STMicroelectronics is a global independent semiconductor company and a leader in developing and delivering semiconductor solutions across the spectrum of microelectronics applications. An unrivaled combination of silicon and system expertise, manufacturing strength, Intellectual Property (IP) portfolio, and strategic partners positions, STMicroelectronics is at the forefront of System-on-Chip (SoC) technology and its products play a key role in enabling today's convergence trends.
STMicroelectronics STLED524 LED Display Driver is a 5x24 dot matrix LED display driver that can drive each dot with a current up to 20mA. Rows of the matrix are multiplexed and each LED in a row is driven by a separate low-side current mirror. Current regulators are supplied by an integrated boost DC-DC converter. Its output voltage can be adjusted by the internal register to optimize efficiency according to the type of LEDs (their forward voltage). This reduces current mirror power dissipation and improves overall efficiency. The STLED524 also includes an internal LDO regulator, which can provide a supply voltage for additional circuitry. Maximum current, provided by each current mirror, is adjusted by RSET resistor. Current of each LED (dot) can be dimmed in 255 steps due to settings of internal registers.
STMicroelectronics STEVAL-ILL060V1 is a high brightness LED array driver evaluation board with diagnostics based on STMicroelectronics' automotive-grade low voltage, 16-bit constant current LED sink driver STAP16DPPS05. The LED driver is configured and controlled through an 8-bit automotive-grade STM8A microcontroller via an SPI interface. An A5974D DC-DC converter, also automotive-grade, provides the voltages and power needed for overall operation of the board.
STMicroelectronics STM32L0538 Discovery Kit helps designers discover the features of the STM32 L0 ultra-low power microcontroller family and develop applications easily. The STM32L0538 Discovery Kit is based on the STM32L053C8T6 MCU featuring 64KB of Flash and 8KB of RAM. This STMicroelectronics kit includes an ST-LINK/V2-1 embedded debug tool interface, linear touch sensor, touch keys, IDD current measurement, 2.04" E-paper display, NFC connector for PLUG-CR95HF-B board, LEDs, pushbuttons, and a USB mini-B connector.
STMicroelectronics STH315N10F7 STripFET™ VII DeepGATE™ Power MOSFETs are AEC-Q101 automotive-qualified N-channel Power MOSFETs that combine best-in-class on-state resistance with low internal capacitances and gate charge, enhancing both conduction and switching efficiency. Available in TO-220 or 2-lead or 6-lead H2PAK industry-standard packages, these devices help designers reduce board size and maximize power density. STH315N10F7 MOSFETs also have high avalanche ruggedness to survive potentially damaging conditions. With a 100V rating, these STripFET VII DeepGATE MOSFETs provide an adequate safety margin to withstand typical over-voltage surges. STH315N10F7 STripFET VII DeepGATE MOSFETs are also well-suited for highly rugged performance in automotive and switching applications.
STMicroelectronics STEVAL-ISA153V1 VIPER38LE Evaluation Board implements a 12V/1.25A, 15W (20W peak) isolated flyback wide-range mains developed for general-purpose applications. The core of the application is the VIPER38LE, the latest offline converter from the VIPerPlus family. The device is a high-voltage converter that smartly integrates an 800V rugged power MOSFET with PWM current-mode control. The device features an adjustable extra power timer (EPT) that enables the IC to sustain overload conditions for a few seconds. The main characteristics of the evaluation board are its small size and minimal BOM, high efficiency and low standby consumption. Extremely low consumption under no-load conditions is ensured thanks to burst mode operation which reduces the average switching frequency and minimizes all frequency-related losses.
STMicroelectronics STA311B Multichannel Digital Audio Processor is a single-chip solution for digital audio processing and control in multichannel applications and provides output capabilities for FFX™ (full flexible amplification). In conjunction with an FFX™ power device, it provides high-quality, high-efficiency, all digital amplification. The device is extremely versatile, allowing for input of most digital formats including 6.1/7.1-channel and 192kHz, 24-bit DVD-audio, and DSD/SACD. In the 5.1 application the additional 2 channels can be used for audio line-out or headphone drive.
STMicroelectronics EFL700A39 Rechargeable Solid State Lithium Battery is a thin film rechargeable lithium battery. The battery has a LiCoO2 cathode, LiPON ceramic electrolyte and a lithium anode. This device has a footprint of 25.4x25.4mm with a thickness of only 200μm. Typical applications include Internet of Things (IoT), sensors and networks, smart card, RF ID tags, energy storage for energy harvesting devices, non implantable medical applications, backup power, and wearable applications.
STMicroelectronics STEVAL-IDB003V1 Smart USB Dongle Evaluation Board that is based on BlueNRG, a low power Bluetooth® Smart IC, compliant with the Bluetooth® 4.0 specifications and supporting both master and slave roles. The STEVAL-IDB003V1 features a low power microcontroller STM32L on board. It is primarily meant to interface with BlueNRG but is also available for custom application development. The STEVAL-IDB003V1 has a USB connector for PC GUI interaction and firmware update. The footprint for a JTAG connector is available on the STEVAL-IDB003V1. When a JTAG connector is soldered (the connector is not mounted on the STEVAL-IDB003V1) it enables users developing a custom firmware on the STM32L microcontroller.
