P2.5 Can-Shaped LED Screen Power Consumption Range and Calculation
Power Consumption Range and Conversion
In engineering applications, the power consumption of a P2.5 can-shaped LED screen (essentially a cylindrical P2.5 indoor LED module) typically falls within the following range:
Average Power Consumption: Approximately 245–400 W/m²
Peak Power Consumption: Approximately 750–1100 W/m²
Converted to electricity consumption (kWh):
Average Power Consumption ≈ Screen Area (m²) × Average Power Consumption (kWh/m²)
Peak Power Consumption ≈ Screen Area (m²) × Peak Power Consumption (kWh/m²)
Note: Differences may occur due to variations in driver ICs, scanning methods, brightness settings, and cabinet structures from different manufacturers. Since can-shaped LED screens are mostly used indoors, indoor P2.5 parameters are generally sufficient for evaluation.
Typical Specifications Comparison
Pixel Density: 160,000 dots/㎡, common P2.5 specification
Cabinet Example: 480×480 mm, common cabinet, easy to estimate by area
Average Power Consumption: 245 W/㎡ (≈30 W/cabinet), P2.5 cabinet parameters from a certain manufacturer
Peak Power Consumption: 750 W/㎡ (≈90 W/cabinet), P2.5 cabinet parameters from the same manufacturer
Another common range: 300–400 W/㎡ (average), common range in the industry
Peak for other specifications: 1100 W/㎡ (maximum), visible for high-brightness/high-refresh-rate models
The above data comes from multiple P2.5 product specifications for easy horizontal reference and calculation.
Quick Estimation Example
Example 1: 10㎡ tank-shaped screen, based on an average of 300 W/㎡, running for 5 hours: 10 × 0.3 kW × 5 h = 1.5 kWh (1.5 kWh).
Example 2: A 10㎡ can-shaped screen, assuming a peak power consumption of 750 W/㎡, operates for 0.5 hours: 10 × 0.75 kW × 0.5 h = 3.75 kWh (3.75 kilowatt-hours).
Note: Actual average power consumption is related to content complexity, brightness settings (such as white field ratio), refresh rate/grayscale, scanning method, etc. High-brightness programs will increase average power consumption. It is recommended to refer to the manufacturer's measured parameters and set the brightness limit and timed dimming strategy as needed.