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Mass production within 3-4 years

Electronics part supplier ROHM has announced that it has achieved a wireless data transmission speed of 1.5 gigabits per second in experiments conducted with Osaka University. The technology involved the use of terahertz frequencies at 300GHz, but current plans could result in speeds of up to 30Gbps.
 
Chances are you haven't heard of ROHM unless you are in the semiconductor industry. The electronic parts supplier based in Kyoto, Japan is one of the top 25 semiconductor firms in the world by sales.
 
ROHM's breakthrough involves the use of a new micro-antenna that integrates the oscillation device and the detection element onto the semiconductor baseplate. The company plans for mass production of the technology within the next 3-4 years. 30Gbps chips would require production using advanced lithographies, but would result in chip costs of less than $5.

The terahertz range goes from 100GHz to 10THz, and has wave-like and particle-like characteristics. Terahertz radiation is similar to microwave radiation and can penetrate most non-conductive materials, but is stopped by water and metallic substances. Its range is pretty short and requires line of sight, but development for medical and security scanners is already underway.
 
The most alluring use is in high speed radio transmission, possibly leapfrogging wired connections. Computer networks using terahertz technology could be a reality within this decade, but they will have to compete with the WiGig Alliance and their own 7GHz standard.



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RE: Fix Your Title
By Devilpapaya on 11/22/2011 1:11:59 PM , Rating: 2
quote:
Terahertz radiation is similar to microwave radiation and can penetrate most non-conductive materials, but is stopped by water and metallic substances. Its range is pretty short and requires line of sight,


Also this, so is it line of sight or can it go through walls as long as they are non-conductive?


RE: Fix Your Title
By DanNeely on 11/22/2011 7:19:41 PM , Rating: 2
Line of sight could have been used to mean extremely directional.

I know directionality is a big challenge for the work in the 60ghz range. Not being able to go through walls is a second.


RE: Fix Your Title
By Shadowself on 11/23/2011 8:48:38 AM , Rating: 3
The approximately 60 GHz band is a completely different issue. It has nothing to do with directionality.

It has everything to do with it being at a frequency rapidly absorbed by oxygen molecules. The absorption at sea level is approximately 20 dB per kilometer. It does not matter if the beam is highly directional or omni directional. The absorption over distance is the same.


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