STMicroelectronics SPC560P-DISP Discovery Kit helps to discover SPC560 P line Power Architecture MCUs with full access to CPUs, GPIO's and peripherals (CAN, JTAG, K-Line, and LIN) at a budget price. Dedicated connectors allow plugging Arduino shields (Arduino-compatible). Free ready-to-run application firmware examples are available inside SPC5Studio to support quick evaluation and development. SPC5Studio includes visual configurable code generation engine, board support package (BSP), start-up routines, interrupt services, free RTOS (optional) and a full set of low level drivers. SPC5Studio includes HighTec GNU "C" compiler, with a 30-days full free trial support. SPC5Studio is available for free download. The SPC560 P line is designed to address cost sensitive chassis, airbag, electrical hydraulic power steering (EHPS), electric power steering (EPS), and electrical motor control applications.
STMicroelectronics EVALSTPM3x Evaluation Boards are designed to help evaluate STMicroelectronics STPM3x Single Phase Metering ICs. The STPM3x is an ASSP family designed for high accuracy measurement of power and energy in power line systems using the Rogowski coil, current transformer or shunt current sensors. These devices have up to two voltages and two current channels, for energy measurement in dual-phase and single-phase (with or without neutral current monitoring) electricity metering systems. The STPM3x devices provide instantaneous voltage and current waveforms and calculate voltage and current RMS values, active, reactive and apparent powers and energies for each channel. Moreover, they embed a full set of calibration and compensation parameters which allow the meter to fit tight accuracy standards (EN 50470-x, IEC 62053-2x, ANSI12.2x for AC watt meters). All calculated data, as well as configuration parameters, are stored in internal 32-bit registers accessible through SPI or UART peripheral.
STMicroelectronics VL6180 Time-of-Flight Sensor, Ambient Light Sensor & IR Emitter is the latest product based on ST's patented FlightSense™ technology. This is a ground-breaking technology allowing absolute distance to be measured independent of target reflectance. Instead of estimating the distance by measuring the amount of light reflected back from the object (which is significantly influenced by color and surface), the VL6180X precisely measures the time the light takes to travel to the nearest object and reflect back to the sensor (Time-of-Flight). Combining an IR emitter, a range sensor and an ambient light sensor in a three-in-one ready-to-use reflowable package, the VL6180 is easy to integrate and saves the end-product makers the long and costly optical and mechanical design optimizations.
STMicroelectronics FERD Field Effect Rectifiers are based on a proprietary technology that achieves the best-in-class forward voltage and reverse voltage for a given silicon surface. These devices are available in TO-220AB, D2PAK or PowerFLAT™ 5x6 packages and are intended to be used in rectification, freewheeling, solar bypass junction boxes, switch mode power supplies, or automotive applications. Features include stable leakage current over reverse voltage, low forward voltage drop and high frequency operation.
STMicroelectronics STPM33/34 Single Phase Metering ICs are an ASSP family designed for high accuracy measurement of power and energies in power line systems using the Rogowski coil, current transformer or shunt current sensors. These provide instantaneous voltage and current waveforms and calculates RMS values of voltage and currents, active, reactive and apparent power and energies. The STPM33/34 is a mixed signal IC family consisting of an analog and a digital section. The analog section consists of up to two programmable gain low-noise low-offset amplifiers and up to four 2nd order 24-bit sigma-delta ADCs, two bandgap voltage references with independent temperature compensation, a low drop voltage regulator and DC buffers. The digital section consists of digital filtering stage, a hardwired DSP, DFE to the input and a serial communication interface (UART or SPI). These are fully configurable and allows a fast digital system calibration in a single point over the entire current dynamic range.
STMicroelectronics STHV800 is an octal, monolithic, high-voltage and high-speed pulse generator. It is designed for medical ultrasound applications, but can be used for other piezoelectric, capacitive or MEMS transducers. The device integrates a controller logic interface circuit (compatible with both 1.8 V and 3.3 V input signals), level translators, MOSFET gate drivers, noise blocking diodes, and high power P-channel and N-channel MOSFETs as the output stage for each channel. These MOSFETs are capable of providing more than 2 A of peak output current. In addition, the STHV800 includes self-biasing circuitry which allows very low power consumption during the RX phase (down to 200 µW global power dissipation) and thermal shutdown block sensing by an external dedicated pin (THSD). One of the main benefits of the STHV800 is that it requires very few external components: only decoupling capacitors on the HV and LV supplies, and a resistor to pull up the THSD pin.
STMicroelectronics SRC0 switch ics monitor the state of connected push-button(s) as well as sufficient supply voltage. An enable output controls power for the application through the MOSFET transistor, DC-DC converter, regulator, etc. If the supply voltage is above a precise voltage threshold, the enable output can be asserted by a simple press of the button. Factory-selectable supply voltage thresholds are determined by highly accurate and temperature-compensated references. An interrupt is asserted by pressing the push-button during normal operation and can be used to request a system power-down. The interrupt is also asserted if undervoltage is detected. By a long push of one button (PB) or two buttons (PBand SR) either a reset is asserted or power for the application is disabled depending on the option used. The device also offers additional features such as precise 1.5 V voltage reference with very tight accuracy of 1%, separate output indicating undervoltage detection and separate output for distinguishing between interrupt by push-button or undervoltage. The device consumes very low current of 6 µA during normal operation and only 0.6 µA current during standby.
