| Miniproposals | ||||||||||
|
| Operators | |
| Session leader(s): | Robert Granetz |
| Physics operator(s): | Steve Wolfe |
| Engineering operator(s): | Gary Dekow |
| Engineering Operator Run Comment |
| MP#371: 2MA Operation at 8T; SL: Granetz; PO: wolfe; EO:Dekow/Byford/Par |
| Session Leader Plans |
| Physics Operators Plans |
| Session Leader Summaries |
| Entered: Jul 7 2004 03:49:05:083PM |
| Author: Robert Granetz |
| Run summary for run 1040428 (Wednesday): MP 371 -- 2 MA operation at 8 T Session leader: R. Granetz/J. Irby Physics operator: S. Wolfe Summary: We got to 2.0 MA on shot 1040428017 for a flattop length of 0.43 s. It disrupted partway into the rampdown. Shot 1040428011 also reached 2.0 MA, although it disrupted shortly after reaching that current. Shot 1040428007 was a full-length 1.7 MA discharge, and shot 1040428008 was a 1.8 MA discharge that disrupted. The current rampup had to be carefully tuned to avoid pushing the OH's to their voltage rails. We found that the rampup rate varied during the day, which made things difficult. We also had a large number of fizzles...not surprising given the high current disruptions. No problems with locked modes. The entire MP was run without any RF. Halo currents were in the 100-140 kA range. These high current shots had many small molybdenum injections. ------------------------------------------------------------------------------- Run Plan (prepared by S. Wolfe): 1) Start with a repeat of 1040427002 (RF optional) to confirm that everything is working and check TF instrumentation. 2) When ready, load seg1 from 1040427004, seg2 from 1021108023 (1.7MA,7.9T,nl4=1.3) In seg2: Shorten TF waveform to rampdown from 1.3sec (Note Ip EOF=1.2sec) Draw Acoil waveform to 3500A (should get 3000A); start flattop at 0.4sec. Edit bolofeed controller to get rid of pg5 In Seg1: Copy TF waveform from seg2 to seg1 Confirm PLC TF limit at 230 kA and TF start at t=-1.5 s Run this shot and: Check for q95 value, shape, power supply railing, etc. If running out of volt-seconds, have RF turn on P<2.5MW and enable PG2 (He3) puff with 60 msec puff (or best value from previous experiments). Adjust shape for strike points, and to project q95>3 at 2MA Note current in EF3 and EF4 and extrapolate to 2MA. If necessary, try adjusting shape to require less EF3 (higher triangularity, for instance). Verify lack of locked modes, and adjust Acoil as appropriate(?) 3) Raise Ip to 2MA, adjusting Acoil programming if needed. If it runs, declare the PEA accomplished. Otherwise, tweak until it does. 4) Though not required by the PEA, we do have an old milestone that calls for 0.5sec flattop, so we should try to meet that. This may require extending EOF to 1.3 sec; we can also move the Ip gain switch earlier (it is presently at 0.65sec, and can be seen on 1021108023 as the small step up in current at that time. It would be also be good if we could get the plasma to ramp down from 2MA. If time permits, work on this. It would also be good to do some RF heating, even if we didn't need to use it to get the flux consumption down. The following items need to be monitored throughout the run (1) locked mode diagnostics (2) halo currents and Ih*Bt product on disruptions (3) TF, OH, and EF instrumentation If locked modes appear, we have the option of raising the plasma density, in addition to the A-coil current, depending on how successful the RF is at heating the plasma. ------------------------------------------------------------------------------- Shot 01 -- Plasma. Fiducial shot, just to confirm that everything's working. 