STMicroelectronics is launching a novel human-presence and -motion detector to enhance security systems, home automation equipment, and IoT devices that typically use passive infrared (PIR) sensing.

The STHS34PF80 sensor contains thermal transistors that can detect stationary objects, unlike conventional PIR detectors that require the detected object to be moving to produce a measurable response from the sensor. Also, while PIRs need a Fresnel lens to sense moving objects, ST’s novel detector allows simpler, lens-free construction.

Embedding a smart algorithm for presence and motion detection, the STHS34PF80 targets alarms and security systems, home automation, smart lighting, IoT devices, smart lockers, and smart wall pads. Its lens-free range of four meters and 80° field of view cover a large area in front of the sensor. With an operating current of 10µA, power consumption is less than a conventional PIR, and the 3.2mm x 4.2mm x 1.455mm surface-mount package is compact and suited to automated high-speed assembly. The sensor has high resistance to unwanted effects of direct lighting and high immunity to electromagnetic interference (EMI).

The STEVAL-MKI231KA simplifies experimenting with the STHS34PF80. Plugging into the X-NUCLEO-IKS01A3 or the STEVAL-MKI109V3 lets developers use ST’s Unico-GUI graphical interface to configure the IR sensor and take measurements within a simplified workflow. Drivers for the STHS34PF80 are available on GitHub. In addition, a ready-to-use library for compensating and detecting presence of people or objects is available in the X-CUBE-MEMS1 software package. Users can quickly start running simple applications, taking advantage of the STHS34PF80 and testing the results to begin creating an application.

The STHS34PF80 contains thermal MOSFETs (TMOS) that are sensitive to the heating effects of infrared radiation incidents on their gates, as well as digital readout circuitry integrated efficiently on the same chip using ST’s mature and reliable silicon-on-insulator (SOI) CMOS technology. The SOI’s architecture facilitates micromachining with ST’s proven MEMS (microelectromechanical systems) processes to thermally isolate the TMOS for accurate temperature sensing.

The TMOS is powered at a sub-threshold voltage below that needed to turn the transistor fully on. In this mode, the drain-source current is highly temperature dependent and produces an accurately measurable response to minimal infrared radiation. This enables the sensor to detect human presence, via infrared emissions, whether the person is moving or still.

Another benefit of sub-threshold operation is that the transistor consumes very low power, allowing battery-powered sensors that contain the STHS34PF80 to operate for long periods between charging or battery replacement. In addition, the standard CMOS fabrication technology ensures cost-effective sensor production with high wafer yield, also leveraging sub-micron transistor geometry for small sensor dimensions. This contrasts with PIR sensors, whose sensitivity can depend on pyroelectric-pixel size. Moreover, the integrated digital interface allows direct connection to the host without analog front end circuitry.

The STHS34PF80 is in production now and available in a 10-lead land-grid array (LGA) package, priced from $2.60 for orders of 1000 pieces.