This shows you the differences between two versions of the page.
Both sides previous revision Previous revision Next revision | Previous revision Next revision Both sides next revision | ||
chara:trouble_shooting [2023/02/08 19:41] charaobs [The Telescope won't stop moving or moves beyond the commanded position] |
chara:trouble_shooting [2023/07/06 07:40] gail_stargazer |
||
---|---|---|---|
Line 11: | Line 11: | ||
* Did the Astrolib update on OPLE? If the job queue is stopped too soon after slewing on Cosmic Debris, the correct calculations for the carts will not be done by OPLE and you may be searching for fringes with the wrong star data. The star identifier will be displayed in the server window. If it is not correct, hit STAR ACQUIRED on CD to update OPLE. The proper star can also be entered manually by typing hd #### into the OPLE server and hitting ENTER. | * Did the Astrolib update on OPLE? If the job queue is stopped too soon after slewing on Cosmic Debris, the correct calculations for the carts will not be done by OPLE and you may be searching for fringes with the wrong star data. The star identifier will be displayed in the server window. If it is not correct, hit STAR ACQUIRED on CD to update OPLE. The proper star can also be entered manually by typing hd #### into the OPLE server and hitting ENTER. | ||
* Are the PoP's correct? After a PoP change, the PoP's are sometimes not updated in CD or ople. Compare the PoP's in the configuration tab of CD or OPLE with the PoP Overview or Popperi gtk. | * Are the PoP's correct? After a PoP change, the PoP's are sometimes not updated in CD or ople. Compare the PoP's in the configuration tab of CD or OPLE with the PoP Overview or Popperi gtk. | ||
- | * Are the carts behaving or are there vibrations or jumps of 100 or more microns every 3-6 seconds? How are the metrology signals? Are they strong and staying white? Red signals mean one or more metrology signals may have gone too low and homing carts is necessary. The METDATA function on the ople gui can be used to sample the metrology signal and may show noise spikes that can be disruptive to the smooth cart motion. | + | * Are the carts behaving or are there vibrations or jumps of 100 or more microns every 3-6 seconds? How are the metrology signals? Are they strong and staying white? Red signals mean one or more metrology signals may have gone too low and homing carts is necessary. The METDATA function on the ople gui can be used to sample the metrology signal and may show noise spikes that can be disruptive to the smooth cart motion. |
- | * Is the target a high proper motion star? Red dwarfs are close stars and can have high proper motions. Scan a wider range to see if it is outside of the usual calculated scan range. Binaries can also have very high offsets from the expected position due to mistakenly using astromod calculations from the companion star. | + | * Is the target a high proper motion star? Red dwarfs are close stars and can have high proper motions. Scan a wider range to see if it is outside of the usual calculated scan range. Binaries can also have very high offsets from the expected position due to mistakenly using astromod calculations from the companion star. Make sure you are on the right star with an image from SIMBAD or Vizier. |
- | * Do you have enough flux from each telescope or on each baseline? Is the telescope tiptilt struggling with low flux? Can the camera gain be raised or the exposure made longer to help hold the star? Passing clouds or contrails can lower flux unexpectedly. | + | * Do you have enough flux from each telescope or on each baseline? Is the telescope tiptilt struggling with low flux? Can the camera gain be raised or the exposure made longer to help hold the star? Passing clouds or contrails can lower flux unexpectedly. Remap or realign as needed. |
* Did you get the same star in each telescope? Sometimes a busy star field and poor pointing of the telescopes can lead to the wrong star being acquired and locked by tiptilt. View the stars in the finder window to see if all the stars match. | * Did you get the same star in each telescope? Sometimes a busy star field and poor pointing of the telescopes can lead to the wrong star being acquired and locked by tiptilt. View the stars in the finder window to see if all the stars match. | ||
* Check the CHARA time on the GPS server. The " | * Check the CHARA time on the GPS server. The " | ||
* Check the time on the OPLE server. If the time is off or there are any lost ticks/ | * Check the time on the OPLE server. If the time is off or there are any lost ticks/ | ||
- | * Are the [MAN] buttons pressed (gray) for the moving carts on the OPLE Control gui? (The reference cart will remain green.) | + | * Are the [MAN] or [FT] buttons pressed (gray) for the moving carts on the OPLE Control gui? (The reference cart will remain green.) |