5.4 T, 1.0 MA. All OK. Next shot: 8 T, 1.7 MA, typical SNL shape Shot 02 -- Plasma. Disrupted early, at t=0.38 s. Ipmax=1.1 MA. Current and Te are falling after t=0.28 s. nl_04=1.5e20 m-2. Next shot: reduce nl_04 to 1.0e20 m-2. Shot 03 -- Plasma. Disrupts at t=0.57 s, 1.5 MA. These shots divert very early, then go back to being inner wall limited. This plasma went vertically upward. OH1 is hanging around crossover for a long time (same on previous shot too). Next shot: reduce early Ip ramp rate. Shot 04 -- Fizzle. Shot 05 -- Fizzle. Shot 06 -- Fizzle. Shot 07 -- Plasma. Great shot. 1.7 MA, 8.0 T. q95=3.5, which corresponds to 2.94 at 2.0 MA. Elongation=1.67, DoutL=0.51, DoutU=0.43. All power supplies have headroom. B21 cancellation is fair, but we could use a little more current in the A-coil. There were numerous small moly injections. Next shot: tweak RXL in, move ZCUR up by 5 mm (keeping ZXL where it is). Also increase A-coil current. Shot 08 -- Plasma. Disrupted at t=0.78 s, 1.8 MA. Ohmic H-mode. q95 dropped well below 3. Shot 09 -- Fizzle. Shot 10 -- Fizzle. Shot 11 -- Plasma. 2.0 MA. Disrupted at t=0.79 s. I_halo_L=135 kA, I_halo_U=100 kA. Virtually no halo current measured by the girdle Rogowskis (same as on shot 08). q95=3.1. No H-mode. Next shot: decrease the Ip gain switch at t=0.8 s in segment 2 Shot 14 -- Fizzle. Shot 15 -- Fizzle. Shot 16 -- Plasma. Short, resistive, dirty, even though we did 20 minutes of ECDC before this shot. Shot 17 -- Plasma. 2.0 MA. Made it partway into rampdown. Lots of little moly injections. Flattop lasted about 0.43 s. Halo currents were 100-140 kA. Next shot: tweak Ip a tiny bit higher and extend flattop to 0.5 s. Shot 18 -- Plasma. Disrupted at t=0.45 s. End of run. |
| Physics Operator Summaries |
| Entered: Jul 7 2004 04:36:50:130PM |
| Author: Steve Wolfe |
| Physics Operator Summary for 1040428 Engineering Setup and Run Plan for Wed. 28-Apr-2004 MP#371: 2MA Operation at 8T SL: Granetz PO: wolfe ECDC overnight (D2) stopping 2 hours before the run Run begins at 09:00 and ends at 17:00. Start with a standard 5.4T shot, e.g. 1040427002. Then go to 8T operation: Power systems the same as 1040405014 PLC Current limits should be set as follows: OH1,OH2U,OH2L reverse swing limits to -35kA EF3 current limit set to 15kA TF current limit to 230kA A-coils should be configured as on 1040405014 (+Dtop -Dbot -Jtop +Jbot), 3kA, 600V, enabled. Change start time for CCoil to 0.3 sec. Gas setup: fill B-Top with 6 psi D2 Hybrid enabled (PG4) fill B-side lower with 1 psi Ar Hybrid enabled (PG1) leave B-side upper with 15 psi He3 Hybrid disabled (PG2) fill C-side with 30 psi D2 Hybrid enabled (PG3) Disable NINJA Enable the following gate valves, assuming no vacuum problems: ECE, VUV, DNB Necessary diagnostics: ECE (set for 8 tesla), TCI, halo current diagnostics, TF scanner and OH coax resistance and thermocouple instrumentation, Chromex He monitor ------------------------------------------------------------------------------- RF Setup: Transmitters #1 and 2 in RUN-ON by 08:00, all at 80 MHz; if RF Group wants to start changing J-port over to 50MHz we should not require #3 and 4 for this run. ------------------------------------------------------------------------------- Run Plan: 1) Start with a repeat of 1040427002 (RF optional) to confirm that everything is working and check TF instrumentation. 2) When ready, load seg1 from 1040427004, seg2 from 1021108023 (1.7MA,7.9T,nl4=1.3) In seg2: Shorten TF waveform to rampdown from 1.3sec (Note Ip EOF=1.2sec) Draw Acoil waveform to 3500A (should get 3000A); start flattop at 0.4sec. Edit bolofeed controller to get rid of pg5 In Seg1: Copy TF waveform from seg2 to seg1 Confirm PLC TF limit at 230 kA and TF start at t=-1.5 s Run this shot and: Check for q95 value, shape, power supply railing, etc. If running out of volt-seconds, have RF turn on P<2.5MW and enable PG2 (He3) puff with 60 msec puff (or best value from previous experiments). Adjust shape for strike points, and to project q95>3 at 2MA Note current in EF3 and EF4 and extrapolate to 2MA. If necessary, try adjusting shape to require less EF3 (higher triangularity, for instance). Verify lack of locked modes, and adjust Acoil as appropriate(?) 