The pin-compatible Xtrinsic MMA8652FC 12-bit and MMA8653FC 10-bit accelerometers provide low noise and advanced motion accuracy for power- and space-constrained mobile devices, including smart phones, tablets, digital cameras, portable navigation solutions and health care applications.
With a 56 percent reduction in volume compared to previous generations, Freescale is expanding its 3-axis accelerometer family with these new devices that are ideal for applications requiring compact size and low power consumption.
Freescale’s Xtrinsic MMA8652FC and MMA8653FC micro-electromechanical system (MEMS) based accelerometers support a range of features such as gesture detection, image stability, tap to control, anti-theft, and tumble and freefall detection. The MMA865xFC accelerometers, combined with Freescale’s sensor toolbox development tools, enable simpler, more efficient design cycles, decreasing developers’ time-to-market and lowering costs.
“Built to complement our extensive portfolio of sensing solutions, the Xtrinsic MMA865xFC family of accelerometers delivers the highest performance available of any 2x2 mm package on the market today,” said Seyed Paransun, vice president and general manager of Freescale’s Sensor & Actuator Solutions Division. “Using these sleek new accelerometers, designers can employ new levels of sensor intelligence through embedded algorithms and computation without compromising sensitivity or performance.”
Together with the host processor, Freescale’s MMA865xFC embedded accelerometers help make decisions about contextual environmental sensing and enable the ability to record highly precise movement for a wide range of devices, from smartphones to remote controls to health and activity monitoring equipment.
The MMA865xFC accelerometers deliver advanced sensitivity of 1 mg per LSB and feature six user configurable sample rates that can be set over a wide range (from 1.5 to 800 samples per second). The accelerometers incorporate Freescale’s MEMS transducer for improved space efficiency and an on-chip FIFO (first-in/first-out) memory buffer that allows for smarter system power management. When combined with the host processor, this can contribute to a consumption savings that can range up to 96 percent or higher depending on conditions of the microcontroller and output data rates chosen.