3.1 Harness Routing and Securing
Internal wire harness routing is a critical process that dictates electromagnetic compatibility (EMC), thermal performance, and long-term mechanical reliability. Improper routing leads directly to wire fatigue, insulation abrasion, and intermittent shorts. Effective routing is a mandatory discipline that ensures the harness meets its expected service life under dynamic stress.
3.1.1 Routing Mandates: Separation and Bend Control
Routing must adhere to strict spatial separation rules to prevent electrical interference and guarantee wire flexibility is maintained.
A) Separation Protocol (EMC)
Wires carrying different electrical characteristics must be segregated to prevent crosstalk and EMI.
- Mandate: Keep power/switching runs ≥ 100 mm away from low-level signals. If crossing nets is unavoidable, the intersection must occur at a 90˚ crossing angle, never parallel.
- Chassis Hugs: Route and clamp harnesses close to the chassis rails to shrink the internal loop area, which reduces both internal radiation and external EMI susceptibility.
B) Minimum Bend Radius
The maximum strain on the wire dictates the required radius. Sharp 90˚ folds are prohibited.
- General Cable, Static: Radius must be ≥ 6 times the outer diameter (OD).
- Dynamic (Moving/Flexing): Radius must be ≥ 10 times the OD.
- Coaxial/Stiff Cables: Radius must be ≥ 8 to 10 times the OD (per manufacturer).
- Keepouts: Wires must maintain ≥ 10 mm clearance from sharp edges or heat sinks. Edge guards must be added anywhere the harness crosses a metal line.
3.1.2 Strain Relief and Fastening Options
The first clamp near the connector is the most critical strain relief point. Fastening methods must be chosen by environment, not habit.
A) The First Clamp Rule
- Mandate: Place the first cushioned clamp or tie-wrap 50 – 80 mm from the connector backshell. This ensures the mechanical load is absorbed by the harness clamp, not the delicate crimp or solder cup.
- Routing Order: Route the first bend after that clamp—never right at the termination cup.
B) Fastening Methods and Environment
The fastener choice must manage temperature and rework cycles.
Method | Best for | Rework Mandate | Notes |
Cushioned P-Clamp | Primary strain relief; long runs. | High (Reusable). | Bolt to structure; size so rubber just compresses. |
Metal P-Clamp | Hot zones (150˚C +) Engine bay. | Medium (Reusable). | Requires sleeve on the cable to prevent scuffing. |
Edge Clip | Sheet edge runs; no access to drilling holes. | High (Reusable). | Must be sized to the panel edge thickness; route away from doors. |
Adhesive Tie Mount | No-hole surfaces; clean, warm areas. | Medium. | Mandate: Requires cleaning + warming surface, plus 24-hour dwell time for full strength. |
Glands/Grommets | Pass-through / IP sealing. | Medium. | Torque gland correctly per spec to achieve seal. |
C) Bundling and Anti-Abrasion
- Tie-Wraps: Use rounded-head ties only; trim the tail flush. Prohibited: Bare zip-ties on insulation—must be used over sleeves or saddles to prevent cold flow damage.
- NVH Tape: Use cloth or felt tape (NVH tape) for anti-squeak/anti-buzz wrap in automotive or sensitive interior applications.
3.1.3 Final Audit: Movement, Heat, and Traceability
The harness must be audited for interference, mechanical fatigue risk, and label integrity after final assembly.
A) Heat and Moving Parts
- Temperature: Keep harnesses away from > 85˚C surfaces. If routing near a hot sink, add a heat sleeve or standoff bracket.
- Airflow: Maintain ≥ 10 mm clearance from fan blades and vents; routing must not impede airflow.
- Door/Hinge Test: Perform a door/cover swing test through the full range of motion. The harness must not scrape, stretch, or tug the wires at the connector backshell.
B) Final Placement and Labeling
- Service Loops: Service loops (intentional slack) must be set to the dimensioned value (e.g., 80 ± 10 mm) to allow field maintenance.
- Label Integrity: Labels must be placed 50 – 80 mm from the backshell; prohibited is placing labels under clamps or boots where they become unreadable or trapped.
C) Common Traps (Smallest Reliable Fix)
- Using ties to “steer” a tight bend: First Move: Add a P-clamp and increase the bend radius.
- Adhesive mounts failing: First Move: Clean the surface, warm the panel, and allow 24-hour dwell before loading.
- Long shield pigtails: First Move: Bond shield at the enclosure entry; 360° clamp; limit pigtail length to ≤ 10 mm.
Final Checklist
Mandate | Criteria | Verification Action |
Strain Relief | First clamp placed 50 – 80 mm from connector backshell. | Tug test confirms the clamp takes the load, not the termination. |
Bend Radius | Static bends respect ≥ 6 x OD; zero sharp kinks or creases. | Visual check confirms no fold at the connector cup or latch. |
EMC Separation | Power/switching lines are routed separately or cross at 90˚. | Visual audit confirms routing maintains ≥ 100 mm separation from sensitive signals. |
Mechanical Clearance | Wires clear of sharp edges and moving parts; ≥ 10 mm clearance from fans/heat. | Door swing test verifies no scrape or tug throughout motion. |
Bundling | Ties are flush-cut and tensioned using a calibrated gun. | Audit confirms no sharp tails; bundle can rotate slightly under the tie. |
Label Integrity | Labels placed 50 – 80 mm from the backshell; not trapped under clamps. | Verification that label is readable after final system installation. |
Adhesion Prep | Surfaces for adhesive anchors cleaned, warmed (≥15˚C), and pressed with a roller. | Confirms surface preparation to prevent adhesive failures. |