Editing Lunar Reconnaissance Orbiter part 2

Jump to navigation Jump to search

Warning: You are not logged in. Your IP address will be publicly visible if you make any edits. If you log in or create an account, your edits will be attributed to your username, along with other benefits.

The edit can be undone. Please check the comparison below to verify that this is what you want to do, and then save the changes below to finish undoing the edit.

Latest revision Your text
Line 1: Line 1:
=== LRO Targeting ===
+
=== Mid course correction/LRO ===
Wait until the fuel purge happens at 32M above the earth. Switch focus to LRO. Select IMFD in both MFDs.
+
 
  In the right MFD, click '''MNU''', '''PG''', and enter '''0'''.
+
Switch focus back to LRO.
  Click '''Map''', '''TGT''', and enter '''Moon'''.
+
 
Click '''Sel''' until ''Ref Moon'' is displayed in yellow letters.
+
  Press the '''k''' key to deploy the LRO solar panels
Click '''MOD''' 3 times and set ''Accuracy'' to ''Max''.
+
  Once the panels have fully unfolded, and rotated to face the sun,
  Click '''MOD''' twice to restore Map view showing ''EqI''(equatorial inc) parameter.
+
  press the '''g''' key to deploy the antenna
  
  In the left MFD, click '''MNU''', then '''Course'''.
+
  In the Left MFD select IMFD, click on MNU and select Map.
  Click '''Nxt''' 4 times so that ''Delta Velocity'' is highlighted, and click '''Set'''.
+
  Make sure TgT is Moon, and click Sel until Ref is Moon.
Click '''TGT''', and enter '''Moon'''.
 
Click '''Nxt''', then '''Set''', and set ''TEj'' to '''400'''.
 
Click '''Nxt''' three times until ''dVf'' is highlighted.
 
Click '''Set''', and enter '''0'''.
 
In the right MFD click '''PG''', then '''Plan'''.
 
In the left MFD, adjust '''dVf''', and '''dVp''' so that ''EqI'' and ''PeA'' in the right MFD
 
are as close as possible to ''90'' degrees and ''350k'' as possible.
 
Be as accurate as possible here. LRO is planning on avoiding a mid-course correction if possible. In orbiter, we will probably still have to do a small
 
MCC.
 
When your adjustments are done, click '''Prv''' until ''TEj'' is highlighted and
 
set it to '''0'''. Click '''PG''', '''BV''', and '''AB'''.
 
When the burn is done, click '''BV''', and '''PG'''. In the Right MFD, click '''Plan''' to turn off plan mode.
 
  
=== Mid course correction/LRO ===
+
Wait until PeT is about 350k<br>
 +
Select IMFD in the Right MFD
  
Wait until ''PeT'' is about ''350k''<br>
+
Click on '''MNU''', then '''Course'''. Click '''Nxt''' 4 times until ''Delta Velocity'' is highlighted, then click '''Set'''.
  In the left MFD set '''dVp''' and '''dVf''' to '''0'''.
+
  Click '''Nxt''' 5 times until ''dVf'' is highlighted, click '''Set''' and enter '''0'''.
  In the right MFD, click '''Plan''' so that the green line turns blue.
+
Click on '''TgT''' and enter '''Moon'''.
  In the left MFD adjust '''dVp''' and '''dVf''' so that ''EqI'' and ''PeA'' in the left MFD are as close as possible  
+
  In the Left MFD, click '''Pg''', then '''Plan''' so that the green line turns blue.
to 90 degrees and 350k respectively
+
  In the right MFD adjust '''dVp''' and '''dVf''' so that ''RIn'' and ''PeA'' in the left MFD are as close as possible to 90 degrees and 216k respectively
 
  When these adjustments are finished, click '''PG''','''BV''', then '''AB''' in the right MFD.  
 
  When these adjustments are finished, click '''PG''','''BV''', then '''AB''' in the right MFD.  
 
  When the burn completes, click '''Plan''' in the left MFD so the blue line returns to green.
 
  When the burn completes, click '''Plan''' in the left MFD so the blue line returns to green.
  
[[Image:Lromid.jpg]] After mid course correction
+
Repeat these adjustments as necessary as you get closer to the moon.
 
 
Be as accurate as possible, as this will be our last course correction for LRO.
 
