Configure by Budget

Three factors determine price: pixel pitch, total panel count, and environment rating. Finer pitch (P1.875 vs P4) packs more LEDs per panel — higher component cost. Larger walls need more panels. Outdoor IP65 cabinets add weatherproofing, brighter LEDs, and heavier housing. A 10 ft indoor wall at P2.5 can cost a third of the same wall at P1.875.

Panel pricing drops at quantity thresholds. A single panel costs more per unit than an order of 50. This configurator applies volume tiers automatically — as your budget allows more panels, the per-unit price decreases, which in turn stretches your budget further. The result: doubling your budget often more than doubles your wall size.

The price shown here covers display panels. A turnkey installation also requires mounting structure, a video processor, signal and power cabling, and professional labor — typically 25–40% on top of panel cost. Power draw varies by panel: a P1.875 indoor panel draws 150 W at max brightness (800 nits), while a P4.81 outdoor panel draws 280 W to push 5,500 nits in direct sunlight. Actual electricity cost depends on your local utility rate, what's on screen, and how many hours per day the wall runs. Full white — every LED at max — is a test pattern, not real content. Actual draw depends on what you display: corporate presentations with dark backgrounds and logos run about 10–20% of max. Retail video with mixed bright and dark scenes averages 20–35%. A bright, white-heavy dashboard or menu board pushes 40–60%. Most installations land in the 15–30% range day to day. Heat follows the same math — every watt becomes heat in the room. A person gives off about 100 W. A 20-panel P1.875 wall (150 W/panel, max 800 nits) running typical corporate content at 20% load produces about 600 W of heat — 6 extra people. The same wall showing a bright white dashboard at 50% load jumps to 1,500 W — 15 people. Higher-brightness panels like the P3.91 (195 W/panel, max 1,500 nits) draw more total power because they push brighter — useful in sunlit lobbies, but more heat to manage. Indoor installations need rear ventilation (6–12 in. clearance behind the wall) or active exhaust fans. Panels operate reliably between 32–113 °F (0–45 °C); above that, brightness derates to protect the LEDs. Ask your HVAC contractor whether your current system can handle the load before installation. Outdoor panels are designed for wider extremes (−4 to 122 °F) and self-ventilate, but summer surface temperatures in direct sun can still trigger thermal protection if airflow is obstructed. LED panels are rated for 100,000+ hours — over 11 years of continuous operation.