Convex Mirror Size Guide: Picking the Right Diameter
Diameter is the most consequential single decision in a mirror specification. Too small, and the cross-traffic image is unreadable at the actual viewing distance. Too large, and the mirror oversizes the application, costs more than it should, and clutters the sight line. The right diameter is set by the viewing distance and the typical approach speed -- not by what looks proportionate when standing under the bracket.
What Size Convex Mirror Do I Need?
The right convex mirror diameter is the one whose effective coverage radius (4 to 7 times its diameter) matches the actual viewing distance from the driver to the cross-traffic point. An 18-inch mirror covers 6 to 11 feet of viewing distance; a 24-inch covers 8 to 14 feet; a 30-inch covers 10 to 18 feet; a 36-inch covers 12 to 21 feet; a 48-inch covers 16 to 28 feet. For a typical outdoor parking-lot blind corner with 14 feet of viewing distance, the 30-inch is the workhorse pick. Cojo installed a 36-inch outdoor convex mirror at a Springfield warehouse-yard entry corner in February 2026 covering a 22-foot viewing distance to the dock-truck approach.
Coverage Distance by Diameter
The 4-to-7-times-diameter rule sets effective coverage radius. The full table:
| Diameter | Min coverage | Max coverage | Best application |
|---|---|---|---|
| 18 in | 6 ft | 11 ft | Indoor lobby, retail aisle corner, drive-thru pickup window short range |
| 24 in | 8 ft | 14 ft | Drive-thru, indoor garage corner, small lot blind corner |
| 30 in | 10 ft | 18 ft | Outdoor parking lot blind corner (workhorse), warehouse cross-aisle |
| 36 in | 12 ft | 21 ft | Multi-tenant retail, garage ramp turn, dock-corner backing zone |
| 48 in | 16 ft | 28 ft | Large warehouse yard, port/freight terminal, large industrial corner |
Why Does Diameter Set the Coverage Radius?
A convex mirror is a section of a sphere, and the radius of curvature determines the effective focal length. Larger diameter mirrors have larger radius of curvature, which translates to a wider effective coverage at any given viewing distance. The 4-to-7-times-diameter rule is empirical -- it captures the practical sweet spot where the image is small enough to be wide-angle and large enough to be readable.
The exact ratio for a specific mirror depends on the manufacturer's curvature spec, but the 4-to-7 range covers nearly every commercial parking-lot mirror on the market.
Diameter by Application
Drive-thru pickup window (short blind spot): 18 to 24 inches. Viewing distance is 6 to 14 feet from the pickup window to the queue blind spot. The 24-inch is the typical choice.
Outdoor parking lot blind corner (typical retail): 30 inches. Viewing distance is 10 to 18 feet from driver eye-line to cross-traffic point. The 30-inch covers the typical retail-center driveway-corner geometry.
Outdoor parking lot blind corner (extended distance, multi-tenant retail): 36 inches. Viewing distance is 12 to 21 feet for larger retail centers with longer driveway approaches. The 36-inch holds the cross-traffic image readable at the longer range.
Parking garage ramp turn: 30 to 36 inches depending on ramp curvature and viewing distance. Tighter ramps with shorter viewing distance take 30 inches; longer-radius ramps take 36 inches.
Warehouse cross-aisle (forklift): 26 to 30 inches. Viewing distance is 11 to 18 feet across typical 14- to 16-foot aisle widths. The 26-inch half dome is the cross-aisle workhorse.
Warehouse four-way intersection (forklift): 30 to 36 inches full dome. Ceiling-suspended at intersection center; coverage radius extends in all four directions.
Loading dock corner backing zone: 36 inches. Viewing distance is 16 to 21 feet from dock corner to truck approach. The 36-inch covers the long approach distance for a backing truck.
Large warehouse yard / freight terminal: 48 inches. Viewing distance is 18 to 28 feet across large open yards. Used where 36-inch coverage is insufficient.
Diameter and Approach Speed
Faster approach speeds need larger mirrors at the same viewing distance because the driver has less time to read the image:
| Approach speed | Recommended diameter at 14 ft viewing distance |
|---|---|
| 5 mph (parking-lot crawl) | 24 in |
| 10 mph (drive-aisle) | 30 in |
| 15 mph (lot exit) | 36 in |
| 25 mph (public-road approach) | 36 in to 48 in or sized per FHWA MUTCD Section 9C.06 |
What If I Cannot Match the Sweet Spot?
When viewing distance is shorter than the minimum for a small mirror, two adjustments help:
- Lower the mounting height slightly (toward the bottom of the application's range) to bring the angle of incidence into a usable range.
- Step up to the next diameter to expand the effective coverage range upward.
When viewing distance is longer than the maximum for a large mirror, options narrow:
- Step up to a larger diameter if available (48-inch outdoor convex is the largest standard size before custom).
- Add a second mirror to cover the longer approach in segments.
- Reconsider whether mirror is the right tool -- sight-line redesign may be more effective than fitting a mirror beyond its useful range.
Code and Standards References
- OSHA 1910.176(a) -- Storage aisle clearance and sight-line aid framing.
- FHWA MUTCD Section 9C.06 -- Sight distance for traffic-control devices on roadways; private-lot best practice draws from the same geometry.
- ADA Standards 502 -- Accessible parking approach sight-line considerations.
None of these mandate specific mirror diameters; they govern the underlying sight-line conditions diameter selection is meant to address.
Real-World Cojo Sizing: Springfield Warehouse Yard
On a Springfield warehouse-yard entry corner in February 2026, Cojo specified and installed a 36-inch outdoor convex mirror with a polycarbonate UV-stabilized face. Sizing math:
- Viewing distance from gate-attendant eye-line to dock-truck approach: 22 ft
- Approach speed: 8 to 12 mph (yard slow-zone)
- Driver eye-line in dock-truck: 6 ft above grade
- Mounting height: 10 ft to mirror center on a galvanized pole
- Tilt: 9 degrees down toward the dock-truck driver position
The 36-inch covers the 22-foot viewing distance comfortably (within the 12 to 21 ft range, slightly past the upper end), with margin for the 12-mph upper approach speed. A 30-inch would have been undersized for the 22-foot range; a 48-inch would have been oversized and expensive without functional benefit.
Pick the Diameter the Geometry Demands
Diameter is geometry, not aesthetics. Match the 4-to-7-times-diameter coverage range to the actual viewing distance, account for approach speed, and step up if the conditions push the upper end. The 30-inch is the workhorse for typical outdoor parking-lot blind corners; 24-inch for drive-thru; 36-inch for extended-distance retail and dock-corner; 48-inch for large warehouse yards. Cojo specifies diameters as part of every property-management retrofit. Contact Cojo for a sizing assessment on your site.