LIS3DHH MEMS motion sensor: three-axis digital output accelerometer Datasheet - production data Applications Precision inclinometer Platform and antenna stabilization Leveling instruments Ceramic cavity LGA-16 Description (5x5x1.7 mm) The LIS3DHH is an ultra-high-resolution and low- noise three-axis linear accelerometer. The LIS3DHH has a full scale of 2.5 g and is Features capable of providing the measured accelerations to the application through an SPI 4-wire digital 3-axis, 2.5 g full-scale interface. Ultra-low noise performance: 45 g/Hz The sensing element is manufactured using a Excellent stability over temperature dedicated micromachining process developed by (<0.4 mg/C) and time STMicroelectronics to produce inertial sensors 16-bit data output and actuators on silicon wafers. SPI 4-wire digital output interface The IC interface is manufactured using a CMOS Embedded temperature sensor process that allows a high level of integration to design a dedicated circuit which is trimmed to 12-bit temperature data output better match the characteristics of the sensing Embedded FIFO (depth 32 levels) element. High shock survivability The LIS3DHH is available in a high-performance Extended operating temperature range (low-stress) ceramic cavity land grid array (CC (-40 C to +85 C) LGA) package and can operate within a temperature range of -40 C to +85 C. ECOPACK , RoHS and Green compliant Table 1. Device summary Order codes Temperature range C Package Packaging LIS3DHHTR -40 to +85 CC LGA-16 (5x5x1.7 mm) Tape and reel October 2017 DocID030220 Rev 3 1/29 This is information on a product in full production. www.st.comContents LIS3DHH Contents 1 Pin description . 6 2 Mechanical and electrical specifications 7 2.1 Mechanical characteristics . 7 2.2 Electrical characteristics . 8 2.2.1 Recommended power-up sequence 9 2.3 Temperature sensor characteristics 9 3 Absolute maximum ratings 10 4 Communication interface characteristics . 11 4.1 SPI - serial peripheral interface 11 4.2 SPI bus interface . 12 4.2.1 SPI read . 13 4.2.2 SPI write 14 5 FIFO . 15 5.1 Bypass mode 15 5.2 FIFO mode 16 5.3 Continuous mode . 17 5.4 Continuous-to-FIFO mode 18 5.5 Bypass-to-Continuous mode 19 6 Register mapping 20 7 Register description 21 7.1 WHO AM I (0Fh) . 21 7.2 CTRL REG1 (20h) 21 7.3 INT1 CTRL (21h) . 22 7.4 INT2 CTRL (22h) . 22 7.5 CTRL REG4 (23h) 23 7.6 CTRL REG5 (24h) 23 7.7 OUT TEMP L (25h), OUT TEMP H (26h) . 24 2/29 DocID030220 Rev 3