Please note !!!!!!!
  Do not email or call Ten-Tec regarding this software.



Instructions for installing N4PY version of Pegasus software.
This is demo software.  It will run for 10 days.  To get the
most recent version, you must become a registered user.
Instructions on how to become a registered user are at the
end of this document.

If you have already installed an earlier version, simply
copy BBTRX1.EXE to your N4PY directory and skip steps 1 to 3
below.  However, if you are migrating from a previous N4PY
version, rename your N4PY *.rmf files to *.rmy.  In order to
avoid confusion with Ten-Tec's *.rmf files, I have renamed
my N4PY *.rmf files to *.rmy.

Also, copy "bands.dat" to your N4PY directory.

1) Reinstall your original version of Ten-Tec's Pegasus software
   in a different directory than you installed your Ten-Tec version.
   This will be the directory for the new software and will allow you
   to switch back and forth between the different software packages.

2) The N4PY rmf files use a different format.
   The N4PY rmf files are now called rmy files.  They save the VFO B
   value if split is on.  The Ten-Tec rmf files do not save the split
   values.


3) Unzip N4PY141.zip into a work directory.  Copy all files into the new
   directory that you made when you reinstalled the Ten-Tec software.

To start the new N4PY software, simply click on the new ICON you got
when you reinstalled the Ten-Tec software.


Things you need to know when running N4PY's Pegasus software:

1) When you change modes, the STEP and Filter are changed automatically.
   If you don't want this to happen, click the "ManMD" button (manual mode).

2) When using tuning selections on the remote pod,
   it will now toggle between VFO, PBT, RIT, ALC (power output), and VOL.

3) There are now 2 ways to define usage for the numeric key pad
   on the remote pod.  The default is for direct frequency entry.
   However, if you add a line to the Pegasus.ini file in the
   [OPERATING SECTION] as follows:
     DX SPLIT=1
   it will cause the numeric pod buttons to act very different.  Pressing
   any numeric digit will result in setting your transmit frequency
   "UP" by this amount.  The "." button places you at the bottom
   the band you are on.  The "E" button is a "reverse" button.
   In this mode, for direct frequency entry, the numeric keys on your
   keyboard will work fine.

3) The mode "SAM" is for synchronous AM.  It is not really sync AM,
   but the next best thing.  This mode simply
   turns on the BFO and sets the step size to 1 Hz.  You must carefully
   zero beat the AM carrier by slowly tuning for this mode to be
   effective.  This mode is much more tolerant to AM signal fade.

4) The value displayed in the upper right of the black area labelled
    "Alc", shows the setting of the output control.  This is useful
    to set the output power to the same level when using an amplifier.
   See "AMP TN" button for automatic control of the ALC setting.

           N4PY File Interface

For users that want to experiment with the file interface, I am
describing the interface.

This software allows control of the pegasus from a disk file.
The interface file is a binary file that the with default location
in the directory "c:\my\ham\".  The default file name is
called "ftran.dat".

Make a directory such as "c:\my\ham".  Copy the file "ftran.dat" into
this directory.

Starting with version 1.22 this file can be named in the pegasus.ini
file.  To name and locate the file, add a line in [OPERATING STATUS]
as follows:

  TRANSFER FILE=c:\n4py\transfer.dat

This would locate the transfer file in the c:\n4py directory called
"transfer.dat".  If you do not specify this line, it will use
the default of c:\my\ham\ftran.dat, which is the value I use.

Starting with version 1.30, you can select this file interface or the
Ten-Tec file interface with a line in [OPERATING STATUS] called
"Ten-Tec File Interface=".  Setting this to zero, the default, selects
the N4PY file interface.  Setting this to one, selects the Ten-Tec
file interface.  For explanation of the Ten-Tec file interface see
the Ten-Tec documentation on their web site.