  
 
=== Course correction/LCROSS ===
 
=== Course correction/LCROSS ===
Switch focus to AV020Centaur. Select TranxX in both left and right MFDs
+
Switch focus to AV020 Centaur. Select TranxX in both left and right MFDs
  
 
  In the right MFD, click '''++''' to turn Maneuvre mode ''On''.
 
  In the right MFD, click '''++''' to turn Maneuvre mode ''On''.
Line 46: Line 33:
 
  burn the engine. Reduce the ''Rel V'' to as close to 0 as possible.  
 
  burn the engine. Reduce the ''Rel V'' to as close to 0 as possible.  
  
  As an alternative to using the dummy main engine, after the Centaur is targeted with  
+
  As an alternative to using the dummy main engine, after the Centaur is targeted with rotational thrusters, you can  
rotational thrusters, you can  rotate the Centaur 180 degrees and use the LCROSS main  
+
  rotate the Centaur 180 degrees and use the LCROSS main engine '''numpad--''' (minus) This will provide you with graphics
engine '''numpad--''' (minus) This will provide you with graphics of the engine firing  
+
of the engine firing in external view. ('''F1''')
in external view. ('''F1''')
 
 
 
[[Image:Lcrossinc.jpg]] View of what the LCROSS orbit inclination will be after the flyby. Taken after mid course correction.
 
  
 
Repeat these adjustments as necessary as you get closer to the moon.
 
Repeat these adjustments as necessary as you get closer to the moon.
Line 59: Line 43:
 
The LRO main engine is not strong enough to get it into a circular orbit in one try. It will take 4 burns over 12 orbits to achieve the initial 216km x 30km commissioning orbit, with periselene over the South Pole. The first burn is critical in that we must avoid a situation where we are "weakly captured" or not captured at all. The orbit eccentricity at the end of our first burn must be 0.8 or less.  
 
The LRO main engine is not strong enough to get it into a circular orbit in one try. It will take 4 burns over 12 orbits to achieve the initial 216km x 30km commissioning orbit, with periselene over the South Pole. The first burn is critical in that we must avoid a situation where we are "weakly captured" or not captured at all. The orbit eccentricity at the end of our first burn must be 0.8 or less.  
  
When LRO's PeT is about 5k, select IMFD in the left MFD, and Orbit MFD in the right.  
+
When LRO's PeT is about 10k, select IMFD in the left MFD, and Orbit MFD in the right.  
  Click on the '''HUD''' button on the right MFD. Change the MFD to IMFD map mode.
+
  Click on the '''HUD''' button on the right MFD. In the left MFD click '''MNU''', then '''Orbital'''.
Set the '''TGT''' to '''LRO''', '''REF''' to '''Moon'''.
+
  Click '''TgT''', then type '''r'''.
  Click '''PG''', then '''Plan'''.
+
Note that The burn time to a circular orbit is over 4k seconds (over an hour!). Make sure rotational mode is selected.
  In the left MFD select IMFD course, then click on '''PRV''' and select ''Delta Velocity'' mode.  
+
  At 2k seconds to PeT, select Retrograde mode on the hud. When retrograde attitude is established, de-select retrograde mode.
  Click '''REF''' and enter '''Moon''', and click '''TGT''', and enter '''LRO'''.
+
  Start the engine by pressing '''numpad-+''' and tap the '''CTRL''' key to keep it burning.
Select ''dVp'', and click on '''+''' or '''-''' until the ''EqI'' in the right MFD is ''90'' degrees.  
+
Notice that the PeA in the right MFD is decreasing.  
  Click '''PG''', '''BV''', and '''AB'''.
+
  Use the numpad '''1''' and '''3''' keys to move the attitude closer to what the Orbital IMFD mode thinks it should be until
When this burn is finished, in the left MFD
+
  the PeA starts increasing.  
set ''TEj'' to '''3k''', and set ''dVf'' to '''-520'''.
+
Keep adjusting the attitude between these points to keep the PeA as close as possible to 216km.  
  In the right MFD, select Orbit MFD. Set '''FRM''' to ''EQU'', and '''PRJ''' to ''Ship''.
+
  When the ApA. parameter in the Right MFD is 3160km, press the '''numpad-*''' key to stop the burn.
In the left MFD, adjust '''TEj''' (affects mostly ''PeA'') and '''dVf''' (affects mostly ''ApA'')
+
The LRO then completes 4 orbits at 3160km x 216km before the next burn,
until the ''PeA'' and ''ApA'' as shown in the bottom left of the left MFD are as close
+
you can switch focus to AV020Centaur and enjoy the view as it passes by the moon.
as possible to ''216k'' and ''3.16M'' respectively.
 
