Since mCube already had the industry's smallest MEMS+CMOS die at 1-by-1 millimeters allowing room for larger batteries in wearables they decided to concentrate on technologies that would help extend the battery life of fitness, health monitoring and activity tracking wearables from hours or days, to weeks or months, according to chief executive officer (CEO) of mCube, Ben Lee.
"In a nutshell we already make the world's smallest accelerometer a 1-by-1 die in a 2-by-2 package," said Leein advance of their wearables announcement. "And we wanted to be the first to design an accelerometer specifically for the wearables market, so we redesigned our ASIC to fulfill their needs."
As an example, Lee described how their wearable MEMS chips saves power for a Bluetooth headset. When you set it down it goes into "sniff" activity-mode, which consumes only 0.6 µA by only sampling the accelerometer often enough to sense it being picked back up. When the user does pick it back up, mCube's redesigned ASIC is fast enough to turn the headset back on and pair before the user even has it in their ear, according to Lee.
In fact, mCube has designed into its new ASIC three low-power modes for different functions sniff at 0.6 µA, single-sample mode at 0.9 microAmps and a 25-Hz sample rate, and a 4.7 µA mode with a 50-Hz sample rate and full operation.
It also allows the designer to adjust the sample rate from between 0.4-and-400 Hz as well as adjust its resolution for 8-, 10- or 12- bits (with a 32-sample first-in first-out, FIFO, buffer) or at 14-bits for single samples, giving wearable designers a full spectrum of options for saving the maximum amount of power while meeting the specifications of their application, thus extending the battery life of the wearable, according to mCube.