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Module Protection chip “MPC” for Serial Powered Pixel Module. Laura Gonella, Hans Krüger, Andreas Eyring Bonn University. SCR. Serial powering sceme. MPC = on. I in = 3,6 A. DCS on EOSC. I = 0,8 * 4 chips = 3,6 A. local VDD. D1. MPC1. 4chipsmodule. D2. + simple + control & monitor
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Module Protection chip “MPC” for Serial Powered Pixel Module Laura Gonella, Hans Krüger, Andreas Eyring Bonn University Andreas Eyring, Power Distribution, Cern 24.02.2009
SCR Serial powering sceme MPC = on I in = 3,6 A DCS on EOSC I = 0,8 * 4 chips = 3,6 A local VDD D1 MPC1 4chipsmodule D2 + simple + control & monitor + fast auto-response default state = OC - 1 AWG 36 line / module I out = 3.6 A R D3 4chipsmodule MPC2 local GND 4chipsmodule MPCx OC = Open Circuit (ie switch is “off”, module powered) 15
SCR MPC requirements • AC or DC controlled BTrequirement: low power dissipation Ron = very low • OV protection with SCRrequirement: low power dissipation Ron = very low; self - acting • Module voltage monitoring over the control line • Radiation tolerant for 100 Mrad for outer pixel layers DCS on EOS Card I in = 3,6 A from previous module MPC ADC BT module C1 Zener diode could be nessesary for DC control GND I out = 3.6 A to next module Andreas Eyring, Power Distribution, Cern 24.02.2009
MPC specification Note: Reset of the SCR possible via the control line by on/off swtching the BT! Andreas Eyring, Power Distribution, Cern 24.02.2009
Next steps • define the MOSFET type and dimension for 3.6A • define the diode behavior ( very low voltage drop) • do detailed simulations & design the chip • radiation hardness has to be tested • first prototype by summer/fall 2009 Andreas Eyring, Power Distribution, Cern 24.02.2009
SCR simulation 130 nm IBM CMOS SCR: Q2 begins to conductQ1 switches on Q2 draws even more current IT1 Q1 Q2 Iload Uthr Q1 Sweep of Rload Q2 VDD Uthr Vdd=Uthr * (2+R2/R1) Andreas Eyring, Power Distribution, Cern 24.02.2009