Personal tools

Difference between revisions of "LTE-Advanced RF Front-end Design in 28nm CMOS Technology"

From iis-projects

Jump to: navigation, search
(Status: Available)
 
Line 15: Line 15:
 
promising will be implemented and verifed in the mentioned IC technology.
 
promising will be implemented and verifed in the mentioned IC technology.
  
===Status: Completed ===
+
===Status: Available ===
 
: Looking for 1-2 Semester/Master students
 
: Looking for 1-2 Semester/Master students
 
: Contact: [[:User:burgert | Thomas Burger]]
 
: Contact: [[:User:burgert | Thomas Burger]]
Line 48: Line 48:
 
[[#top|↑ top]]
 
[[#top|↑ top]]
 
[[Category:Analog]]
 
[[Category:Analog]]
[[Category:Available]]
+
[[Category:Completed]]
 
[[Category:Semester Thesis]]
 
[[Category:Semester Thesis]]
 
[[Category:Master Thesis]]
 
[[Category:Master Thesis]]
 
[[Category:Sporrerb]]
 
[[Category:Sporrerb]]

Latest revision as of 16:38, 21 December 2017

LTE FE over.png

Short Description

In a transceiver IC, the analog front-end is the first circuit that processes the received signal from the antenna. In modern transceiver ICs (e.g. for LTE application) the front-end amplifies the signal prior to a direct downconversion to baseband. Both the amplification and frequency conversion stage have to show a very low noise figure and have to be free of harmonic distortion. As more and more digital functions are integrated on the transceiver IC, ultra-scaled digital CMOS starts offering big advantages in terms of area and power consumption. Those technologies pose new challenges and offer new opportunities to the analog front-end design. In this work the analog front-end for the up-coming 5G standards will be implemented in a 28nm CMOS technology. Different topologies for the low-noise-amplifier (LNA) and the mixer (frequency translation circuit) shall be analyzed and compared. The most promising will be implemented and verifed in the mentioned IC technology.

Status: Available

Looking for 1-2 Semester/Master students
Contact: Thomas Burger

Prerequisites

Analog Integrated Circuits
Communication Electronics (recommended)

Character

30% Theory
60% ASIC Design
10% Layout

Professor

Qiuting Huang

↑ top

Detailed Task Description

Goals

Practical Details

Results

Links

↑ top