Category: IC
![LTC7804 40 V 3 MHz Boost Controller with Spread Spectrum offers 99.9% efficiency LTC7804 40 V 3 MHz Boost Controller with Spread Spectrum offers 99.9% efficiency](https://www.electronics-lab.com/wp-content/uploads/2021/10/Screenshot-2021-10-07-at-13-03-53-analog-devices-ltc7804-40-v-3-mhz-boost-controller-with-spectrum-frequency-lrg-jpg-WEBP-....png)
LTC7804 40 V 3 MHz Boost Controller with Spread Spectrum offers 99.9% efficiency
Analog Devices' LTC7804 offers low Iq, small solution size, and PassThru™ operation for up to 99.9% efficiency ADI's LTC7804 is a low IQ, 3 MHz PassThru operation capable of synchronous boost DC/DC switching regulator controller that operates up to a 40 V input voltage....
Continue Reading![Nano Pulse Control™ 4.5 V to 36 V Input, 5 A Integrated MOSFET Single Synchronous Buck DC/DC Converter Nano Pulse Control™ 4.5 V to 36 V Input, 5 A Integrated MOSFET Single Synchronous Buck DC/DC Converter](https://www.electronics-lab.com/wp-content/uploads/2021/10/VMMP16LZ3030.png)
Nano Pulse Control™ 4.5 V to 36 V Input, 5 A Integrated MOSFET Single Synchronous Buck DC/DC Converter
The BD9F500QUZ from ROHM Semiconductor is a DC to DC Converter with Input Voltage 4.5 to 36 V, Output Voltage 1 0.6 to 14 V, Output Current 1 0 to 5000 mA, Storage Temperature -55 to 150 °C. Tags: Surface Mount, Buck/Step down. More details for BD9F500QUZ can be seen...
Continue ReadingDA4100 – WattUp® Wireless Power Transmitter – Charger
DA4100 is a highly integrated System-on-Chip WattUp RF-transmitter IC designed to provide optimal charging of WattUp receiver devices. It forms the core of the Near Field WattUp transmitter system and is designed to charge a range of devices fitted with WattUp receivers. It features the...
Continue Reading![Texas Instruments TPS562211 2A Synchronous Buck Converter Texas Instruments TPS562211 2A Synchronous Buck Converter](https://www.electronics-lab.com/wp-content/uploads/2021/10/Screenshot-2021-10-04-at-13-10-59-TPS562211-2A-Synchronous-Buck-Converter.png)
Texas Instruments TPS562211 2A Synchronous Buck Converter
Texas Instruments TPS562211 2A Synchronous Buck Converter is a flexible, cost-effective solution in a SOT583 package. The TPS562211 Converter features a selectable Eco-mode operation or FCCM (Force Continuous Conduction Mode) operation. Furthermore, a selectable Power-Good indicator or...
Continue Reading![Analog Devices Inc. ADG7421F Dual Single-Pole/Single-Throw Switch Analog Devices Inc. ADG7421F Dual Single-Pole/Single-Throw Switch](https://www.electronics-lab.com/wp-content/uploads/2021/09/157268376.png)
Analog Devices Inc. ADG7421F Dual Single-Pole/Single-Throw Switch
Analog Devices Inc. ADG7421F Dual Single-Pole/Single-Throw Switch features overvoltage protection, power-off protection, and overvoltage detection on the source pins. When no power supplies are present, the switch remains in the off condition, and the switch inputs are high impedance....
Continue Reading![E-PEAS cooperates with TCT on energy harvesting solution E-PEAS cooperates with TCT on energy harvesting solution](https://www.electronics-lab.com/wp-content/uploads/2021/09/e-peas-PR20-TCT-e-peas-induction-energy-harvesting_popup.jpg)
E-PEAS cooperates with TCT on energy harvesting solution
Cooperation between E-PEAS and TCT has resulted in an energy harvesting solution for three-phase electricity cables designed to support IOT. Building on the existing technology relationship between e-peas and TCT, the two companies have made another major advance in the harvesting of...
Continue Reading![Maxim Integrated MAX31329 I2C Real-Time Clock (RTC) Maxim Integrated MAX31329 I2C Real-Time Clock (RTC)](https://www.electronics-lab.com/wp-content/uploads/2021/09/Screenshot-2021-09-28-at-12-05-15-MAX31329-I2C-Real-Time-Clock-RTC.png)
Maxim Integrated MAX31329 I2C Real-Time Clock (RTC)
Maxim Integrated MAX31329 I2C Real-Time Clock (RTC) is a low-current timekeeping device that provides timekeeping current in nanoamps (nA), thus extending battery life. This device incorporates an integrated 32.768kHz crystal, that eliminates the need for an external crystal. The...
Continue Reading![7nm GNSS receiver for wearables cuts power by 5x 7nm GNSS receiver for wearables cuts power by 5x](https://www.electronics-lab.com/wp-content/uploads/2021/09/Broadcom-BCM4778-W.jpg)
7nm GNSS receiver for wearables cuts power by 5x
Broadcom Inc. today announced the world’s lowest power L1/L5 GNSS receiver chip, the BCM4778, optimized for mobile and wearable applications. Equipped with the latest GNSS innovations, this third-generation chip is 35% smaller and consumes 5 times less power than the previous...
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