  Continue these adjustments until both parameters are as close as possible.
 
In the Left MFD, click '''PG''', '''BV''', and '''AB'''.
 
[[Image:LOI.jpg|frame|left|IMFD setup for the LOI burn]]
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
When the burn is finished, LRO then completes 4 orbits at 3160km x 216km before the next burn.
 
you can switch focus to AV020Centaur and enjoy the view as it passes by the moon.
 
 
   
 
   
After the flyby, switch back to LRO and after 4 orbits, wait until ''PeT''
+
After the flyby, switch back to LRO and after 4 orbits, wait until PeT
is ''1k''. Press the '''retrograde''' button, and de-select it when retrograde attitude is achieved.  
+
is 800k. Press the retrograde button, and de-select it when retrograde attitude is achieved.  
 
  Follow the procedure above to make the second burn,
 
  Follow the procedure above to make the second burn,
  using initial values of ''TEj'' = '''600''' seconds from PeT, ''dVf'' = '''-194''',
+
  keeping PeA as close as possible to 216km, and burn until ApA is 967km.
and ''dVo'' = '''57.6''', keeping ''PeA'' as close as possible to ''216km'', and ''ApA'' at ''967km''.
 
the ''dVo'' parameter will affect ''PeA''.  
 
  
 
After another 5 complete orbits at 216km x 967km, make a third burn to circularize your orbit at 216km.
 
After another 5 complete orbits at 216km x 967km, make a third burn to circularize your orbit at 216km.
You will not be able to completely circularize the burn with IMFD course, so you can use IMFD orbital mode
 
for a final touch up.
 
  
 
Make a final burn on your next pass over the North Pole to reduce your PeA to 30km near the South Pole.
 
Make a final burn on your next pass over the North Pole to reduce your PeA to 30km near the South Pole.
Line 128: Line 72:
 
changes significantly due to time acceleration, fix it with scenario editor. It is now necessary to tune IMFD map for maximum accuracy.
 
changes significantly due to time acceleration, fix it with scenario editor. It is now necessary to tune IMFD map for maximum accuracy.
 
  Select IMFD in the left MFD. Click '''MNU''', then '''Map'''. Click '''TgT''' and type '''Moon''', Click '''Cnt''', and type '''Earth'''.
 
  Select IMFD in the left MFD. Click '''MNU''', then '''Map'''. Click '''TgT''' and type '''Moon''', Click '''Cnt''', and type '''Earth'''.
  Click '''MOD''' 3 times. This should give you the Map-config screen. ''Legs/Frame'' should be highlighted.  
+
  Click '''MOD''' 3 times. This should give you the Map-config screen. ''Legs/Frame'' should be highlighted. Click '''Set''' and type '''64'''.
Click '''Set''' and type '''64'''.
+
  Click '''Nxt''', then '''-''' twice. Click '''Nxt twice again, so that ''Period limit'' is highlighted, and click '''+''' to turn it off.
  Click '''Nxt''', then '''-''' twice. Click '''Nxt twice again, so that ''Period limit'' is highlighted, and  
+
  Click '''Nxt''' and '''+''' to turn ''Hyper limit'' off. Click '''Nxt''' twice and then '''+''' so that ''Tgt weak Pe'' is set to No.
click '''+''' to turn it off.
 
  Click '''Nxt''' and '''+''' to turn ''Hyper limit'' off. Click '''Nxt''' twice and then '''+''' so that  
 
''Tgt weak Pe'' is set to No.
 
 
  Click '''Nxt''' and '''+''' to turn ''One Pe/Ref'' off. Click '''Mod''' again to return to the map display.  
 
  Click '''Nxt''' and '''+''' to turn ''One Pe/Ref'' off. Click '''Mod''' again to return to the map display.  
 
Several orbits should now be shown. Select IMFD in the Right MFD.
 
