperatures.

___________________
5c. Movement table:

The movement tables are controlled by National Aperture MicroMini controllers through a subprogram found in
$sipmscan/trunk/src/MIKRO. Sometimes special measures are needed (in case of problems) that are not available inside the
sipmscan software, but can be achieved by going directly to the subprogram. The subprogram can be run, by going directly
to its directory and running:

        ./mikro_ctrl [arguments]

The arguments can be (only running ./mikro_ctrl will bring up help information):
- Node select: -n [node nr]. The [nodenr] is the address number of the controller as set on the front of the MicroMini
controller.
- Initialize node: -i [init type]. The [inittype] is the initialization type that can be 3M Linear (1), 3M Rotational (2),
4M Linear (3) or 4M Rotational (4). 3M are the smaller/shorter versions, while 4M are the larger/longer versions (all three
axis are 4M Linear and the angle is 3M Rotational). Always needs the node select argument (-n).
- Node homing: -h. Sets the node to a predetermined 0 value (home). Always needs the node select argument (-n). IMPORTANT: The
rotational table must never be set to home! It does not have a predetemined zero, so the table will infinitely spin and can
cause harm to the sample or attached cables.
- Reset node: -r. Does a complete reset of the controller. Always needs the node select argument (-n). After reset, the
controller needs to be initialized in order to work properly.
- Node status: -a. Returns the current status of the controller. Can be used with node select argument (-n) to target specific
controller or without to display status from all.
- Node position: -p. Returns the current position of the controller. Always needs the node select argument (-n).
- Node get command: -g [command]. Get return value from the issued command. Always needs the node select argument (-n). For
possible commands, see the MicroMini user manual.
- Node set command: -v [value] -s [command]. Set a value with an issued command. Always needs the node select argument (-n).
For possible commands and values, see the MicroMini user manual.
- Custom node command: -c [command]. Run one of the node commands without setting a value. Always needs the node select
argument (-n). For possible commands and values, see the MicroMini user manual.

Example commands:
- Reset node 1:
     ./mikro_ctrl -n 1 -r
- Initialize node 2 as a 4M Linear type:
     ./mikro_ctrl -n 2 -i 3
- Home node 3:
     ./mikro_ctrl -n 3 -h
- Determine node 1 position:
     ./mikro_ctrl -n 1 -p
- Prepare to move node 2 to an absolute position of 1000 and move it:
     ./mikro_ctrl -n 2 -v 500 -s la
     ./mikro_ctrl -c m
- Prepare to move node 3 relative to current position for -500 and move it:
     ./mikro_ctrl -n 2 -v -500 -s lr
     ./mikro_ctrl -c m
- Abort the current movement of node 4:
     ./mikro_ctrl -n 4 -c ab

Documentation:
- MicroMini controller manual: http://www-f9.ijs.si/~rok/detectors/oprema/national_aperture_stages/MicroMini_Manual.pdf
- 4M Linear table: http://www.naimotion.com/mm4mex.htm
- 3M Rotational table: http://www.naimotion.com/mm3mr.htm

________________________
5d. Bias voltage supply:

The bias voltage is supplied by the MPOD HV & LV power supply system through a subscript found in $sipmscan/trunk/src/mpod
(using the snmp software). Sometimes special measures are needed (in case of problems) that are not available inside the
sipmscan software, but can be achieved by going directly to the subprogram. The subprogram can be run, by going directly to
its directory and running:

        ./mpod_voltage.sh [arguments]

The arguments can be:
- Reset all output channels: --resetall
- Reset a selected output channel: -r [channel]
- Selects an output channel: -o [channel]
- Sets the output channel voltage: -v [voltage]
- Turns the output on/off: -s [0/1]
- Get the current output channel voltage: -g

Example commands:
- Get the set bias voltage on channel 1 (U0):
     ./mpod_voltage.sh -o 1 -g
- Turn the bias voltage off on channel 2 (U1):
     ./mpod_voltage.sh -o 2 -s 0
- Turn the bias voltage on and set it to 24.5V on channel 1 (U0):
     ./mpod_voltage.sh -o 1 -v 24.5 -s 1
- Reset channel 2 (U1):
     ./mpod_voltage.sh -o 2 -r