STMicroelectronics SR2 switch ics provide a useful feature that ensures inadvertent short reset push-button closures do not cause system resets. This is done by implementing extended Smart Reset input delay time (tSRC) and combined push-button inputs, which together ensures a safe reset and eliminates the need for a specific dedicated reset button. The SR2 has two combined delayed Smart Reset inputs (SR0, SR1) with preset delayed Smart Reset setup time (tSRC). The reset output is asserted after both of the Smart Reset inputs were held active for the selected tSRC delay time. Depending on selected option the RSToutput remains asserted either until at least one SRinput goes to inactive logic level (i.e. neither fixed nor minimum reset pulse width is set) or the output reset pulse duration is fixed for tREC (i.e. factory-programmed). The reset output, RST, is active low or active high, push-pull or open drain with optional pull-up resistor. The device fully operates over a broad VCC range 1.65V to 5.5V. Below 1.575V typ. the inputs are ignored and outputs are deasserted; the deasserted reset output levels are then valid down to 1.0 V.
STMicroelectronics SR1 switch ics provide a useful feature which ensures that inadvertent short reset push-button closures do not cause system resets. This is done by implementing an extended Smart Reset input delay time (tSRC), which ensures a safe reset and eliminates the need for a specific dedicated reset button. The SR1 has one Smart Reset input (SR) with preset delayed Smart Reset setup time (tSRC). The reset output (RST) is asserted after the Smart Reset input is held active for the selected tSRC delay time. The RSToutput remains asserted either until the SRinput goes to inactive logic level (i.e. neither fixed nor minimum reset pulse width is set) or the output reset pulse duration is fixed for tREC (i.e. factory-programmed). The device fully operates over a broad VCC range from 2.0V to 5.5V.
STMicroelectronics OA1ZHA, OA2ZHA, OA4ZHA low power, high precision op amps, offer very
low input offset voltages with virtually zero drift. OA1ZHA, OA2ZHA,
OA4ZHA are respectively the single, dual and quad operational amplifier
versions, with pinout compatible with industry standards. The OA1ZHA,
OA2ZHA, OA4ZHA series offers rail-to-rail input and output, excellent
speed/power consumption ratio, and 400kHz gain bandwidth product, while
consuming less than 40µA at 5V. All devices also feature an ultra-low
input bias current. The OA1ZHA, OA2ZHA, OA4ZHA family is the ideal
choice for wearable, fitness and healthcare applications.
STMicroelectronics OA1NP, OA2NP, OA4NP series of CMOS operational amplifiers offer a
low power consumption of 580nA typical and 750nA maximum per channel
when supplied by 1.8 V. Combined with a supply voltage range of 1.5V to
5.5V, these features allow the OA1NP, OA2NP, OA4NP op amp series to be
efficiently supplied by a coin type Lithium battery or a regulated
voltage in low power applications. The OA1NP, OA2NP, OA4NP are
respectively the single, dual and quad operational amplifier versions.
The 8kHz gain bandwidth of these devices make them ideal for wearable,
fitness and healthcare and sensors signal conditioning applications.
STMicroelectronics OA1MPA, OA2MPA, OA4MPA series of single, dual, and quad
operational amplifiers offer low-voltage operation, rail-to-rail input
and output, and excellent precision (Vio lower than 200µV at
25°C). These low power op amps benefit from STMicroelectronics 5V CMOS
technology and offer an excellent speed/power consumption ratio (150 kHz
typical gain bandwidth) while consuming less than 14 µA at 5V. The
OA1MPA, OA2MPA, OA4MPA series also feature an ultra-low input bias
current. The OA1MPA, OA2MPA, OA4MPA are respectively the single, dual
and quad operational amplifier versions and are housed in the smallest
industrial package. The OA1MPA, OA2MPA, OA4MPA family is the ideal
choice for wearable, fitness and healthcare applications.
STMicroelectronics CS30, CS70 Current Sense Amplifiers measure small differential voltages on high-side shunt resistors and translate them into ground referenced output voltages. The gains are internally fixed. Wide input common-mode voltage ranges, low quiescent currents, and tiny packaging enables use in a wide variety of applications. The input common-mode and power supply voltages are independent. The current consumption below 360µA (300µA CS30) and the wide supply voltage range enable the power supply to be connected to either side of the current measurement shunt with minimal error.
STMicroelectronics AS11P2TLR, AS21P2TLR are high speed CMOS low voltage single/dual analog SPDT (single-pole doublethrow) switches or 2:1 multiplexer/demultiplexer switches manufactured using silicon gate C²MOS technology. With fast switching speed, break-before-make delay time and ultra low power consumption the AS11P2TLR, AS21P2TLR are ideal for portable applications. All inputs and outputs are equipped with protection circuits to protect against static discharge, giving them immunity from ESD and transient excess voltage.