Several orbits should now be shown. Select IMFD in the Right MFD.
  In the right MFD click '''MNU''', then '''Course'''. Select ''Delta Velocity'' mode, then set the target to Moon.  
+
  In the right MFD click '''MNU''', then '''Course'''. Select ''Delta Velocity'' mode, then set the target to Moon. Set the ''dVf'' parameter to 0.
Set the ''dVf'' parameter to 0.
+
  In the left MFD click '''PG''', then '''Plan'''. in the right MFD, adjust '''dVf''' to get the most deflection of the orbit you can when  
  In the left MFD click '''PG''', then '''Plan'''. in the right MFD, adjust '''dVf''' to get the most deflection  
+
LCROSS intersects the moon in 1.5 orbits. When this is done, click on '''Pg''', then '''BV''', then '''AB'''.
of the orbit you can when LCROSS intersects the moon in 1.5 orbits.  
 
When this is done, click on '''Pg''', then '''BV''', then '''AB'''.
 
 
  When the burn is finished, click '''Plan''' in the left MFD to turn the orbit line green again.
 
  When the burn is finished, click '''Plan''' in the left MFD to turn the orbit line green again.
 
==== Alternate procedure ====
 
==== Alternate procedure ====
 
Select transx in the right MFD.
 
Select transx in the right MFD.
  In the right MFD, select target moon and 1.5 orbits to intercept.  
+
  In the right MFD, select target moon and 1.5 orbits to intercept. Change the view to Maneuver, and select Maneuver mode.
Change the view to Maneuver, and select Maneuver mode.
 
 
  Adjust '''prograde vel''', and '''Ch. Pl vel''' for the minimum closest approach.  
 
  Adjust '''prograde vel''', and '''Ch. Pl vel''' for the minimum closest approach.  
 
  Select target view and use rotational mode to align the cross with the target.  
 
  Select target view and use rotational mode to align the cross with the target.  
  Start the burn and watch the orbit in Map MFD mode in the left MFD. When maximum  
+
  Start the burn and watch the orbit in Map MFD mode in the left MFD. When maximum orbit deflection is reached at the moon intercept point
orbit deflection is reached at the moon intercept point after 1.5 orbits,  
+
after 1.5 orbits, stop the burn.
stop the burn.
 
  
 
=== LCROSS final moon targeting ===
 
=== LCROSS final moon targeting ===
Line 156: Line 93:
 
and IMFD course in the right MFD.
 
and IMFD course in the right MFD.
 
  In the right MFD set ''target intercept'' mode. Set target to '''Moon'''.
 
  In the right MFD set ''target intercept'' mode. Set target to '''Moon'''.
  Adjust the TIn MJD and then TIn parameters for minimum Enroute dV.  
+
  Adjust the TIn MJD and then TIn parameters for minimum Enroute dV. Change ''Target intercept'' mode to ''Delta Velocity'' mode.
Change ''Target intercept'' mode to ''Delta Velocity'' mode.
 
 
  Click '''Nxt''' 4 times to highlight ''Get Burn'', and click '''+'''.
 
  Click '''Nxt''' 4 times to highlight ''Get Burn'', and click '''+'''.
  In the left MFD click '''Sel''' until ref is ''Moon'' and ''PeA'' is the lowest value.  
+
  In the left MFD click '''Sel''' until ref is ''Moon'' and ''PeA'' is the lowest value. Click '''Pg''', then '''Plan'''.
Click '''Pg''', then '''Plan'''.
+
  In the right MFD adjust the highest value of ''dVf'', ''dVp'', or ''dVo'' to minimise ''PeA'' in the left MFD.
  In the right MFD adjust the highest value of ''dVf'', ''dVp'', or ''dVo'' to minimize
+
  As the orbit changes, the PeA number may change, so you may have to return to the proper one with the '''Sel''' button once in a while
''PeA'' in the left MFD.
+
  Adjust the next highest value of ''dVf'', ''dVp'', or ''dVo'', and finally adjust remaining value.  
  As the orbit changes, the PeA number may change, so you may have to return to the  
 
proper one with the '''Sel''' button once in a while.
 
  Adjust the next highest value of ''dVf'', ''dVp'', or ''dVo'', and finally adjust  
 
the remaining value.  
 
 
  When these adjustments are done, click '''Pg''', '''BV''', and '''AB'''.
 
  When these adjustments are done, click '''Pg''', '''BV''', and '''AB'''.
 
Note the PeT in the left MFD. We need to make another burn when we are halfway from here to the noon so that we will impact the moon.
 
