Semiconductor solutions for healthcare applications STMicroelectronics www.st.com/medical At STMicroelectronics, we have developed our healthcare product and service portfolio based on long-term research. We are involved in government-funded programs, collaborate with international universities and are a member of acknowledged healthcare consortia, such as the Continua Health Alliance. Healthcare market segments and application examples Portable, telehealth monitoring Wellness, fitness, assisted living Clinical, diagnostics and therapy Blood pressure monitors Temperature meters Blood glucose meters Blood oximeters Hearing aids Portable ECG Pedometers Heart rate monitors Fall detection Wheelchairs Hospital beds Drug dispensers Patient monitoring Respirators Infusion pumps Automated external defibrillators (AED) Electrocardiograms (ECG) Medical imaging Ultrasound Magnetic resonance imaging (MRI) Positron emission tomography (PET) Endoscopes Our position among the top-ranked semiconductor manufacturers, combined with strong cooperation with global healthcare leaders, enables us to develop optimized process technology and to design semiconductor devices with best-fit characteristics. We are addressing the healthcare market with a broad portfolio of devices, such as discrete devices, low-power microcontrollers, image sensors, memories, MEMS (micro-electro-mechanical systems), thin-film batteries and analog, digital and mixed-signal ICs. In addition to our standard products, ST offers our customers the possibilities of application-specific devices and access to our leading-edge silicon processes and package technologies for customer-designed products to give added performance and value to the end product. Let STMicroelectronics’ experience in the healthcare and medical markets help you meet your customers’ needs. Typical healthcare application diagram Sensors Real world AFE Temperature Pressure Light Vibration Chemical Air flow Acoustic Humidity Hall Ultrasound ……… Amp Display interface Display User interface Keypad Audio interface Speaker ADC Control unit Connectivity ZigBee Antenna Protection Bluetooth USB Memory Power management AC-DC converter 2 Battery charger DC-DC converter Ethernet Data exchange Featured products HMx011 Integrated diagnostic-quality bio-potential acquisition IC with 1, 2 or 3 differential channels The HMx01D devices are fully integrated, diagnostic-quality bio-potential acquisition systems with 1, 2 or 3 differential channels. A fully-integrated high-pass filter removes the half-cell DC value so the channels work with the AC component only. Each channel provides high resolution and low-noise conversion of bio-potential signals up to 10 kHz. The input connection circuit matrix guarantees maximum flexibility in terms of electrodes, cables and connectors. The D versions include a dedicated impedance measurement channel that can be used to measure both body impedance average value and body impedance variation due to respiration. This channel delivers both the real and the imaginary parts of the body and the breathing impedances. Key features QQ QQ QQ 1, 2 or 3 bio-potential acquisition channels with integrated analog high-pass filters 1 bio-impedance measurement channel (D version) with 2- or 4-wire measurement Integrated configurable digital filtering and preprocessing CIP CIN QQ QQ QQ QQ Current injection IN1P IN1N IN2P IN2N RA IN3P IN3N Multi master/slave configuration to support up to 16 channels (12 bio-potential acquisitions and 4 bioimpedance channels) SPI serial interface Low supply voltage: 1.7 to 3.6 V CMRR: -126 dB Input connection circuit Body impedance measurement DC and AC contact check ECG and pace maker channel # 1 DC and AC contact