This is an old revision of the document!
Streamlined Warm Startup / Dec 2, 2019 / P Gabor, M Franz et al. | ✔✘ | |
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Before you get started it is always a good idea to check the weather | ||
Local Weather Station | ||
National Weather Service Forecast | ||
http://10.0.1.12:7680/3hours.html at VATT | ||
Once every few days it is prudent to reboot VATTtel | ||
Control room | Kill TCSglue if running; ensure that M2 Controller is disconnected; kill all GUIs (if any) | |
TCS room | Make sure that M2 PI Controller is off | |
TCS room | Reboot VATTtel: if VATTtel is running, press tiny “Reset” button, wait for the green “Run” and “Pass” LEDs. The old Guider will not be found. | |
TCS room | Booting VATTtel: if VATTtel is not running, power it on after checking that GPS is on. Also note that prior to booting, VATTtel requires VATTdata server to be running. PEPSI only: These are the servers that need to be running: VATTdata, VATTcontrol, VATTautoguide, VATTdev, VATTOCS, VATTarchive, PEPSI. | |
TCS room | Watch VATTtel monitor to make sure that the kernel loads from network server | |
This streamlined version assumes there is no time to turn the thermal system on for a couple of hours before opening VATT. If there is time, use the other checklist | ||
everywhere | Shutter all windows with blackout shades and curtains | |
TCS room | after VATTtel boots up, turn on the M2 PI Controller (just flip the switch and leave; it takes a while to boot up; you will check that it has done so later) | |
Control room | @ VATTCONTROL (console) while logged in to vattcontrol as vattobs | |
Control room | Start TCS_GLUE (double click desktop icon) | |
Control room | TCSglue main window: Make sure dome tracking is enabled (left-clicking on the dome-position field toggles between tracking enabled/disabled) | |
Dome | Dome procedures | |
Dome | Open dome register vents (there are four pairs of them) | |
Dome | Remove Dome Short | |
Dome | Open dome shutters (slit) manually [you may prefer the alternative1)] about half way: at quad box on curved wall below the dome short installation position plug dome into the power socket (note on safety: this ensures dome short is out: tether attached to cord); operate the dome shutters by turning the control button on the electric box on the silo wall to the SE; stop the opening about half way by unplugging the power cord; this keeps the sun off the secondary barrel | |
Dome | West door (leading to ladder to the roof) is to remain closed (for efficient airflow over the telescope) | |
Dome | VATT 4k CCD Imager only: start filling science camera dewar with LN2 | |
Dome | VATT 4k CCD Imager only: fill out LN2/camera log – listen for full dewar, cease flow when dewar is full | |
Dome | Check dome home position and if necessary, correct it by lifting the encoder wheel, spinning it about ½ - turn (usually clockwise as viewed from the top) and immediately setting the wheel back down, into contact with the abrasive surface. Watch dome position until it settles down (usually overshoots at least twice, at varying velocities). | |
Dome | Check derotator position (home switch magnet is showing, near sensor, to its right); check cable wrap is not twisted | |
Dome | Check dome shutters are plugged into the wall power socket (if the dome shutters were left half way open, they will finish opening fully) | |
Dome | Turn on power supply of finder telescope camera (on top of box on South side of East fork) | |
Dome | Open finder telescope objective cover (CAUTION: check for snow on dome shutters if needed) | |
Dome | Open the new finder telescope objective cover | |
Dome | Andor Apogee guider camera power supply (a white inline electric switch mounted on the N side of the “guide box”): Turn power “ON” | |
Dome | VATT 4k CCD Imager only: disconnect LN2 filler hose from camera dewar, move storage dewar off of telescope platform and south, to dome silo wall) | |
Dome | VATT 4k CCD Imager only: remove camera ground wire and clip it on silo, near storage dewar | |
Dome | Disengage stow pins (~100 on LCD readout), note telescope is south heavy if mirror cover is closed (which it should be), and must be raised slightly in elevation towards zenith with hand pressure, until marks align. Failure to do this usually binds stow pins, resulting in failure of pins to fully release. | |
Dome | Check azimuth axis “home” (pointers best visible from lower level by the entrance to dome) | |
Dome | Check AZ hard stop flippers are showing green sides north (manually flip if not) | |
Dome | Make sure West door (leading to ladder to the roof) is closed and locked for safety reasons (a person on the roof could get swept down by the rotating dome's shutters) | |
Dome | Check all lights off (except for the floodlight operated from Control Room) and close door to elevator vestibule when leaving | |
Dome procedures complete | ||
Basement | Basement procedures | |
Basement | USE HEARING PROTECTION PROVIDED IF STAYING TO OBSERVE OPERATION OF PUMPS (muffs are by light switch) | |