Note the PeT in the left MFD. We need to make another burn when we are halfway from here to the noon so that we will impact the moon.
Line 173: Line 105:
 
=== LRO Orbit Circularization ===
 
=== LRO Orbit Circularization ===
 
60 days after your last LRO orbit insertion burn,
 
60 days after your last LRO orbit insertion burn,
switch focus to LRO, and at Perilune over the south pole, burn retrograde until the ApA is 70km.
+
switch focus to LRO, and at Perilune over the south pole, burn retrograde until the ApA is 50km.
  
=== LCROSS Lunar pole targeting ===
+
=== LCROSS Lunar pole targetinjg ===
 
Switch focus back to AV020Centaur. When the PeT is 130k Set IMFD map in the left MFD and IMFD Base approach in the right MFD.
 
Switch focus back to AV020Centaur. When the PeT is 130k Set IMFD map in the left MFD and IMFD Base approach in the right MFD.
 
  In the left MFD set target Moon and center to Self ('''x''')
 
  In the left MFD set target Moon and center to Self ('''x''')
 
  Click on '''Sel''' until ''Ref Moon'' is displayed with a negative PeA.
 
  Click on '''Sel''' until ''Ref Moon'' is displayed with a negative PeA.
 
  In the right MFD click '''REF''', and type '''Moon'''.  
 
  In the right MFD click '''REF''', and type '''Moon'''.  
  Click '''Nxt''' until ''Hint'' is highlighted. Click '''Set''' and type the value shown for ''PeT'' in the left MFD.
+
  Click '''Nxt''' until ''Hint'' is highlighted. Click '''Set''' and type the value shown for ''PeA'' in the left MFD.
  Click '''Prv''' until ''Lat'' is highlighted. Click '''Set''' and type '''89.9'''
+
  Click '''Prv''' until ''Lat'' is highlighted. Click '''Set''' and type '''-89.9'''
  Click '''Nxt''', then '''Set''' and set the ''Alt'' to '''0'''.
+
  Click '''Nxt''', then '''Set''' and set the ''Alt''' to '''0'''.
  Click '''Nxt''', then '''Set''' and set the ''ReA'' (Re-enty Angle) to '''70'''
+
  Click '''Nxt''', then '''Set''' and set the ''ReA'' (Re-enty Angle) to '''75'''
 
  Click '''Nxt''', then '''Set''' and set the ''Ant'' parameter to '''0'''
 
  Click '''Nxt''', then '''Set''' and set the ''Ant'' parameter to '''0'''
 
  You may need to reset the ''Hint'' Parameter at this time to the current PeT.
 
  You may need to reset the ''Hint'' Parameter at this time to the current PeT.
Line 193: Line 125:
  
 
=== LCROSS LRO targeting ===
 
=== LCROSS LRO targeting ===
 +
* ~7 hours prior to impact, LCROSS will separate from Centaur upper stage and perform a ~4-minute delay maneuver (~23 m/s)  to enable LCROSS to fly through Centaur impact plume
 
  In the left MFD, click '''REF''' and type '''Moon''', then click '''TGT''' and type '''LRO'''
 
  In the left MFD, click '''REF''' and type '''Moon''', then click '''TGT''' and type '''LRO'''
 
  Click '''PRJ''' until ''Target'' is displayed in the lower left corner.
 
  Click '''PRJ''' until ''Target'' is displayed in the lower left corner.
  Click '''Z-''' until you can see the white dot that represents the current vessel. Remember  
+
  Click '''Z-''' until you can see the white dot that represents the current vessel. Remember where this "incoming" leg of the orbit is located.
where this "incoming" leg of the orbit is located.
 
 
  In the right MFD click '''MNU''', then '''Course'''. Highlight ''Target Intercept'', then click '''Set'''.
 
  In the right MFD click '''MNU''', then '''Course'''. Highlight ''Target Intercept'', then click '''Set'''.
 
  Click '''TGT''', and type '''LRO'''. Click '''PRJ''' until ''LRO'' is shown in the lower left corner of the MFD.
 
  Click '''TGT''', and type '''LRO'''. Click '''PRJ''' until ''LRO'' is shown in the lower left corner of the MFD.
 
The orientation of the two MFD's should now be exacly alike with repect to the position of the LCROSS and LRO orbits. We want to adjust the time of intercept of the LRO orbit so that it is 4 minutes (240 seconds) before LRO passes by.
 
The orientation of the two MFD's should now be exacly alike with repect to the position of the LCROSS and LRO orbits. We want to adjust the time of intercept of the LRO orbit so that it is 4 minutes (240 seconds) before LRO passes by.
 