In its complete state, the command used in the script mpod_voltage.sh for setting for example an output voltage of 24.5 to
channel 1 (U0):
     snmpset -v 2c -M +. -m +WIENER-CRATE-MIB -c guru [IP address] outputVoltage.1 F 24.5 

Documentation:
- Net-SNMP: http://www.net-snmp.org/docs/man/
- MPOD: http://file.wiener-d.com/documentation/MPOD/Manual_MPOD_LV-HV_2.9.pdf

==========================
= 6. Measurement files ===
==========================

The measurement files, used for saving results, are constructed in native ROOT format to increase the read/write speeds while
reading and saving data.
________________________
6a. ROOT file structure:

The output ROOT files are structured in this way:

        ROOT file (TFile)
         |
         |== header_data (TTree): Header information (same for all events)
         |    |
         |    |== nrch (TBranch): Number of channels (ADC + TDC channels)
         |    |== timestamp (TBranch): Unix timestamp for start of measurement
         |    |== biasvolt (TBranch): Measurement bias voltage
         |    |== xpos (TBranch): X axis position in table units
         |    |== ypos (TBranch): Y axis position in table units
         |    |== zpos (TBranch): Z axis position in table units
         |    |== temperature (TBranch): Chamber temperature
         |    |== angle (TBranch): Incidence angle of measurement
         |    |== laserinfo (TBranch): Additional info for measurement
         |
         |== meas_data (TTree): Measured values from ADC and TDC (all events)
         |    |
         |    |== ADC0 (TBranch): All events from ADC channel 0 saved in order
         |    |== TDC0 (TBranch): All events from TDC channel 0 saved in order
         |    |== ADC1 (TBranch): All events from ADC channel 1 saved in order
         |    |== TDC1 (TBranch): All events from TDC channel 1 saved in order
         |    |== ... (TBranch): Additional channels up to 8 (0-7) in total
         |
         |== scope_data (TTree, optional): Measured values from the oscilloscope
              |
              |== measdata (TBranch): Currently in development


The easiest way to get the data is to create structures:

        struct EventHeader {
          int nrch;
          int timestamp;
          double biasvolt;
          int xpos;
          int ypos;
          int zpos;
          double temperature;
          double angle;
          char laserinfo[256];
        } evtheader;

        struct EventData {
          int adcdata[8];
          int tdcdata[8];
        } evtdata;

        struct EventMeas {
          double measdata;
        } evtmeas;


Then opening the file:

        TFile* inputfile = TFile::Open("filename.root","READ");

Then getting separate information:
- for instance for reading the bias voltage from header:

        TTree* sometree;
        inputfile->GetObject("header_data", sometree);
        sometree->SetBranchAddress("biasvolt", &evtheader.biasvolt);
        sometree->GetEntry(0);

- for instance for reading all ADC and TDC events in a file from channel 1 (ADC0):

        TTree* sometree;
        inputfile->GetObject("meas_data", sometree);
        char selectedCh[256];
        for(int i = 0; i < sometree->GetEntries(); i++)
        {
          sprintf(selectedCh, "ADC%d", 0);
          sometree->SetBranchAddress(selectedCh, &evtdata.adcdata[i]);
          sometree->GetEntry(i);

          sprintf(selectedCh, "TDC%d", 0);
          sometree->SetBranchAddress(selectedCh, &evtdata.tdcdata[i]);
          sometree->GetEntry(i);
        }

______________________________
6b. Opening measurement files:

The sipmscan software has internal handling for saving and opening measurement files. To open these files for an analysis, use
the File selection button in the Histogram file selection window (Analysis tab). Once the file or files are opened, it is possible
to double click a file on the list to display its histogram. The histogram can then be manipulated by changing ADC or TDC ranges,
or changing the type of displayed histogram (ADC, TDC ADC versus TDC).

Each of the selected files has a display of its header below the file list in order to quickly determine at what conditions and
when this measurement was taken. If there are any problems with the header, modifications can be performed with the Edit header
button.