- | * Check that the carts are within delay line range (-1.3 to 44.25 meters) and errors are small. Were the carts homed and checked before the first slew of the night? Did any carts go to the front switch after slewing? This can cause them to lose their position. To check the homing of the carts, turn off the OL button to send it back to zero. If it does not track on the home switch when displaying a zero position (0.000000), it was lost. There is a new "CHECK" | + | * Check that the carts are within delay line range (-1.3 to 44.25 meters) and errors are small. Were the carts homed and checked before the first slew of the night? Did any carts go to the front switch after slewing? This can cause them to lose their position. To check the homing of the carts, turn off the OL button to send it back to zero. If it does not track on the home switch when displaying a zero position (0.000000), it was lost. Use the [CHECK] button on the OPLE gtk to send the carts to the home switch and report whether |
- | * Are the LDC's working? | + | * See section on homing carts in __OPLE and Metrology__ |
- | * Is the glass position within allowable range (-10mm to 49mm) on all beams? | + | * For the visible programs, are the LDC's working? |
+ | * Is the glass position | ||
* Have the commands " | * Have the commands " | ||
- | * Look out for " | + | * Look out for errors on ople server. If the LDC glass goes out of range, the LDC will need to be homed. To home the glass, stop astromod by clicking [STOP] on the OPLE gui. Make sure the LDC velocities are non-zero (~ 50… must click [vel] button to update velocity) and click [HOME] on the LDCs in use. The LDC position number should go to 0.000 or very close to zero. After the LDCs have been homed, turn astromod on by clicking [START] on the ople gui. Then click [REF] on cosmic debris to send the LDCs to the correct positions. |
* If LDCs are working correctly, the LDC positions (in mm) should roughly match up with the reference cart positions (in meters). | * If LDCs are working correctly, the LDC positions (in mm) should roughly match up with the reference cart positions (in meters). | ||
Line 37: | Line 38: | ||
Some times a cart is stopped and cannot be commanded. If the cart has gone to the front hard or back hard switch, it will not be usable until it is moved from the switch and the Ople Controller box is reset. There are 6 silver boxes for these controllers with two green LED's for the front and back switches and two red LED's for the back hard and front hard switches. If a red LED is lit, there will be an error displayed on the message window and the cart is disabled. The cart will need to be moved off the switch and then the box can be reset with the RESET button on the front. The error display will go away and the red LED will be off. The cart is now controllable. | Some times a cart is stopped and cannot be commanded. If the cart has gone to the front hard or back hard switch, it will not be usable until it is moved from the switch and the Ople Controller box is reset. There are 6 silver boxes for these controllers with two green LED's for the front and back switches and two red LED's for the back hard and front hard switches. If a red LED is lit, there will be an error displayed on the message window and the cart is disabled. The cart will need to be moved off the switch and then the box can be reset with the RESET button on the front. The error display will go away and the red LED will be off. The cart is now controllable. | ||
- | |||
===== Restarting Servers ===== | ===== Restarting Servers ===== | ||
Line 45: | Line 45: | ||
If a server is not running or Socket Manager reports that a server is dead, then look at the socket manager list to find out what computer the server runs on ([[: | If a server is not running or Socket Manager reports that a server is dead, then look at the socket manager list to find out what computer the server runs on ([[: | ||
- | To restart a server, log on to the machine that runs the server and type " | + | To restart a server, log on to the machine that runs the server and type " |
- | ==== Restarting Servers using the rc.local file ==== | + | ==== Restarting Servers using the rc.local file (likely outdated) |
- | \\ | + | \\ This procedure is applicable to servers that have not switched over to the bootlaunch paradigm, which may not be any at this point. \\ \\ If a server is not running or Socket Manager reports that a server is dead, then look at the socket manager list to find out what computer the server runs on ([[: |
- | This procedure is applicable to servers that have not switched over to the bootlaunch paradigm, which may not be any at this point.\\ | + | \\ |
- | \\ | + | Log on to the relevant computer by typing the computer name (ctrscrut, ople, s1, …). If the shortcut doesn' |
- | If a server is not running or Socket Manager reports that a server is dead, then look at the socket manager list to find out what computer the server runs on ([[: | + | |
- | \\ | + | |
- | Log on to the relevant computer by typing the computer name (ctrscrut, ople, s1, …). If the shortcut doesn' | + | |
- | \\ | + | |
- | Find out if the server is running by typing "ps aux | grep // | + | |
- | [ctrscrut: | + | |
