Miniaturizing tech is a perpetual problem for wearable makers. The smaller the gadget, the higher it’s for wearability. The factor is, that often comes on the expense of battery life. Nevertheless, Silicon Labs is hoping its newest xG27 chipset is small and energy-efficient sufficient to spark some huge concepts within the medical tech house — like a saliva reader that’s so tiny it may be mounted onto a tooth.
In line with Silicon Labs, the xG27 household of SoCs consists of the BG27 and the MG27. Each are constructed across the ARM Cortex M33 processor, however the BG27 focuses on Bluetooth, whereas the MG27 helps Zigbee and different protocols. As for a way small these chips are, the xG27 SoCs vary from 2mm-squared to 5mm-squared — roughly the width of a No. 2 pencil’s lead tip to the width of the pencil itself. It’s not the world’s smallest Bluetooth chip, however Silicon Labs spokesperson Sam Ponedal tells The Verge that’s solely by “fractions of a millimeter.”
That is neat from a technical perspective, however what’s cooler is the BG27 is at present getting used to develop an precise product — the aforementioned tooth-mounted wearable sensor. Lura Well being, a medical gadget maker, says it’s utilizing the chip for its “salivary diagnostic sensor.” The sensor is sufficiently small to be glued to a molar (or positioned inside a “good retainer”) with the intent of regularly monitoring a affected person’s saliva. That, in flip, would permit dentists and clinicians to doubtlessly take a look at for greater than 1,000 well being situations.
This wouldn’t be the primary time that an organization has pitched this sort of futuristic well being tech. However whereas most makes an attempt are thwarted by the FDA regulatory course of, Lura Well being claims it has simply completed scientific trials for the sensor with UConn Orthodontics and is at present making ready to endure the FDA regulatory course of. If all goes nicely, the product might hit the market in 12-18 months.
As for different use instances, Silicon Labs says its chips are good candidates for medical patches, steady glucose screens, and wearable EKGs. That’s as a result of they will function on as little as 0.8 volts and may swap to a “shelf mode” that reduces power use throughout transportation and whereas saved on cabinets. These options aren’t fairly as interesting in shopper wearables, but it surely opens the door for larger wearable use in hospitals and scientific settings.