Changes

Landscape report for HEMT

1,912 bytes added, 12:07, 16 September 2011
==Table of Contents==
1. Introduction

2. High Electron Mobility Transistor: Operation and Functioning

2.1 Device Design

2.2 Working Principle

2.3 Challenges in HEMT

3. Control Patents

4. Concept Table

5. Patent Classes

6. Search Query

7. Taxonomy

8. Trend over years

9. Some Products in the Market

10. Major Players

10.1 Key Companies

10.2 Country Wise Distribution

11. HEMT Timeline

==Abstract:==
HEMT (High Electron Mobility Transistor) is a field effect device with hetero interface acting as a channel. The name High electron mobility has come from its high electron mobility nature which is a result of potential well near the hetero interface. HEMT<nowiki>’</nowiki>s mainly use III-V compound semiconductors as channel material. The main intention behind HEMT is to make use of the high mobility in logical applications instead of silicon. But later it was found that HEMT has very less noise figures which attracted communication sector and since it<nowiki>’</nowiki>s been used widely in the high frequency applications (radar, lte, satellites.Etc).

The scaling of silicon is coming to its scaling limitations, researchers again looking back at HEMT as a possible replacement for silicon. The fabrication methods of HEMT<nowiki>’</nowiki>s have also been simplified since its invention. Now the industry predictions state that HEMT will take over convention silicon transistors by 2015. With the potential well as a channel HEMT could achieve frequencies above 1THZ at low power.

Dolcera research focuses on finding the Relevant HEMT patents. The research also focuses on analyzing year wise patent activity, leading industry players and country wise patent activity. The research resulted in 6527 patents that are related to HEMT. The scope of our research covers more than 90 countries. The work also includes categorizing the obtained patents based on the relevant technology.
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