Showing results: 106 - 120 of 140 items found.
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STMicroelectronics
Protection against electrostatic discharges (ESD) is part of EMC Immunity (Electro Magnetic Compatibility) requirements. It is the ability for equipment to properly operate in its electromagnetic environment by limiting the reception of electromagnetic energy that may cause physical damage. ESD can be either conducted under the form of a transient voltage or can be radiated due to its fast rising time: powerful harmonics will generate erratic behavior by the application by coupling with other signals. Printed circuit boards must be protected against the effects of electrostatic discharge.
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STMicroelectronics
In addition to ensuring compliance with today's most stringent energy efficiency regulations (Energy Star, 80Plus, and European Efficiency), ST's silicon-carbide diodes show four times better dynamic characteristics with 15% less forward voltage (VF) than standard silicon diodes. Silicon-carbide diodes belong to our STPOWER family.
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STMicroelectronics
With robust, advanced high-voltage converters, power factor correctors, a variety of controllers and supervisors/housekeeping ICs, together with innovative architectures and extended temperature ranges. New generation AC-DC converters reduce power consumption and increase efficiency, essential for powering the majority of mains equipment. When combined together, ST power factor correctors, PWM controllers and offline converters significantly lower system power consumption to outperform the most demanding energy-saving regulations, such as 80 PLUS® Initiative, ErP Lot 6, Energy Star, and many others.
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STMicroelectronics
Serial Page EEPROM is a high-density, page-erasable SPI EEPROM memory that combines flexibility, performance, and ultra-low power. The Serial Page EEPROM with proprietary NVM cell technology delivers fast erase/write performance with high cycling endurance and robust retention. The new architecture allows fast wake up and byte flexibility, as well as block management and fast quad output, while keeping current surge and energy budget at very low levels.
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STMicroelectronics
Gate drivers, FETs and protection circuitry integrated into a single package to drive loads in industrial and home-appliance applications, with increased power density per cm². ST’s high-density power drivers are System in Package (SiP) solutions integrating in compact QFN packages the STDRIVE gate drivers and MOSFET-based power stages, responding to the industrial market trend towards higher levels of integration and lower development costs.
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STMicroelectronics
ST offers complete analog interfaces for asynchronous 1.8 V, 3 V and 5 V smartcards. They can be placed between the card and the microcontroller with only a few external components to perform all supply protection and control functions. Main targeted applications are smartcard readers for set-top boxes, IC card readers for banking, identification and pay TV.
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STMicroelectronics
Housing multiple half-bridges and high-side switches on a single IC, our multi-output driver ICs are designed to drive small automotive loads and medium current DC motors as well as providing protected supply lines.
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STMicroelectronics
ST is a world-class supplier of IC smart power solutions for all the Chassis and Safety applications, ranging from passive safety, braking, vehicle dynamics and steering systems. Type of devices in ST portfolio are analog and mixed-signal ICs, integrating different functions such as supply modules, drivers for loads and actuators, diagnostic functions, system monitoring and communication interfaces.
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STMicroelectronics
Our analog switch IC portfolio ranges from SPDT switches to larger octal SPDT or quad DPDT switches. It features low on-resistances, integrated 15 kV protection diodes and negative charge pump, and with a bandwidth meeting audio or USB requirements.
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STMicroelectronics
ST's Ultrasound Imaging IC Solutions offer a complete range of integrated high-voltage transmitters from quad and octal, to the latest device, the state-of-the art STHV1600 ultrasound pulser IC, to high-voltage multiplexer IC, the STHV64SW, a 64-channel, high voltage analog independent switches. ST’s proprietary BCD6s-SOI and BCD8sSOI process technologies enable the combination of low-voltage CMOS logic, precise analog circuitry, and robust power stages on the same chip, offering unprecedented level of integration.
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STMicroelectronics
An audio MEMS sensor is an electro-acoustic transducer housing a sensor (MEMS) and an application-specific integrated circuit (ASIC) in a single package.
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STMicroelectronics
ST’s portfolio of infotainment systems on chips (SOCs) includes a complete offer of automotive-grade devices for a wide range of infotainment systems ranging from turnkey Accordo2 processors for car radio applications and Display Audio systems, featuring smartphone mirroring and support of rear-view cameras, up to powerful Accordo5 multi-core processors with best-in class 3D graphics and video decoding capabilities, to address multi-standard smartphone replication technology as well as Digital Instrument Cluster applications.
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STMicroelectronics
The STM6600 and STM6601 smart push-button on/off controller chips offer protection for battery-operated devices in many ways. These include minimizing the risk of powering up without sufficient battery energy to complete the sequence, which can damage the system. It can also prevent power-up if it detects a fault in the power supply.
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STMicroelectronics
A standard-compliant wireless technology, optimized to fit short range connectivity, energy per bit and bandwidth requirements, is behind every network - regardless of its nature or purpose. With the growing importance of wireless sensor networks and the IoT, most electronic systems require wireless connectivity.
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STMicroelectronics
Driver assistance systems use radar sensors in various counts and configurations. The data provided by the radar sensors is used in applications such as blind-spot detection, autonomous emergency braking, and adaptive cruise control, to increase safety by enabling vehicles to identify and avoid potentially dangerous situations. Radar systems in conjunction with other sensor systems will contribute to increasing automation levels right up to the completely autonomous vehicle.