Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
Reds..... How the heck would he know???
Well said Six - Thanks for being here BSmith.
Thanks BSmith.
People "skilled in the art" aren't received well here.
Sorta like this
LOL Snez.
Getting close? Why is the SP $0.89?
BSmith, have you ever spoken with Alan Mickelson re:LWLG materials?
Thanks again for your input.
Easy now, Purp
We finally have someone on this board who has in-depth knowledge of the technology and you start bashing the guy? Geez.
BSmith, welcome to the "where's the white paper" club. Thanks for sharing.
Thanks theroc. That was the key paragraph in the application. Thermal stability is the key.
Aldricht is supplying CLD-1. I wonder how Avi feels about that.
X looks like that thing you found is gone now
See posts 7425 and 7430.
If that ain't us then we got some answers. Bad answers.
OPTICAL I/O SYSTEM USING PLANAR LIGHT-WAVE INTEGRATED CIRCUIT
This is the system that the previous invention might go into.
The coupler interfaces to a fiber... MXC perhaps?
Transceiver logic?
"Photonic components are placed on the processor package to bring the optical signal close to the processor die. The processor package includes a substrate to which the processor die is coupled, and which allows the processor die to connect to a printed circuit board. The processor package also includes transceiver logic, electrical-optical conversion circuits, and an optical coupler. The electrical-optical conversion circuits can include laser(s), modulator(s), and photodetector(s) to transmit and receive and optical signal. The coupler interfaces to a fiber that extends off the processor package. Multiple fibers can be brought to the processor package allowing for a scalable high-speed, high-bandwidth interconnection to the processor."
http://patentscope.wipo.int/search/en/detail.jsf?docId=WO2013101184&recNum=254&docAn=US2011068105&queryString=adapter&maxRec=619197
That's correct Rick.
And Mr. Block is there in the video as well.
Intel - "FABRICATION OF PLANAR LIGHT-WAVE CIRCUITS (PLCS) FOR OPTICAL I/O"
Thanks Spooks for finding this.
"PLC architectures and fabrication techniques for providing electrical and photonic integration of a photonic components with a semiconductor substrate. In the exemplary embodiment, the PLC is to accommodate optical input and/or output (I/O) as well as electrically couple to a microelectronic chip. One or more photonic chip or optical fiber terminal may be coupled to an optical I/O of the PLC. In embodiments the PLC includes a light modulator, photodetector and coupling regions supporting the optical I/O. Spin-on electro-optic polymer (EOP) may be utilized for the modulator while a photodefinable material is employed for a mode expander in the coupling region."
http://patentscope.wipo.int/search/en/detail.jsf?docId=WO2013095426&recNum=188&docAn=US2011066445&queryString=&maxRec=7277067
LOL. I hate when that happens.
Stonegate - Can someone help interpret this?
http://www.zckgo.com/4/QV.htm
Hmm.
"Stonegate Securities Initiates Research Coverage of Wireless Ronin Technologies"
DALLAS, April 27, 2011 (GLOBE NEWSWIRE) -- Stonegate Securities announced today that it has initiated research coverage of Wireless Ronin Technologies (Nasdaq:RNIN) (www.wirelessronin.com).
But...
http://finance.yahoo.com/echarts?s=RNIN+Interactive#symbol=rnin;range=2y;compare=;indicator=volume;charttype=area;crosshair=on;ohlcvalues=0;logscale=off;source=undefined;
I guess we've got the white paper on a working modulator now.
Right?
?
Intel IDF
Michael Blair, Seeking Alpha
"Intel (INTC) held day one of its International Developers' Forum (IDF) today and made a couple of major announcements which the market has largely ignored. First, it announced the world's first 22nm smartphone with LTE. Phones using this advanced Intel technology can achieve download speeds of 35 to 70 Mbps according to Intel. That makes streaming video to your phone a reality.
In parallel, Intel made a surprise announcement of a tiny chip designed for the Internet of things called the Quark. The chip is one fifth the size of an Atom chip, has more processing power and consumers one tenth of the energy.
The Quark will find its way into dozens of future wearable devices and will have medical applications as well. It is easy to imagine hundreds of millions of these tiny chips in a myriad of new products in vending machines, cars, appliances, smart watches, toys and specialty goods."
http://seekingalpha.com/article/1686252-intel-idf-announcements-show-it-is-executing-well?source=email_rt_article_readmore
More on Quark:
Rick Merritt
"Intel announced Quark at its annual developer conference here as its bid to get a jump on the emerging Internet of Things. However, it provided no details on its technical specs or when it will be released, suggesting it is more of a rushed trial balloon than a nailed-down product and strategy."
http://www.eetimes.com/document.asp?doc_id=1319447
Six - I prefer to think of it more as a
Mind F**k. Very expensive so far.
How about the prostitution aspect, lol
Vice President of Business Development
Lightwave Logic
August 2011 – July 2013 (2 years)
http://www.linkedin.com/profile/view?id=43624636&authType=NAME_SEARCH&authToken=tfAG&locale=en_US&srchid=bd5730a1-c73f-4b75-b0d5-4990040b0023-0&srchindex=1&srchtotal=165&goback=.fps_PBCK_*1_Chuck_Olson_*1_*1_*1_*1_*2_*1_Y_*1_*1_*1_false_1_R_*1_*51_*1_*51_true_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2_*2&pvs=ps&trk=pp_profile_photo_link
Not much to say about his career there.
