Appendix A: A PCB vs. MCM-c Comparison Matrix
|
Problem |
Description |
PCB solution |
MCM-C solution |
|
Cost |
Final design must meet cost targets |
Reinforced BT epoxy or GETEK can meet high frequency performance requirements, but costs are higher than for conventional FR4 boards, heat sinks and special wire-bondable conductors add to cost |
Ceramic MCM technology facilitates tuning, reduces size and simplifies thermal management, providing an attractive balance of performance and cost |
|
Active device variability |
Active devices have broad specifications (wide tolerances) |
Potentiometers and variable capacitors used to compensate for variability |
Active trimming of printed integral resistors and capacitors on the circuit substrate |
|
Circuit tuning |
Obtain precise circuit response |
Manual trimming of components, impacted by body (hand) and tool parasitics |
Automated hands-off trimming of passive components — no parasitic effects |
|
Reliability |
Reliable operation over a broad environmental range for bare chip packaging |
Requires costly specialty materials and platings |
Proven high reliability processes |
|
Filter response |
Passive components have wide tolerances |
Potentiometers, precision passives or component selection (swapping) |
Active trimming of printed integral resistors and capacitors on the circuit substrate to optimize filter response |
|
Heat dissipation |
With inadequate heat dissipation chips run hot, degrading lifetime. Nonuniform heat dissipation causes some parts of the MCM to run hotter than others, changing electrical properties (edge-rate degradation) |
External heat management add-ons, such as heat sinks, or forced convection or spreading devices out, which adds cost and makes the design more complex |
Unpackaged ICs die mounted directly to a high thermal conductivity alumina substrate provide a less complex solution |
|
Size |
Circuit elements must be decreased in size to fit a hand-held probe. Minimum circuit size needed for many RF applications |
Discrete adjustable components mounted on a PCB form a large module |
Screen-printed thick-film resistors and capacitors adjusted to precise value using a laser trimmer replace large discrete adjustable components and allow size reduction |
|
Tuning passive elements to design specifications |
Parasitic capacitive effects of tools and operators' hands degrade precision |
Potentiometers and variable capacitors are used frequently to compensate for active device variability in applications where precise circuit performance is required |
Filter response can be optimized by actively trimming critical components in the filter |
|
Bare chip assembly |
Chip and wire techniques are required to attach bare ICs. Board technology must allow reliable assembly |
Plated Cu PCB metallizations require special Au plating for compatibility with chip and wire assembly |
Conventional thick-film Au metallizations are compatible with chip and wire assembly. Au thick-film conductors have demonstrated robustness in chip and wire processes |