3) Raise Ip to 2MA, adjusting Acoil programming if needed. If it runs, declare the PEA accomplished. Otherwise, tweak until it does. 4) Though not required by the PEA, we do have an old milestone that calls for 0.5sec flattop, so we should try to meet that. This may require extending EOF to 1.3 sec; we can also move the Ip gain switch earlier (it is presently at 0.65sec, and can be seen on 1021108023 as the small step up in current at that time. It would be also be good if we could get the plasma to ramp down from 2MA. If time permits, work on this. It would also be good to do some RF heating, even if we didn't need to use it to get the flux consumption down. The following items need to be monitored throughout the run (1) locked mode diagnostics (2) halo currents and Ih*Bt product on disruptions (3) TF, OH, and EF instrumentation If locked modes appear, we have the option of raising the plasma density, in addition to the A-coil current, depending on how successful the RF is at heating the plasma. -------------------------------------------------------------------------------- Results: A difficult run, but we accomplished the milestone (with a little rounding). Trophy shots are #7, (1.7MA ramps all the way down) and shot#17 (1.99MA into rampdown). Also notable is #8, which gets to 1.87 and disrupts after an ohmic H-mode transition, and #11 which gets to 2.00MA briefly before disrupting . Both of these disruptions and probably the h-mode were caused by the large Ipdot excursion following the Ip gain step discussed below. The main operational problem was that under conditions where the actual current is low compared to the program the Ip controller drives the OH2's so hard that the oh1 supply can't overcome the induced voltage and rails, leading to loss of position control; under these circumstances the oh1 current hangs up or even reverses, while the oh2's rise strongly. This effect is apparent on shot#6 for example. A related effect is related to the Ip gain switch, originally at .64sec and later (shot#9) at 0.8sec. This switch originally took the gain from 2.6 up to 9, and any significant error in Ip_prog-Ip produced a large voltage demand on the Oh's (and other supplies) that could not be followed by the oh1 supply, and was not followed symmetrically by the oh2's, leading to loss of control and a disruption. This was finally (shot#17) corrected by reducing the gain after the step to 4, producing a manageable voltage step. The disruptions resulted in numerous subsequent fizzles, and the disruption on shot#11 may have caused a leak. The 28 peak went up by an order of magnitude, to the high 10^-8 scale after the shot. We lost nearly two hours after shot 11 to a data system hangup that was not completely fixed until after three no-power cycles (#12-14) which did not actually take data (14 took some). After a fizzle on 15, we did 20minutes of ECDC and got a dirty plasma on #16, followed by the good 2MA shot on 17, followed by another dirty disruption on 18, which was programmed for longer flattop and RF heating. We had a number of late crowbars, most apparently due to spurious fault signals, which also slowed the run down some, as fuses had to be checked after each. The one late after shot#7 was another recurrence of the alternator DC breaker trip; this is the third instance of this mystery fault this month. On the plus side, we successfully avoided locked modes, and managed to run full current shots while keeping all the supplies clear of their current rails. Halo currents on the disruptions we did get were all <150kA, well within tolerable limits. Scorecard: ---------- Tests/NoPower 3 Duds 0 Fizzles 6 Plasmas 9 ----------- -- Shots 18 |
| Session Leader Comments | |||
| Apr 28 2004 09:01:53:530AM | 1040428001 | Robert Granetz | Shot 01 -- Plasma. Fiducial shot, just to confirm that everything's working. 5.4 T, 1.0 MA. All OK. Next shot: 8 T, 1.7 MA, typical SNL shape |