- | observe 9281 0.0 0.0 61156 692 pts/3 S+ 13:58 0:00 grep pico_1\\ | + | |
- | observe 12578 0.0 0.0 24524 11212 ? S Jun16 33:14 / | + | |
- | \\ | + | |
- | If the entry for the dead server shows up in the process list, then identify the process identification number (12578 for the example above) and kill the server by typing "kill -9 // | + | |
- | \\ | + | |
- | Look up the commands to restart the server by typing "more / | + | |
- | \\ | + | |
- | #Start PICO server for PICO #1\\ | + | |
- | /bin/rm -f / | + | |
- | / | + | |
- | / | + | |
- | \\ | + | |
- | The first command removes the lock to allow the server to restart. The second command removes the name from the socket manager listing. The last command restarts the server. Note that if you are restarting the servers as observe, you will need to remove the part of the command in the rc.local file that saves information in / | + | |
- | \\ | + | |
- | There are text files on the desktop with many of the restart commands. Use these files for quick access to the relevant commands. The commands are edited and can be copied exactly as written. Files include Dome servers and all servers running on ctrscrut. Many of these commands are also located on the [[: | + | |
Shutters Server | Shutters Server | ||
- | \\ | + | \\ The Shutters server can become unresponsive or disconnected from the Socket Manager. This server must be restarted from the lab and not from the Control Room. Follow these instructions to restart it. Note that Shutters runs on gps, not ctrscrut. \\ \\ To start the shutter server on gps: \\ \\ Log into the gps computer and kill the process labeled shutters with the PID as described in **Restarting Servers** |
- | The Shutters server can become unresponsive or disconnected from the Socket Manager. This server must be restarted from the lab and not from the Control Room. Follow these instructions to restart it. Note that Shutters runs on ople, not ctrscrut.\\ | + | |
- | \\ | + | |
- | To start the shutter server on ople:\\ | + | |
- | \\ | + | |
- | Log into the ople computer and kill the process labeled shutters with the PID as described in **Restarting Servers** above.\\ | + | |
- | Turn off the power to the Shutters with the switch on the computer rack which is to the left of the computer desk and marked " | + | |
- | \\ | + | |
- | / | + | |
- | ctrscrut/ | + | |
==== Restarting Socket Manager ==== | ==== Restarting Socket Manager ==== | ||
Line 118: | Line 87: | ||
==== The Telescope won't move or stopped moving ==== | ==== The Telescope won't move or stopped moving ==== | ||
- | Have the powers been turned on to the drives? Are the scopes disabled? The usual state of the telescopes is disabled until enabled. This is due to the stall function of the scopes which eventually disables the scopes when they are stowed. Enable the scopes by hitting [ENABLE] on the dome gui, the telescope gui control tab, or the bottom of the obsgtk. If a scope disables itself during a slew, it may be just an overcautious stall function or the slew gains may be too high or low. Check the gains and if they are OK, Hit ENABLE and the scope should continue to slew. If it disables again without moving, there may be something wrong at the scope, ie. a hatch left open, a ladder not put away, a tool on the floor, or something else physically impeding the motion of the scope. You will need to go to the dome to see what it is. The computer in the dome will give you control of the scope to turn it away from the problem. | + | Have the powers been turned on to the drives? Are the scopes disabled? The usual state of the telescopes is disabled until enabled. This is due to the stall function of the scopes which eventually disables the scopes when they are stowed. Enable the scopes by hitting [ENABLE] on the dome gui, the telescope gui control tab, or the bottom of the obsgtk. If a scope disables itself during a slew, it may be just an overcautious stall function or the slew gains may be too high or low. Check the gains and if they are OK, Hit ENABLE and the scope should continue to slew. If it disables again without moving, there may be something wrong at the scope, ie. a hatch left open, a ladder not put away, a tool on the floor, or something else physically impeding the motion of the scope. You will need to go to the dome to see what it is. The computer in the dome will give you control of the scope to turn it away from the problem. Make sure the scope is in a position that allows the opening of the hatch if you need to go upstairs. It can be moved back from the bunker as needed. |
- | Sometimes the dome guis get hung up and can cause erratic motion or no motion of the scopes. Check them for current times and continuous updates of numbers. If they are not updating, try to REOPEN them first. If that does not work, close the gui and open a new one. If a new one does not open, the dome server may be dead or Sockman lost track of it. See **Dome Server Restart** below.\\ | + | Sometimes the dome guis get hung up and can cause erratic motion or no motion of the scopes. Check them for current times and continuous updates of numbers. If they are not updating, try to REOPEN them first. If that does not work, close the gui and open a new one. If a new one does not open, the dome server may be dead or Sockman lost track of it. See **Dome Server Restart** |