The format of the N4PY file interface file as expressed in "C" is as follows:


  struct ftran
    {
      char flag;
      char rcvfreq[7];
      char rcvmode[4];
      char rcvBW[7];
      char xmtfreq[7];
      char xmtmode[4];
      char xmtBW[7];
    }

  offset 0 - Flag to indicate new data from an external program.
             If this has the value 0x44, no new data is available.
             If it is anything else, the values in the file will
             cause the Pegasus to go to them.

  offset 1 to 7 - ASCII value of the current receive frequency.
             For example, 14.267000 Mhz would be a "1426700" without
             the quotes.  Special Note - When the Ten-Tec 2 meter
             transverter is used, any frequency above 100 Mhz is
             expressed as that frequency minus 100 Mhz.  Thus for
             a frequency of 144.150000 Mhz would be "4415000".

  offset 8 to 11 - The current receive mode in ASCII.
             For example, USB would be "USB " without the quotes.

  offset 12 to 18 - The current receive bandwidth.  Not yet implemented.

  offset 19 to 25 - ASCII value of the current transmit frequency
             in tens of hertz.
             For example, 14.267000 Mhz would be a "1426700" without
             the quotes.  Special Note - When the Ten-Tec 2 meter
             transverter is used, any frequency above 100 Mhz is
             expressed as that frequency minus 100 Mhz.  Thus for
             a frequency of 144.150000 Mhz would be "4415000".

  offset 26 to 29 - The current transmit mode in ASCII.
             For example, USB would be "USB " without the quotes.

  offset 30 to 36 - The current transmit bandwidth.  Not yet implemented.


You can monitor the Pegasus frequency by typing the ftran.dat file.
To set the frequency of the Pegasus, open the file, put the desired
frequency in offset 1 to 7, put a 0x01 in offset 0, and close the
file.


Changes:
Version 1.20 added RIT functions back into the interface.

Version 1.21
   New function - "AMP Tune"
The AMP tune button is to make tuning an amplifier easier.
When you click the "AMP Tune" button, several steps happen
automatically.  They are
  1) The curent mode and frequency is save in the scratch pad.
  2) The frequency is moved up 5 Khz.
  3) CW mode is set.
  4) A wide filter is selected.
  5) The Step rate is set to 1 Khz.
  6) The remote tuning knob is set to ALC to control power.
  7) The Pegasus ALC (power) level is set to the previous saved value
     for this band and mode.

While the "AMP TN" button is "RED", you should first make sure
the frequency is clear.  If it is not, tune to a clear frequency
with the mouse by clicking the radio panel knob.  Once a clear
frequency is found, key your rig with your PTT or CW key and tune
your amplifier.  Use the remote tuning knob to set the pegasus output
power to correct drive level.  When the AMP is tuned, click the
"AMP TN" to exit this mode.  The frequency, mode, and step will be
restored to original values.  The Pegasus power output value will be
saved and used anytime "AMP TN" is again clicked.  This value
is kept separate by band and mode.  Try this function out.  It is a
real time saver.  The more you use it, the more you will like it.




   New function - Separate values saved for MIC Gain for AUX and MIC
                  positions.

The software will now save separate values for the MIC Gain setting
when clicking between the Microphone and Accessory input positions.
This allows you to only have to set these values one time.  Note
the RTTY mode automatically selects the Accessory input, and all
other modes automatically set the the Microphone position unless
"ManMD" is selected.



   New function - Six meter transverter crystal correction factor.
If you use the Ten-Tec 6 meter transverter, you can get the display
to show the frequency very accurately by specifying the amount
of error in the transverter crystal frequency.  Specify this
error in hertz with a plus or minus sign in the [OPERATING STATUS]
as
   SIX METER CRYSTAL CORRECTION=520
The above example indicates the crystal is off 520 hertz.
Also the 6 meter transverter ALC power level can be specified
with:
   SIX METER POWER=13
The above example sets the 6 meter transverter ALC power level
to 13 which is the default setting.  This value sets the Pegasus
output to about 5 watts.



Fixes:
  RIT display values were getting chopped.

  UTC and Local time restored to Ten-Tec values.  However,
  if you use UTC for your computer clock, add the following line
  to your pegasus.ini file:
    PC_UTC=1
  in the [OPERATING STATUS] section.  This will allow the time offset
  to be used for local time calculation.

  File interface data is now exported once a second instead of once
  every 5 seconds.

  CW BFO offset for large filters corrected from Ten-Tec.

  CW QSK slider can now go down to zero.



Version 1.22
  Highlight mode buttons when selected.
  Renamed N4PY memory file extensions to *.rmy instead of *.rmf
  DX Split keys for numeric pod now an option.  See point 6 above.
  File interface file can now be named.  See above file interface
    section.


