Environmental sensors for true user experience
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- Ilene Ward
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1 Environmental sensors for true user experience
2 Content Content... 2 MEMS and sensors portfolio... 3 Environmental sensors for wearable devices... 4 Environmental sensors for smart homes... 4 Environmental sensors for smart cities... 5 Environmental sensors... 6 STM32 ODE...10 Technical support...12
3 MEMS and sensors portfolio High-volume manufacturing capacity to provide fast time-to-market ST has shipped more than 9 billion micro-electromechanical sensors and has one of the industry s most extensive sensor portfolio including accelerometers, gyroscopes, digital compasses, inertial modules, MEMS microphones, and environmental sensors including pressure, temperature and humidity sensors. High-volume manufacturing capacity to provide fast timeto-market High-performance sensor fusion to improve the accuracy of multi-axis sensor systems in order to enable new emerging and highly-demanding applications, such as indoor navigation and location-based services High-quality products, already tested in different application fields, including mobile, portable, gaming, consumer, automotive and health care segments Multiple sites dedicated to MEMS, with full in-house dual sourcing, guaranteeing 100% security of supply COMPLETE SOLUTION Large sensor portfolio Integrated HW + SW solutions 100% security of supply Scalability of solutions ST is MEMS market leader 3
4 Environmental sensors for wearable devices APPLICATIONS Outdoor navigation and dead reckoning Indoor navigation and assisted location applications Detection of rapid weather changes Elevation gain and vertical speed for activity tracking Humidity and temperature measurements 4 Environmental sensors for smart homes APPLICATIONS Air quality monitoring Air conditioning monitoring Room thermostat Remote gardening monitoring Weather station Alarm, smoke detector
5 Environmental sensors for smart cities APPLICATIONS Ambient measurements Weather forecast Air quality monitoring Telecom, servers 5
6 Environmental sensors Collect humidity, atmospheric pressure and temperature accurate data for environmental awareness 6 STMicroelectronics offers a full kit of environmental sensors, including pressure, humidity and temperature sensors. These sensors rely on dedicated mechanical structures that guarantee the best performance even in challenging environmental conditions. They are adopted in many wearable devices to monitor health and for fitness programs, in smart home or other industrial applications to monitor weather conditions and guarantee good equipment safety. PRESSURE SENSORS ST s absolute digital output barometer integrates ST s consolidated pressure sensor with the new fully molded package to further improve robustness, reliability and moisture resistance while reducing package thickness. BENEFITS Ultra-small footprint Low-power consumption Fully-molded package ensure stability in any condition and water resistance Part number General description Package (mm) LPS22HB HLGA-10L 2 x 2 x 0.8 max LPS25H hpa absolute digital output barometer HCLGA-10L, 2.5 x 2.5 LPS25HB HLGA-10L 2.5 x 2.5 x 0.8 max Embedded compensation Supply voltage min-max (V) Yes Current consumption (Power Down Mode) typ (ma)
7 The LPS25HB is an ultra-thin piezo-resistive absolute pressure sensor. It includes a monolithic sensing element and a mixed signal ASIC, able to take the information from the sensing element and to provide the measurement information through digital serial interfaces. The sensing element, which detects absolute pressure, consists of a suspended membrane manufactured using a dedicated process developed by ST. The device may be configured to generate interrupt events based on a threshold crossing, when a new set of data is available or based on FIFO status. The event is available on a register as well as on a dedicated pin. LPS25HB BLOCK DIAGRAM Pressure sensing element MUX Analog Front-End ADC Digital processing I 2 C SPI Temperature sensor EVALUATION KITS Easy access to sensor features Data logging, acquisition, view and modify device settings Dual board configuration STM32 USB main board LPS25HB STEVAL-MKI adapter USB connector STM32 microcontroller 7 24-pin DIP module with sensor on board Easy to Use WinXP /Win7 GUI STEVAL-MKI109V2: Motherboard STEVAL-MKI165V1: Plug-in adapter with LPS25HB sensor. Once the adapter is plugged in, the board can be connected to a host PC via USB so the device s capabilities can be easily evaluated via an intuitive graphic user interface. X-NUCLEO-IKS01A1: MEMS & environmental sensors evaluation board based on STM32 microcontroller, Arduino UNO R3 compliant. For further information go to Test points JTAG/SWD STEVAL-MKI109V2
8 HUMIDITY AND TEMPERATURE SENSOR ST s HTS221/HTS221E are ultra-compact sensors that measure relative humidity and temperature. Housed in a tiny but robust HLGA package (2 x 2 x 0.9 mm), these environmental sensors are suitable for wearable and portable devices and all applications where comfort, health and safety might be negatively impacted by humidity and temperature variations. The HTS221/HTS221E sensors offer a fast response time thanks to the top holed cap solution and thanks to the presence of an embedded heater. The devices can update the final application offering the best trade-off between current consumption and performance. BENEFITS Ultra-small footprint Low-power consumption to address wearable devices Allows customized calibration for best design flexibility Part number General description Package HTS221E HTS221 Capacitive digital sensor for relative humidity and temperature Capacitive digital sensor for relative humidity and temperature Supply voltage min-max (V) Humidity accuracy 20 to +80% (RH) Interfaces HLGA-6L 2 x 2 x 0.9 mm ± 3% SPI, I 2 C HLGA-6L 2 x 2 x 0.9 mm ± 4.5% SPI, I 2 C TEMPERATURE SENSORS ST s temperature sensors include both analog and digital temperature sensor ICs. Both types are suitable for use in a wide range of applications, such as industrial, consumer, medical and computer market segments. 