STMicroelectronics SMP-0SCMC Micro Capacitance Trisils are designed to protect broadband telecommunication equipment such as DSL modems, subscriber gateways and DSLAMs from lightning surges and power faults. Trisils are not subject to aging and provide a failsafe mode in short circuit for a better protection. They are used to help equipment to meet main standards such as UL60950, IEC950 / CSA C22.2 and UL1459. Typical applications include power-line modems, Ethernet, POTs, CO/CP, set-top boxes, gateways and telecom lines.
STMicroelectronics ESDAVLC8-1BT2Y Bidirectional Single-Line TVS Diode is designed to protect data lines or other I/O ports against ESD transients. This item offers very low capacitance that is optimized for data integrity and a breakdown voltage of 8.5V minimum. This device is ideal for applications where both printed circuit board space and power absorption capability are required. Typical applications include automotive, computers, printers, communication systems, cellular phone handsets and accessories, and video equipment.
STMicroelectronics STM32-Based NAND Flash Driver Evaluation Boards are product evaluation boards for a NAND Flash driver based on the STM32F103ZET6 microcontroller. It supports 512 byte and 2 kilobyte page SLC NAND Flash, and dynamic detection of NAND Flash based on “Device ID”. The firmware automatically detects which NAND Flash is mounted on the PCB, and functions accordingly. STEVAL-CCM006V2 and STEVAL-CCM007V2 come with a TFT MB785/P while the STEVAL-CCM006V1 and STEVAL-CCM007V1 do not have a TFT included.
STMicroelectronics Transceiver Development Kits & Daughterboard are based on the SPIRIT1, a sub-GHz, low power, low data rate transceiver suitable for the ISM bands and wireless M-BUS. The three development kits are offered in three different bands (169MHz, 433MHz and 915MHz). Each motherboard features a USB connector for PC GUI interface and JTAG connector for development of firmware on the MCU. The daughterboard is equipped with external balun which optimizes size, RF performance and reduces the number of external RF components.
STMicroelectronics Smart Card Interface Evaluation Boards are based on the ST8034AT or ST8034PI Smart Card Interfaces. Each evaluation board is designed both for standalone operation or to be controlled by the microcontroller. The boards are fully configurable, provide access to all signals including supply voltage through labeled test points, and uses a standard connector for simple communication interfacing with the microcontroller block. The labeled test points on the board are in the same order as the signals in the flat interface cable. Each evaluation board addresses market segments including: POS, set-top boxes, pay TV, identification, banking and tachographs.
STMicroelectronics ALED1642GW LED Display Driver is a monolithic, low voltage, low current power 16-bit shift register designed for LED panel displays. The ALED1642GW guarantees 20V output driving capability allowing the user to connect several LEDs in series. In the output stage, sixteen regulated current sources provide from 3mA to 40mA constant current to drive the LEDs. The current is programmed through an external resistor and can be adjusted by 7-bit current gain register in two subranges. The brightness can be adjusted separately for each channel through a 12/16-bit grayscale control. A programmable turn-on and turn-off time (four different values are available) improves the system low noise generation performances.
STMicroelectronics LNB Supply & Control Evaluation Boards implement a DC-DC converter based on the LNBH25L or LNBH29 device used to power LNB inside dish antennas which receive satellite TV signals. The STEVAL-CBL012V1 evaluation board includes an I2C bus interface and the internal 22 kHz tone generator (factory trimmed) is controlled by the DSQIN pin (TTL compatible), permitting immediate DiSEqC™ data encoding. The LNBH29 is an integrated solution for supplying/interfacing satellite LNB modules in accordance with international standards, offering a complete solution for single-tuner satellite receivers and good performance at low cost using few external components. The STEVAL-CBL015V1 evaluation board includes an I2C bus interface and the internal 22 kHz tone generator (factory trimmed) is controlled by the DSQIN pin (TTL compatible), permitting immediate DiSEqC™ data encoding. The STEVAL-CBL016V1LNBH29 evaluation board includes an I2C bus interface and is provided with the EXTM analog modulation input pin to be connected to an external 22 kHz DiSEqC tone source. The tone output waveform depends on the characteristics of the external signal provided by the EXTM pin.
STMicroelectronics 650V HB Series Trench Gate Field-Stop IGBTs are IGBTs that are developed using an advanced proprietary trench gate and field stop structure. These devices represent an optimum compromise between conduction and switching losses to maximize the efficiency of any frequency converter. With ST's advanced Trench-Gate Field-Stop High-Speed technology, these IGBTs have a minimal collector current turn off tail as well as very low saturation voltage (Vce(sat)) down to 1.6V (typical), minimizing energy losses during switching and when turned on. Furthermore, a slightly positive VCE(sat) temperature coefficient and very tight parameter distribution result in safer paralleling operation.
STMicroelectronics SPC560B-DIS Discovery Evaluation Board is a low cost and quick way to discover SPC56 B line. Based on SPC560B54L5, the discovery board includes a JTAG debugger from PLS, LEDs, push buttons and extension headers to connect prototyping boards or additional modules. PLS UDE software is available for free download and includes a perpetual 128Kbyte debugging/programming license. The SPC56 B line of MCUs is designed to address the specific need of car body applications but as well many other markets where high temperature operation, high reliability, low power stand-by operation with quick wake up and real-time loads diagnostic are required.