Version 1.30
  1)
  The "step buttons" are now user configurable to any step
  between 1 and 10000.  They are configured in the Pegasus.ini
  file by adding the following keywords to the [OPERATING STATUS]
  section:

    STEP1=1
    STEP2=10
    STEP3=100
    STEP4=1000
    STEP5=5000
    STEP6=10000

  "STEP1" refers to the left top step button.
  "STEP2" refers to the center top step button.
  "STEP3" refers to the right top step button.
  "STEP4" refers to the left bottom step button.
  "STEP5" refers to the center bottom step button.
  "STEP6" refers to the right bottom step button.

  2)
  The default values for the operating modes can now be
  configured to any step between 1 and 10000.
  They are configured in the Pegasus.ini file by adding
  the following keywords to the [OPERATING STATUS] section:

    AMSTEP=5000
    SSBSTEP=10
    CWSTEP=10
    FMSTEP=1000
    RTTYSTEP=10
    SAMSTEP=1

  3)
  The power when the "TUNE" button is clicked will now be
  remembered.  When you click "TUNE", set the power to what
  you want the tune power to be with the Alc slider.  When
  you click "TUNE" off, the power will be restored to the previous
  value.  The next time you click "TUNE", it will remember the
  tune power value and set it to this value.  Try it, it may
  save your finals!

  4)
  The band register buttons now light up blue when selected.

  5)
  The meter preference is now remembered between sessions.

  6)
  The sweep style is now remembered between sessions.

  7)
  Your call sign can now be displayed on the control panel.
  It is configured in the Pegasus.ini file by adding
  the following keyword to the [OPERATING STATUS] section:

    CALLSIGN=N4PY
  The version of the program can be checked by displaying
  the "about" section.

  8)
  Volume can now be controlled from the remote knob.  The
  tuning selections for the knob can be toggled between
  VFO, PBT, RIT, ALC, and VOL.

  9)
  The Keyer speed can now be set from the front panel.
  The slider labelled "KS" controls keyer speed.

  10)
  Time button now on top of control panel to access WWV and CHU
  time stations.

  11)
  The T-X button is now back.  It is located right next to the
  AMP TN button and can be used for a push to talk button.

  12)
  I have implemented the Ten-Tec file interface.  If you specify
  in the [OPERATING STATUS] the following line:

    Ten-Tec File Interface=1

  This will cause the Ten-Tec file interface method to be used
  instead of the N4PY file interface.  If you are using the "LOGGER"
  program, set this to zero.  If you are using "LOG-EQF" program,
  set this to one.

  13)
  Direct frequency entry from the remote keypad now works when
  the control panel is not initially in the focus.

  14)
  State of attenuator button now remembered between sessions.

  15)
  Focus no longer transfers to Pegasus control program when
  an external frequency is set through the file interface.

  16)
  Added an additional remote function type indicator.  This appears
  in yellow just below the "Alc" value.

  17)
  There are now scale factors for the main radio window.  You can
  add lines in the [RADIO WINDOW] section for horizontal
  and vertical sizing scale factors.  For horizontal scaling use

     SCALEX=1

  For vertical scaling use

     SCALEY=1

  The scale factors are used as multipliers of all coordinates in the
  program.  With these values set to 1, the size of the main radio
  window will be unchanged.  To make the window 10% larger in both
  axis use a value of 1.1 for each scale factor.  To make the window
  10% smaller, use 0.9 for each scale factor.  This is being added for
  hams that have visual problems seeing the screen and not recommended
  if you have normal vision.  If you make the window scale smaller, some
  characters may not display properly.  Try this at your own risk.

  18)
  Changed the range of the keyer speed to 10 to 50 wpm instead of
  0 to 50 wpm.

  19)
  Increased the range of the keyer weight control.  The range is now
  84% to 166% of normal.  Old range was 84% to 131%.

  20)
  Changed the analog dial resolution to be fixed at 1 kHz.

  21)
  Fixed sweep panel from corrupting the band registers.

  22)
  Improved the Band button algorithm so that values do not change
  while simply tuning across a band.

  23)
  Removed leading zero from displayed frequency.

  24)
  Changed selected color of SPLIT button to red to stand
  out more when selected.