  In the right MFD click '''Nxt''' until the ''Tin'' parameter is highlighted.
 
  In the right MFD click '''Nxt''' until the ''Tin'' parameter is highlighted.
  Click '''+''' or '''-''' until the white intercept point line intersects the point where  
+
  Click '''+''' or '''-''' until the white intercept point line intersects the point where the incoming side of the LCROSS orbit intersects the LRO's orbit.   
the incoming side of the LCROSS orbit intersects the LRO's orbit.   
 
 
  Whether you use + or - depends on which has the least dV at the intersect point.
 
  Whether you use + or - depends on which has the least dV at the intersect point.
 
  Click '''PG''', then '''BV''', then '''AB'''.
 
  Click '''PG''', then '''BV''', then '''AB'''.
 
Once this burn is done we must turn prograde with respect to the orbit of the moon and burn an additional 5 m/s.  
 
Once this burn is done we must turn prograde with respect to the orbit of the moon and burn an additional 5 m/s.  
  Make sure the HUD reference is ''ORBIT [Moon]''. Use rotational thrusters to align  
+
  Make sure the HUD reference is ''ORBIT [Moon]''. Use rotational thrusters to align in the prograde direction.  
in the prograde direction.  
+
  Do not use the prograde autopilot, as we are not in the moons SOI yet. In the right MFD note the Tot line in the dV applied section.
  Do not use the prograde autopilot, as we are not in the moons SOI yet.  
 
In the right MFD note the Tot line in the dV applied section.
 
 
  Add 5 to this number and burn until the ''Tot dV'' applied equals this number.
 
  Add 5 to this number and burn until the ''Tot dV'' applied equals this number.
 
  When this burn is complete, in the right MFD click '''MNU''', then '''Base Approach'''.  
 
  When this burn is complete, in the right MFD click '''MNU''', then '''Base Approach'''.  
  Highlight ''Hint'' and set it to the current ''Pet'' in the left MFD.  
+
  Highlight ''Hint'' and set it to the current ''Pet'' in the left MFD. Click '''Prv''' twice to highlight ''ReA''.
Click '''Prv''' twice to highlight ''ReA''.
 
 
  Click '''+''' or '''-''' to minimize Enroute dV. Click '''Pg''', '''BV''', and '''AB'''.
 
  Click '''+''' or '''-''' to minimize Enroute dV. Click '''Pg''', '''BV''', and '''AB'''.
 
 
=== LCROSS Separation ===
 
=== LCROSS Separation ===
* ~7 hours prior to impact, LCROSS will separate from Centaur upper stage and perform a ~4-minute delay maneuver (~23 m/s)  to enable LCROSS to fly through Centaur impact plume
 
 
Wait until Pet in the Left MFD is 25k.  
 
Wait until Pet in the Left MFD is 25k.  
  In the right MFD, minimize ''dV'' by adjusting ''ReA'', and make the burn.
+
  In the left MFD, minimize ''dV'' by adjusting ''ReA'', and make the burn.
 
  Jettison LCROSS by pressing '''k'''
 
  Jettison LCROSS by pressing '''k'''
 
Once LCROSS is jettisoned, switch focus to the LCROSS spacecraft.
 
Once LCROSS is jettisoned, switch focus to the LCROSS spacecraft.
Line 226: Line 152:
 
  Make sure ''Target Intercept'' is highlighted, and click '''Set'''. Click '''TGT''' and type '''LRO'''.
 
  Make sure ''Target Intercept'' is highlighted, and click '''Set'''. Click '''TGT''' and type '''LRO'''.
 
  Click '''PRJ''' until the lower left corner says ''LRO''. Click '''Nxt''' 3 times so that ''Tin'' is highlighted.
 
  Click '''PRJ''' until the lower left corner says ''LRO''. Click '''Nxt''' 3 times so that ''Tin'' is highlighted.
  Click '''-''' until the white intercept line intersects the point where our incoming orbit  
+
  Click '''-''' until the white intercept line intersects the point where our incoming orbit intersects the LRO orbit.
intersects the LRO orbit.
 
 
  Click '''PG''', than '''BV''', then '''AB'''.
 
