- Low-Power Modules (≤1W: Simple buttons, LEDs, basic controls)
- Push Buttons: 0.1-0.3W (LED backlight, debounce circuit)
- Status LEDs: 0.05-0.2W (RGB indicators, brightness control)
- Simple Sensors: 0.1-0.5W (Temperature, pressure, proximity)
- Basic Digital I/O: 0.2-0.8W (GPIO expansion, relay drivers)
- Standard Modules (1-3W: Rotary encoders, small displays, moderate processing)
- Rotary Encoders with LED Ring: 1-2W (24-step encoder, 16-LED feedback)
- Small OLED Displays: 1.5-2.5W (128×64 pixel, parameter display)
- Multi-Button Arrays: 1-3W (4×4 matrix, individual LED backlighting)
- Linear Faders: 1.5-2W (100mm travel, position sensing, LED strip)
- High-Power Modules (3-8W: Large displays, motors, intensive processing)
- Large Color Displays: 3-6W (320×240 LCD/OLED, backlight)
- Motorized Faders: 4-7W (100mm travel, servo motor, touch detection)
- DJ Jog Wheels: 5-8W (Motorized feedback, high-resolution encoding)
- Multi-Zone Drum Pads: 3-5W (Velocity sensing, LED rings, haptic feedback)
- Power-Hungry Modules (8-15W: Touchscreens, high-power actuators)
- Touchscreen Modules: 8-12W (5-7 inch capacitive, full-color display)
- High-Power Motors: 10-15W (Linear actuators, precision positioning)
- Audio Processing: 8-15W (DSP modules, effects processing, audio I/O)
- Video Processing: 10-15W (Video switching, format conversion, streaming)
- Realistic Power Distribution Models (70% low-power, 25% standard, 5% high-power typical)
- Dynamic Power Allocation and Load Balancing
- Power Priority Management (Essential vs Optional modules)
- Graceful Power Reduction Strategies