Kraftsensor med høj modstandsdygtighed
Alps Alpine introducerer nye kraftsensor, der er optimeret til brug i pen-formede devices, der typisk anvendes til at skrive eller male med (in english)Alps Alpine Co., Ltd., a manufacturer of high-quality electronic products, has added the HSFPAR004A Force Sensor to its lineup. The sensor enhances impact resistance while maintaining the industry’s smallest size and offers high linearity and high resolution, which makes it ideal for use in stylus pens and other input devices.
These days, electronic blackboards and tablets are being used on several occasions, such as school sessions and company meetings. Therefore, demand for pen-shaped devices (stylus pen), which are mostly used for the purpose of working creatively – including digital drawing and painting – has been growing.
Stylus pens, or styli, contain force sensors that trace the trajectory of the pen tip and then reproduce different thicknesses in the artwork corresponding to the pressure applied. Styli require a sensor with high resolution and linearity, but also need to be sturdy enough to not break when the pen is unintentionally dropped.
The HSFPAR004A lives up to these requirements because it maintains the features of already existing products for high linearity and has the following key features:
• High impact resistance proved by a breaking load of 55 N
• Detects micro force of less than 0.01 N
• Long operating life of more than 1 million cycles
• Resistant to external magnetic fields and electric fields
The improved impact resistance of the sensor is achieved with the extension of the actuator diameter of the sensing zone from the existing 0.20 mm to the new 0.40 mm, while at the same time keeping the rounded peripheral edge to disperse impacts.
Therefore, the breakage risk of the sensor in stylus pens is reduced in case the pen is unintentionally dropped, while still guaranteeing smooth pen pressure expression without spoiling the easy integration into end products.
Mass production has been underway since March.