1. Detailed Block Design Presentation 3 (P3)
Objectives
Complete Detail Design
Complete Detail Design Analysis, Prove DFM
Prepare & Practice Detail Design Presentation

2. Detailed Block Design Presentation 3 (P3)
P3 Main Deliverables:
CAD Schematic of Design pasted into PPT
Updated Lab 6 BOM (Excel) pasted into PPT
Updated Block Requirements
Block Diagram of Block
Nominal Design Calculations
Worst Case (DFM) Calculations
Updated Reliability Analysis
~15 Minutes Max per Student
Detailed Slide Content List Follows

3. Detailed P3 Slide Order (slide counts are maximums)
Block X Hilighted in overall block diagram – 1 slide
Where is this block, which one are we talking about?
Block Purpose – 1 slide
2-4 Bullets Describing Purpose of this block within the product
Block Performance Requirements – 2 slides
Include any % allocations
Block Standard Requirements – 2 slides
Must Show Reliability, Cost and Compliance
Block Safety Requirements – 1 slide
Mandatory for Power Supplies, Batteries
Block Diagram of Block – 1 slide
Breakdown of block into a min of two subcircuits

4. Detailed P3 Slide Order (slide counts are maximums)
Block Schematic Diagram – 2 slides
Verbally present your theory of operation, explain how it works
Detailed Design Calculations – 3 slides
Show all calculations and selection rationale for ALL
Nominal Resistance, Capacitance, Inductance Values
Resistor Types, Capacitor Dielectrics
EMC Devices including filters, ferrites, transient absorbers, etc
OpAmp Types, Logic Family Types
CPU and PLD Types and Clock Speed
Diode Types, Power or Current Rating
Connector Contact Ratings
Nominal Operational Simulations

5. Detailed P3 Slide Order (slide counts are maximums)
Worst Case (DFM) Calculations – 4 slides
Show all calculations and selection rationale for
Resistance, Capacitance, Inductance Value Tolerances
Resistor, Capacitor and Inductor Max Voltage Ratings
Resistor, Inductor, Trans-Diode, Xfmr, IC Power Ratings
Resistor, Inductor, Trans-Diode, IC Package Types
Wire Gauges
Current Limit Device Thresholds (Fuses, Breakers, etc)
Analog Circuit DFM Analysis as applicable
Digital Circuit DFM Analysis as applicable
Power Circuit DFM Analysis as applicable
Worst Case or Monte-Carlo Simulations
Block Reliability Analysis – 1 slide

6. Detailed P3 Slide Order (optional for P3)
Firmware & Programming Design Descriptions
Flow Charts
State Diagrams and Bubble Charts
Description of Development Tools and Environment
Configurations and Setup
Block PCB Layout
Prototype Layout
Production (SMT) Layout
Specific Block Mfg Tests and Calibrations
Block Verification Plan-Results
Dig O-scope ePictures
Dig Photos of Prototype
Dig Photos of Laboratory Testing
Dig Videos of Laboratory Testing

7. Common Analog & Power Subcircuits
Non-Linear Linear
Comparators
Oscillators (non-sinusoidal, square, sawtooth, etc)
Voltage Limiters and Clamps
Rectifiers and Bridges
Math Functions (multiply, divide)
Log and other Non-linear Amplifiers
Sample and Hold Amplifiers
Envelope & Peak Detectors
Phase Detectors
Phased Locked Loops
Switching Voltage Regulators
Pulse Generators, Debouncers
Amplifiers and Attenuators
Math Functions (add, subtract)
Oscillators (sinusoidal)
Filters
Voltage Regulators
Voltage References
Analog Drive Displays (Bulbs, LEDs, etc)
Note: Blocks such as transmitters & receivers should be decomposed if possible

8. Common Digital Subcircuits
Logic Family Based LSI & VLSI
Adders, Subtractors, Math Units
Magnitude Comparators
Encoders
Decoders
Multiplexers (Mux’s)
Demultiplexers (Dmux’s)
Code Converters
Bus Buffers
Flipflops, Latches, Latching Buffers
Counters, Timers
Pulse Generators
Optical Couplers
CPU’s & Microcontrollers
Analog-Digital Converters
Digital-Analog Converters
Prog Logic Devices, FPGAs
Sequencers
Prog Read Only Memories (Eproms, EEproms)
Random Access Memories (SRAM, DRAM)
Controllers (Serial, Drive, USB, Ethernet)
Logic Input Displays

9. Other Devices to Provide Analysis For
Sensors
Mechanical Switches, Keyboards
Transducers (Speakers, Microphones, Piezo, etc)
Relays (Elec Mech, Solid State)
Motors, Drives, Solenoids
Transformers
Power Drivers, SCRs, Bridges
Transistor Switches
Batteries
Power Plugs
Over Current Devices (Fuses, Breakers, etc)
Over Voltage Devices (Diodes, Fast Clamps, ESD)