\\ | \\ | ||
- | **Azimuth Limit Switches** \\ | + | 1. On the domegui MANUAL tab, click STOP so pulses won't be sent to the drive by the control software. \\ |
- | \\ | + | |
- | <font 14px/ | + | |
- | \\ | + | |
- | 1. On the domegui MANUAL tab, click STOP so pulses won't be sent to the drive by the control software.\\ | + | |
- | \\ | + | |
- | 2. Make sure you understand why the limit was hit which may require a trip to the telescope. If the azimuth positions on all telescope servers and dome guis match, it is likely the limit switch causing the stall and not that the scope is actually in a wrong position.</ | + | |
- | \\ | + | |
- | <font 14px/ | + | |
- | \\ | + | |
- | 4. Click ENABLE then you can move the telescope back to its normal range of operation.\\ | + | |
\\ | \\ | ||
+ | 2. Make sure you understand why the limit was hit which may require a trip to the telescope. If the azimuth positions on all telescope servers and dome guis match, it is likely the limit switch incorrectly causing the stall and not that the scope is actually in a wrong position.</ | ||
+ | 4. Click ENABLE then you can move the telescope back to its normal range of operation. \\ \\ | ||
5. After the telescope is back in it normal range, click OVERRIDE OFF which makes the hardware aware of the limits again and then hit AUTO on the AUTO tab to resume normal operation.</ | 5. After the telescope is back in it normal range, click OVERRIDE OFF which makes the hardware aware of the limits again and then hit AUTO on the AUTO tab to resume normal operation.</ | ||
<font 14px/ | <font 14px/ | ||
- | <font 14px/ | + | <font 14px/ |
- | \\ | + | 2.</ |
- | 2.</ | + | |
- | \\ | + | |
- | <font 14px/ | + | |
<font 14px/ | <font 14px/ | ||
- | <font 14px/ | + | <font 14px/ |
<font 14px/ | <font 14px/ | ||
<font 14px/ | <font 14px/ | ||
- | |||
==== The Telescope won't track ==== | ==== The Telescope won't track ==== | ||
Line 165: | Line 122: | ||
Disable the scope whenever its motion is outside of what it is supposed to do. Turn the powers off to the axes as well on the Power gui. The dome server is usually to blame and will need to be restarted. | Disable the scope whenever its motion is outside of what it is supposed to do. Turn the powers off to the axes as well on the Power gui. The dome server is usually to blame and will need to be restarted. | ||
- | Sometimes, the gains can be too low and the scope will overshoot the star position. | + | Sometimes, the gains can be too low and the scope will overshoot the star position. Disable the scope, adjust the Slewing gain up one increment and enable the scope. It should return to the star. |
==== Dome Server Restart ==== | ==== Dome Server Restart ==== | ||
Line 207: | Line 164: | ||
==== How to Adjust CPUMotor Gains ==== | ==== How to Adjust CPUMotor Gains ==== | ||
- | \\ | + | \\ |
- | The GAIN controls the gain of the feedback between the encoder and the drive velocity. A high gain means a " | + | The GAIN controls the gain of the feedback between the encoder and the drive velocity. A high gain means a " |
- | \\ | + | The Fn controls the maximum frequency of the servo response. A high Fn means higher frequencies are allowed through, which can mean correcting for faster problems but if too high can also lead to oscillations or fog-horning. \\ \\ |
- | The Fn controls the maximum frequency of the servo response. A high Fn means higher frequencies are allowed through, which can mean correcting for faster problems but if too high can also lead to oscillations or fog-horning.\\ | + | The software will not make changes to either of these quickly as that is a dangerous thing to do. There is NO POINT to clicking the up or down buttons more than once every few seconds. Indeed it is bad to do so as you will confuse the software. The change between slewing and tracking is also slow for similar reasons. This is why sometimes the " |
- | \\ | + | Slew and tracking mode work differently, |
- | The software will not make changes to either of these quickly as that is a dangerous thing to do. There is NO POINT to clicking the up or down buttons more than once every few seconds. Indeed it is bad to do so as you will confuse the software. The change between slewing and tracking is also slow for similar reasons. This is why sometimes the " | + | IN SLEWING MODE \\ \\ |
- | \\ | + | - If the gain is too low you will overshoot the target. \\ \\ |
- | Slew and tracking mode work differently, | + | - If the gain is too high it will fog-horn. \\ \\ |
- | \\ | + | - If the Fn is too high it will also fog-horn, even at low gains. \\ \\ |
- | IN SLEWING MODE\\ | + | You need to have the lowest possible gain and Fn in slew mode that doesn' |
- | \\ | + | IN TRACKING MODE \\ \\ |