After that analysis on the measurements can be performed, based on the selected ranges for ADC and TDC (note that each measured
event has a ADC and TDC channel value saved to the file).

=================
= 7. Analysis ===
=================

The sipmscan software already includes a number of analysis options:
- Plotting ADC (Analog-to-Digital Converter) spectrum, TDC (Time-to-Digital Converter) spectrum and ADC versus TDC 2D plots.
- Fitting of ADC spectrum photon equivalent peaks.
- ADC spectrum integration: Single or along X or Y directions (for edge scans).
- Relative Photon Detection Efficiency: Efficiency of sample relative to incidence angle.
- Breakdown voltage: Determination of silicon detector breakdown voltage through ADC spectrum photon peak separation (gain).
- Surface scan: Production of a 2D plot by integrating the ADC spectrum in each laser position.

Still to come...

===================
= 8. Change log ===
===================

11.8.2016 (Current Rev):
a) When using breakdown voltage or relative PDE analysis and with only one file selected, the analysis is stopped and the fit
is displayed on the graph. This makes it easier to setup fitting settings.
b) Added the possibility to export plots created through analysis ("Start and edit" option).
c) Everytime, when opening a histogram file, the following open and save dialog windows automatically open up in that directory.
This makes it easier to find the directory that was used last.
d) Added a dropdown list to the Analysis tab, so that it is possible to set position units for plots (table units or microns).
e) Normalization to a maximum of 1 now works for surface scans.

4.4.2016 (Rev 146):
a) Complete restructure of the program, so that it now runs seperately, not through ROOT (libraries are constructed pre-run).
Program is now split into multiple tabs for easier use, three of which are Measurement, Analysis and Help.
b) Added support for relative PDE measurements with included sample rotation table.
c) Improvement of analysis part of the program (includes ADC spectrum integration, breakdown voltage characterization, surface
scans, relative PDE characterization,...).
d) Added tooltips for different parts of the program for quick reference. Use them by hovering over any text entries, number
entries, check boxes or buttons.
e) Connection to temperature data and oscilloscope currently under development.
f) Older version of program moved to https://f9pc00.ijs.si/svn/f9daq/lab/sipmscan/trunk_v0.9 and will no longer be in development.

17.7.2015 (Rev 129):
a) Fixed a problem with ADC peak fitting (peak fitting returning a segmentation fault).
b) Added support to edit file headers (in case, some were created at an older date and did not include some header information or
there was a mistake in writing them).
c) Temperature data can only be retrieved when connected to the IJS network (IP = 178.172.43.xxx) and is disabled otherwise.
d) The relative PDE measurement now takes the incidence angle value directly from input files.
e) Currently, data acquisition only works on 32bit computers.
f) Fixed issue with program not correctly writting multiple channels.

5.5.2015 (Rev 128):
a) Added a header display for opened files in the histogram file selection window. This enables a quicker view of the measurement
information.
b) Added an incidence angle input to be able to save sample rotation angle to headers of files.
c) Added support for the fieldpoint temperature sensor (FP RTD 122). Can now plot and export data from the sensor for a specific
channel and specific time range. For now, this option only works if the PC you are using this program on is connected to an
internet/ethernet connection at IJS.
d) Added a limited relative PDE analysis option. At this time, it takes the selected files and calculates the PDE, relative to
the first selected file. The first file should be measured at incidence angle 0, with others having an incidence angle shift of
+15 (1st file -> 0, 2nd file -> 15, 3rd file -> 30,...).

9.4.2015 (Rev 127):
a) Added communications panel for connecting to a Tektronix scope.
b) Added limited support for waveform analysis with a Tektronix scope. For now, it only works when linking it to CAMAC acquisition.
c) Added a manual chamber temperature entry field.

16.3.2015 (Rev 117):
a) First version of sipmscan.
b) Added support for CAMAC, bias voltage settings and table position settings.
c) Added support for opening measured histograms.
d) Added support for analysis:
   - making surface plots
   - fitting the ADC spectrum
   - creating breakdown voltage plots
   - integrating the ADC spectrum with changing X or Y direction (edge scans)