Basement | Check dry air supply system dew point (typ. ~ -47°F; now tends to be 10°F warmer) | |
Basement | Turn on building & pier fans | |
Basement | STEP ONE (labeled as such): Pull out red switch, upper left corner of control box | |
Basement | After recirculation pump starts, check flow meter by oil tank | |
Basement | Check that one chiller is “ON” (green indicator) (alternates between chillers #1 & #2, each on/off cycle) | |
Basement | Check oil temp set point (61°F) | |
Basement | Check oil temp actual (should rise immediately after recirculation pump starts, then settle at or very slightly above set point) | |
Basement | Check oil level light “OK” (if it's going to go out because of low oil level, it will do so after recirculation pump and/or pressure pumps have been started. May come back on after more running, as oil returns from azimuth bearing) | |
Basement | STEP TWO (labeled as such): Rotate pumps switch clockwise to “ON” | |
Basement | Check low side (feed pump) pressure rising | |
Basement | WAIT FOR HIGH PRESSURE PUMP TO START | |
Basement | Check high pressure side: pressure and flow “OK” after running awhile | |
Basement | Hydrostatic-bearing oil system active | |
Basement procedure complete | ||
Silo 2nd lvl | NESLAB: First night of the run check coolant level; not necessary on following nights, unless there is a visible leak. [Access hatch is on the top of the cabinet, at the far left. Under the hatch is the hatch into the coolant reservoir, removable with two captured thumbscrews. Coolant should cover the visible, coiled pipes. DO NOT ADD COOLANT WITHOUT CONSULTING THE DAY CREW (Gary Gray): it is better to run with the coolant slightly low (i.e., ~1/4 of the diameter of the top, coiled pipe exposed) than to put the wrong coolant mixture into the reservoir.] | |
Silo 2nd lvl | Turn NESLAB on only if VATTtel is already booted so that you can turn cell fans and thermal control on without undue delay | |
Silo 2nd lvl | NESLAB: Simultaneously toggle front panel ON/OFF switch to “ON” & slowly raise manual valve lever (to minimize vibration) | |
Silo 2nd lvl | NESLAB: Also simultaneously: watch pneumatic-actuated valves “OPEN” | |
Silo 2nd lvl | NESLAB: Check pressure gauge (usually well above the nominal 56 psi) | |
Turn on M1 cell fans: Legacy TCS glue does not control the cell fans anymore. When in doubt, send co-observer to listen in the Dome to make sure that the cell fans will be turned on correctly because the only confirmation available will be their sound. Listening at the East fork is best. | ||
TCS room | Flip the switch on the quad to turn M1 cell fans on. A night light connected in parallel will light up to indicate that M1 cell fans are now powered up. | |
TCS room | Toggle power switches “ON” DOME amplifier (fan will start, and amps will show on LCD readout) | |
TCS room | M2 PI Controller: make sure it is on by checking the status LEDs | |
TCS room | Check both toggle switches on clear panel under VATTtel keyboard are toggled down | |
TCS room | Turn on VATTtel monitor and check for error messages | |
TCS room | Toggle power switches “ON”: AZ, EL & DEROTATOR amplifiers (should see some values on dome current (ampere) readout; the rest are dead) DO NOT POWER UP COUNTERWEIGHTS AMPLIFIER | |
TCS room | Turn off light | |
TCS room | Make sure bellows door is fully open after leaving the room | |
2nd lvl lobby | Close doors to silo and to the instrument room (air flow management) | |
Control room | Turn on the intercom (pressing the leftmost button, marked “1”; it must be tapped lightly sometimes to get sound) | |
Control room | Turn on the main dome fan (green button on a strip to the right of the SW balcony door); adjust the speed to 8 by turning the knob on the top of the strip counter-clockwise to the limit (yes, 0 = the highest speed); listen to sound of proper operation over the intercom | |
Control room | MOUNT CONTROL tab: Wait for “NESLAB is On” to appear | |
Control room | THERMAL tab: note temperature differential (strut & mirror) | |
Control room | THERMAL tab: radio button “ON” (do not use setpoint; setpoint to be used EXCLUSIVELY to change mirror temperature fast in time-critical situations ⇒ CLOSE SUPERVISION REQUIRED) | |
Control room | MOUNT CONTROL tab: Press “Open Slit” button (no action will ensue because the dome shutters are not powered yet but VATTtel will toggle into the state corresponding to your earlier manual action) | |
Control room | Turn big fan down to speed 8 (knob on top of strip to the right of SW balcony door), to make the dome comfortable for procedures to be carried out there, and later, when conducting startup procedures in the control room, to hear the sounds from the dome better over the intercom | |
Control room | TCSglue main window: turn on dome tracking | |
Control room | TURN ON VIDEO MONITORS for the old FinderScope and Porch Sky Camera, dome flood light (left of the SW balcony door) | |
Control room | Enable LiveView from the Dome Camera 2) | |
Control room | Enable LiveView from the new FinderScope 3) | |
