Liquid Bearing Tube Rotor Control Thermal Guidance for Hot landing prevention

1 Heat exchanger cooling circuit

It is essential to fix any heat exchanger and pump cooling circuit issues prior to the installation of liquid bearing tube. The following errors are indications of a faulty cooling circuit and are safety switches that need resolution when they occur. Follow PSDB instructions for resolution.

• Error: 260118275 (110-0903) Tube casing temperature has exceeded 92 degree C.

• Error: 260118260 (80-1422) Overpressure or Blown fuse.

2 Tube temperature

1. Check tube temperature before performing a system shutdown, a system restart, or any service procedures.

   Recommand stop the rotor in blue or yellow TubeCare zones. It also can stop rotor if less than 1:15 in green zone.

   

   note: Time remaining in a given zone is shown in that box.

2. For remote service use the following methods to check tube temperature:

   • Use rotor_ctrl -temp command to show current Tube temperature.

   • Check /usr/g/service/log/tubeTemp.csv for the Tube temperature logged every 1 minute. Find the latest temperature.

3 Tube rotor status

1. Check rotor status before performing any of the following procedures that stop the rotor.

   In tool:

   • rotor_ctrl –stop

   • DAS tools: following submenus.

     Auto test, Manual tests, Power off

   • Diagnostic Data Collection: following submenus.

     Static or Rotating X-Ray Off: Rotor Override - default/off

   • System Reset – Scan

   • Restore System State of Characterization.

   • KV Diagnostics: following submenus.

     Inverter Short Circuit, Inverter Gate Command, Heater Diagnostics, Fan Diagnostics, Rotor Diagnostics, Meter Verification, No Load kV, Initialize Database, Save & Restore Runtime Parameters

   Out of tool:

   • PDB off with System shutdown

   • HVDC switch off at Gantry Service switch panel

   • Gantry Balance tool

   • FRDM Wizard tool

   • FLASH Download tool

   • Application shutdown / Application restart through “st” command

   note: A HVBAT data pull does not stop the rotor and can be used without rotor damage.

2. Check rotor status using one of the following methods:

   • Use command line “rotor_ctrl -status”. (Refer Rotor Control Tool with LB Tube - Command)

   • Check “HVDC On” light on the service panel (see picture). If the HVDC On LED is lit the rotor and high voltage are on.

   Figure 1. LED of HVDC Switch

   

3. If the rotor is on and needs to be stopped, follow the procedure below to properly stop the rotor (Refer to Rotor Control Tool with LB Tube - Command or Rotor Control Tool with LB tube - GUI (20BW25.x or Later) for additional details):

4 System operation

Follow the recommended tube installation and calibration sequences below:

1. Perform Filament calibration, HHS Scans, and Hot ISO Alignments AFTER gantry cover installation to prevent hot landings.

2. Perform PM cleaning tasks before any calibrations or system scanning.

Follow the recommended system operation below:

1. An emergency stop shall only be used in emergency situations.

2. A console shutdown is recommended because it includes a low speed cooling delay of 30 minutes prior to stopping the rotor. There is no external indication that high voltage remains so do not remove main power until the 30 minutes’ delay is complete.

If a rotor has mistakenly been stopped while in the green TubeCare zone, take the following actions:

1. Within 90 seconds of stop event: Use “rotor_ctrl -start” command line (Refer to Rotor Control Tool with LB Tube - Command).

2. After 90 seconds of stop event: If rotor needs to be started, wait 15 minutes with heat exchanger running prior to starting the rotor.

Following the Tube change, the “Restart” after CSD/Replacement/New Tube Config serial number change will automatically restart the rotor.