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A sensory input technique called haptic feedback conveys information to the user by using touch. It can manifest itself in a variety of ways, such as through pressure, warmth, texture, and vibration.
Haptic feedback can contribute to a more immersive user experience when combined with visual and audio information. Effects that can be programmed and customized to provide a variety of distinct emotions.
Haptic actuators function similarly to ceramic piezoelectric devices, but they are manufactured from flexible polymer film materials, resulting in extremely thin actuators as opposed to the relatively massive and heavy ceramic materials used in ceramic piezoelectric devices.
The vibration of a mobile phone is frequently cited as an example of haptic feedback technology. However, it simply serves as a single, straightforward example of how haptics may work. A user can engage with computer-based devices using haptics by getting tactile and force feedback.
The Global Haptic Feedback Actuator market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
A new AEC-Q200 certified customized haptic feedback actuator with 12 V operation for LCDs, touchscreens, and touch switches in automotive applications has been made available by Vishay Intertechnology.
Haptic feedback actuator by Vishay The Vishay Custom Magnetics IHPT-1411AF-ABA is a compact, two-piece device with mounting holes for simple installation and direct application of force. It offers high pulse and vibration capacity for clear tactile feedback in loud conditions.
The Automotive Grade IHPT-1411AF-ABA is an electromagnetic device that transforms electrical energy into a mechanical pulse or vibration for touch-based engagement. The input voltage’s amplitude and duty cycle can be adjusted to control the device.
A DC voltage pulse that energizes the haptic coil assembly produces a magnetic field that pulls the mounted dynamic core component toward it. When rendered inactive, With working voltages up to 16 V, the device’s quick response time of 5 ms can be used to provide a variety of high definition (HD) haptic effects. The actuator is perfect for harsh situations because it can operate in temperatures up to +105 °C.