Showing results: 31 - 45 of 307 items found.
-
Renesas Electronics Corp.
Renesas discrete and power devices support a variety of applications. Our product lineup offers support for increasing the performance of and reducing the size and weight of your system.
-
Renesas Electronics Corp.
Designed for OEM Automotive applications, Renesas' highly integrated AEC-Q100 qualified automotive display processor ICs include an analog video decoder, high quality H/V scaler, 2D de-interlacer, and embedded timing controllers.
-
Renesas Electronics Corp.
Renesas' high-performance DrMOS power modules combine a high-performance FET driver and MOSFETs in an advanced package to create high-density DC/DC converters.
-
Renesas Electronics Corp.
Renesas' programmable downconverters (PDCs) are designed for high dynamic range applications such as cellular basestations where multiple channel processing is required in a small physical space.
-
-
Renesas Electronics Corp.
Renesas DSP synthesizers products include a direct digital synthesizer (DDS) system in a single package and a numerically controlled oscillator (NCO12) that has applications as a DDS and modulator in low cost digital radios, satellite terminals and function generators.
-
Renesas Electronics Corp.
Renesas digital signal processing (DSP) upconverter products include a quad programmable upconverter (QPUC) which is a QASK/FM modulator/FDM upconverter designed for high dynamic range applications such as cellular basestations and a wideband programmable modulator (WPM) which is a quadrature amplitude modulator/upconverter designed for wideband digital modulation.
-
Renesas Electronics Corp.
Renesas EEPROM realizes high speed, low power consumption and a high level of reliability by employing advanced MONOS memory technology, CMOS process and low voltage circuitry technology.
-
Renesas Electronics Corp.
Device driver for controlling MultimediaCard using MultimediaCard Interface (MMCIF) built-in the MCU
-
Renesas Electronics Corp.
With more than 20 years of industry experience, Renesas is an expert in providing sensor technologies that enable our customers to design and build best-in-class sensor solutions. As we expand the breadth of our sensor technologies, Renesas will create unique and differentiated sensor solutions.
-
Renesas Electronics Corp.
We offer high-performance products with low forward voltage (VF) and high-speed reverse recovery time (trr) for increasing device efficiency.
-
Renesas Electronics Corp.
Understanding that fiber-optic devices are key devices for building global information networks, Renesas has applied its advanced R&D, design, development, and quality management expertise to creating a diverse portfolio of products for a wide range of fiber-optic communications applications.
-
-
ASI4U-V5 -
Renesas Electronics Corp.
The ASI4U-V5 is the industry’s first silicon solution to fulfill the ASi-5 (Actuator-Sensor-Interface version 5) standard for industrial network equipment that enables comprehensive Industry 4.0 applications. The ASI4U-V5 ASSP comes with a completely verified and field-proven firmware that fully implements ASi-5. Hence, integration of ASi-5 into any application is very easy, as the complexity of the fieldbus is hidden by the chip and the firmware.
-
Renesas Electronics Corp.
Renesas' family of low-side FET drivers are very high-speed matched dual-drivers capable of delivering peak currents of 2.0 amps into highly capacitive loads and excellent at driving large capacitive loads with minimal delay and switching times. The high-speed performance is achieved by means of a proprietary "Turbo-Driver" circuit that speeds up input stages by tapping the wider voltage swing at the output. Improved speed and drive capability are enhanced by matched rise and fall delay times. These matched delays maintain the integrity of input-to-output pulse-widths to reduce timing errors and clock skew problems. This improved performance is accompanied by a 10 fold reduction in supply currents over bipolar drivers, yet without the delay time problems commonly associated with CMOS devices. Dynamic switching losses are minimized with non-overlapped drive techniques.