Creating a custom board with sensors can be complex, as designers must first build custom hardware and firmware to validate their concepts and then build prototypes before starting any field trials. From there, they generally spend a significant amount of time evaluating sensors and existing solutions. Maxim says its hSensor Platform eliminates the extra 3-6 months it typically takes to develop a prototype by bringing all the hardware building blocks together on one PCB, as well as having readily-accessible hardware functionality with the ARM mbed hardware development kit (HDK).
The hSensor Platform, offered as the MAXREFDES100# reference design, includes an hSensor board, complete firmware with drivers, a debugger board, and a graphical user interface (GUI). With access to firmware source code on Maxim’s website, the platform allows designers to load algorithms for different use cases and adapt to their specific applications. Engineers can download the firmware to optimize designs, enable faster evaluations, and reduce time to market. The hSensor Platform is presented as the only complete development platform available today, for health, wellness, and high-end fitness applications such as chest straps, ECG patches, wrist-worn devices, thermometers, disposable temperature patches, blood oxygen measurement, smart weigh scales, and bio authentication. For example, one can design a wearable patch to continuously record ECG on a single CR2032 battery for twice as long compared to today’s existing solutions—a power savings of more than 50%.