check ECG and pace maker channel # 2 DC and AC contact check ECG and pace maker channel # 3 QQ QQ QQ Maximum data rate: 10 KSPS Less than 2 mW per channel at full bandwidth and resolution Internal or external clock Impedance bus Ch1 bus HM301D Digital filtering and preprocessing Ch2 bus SPI slave MISO MOSI SS SCK Pace maker detection Ch3 bus Bat_bus RL LL RLD WCT Shield WCT circuit and drivers Voltage references Timing logic and clock Low-voltage supervisory and battery charge check Note:1. For the complete part number list, refer to the ECG unit product table at the end of the brochure. 3 STHV748 Integrated high-performance ultrasound pulse controller The STHV748 is a quad, high-voltage fully-monolithic pulser IC mainly intended for medical ultrasound imaging applications. An ultrasound imaging system transmits ultrasound waveforms generated from a piezoelectric transducer. As soon as the transmission ends, the same transducer is then switched to receive mode and the echoes, are then converted into lowvoltage signals. These signals are further conditioned, followed by post processing, to give the final image. The STHV748 correctly drives the piezoelectric transducer during the transmission phase and routes the received echoes to the receiving chain by means of an integrated T/R switch. The excellent STHV748 pulse symmetry (5 levels), while exciting the piezoelectric transducer, delivers low second-order distortion resulting in better image quality. Key features QQ QQ QQ QQ QQ QQ QQ QQ 0 to ±90 V output voltage Up to 20 MHz operating frequency Embedded low-power, floating high-voltage drivers ±2 A source and sink current in PW and CW modes Greater than 42 dB secondharmonic suppression Dedicated half bridge for continuous wave operations Fully-integrated clamping-toground function Fully-integrated T/R switch and noise blocking diodes Latch-up free using HV SoI technology Tx beamformer T/R switch Rx beamformer 4 HV transmitter Pulser To/from probe QQ ADC PGA TGC LNA 8/32‑bit ultra‑low‑power MCUs STMicroelectronics’ ultra‑low‑power portfolio includes a full range of 8‑bit and 32‑bit MCUs. It addresses most healthcare applications requiring reduced current consumption, from ultra‑simple, cost‑optimized feature needs to complex, high‑performance requirements. Key features QQ QQ QQ Platform for 8‑bit STM8L and 32‑bit STM32L MCUs ST’s 130 nm ultra‑low‑leakage process technology – speed and power consumption are independent of MCU power supply Ultra‑low voltage supply: 1.65 to 3.6 V STM8L QQ QQ QQ QQ QQ 8-bit MCU: up to 16 MIPS at 16 MHz 2 to 64 Kbytes of embedded Flash, up to 4 Kbytes of SRAM and up to 2 Kbytes of EEPROM Up to four ultra-low-power modes: down to 350 nA with SRAM and context retention Run mode dynamic consumption down to 150 μA/MHz Free touch‑sensing library QQ QQ QQ STM8L15x consumption values Typical @ 25 °C 192 µA/MHz 90 µA/MHz 5.1 µA Dynamic Run From Flash 3.0 µA Dynamic Run Low-power Run @ 32 kHz From RAM 1.2 µA Low-power Wait @ 32 kHz Notes: - POR/PDR on - BOR option at 2.4 µA - Run and Wait consumption values are independent of VDD QQ QQ QQ QQ QQ QQ 32-bit ARM Cortex™-M3: up to 33 DMIPS at 32 MHz Pin‑to‑pin compatibility with STM32F series (except VBAT) 32 to 384 Kbytes of embedded Flash, up to 48 Kbytes of SRAM and up to 12 Kbytes of data EEPROM Six ultra-low-power modes: down to 300 nA Ultra-low-power dynamic modes: low-power run down to 9 µA; low-power sleep down to 4.9 µA with one timer Economical run mode consumption down to 230 μA/MHz from Flash at zero-wait state with dynamic voltage scaling (3 ranges) Active Halt with RTC 0.4 µA Halt - RAM content preserved - Startup time from active Halt 5 µs - Active Halt and Halt values measured at VDD = 1.8 