BESTARSENSOR Vibration Module for Virtual Button BPH27C3.6A1NF HF
| Length | 75±0.1mm |
| Width | 50±0.1mm |
| Free capacitance | 145±20%nF(at120Hz,1V) |
| Dielectric loss | ≤ 0.06 |
| Resonant frequency | 3.5±1KHz |
| Resonant impedance | ≤500Ω |
| Operating temperature | -25...+65℃ |
| Storage temperature | -40...+85℃ |
| Metal Material | Brass |
Features:
● Large displacement/high acceleration
● Facilitates compact design
● Fast response time
● Integrated feedback and sensing
Description
Vibration Module BPH27C3.6A1NF HF is a highly sophisticated haptic feedback element designed with specific purposes in mind to real-world usage in the form of virtual buttons found in consumer and industrial, medical, and the internet of things control systems. Mainly used to give the user accurate, responsive physical touch feedback, mimicking a physical button being pressed in an otherwise all-digital, or touchscreen interface. Extremely conducive in increasing the element of confirmation by creating the controlled vibrations during a time of interaction, which is also useful in terms of usability and the accuracy of operations.
The module operates on the basis of a small electromechanical actuation system capable of large displacement and high acceleration output, meaning every haptic pulse is noticeable and clearly identifiable. This renders it extremely useful in a setting in which visual or auditory verification cannot be adequate or otherwise impossible. The minute reaction time of the module provides close-to-instantaneous feedback, very much in line with user actions to provide a fast, natural and intuitive interaction experience.
Architected with such devices as handheld controllers, smart medical touch panels, industrial monitoring consoles and miniature IoT control units with limited space, the vibration module is also placed in tight structural combination so as to optimize usage to these types of devices. It has a low level of power consumption which makes it perfect as a portable and energy-sensitive product since its functionality can be extended without a penalty on the battery life.
This is a distinguishing aspect of the module as it has combined feedback function and sensing functions. This allows it to both provide vibration feedback, but also as a component of a closed-loop control system for sensing touch as well as verifying actuation feedback in real-time. In this type of integration, the complication of sensing components is lowered since fewer components are utilized in designing the systems and there is a lot of reduction in design complexity of the system.
Packing powerful performance, tight control, and great flexibility, the Vibration Module is the key to reducing the smallest form factor to the highest quality haptic feedback system, suitable to any virtual button-based interface.
