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Radiation Hardness Test Chip. Matthias Harter, Peter Fischer Uni Mannheim. Overview. Reminder: Radiation Damage & Remedies Chip description First results Note: Not yet clear how much rad. hardness we need for CBM... This little work is just a contribution to discussions.
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Radiation Hardness Test Chip Matthias Harter, Peter Fischer Uni Mannheim
Overview • Reminder: Radiation Damage & Remedies • Chip description • First results Note: Not yet clear how much rad. hardness we need for CBM... This little work is just a contribution to discussions... Rad. Hard. TestChip
Radiation Damage – very superficial • Ionizing radiation leads to positive charges in thick oxides • Threshold voltage shift – decreasing for NMOS • leakage ‘around’ NMOS • creation of parasitic NMOS (field oxide) • PMOS remains unaffected. • Large local charge deposition can lead to • SET: single event transient = spike on signal • SEU: single event upset = bit flip • SEGR: single event gate rupture (really?) Rad. Hard. TestChip
Remedies • Enclosed NMOS (other shapes are possible!) • Guard rings between NMOS with drains on different potential • Special FF design / redundancy / voting / hamming... for SEU / SET • Consequences: • need special extraction files • larger area (x4 for digital designs) • larger caps -> often more power in digital (x4) • Hard to make good NMOS current source(large L no possible) • Hard to make good NMOS switches(very asymmetric & large caps) Rad. Hard. TestChip
Example: radhard MUX2->1 • Our ‘mixed mode’ lib uses separate nets for digital wells (nwell, pwell) NWELL PMOS: vddb! Digital PMOS: vddd! Guard rings Digital NMOS: gndd! Enclosed NMOS PWELL NMOS: gndb! Rad. Hard. TestChip
Radhard vs. Normal Layout • We want to compare both types.Therefore made cells with equal transistor / layout size: Hard Normal Rad. Hard. TestChip
Test Chip • Goals: • Verify models (speed) • Measure SEU during irradiation • Measure leakage after irradiation for ‘hard’ and ‘non-hard’ layouts • Keep chip very simple for easy testing with minimal equipment • Circuits: • 1 ring oscillator with 101 inverters & enable. Sim. frequency: 176 MHz • 8 normal shift registers, 16 Bit, common data input, one output via 8-1 MUX • 16 linear feedback shift registers (LFSR) producing pseudo random bit sequences, 16 bit long. Test equality of all 16 LFSRs to detect SEU. • Rad hard output drivers. • All pads have ESD protection diodes Rad. Hard. TestChip
17 ... 3 2 1 normal Version (edge of die) radhard version (pads at inner side) 1 2 3 ... 17 Radhard vs. Normal Layout • Chip is implemented twice: • radhard with round NMOS + guard rings • Normal Layout. Widths of MOS are same as for round devices • Identical pinout! • 17 pins per side (just one side of a JLCC68) • Switch between the two versions by rotating carrier in socket! Rad. Hard. TestChip
Test Chip Layout This chip could cut here Another project.. Rad. Hard. TestChip
16x 16x 16x 16x 16x 16x 16x ? = Detail of pinout… DinSR LFSReq 3 resetN 8x clk SRsel<2..0> 16x resetN 176 MHz 16x clk OscEn 5 6 7 8 9 10 11 17 DoutLFSR<1> DoutSRmux SRsel<0> SRsel<1> SRsel<2> LFSReq OscOut resetN OscEn DinSR gndd! gndb! gndd! gndd! vddd! vddb! clk 1 2 4 14 15 LFSReq shows that all LFSRs have same output 1.8 V SRsel<2..0> selects shift register to send to DoutSRmux DinSR is the input of all shift registers optional Rad. Hard. TestChip
1.8V Measurements: Ring Oscillator • Works as expected. • Simulated speed: 176MHz • Measured: • Supply [V] Speed [MHz] • 1.8 150 • 1.7 140 • 1.6 130 • 1.5 117 • 1.2 78 • 1.0 51 1.0V Rad. Hard. TestChip
Measurements: LFSR • Works as expected • Produces nice spectrum on Analyzer... after reset output clocked @ 120MHz reset Rad. Hard. TestChip
Problems & Summary • Shift registers also work as expected • Problem: Large supply current. May be setup but more likely wrong type of substrate connection somewhere... • Good agreement in speed. Must check voltage dependence. • Next steps: • Decide if irradiation of this is interesting • May resubmit in 3 weeks if there is a bug. May increase register length. Rad. Hard. TestChip