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Published byAllyson Clarke Modified over 8 years ago
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Digital to Analog Converter for High-Fidelity Audio Applications Matt Smith Alfred Wanga CSE598A
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Summary R-2R Ladder Architecture Current progress –Poly resistor, NOR gates, D-flipflops Remaining work Observations and challenges Schedule
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R-2R Ladder Architecture R2 3R2 V out [ ] x 3 Gain of 3 on output stage allows full voltage range on output, in addition to buffering for low output impedance
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Current Progress Digital Logic –Flip flops used to latch digital inputs –Gate logic optimized for digital transition point –D flip flop was designed from NOR gate logic –Layout and testing complete Polysilicon Resistors –Values of 7kΩ and 14kΩ chosen for R-2R ladder resistors
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Polysilicon Resistors Serpentine pattern used to construct standard (7k) and double (14k) sized resistors Resistance calculated from process parameters Since resistors are needed in R-2R ratios, exact poly sheet resistance is no concern (all resistors are affected proportionately)
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NOR Gate Logic A B OUT
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D Flip Flop Layout done with metal1 and metal2, leaving metal3 for global routing Inverter NOR3 NOR2
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D Flip-Flop Simulation Results CLK DIN Q QNOT
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Remaining Work Output Buffer –Linear, Large (Current) Gain –Large output swing needed Design Layout Characterization –Signal Distortion –Maximum Load Impedance –Frequency Response
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Observations and Challenges Use of hierarchical cells reduced the complexity and time needed for schematics and layout Line resistance is not calculated during layout extraction, making simulation of polysilicon-based resistors more difficult
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The Schedule 3/13 – Finish individual cells, figure out how to properly simulate poly resistors 3/20 – Do full layout 3/27 – Simulation 4/3 – Debug, prepare presentation
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