2 x 2 x 0.5 mm BENEFITS Small footprint High accuracy Dual alarm One-shot mode for energy saving 8 DIGITAL TEMPERATURE SENSORS ST s digital temperature sensors are high-precision CMOS ICs with a delta-sigma analog-to-digital converter (ADC) and I2C compatible serial digital interface. The on-board delta-sigma ADC converts the measured temperature to a digital value that is calibrated in degree Celsius. These temperature sensors feature low power consumption, up to 12-bit resolution and can operate over a temperature range as wide as -55 to +125 C. Part number Package Package size General description I/O Interface Operating voltage min-max (V) STCN75 MSOP(TSSOP8) 3 x 3 mm Digital temperature sensor and thermal watchdog SMBus/I 2 C compatible STDS75 MSOP(TSSOP8) 3 x 3 mm Digital temperature sensor and thermal watchdog SMBus/I 2 C compatible STLM75 STTS75 MSOP(TSSOP8), SO-8 MSOP(TSSOP8), SO-8 3 x 3 mm, 4.90 x 3.90 mm 3 x 3 mm, 4.90 x 3.90 mm Digital temperature sensor and thermal watchdog SMBus/I 2 C compatible Digital temperature sensor and thermal watchdog SMBus/I 2 C compatible STTS751 UDFN-6L 2 x 2 mm 2.25 V low-voltage local digital temperature sensor SMBus/I 2 C compatible APPLICATION SPECIFIC DIGITAL TEMPERATURE SENSORS WITH EEPROM Targeted for DDR3 and DDR4 DIMM modules in servers, desktops, and mobile personal computing platforms (laptops and other industrial applications). The thermal sensors are compliant with JEDEC specifications which defines memory module thermal sensor requirements for use in DRAM DIMMs (Dual Inline Memory Modules) with Serial Presence Detect (SPD), in which all the information concerning the DRAM module configuration (such as access speed, size, and organization) can be kept write-protected in one or more of the blocks of memory. 2 x 3 mm Part number Package Package size General description I/O Interface STTS2002 TDFN8 2 x 3 mm STTS2004 TDFN8 2 x 3 mm 2.3 V memory module temperature sensor with a 2 Kb SPD EEPROM 2.2 V memory module temperature sensor with a 4 Kb SPD EEPROM Operating voltage min-max (V) SMBus/I 2 C compatible SMBus/I 2 C compatible
9 ANALOG TEMPERATURE SENSORS The analog temperature sensors feature ultra-low power consumption and provide superior linearity at much lower currents than a high accuracy thermistor and can operate over a temperature range as wide as -55 to +130 C. It is ideal for regulating the gain of the power amp of any RF equipment including smart phones, GPS devices and medical instrumentation, where low power, small size, accuracy and linearity over the full temperature range are fundamental. Part number Package Package size General description STLM20 UDFN-4L, SOT323-5L 1 x 1.30 mm, 2 x 1.25 mm Ultra-low current 2.4 V precision analog temperature sensor 1 x 1.3 mm Operating voltage min-max (V) Operating supply current typ (ma) PRECISION TEMPERATURE SENSORS They can be easily calibrated. The circuit has a dynamic impedance of less than 1Ω and operates within a range from 450µA to 5mA without alteration. Calibrated at +25 C, with a typical error of less than 1 C over a 100 C temperature range, unlike other sensors, the LM135, LM235, LM335 have a linear output. Part number Package General description LM135, LM235, LM335 SO-8, TO-92 Precision temperature sensors EVALUATION KITS Easy access to sensor features Temperature acquisition Data logging Dual board configuration STM32 USB main board Plug-in module with temp sensor on board Easy to Use WinXP /Win7 GUI 9 STEVAL-IFS017V3 (STTS751) STEVAL-IFS017V1 (Mainboard) Part number STEVAL-IFS017V1 STEVAL-IFS017V3 STEVAL-IFS017V8 Package Mainboard based on STM32 microcontroller Daughter Card with STTS751 Daughter Card with STTS2004 temp sensor with eeprom
10 STM32 ODE STM32 Nucleo development boards STM32 Nucleo expansion boards STM32 Open Development Environment STM32Cube software STM32Cube expansion software Open Development Environment 10 The STM32 Open Development Environment (STM32 ODE) is an open, flexible, easy and affordable way to develop innovative devices and applications based on the STM32 32-bit microcontroller family combined with other state-of-the-art ST components connected via expansion boards. It enables fast prototyping with leading-edge components that can quickly be transformed into final designs. The STM32 ODE is made up of four elements: STM32 Nucleo development boards. A comprehensive range of affordable development boards for all STM32 microcontroller series, with unlimited unified expansion capability, and with integrated debugger/programmer. STM32 Nucleo expansion boards. Boards with additional functionality to add sense, control, connectivity, power, audio or other functions as needed. The expansion boards are plugged on top of the STM32 Nucleo development boards. More complex functionalities can be achieved by stacking the expansion boards. STM32Cube software. A set of free-of-charge tools and embedded software bricks to enable fast and easy development on the STM32, including a Hardware Abstraction Layer, middleware and the STM32CubeMX PC-based configurator and code generator. STM32Cube expansion software. Expansion software provided free of charge for use with STM32 Nucleo expansion boards and compatible with the STM32Cube software framework. The STM32 Open Development Environment is compatible with a number of IDEs including IAR EWARM, Keil MDK, mbed and GCC-based environments.
