Xiaomi Mix Fold 2 Uses Cambridge Mechatronics’ SMA OIS Technology

Cambridge Mechatronics Limited (CML) is very happy to announce that it is Shape Memory Alloy (SMA) actuator continues to be selected to allow Optical Image Stabilisation in Xiaomi’s recently launched foldable handset, this mixture Fold 2.

The Xiaomi Mix Fold 2 features the most recent Qualcomm Snapdragon 8 Gen 1 chipset, an attractive 8.02-inch foldable display, along with a spectacular camera specs. The primary rear camera is really a 50MP sensor from The new sony, with world leading optical image stabilisation enabled using CML’s Shape Memory Alloy actuator technology.

The initial qualities of Shape Memory Alloy (SMA) material lend themselves well to create actuators for applications requiring high pressure inside a miniature form factor. The continuing trend for big format image sensors with large, heavy optics in smartphone cameras has fuelled the prosperity of SMA to displace conventional electromagnetic actuators in high-finish handsets.

A vital benefit of SMA technology over conventional alternatives is the possible lack of magnets within the actuator design. The magnets utilized in Voice Coil Motor (VCM) actuators may cause interference with RF components or any other cameras within the handset. This Mixture Fold 2 also incorporates strong magnets to latch the handset closed keep. By adopting SMA technology, Xiaomi gain the versatility to optimise design from the components within the handset and steer clear of any magnetic interference around the camera system.

CML’s actuator designs are shipping in high volume in multiple premium smartphones. For more information about Cambridge Mechatronics and SMA technology, please get in contact.

About Cambridge Mechatronics

Cambridge Mechatronics Limited (CML) is really a world-leading developer of mechanical, optical, electrical, plastic and software designs for system level solutions having its Shape Memory Alloy (SMA) platform technology. Solutions for example actuators according to SMA wire (that is as thin like a real hair) could be controlled towards the precision from the wave length of sunshine. These actuators are particularly suitable for applications that need high amounts of precision and pressure, inside a fast, compact and light-weight design.