| Apr 28 2004 09:19:28:953AM | 1040428002 | Robert Granetz | Shot 02 -- Plasma. Disrupted early, at t=0.38 s. Ipmax=1.1 MA. Current and Te are falling after t=0.28 s. nl_04=1.5e20 m-2. Next shot: reduce nl_04 to 1.0e20 m-2. |
| Apr 28 2004 10:01:46:160AM | 1040428003 | Robert Granetz | Shot 03 -- Plasma. Disrupts at t=0.57 s, 1.5 MA. These shots divert very early, then go back to being inner wall limited. This plasma went vertically upward. OH1 is hanging around crossover for a long time (same on previous shot too). Next shot: reduce early Ip ramp rate. |
| Apr 28 2004 11:48:22:390AM | 1040428007 | Robert Granetz | Shot 07 -- Plasma. Great shot. 1.7 MA, 8.0 T. q95=3.5, which corresponds to 2.94 at 2.0 MA. Elongation=1.67, DoutL=0.51, DoutU=0.43. All power supplies have headroom. B21 cancellation is fair, but we could use a little more current in the A-coil. There were numerous small moly injections. Next shot: tweak RXL in, move ZCUR up by 5 mm (keeping ZXL where it is). Also increase A-coil current. |
| Apr 28 2004 01:19:25:997PM | 1040428008 | Robert Granetz | Shot 08 -- Plasma. Disrupted at t=0.78 s, 1.8 MA. Ohmic H-mode. q95 dropped well below 3. |
| Apr 28 2004 01:37:40:420PM | 1040428011 | Robert Granetz | Shot 11 -- Plasma. 2.0 MA. Disrupted at t=0.79 s. I_halo_L=135 kA, I_halo_U=100 kA. Virtually no halo current measured by the girdle Rogowskis (same as on shot 08). q95=3.1. No H-mode. Next shot: decrease the Ip gain switch at t=0.8 s in segment 2 |
| Jan 25 2005 12:32:19:080PM | 1040428011 | Robert Granetz | Impressive shower of post-disruption sparks seen on the DANT video camera view |
| Apr 28 2004 04:21:30:827PM | 1040428016 | Robert Granetz | Shot 16 -- Plasma. Short, resistive, dirty, even though we did 20 minutes of ECDC before this shot. |
| Apr 28 2004 04:47:07:207PM | 1040428017 | Robert Granetz | Shot 17 -- Plasma. 2.0 MA. Made it partway into rampdown. Lots of little moly injections. Flattop lasted about 0.43 s. Halo currents were 100-140 kA. Next shot: tweak Ip a tiny bit higher and extend flattop to 0.5 s. |
| Apr 28 2004 05:04:56:480PM | 1040428018 | Robert Granetz | Shot 18 -- Plasma. Disrupted at t=0.45 s. End of run. |
| Physics Operator Comments | |||
| Apr 28 2004 06:53:02:583AM | Steve Wolfe | Setting up PCS for 2MA run (MP#371) Load from 1040427004 Import Seg2 from 1021108023 (1.7MA, 7.9T, 1.3e20) Shorted TF waveform to 1.3sec Draw A-coil cur to 3500 (start .3sed, end 1.5sec) edit bolofeed contoller to eliminate pulse gas5 In seg1: Copy TF waveform from seg 2 (-222kA) Build all Save as /home/wolfe/pcs_trees/pcs_1040428999 --------------------------------------------------- Load from 1040427002 (5.4T fiducial) Load/clean Load at 28-Apr-2004 06:52:30.00 Open tree /home/wolfe/pcs_scratch -1 Open tree done | |
| Apr 28 2004 06:54:01:507AM | Steve Wolfe | Engineering Setup and Run Plan for Wed. 28-Apr-2004 MP#371: 2MA Operation at 8T SL: Granetz PO: wolfe ECDC overnight (D2) stopping 2 hours before the run Run begins at 09:00 and ends at 17:00. Start with a standard 5.4T shot, e.g. 1040427002. Then go to 8T operation: Power systems the same as 1040405014 PLC Current limits should be set as follows: OH1,OH2U,OH2L reverse swing limits to -35kA EF3 current limit set to 15kA TF current limit to 230kA A-coils should be configured as on 1040405014 (+Dtop -Dbot -Jtop +Jbot), 3kA, 600V, enabled. Change start time for CCoil to 0.3 sec. Gas setup: fill B-Top with 6 psi D2 Hybrid enabled (PG4) fill B-side lower with 1 psi Ar Hybrid enabled (PG1) leave B-side upper with 15 psi He3 Hybrid disabled (PG2) fill C-side with 30 psi D2 Hybrid enabled (PG3) Disable NINJA Enable the following gate valves, assuming no vacuum problems: ECE, VUV, DNB Necessary diagnostics: ECE (set for 8 tesla), TCI, halo current diagnostics, TF scanner and OH coax resistance and thermocouple instrumentation, Chromex He monitor ------------------------------------------------------------------------------- RF Setup: Transmitters #1 and 2 in RUN-ON by 08:00, all at 80 MHz; if RF Group wants to start changing J-port over to 50MHz we should not require #3 and 4 for this run. ------------------------------------------------------------------------------- Run Plan: 1) Start with a repeat of 1040427002 (RF optional) to confirm that everything is working and check TF instrumentation. 