- | - If the gain is too low you will overshoot the target.\\ | + | - If the gain is too low it will keep moving between slewing and tracking. \\ \\ |
- | \\ | + | - If the gain is too high it will fog-horn. \\ \\ |
- | - If the gain is too high it will fog-horn.\\ | + | - The same goes for Fn. \\ \\ |
- | \\ | + | In tracking mode you want the highest gain and Fn that allows the telescope to track well without fog-horning. If it " |
- | - If the Fn is too high it will also fog-horn, even at low gains.\\ | + | Some final remarks: \\ \\ |
- | \\ | + | - The gain is temperature dependent, so when the temperature changes these things will change, but more so for tracking. \\ \\ |
- | You need to have the lowest possible gain and Fn in slew mode that doesn' | + | - The tiptilt system almost never causes oscillations, |
- | \\ | + | |
- | IN TRACKING MODE\\ | + | |
- | \\ | + | |
- | - If the gain is too low it will keep moving between slewing and tracking.\\ | + | |
- | \\ | + | |
- | - If the gain is too high it will fog-horn.\\ | + | |
- | \\ | + | |
- | - The same goes for Fn.\\ | + | |
- | \\ | + | |
- | In tracking mode you want the highest gain and Fn that allows the telescope to track well without fog-horning. If it " | + | |
- | \\ | + | |
- | Some final remarks:\\ | + | |
- | \\ | + | |
- | - The gain is temperature dependent, so when the temperature changes these things will change, but more so for tracking.\\ | + | |
- | \\ | + | |
- | - The tiptilt system almost never causes oscillations, | + | |
- | \\ | + | |
- If a drive gets disabled at the end of a slew, the gain is too low. At low gain and low velocity the encoder signal changes very slowly or doesn' | - If a drive gets disabled at the end of a slew, the gain is too low. At low gain and low velocity the encoder signal changes very slowly or doesn' | ||
Line 262: | Line 202: | ||
==== Dome does not rotate ==== | ==== Dome does not rotate ==== | ||
- | Sometimes when observing, the dome will not follow the telescope during a slew. This can happen when the Autodome feature is not turned on. Click the ON button on the MAIN tab of the telescope gui to enable it. This may happen after a server restart so always check the dome position with the spycam during a slew after a server restart. Also make sure the target position of the dome matches the telescope' | + | Sometimes when observing, the dome will not follow the telescope during a slew. This can happen when the Autodome feature is not turned on. Click the ON button on the MAIN tab of the telescope gui to enable it. This may happen after a server restart so always check the dome position with the spycam during a slew after a server restart. Also make sure the target position of the dome matches the telescope' |
- | \\ | + | If the dome does not turn at all, even with the manual controls on the telescope or dome guis, the control may be set to manual on the control box instead of computer. This can happen if there was work done at the dome during the day. If the dome opens, but does not turn, check the controller box just inside the door of the bunker. Sometimes the drive wheel jumps in the track and cannot turn the dome, even when the motor works. This will need to be fixed during the day. A fuse can also blow out in the dome control box and leave the dome stuck. |
- | If the dome does not turn at all, even with the manual controls on the telescope or dome guis, the control may be set to manual on the control box instead of computer. This can happen if there was work done at the dome during the day. If the dome opens, but does not turn, check the controller box just inside the door of the bunker. Sometimes the drive wheel jumps in the track and cannot turn the dome, even when the motor works. This will need to be fixed during the day. A fuse can also blow out in the dome control box and leave the dome stuck. | + | |
==== Dome does not open ==== | ==== Dome does not open ==== | ||
Line 270: | Line 209: | ||
Is the SPYCAM on and updating? An old image may show the dome is closed, but it has actually started to open. If the dome won't open, try hitting the SLIT CLOSE button on the telescope gui first. It may be that there was a computer or server issue and the computer thinks the dome is open already and won't allow it to open again. Hit the SLIT OPEN button to see if it works now. If it still won't open, go to the bunker and look to see if the power switch is on to the dome. It will be up and red if on. | Is the SPYCAM on and updating? An old image may show the dome is closed, but it has actually started to open. If the dome won't open, try hitting the SLIT CLOSE button on the telescope gui first. It may be that there was a computer or server issue and the computer thinks the dome is open already and won't allow it to open again. Hit the SLIT OPEN button to see if it works now. If it still won't open, go to the bunker and look to see if the power switch is on to the dome. It will be up and red if on. | ||