STMicroelectronics EVAL-L9942 Evaluation Board is designed to provide the user a platform to evaluate the L9942. The L9942 is a motor driver for bipolar stepper motors with micro-stepping and programmable current profile look-up-table to allow a flexible adaptation of the motor characteristics and intended operating conditions. Different current profiles can be chosen depending on target criteria: audible noise, vibrations, rotation speed or torque. The decay mode used in PWM-current control circuit can be programmed to have slow, fast, mixed and auto-decay. The programmable stall detection is useful to avoid running the motor too long time in stall position minimizing the noise. The EVAL-L9942 board provides all the inputs and outputs capabilities necessary to drive correctly a bipolar stepper motor and also to monitoring diagnostic functionalities. The board can be connected to the discovery boards developed for the SPC56 microcontroller.
STMicroelectronics L9942 Stepper Motor Driver is an integrated stepper motor driver for bipolar stepper motors with microstepping and programmable current profile look-up-table to allow a flexible adaptation of the stepper motor characteristics and intended operating conditions. It is possible to use different current profiles depending on target criteria: audible noise, vibrations, rotation speed or torque. The decay mode used in PWM-current control circuit can be programmed to slow-, fast-, mixed-and auto-decay. In auto-decay mode device will use slow decay mode if the current for the next step will increase and the fast decay or mixed decay mode if the current will decrease. The programmable stall detection is useful in case of head lamp leveling and bending light application, by preventing to run the motor too long time in stall for position alignment. If a stall is detected, the alignment process is closed and the noise is minimized.
STMicroelectronics STEVAL-MKI121V1 Discovery-M1 Kit
introduces INemo-M1's performance features and facilitates in its
evaluation. Based on second generation of the iNEMO™ module family,
Discovery-M1 includes pressure sensor LPS331AP to deliver a new and
complete 10-DoF (degree-of-freedom) open platform that provides fast
inertial application development using MEMS sensors and the STM32. A
complete set of communication interfaces in a very small size thanks to
the pinout of the two connectors, makes the Discovery-M1 a flexible
solution for effortless orientation estimation embedded applications. To
aid in development and analysis, the Discovery-M1 demonstration kit
includes a PC GUI for sensor output display and a firmware library to
quickly support the use of the demonstration board features.
STMicroelectronics STVAL-IKM001V1 Evaluation Kit includes one EVAL6470H evaluation board, one STEVAL-PCC009V2 communication board, and two samples each of ST's L6470H and L6470PD devices. The EVAL6470H evaluation board is a fully integrated microstepping motor driver. With the STEVAL-PCC009V2 communication board and the dSPIN evaluation software, the board allows the designer to evaluate all the features of the L6470 device. This RoHS compliant evaluation kit offers a voltage range from 8V to 45V, phase current up to ARMS. socket for external resonator or crystal, SW input, FLAG and busy LED indicators, and adjustable supply voltage compensation. The board can be used to check voltage mode driving and to regulate the L6470H parameters in order to meet application requirements.The EVAL6470H supports the daisy-chain configuration, making it suitable for evaluation of the L6470 in multi-motor applications.
STMicroelectronics STC3115 Gas Gauge IC is designed to provide the hardware functions required to implement a low-cost gas gauge for battery monitoring. The STC3115 uses current sensing, Coulomb counting and accurate measurements of the battery voltage to estimate the state-of-charge (SOC) of the battery. An internal temperature sensor simplifies implementation of temperature compensation. An alarm output signals a low SOC condition and can also indicate low battery voltage. The alarm threshold levels are programmable. STM's STC3115 is an ideal choice for designer who require the advanced features to ensure high performance gas gauging in all application conditions.
STMicroelectronics INEMO-M1 System-on-Board is the first 9-axis motion sensing system-on-board (SoB) of the iNEMO module family. INEMO-M1 integrates multiple MEMS sensors (accelerometers, gyroscopes and magnetometer) from ST with a powerful computational core: a 6-axis digital ecompass, a 3-axis digital gyroscope and an ARM® Cortex™-M3 32-bit MCU. The 9 degrees-of-freedom (9-DoF) inertial system represents a fully integrated solution that can be used in a broad variety of applications such as robotics, personal navigation, gaming and wearable sensors for healthcare, sports and fitness. A complete set of communication interfaces and motion-sensing capabilities in a very small size form factor (13x13x2mm) and the possibility to embed ST's sensor fusion software make the INEMO-M1 system-on-board a flexible solution for high-performance, effortless orientation estimation and motion-tracking applications.
