What practice helps minimize interference when wiring an avionics bus?

• A. Route power and signal wires together to simplify layout.
• B. Share grounding with high-current circuits.
• C. Use a separate power source or filtered supply, proper grounding, shielding, and routing.
• D. Avoid shielding to save weight.

Answer: (C)

Minimizing interference on an avionics bus comes from clean power, solid grounding, shielding, and careful cable routing. Keeping the avionics power on a separate or filtered supply helps prevent noise from high-current aircraft systems from riding onto the bus. A proper grounding scheme, ideally with a single-point or star grounding, reduces ground-loop currents and voltage differences that can corrupt signals. Shielding protects signal conductors from external noise and, when connected correctly, redirects interference away from the sensitive electronics. Routing plays a big role too: keep power and signal cables separate and, when they must cross, do so perpendicularly and away from noisy lines; use dedicated pathways for the avionics power distribution to avoid coupling from other systems. Together, these practices create a cleaner electrical environment for the avionics bus, improving reliability and data integrity.

Routing power and signal together tends to increase noise coupling. Sharing grounding with high-current circuits introduces ground noise and potential loops. Avoiding shielding eliminates a key defense against EMI, so shielding is important.