LPS33HW MEMS pressure sensor: 260-1260 hPa absolute digital output barometer with water-resistant package Datasheet - production data Applications Wearable devices Altimeters and barometers for portable devices GPS applications Weather station equipment Description The LPS33HW is an ultra-compact piezoresistive pressure sensor which functions as a digital output barometer. The device comprises a Features sensing element and an IC interface which 2 communicates through I C or SPI from the Pressure sensor with water-resistant package sensing element to the application. 260 to 1260 hPa absolute pressure range The sensing element, which detects absolute Current consumption down to 3 A pressure, consists of a suspended membrane High overpressure capability: 20x full scale manufactured using a dedicated process developed by ST. Embedded temperature compensation 24-bit pressure data output The LPS33HW is available in a ceramic LGA package with metal lid. It is guaranteed to operate 16-bit temperature data output over a temperature range extending from -40 C ODR from 1 Hz to 75 Hz to +85 C. The package is holed to allow external SPI and IC interfaces pressure to reach the sensing element. Gel inside the IC protects the electrical components from Embedded FIFO water. Interrupt functions: data-ready, FIFO flags, pressure thresholds Supply voltage: 1.7 to 3.6 V ECOPACK lead-free compliant Table 1. Device summary Order codes Temperature range C Package Packing LPS33HWTR Tape and reel -40 to +85C CCLGA-10L LPS33HW Tray July 2017 DocID030522 Rev 1 1/50 This is information on a product in full production. www.st.comContents LPS33HW Contents 1 Block diagram and pin description . 7 2 Mechanical and electrical specifications 9 2.1 Mechanical characteristics . 9 2.2 Electrical characteristics 10 2.3 Communication interface characteristics . 11 2.3.1 SPI - serial peripheral interface . 11 2 2.3.2 I C - inter-IC control interface 12 2.4 Absolute maximum ratings 13 3 Functionality 14 3.1 Sensing element 14 3.2 IC interface 14 3.3 Factory calibration 14 3.4 Interpreting pressure readings . 15 4 FIFO . 16 4.1 Bypass mode 16 4.2 FIFO mode 17 4.3 Stream mode 18 4.4 Dynamic-Stream mode . 19 4.5 Stream-to-FIFO mode . 20 4.6 Bypass-to-Stream mode 21 4.7 Bypass-to-FIFO mode . 22 4.8 Retrieving data from FIFO 22 5 Application hints . 23 5.1 Soldering information 23 6 Digital interfaces . 24 6.1 IC serial interface . 24 2 6.2 I C serial interface (CS = High) 24 2 6.2.1 I C operation . 25 2/50 DocID030522 Rev 1