A speed cushion is a traffic-calming device built like a speed hump but split into 2 or 3 segments, with wheel-track gaps wide enough for fire-truck axles to straddle. Cars hit the cushion full-on and slow to 15 to 20 mph. Fire trucks and ambulances ride through the gaps and hold 20 to 25 mph. The whole reason cushions exist: a speed hump on a fire-access route adds enough response-time delay that on a serious call it's the difference between a save and a loss. Below: the engineering, the use cases, and the design specs our crews build to.
What is a speed cushion?
A speed cushion is a series of 2 or 3 raised segments, each typically 6 feet by 6 feet by 3 inches tall, separated by wheel-track gaps approximately 6 feet wide. The total cushion device spans the full lane width. A passenger car cannot avoid hitting at least one segment with each wheel-track and is slowed by the contact. A fire truck with a wider axle straddles the segments and rides through the gaps without the vertical pulse a hump would deliver.
Why do speed cushions exist?
Single-purpose: emergency-vehicle compatibility. The Federal Highway Administration's Traffic Calming ePrimer documents fire-truck response-time delays of 5 to 10 seconds per speed hump. On a fire-response route with 4 or 5 humps, the cumulative delay can exceed 30 seconds. Speed cushions deliver most of the calming benefit (6 to 8 mph reduction in 85th-percentile passenger-car speed) with negligible fire-truck delay. The NFPA 1141 fire-access standard treats cushions as the device of choice on fire-response calming routes.
How Are Speed Cushions Different from Speed Humps?
| Variable | Speed hump | Speed cushion |
|---|---|---|
| Footprint | Full lane width, 12 to 14 ft long | Full lane width, 6 to 7 ft long |
| Construction | Single continuous raised section | 2 or 3 segments with wheel-track gaps |
| Passenger-car speed reduction | 7 to 9 mph | 6 to 8 mph |
| Fire-truck delay | 5 to 10 seconds per hump | 1 to 3 seconds per cushion |
| Bus impact | Moderate (lifts gurneys, jolts standees) | Lower (most buses straddle one gap) |
| Ambulance impact | High | Low |
| Material | Mostly asphalt | Asphalt or modular rubber |
| Cost per unit | $2,000 to $5,000+ | $2,500 to $8,000+ |
Where Are Speed Cushions Used?
Five primary use cases.
1. Fire-access roads
The original use case. Any road that serves as a fire-response corridor and also needs calming -- residential greenways with fire-truck access, hospital-campus drives, school-zone fire lanes -- is a candidate. The Portland Fire Code and the Tualatin Valley Fire and Rescue access standards both recognize cushions as the preferred calming device on response routes.
2. Bus routes
A speed table is gentler for buses than a cushion, but cushions work where buses are infrequent and the corridor needs more calming than a table provides. Most TriMet, LTD, and Lane Transit routes can ride cushions without service issues.
3. Mixed-traffic streets
Streets that serve a mix of passenger cars, residential traffic, and delivery vehicles benefit from cushions because the wheel-track gaps reduce delivery-vehicle suspension wear and complaint volume.
4. Long residential corridors with fire-access requirements
A series of 3 or 4 cushions spaced 250 to 350 feet apart can calm a corridor without imposing the cumulative fire-truck delay of an equivalent hump series.
5. Hospital and emergency-services campuses
Internal calming on campuses where ambulance flow is constant. A cushion slows visiting cars to 15 mph without delaying ambulance arrivals at the ED entrance.
Speed Cushion Dimensions and Specifications
| Variable | Recommended | Source |
|---|---|---|
| Segment length (travel direction) | 6 to 7 ft | ITE Traffic Calming Manual |
| Segment width (across road) | 5 to 6 ft | ITE / FHWA |
| Segment height | 3 to 3.5 in | ITE / FHWA |
| Wheel-track gap width | 5.5 to 6 ft | NFPA / fire-marshal |
| Number of segments per cushion | 2 or 3 (lane width dependent) | Local jurisdiction |
| Profile | Parabolic | ITE |
| Material | Asphalt or modular rubber | Property choice |
| Marking | Yellow chevrons on each segment | MUTCD W17-1 |
Types of Speed Cushions
Asphalt cast-in-place
Permanent installation. Crew forms each segment with a paving template, places hot-mix asphalt, compacts to grade, and shapes the parabolic profile. Lifespan 7 to 10 years on parking lots, 5 to 7 years on residential streets. Most common in Cojo's Portland-metro project work.
Modular rubber
Bolt-on units sized to the segment dimensions. Faster install (4 to 6 hours per cushion vs 1 to 2 days for asphalt), removable, and material-cost-only when the design needs adjustment. Lifespan 5 to 8 years before bolts and rubber sections fatigue. Common on private property where future flexibility matters.
Concrete cast-in-place
Niche use. Longer lifespan than asphalt (12 to 20 years) but harder to modify. Used on high-volume HOA entry roads where lifespan is the primary variable.
Marking and Signage Requirements
Per MUTCD Part 2C and the FHWA Traffic Calming ePrimer:
- Yellow chevron pattern on each segment face (6-inch stripes)
- W17-1 (HUMP) advance warning sign placed 100 to 200 feet ahead
- W17-1P advisory speed plaque showing the design speed
- Reflective markers on each segment edge
- HUMP advance pavement marking 50 to 100 feet upstream
Some jurisdictions use a custom CUSHION sign or marking instead of HUMP -- check the local agency's signage spec sheet.
How Effective Are Speed Cushions?
Effectiveness data from the FHWA CMF Clearinghouse and the ITE Traffic Calming Manual:
- Passenger-car speed reduction -- 6 to 8 mph (about 80 percent of an equivalent hump)
- Fire-truck delay -- 1 to 3 seconds (about 25 percent of an equivalent hump)
- Volume reduction -- 8 to 20 percent on the calmed segment
- Crash reduction -- 10 to 13 percent (close to humps)
Cushions trade about 1 mph of passenger-car speed reduction for 5 to 7 seconds of fire-truck delay savings per device. On any route where fire-truck delay matters, the trade is worth it.
Cojo's Tigard Cushion Install
In late 2025 Cojo installed a series of 3 asphalt speed cushions on a fire-access road in Tigard after the Tualatin Valley Fire and Rescue district flagged a proposed hump install as response-route incompatible. The corridor needed both calming (resident-petition driven) and uncompromised fire access. Pre-install 85th-percentile speeds were 28 mph; 60-day post-install measured 21 mph. TVF&R measured fire-truck delay through the cushion series at 5 seconds total (vs 25 to 30 seconds for an equivalent hump series).
Get a Speed Cushion Quote
If you are a fire marshal, traffic engineer, HOA board member, or property manager evaluating cushions vs humps, Cojo can provide a free site review. See the speed humps guide for the device-comparison context, speed cushion vs speed table for the table comparison, best speed cushions for product picks, speed cushion installation in Portland for a local example, or asphalt maintenance services for the install scope and pricing.