Control room | Enable live view from the Axis thermal IR P12 camera 4) | |
Control room | Mandatory for remote operation: check that Skype is running on the Samsung Galaxy Tablet A using the Skype username and password listed on the intercom unit | |
Control room | PEPSI only: At the easternmost xterm, log in to vattarchive as vattobs | |
Control room | PEPSI only: Open an xterm and start the VNC viewer using this command: vncviewer –via ajarvinen@ssh.lbto.org –shared –viewonly 192.168.164.19:1 (pressing the “Up” arrow at the command prompt should load this stored command). Enter password (posted on the bottom of the xterm monitor) when prompted. | |
Control room | PEPSI only: At the xterm closest to the old printer, log in to vattarchive as vattobs (OK to have two logins of same operator on this machine). In menu bar at top of vattarchive desktop start Firefox, hover near the top of the display to lower the title/URL bar enough to access, and use address bar drop-down history to open http://10.0.2.11/local/viewer/axisvid.html; click on All Sky window, then make Firefox full-screen by pressing F11 (not necessary if Firefox was left in full screen mode when last shut down). | |
Control room | MOUNT CONTROL tab: Make sure dome shutters (slit) are open (visual inspection via Dome camera). If they are closed, press Open Slit , listening for sound of proper operation over the intercom. | |
Control room | MOUNT CONTROL tab: Open mirror cover, listening for sound of proper operation over the intercom | |
Control room | MOUNT CONTROL tab: Enable drives (automatically releases brake: listen over intercom) | |
Control room | TCSglue main window: Enable Derotator tracking if disabled: click on the derotator position field, opening a small dialog box, and toggle the tracking there, then close dialog box | |
Control room | DO NOT “Calibrate” | |
Control room | PEPSI only: TCSglue main window: during PEPSI runs, disable derotator tracking | |
Control room | If applicable, right mouse click on the dome-position field opens offset input dialog box. Enter inputs and watch dome movement (floodlight on). Kill dialog box. | |
Control room | Start “Secondary and Guidebox” GUI. A window opens: select VATT4k or VATTSpec. Another window opens. The top controls the M2 PI hexapod and the bottom controls various motors in and on the Guide box. | |
Control room | Start autocollimation (more detailed instructions are in a separate document): Press <Connect> button; field surrounding button should turn green; press <Reference> button; field surrounding it turns yellow(ish); wait for it to turn green; press <Auto Collimate> button; hit <enter> in Focus, TipX, and TipY boxes, to move secondary to previous night’s final positions | |
Control room | Connect the Guidebox part of the GUI to the hardware by pressing the <Connect> button. | |
Control room | Start INDI server (double click desktop icon): a terminal appears; you may minimize it | |
Control room | Start PHD2 (double click desktop icon): your main reference should be a separate dedicated document; instructions that follow here are simplified | |
Control room | PHD2: Main tool bar, click icon that looks like a USB male connector: connect equipment window appears | |
Control room | PHD2: connect equipment , in the camera row, click on the icon that looks like a screwdriver and wrench in an “X”: INDI Configuration window should appear | |
Control room | PHD2: INDI Configuration window: click the INDI button near the bottom of the window: INDI options window appear | |
Control room | PHD2: INDI Options window: select Apogee CCD tab, check network settings (the correct ones are on a blue Post-It at the bottom of the monitor), and click the connect button in the Connection field: after a few seconds, a bunch of new fields and tabs appears. (The message “[ERROR] Model is not supported by the INDI Apogee driver” may mean that the camera is not powered up.) Set binning to 8×8 and check that the cooling system is on. | |
Control room | PHD2: Close the two INDI-related windows. Back in the Connect Equipment window click the Connect buttons for Camera and Mount . Ignore error message, “Bad-pixel map does not match camera…” If the Mount does not connect the first time (there may be an error message), try clicking the “Connect” again. | |
Control room | Start XEPHEM (double click desktop icon) | |
Control room | XEPHEM: main window: click “Now” on top right and “Update” in bottom bar, then toggle the small “RT” button to the right of Looping 5); check that the bottom bar says Stop | |
Control room | XEPHEM: If applicable, “Data” menu: Load/delete local files | |
Control room | XEPHEM: If applicable, dialog box/“filter” field: ENTER PATH TO USER FILES | |
Control room | XEPHEM: Make sure that XEPHEM communicates with the telescope: In the “Telescope” pull-down menu, select “INDI Panel”, which opens, and then toggle “Connect” at the panel's bottom. Check that there is a graphical representation of the telescope's position (bull's eye) in the SKY VIEW chart. | |
