The Indian Institute of Technology Bhubaneswar has made semiconductor chips that use less power. People who create electronic devices that play music can use the chips. For example, it is designed to send biomedical data on the internet of medical things and wearable body area networks to Edge or Cloud computing devices that use less energy and are more secure.
- IIT Bhubaneswar designed low-power semiconductor chips.
- The chips can be used in electronic audio devices.
- The institution created the semiconductor chips.
- It is intended for energy-efficient secure biomedical data transmission in IoMT and WBANs to Edge or Cloud computing devices, according to IIT Bhubaneswar director RV Raja Kumar.
- He said the institute intends to improve the capabilities and advance it.
IIT Bhubaneswar developed low-power chips that can be used in audio applications. The chips are used for the transmission of secure biomedical data to the Cloud in the Internet of medical things (IoMT) and wearable body area networks (WBANs).
Chips that use less power have been made by the Indian Institute of Technology (IT) Bhubaneswar. They can be used to make music on electronic devices.
CMOS data conversion integrated circuit (1C) was designed and built by a team led by MS Manikandan and Srinivas Boppu. It is aimed at the internet of things (loT) sensors, monitors, and wireless devices that use low-power CMOS data conversion integrated circuits.
A particular program called “chips to system design” (SMDP-C2SD) helped make these ICs possible. They were made with help from electronics and information technology (Meity). It was made at the Semi-Conductor Laboratory (SCL) in the city of Mohali, official sources say.
In this case, the semiconductor chips were made by the school. IoMT devices and wearable body area networks (WBANs) can send biomedical data to Edge or Cloud computing devices with low energy consumption and high security, says a statement from a company that makes them.
It’s essential to make new, low-power application-specific integrated circuits (ASICS) at a time when it’s still hard to extend the battery life. These researchers are working on making ICs that use less power. Institution: “Efforts to build research teams and develop new technologies have started to pay off. Recently, the first batch of integrated circuits was made.”
Another team led by Vijaya Sankara Rao Pasupureddi has designed and built a digitally intensive short-range low-power RF front-end IC for IoT applications. This IC is very high-speed and low-power. This chip, which has a lot of new design ideas, is being made at TSMC, Taiwan, and it will be soon.
RV In the last four years, Raja Kumar, the director of IIT Bhubaneswar, says that they have been working on this semiconductor chip project together. “They tried to make these semiconductor chips in Odisha, but they failed. There wasn’t a lot of local expertise back then. Now, lIT Bhubaneswar has come up with a new product that is better than the old one. In the future, this semiconductor chip-making business will be given a boost. The industries will be able to learn from us about this, “he said more, too.
It’s going to get even better and move forward in the next few years; Raja Kumar told the story. People in the industry will have more confidence in the institute’s work, which will help put Bhubaneswar on the map of this technology, said the man.
IIT Bhubaneswar research Teams have designed & developed a ultra-low power CMOS data conversion Integrated Circuit (IC) with the support of Ministry of Electronics & Information Technology and got fabricated at the Semi-Conductor Laboratory (SCL), Mohali pic.twitter.com/NYX0MyqGUd— DD News Odia (ଓଡିଆ) (@DDOdiaNews) December 16, 2021
✅.@IITBhubaneswar develops Semiconductor Chip for Cutting-Edge Applications— PIB in Odisha (@PIBBhubaneswar) December 16, 2021
✅The technology is targeted for energy-efficient secured biomedical data transmission in internet of medical things (IoMT) and wearable body area networks (WBANs) to Edge or Cloud computing devices pic.twitter.com/9TvujSmhTN