  25)
  Changed RTTY mode to not change the transmit filter and
  also to use the receive filter that is in the bottom middle row.

  26)
  Added an "ACC Inp" button to the front panel.  This allows
  toggling between mike input and accessory input.  If the button
  appears blue, accessory input is selected, otherwise mike input
  is selected.

  27)
  The fine tuning rate of RIT and PBT can now be configured.
  In the [OPERATING STATUS] section of pegasus.ini the keywords
  PBT_SCALE and RIT_SCALE can set the fine tuning rates to 1 of 6
  legal values.  The legal values are 1, 2, 4, 8, 16, and 32.  Any
  other value will cause these rates to be set at the default of 8.
  The following example sets each of these rates to 16:

    PBT_SCALE=16
    RIT_SCALE=16




Version 1.31

  1)
  Operation with the RX-320 is now possible.  You must download
  my version of the RX-320 software.  There are instructions in it
  for adding an AUX receiver output to the Pegasus and a mute circuit
  for the RX-320.  You must add a line in the [OPERATING SECTION]
  of pegasus.ini to tell the Pegasus where the transfer file is
  for the RX-320.  The following example specifies the transfer
  file as c:\rx320\ftran.dat:

   RX320 TRANSFER FILE=c:\rx320\ftran.dat

  Once this is specified, a new key will appear on the Pegasus control
  panel.  This key is labelled "To RX".  Clicking on it will
  cause the Pegasus's frequency to be sent to the RX-320.  The RX320
  has an equivalent function to send its frequency to the Pegasus.

  2)
  Fixed bug where if direct frequency entry is done from the
  keyboard and started with a 'n', the Pegasus will go to frequency 0.
  This is now corrected.

  3)
  Fixed bug that ocurred at startup of Pegasus control program.
  At startup, other serial ports could receive extraneous data.
  This is now corrected and the "Pegasus Splash" has been removed.

  4)
  The RTTY button is now configurable.  The label for the key can
  be specified, the actual operating mode can be set to USB or LSB,
  and the frequency offset in hertz can be specified.  All the
  parameters are in the [OPERATING STATUS] section of the pegasus.ini
  file.

  To define the label for the key, add the following line:

    RTTY LABEL=PSK31

  The above line would set the RTTY key label to "PSK31",  The default
  is "RTTY".

  To define the real operating mode, add the following line:

    RTTY MODE=USB

  The above line would set the RTTY real mode to USB.  Valid
  values are "USB" or "LSB".  The default is "LSB".

  To define the frequency offset in hertz, add the following line:

    RTTY OFFSET=1000

  The above line would set the RTTY frequency offset to 1000 hertz.
  The default is 2100 hertz.  If you are using PSK31, you should set
  this value to the value of the tones you are using.  This will
  cause a tone of this frequency to be centered in the passband.

  5)
  There is a frequency correction factor to account for errors
  in the displayed frequency.  This factor must be the error in
  hertz at 10 Mhz.  The factor is defined in the PEGASUS.INI file
  in the [OPERATING STATUS] section. This value can be expressed
  as + or -.  To say that the displayed frequency of WWV at
  10 Mhz is 5 hertz low add the following line:

    FREQUENCY CORRECTION=-5

  6)
  The functions keys on the remote pod have been expanded with
  a new function.  Each key can now be defined to expressly
  set one of the 5 tuning knob functions.  In addition to the
  functions that were already there you can directly define
  each function key to set the remote tuning knob to go to
  VFO, PBT, RIT, ALC, or VOL.  This is done on the remote tuning
  pod configuration box.



Version 1.32

  1)
  Fixed bug with step sizes and left/right arrow keys.

  2)
  Added text file import and export for memory files.  The text file
  used is a comma delimited file of file type "*.cdf".  These functions
  are accessed with the file menu.  See the Pegasus.doc file for more
  info.

  3)
  Add more edit checking for direct frequency entry.



Version 1.33

  1)
  Renamed AM band button to MW and changed bottom of MW band to 530 kHz.

  2)
  Disallowed the tune button while in AM mode.

  3)
  Fixed bug that caused step to not match the default step for the mode
  when a memory is recalled.

  4)
  Increased the number of filter buttons from 9 to 12.