STMicroelectronics BlueNRG Bluetooth® Low Energy Wireless Network
Processor is designed to enable longer runtimes and smaller, lighter
batteries in a wide range of wireless “appcessories” such as fitness
wristbands, smart eyewear, or interactive clothes. Compliant with the
latest Bluetooth 4.0 standard, this very low power Bluetooth low energy
(BLE) single-mode network processor features its own radio, processor,
and Bluetooth firmware to simplify the wireless design. The entire
Bluetooth low energy stack runs on the embedded Cortex M0 core. The
non-volatile Flash memory allows on-field stack upgrading. With a peak
current of only 8.2mA in transmit mode at 0dBm and 7.3mA in receiver
mode, BlueNRG offers frugal power management and transitions rapidly
between operating modes thereby minimizing unproductive power thanks to
its best-in-class current consumption. BlueNRG's design enables
applications to meet the tight advisable peak current requirements
imposed with the use of standard coin cell batteries. Ultra low-power
sleep modes and very short transition times between operating modes
allow very low average current consumption, resulting in longer battery
STMicroelectronics STEVAL-ILL061V1 lighting development tool is a high brightness RGB LED array driver system evaluation board with local dimming and diagnostics based on LED1642GW independent PWM LED driver controlled through an STM32 microcontroller SPI interface. An ST L7981 DC-DC converter provides the voltages/power for overall functioning of the board.
STMicroelectronics BALF-SPI-01D3 Balun Transformer is an ultra-miniature balun. The BALF-SPI-01D3 integrates matching network and harmonics filters. Matching impedance has been customized for the Spirit1 ST transceiver. The BALF-SPI-01D3 uses STMicroelectronics IPD technology on non-conductive glass substrate which optimize RF performances.
STMicroelectronics BAL-CC25-01D3 Balun Transformer is an ultra miniature balun which integrates a matching network in a monolithic glass substrate. This has been customized for the CC25xx and CC85xx RF transceivers. It’s a design using STMicroelectronics IPD (integrated passive device) technology on non-conductive glass substrate to optimize RF performance.
STMicroelectronics BAL-2690D3U Balun Transformer is a balun designed to transform single ended signals to differential signals in Bluetooth applications. The BAL-2690D3U has been customized for the STLC2690 Bluetooth transceiver with 0.8dB insertion losses in the bandwidth (2400MHz - 2500MHz) and with a specific requirement for the SCC22 parameter. The BAL-2690D3U has been designed using STMicroelectronics IPD (integrated passive device) technology on non conductive glass substrate to optimize RF performances.
STMicroelectronics M24SR Dynamic NFC/RFID Tag ICs are dynamic NFC/RFID tag ICs with a dual interface. These devices include embedded EEPROM memory in 2K, 4K, 16K and 64K versions. They can be operated from an I²C interface or by a 13.56MHz RFID reader or an NFC phone. The I²C interface uses a two-wire serial interface, consisting of a bidirectional data line and a clock line. They behave as a slave in the I²C protocol. The RF protocol is compatible with ISO/IEC 14443 Type A and NFC Forum Type 4 Tag.
STMicroelectronics LDK130 Low Drop Voltage Regulators provide 300mA of maximum current from an input supply voltage in the range of 1.9V to 5.5V, with a typical dropout voltage of 100mV. It is stabilized with a ceramic capacitor on the output. The very low drop voltage, low quiescent current and low noise features make it suitable for low power battery-powered applications. An enable logic control function puts the LDK130 in shutdown mode allowing a total current consumption lower than 1μA. The device also includes a short-circuit constant current limiting and thermal protection.
STMicroelectronics STM32 Nucleo Development Boards are designed to support users who want to get familiar with the features of the entire STM32 MCU family. These boards are ideal for quick prototyping, and the standardized connectivity allows the designer to build and reuse add-on hardware across the whole portfolio of Nucleo boards. The board connectors are compatible with Arduino, and a new standardized ST connector (Morpho) which gives access to all IOs available on the MCU. The board comes with ready-to use software examples and is supported by IAR and Keil development tools, as well as GCC based IDEs. Each of these boards contain an ST-LINK/V2-1 in-circuit debugger and programmer, which can be used either with the on-board MCU or - in standalone mode - with any other applications containing an STM32 MCU.
STMicroelectronics EVAL-RX95HF is an evaluation kit for RX95HF NFC transceiver. This component is a 13.56 MHz near field communication transceiver for tag emulation and could be used with an NFC Reader (NFC smartphone, CR95HF) to exchange NDEF messages (URI, VCARD, URL) or establish a Proprietary Data exchange protocol communication. The communication protocol is based on ISO/IEC 14443 Type A. The EVAL-RX95HF is powered through the USB bus. It includes an RX95HF transceiver for tag emulation, a 47 x 34 mm 13.56 MHz inductive etched antenna and its associated tuning components. The RX95HF communicates with the STM32F103RF 32-bit MCU via the SPI bus.
STMicroelectronics M24SR-DISCOVERY is a demonstration kit to evaluate the features and capabilities of the M24SR series and is based on the M24SR64 device. Two versions of this kit are available: the Standard Edition and the Premium Edition. The Premium Edition includes all of the Standard edition features, plus a headset and a Bluetooth module which pair it with a smartphone via NFC for convenient demonstration. The M24SR64 device is a dynamic NFC/RFID tag IC with a dual interface. It embeds a 64 Kbits EEPROM memory. It can be operated from an I²C interface or by a 13.56 MHz RFID reader or an NFC phone. The I²C interface uses a two-wire serial interface, consisting of a bidirectional data line and a clock line. It behaves as a slave with respect to the I²C protocol. The RF protocol is compatible with ISO/IEC 14443 Type A and NFC Forum Type 4 Tag. The board is powered through the USB bus. It also includes a microcontroller STM32F103 to drive the EEPROM via I²C and the LCD screen via SPI bus.