- | Also look to see if the power cable is connected to the computer box. If it's connected up high to the manual dome controls, the cable needs to be brought back to the computer box connector. __Turn the power off first,__ using the light switch with the red LED toggle, to the dome before disconnecting the power cable. Slide it onto the connector at the box and turn the collar to lock it in place. Turn the power back on and see if you can open the dome from the computer in the bunker. | + | Also look to see if the power cable is connected to the computer box. If it's connected up high to the manual dome controls, the cable needs to be brought back to the computer box connector. __Turn the power off first, |
==== Dome does not close ==== | ==== Dome does not close ==== | ||
Line 293: | Line 233: | ||
==== LabAO DM Electronics ==== | ==== LabAO DM Electronics ==== | ||
- | If a labao server complains that it failed to find the EDAC40 device, try unplugging the power and ethernet cables for DM and then replugging in again. | + | If a labao server complains that it failed to find the EDAC40 device, try unplugging the power and ethernet cables for DM and then replugging in again. The boxes for these are under the respective tables. |
===== OPLE and Metrology ===== | ===== OPLE and Metrology ===== | ||
Line 312: | Line 252: | ||
* Good metrology signals are important to the proper positioning of the carts. Monitor the signal strength by running [RUN MULTIPLE] on the Metrology Monitor. Place the windows above the TV windows for each scope you are using. They should show white sine waves that are around the height of the window. Erratic, fluctuating waves indicate self-interference or a weak signal. This may cause the carts to lose their place as the signal strength falls too low. Red waves indicate that some displayed signal has gone too low and the carts will all need to be homed. A careful adjustment of the MET2 mirror can sometimes bring the signal back. Do not adjust the MET1 mirror. | * Good metrology signals are important to the proper positioning of the carts. Monitor the signal strength by running [RUN MULTIPLE] on the Metrology Monitor. Place the windows above the TV windows for each scope you are using. They should show white sine waves that are around the height of the window. Erratic, fluctuating waves indicate self-interference or a weak signal. This may cause the carts to lose their place as the signal strength falls too low. Red waves indicate that some displayed signal has gone too low and the carts will all need to be homed. A careful adjustment of the MET2 mirror can sometimes bring the signal back. Do not adjust the MET1 mirror. | ||
- | * To home the carts, turn off the [OL] and [MAN] buttons on each cart and it will automatically return to the front switch. If the cart has no issue, it will arrive at the target position of 0m and the home switch at the same time. The X in the OPLE server under the HM will indicate it has stopped on the home switch. If a cart does not reach the home switch when it returns to position 0m, it was lost and likely the cause of the difficulty in finding fringes. The X does not guarantee the cart has retained its home position. This home position can be checked by using the CHECK button on the ople gui or by typing the command " | + | * To home the carts, turn off the [OL] and [MAN] buttons on each cart and it will automatically return to the front switch. If the cart has no issue, it will arrive at the target position of 0m and the home switch at the same time. The X in the OPLE server under the HM will indicate it has stopped on the home switch. If a cart does not reach the home switch when it returns to position 0m, it was lost and likely the cause of the difficulty in finding fringes. The X does not guarantee the cart has retained its home position. This home position can be checked by using the CHECK button on the ople gui. When a low error value is displayed on the ople server, |
===== Beam Samplers ===== | ===== Beam Samplers ===== | ||
- | ==== Beam Samplers are not moving ==== | + | ==== Beam Samplers are not moving |
This happens most frequently with the E1 beam sampler. If you are doing alignments and are using E1, try to move it forward first to see if it dies. If it does, follow this procedure. | This happens most frequently with the E1 beam sampler. If you are doing alignments and are using E1, try to move it forward first to see if it dies. If it does, follow this procedure. | ||
Line 359: | Line 299: | ||
==== " | ==== " | ||
- | Cosmic Debris reports " | + | Cosmic Debris reports " |
+ | The beam sample server runs on ctrscrut. The ople server tries to open a connection to the beam sampler when it starts. If the beam sampler is not there, or dies, \\ | ||
+ | you need to restart the ople server as there is no command to reopen that connection. | ||
===== Remote Observing ===== | ===== Remote Observing ===== | ||
Line 418: | Line 360: | ||
You can also look up different identifiers for the star by using the SIMBAD database: [[http:// | You can also look up different identifiers for the star by using the SIMBAD database: [[http:// | ||
