Transcription of CHAPTER 12: PRINTED CIRCUIT BOARD (PCB) DESIGN ISSUES
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PRINTER CIRCUIT BOARD ISSUES CHAPTER 12: PRINTED CIRCUIT BOARD (PCB) DESIGN ISSUES INTRODUCTION SECTION : PARTITIONING SECTION : TRACES RESISTANCE OF CONDUCTORS VOLTAGE DROP IN SIGNAL LEADS "KELVIN FEEDBACK" SIGNAL RETURN CURRENTS GROUND NOISE AND GROUND LOOPS GROUND ISOLATION TECHNIQUES STATIC PCB EFFECTS SAMPLE MINIDIP AND SOIC OP AMP PCB GUARD LAYOUTS DYNAMIC PCB EFFECTS INDUCTANCE STRAY INDUCTANCE MUTUAL INDUCTANCE PARASITIC EFFECTS IN INDUCTORS Q OR "QUALITY FACTORS" DON'T OVERLOOK ANYTHING STRAY CAPACITANCE CAPACITATIVE NOISE AND FARADAY SHIELDS BUFFERING ADCs AGAINST LOGIC NOISE HIGH CIRCUIT IMPEDANCES ARE SUSCEPTIBLE TO NOISE PICKUP SKIN EFFECT TRANSMISSION LINES DESIGN PCBs THOUGHTFULLY DESIGNNING+B46 CONTROLLED IMPEDANCE TRACES ON PCBs
board (pcb) design issues introduction 12.1 section 12.1: partitioning 12.3 section 12.2: traces 12.5 resistance of conductors 12.5 voltage drop in signal leads—"kelvin feedback" 12.7 signal return currents 12.7 ground noise and ground loops 12.9 ground …
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