STMicroelectronics MATRIX-M24SR board features various antenna designs for M24SRXX-Y Dynamic NFC/RFID tag IC family combined on a single ready-to-use divisible PCB. Each individual antenna features an M24SR64-Y Dynamic NFC/RFID tag IC connected to an RF antenna on one side, and to an I2C bus on the other side. All antennas are populated with M24SR64-Y Dynamic NFC/RFID tag IC but are applicable to other densities. The MATRIX-M24SR antenna matrix allows system designers to evaluate the M24SRXX-Y family performance and capabilities and to get started with their design.
STMicroelectronics STEVAL-IDB002V1 Bluetooth® SMART Board Based on BlueNRG is a product evaluation board based on a Bluetooth low energy 4.0 compliant low power network coprocessor. The STEVAL-IDB002V1 is composed of an RF daughter board and a microcontroller motherboard. The RF daughter board features the BlueNRG device, an SMA connector for an antenna or measuring instruments and an SPI connector for external microcontroller. The motherboard is based on the STM32L, acting as external microcontroller driving the BlueNRG device. A JTAG connector allows development of firmware on the microcontroller.
STMicroelectronics ISO8200B High-Side Solid State Relay is a galvanic isolated 8-channel driver featuring a very low supply current. It contains 2 independent galvanic isolated voltage domains (VCC for the Power stage and VDD for the Digital stage). Additional embedded functions are: loss of GND protection, undervoltage shutdown with hysteresis, and reset function for immediate power output shutdown. The IC is intended to drive any kind of load with one side connected to ground. Active channel current limitation combined with thermal shutdown, (independent for each channel), and automatic restart, protect the device against overload and short-circuit. In overload conditions, if junction temperature overtakes threshold, the channel involved is turned off and on again automatically after the IC temperature decreases below a reset threshold. If this condition causes case temperature to reach limit threshold TCR, the overloaded channel is turned off and it only restarts when case and junction temperature decrease down to the reset thresholds. Non-overloaded channels continue operating normally.
STMicroelectronics 32L100CDISCOVERY Discovery Kit lets users discover the features of the STM32L100 Value Line 32-bit Cortex-M3 microcontrollers and develop applications easily. This STMicroelectronics kit includes everything required for beginners and experienced users to get started quickly. Based on the STM32L100RCT6, 32L100CDISCOVERY includes an ST-LINK/V2 embedded debug tool, LEDs, and pushbuttons for easy connection of additional components and modules.
STMicroelectronics STM32429I-EVAL evaluation board is a complete demonstration and development platform for the STMicroelectronics ARM®Cortex™-M4 core-based STM32F429 line microcontrollers (MCUs). The integrated ST-LINK/V2 provides an embedded in-circuit debugger and programmer for the STM32 MCU. Extension headers make it possible to easily connect a daughterboard for a specific application. STM32429I-EVAL evaluation board includes everything required for beginners and experienced users to develop applications quickly.
STMicroelectronics TDA7802 Digital Input Quad Power Amplifier features advanced BCD technology and integrates a full digital-to-analog converter (DAC), digital input for direct connection to I2S (or TDM), and powerful MOSFET output stages. TDA7802 offers enhanced sound quality and increased efficiency with a reduction of dissipated output power by up to 50% compared to conventional class AB solutions. TDA7802 can play music down to 6V supply voltage, making it compatible with the "start stop" battery profile recently adopted by some car makers. The integrated DAC allows the performance to reach a 115dB S/N ratio with more than 110dB of dynamic range. TDA7802 also integrates an innovative high efficiency concept, optimized also for uncorrelated music signals making it ideal for simplifying thermal management in high power sets.
STMicroelectronics LSM9DS0 iNEMO 3D Accelerometer, 3D Gyro & 3D Magnetometer is a system-in-package featuring a 3D digital linear acceleration sensor, a 3D digital angular rate sensor, and a 3D digital magnetic sensor. The LSM9DS0 has a linear acceleration full scale of ±2g/±4g/±6g/±8g/±16g, a magnetic field full scale of ±2/±4/±8/±12 gauss and an angular rate of ±245/±500/±2000dps. The LSM9DS0 includes an I2C serial bus interface supporting standard and fast mode (100kHz and 400kHz) and an SPI serial standard interface. The system can be configured to generate interrupt signals on dedicated pins and is capable of motion and magnetic field detection. Thresholds and timing of interrupt generators are programmable by the end user. Magnetic, accelerometer and gyroscope sensing can be enabled or set in power-down mode separately for smart power management.
STMicroelectronics Automotive MDmesh™ V Power MOSFET is the industry’s first 650V AEC-Q101 automotive-qualified MOSFETs in the popular TO-247 package. The 650V rating provides greater safety margin when exposed to high-voltage spikes, enhancing the reliability of automotive power and control modules. This device offers extremely low on-resistance (RDS(on)) as low as 0.032Ω, combined with the compact TO-247 outline, enhances system energy efficiency and power density. Gate charge (Qg) and input capacitance are also low, resulting in outstanding Qg x RDS(on) figure of merit (FOM) with high switching performance and efficiency.