V STM32L consumption values Typical @ 25 °C 230 µA/MHz 186 µA/MHz Run Run From Flash Range 3 From RAM Range 3 9 µA 4.9 µA Low-power Run @ 32 kHz Low-power sleep + 1 timer @ 32 kHz Notes: - POR/PDR on - BOR option at 2.4 µA - Run and Sleep consumption value are independent of VDD - Low-power Run and Low-power Sleep are measured with Flash off 1.3 µA/ 0.45 µA Stop with or without RTC 1.0 µA/ 0.3 µA Standby with or without RTC - RAM content preserved - Startup time from Stop 8 µs - Stop and standby values measured at VDD = 1.8 V Flash size (bytes) 384 K Performance (MIPS) STM32L Advanced analog functions down to 1.8 V Fast wake up On‑board security and safety features for critical applications STM8L STM32L 2K 20 pins Integration (features) 144 pins Pin count 5 INEMO-M1 The smallest 9-axis inertial system of the iNEMO® SoB family INEMO-M1 is the first member of the iNEMO system on board (SoB) family. It integrates multiple sensors with a powerful computational core and provides reliable, drift-free 3D orientation estimation (roll, pitch and yaw, quaternions, rotation matrix), as well as sensor data. This 9 degrees-of-freedom inertial system represents a fully integrated solution that can be used in numerous applications such as virtual reality, augmented reality, image stabilization, human machine interfaces, robotics and inertial body tracking. A complete set of communication interfaces in a very small size form factor (13 x 13 x 2 mm) make the INEMO-M1 system on board a flexible solution for effortless orientation estimation in embedded applications. Key features QQ QQ QQ QQ Flexible interfaces: CAN, USART, SPI and I2C serial interfaces; full-speed USB 2.0 Two power supply options: internal regulator (3.6 to 6 V), external regulated voltage (2.4 to 3.6 V) Embedding real-time algorithm to calculate attitude and heading (roll, pitch and yaw angles, quaternions or rotation matrix) In application programming interfaces for firmware upgrading LDS3985 Voltage regulator LSM303DLHC 3-axis accelerometer 3-axis magnetometer Host MCU STM32F103 MCU 3-axis gyroscope L3G4200D Resonator INEMO-M1 LIS3DH Ultra-low-power accelerometer The LIS3DH is an ultra-low-power, high-performance 3-axis linear accelerometer belonging to the nano family, with a digital I2C/SPI serial interface standard output. The device features ultra-low-power operating modes that allow advanced power saving and smart embedded functions. The LIS3DH has dynamically selectable full scales of ±2g/±4g/±8g/±16g and is capable of measuring accelerations with output data rates from 1 Hz to 5 kHz. The self-test capability allows the user to check the functioning of the sensor in the final application. Key features QQ QQ QQ QQ 6 Ultra-low power consumption: down to 2 μA ±2g/±4g/±8g/±16g dynamically selectable full scale Embedded 96-level FIFO of 16-bit data output Embedded temperature sensor and ADC converter QQ QQ QQ QQ QQ 6D/4D orientation detection Wide supply voltage range: 1.7 to 3.6 V Fully programmable interrupt generator Wake-up and free-fall detection Click and double-click recognition MP34DT01 High-performance, low-power digital MEMS microphone with 63 dB SNR The MP34DT01 is an ultra-compact, low-power, omnidirectional, digital MEMS microphone built with a capacitive sensing element and an IC interface. The sensing element that detects the acoustic waves is manufactured using a special silicon micromachining process dedicated to produce audio sensors. The IC interface is manufactured using a CMOS process so that a dedicated circuit may be designed to provide a digital signal externally in PDM format. The MP34DT01 has an acoustic overload point of 120 dBSPL with a 63 dB signal-to-noise ratio and -26 dBFS