  Click '''PG''', than '''BV''', then '''AB'''.
This should result in a mostly retrograde burn of about 23 m/s. When this burn is complete:
+
* current strategy
In the right MFD select '''MNU''', then '''Base Approach'''. Click '''REF''' and type '''Moon'''.
+
** target LRO
switch focus back to AV020Centaur and write down the ''Lat'' and ''Lon'' parameters. Switch back to LCROSS and enter these numbers for Lat and Lon in the LCROSS Base Approach MFD.
+
** boost additional 5m/s prograde
Set ''Alt'' to '''0''', ''ReA'' to '''75''', and ''Ant'' to '''0'''. Set ''Hint'' to the ''Pet'' shown in the left MFD.
+
** retarget base approach
Highlight ReA and adjust for minimum dV. Click '''PG''', '''BV''', and '''AB'''.
+
** separation at 25k PeT
At ''Pet'' of 15k make another Base Approach targeting burn.
+
** LCROSS target LRO intersection
At ''Pet'' of 5k make a final Base Approach targeting burn.
+
** LCROSS target base approach
 
+
** rinse, repeat
=== Impact Observation ===
 
Wait until PeT is 1k.
 
Turn LCROSS prograde and make sure planetarium mode is on ('''F9''').
 
Center the AV020Centaur in the HUD, and press '''F8''' for the LCROSS camera display.
 
Recenter the Centaur in the camera view.
 
Switch focus to LRO.
 
Engage the Orbit Normal + autopilot so that LRO's cameras and instruments are pointed
 
in the prograde direction.
 
Switch focus back to LCROSS.
 
In the left MFD, set the target to AV020Centaur. This will give you a good indication of when the
 
centaur will impact the moon.
 
When it is close to impact time, press '''f8''' for the LCROSS camera. Center the Centaur and turn off
 
planetarium mode '''f9'''.
 
You will see bright flash at impact and the ejecta blanket will start to spread. Switch focus to LRO, press '''f1''', then press '''f4''' and set the camera FOV to 10 degrees for the best view. The impact, from LRO's point of view will initially be on the prograde horizon. As LRO passes overhead of the impact, LCROSS will impact in the same general area.
 
  
 
== External reference documents ==
 
== External reference documents ==
Line 262: Line 173:
 
[http://lunar.gsfc.nasa.gov/library/IAC-07-C1_7_06.pdf Mission Design And Operations Considerations For NASA’S LRO]<br>
 
[http://lunar.gsfc.nasa.gov/library/IAC-07-C1_7_06.pdf Mission Design And Operations Considerations For NASA’S LRO]<br>
 
[http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20070021535_2007013516.pdf Mission Design for the Lunar Reconnaissance Orbiter]<br>
 
[http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20070021535_2007013516.pdf Mission Design for the Lunar Reconnaissance Orbiter]<br>
[http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20080038058_2008037121.pdf LRO Navigation Overview]
 
 
== Copyrights and Disclaimers ==
 
*LRO/LCROSS Orbiter Add-On Copyright 2008 Brian Jones
 
*LRO/LCROSS Documentation Copyright 2008 Brian Jones and Chris Coffin
 
*Commercial redistribution prohibited.
 
*Permission granted for use to NASA GSFC and ASU LROC
 
*Permission granted for Educational and personal use.
 
*Not for Navigational purposes. No warranty, express or implied.
 
*Not liable for any damages arising from use of this software or documentation.
 
 
==See also==
 
[[Lunar Reconnaissance Orbiter]]
 
  
[[Category:Articles]]
+
== TODO ==
[[Category:Add-ons]]
+
*Fix procedure for actual mission parameters
[[Category:Spacecraft add-ons]]
+
** updated Launch date? - currently: 2nd March 2009 05:26:27
[[Category: Add-ons by BrianJ]]
+
** LCROSS North pole impact
[[Category:Tutorials]]
+
*** Target a specific crater
 +
** Try IMFD slingshot mode to refine flyby once in lunar SOI
 +
* Add keyboard commands section
 +
* Convert to .CHM for help mode within orbiter
 +
* Add images
 +
** IMFD map periapsis projection to show LCROSS orbit inclination

Please note that all contributions to OrbiterWiki are considered to be released under the GNU Free Documentation License 1.2 (see OrbiterWiki:Copyrights for details). If you do not want your writing to be edited mercilessly and redistributed at will, then do not submit it here.
You are also promising us that you wrote this yourself, or copied it from a public domain or similar free resource. Do not submit copyrighted work without permission!

To protect the wiki against automated edit spam, we kindly ask you to solve the following hCaptcha:

Cancel Editing help (opens in new window)