STMicroelectronics STM8A 8-Bit Microcontrollers are is implemented around a high-performance 8-bit core and a state-of-the-art set of peripherals. This platform is manufactured using an ST-proprietary 130nm embedded non-volatile memory technology. The STM8A series is intended for automotive applications where no compromise on parameters is possible, from reliability to system cost effectiveness. These are modular, provides high performance and offers the flexibility required for short development cycles. Its true data EEPROM, combined with the capability to withstand up to 150°C ambient temperature, make the series a sustainable choice for automotive applications.
STMicroelectronics ESDAXLC6-1BU2 Bidirectional ESD Protection is a bidirectional single line TVS diode designed to protect the data lines or other I/O ports against ESD transients. Features include extra low diode capacitance, low leakage current, 0201 SMD package size and ultra small PCB area. The device is ideal for applications where both reduced line capacitance and board space saving are required. Typical applications include smartphones, mobile phones, tablet PCs, netbooks, notebooks, portable multimedia devices, digital cameras, camcorders, and communication devices.
STMicroelectronics SPC5 32-bit Automotive Microcontrollers are designed using Power Architecture® and ST’s embedded Flash technology. They combine a scalable range of e200 cores with innovative peripheral sets that are optimized for building efficient applications in engine management, chassis, safety, body control and advanced driver assistance. The SPC5 family offers modular design concept, high-performance technology and rigorous implementation of a zero-defect strategy making them a reference platform for next-generation automobile applications.
STMicroelectronics TSU10x Nanopower Operational Amplifiers offer an ultra low-power consumption of 580nA typical and 750nA maximum per channel when supplied by 1.8V. Combined with a supply voltage range of 1.5V to 5.5V, these features allow the TSU10x series to be efficiently supplied by a coin type Lithium battery or a regulated voltage in low-power applications. The 8kHz gain bandwidth of these devices make them ideal for sensor signal conditioning, battery supplied, and portable applications.
STMicroelectronics 600 to 650V IGBTs supply a maximum collector current ranging from 3A up to 150A for applications with an operating frequency of up to 100kHz. Versions are also available with a tailored built-in anti-parallel diode for design optimization. This voltage range is achieved with ST’s proprietary standard punch-through PowerMESH technology and the newly introduced trench-gate field-stop technology. Target applications for these 600 to 650V IGBTs include home appliances, induction heating, photovoltaics, UPS, welding and lighting. The available package options are D2PAK, DPAK, ISOTOP, Max247, TO-220, TO-220FP, TO-247, TO-247 long leads, TO-3PF.
STMicroelectronics ST1S31 Step-Down Switching Regulator is an internally compensated 1.5MHz fixed-frequency PWM synchronous step-down regulator. The ST1S31 operates from 2.8V to 5.5V input, while it regulates an output voltage as low as 0.8V and up to VIN. This device integrates a 60mΩ high-side switch and 45mΩ synchronous rectifier allowing very high efficiency with very low output voltages. The peak current mode control with internal compensation delivers a very compact solution with a minimum component count. The ST1S31 is available in 3mm x 3mm, 8 lead VFDFPN and SO-8 packages.
STMicroelectronics ST1CC40 Step-Down DC-DC Converters are a 850kHz fixed switching frequency monolithic step-down DC-DC converter designed to operate as precise constant current source with an adjustable current capability up to 3A DC. The regulated output current is set connecting a sensing resistor to the feedback pin. The embedded synchronous rectification and the 100mV typical RSENSE voltage drop enhance the efficiency performance. The size of the overall application is minimized thanks to the high switching frequency and ceramic output capacitor compatibility. The device is fully protected against thermal overheating, overcurrent and output short-circuit. Inhibit mode minimizes the current consumption in standby.
STMicorelectronics STLUX385A Digital LED Lighting Driver is part
of the MASTERLUX™ family of ST Microelectronics digital devices tailored
for lighting and power conversion. The STLUX385A has been successfully
integrated in a wide range of architectures and applications, starting
from simple buck converters for LED driving, boost for power factor
correction, half-bridge resonant converters for dimmable LED strings, up
to full-bridge control in HID lamp ballasts, wireless power chargers
and TV power supplies.
STMicroelectronics LDK120xx Low Drop Voltage Regulators provide 200mA of maximum current from an input supply voltage in the range of 1.9V to 5.5V, with a typical dropout voltage of 100mV. They are stabilized with a ceramic capacitor on the output. The very low drop voltage, low quiescent current and low noise features make it suitable for low power battery-powered applications. An enable logic control function puts the LDK120xx in shutdown mode allowing a total current consumption lower than 1μA. The device also includes a short-circuit constant current limiting and thermal protection.
STMicroelectronics L99DZ80/81 Door Actuator Drivers are designed for state-of-the-art automotive door-module applications. They employ a scalable actuator-driving concept, which includes package and software compatibility with the wide variety of door electronics used by the industry. The actuator drivers support all regular door-module loads such as window lifting, lock motors, mirror leveling, mirror retraction, defrosters, and several lighting functions from incandescent bulbs to LEDs.