sensitivity. Key features QQ QQ QQ QQ QQ QQ Single supply voltage Low power consumption 120 dBSPL acoustic overload point 63 dB signal-to-noise ratio Omnidirectional sensitivity –26 dBFS sensitivity QQ QQ QQ QQ QQ PDM output HCLGA package Top port design SMD compliant EMI shielded LPS331AP High-resolution digital pressure sensor The LPS331AP is an ultra compact absolute piezoresistive pressure sensor. It includes a monolithic sensing element and an IC interface to take the information from the sensing element and to provide a digital signal to the external world. The sensing element consists of a suspended membrane formed inside a single mono-silicon substrate. It is capable of detecting pressure and is manufactured using a dedicated process developed by ST, VENSENS. Key features QQ QQ QQ QQ 260 to 1260 mbar absolute pressure range High-resolution mode: 0.020 mbar RMS Low power consumption: QQ Low-resolution mode: 5.5 µA QQ High-resolution mode: 30 µA High overpressure capability: 20x full scale QQ QQ QQ QQ QQ QQ Embedded temperature compensation Embedded 24-bit ADC Selectable ODR from 1 Hz to 25 Hz SPI and I2C interfaces Supply voltage: 1.71 to 3.6 V High shock survivability: 10000 g LDCL015XX 150 mA capless ultra-low-drop linear regulator simplifies power management designs The LDCL015XX provides 150 mA from an input voltage ranging from 1.8 to 5.5 V, with a typical dropout voltage of 50 mV. It is stable with no input or output capacitor. Low quiescent current, low noise and capless operation make it suitable for lowpower battery-powered applications and reduces the board size required. Typical power supply rejection ratio is 52 dB at low frequencies, and starts to roll off at 10 kHz. The enable logic control function puts the LDCL015XX in shutdown mode, reducing the total current consumption to less than 1 μA. The device also includes short-circuit constant-current limit and thermal protection. Key features QQ QQ QQ QQ QQ No input or output capacitor required Input voltage: 1.8 to 5.5 V Very low drop: 50 mV at 100 mA load ± 2% output voltage accuracy Output voltage tolerance: ± 3% QQ QQ QQ QQ Low noise 150 mA guaranteed output current Available in fixed and adjustable output voltages, from 0.8 V in 100 mV steps Internal current and thermal limit 7 M24LR16E and M24LR64E Dual Interface EEPROM The M24LR16E and M24LR64E feature both an I2C and an RF interface, and so provide the flexibility to remotely program or update electronic products anytime during their lifetime and anywhere in the supply chain. RFID and NFC compatible, they are used to read measurements from portable healthcare applications and update the configuration data of clinical devices without powering on the device. They also feature an innovative energy harvesting function which can enable battery-less designs or greatly improve battery lifetime. Key features QQ I2C interface 1.8 to 5.5 V wide operating voltage QQ 400 kHz across the entire voltage range 13.56 MHz RF interface QQ ISO 15693 industry standard: passive RF technology – no power needed to operate in RF QQ NFC compatible QQ QQ QQ QQ Memory QQ User memory: 4-Kbit, 16-Kbit or 64-Kbit EEPROM QQ Reliability: 40-year data retention and 1 million erase-write cycles QQ Data protection: unique and flexible 32-bit password protection scheme Energy harvesting QQ V pin providing the energy OUT harvested from the RFID reader STAC3932B/F, STAC4932B/F 100 V RF power MOSFETs in STAC® package for 1.5T and 3T MRI A new generation of 100 V RF power MOSFETs housed in STAC® air-cavity packages and capable of delivering an output power up to 1.2 kW for industrial, scientific and medical applications such as 1.5T and 3T magnetic resonance imaging. The new air-cavity