- | DBADD uses SIMBAD to look up the coordinates of the star and then searches to see if the star is already in the CHARA database. If the star is in the database, it will return the CHARA number. If the star is not in the CHARA database, it will ask if you want to add it and assign a CHARA number if you answer yes. | + | DBADD uses SIMBAD to look up the coordinates of the star and then searches to see if the star is already in the CHARA database. If the star is in the database, it will return the CHARA number. If the star is not in the CHARA database, it will ask if you want to add it and will assign a CHARA number if you answer yes. |
If an object is not in SIMBAD (such as a recently discovered nova), then you must enter the object manually using the instructions below. | If an object is not in SIMBAD (such as a recently discovered nova), then you must enter the object manually using the instructions below. | ||
Line 426: | Line 368: | ||
Here is an example of how to find the CHARA number of a star, nova, or AGN that is already in the CHARA database: | Here is an example of how to find the CHARA number of a star, nova, or AGN that is already in the CHARA database: | ||
- | [ctrscrut: | + | [ctrscrut: |
+ | Object "NGC 4151" found as CHARA number: 320263 | ||
Note: If the target information stored in the CHARA database does not match SIMBAD, then dbadd will provide the coordinates and magnitudes listed in SIMBAD, and it will also list the CHARA numbers of objects in the database located within 10 arcsec. Please check these nearby entries before adding a new star to the database. | Note: If the target information stored in the CHARA database does not match SIMBAD, then dbadd will provide the coordinates and magnitudes listed in SIMBAD, and it will also list the CHARA numbers of objects in the database located within 10 arcsec. Please check these nearby entries before adding a new star to the database. | ||
Line 440: | Line 383: | ||
SIMBAD found this for "BD 41 3807": | SIMBAD found this for "BD 41 3807": | ||
- | ID 2MASS_J20340850 4136592 \\ CHARA 320414 \\ 2000.0 \\ CAT8 2MASS_J20340850 4136592 \\ RA 20 34 08.5148 \\ DEC 41 36 59.408 \\ PMRA -2.32 \\ PMDEC -3.87 \\ PAR 0.58 \\ RVEL -27.50 | + | ID 2MASS_J20340850 4136592 \\ |
+ | CHARA 320414 \\ | ||
+ | 2000.0 \\ | ||
+ | CAT8 2MASS_J20340850 4136592 \\ | ||
+ | RA 20 34 08.5148 \\ | ||
+ | DEC 41 36 59.408 \\ | ||
+ | PMRA -2.32 \\ | ||
+ | PMDEC -3.87 \\ | ||
+ | PAR 0.58 \\ | ||
+ | RVEL -27.50 | ||
- | VMAG 10.03 \\ HMAG 6.23 \\ KMAG 5.99 \\ SP O5.5Ifc \\ END | + | VMAG 10.03 \\ |
+ | HMAG 6.23 \\ | ||
+ | KMAG 5.99 \\ | ||
+ | SP O5.5Ifc \\ | ||
+ | END | ||
- | Is the above the object you are looking for? [y/n] y \\ Added "BD 41 3807" to the database. | + | Is the above the object you are looking for? [y/n] y \\ |
+ | Added "BD 41 3807" to the database. | ||
In the example above, the object "BD 41 3807" has been added to the database as CHARA number 320414. | In the example above, the object "BD 41 3807" has been added to the database as CHARA number 320414. | ||
Line 454: | Line 411: | ||
The command dbadd -m is used by entering the star name and coordinates in this format: | The command dbadd -m is used by entering the star name and coordinates in this format: | ||
- | Usage: dbadd -m < | + | Usage: dbadd -m < |
+ | < | ||
+ | <RA> : XXhXXmXX.X or XXhXX.X (no spaces) \\ \\ | ||
+ | <Dec> : XXdXXmXX.X or XXdXX.X (no spaces) \\ \\ | ||
+ | There are cases where an object is not in SIMBAD and doesn' | ||
**Binary stars** | **Binary stars** | ||
Line 466: | Line 427: | ||
==== Adding an anchor to the wiki page ==== | ==== Adding an anchor to the wiki page ==== | ||
- | To add an anchor to the wikipage, type the following where you want the anchor inserted (without the spaces between the symbols): \\ [ [ #AnchorName ] ] | + | To add an anchor to the wikipage, type the following where you want the anchor inserted (without the spaces between the symbols): \\ |
+ | [ [ #AnchorName ] ] | ||
Highlight the text you want to be a link to the anchor, click the link symbol above and select anchor. Select a page(such as Trouble Shooting) where the anchor is located and give the same name for the anchor. | Highlight the text you want to be a link to the anchor, click the link symbol above and select anchor. Select a page(such as Trouble Shooting) where the anchor is located and give the same name for the anchor. | ||
Line 474: | Line 436: | ||
Follow instructions in the [[: | Follow instructions in the [[: | ||
- | \\ Last updated 2023-02-09 by Norm Vargas | + | \\ |
- | + | Last updated 2023-02-09 by Norm Vargas | |
- | + | ||
- | ==== Dome Server Restart ==== | + | |
- | + | ||
- | Dome servers are now started using the bootlaunch_master command. The manual process that has been superceded is archived. | + | |
- | + | ||
- | To restart the dome server: | + | |
- | + | ||
- | 1. Make sure the power to the drives is OFF. Disable the scopes. | + | |
- | + | ||
- | 2. Login to the relevant computer as observe. For example, type " | + | |
- | + | ||
- | 3. Work out the process ID number (PID) by typing bootlaunch_master | + | |
- | + | ||
