OPEL Announces POET Test ResultsMarch 6, 2013
The company has achieved the next key milestone in the development of its Planar Optoelectronic Technology (POET), achieving radio frequency and microwave operation of both n-channel and p-channel transistors.
TORONTO, ONTARIO and STORRS, CONNECTICUT /Marketwire/ -- OPEL Technologies Inc. announced that it has achieved Milestone 4, the next key milestone in its Planar Optoelectronic Technology (POET), achieving radio frequency and microwave operation of both n-channel and p-channel transistors.
With this achievement, POET extends the capability of its unique monolithic platform to cover integration of a complete range of wavelength-division multiplexed–capable optoelectronic devices and functions. This is in addition to complementary electronics based on n-channel and p-channel transistors as either field effect transistors or bipolar devices.
Specifically for this milestone, 3-inch POET wafers fabricated at BAE Systems (Nashua, NH) yielded submicron n-channel and micron-sized p-channel transistors, operating at frequencies of 42 GHz and 3 GHz, respectively. These operating frequencies are expected to be improved even further in the short term to as much as 300–350 GHz range for the n-channel device.
Peter Copetti, Executive Director of OPEL, noted: "Following the success of our Vertical Cavity Surface Emitting Laser milestone achieved recently, this result further verifies POET's electronic and optical monolithic compatibility, a key advantage of POET as a silicon CMOS replacement. Our on-chip optical generation and detection capability is unique in the semiconductor industry."
Progress on Dr. Taylor's work at the OPEL lab had been delayed by damage sustained to key equipment during a multi-day power outage caused by Tropical Storm Sandy in late October 2012. The company, however, expects to complete the rebuild next week and recalibrate the affected equipment and have it operational by the end of March 2013.
Copetti added, "Given the caliber of the POET team, we are confident that the lost time will be made up so that it will not have a material impact on the milestone target dates."
At the successful conclusion of the recent private placement fundraising, approximately $1.3 million in new capital equipment was ordered to upgrade the R&D facility capabilities. The company has completed all necessary site infrastructure upgrades and is awaiting the arrival of the new equipment. The company expects the new equipment will be installed, calibrated, and commissioned by the end of June 2013.
By enabling increased speed, density, reliability, power efficiency, and much lower bill-of-materials and assembly costs, POET provides a new technology direction and opportunity for the semiconductor industry. POET will allow continued advances of semiconductor device performance and capabilities for many years, overcoming the current power and speed bottlenecks of silicon-based circuits, and will change the future development roadmaps of a broad range of semiconductor applications, including mobile devices, computer servers, storage arrays, imaging equipment, networking equipment, transportation systems, and test and measurement instruments.
With head office in Toronto, Ontario, Canada, and operations in Storrs, CT, OPEL Technologies Inc., through ODIS Inc., a U.S. company, designs III-V semiconductor devices for military, industrial, and commercial applications, including infrared sensor arrays and ultra-low-power random access memory; and through OPEL Solar Inc., provided systems for energy applications. The company has 34 patents issued and 7 patents pending, primarily for its semiconductor POET process, which enables the monolithic fabrication of integrated circuits containing both electronic and optical elements, with potential high-speed and power-efficient applications in devices such as servers, tablet computers and smartphones.
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