  5)
  Added pegasus.ini parameters for default filter button positions
  for each mode.  The filter positions are defined with numbers from
  1 to 12.  Number 1 refers to the top left filter button, number 2
  refers to the top center button, and so on to number 12 for the bottom
  right filter button.  In the [OPERATING STATUS] section of the
  pegasus.ini file add the following to define the default filter buttons
  for each mode:

     AM FILTER POSITION=2
     CW FILTER POSITION=12
     SSB FILTER POSITION=8
     RTTY FILTER POSITION=12

  This example would make the AM default filter the top center button,
  the CW default filter the bottom right button, the SSB default filter
  the third row center button, and the RTTY default filter the bottom
  right button.

  6)
  Added pegasus.ini parameter to remove the extra decimal point in
  the displayed frequency.  This is useful is you are doing a lot of
  cut and paste operations.  In the [OPERATING STATUS] section of
  pegasus.ini, add the following line to remove the second decimal
  point from the displayed frequency:

    REMOVE EXTRA DECIMAL=1

  7)
  Added a new option to make the tune button not remember its
  last power setting.  This optione is set by adding the foillowing
  line to the [OPERATING STATUS] section of the pegasus.ini file:

    NO TUNE SAVE=1

  With this set, the tune power will simply be whatever the ALC
  power slider is set to.

  8)
  XIT has been added.  The XIT offset control is shared with the
  RIT offset control.  This is similar to the implementation of the
  offset function in the OMNI VI.  This allows you while listening
  to a DX station, to tune in the station he is working with the RIT
  control, and then switch to XIT to actually work the DX station.

  9)
  In order to help out hams with sight difficulties, the color of
  the button text is now configurable.  There are three parameters
  that can be placed in the [RADIO WINDOW] section of pegasus.ini to
  control the text colors of the buttons.  There are 8 standard colors that
  can be selected.  They are BLACK, WHITE, RED, GREEN, BLUE, YELLOW,
  MAGENTA, and CYAN.  There are also 2 user definable colors called
  COLOR1 and COLOR2.

  To set the non-selected text color for all the buttons, add the
  following line:

    BUTTON TEXT COLOR=BLACK

  This example would set the text color to black.

  To set the selected text color for all the normal buttons, add the
  following line:

    BUTTON SELECTED TEXT COLOR=BLUE

  This example would set the selected text color to blue.

  To set the selected text color for the three special buttons,
  (TUNE, AMPTN, and SPLIT) add the following line:

    SPECIAL BUTTON SELECTED TEXT COLOR=RED

  This example would set the special button selected text color to red.

  To define the user color called COLOR1, three lines are needed to
  specify the amount of red, green, and blue to make up the color.
  The range for the amount of each color is 0 to 255.
  It is defined as follows:

    COLOR1 RED=255
    COLOR1 GREEN=128
    COLOR1 BLUE=0

  The above example would make COLOR1 be orange.

  To define the user color called COLOR2, three lines are needed to
  specify the amount of red, green, and blue to make up the color.
  The range for the amount of each color is 0 to 255.
  It is defined as follows:

    COLOR2 RED=255
    COLOR2 GREEN=0
    COLOR2 BLUE=128

  The above example would make COLOR2 be pink.


  10)
  If you want "MUTE" to only mute the speaker and not mute the line out,
  add the following line to pegasus.ini in the [OPERATING STATUS] section:

    MUTE SPEAKER ONLY=1



Version 1.34

  1)
  Added a new pegasus.ini parameter to cause the analog frequency scale
  to vary with the step size.  For steps less than 100 hertz, the
  scale is multiplied by 100.  For steps between 100 and 1000 hertz,
  the scale is multiplied by 10.  For steps above 1000 hertz, the scale
  is unchanged. This scale change is primarily for people that do not
  have the remote tuning pod to aid in dragging the frequency.
  To activate this feature add the following line to the [OPERATING STATUS]
  section of the pegasus.ini file.

    VARIABLE FREQUENCY SCALE=1

  2)
  Swapped the position of the "Acc Inp" key and the "Mon" key.

  3)
  Removed all Ten-Tec logos.