technology enables lower thermal resistance, lower weight and reduced cost compared to devices in ceramic packages. Key features QQ QQ QQ QQ QQ QQ QQ QQ QQ 8 Frequency: 61.5 MHz (1.5T MRI), 123 MHz (3T MRI) Supply voltage:100 V Output power: Up to 1.2 kW Gain: > 23 dB Efficiency: > 60% 25% lower thermal resistance (RTHJ-C) 4 times higher MTTF Cost-effective solution versus ceramic packages Available in two mounting configurations: QQ Bolt-down QQ Surface mount with AgSnCu back solder finishing EMI filtering and signal conditioning Integrated EMI filtering and ESD protection: QQ QQ EMIF1: Strong attenuation of 900 MHz and higher frequencies for different sockets including keypads and touch pads, memory cards, audio lines ECMF1: High-performance common-mode noise filtering with integrated ESD protection for high-speed serial interfaces for display and camera/imaging systems with serial interfaces, High Speed USB 2.0 IPD for RF front-end: integrated passive device (IPD) solutions based on glass substrate can offer a low parasitic and high-Q solution suitable for RF applications including: QQ QQ QQ Matched balun for 2.4 GHz applications such as Bluetooth or WLAN (using 50/50, 50/100 or custom matching) Diplexers for applications sharing the same antenna for 2.4 and 5 GHz WLAN Band-pass filter for 5 GHz WLAN ESD/EOS protection devices Protection devices come in 2 families: Transient voltage suppressors (TVS or Transil™) Crowbar diodes (Trisil™) These devices protect circuits against: QQ QQ QQ QQ Electrostatic discharge (ESD) generated by contact with a person or a machine (IEC 61000-4-2) Electrical overstress (EOS) generated by lightning strikes or AED generated overvoltages (IEC 61000-4-5) Key features QQ QQ Wide portfolio QQ TVS from 100 W to 5000 W QQ ESD array – including low capacitive arrays QQ Crowbar diodes QQ Crowbar diode arrays Wide range of applications QQ Airway clearance QQ Glucometers QQ Blood pressure QQ Monitoring stations Can withstand high power surges Transparent in normal circuit conditions, even in high-speed data interfaces Easy to design whatever circuit constraints Robustness Giga transparency Design integration Protection devices Note:1. For the complete part number list, refer to the EMI filtering and signal conditioning product table at the end of the brochure 9 STM8L STM32L STM32F SPEAR3x0 Microcontrollers Ultra-low-power 8-bit MCUs, 1.65 to 3.6 V, up to 6 MIPS, 2 to 64 Kbytes Ultra-low-power 32-bit MCUs, 1.65 to 3.6 V, up to 33 DMIPS, 32 to 384 Kbytes 32-bit MCUs, 1.7 to 3.6 V, up to 68 DMIPS, 16 Kbytes to 1 Mbyte 32-bit MPU based on ARM926EJ-S™ core with up to 400 DMIPS M24LR16E-R M24LR64-R Dual Interface EEPROM 16-Kbit Dual Interface EEPROM with password protection, energy harvesting and RF status functions 64-Kbit Dual Interface EEPROM with password protection LIS331DLx LIS3DH LIS344ALH L3G4200D LSM303DLHx L3GD20 LSM330DL MP45DT02 MP34DB01 LPS001WP LPS331AP STMT04/5/7 STMPE812A STMT14x STTS751 STLM20 MEMS and sensors Digital-output motion sensors, low-power and high-performance 3-axis accelerometer MEMS digital-output motion sensor, ultra-low-power, high-performance 3-axis nano accelerometer MEMS inertial sensor, high-performance 3-axis ±2g/±6g ultra-compact linear accelerometer Digital-output, low-power and high-stability 3-axis gyroscope Sensor modules, 3-axis accelerometer and 3-axis magnetometer 3-axis digital gyroscope Inertial module (3 accelerometers, 3 gyroscopes) Omnidirectional digital MEMS microphone, 58 dB signal-to-noise ratio and -26 dB sensitivity Omnidirectional digital MEMS microphone, 62 dB signal-to-noise ratio and -26 dB MEMS pressure sensor, 300 to 1100 mbar absolute digital output barometer MEMS pressure sensor, 260 to 