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FEBs must not be powered without cooling: MPOD trips and does not start if FEB flow switch is below setpoint.
SVT must not be cooled without dry air: SVT chiller setpoint is reset at 20 C unless dry air dewpoint is below setpoint.
SVT must not be powered without cooling: MPOD trips and does not start if SVT chiller doesn't respond to RS-232 or is not running.
Over Twitter: Report system status (every 10 minutes) to twitter.com/hpsbot, and failures (as they happen) to twitter.com/heavyphoton. People can subscribe to text messages from either Twitter feed.
Logging: all system variables, to ~/interlock/log on hpstracker at 1-second intervals.
RS-232 commands sent by the PC are relayed to one of the chillers depending on first character: "Sstatus" sends "status" to the SVT chiller, "FRG" sends "RG" to the FEB chiller, etc.
Inputs:
Thresholds:
Logic:
Outputs:
Check dry air is flowing, and all interlock inputs are plugged in. Both chillers and MPOD should be powered but not running. Interlock board should be off.
Start EPICS controls. Verify that MPOD channels cannot be turned on with the interlock board off.
Set SVT chiller setpoint using its touchscreen. When done, switch to remote RS-232 control (Menu->Connect Unit->Remote control). Verify watchdog is enabled (Menu->Connect Unit->Digital Interfaces).
Start FEB chiller and adjust setpoint, then stop the chiller.
Turn on the interlock board. Green LED should turn on immediately; MPOD trip LED (third from top) should clear as chillers start. The other LEDs should stay off.
Turn on MPOD channels through EPICS.
In a screen session, start the Arduino monitor script on hpstracker ("~/interlock/arduino_monitor.py /dev/ttyS0 9600"). It should send an initial status tweet.
Open the interlock board's enclosure and flip the switch on the interlock board to the "BYP" position to bypass the MPOD interlock.
Unplug the RS-232 cables for any chillers you don't want to run.
Turn on the interlock board. The top three LEDs (green, yellow, red) on the interlock board should be on.
Turn on MPOD channels through EPICS.
Take the SVT chiller off of remote control (Menu->Connect unit->Remote control). Check the setpoint and make sure it's what you want.
Turn off the interlock board and chillers, in any order. This should trip the MPOD.
Stop the Arduino monitor script on hpstracker.
Flow switch trips -> interlock trips MPOD. This interlock is independent of the Arduino, and the MPOD will trip if the interlock board loses power or the flow switch is unplugged.
Arduino monitor script will tweet a "no status received" error after a timeout (10 sec).
SVT chiller will go to a noncondensing temperature (20 C) after 30 seconds, protecting the SVT from dry air failure.
FEB will still be protected: FEB flow interlock is independent of Arduino, so FEB chiller shutdown will still trip the MPOD.
SVT will not be protected from SVT chiller trip. Unlikely coincidence.
Power loss on the interlock board will remove the "MPOD enable" signal, shutting down the MPOD.
Arduino is powered from the interlock board, so Arduino monitor script will tweet a "no status received" error after a timeout (10 sec).
SVT will not be protected from a dry air failure. Not likely.
Chiller status will indicate a trip, or chiller will not respond to RS-232. In either case, the MPOD will trip.
Coolant leak
Both chillers have low level protection; a leak in either loop will stop that chiller, and the interlock will stop the MPOD.
Flow switch failure
Unplugging the flow switch, or a break in any line of the flow switch cable, will trip the MPOD.
Top (green): power on/MPOD enable - should always be on
#2 (yellow): MPOD interlock bypassed (controlled by switch on interlock board)
#3 (red): MPOD trip signal (OR of flow switch trip and Arduino output) - this trips the MPOD unless the interlock is bypassed
#4 (red): dewpoint not OK (this is an Arduino output)