Skip to main content

ROHM New SCT3 Series 650V, 1200V SiC MOSFETs Automotive-Grade

ROHM has recently announced the addition of 10 new automotive-grade SiC MOSFETs. The introduction of the SCT3xxxxxHR series allows ROHM to offer the industry's largest lineup of AEC-Q101 qualified SiC MOSFETs that provide the high reliability necessary for automotive on board chargers and DC/DC converters.

SCT3017ALHR, SCT3022ALHR, SCT3030ALHR, SCT3060ALHR, SCT3080ALHR, SCT3120ALHR, SCT3022KLHR, SCT3030KLHR, SCT3040KLHR,SCT3080KLHR SCT3105KLHR, SCT3160KLHR, SCT2080KEHR

In recent years an increasing number of automotive makers are offering electric vehicles in response to growing environmental awareness and rising fuel costs. However, although EVs are becoming more widespread, their relatively short driving range remains problematic. To improve driving distance, batteries are trending towards larger battery capacities with shorter charging times. This, in turn, demands high power and efficiency on board chargers such as 11kW and 22kW, leading to increased adoption of SiC MOSFETs. In addition, higher voltage batteries (800V) require power devices featuring low loss and higher withstand voltages.
To meet these needs, ROHM added 10 new models to its lineup of AEC-Q101 qualified MOSFETs that utilizes a trench gate structure. The result is the industry’s largest portfolio, available in both 650V and 1200V variants. And going forward, ROHM will strive to further improve quality and strengthen its lineup to increase device performance, reduce power consumption, and achieve greater miniaturization.
Source:
https://www.rohm.com/news-detail?news-title=industrys-largest-lineup-of-automotive-grade-sic-mosfets&defaultGroupId=false

Comments

Popular posts from this blog

Nordic Thingy: 91 Multi-sensor cellular IoT Prototyping kit

The Nordic Thingy:91 is an easy-to-use battery-operated prototyping platform for cellular IoT using LTE-M, NB-IoT and GPS. It is ideal for creating Proof-of-Concept (PoC), demos and initial prototypes in your cIoT development phase.
NRF6943  Nordic Thingy:91 is as Multi-sensor cellular IoT prototyping kit supporting LTE-M, NB-IoT, GPS and Bluetooth Low Energy.
The Nordic Thingy:91 is the ideal way to kickstart your cellular IoT project using the nRF9160 SiP. Thingy:91 is equipped with a broad collection of diverse sensors and interfaces that make it highly adaptable to rapid prototyping and getting your proof of concept off the ground in no time at all.

        Key features
•Battery-operated prototyping platform for the nRf9160 SiP
•700-900 MHz + 1710-2200 MHz LTE band support
•Certifications: CE, FCC
•nRF52840 multiprotocol SoC on board
•LTE-M/NB-IoT/GPS antennas
•Nano/4FF SIM card slot
•User-programmable button and RGB LEDs
•Environmental sensor for temp, humidity, air quality and a…

ON Semi RSL10-SOLARSENS-GEVK, RSL10 Solar Cell Multi-Sensor Platform

ON Semiconductor driving energy efficient innovations, continues to enable battery-less and maintenance-free IoT with the introduction of its RSL10 Multi-Sensor Platform powered solely with a solar cell. This complete solution supports the development of IoT sensors using continuous solar energy harvesting to gather and communicate data through Bluetooth® Low Energy, without the need for batteries or other forms of non-renewable energy.
The RSL10 Solar Cell Multi-Sensor platform is a complete, low-cost solution for developing self-powered sensor nodes using harvested solar energy. Based on the RSL10 SIP- the industry's lowest power Bluetooth ® 5 radio, the RSL10 Solar Cell Multi-Sensor platform supports continuous Bluetooth Low Energy transmission of sensor information without requiring any batteries. The fully-integrated platform features multiple smart sensors, an ultra-low quiescent current LDO regulator (NCP170), and a 2-port connector for the provided solar cell (FlexRB-25-70…

Arduino ASX00003 MKR Motor Carrier Board

The MKR Motor Carrier is an MKR add-on board designed to control servo, DC, and stepper motors. The Carrier can also be used to connect other actuators and sensors via a series of 3-pin male headers.

for more details please click this link  https://store.arduino.cc/usa/mkr-motor-carrier


The summary of features is shown below:

1.Compatible with all the boards in the MKR family 2.Four servo motor outputs 3.Four DC motor outputs (two high performance + two standard performance) 4.Sensing of current feedback for the high-performance motors 5.Two inputs for encoder sensors 6.Four inputs for analog sensors (3-pin compatible) 7.Possibility to read the status of the batteries 8.ON-OFF switch with Power ON LED 9.LiPo battery connector (2S or 3S compatible) and power terminal block for alternative power source 10.LEDs to visually indicate the direction of the rotation of the DC motors.
Source https://store.arduino.cc/usa/mkr-motor-carrier