1260 mbar absolute digital output barometer S-Touch® - FingerTip, multi-touch capacitive touchscreen controllers from 4 to 7 inch S-Touch® - FingerTip, multi-touch capacitive touchscreen controllers from 4 to 7 inch STMTouch - Proximity or single touch key touch controllers 2.25 V low-voltage local digital temperature sensor Ultra-low current, 2.4 V precision analog temperature sensor STHV748 Pulser ICs 5-level, ± 90 V, 2 A high-speed pulser with four independent channels and integrated Tx/Rx switch EMIF01-1003M3 EMIF04/06/08-1005Mx EMIF02-SPK02F2 EMIF06-mSD03F3 ECMF06-6AM16 ECMF02-2BF3 ECMF04-4CMX8 EMIF08-LCD04M16 BAL2690D3U DIP2450-01D3 BPF50-01D3 EMI filtering and signal conditioning 1-line EMI filter with ESD protection for keypads 4/6/8-line EMI filters with ESD protection 2-line EMI filter and ESD protection 6-line EMI filter and ESD protection 6-line common-mode filter with ESD protection 2-line common-mode filter with ESD protection 2-line CMF including ID and VBUS ESD protection 8-line LC filter and ESD protection 2.4 GHz matched balun for STLC2690 Diplexer for 2.4 and 5 GHz Band-pass filter for 5 GHz WLAN SPZB32W1xx SPBT2532C2 ST802RT1 STM32W Connectivity ICs IEEE 802.15.4 modules Bluetooth module 10/100 real-time Ethernet 3.3 V transceiver STM32 with embedded 2.4 GHz IEEE 802.15.4 radio, low-cost wireless network implementation HM301 HM201 HM101 ECG unit 3-channel integrated diagnostic quality ECG analog front end 2-channel integrated diagnostic quality ECG analog front end 1-channel integrated diagnostic quality ECG analog front end 10 TSV85x LMV82x TS33x LMV3x TS302x TS3011 TSV6x Amplifiers and comparators Micropower op-amps, 180 µA/1.3 MHz with shutdown Standard low-power op-amps, 400 µA/5.5 MHz with shutdown Micropower low-voltage rail-to-rail comparators Low-cost, low-power rail-to-rail input/output op-amps Rail-to-rail 1.8 V high-speed micropower comparators Rail-to-rail high-speed comparator Rail-to-rail input/output CMOS op-amps STLA02 STLD41 STPxCMP STLD20D/40D L6924D L6924U STw4102 STC3100 L6920DB L6920D ST8R00 L6928 STLQ50 STLQ015 ST715 LD39115J LD59015 LDLN015 LDCL015 LM4041 STBB2J ST1S15J STBB1 VIPERxx Power management White LED driver/backlighting White LED driver/backlighting Driver/backlighting White LED driver/backlighting Lithium battery charger USB compatible lithium battery charger Dual input Li-ion battery charger with gas gauge Battery monitor for gas gauge applications 0.8 A step-up, low IQ, down to 0.6 VIN 1 A step-up, low IQ, down to 0.6 VIN 1 A step-up, DFN8 (4 x 4 mm) package Sync step-down converter, 95 % 2 to 5.5 VIN 50 mA, 3 μA supply current, low drop linear regulator 150 mA, 1.7 μA supply current, low drop linear regulator 85 mA, very low quiescent current LDO regulator 150 mA, miniature high-performance LDO regulator 150 mA, very high PSRR, low-noise LDO regulator 150 mA ultra-low noise LDO 150 mA capless LDO 0.1% low consumption shunt voltage reference 800 mA, high-efficiency buck-boost converter in CSP package 500 mA, high-efficiency buck converter in CSP package Dual-mode, 1 A IOUT buck-boost voltage regulator VIPerPlus family of high-performance offline high-voltage converters L639x L62xx L6470 L6460 L6474 ASSP for motor control MOSFET IGBT smartDRIVE gate drivers integrating advanced current sensing, comparator and operational amplifier powerSPIN – monolithic motor-driver platform for DC, BLDC and stepper motors dSPIN – monolithic digital microstepping motor driver for stepper motors flexSPIN – monolithic multi-motor driver with microstepping for stepper and DC motors Monolithic microstepping driver with SPI and diagnostics DSILC6-4xx ESDA14V2BP6 ESDALC5-1BM2 ESDAVLC8-1BM2 SMM4F ESDALCL - xxx USBULC6 ESDA-1K HSP061-4NY8 