2) When ready, load seg1 from 1040427004, seg2 from 1021108023 (1.7MA,7.9T,nl4=1.3) In seg2: Shorten TF waveform to rampdown from 1.3sec (Note Ip EOF=1.2sec) Draw Acoil waveform to 3500A (should get 3000A); start flattop at 0.4sec. Edit bolofeed controller to get rid of pg5 In Seg1: Copy TF waveform from seg2 to seg1 Confirm PLC TF limit at 230 kA and TF start at t=-1.5 s Run this shot and: Check for q95 value, shape, power supply railing, etc. If running out of volt-seconds, have RF turn on P<2.5MW and enable PG2 (He3) puff with 60 msec puff (or best value from previous experiments). Adjust shape for strike points, and to project q95>3 at 2MA Note current in EF3 and EF4 and extrapolate to 2MA. If necessary, try adjusting shape to require less EF3 (higher triangularity, for instance). Verify lack of locked modes, and adjust Acoil as appropriate(?) 3) Raise Ip to 2MA, adjusting Acoil programming if needed. If it runs, declare the PEA accomplished. Otherwise, tweak until it does. 4) Though not required by the PEA, we do have an old milestone that calls for 0.5sec flattop, so we should try to meet that. This may require extending EOF to 1.3 sec; we can also move the Ip gain switch earlier (it is presently at 0.65sec, and can be seen on 1021108023 as the small step up in current at that time. It would be also be good if we could get the plasma to ramp down from 2MA. If time permits, work on this. It would also be good to do some RF heating, even if we didn't need to use it to get the flux consumption down. The following items need to be monitored throughout the run (1) locked mode diagnostics (2) halo currents and Ih*Bt product on disruptions (3) TF, OH, and EF instrumentation If locked modes appear, we have the option of raising the plasma density, in addition to the A-coil current, depending on how successful the RF is at heating the plasma. | |
| Apr 28 2004 09:02:02:530AM | 1040428001 | Steve Wolfe | Shot#1: 5.4T fiducial-like program plasma full length, hmode at 1.14sec Only got E-port. next shot: Go to 8T, 1.7MA |
| Apr 28 2004 09:18:31:000AM | 1040428002 | Steve Wolfe | Shot#2: Ready for 8T, 1.7MA Load from previously prepared 1040428999 Increase first ip point in seg2 to 650kA (from 550) set zcur at 0.1sec in seg2 to 0, to match seg1 decrease initial Acoil current to 2000 Decrease Ar puff from 40msec to 25msec Load at 28-Apr-2004 09:08:36.00 Open tree /home/wolfe/pcs_scratch -1 Open tree done Early disruption .38sec next shot: reduce rate of nl04 rise |
| Apr 28 2004 10:01:48:787AM | 1040428003 | Steve Wolfe | Shot#3: reduce rate of nl04 rise and reduce flattop to 1.0e20 another early disruption at .57sec at 1.5MA. Long lag in crossover, nearly lose it vertically for some reason. Oh1 current is actually not at zero, it's slightly negative OH1 voltage is close to max inversion on the forward bridge; it may just not have enough voltage to overcome the oh2's. It may be the Ip demand. next shot: reduce Ip rate of rise after .2sec |
| Apr 28 2004 10:14:02:737AM | 1040428004 | Steve Wolfe | Shot#4: reduce Ip rate of rise after .2sec Move the first 1.7MA point from .35sec to .6sec pg4 from 18msec to 16msec fizzle. Didn't lower gas enough? next shot: repeat |
| Apr 28 2004 10:36:42:183AM | 1040428005 | Steve Wolfe | Shot#5: repeat: reduce Ip rate of rise after .2sec Move the first 1.7MA point from .35sec to .6sec pg4 from 18msec to 16msec another fizzle. next shot: drop pg4 again, to 13msec |