- | 4. Use kill -2 PID to kill the server. Entering the command twice will show "No such process" | + | |
- | + | ||
- | 5. Type bootlaunch_master again to restart the server. | + | |
- | + | ||
- | 6. Turn the power to the drives back on. | + | |
- | + | ||
- | 7. Hit REOPEN and ENABLE on the domegtk, and type " | + | |
- | + | ||
- | You may have to reinitialize the scope on a bright star. If the powers were turned off quickly when the problem was noticed, the position of the scope should be retained and slewing to a bright star will get it in the finder. If not, you may need to go out to the telescope to find the bright star to reacquire the scope' | + | |
- | + | ||
- | Be aware that when restarting a dome server, the telescopes position may not be retained and the dome gui may display Az: 0.0. El: 0.0. The gui will scroll messages that say Az: 0.0. El: 0.0 with an error in scope position. If the scope is known to be at STOW position, you can manually enter the scope' | + | |
- | + | ||
- | Also be aware that the gains do not always return to the normal values of Slew 4-7 and Tracking 7-10 when a dome server has crashed and is restarted. They may come up as Gain 22 for all axes and modes and they will need to be turned down or the scopes will oscillate badly. | + | |
==== Telescope is not receiving the commanded position for a target. ==== | ==== Telescope is not receiving the commanded position for a target. ==== | ||
Line 602: | Line 538: | ||
* This will install run_ople. Try opening the ople server again. | * This will install run_ople. Try opening the ople server again. | ||
- | ==== Metrology and Homing carts ==== | + | ==== Homing carts ==== |
- | * Good metrology signals are important to the proper positioning of the carts. Monitor the signal strength by running [RUN MULTIPLE] on the Metrology Monitor. Place the windows above the TV windows for each scope you are using. They should show white sine waves that are around the height of the window. Erratic, fluctuating waves indicate self-interference or a weak signal. This may cause the carts to lose their place as the signal strength falls too low. Red waves indicate that some displayed signal has gone too low and the carts will all need to be homed. A careful adjustment of the MET2 mirror can sometimes bring the signal back. Do not adjust the MET1 mirror. | ||
* To home the carts, turn off the [OL] and [MAN] buttons on each cart and it will automatically return to the front switch. If the cart has no issue, it will arrive at the target position of 0m and the home switch at the same time. The X in the OPLE server under the HM will indicate it has stopped on the home switch. If a cart does not reach the home switch when it returns to position 0m, it was lost and likely the cause of the difficulty in finding fringes. The X does not guarantee the cart has retained its home position. This home position can be checked by using the CHECK button on the ople gui or by typing the command " | * To home the carts, turn off the [OL] and [MAN] buttons on each cart and it will automatically return to the front switch. If the cart has no issue, it will arrive at the target position of 0m and the home switch at the same time. The X in the OPLE server under the HM will indicate it has stopped on the home switch. If a cart does not reach the home switch when it returns to position 0m, it was lost and likely the cause of the difficulty in finding fringes. The X does not guarantee the cart has retained its home position. This home position can be checked by using the CHECK button on the ople gui or by typing the command " | ||
+ | |||
+ | ==== Metrology ==== | ||
+ | |||
+ | * Good metrology signals are important to the proper positioning of the carts. Monitor the signal strength by running [RUN MULTIPLE] on the Metrology Monitor. Place the windows above the TV windows for each scope you are using. They should show white sine waves that are around the height of the window. Erratic, fluctuating waves indicate self-interference or a weak signal. This may cause the carts to lose their place as the signal strength falls too low. Red waves indicate that some displayed signal has gone too low and the carts will all need to be homed. A careful adjustment of the MET2 mirror can sometimes bring the signal back. Do not adjust the MET1 mirror | ||
+ | |||
+ | Steps for adjusting MET2: | ||
+ | |||
+ | - Looking at the met signal while the cart is at the back. | ||
+ | - Peak so that the beam is aligned as well as possible. Does not need to be perfect but not loose. | ||
+ | - All beams have a signal between 1-2 volts while at the back. Sometimes the signal strength can change for no apparent reasons. | ||
+ | - Using steps of 50, try moving 3 times in one direction. After each step, wait 5 seconds or so for things to update. If nothing then try the other way. | ||
+ | - Return to starting position. | ||
+ | - Repeat for the other axis. | ||
===== Beam Samplers ===== | ===== Beam Samplers ===== | ||
Line 790: | Line 738: | ||
\\ | \\ | ||
- | Last updated | + | Last updated |