Control room | XEPHEM: SKY VIEW window: We used to click grid control (under Images menu) twice, turning RA–DEC grid off and then Alt–Az grid on. This does not seem to work anymore. In the “Control” pull-down menu select “Options”, which opens a new window, and toggle “Alt-Az” at the top left of the window. | |
Control room | First initialization of coordinates can be performed shortly after sunset, using a bright star (<2mag) near the meridian. | |
Control room | XEPHEM: SKY VIEW window: Find a bright star near the meridian, at Elevation 30°-60°; based on RA and DEC, picture 1st move in ALT–AZ telescope will make; after selecting star in Sky View window, hit “Telescope GoTo”; WATCH telescope to see whether it is moving as envisaged. BE READY with software stop (hover mouse over “STOP” button); Watch for target star on the finder telescope monitor.6) | |
Control room | Watch the telescope behavior immediately after commanding the motion, to make sure the motion seems to be appropriate and that the telescope is not accelerating to slew-speed, non-commanded co-ordinates (i.e., “running away”). | |
Control room | If the telescope runs away (an exceedingly rare phenomenon), immediately click the red Stop button at the top of the TCS Information Window. If the telescope still continues to accelerate, hit the red Emergency Stop button on the console, to your right, above the phone. | |
Control room | Paddle: push telescope until object is in grease pencil cross-hairs circle | |
Control room | TCSglue main window: Left-click the Init. coords. button (this can be done at any point, and more than once) | |
Control room | Turn up the main dome fan to speed 6 (strip to the right of the SW balcony door) | |
Control room | turn intercom down | |
Control room | Start Trouble Report (TRVATT): In menu bar at top of vattcontrol desktop, start Firefox; Trouble Report page will open (https://cbtest.as.arizona.edu/mtnops-trouble-report/). Open new tab in Firefox, and open VATT Weather Dashboard from Bookmarks bar. Click 3 Hours tab. Fill in pertinent fields along top (Observer(s), Instrument, Operator(s), etc.). | |
TELESCOPE “Go Live” SEQUENCE COMPLETE | ||
Control room | It is highly advisable to collimate the telescope using a star in the vicinity of your science target field. | |
Control room | If applicable, WATCH telescope to see whether it is moving as envisaged. BE READY with software stop (hover mouse over “STOP” button). | |
Control room | XEPHEM SKY VIEW WINDOW: Identify a collimation object (magnitude < 7). Use XEPHEM GoTo function. | |
Control room | Paddle: Jog selected object into finder telescope monitor cross hairs | |
Control room | TCSglue main window: Init co-ords (do this again because it will improve localized pointing: collimation object is in the vicinity of the science target) | |
Control room | Check/optimize telescope focus with science instrument prior to collimation | |
Control room | “Autocollimation” must be running throughout the collimation & focusing procedure! | |
Control room | Adjust focus with Secondary GUI, taking an exposure with the science camera, and when using the 4k CCD Imager, evaluate the distribution curve fit in IRAF xgterm | |
Control room | Guidebox GUI: insert Center field pickoff mirror | |
Control room | Use PHD2 to observe the object. If the image is noisy, you may need to check whether PHD2 is correctly processing the image. Open the Darks pull-down menu and select Use dark library . A tick-mark appears to the left. Refer to PHD2's help files. | |
Control room | Paddle: push collimation object to center of guider monitor @ rate of 5 sec/sec. DO NOT USE GUIDER STAGES TO CENTER OBJECT. | |
Control room | Guidebox GUI: defocus to obtain “donut” (offset -30) | |
Control room | Secondary GUI: adjust TipX, TipY to even out light distribution in “donut”, re-centering object with paddle | |
Control room | Guidebox GUI: refocus (eliminate/adjust offset; it will be a value close to 0) | |
Control room | Guidebox GUI: select U-mirror | |
Control room | Check/optimize telescope focus with science instrument (after collimation) | |
Collimation & focusing completed | ||
Control room | Select target and use XEPHEM GoTo function. Monitor the telescope motion during slewing. | |
Control room | Use Paddle to center target in the Finder | |
Control room | VATT 4k CCD Imager only: Take image with main science camera to check the field; use paddle to adjust; re-initialize coordinates as required | |
Target acquired | ||
Control room | Instructions for guiding are provided in a separate document. Briefly, once you have a guide star, click on it. A yellowish frame appears. Open the Tools pull-down menu, select Modify calibration > Clear calibration data , answer in the affirmative when asked whether you know what you are doing, and click on the green Guide icon in the main tool bar. PHD2 will perform a calibration of the corrective motions and start guiding. | |
Control room | IRAF In order to work with multi-extension fits files in IRAF, load mscred in IRAF (typing mscred ), and use mscexam command to interact with ds9 (rather than imexam). |