* Question
Why does every two LSI or VLSI components require a storage capacitor, and how should it be placed?
* Answer
In high-density integrated circuit designs, especially those involving LSI (Large Scale Integration) and VLSI (Very Large Scale Integration) components, stable power delivery is critical. Every two LSI or VLSI components typically require a dedicated storage capacitor to ensure reliable voltage levels and minimize power fluctuations due to simultaneous switching activities.
To maintain signal integrity and power stability, the placement of storage capacitors must follow these guidelines:
Proximity to Components:
The capacitor should be placed as close as possible to the power pins of the associated LSI/VLSI devices to reduce parasitic inductance and voltage ripple.
Shared Positioning:
When shared between two components, the capacitor should be centrally located between them, minimizing trace length to both.
Low-Impedance Ground Path:
Ensure the capacitor has a direct and low-impedance connection to the ground plane to maximize decoupling effectiveness.
Avoid Interference Zones:
Do not place capacitors directly under or over high-speed signal lines or sensitive analog traces, as this may introduce noise or coupling.
Thermal Considerations:
Capacitors should be placed in thermally stable areas, avoiding proximity to heat-intensive zones unless rated for high temperatures.
By following these rules, designers can enhance power integrity and overall system performance in LSI/VLSI-based architectures.
COMMENTS