OA4MPA33High precision low-power quad CMOS op amp | Amplifiers | 1 | Active | The OA1MPA, OA2MPA, OA4MPA series of single, dual, and quad operational amplifiers offer low-voltage operation, rail-to-rail input and output, and excellent precision (Violower than 200 μV at 25 °C).
These low power op amps benefit from STMicroelectronics 5 V CMOS technology and offer an excellent speed/power consumption ratio (150 kHz typical gain bandwidth) while consuming less than 14 μA at 5 V. 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. |
OA4NP33Low power, rail-to-rail input and output, CMOS quad op amp | Amplifiers | 1 | Active | The OA1NP, OA2NP, OA4NP series of CMOS operational amplifiers offer a low power consumption of 580 nA typical and 750 nA maximum per channel when supplied by 1.8 V. Combined with a supply voltage range of 1.5 V to 5.5 V, 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 8 kHz gain bandwidth of these devices make them ideal for wearable, fitness and healthcare and sensors signal conditioning applications. |
OCVPB21-13F6ESD, Overvoltage and Overcurrent protection with charging orientation direction detection | Circuit Protection | 1 | Active | The OCVPB21-13F6 is an integrated ESD, overvoltage and overcurrent protection with an integrated input rectification bridge to give flexibility for wearable and IoT customers to manage properly any kind of USB charging conditions with or without USB cable inversion.
Thanks to state of the art high voltage technology, ST can integrate in WLCSP package all required USB stressful high voltage and high current protection conditions (ESD, OVP and OCP) with control signals for wearable and IoT design optimization. |
P-L496G-CELL02Ultra-low-power with FPU Arm Cortex-M4 MCU 80 MHz with 512 kbytes of Flash memory, USB OTG, LCD, DFSDM | Evaluation Boards | 12 | Active | The STM32L496xx devices are ultra-low-power microcontrollers based on the high-performance Arm®Cortex®-M4 32-bit RISC core operating at a frequency of up to 80 MHz. The Cortex-M4 core features a Floating point unit (FPU) single precision that supports all Arm®single-precision data-processing instructions and data types. It also implements a full set of DSP instructions and a memory protection unit (MPU) which enhances application security.
The STM32L496xx devices embed high-speed memories (up to 1 Mbyte of flash memory, 320 Kbyte of SRAM), a flexible external memory controller (FSMC) for static memories (for devices with packages of 100 pins and more), a Quad SPI flash memories interface (available on all packages) and an extensive range of enhanced I/Os and peripherals connected to two APB buses, two AHB buses and a 32-bit multi-AHB bus matrix.
The STM32L496xx devices embed several protection mechanisms for embedded flash memory and SRAM: readout protection, write protection, proprietary code readout protection and Firewall.
The devices offer up to three fast 12-bit ADCs (5 Msps), two comparators, two operational amplifiers, two DAC channels, an internal voltage reference buffer, a low-power RTC, two general-purpose 32-bit timer, two 16-bit PWM timers dedicated to motor control, seven general-purpose 16-bit timers, and two 16-bit low-power timers. The devices support four digital filters for external sigma delta modulators (DFSDM).
In addition, up to 24 capacitive sensing channels are available. The devices also embed an integrated LCD driver 8x40 or 4x44, with internal step-up converter.
They also feature standard and advanced communication interfaces, namely four I2Cs, three SPIs, three USARTs, two UARTs and one Low-Power UART, two SAIs, one SDMMC, two CANs, one USB OTG full-speed, one SWPMI (single wire protocol master interface), a camera interface and a DMA2D controller.
The STM32L496xx devices embed HASH hardware accelerators.
The STM32L496xx operates in the -40 to +85 °C (+105 °C junction), -40 to +125 °C (+130 °C junction) temperature ranges from a 1.71 to 3.6 V VDDpower supply when using internal LDO regulator and a 1.05 to 1.32V VDD12power supply when using external SMPS supply. A comprehensive set of power-saving modes makes possible the design of low-power applications.
Some independent power supplies are supported: analog independent supply input for ADC, DAC, OPAMPs and comparators, 3.3 V dedicated supply input for USB and up to 14 I/Os can be supplied independently down to 1.08 V. A VBAT input makes it possible to backup the RTC and backup registers. Dedicated VDD12power supplies can be used to bypass the internal LDO regulator when connected to an external SMPS.
