TDK expands its portfolio of PowerHap piezo actuators with haptic feedback with the miniaturized 2.5G type measuring 9 mm x 9 mm x 1.25 mm. At the maximum operating voltage of 60 V the actuator achieves an acceleration of 2.5g of a 100g mass. It offers a maximum displacement of 35 µm or a large force up to 4N.
The component complements the existing 7G and 15G PowerHap types. With their dimensions of 12.7 mm x 12.7 mm x 1.9 mm and 26 mm x 26 mm x 2.4 mm, respectively, these actuators achieve an acceleration of 7 g and 15 g under a load of 100 grams. They also generate forces of up to 10 N (7G type) and 20 N (15G type). Both types are designed for a maximum operating voltage of 120 V and offer a displacement of up to 65 µm and 200 µm, respectively.
Compared with conventional electromagnetic solutions such as eccentric rotary motors (ERMs) and linear resonant actuators (LRAs), PowerHap actuators feature the highest acceleration and force, the lowest insertion height and the fastest response time of <1 ms, all with an extremely low energy consumption of 1 mJ to 8 mJ, depending on type. Moreover, PowerHap offers integrated sensor functionality in a single component.
- actuators can excite the entire stimulation range between 1 Hz and 1 kHz and have no significant frequency or amplitude limitations. They therefore enable customized haptic feedback to key human mechanoreceptors, so that designers can custom develop high-definition haptic feedback profiles that users expect from cutting-edge HMIs. Applications for the piezo actuator with haptic feedback can be found, for example, in vehicles, smartphones and tablets, household appliances, ATMs and vending machines, game controllers, industrial equipment and medical devices.
Main features include:
- Forces of 4 N to 20 N
- Displacement of 35 µm to 200 µm
- Acceleration of up to 15 g with a load of 100 grams
- Insertion height of 1.25 mm to 2.4 mm
- Response time of <1 ms
- Energy consumption per click of 1 mJ to 8 mJ