SLVU2.8 Protection devices Ethernet, LVDS, USB 2.0 15 kV ESD protection 8 V and 12 V keyboard/button/audio ESD protection 1-line bidirectional ESD protection, 8 pF 1-line bidirectional ESD protection, 4 pF 2.5 kW, flat package, ESD overvoltage reverse polarity protection Transil™ ESD array, low leakage (1 nA), low capacitance (1.5 pF), 1 to 4 lines USB 2.0 high-speed 15 kV ESD protection 450 W EOS protection in SOD-523 package High-speed protection, 2 x 1 mm flow-through package Gigabit Ethernet protection 11 STUSB02E/03E STOTG04 STMPE1801 STMPE2403 Interface ICs USB transceivers USB On-The-Go 18-bit enhanced port expander with keypad controller 24-bit enhanced port expander with keypad and PWM controller STL120N2VH5 ST14N3LLH5D1 STS10DN3LH5 STL65DN3LLH5 STL15DN4F5 STD30NF60LT4 STB9NK60ZT4 STY139N65M5 ST1NK80D2 ST1N105K3D2 STGW45HF60WD STGW30N120KD STGW30NC120HD SD293x/393x STAC3932B/F STAC4932B/F Power transistors 20 V, n-channel, super logic level, power MOSFET in PowerFLAT 5x6 30 V, n-channel, logic level power MOSFET in die form 30 V, dual n-channel, logic level power MOSFET in SO-8 30 V, dual n-channel, logic level power MOSFET in PowerFLAT 5x6 40 V, dual n-channel power MOSFET in PowerFLAT 5x6 60 V, n-channel logic level power MOSFET in DPAK 600 V, n-channel power MOSFET in D2PAK 650 V, n-channel power MOSFET in Max247 800 V, n-channel power MOSFET in die form 1050 V, n-channel power MOSFET in die form 45 A, 600 V, n-channel advanced planar PT IGBT in TO-247 N-channel 30 A, 1200 V short circuit rugged IGBT with ultrafast diode N-channel 30 A, 1200 V IGBT with ultra-fast diode N-channel RF power MOSFETs 1 kW, 100 V RF power MOSFET in STAC® package for 1.5T and 3T MRI STAC® package for 1.5T and 3T MRI M41T62LC6F M41T6X M41T83/93 M41ST85 M41ST87 M48Txx Clocks and timing circuits World's smallest RTC with embedded crystal in LCC8 3.2 x 1.5 mm package Low-power I2C RTC with alarm, 32 kHz output or programmable watchdog functions, 1.3 to 4.4 V operation I2C/SPI RTC with analog calibration, alarm, watchdog, 32 kHz and reset functions 3.0/3.3 V I²C combination serial RTC, NVRAM supervisor and microprocessor supervisor I2C RTC and NVRAM supervisor with anti-tamper detection function Non-volatile SRAM, 3 to 5.5 V with alarm, watchdog timer ST1G3236 ST2329B ST2129B ST2149B STG719 Level translators and analog switches 1-bit level shifter general purpose, 1.2 to 3.6 V, DFN6 1.0 x 1.2 mm 2-bit level shifter for I²C, 1.65 to 5.5 V, QFN8 1.2 x 1.4 mm 2-bit general-purpose level shifter, 1.65 to 5.5 V, QFN8 1.2 x 1.4 mm 4-bit level shifter general purpose, 1.65 to 5.5 V, QFN12 2.0 x 1.7 mm Ultra-low leakage current (0.35 nA max at 85 °C) SPDT switch M24128-BFCS6TP/A M24256-BRCS6TP/A M95256-RCS6TP/A M24M01-RAW21/90 M24M02-DR 128-Kbit I2C in WLCSP form 256-Kbit I2C in WLCSP form 256-Kbit SPI in WLCSP form 1-Mbit I2C in wafer form 2-Mbit serial I2C bus EEPROM EEPROM UNLESS OTHERWISE SET FORTH IN ST’S TERMS AND CONDITIONS OF SALE ST DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY WITH RESPECT TO THE USE AND/OR SALE OF ST PRODUCTS INCLUDING WITHOUT LIMITATION IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION), OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT. UNLESS EXPRESSLY APPROVED IN WRITING BY AN AUTHORIZED ST REPRESENTATIVE, ST PRODUCTS ARE NOT RECOMMENDED, AUTHORIZED OR WARRANTED FOR USE IN LIFE SAVING, OR LIFE SUSTAINING APPLICATIONS, NOR IN PRODUCTS OR SYSTEMS WHERE FAILURE OR MALFUNCTION MAY RESULT IN PERSONAL INJURY, DEATH, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE. © STMicroelectronics - April 2012 - 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: BRHEALTH0412 For more information on ST products and solutions, visit www.st.com