  4)
  Added a new parameter to set the low end frequency
  cutoff for SSB operation.  The old code had this fixed at 200
  hertz.  This parameter allows you to set this to 0 to 1000 hertz.
  The parameter is on the SSB settings screen and is called "Low freq
  cutoff".

  The default for this value is 200.

  For example, if you are using a transmit filter of 2400 hertz and
  specify a low frequency cutoff of 200 hertz, your transmit passband
  will then be 200 hertz to 2600 hertz.


  5)
  Added a new hotkey for the "acc inp" button.  <Alt-space> will cause
  the accessory input to toggle.

  6)
  The power output will now be remembered when toggling back and forth
  with the accessory audio input (AccInp) button.  This allows for
  switching between sideband and any digital mode and causes restoring
  of the power setting for that mode.  This works similar to the mike
  gain setting.



Version 1.35

  1)
  Improved efficiency of operation when a very large memory file
  was loaded.

  2)
  Changed keyboard arrow keys for more intuitive operation.
   Up Arrow - Increase step size
   Down Arrow - Decrease step size
   Left Arrow - Frequency Down
   Right Arrow - Frequency Up


Version 1.36

  1)
  Removed CW sidetone offset from FM frequency calculation

  2)
              PEGPORT.EXE Program

  This program is provided to allow users to use the automatic
  band decoder provided by Top Ten Devices.  This unit allows
  you to have either an external amplifier or external antenna
  switch automatically follow the Pegasus frequency settings.

  Information on this band decoder can be found at

      www.qth.com/topten/bdecoder.htm

  Pegport looks at the pegasus frequency transfer file to determine
  the operating frequency.  When a change is detected, the new band
  setting is output to the parallel port.  The Top Ten Automatic Band
  Decoder is plugged into this parallel port and responds to the
  information sent to the port by PEGPORT.

  PEGPORT is run from a DOS command line.  Its configuration is set
  with command line parameters.  To get help information for PEGPORT,
  type "pegport /?" at the DOS command line.  PEGPORT can also be
  made to run as a DOS program with an icon on the windows desk top.
  You must have your N4PY Pegasus program configured to use the N4PY
  file transfer protocol.


Version 1.37

  1)
  Added the option of selecting the method of tuning with the main
  tuning knob.  The current method uses the left mouse button to tune
  up or down depending on where you are on the knob.  The new method
  is from VE1ADH and when set, the left mouse button tunes down and
  the right mouse button tunes up.

  To select the left/right tuning method, add the following line
  in the [OPERATING STATUS] section of pegasus.ini:

    Left-Right Tuning Knob=1

  The default for this is 0.

  2)
  Fix displaying of band name on frequency scale in some situations.

  3)
  The sweep format is now remembered between sessions.




Version 1.38

  1)
  Fixed PBT bug if RTTY is defined to use USB.

  2)
  The memory window settings are now remembered.

  3)
  Improved S meter routine so it does not read too high on very
  strong signals.

  4)
  Fixed Passband tuning in SAM mode.  Fixed LSB for 6 meters.

  5)
  Changed upper band limit for 41 and 60 meter bands.  Make sure
  to copy the file "bands.dat" to your working directory.

  6)
  Dramatically improved the operation of tuning with the optional
  tuning knob.  I have employed a new software technique that
  greatly reduces missed tuning steps resulting in good tuning
  speed when tuning the knob fast.

  7)
  Added a new pegasus.ini parameter to increase the tuning rate when
  the tuning knob is turned at a high rate.  This factor will multiply
  the tuning step by this factor's amount when the knob is turned
  at a high rate.  Legal values for this factor are 1 to 10.  Use
  the value of 1 to disable this feature.  The high speed tuning
  factor is defined by adding the following line in the [OPERATING STATUS]
  section of pegasus.ini:

    HIGH SPEED TUNING FACTOR=4

  The above line would cause the tuning step to temperarily be
  multiplied by 4.



Version 1.39

  1)
  Fixed losing key strokes from key encoder pad.

  2)
  Added new function to increment through all filters.
  If you right click on the right side of the filter bandwidth
  window, you will go to the next narrower filter.  If you right
  click on the left side of the filter bandwidth window, you will
  go to the next wider filter.  In this way, you can get access
  to all 34 filters without having to configure them into a
  filter button.  This is useful for SSB reception with heavy
  QRM to select the optimum filter.