The STM32L496xx family offers seven packages from 64-pin to 169-pin packages. |
P-NUCLEO-53L7A1VL53L7CX STM32 Nucleo pack with X-NUCLEO-53L7A1 expansion board and NUCLEO-F401RE development board | Development Boards, Kits, Programmers | 1 | Active | The P-NUCLEO-53L7A1 is a complete evaluation kit that allows you to learn, evaluate, and develop applications using the VL53L7CX Time-of-Flight 8x8 multizone ranging sensor with 90° FoV.
The VL53L7CH artificial enabler Time-of-Flight sensor is also supported by the X-NUCLEO-53L7A1.
Specifically designed for applications that require an ultrawide FoV, the VL53L7CX Time-of-Flight sensor offers a 90° diagonal FoV.
Based on ST FlightSense technology, the VL53L7CX incorporates an efficient metasurface lens (DOE) placed on the laser emitter, enabling the projection of a 60° x 60° square FoV onto the scene.
Its multizone capability provides a matrix of 8x8 zones (64 zones) and can work at fast speeds (60 Hz) up to 350 cm.
Thanks to the autonomous mode with programmable distance threshold combined with the ultrawide FoV, the VL53L7CX is perfect for any application requiring low-power user detection.
ST patented algorithms and innovative module construction allow the VL53L7CX to detect, in each zone, multiple objects within the FoV with depth understanding.
ST histogram algorithms ensure cover glass crosstalk immunity beyond 60 cm.
Derived from the VL53L7CX, the pinouts and drivers of both sensors are compatible, ensureing a simple migration from one sensor to the other.
Like all Time-of-Flight (ToF) sensors based on ST FlightSense technology, the VL53L7CX records, in each zone, an absolute distance regardless of the target color and reflectance.
The NUCLEO-F401RE STM32 Nucleo development board provides an affordable and flexible way for users to try out new ideas and build prototypes with any STM32 microcontroller, choosing from the various combinations of performance, power consumption, and features. |
P-NUCLEO-AZURE1Ultra-low-power with FPU Arm Cortex-M4 MCU 80 MHz with 512 Kbytes of Flash memory, LCD, USB OTG, DFSDM | Embedded MCU, DSP | 18 | Active | The STM32L476xx devices are ultra-low-power microcontrollers based on the high-performance Arm®Cortex®-M4 32-bit RISC core operating at a frequency of up to 80 MHz. The Cortex-M4 core features a Floating point unit (FPU) single precision that supports all Arm®single-precision data-processing instructions and data types. It also implements a full set of DSP instructions and a memory protection unit (MPU) which enhances application security.
The STM32L476xx devices embed high-speed memories (flash memory up to 1 Mbyte, up to 128 Kbyte of SRAM), a flexible external memory controller (FSMC) for static memories (for devices with packages of 100 pins and more), a Quad SPI flash memories interface (available on all packages) and an extensive range of enhanced I/Os and peripherals connected to two APB buses, two AHB buses and a 32-bit multi-AHB bus matrix.
The STM32L476xx devices embed several protection mechanisms for embedded flash memory and SRAM: readout protection, write protection, proprietary code readout protection and Firewall.
The devices offer up to three fast 12-bit ADCs (5 Msps), two comparators, two operational amplifiers, two DAC channels, an internal voltage reference buffer, a low-power RTC, two general-purpose 32-bit timer, two 16-bit PWM timers dedicated to motor control, seven general-purpose 16-bit timers, and two 16-bit low-power timers. The devices support four digital filters for external sigma delta modulators (DFSDM).
In addition, up to 24 capacitive sensing channels are available. The devices also embed an integrated LCD driver 8x40 or 4x44, with internal step-up converter.
They also feature standard and advanced communication interfaces, namely three I2Cs, three SPIs, three USARTs, two UARTs and one Low-Power UART, two SAIs, one SDMMC, one CAN, one USB OTG full-speed, one SWPMI (single wire protocol master interface).