11 FOCUS ON THE NEW NUCLEO EXPANSION BOARD FOR ENVIRONMENTAL SENSORS The X-NUCLEO-IKS01A1 is a MEMS inertial and environmental sensor evaluation board system. It is compatible with the Arduino UNO R3 connector layout, and is designed around STMicroelectronics LSM6DS0 3-axis accelerometer + 3-axis gyroscope, the LIS3MDL 3-axis magnetometer, the HTS221 humidity sensor and the LPS25HB pressure sensor. The board can also be used to evaluate other MEMS or sensors available by connecting standard DIL 24 socket-compatible adapter board. The X-NUCLEO-IKS01A1 interfaces with the STM32 microcontroller via the I 2 C pin, and it is possible to change the default I 2 C port. X-NUCLEO-IKS01A1 OPEN SOFTWARE EXPANSION The Open Software Expansion development suite offers drivers, middleware and application software to jump start your STM32 design with ST products like MEMS, Bluetooth low energy, sensors, etc. It enables fast prototyping using the STM32 Open Development Environment with leading-edge components that can quickly be transformed into final designs. The Open Software Expansion environment is made up of several free libraries, such as: Open.MEMS: sensor fusion library for STM32 platform Open.RF: BlueNRG Bluetooth low energy library for the most commonly-used BT smart profiles Open.MEMS Open.MEMS libraries combine data from several sensors achieving the high level of accuracy required by portable and wearable devices and other emerging applications, such as IoT. The osxmotionfx library is the evolution of inemo Engine Pro sensor fusion algorithm and API, ported to the STM32 Open Development Environment. Like its predecessor, the osxmotionfx is filtering and predictive software that uses advanced algorithms to integrate and read real-time outputs from multiple sensors, achieving accurate position information, independently of environmental conditions. The fusion of realtime motion-sensor data is set to significantly improve user experience by increasing accuracy, resolution, stability and response time in advanced motion-based applications in the consumer, computer, industrial and medical fields. The osxmotionfx sensor fusion library is designed for use in combination with the STM32F4 Nucleo development board (NUCLEO-F401RE). When installed on your PC, Open.MEMS libraries must be activated through a licensing wizard tool (included into the osxmotionfx software package). BENEFITS Licensing wizard tool makes it easier to quickly get started evaluating your sensor fusion design 11 APPLICATION EXAMPLE: BLUEMICROSYSTEM1 The BLUEMICROSYSTEM1 framework uses Bluetooth low energy, inertial (e.g. Motion MEMS) and environmental Open.Framework: (e.g. humidity, pressure, temperature) BlueMicrosystem1 Application example sensors. It enables fusing together and transmitting real-time sensor data to a smartphone (Android- or ios-based) via Bluetooth. BLUEMICROSYSTEM1 provides an implementation example for the STM32F4 Nucleo platform equipped with the MEMS and environmental sensor expansion board (X-NUCLEO-IKS01A1) and the Bluetooth low STM32CubeF4 energy expansion board (X-NUCLEO-IDB04A1). BLUEMICROSYSTEM1 is suitable for all applications and markets, including IoT and wearables, that need to effectively sense, process and transmit valuable information with very low power consumption and high performance.
12 Technical support TECHNICAL DOCUMENTS To see all technical documents and files for a specific product, go to and select the product you are interested in through our product catalogue. Each part number has a corresponding web page where you can easily find all associated technical documents and resources. DEVELOPERS LINKS For more information about STM32ODE: To download Open Software suites: For more information about expansion boards: To take part to our forums: ONLINE SUPPORT For technical support or questions about product availability, pricing, where-to-buy, or other related issues, go to STMicroelectronics - June Printed in United Kingdom - All rights reserved The STMicroelectronics corporate logo is a registered trademark of the STMicroelectronics group of companies All other names are the property of their respective owners Order code: BRENVSENS0615 For more information on ST products and solutions, visit
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