  3)
  Added a "GEN" band button.  This band button applies to any
  frequency not covered by any other band.

  4)
  Adjusted the band button algorithm so that the band buttons
  get turned on automatically if you tune into a band.


Version 1.40

  1)
  Added 10 minute ID timer button.  Clicking this button causes
  it to turn blue and start a 9 minute timer (The FCC requirement
  is 10 minutes, this gives you 1 minute to ID).  When this timer
  expires, a sound is emitted, and the ID button turns red, indicating
  it is time to ID.  The next time you transmit, the ID button will
  turn back to blue.

  To turn the timer off, click the button again and it will go black,
  indicating the timer is now off.

  2)
  Added support for the Ten-Tec 2 meter transverter.
  The two meter frequency is displayed only down to 10
  hertz to allow for the extra digit in the megahertz position.
  This support adds two new paramters to the pegasus.ini file
  as follows:

       New function - Two meter transverter crystal correction factor.
    If you use the Ten-Tec 2 meter transverter, you can get the display
    to show the frequency very accurately by specifying the amount
    of error in the transverter crystal frequency.  Specify this
    error in hertz with a plus or minus sign in the [OPERATING STATUS]
    as
       TWO METER CRYSTAL CORRECTION=520
    The above example indicates the crystal is off 520 hertz.
    Also the 2 meter transverter ALC power level can be specified
    with:
       TWO METER POWER=13
    The above example sets the 2 meter transverter ALC power level
    to 13 which is the default setting.  This value sets the Pegasus
    output to about 5 watts.

    See the file interface section for new special rules concerning
    two meter frequencies.

    You can get full 2 meter transmit coverage by setting
    GENERAL COVERAGE TRANSMIT=1 in the [OPERATING STATUS] section
    of pegasus.ini.

  3)
  Added the ability to run the frequency sweep continuously and
  stop when a signal reaches a threshold.  There is a new box
  on the sweep panel. It has 8 selections. They are:
    One Pass - This runs sweep the old way.  Just one pass.
    Continuous - This runs sweep continuously wtihout stopping
                 until the stop button is selcted.
    Threshhold S3 - This runs sweep continuously until an
                 approximately S3 signal is found.
    Threshhold S5 - This runs sweep continuously until an
                 approximately S5 signal is found.
    Threshhold S7 - This runs sweep continuously until an
                 approximately S7 signal is found.
    Threshhold S9 - This runs sweep continuously until an
                 approximately S9 signal is found.
    Threshhold S9+10 - This runs sweep continuously until an
                 approximately S9+10 signal is found.
    Threshhold S9+20 - This runs sweep continuously until an
                 approximately S9+20 signal is found.
  Also, the sweep range is now remembered between sessions.

  4)
  If the PBT drag window is used with PBT off, PBT will now be
  automatically turned on.  This is now also true for RIT.

  5)
  Changed the way the RX320 and Pegasus work together to act more
  like a transceiver with a sub receiver.  The "To RX" button on
  the Pegasus has been renamed "DUAL".  When this is clicked on,
  the RX320 will follow the frequency of VFO B on the Pegasus.
  When the "DUAL" button is clicked off, the RX320 is muted. This
  feature must run in conjunction with version 1.08 or later of my
  RX320 software.

  6)
  Fixed squelch function broken in version 1.38.

Version 1.41

  1) Made this software into demo software that will run for
  10 days.  Once you become a registered user, you will receive
  all further updates automatically via email.

  2) Version 1.42 for registered users has 14 new functions in it and
  is available now by becoming a registered user.

Please note the following!!!!

In order to defray the costs of purchasing software tools and
development hardware for the continued improvement of this
software, you are encouraged to become a registered user of
this software.  By becoming a registered user, you will receive
new versions automatically via email.  As a registered user, you can
email me your "pegasus.ini" file if you are having difficulty setting
up your file and I will be glad to give you whatever assistance is
necessary.

To become a registered user, send a personal check with a
contribution of $25 made out to Carl J. Moreschi along with YOUR
EMAIL ADDRESS to:

    Carl Moreschi N4PY
    173 Cody's Way
    Franklinton, NC 27525

For comments and suggestions email to
n4py@earthlink.net


Please do not email or call Ten-Tec regarding this software.
