220 likes | 358 Views
TEV DUMP SWITCH FAILURES OF 2/10/09. Dan Wolff/EE Support. Quench Protection in TEV. TEV Dump/PS Arrangement. * TEVATRON is one large electrical circuit with all the magnets, power supplies and dumps in series. * Total of 12 Dumps located around the ring in the
E N D
TEV DUMP SWITCH FAILURESOF 2/10/09 Dan Wolff/EE Support
TEV Dump/PS Arrangement * TEVATRON is one large electrical circuit with all the magnets, power supplies and dumps in series. * Total of 12 Dumps located around the ring in the “2” and “3” buildings * Dumps and power supplies are controlled by both the QPMs directly and the FBP/Dump loops. * The FBP/Dump loops provide a backup system for the QPMs to initiate a dump. They also provide the means for the power supplies to initiate ring-wide trips.
Dump/PS Block Diagram * Original dump consists of a DC breaker, a series SCR and a commutating circuit. Normally, the commutating circuit operates abruptly and the series SCR stops conducting before the DC breaker opens. * The DC breakers have 2 means of opening: a fast trip operates in less than 10-20 ms and the slow opening of the main coil occurs in a few tenths of seconds. * Dump capacitor limits the re-applied dv/dt on the switch devices * New dump consists of 2 solid state switches in series: Insulated Gate Bipolar Transistor (IGBT) and Integrated Gate Commutated Thyristor (IGCT). * The switches alternate as primary and secondary elements. The primary turns off first and the secondary turns off about 6 ms later. During this time circuitry checks that the primary element worked properly.
Dump/Fast Bypass Loop Loop controller located in MCR
Short Explanation of Events • Dump/FBP and Permit Loops trip due to power failure. • Dumps “Fire” (Dump switches turn off) after 60 ms delay. • 10 ms later most Dump switches turn back on (noise on the dump loop or loop momentarily came up again)!!!!! • Two original dumps with fast DC Breakers do not turn back on. Once open the breakers would take many line cycles to re-close. • IGBTs and some IGCTs in new solid-state (SS) dumps and some SCRs in original dumps are damaged by energy in the 4.8mF cap bank (charged to 1200 volts)!!!!! • The QPMs respond to the dump activations by disabling their stay-alive signals to the dump controllers. 70 ms later dump switches are locked (latched) off.
Short Explanation of Events (cont.) • F3 (SS) dump re-opens in response to QPM request but B3 and C2 SS switches are compromised and continue to conduct current but with a significant voltage drop (failure mode of IGBTs). • The original dump SCRs cannot be turned off again because the 1900 uF commutating cap bank has been discharged by the first turn-off. However, the slower DC Breakers begin to open at various times between .2 and .6 seconds. At this time all dump resistors are in the circuit accept for B3 and C2. • After 4 or 5 seconds the dump switches in B3 and C2 burn open. Thus by 5 seconds into the trip all dump resistors are in the circuit.
Conclusions • If a dump is initiated by a Dump/FBP loop trip, there is a 70-80 ms window within which the dumps could re-close if the loop experiences significant noise or comes back up. • The original dump system is somewhat immune to this occurrence through the action of the DC Breaker. However, there are 7 DC Breakers in the ring whose fast trip response was a little too slow in this case. In these dumps the SCRs can sustain damage. • The re-closure of the dumps in the new solid state system is catastrophic causing failures in both the IGBTs and IGCTs. • Relatively simple changes in the controls and power circuit of the dumps can mitigate the problem (diode in series with 4.8 mF cap and a re-closure lock out in the dump control system). • The re-closure lock out has been implemented as of 2/14/09. • For added protection the diodes will be installed during shut down opportunities. • The TEV magnets that quenched were not directly at risk. • The additional voltage to ground experienced was limited to a few locations and no more than 25% higher than the normal hipot voltage. • The dumps all operated in sufficient time to protect the safety leads.