| Apr 28 2004 10:57:41:973AM | 1040428006 | Steve Wolfe | Shot#6: drop pg4 again, to 13msec Three in row. Tweak the fields |
| Apr 28 2004 11:26:09:557AM | 1040428007 | Steve Wolfe | Shot#7: ef4 from -1315 to -1330, br0 from .0005 to .0002 Plasma full length, got a crowbar late. Ip=1.68MA,q=3.5 next shot: go for 2MA |
| Apr 28 2004 12:15:13:523PM | 1040428008 | Steve Wolfe | Shot#8: program 2.05 and extend EOF to 1.3sec Move rxl in by .005, increase acoil level throughtout (3000,4000) Raise zcur from -.015 to -.01 Irby is filling in as Session Leader while Bob goes to a seminar disrupted at .78sec at 1.8MA, Ohmic H-mode at .67sec Wmhd goes to 140kJ, nl04 to 2e20. Some early runaways. Loses control of gaps and position at .65, on gain switch of Ip. I think I need to delay that until we are actually up to current. |
| Apr 28 2004 12:34:25:453PM | 1040428009 | Steve Wolfe | Shot#9: delay Ip gain switch to .8sec; change ic_ef4 program to 3000A fizzle next shot: drop br0 to 0.0000 |
| Apr 28 2004 01:01:45:097PM | 1040428010 | Steve Wolfe | Shot#10: delay Ip gain switch to .8sec; change ic_ef4 program to 3000A drop br0 to 0.0000 another fizzle. drop pg4 to 12msec |
| Apr 28 2004 01:37:12:437PM | 1040428011 | Steve Wolfe | Shot#11: delay Ip gain switch to .8sec; change ic_ef4 program to 3000A drop br0 to 0.0000; drop pg4 to 12msec plasma disrupts at .88sec, gets to 2.0MA ! Had early runaways next shot: reduce ip gain at .8 from 9 to 4 |
| Apr 28 2004 02:39:43:973PM | 1040428011 | Steve Wolfe | Shot#13: reduce ip gain at .8 from 9 to 4 Another no power shot |
| Apr 28 2004 02:33:50:117PM | 1040428012 | Steve Wolfe | Shot#12: reduce ip gain at .8 from 9 to 4 Problem in INIT - no power shot |
| Apr 28 2004 03:05:56:307PM | 1040428014 | Steve Wolfe | Shot#14: reduce ip gain at .8 from 9 to 4 Yet another no power shot, but now things seem to have actually cleared eventually |
| Apr 28 2004 03:31:40:767PM | 1040428015 | Steve Wolfe | Shot#15: reduce ip gain at .8 from 9 to 4 fizzle ; after two hours of waiting around for the data system, the pressure was still 2e-6. Lots of junk, including 28, on the RGA, but majority is still D2. ECDC for 20minutes |
| Apr 28 2004 04:05:18:083PM | 1040428016 | Steve Wolfe | Shot#16: reduce ip gain at .8 from 9 to 4 ECDC for 20minutes and let the pressure come down to 3e-6 plasma disrupts early at 380msec, after turning around. Big marfe. Only got to 800kA. next shot: back off nl04 to 8e19 and hope it cleans up. I still think we have a leak. |
| Apr 28 2004 04:37:13:430PM | 1040428017 | Steve Wolfe | Shot#17: back off nl04 to 8e19 and hope it cleans up. plasma into rampdown, gets only to 1.98MA at ~0.86sec Almost makes the milestone, the PEA is secure! Next shot, if there is one: Raise program to 2.1 and extend EOF to 1.5sec |
| Apr 28 2004 05:06:31:090PM | 1040428018 | Steve Wolfe | Shot#18: Raise program to 2.1 and extend EOF to 1.5sec Also, turn on RF and enable B-side upper with 60msec puff Also, extend the Acoil pulse to 1.5 short plasma .44sec, got to 1.2MA and then turned around looked like another MARFE. Lots of flying objects on the camera early. END OF RUN |
| Engineering Operator Comments | ||||
| Shot | Time | Type | Status | Comment |
| 1 | 08:57:49:663AM | Plasma | Ok | |
| 2 | 09:11:02:413AM | Plasma | Ok | |
| 3 | 09:34:28:393AM | Plasma | Ok | |
| 4 | 10:10:34:373AM | Plasma | Ok | |
| 5 | 10:33:02:697AM | Plasma | Ok | |
| 6 | 10:55:29:410AM | Plasma | Ok | |
| 7 | 11:18:26:263AM | Plasma | Bad | Alternator Overvoltage |
| 8 | 12:02:47:323PM | Plasma | Ok | |
| 9 | 12:31:16:890PM | Plasma | Ok | |
| 10 | 12:55:25:053PM | Plasma | Ok | |
| 11 | 01:18:06:890PM | Plasma | Bad | OH1, OH@ and TF Faults |
| 14 | 02:58:50:857PM | Test | Bad | |
| 15 | 03:21:02:617PM | Plasma | Ok | |
| 16 | 03:56:16:600PM | Plasma | Ok | |
| 17 | 04:30:15:167PM | Plasma | Ok | TF & PF breakers opened after the shot |
| 18 | 04:58:02:310PM | Plasma | Ok | |