Difference between revisions of "Brunn test"
From iis-projects
(→Biomedical System on Chips) |
(→Analog IC Design) |
||
Line 11: | Line 11: | ||
===[[Analog IC Design|Analog IC Design]]=== | ===[[Analog IC Design|Analog IC Design]]=== | ||
+ | The focus of Analog IC Design projects is on designing analog circuits, simulations and layout. The applications cover a wide range: from high-speed transceivers to power management circuits, PLL design and bio-medical front-ends to name a few. | ||
<DynamicPageList> | <DynamicPageList> | ||
suppresserrors = true | suppresserrors = true | ||
Line 17: | Line 18: | ||
category = Analog IC Design | category = Analog IC Design | ||
</DynamicPageList> | </DynamicPageList> | ||
− | |||
===[[Biomedical System on Chips|Biomedical System on Chips]]=== | ===[[Biomedical System on Chips|Biomedical System on Chips]]=== |
Revision as of 18:36, 4 December 2018
Analog IC Design
The focus of Analog IC Design projects is on designing analog circuits, simulations and layout. The applications cover a wide range: from high-speed transceivers to power management circuits, PLL design and bio-medical front-ends to name a few.
- High-Speed Digital-to-Analog Converter (DAC) for massive MIMO testing in 65nm CMOS
- High-Speed SAR ADC for next generation wireless communication in 12nm FinFET
- Analog building blocks for mmWave manipulation
- A mmWave Voltage-Controlled-Oscillator (VCO) for beyond 5G applications
- Bluetooth Low Energy network with optimized data throughput
- 5G Cellular RF Front-end Design in 22nm CMOS Technology
- Design of Charge-Pump PLL in 22nm for 5G communication applications
Biomedical System on Chips