Haptic Light-Emitting Diodes: Miniature, Luminous Tactile Actuators

We present Haptic Light-Emitting Diodes (HLEDs), luminous thermopneumatic actuators that directly convert pulsed light into mechanical forces and displacements. Each device packages a miniature surface-mount LED in a gas-filled cavity that contains a low-inertia graphite photoabsorber. The cavity is sealed by an elastic membrane, which functions as a working diaphragm. Brief optical pulses heat the photoabsorber, which heats the gas. The resulting rapid pressure increases generate forces and displacements at the working diaphragm. Millimeter-scale HLEDs produce forces exceeding 0.4 N and displacements of 1 mm at low voltages, with 5 to 100 ms response times, making them attractive as actuators providing tactile feedback in human-machine interfaces. Perceptual testing revealed that the strength of tactile feedback increased linearly with optical power. HLEDs devices are mechanically simple and efficient to fabricate. Unusually, these actuators are also light-emitting, as a fraction of optical energy is transmitted through the membrane. These opto-mechanical actuators have many potential applications in tactile displays, human interface engineering, wearable computing, and other areas.