The STM32L476xx operates in the -40 to +85 °C (+105 °C junction), -40 to +105 °C (+125 °C junction) and -40 to +125 °C (+130 °C junction) temperature ranges from a 1.71 to 3.6 V VDDpower supply when using internal LDO regulator and a 1.05 to 1.32V VDD12power supply when using external SMPS supply. A comprehensive set of power-saving modes makes possible the design of low-power applications.
Some independent power supplies are supported: analog independent supply input for ADC, DAC, OPAMPs and comparators, 3.3 V dedicated supply input for USB and up to 14 I/Os can be supplied independently down to 1.08 V. A VBAT input makes it possible to backup the RTC and backup registers. Dedicated VDD12power supplies can be used to bypass the internal LDO regulator when connected to an external SMPS.
The STM32L476xx family offers seven packages from 64-pin to 144-pin packages. |
P-NUCLEO-IKA02A1STM32 Nucleo pack for IO-Link device fully compatible with IO-Link v1.1 (PHY and stack) | RF Evaluation and Development Kits, Boards | 5 | Active | The P-NUCLEO-IOM01M1 is an STM32 Nucleo pack composed of the STEVAL-IOM001V1 and the NUCLEO-F446RE boards. The STEVAL-IOM001V1 is a single IO-Link master PHY layer (L6360) while the NUCLEO- F446RE runs an IO-Link stack rev 1.1 (developed by and property of TEConcept GmbH, license limited to 10k minutes, renewable without additional costs). IO-Link stack update is allowed exclusively by following the procedure described in UM2421 (freely available at www.st.com). Any other erase/overwrite of the pre-loaded stack makes impossible to restore it.
The STM32 Nucleo pack provides an affordable and easy-to-use solution for the evaluation of IO-Link applications, L6360 communication features and robustness, together with the STM32F446RET6 computation performance. The pack, hosting up to four STEVAL-IOM001V1 to build a quad port IO-Link master, can access the IO-Link physical layer and communicate with IO-Link Devices.
You can evaluate the tool via the dedicated GUI (IO-Link Control Tool©, property of TEConcept GmbH) or use it as an IO-Link master bridge accessible from the dedicated SPI interface: source code of demo project (Low-Level IO-Link Master Access Demo Application, developed by TEConcept GmbH) and API specification are available for free. |
P-NUCLEO-IOD04A1STM32 Nucleo pack for IO-Link device applications based on L6364Q transceiver, IPS2050H-32 power switch and STM32L073RZ | Development Boards, Kits, Programmers | 1 | Active | The P-NUCLEO-IOD04A1 is an STM32 Nucleo pack composed of the X-NUCLEO-IOD02A1 and X-NUCLEO-OUT04A1 expansion boards stacked on the NUCLEO-L073RZ development board.
The X-NUCLEO-IOD02A1 features the L6364Q IO-Link device transceiver for the physical connection to an IO-Link master while the X-NUCLEO-OUT04A1 features an industrial digital output expansion board for STM32. The NUCLEO-L073RZ features the necessary hardware resources to run the FP-IND-IODOUT1 function pack and to control the transceiver and the power switch.
The FP-IND-IODOUT1 combines an IO-Link demo stack library (derived from X-CUBE-IOD02) with the X-CUBE-IPS and features an example of IO-Link device sensor and actuator node.
The P-NUCLEO-IOD04A1 can be used for evaluation purpose and as a development environment.
The STM32 Nucleo pack provides an affordable and easy-to-use solution for the development of an IO-Link and SIO applications for the evaluation of IPS2050H-32 high side capabilities together with the STM32L073RZ computation performance. |
P0102DNSensitive gate 0.8 A 400 V SCR Thyristor | SCRs | 3 | Active | Thanks to highly sensitive triggering levels, the 0.8 A P0102DN SCR thyristor is suitable for all applications where available gate current is limited. This device offers a high blocking voltage of 400 V, ideal for applications like interrupters circuits in 110 V mains regions.
The surface mount SOT-223 package allows compact, SMD based designs for automated manufacturing. |
P0109DASensitive 0.8 A SCR Thyristor | Thyristors | 1 | Active | Thanks to highly sensitive triggering levels, the 0.8 A P0109DA SCR thyristor is suitable for all applications where available gate current is limited.
This device offers a high blocking voltage of 400 V, ideal for applications like interrupters circuits.
The P0109DA is available in through-hole TO-92 package. |