Lol.
Joe Flacco - Delaware
Does this ***t work or doesn't it?
Why the optimism Wise?
I'm all in so what the f@ck.
It'd be nice to see our leadership throw in some coin on this venture.
Over and out.
Thanks for your reply wbmw.
Thanks Gates, I decided to give the INTC MB a heads up.
http://investorshub.advfn.com/boards/read_msg.aspx?message_id=91690875
You guys are really stuck on processors, what about this?
Intel’s Laser Chips Could Make Data Centers Run Better
"We’re launching this in mass production, and Intel has decided to make a significant investment,” says Mario Paniccia, who has led Intel’s silicon photonics research for years and now heads the group commercializing it. “We have lots of customers.” Future versions of the technology are intended to appear outside data centers, perhaps in consumer applications."
http://www.technologyreview.com/news/518941/intels-laser-chips-could-make-data-centers-run-better/
JDSU EX-CTO, Fred Leonberger:
http://vimeo.com/user19899307/httpvimeolightwavelogicmodulator101
But consider this X and spooks...
Rather than building the modulator/whatever with copper electrodes, use another plastic that conducts electricity. Then you've got a totally plastic EO device.
Speaking of plastics - but OT.
Someone mentioned ITKG on the Yahoo MB back in 2009 and I've been tracking it since.
Last week they announced an agreement with a Chinese firm. This morning, an LOI with BASF... their "large system supplier". It should be interesting to see how the market reacts 'cuz we'll be in the same place someday.
http://finance.yahoo.com/echarts?s=ITKG+Interactive#symbol=itkg;range=5y;compare=;indicator=volume;charttype=area;crosshair=on;ohlcvalues=0;logscale=off;source=undefined;
Slide 4 from the SHM presentation
Proposed: USAF SBIR for LADAR/SLM with Boulder Nonlinear
Systems
• $15K - $20K to LWLG initially
http://www.lightwavelogic.com/wp-content/uploads/2013/08/2013_LWLG_Meeting_Presentation_New_Format.pdf
Look at the bright side, we've more than quadrupled our sales-to-date. Gee I hope the LSS doesn't get mad.
Lol. I bought recently at 76 and 77 so I'm on your side. The downer part is the Eddie Mush thing.
Hang in there all.
"Life shrinks or expands in proportion to one's courage"
Proto. You may want to post a chart of LWLG SP performance before/after your commentaries. Please stay on the DL. Nothing personal, just business.
Gates - IMO we'll be seeing more and more commercials like this
http://www.ispot.tv/ad/7OKx/hewlett-packard-moonshot-room-to-grow
... from the big players in the coming months, and that will only help us. Investors will more easily understand the importance of our material.
"this,,, is going to be big..."
I think this computer is configured for laboratory measurement purposes with plenty of i/o channels to connect to and drive devices or measure output.
Regarding "16 digital inputs and 16 digital outputs opto isolated"... sounds like just a daughterboard installed in it for the purpose mentioned above...
http://www.advantech.com/products/PCLD-782/mod_3AE5C249-090B-4B48-89D0-AEE362F1E005.aspx
Rick, IMO this is a coincidence
It looks like a third party, AdLink Technology Inc, happened to name one of their units MXC-6101D, which has "Intel Inside".
http://www.stemmer-imaging.co.uk/en/products/article/16558
http://www.adlinktech.com/
What material will be used to receive the signal?
10-Q Released
http://www.otcmarkets.com/edgar/GetFilingHtml?FilingID=9460011
NOTE 2 – MANAGEMENT’S PLANS
The Company currently has a cash position of approximately $3,020,000. Based upon the current cash position and expenditures of approximately $250,000 per month and no debt service, management believes the Company has sufficient funds currently to finance its operations through July 2014.
In February 2013 we delivered to a potential large system supplier customer prototype devices that were coated with our advanced organic nonlinear electro-optical polymer, Perkinamine Indigo TM . Tests conducted by the University of Colorado, Boulder on coupons coated with the material demonstrated consistent R 33 measurements from 100-125 picometers per volt, which exceeded the potential large system supplier customer's stated requirements.
In March 2013 we entered into a product development contractor agreement with EM Photonics (EMP) of Newark, Delaware to fabricate and test waveguides and phase modulators during an initial development phase using existing EMP polymer modulator design and processes. In June 2013 we consolidated the EMP design program into our University of Colorado, Boulder (UCB) program after we fabricated structures with UCB that will be used as the basic building blocks of our Integrated Optical Device effort for the construction of both our advanced telecom modulator and data communications transceiver.
In April 2013 our potential large system supplier customer informed us that their preliminary testing results on the prototype devices coated with Perkinamine Indigo™ that we delivered to them in February 2013 demonstrated several of the key performance parameters that they desired. There are still additional tests that need to be completed. We are working with our potential customer utilizing our Perkinamine Indigo™ chromophore in a number of host polymers and will evaluate these polymers in conjunction with our chromophores for a specific performance attributes for their application.
Don't forget the sales part.