Thursday, November 24th 2011
New Microtransmitter Can Oscillate in FIR Band, Promises Dozens of Gbps of Bandwidth
Japanese firm ROHM, in partnership with Osaka University, unveiled a new, afforable terahertz-range radio transmitter. To achieve terahertz frequencies, the transmitter should oscillate 1,000,000,000,000 (1 trillion) times per second. At that rate, one can't really dub that "radio" frequency, because it enters what is known as "far infrared" (FIR) band, which is relatively unexplored by science so far, due to limitations in technologies (transmitters) that can accurately oscillate at a set frequency in that band.
What does it mean for us? To begin with, if ROHM's transmitter is able to strike an affordable price like it's designed to, it will exponentially increase data bandwidths offered by today's wireless networking technologies. A tiny transmitter developed by ROHM, measuring 1.5 x 3 mm, which uses resonant tunnelling diode technology, is already able to oscillate at 300 GHz (0.3 THz), achieving the ability to transmit 1.5 Gbps (192 MB/s). The people behind this transmitter believe that using the technology they developed, they should be able to scale up bandwidths to 30 Gbps in the future. The FIR band is relatively free, and less complex modulation sequences will be required, facilitating low-power transmission.
Source:
Hexus.net
What does it mean for us? To begin with, if ROHM's transmitter is able to strike an affordable price like it's designed to, it will exponentially increase data bandwidths offered by today's wireless networking technologies. A tiny transmitter developed by ROHM, measuring 1.5 x 3 mm, which uses resonant tunnelling diode technology, is already able to oscillate at 300 GHz (0.3 THz), achieving the ability to transmit 1.5 Gbps (192 MB/s). The people behind this transmitter believe that using the technology they developed, they should be able to scale up bandwidths to 30 Gbps in the future. The FIR band is relatively free, and less complex modulation sequences will be required, facilitating low-power transmission.
21 Comments on New Microtransmitter Can Oscillate in FIR Band, Promises Dozens of Gbps of Bandwidth
IR-like (consumer IR) is a wireless communication that uses blinking of infrared LEDs to transmit data (like using a flashlight to tell something to your neighbour using morse code). It doesn't benefit from any of the characteristics of IR light. The amount of data you can transmit is limited by the number of times that IR LED can blink.
Whereas FIR transmission is like radio transmission, its frequencies are in the ranges of IR, and hence more data is transported per second.
I looked this up though and far infrared starts at 15 microns and goes out to 1000 microns. 1000 translates to about 300ghz. So if wikipedia is right, there's a typo someplace. I know, big if.
1THz, WOW!!!!!!!!!!!!! I though this is impossible before...
This is only oscillator, right.
What about the antenna, the frontend circuit, the tuner etc???
The far IR range according to wikipedia is between (1000 microns) 300 GHz and 20 THz (15 microns). So this technology would fall just inside that definition.
This new technology being worked on operates in 300 GHz ~ 20,000 GHz (FIR band).
I'm gonna make myself an aluminum hat!!
So is bandwidth limited with blutooth or could it be good enough for usage for actual networks ?.
Shame though i guess sony be on some thing else soon to solve that huh.