Toshiba Develops 60GHz Receiver Technology Using CMOS Device

The new fabrication process uses a low-cost CMOS process to achieve high-speed, highly-integrated wireless communications over short distances, and will support development of consumer applications. Toshiba unveiled the technology on June 15 at the 2007 Symposia on VLSI Circuits, in Kyoto, Japan.

Millimeter-wave communication is a highly anticipated solution that offers high-speed wireless communication in the 60GHz band, a frequency over ten times higher than that of wireless LAN. While communication distances are limited to a few meters due to the nature of the wave, the wide bandwidth of the signal allows data transfers at a rate of more than 1 gigabit a second.

In Japan, the U.S. and Europe, frequencies around the 60GHz band are allocated to unlicensed equipment. In the case of Japan, the allocated range is 59 to 66GHz, a width of 7GHz. As a result, millimeter-wave communication is increasingly seen as a solution for short distance transmission of high-speed data.

The confluence of broadband digital content and wireless home networks is prompting increasing interest in high speed wireless transfers of high definition video between digital equipment in the home. Toshiba's new technology is expected to be applied to such applications, and to support their realization.

60GHz IC for millimeter-wave communication have been fabricated with gallium arsenide (GaAs), which is more expensive than CMOS IC. Millimeter-wave GaAs IC also require separate integration on the module of an antenna and a synthesizer, which can not be fabricated with GaAs process technology, plus additional components, including bonding wire and costly ceramic board. This further increases cost and chip die size.

With advances in process technology, complementary metal-oxide semiconductor (CMOS) technology is now approaching a level where it is applicable to the millimeter waveband. This has prompted universities and companies around the world to promote development of CMOS IC, as CMOS devices enjoy the advantages of a low cost silicon substrate, and are the most widely used devices in consumer and industrial digital ICs. In addition, multiple functions, including a digital signal processor can be formed directly on the chip.

Toshiba has realized a 60GHz CMOS receiver chip for the millimeter-wave band. It integrates an on-chip antenna, LNA, a mixer with a preamplifier and a phase-locked loop (PLL) synthesizer in a die that is only 1.1mm x 2.4mm without pad area. Application of 90nm process technology, the state of the art process for millimeter waveband CMOS, supports high levels of integration and achieves a performance close to that of much more complex and expensive GaAs devices. A fully differential circuitry improves signal quality, as it achieves noise-resistant features suited to millimeter-wave IC application. Optimization of element structure and wiring structure restrain internal noise, and contributes to realizing stable operation—the major issue to overcome for millimeter-wave CMOS IC.

Source: Toshiba

Fujitsu Develops Low-power CMOS Technology For 32nm Generation
Fujitsu today announced the development of low-power CMOS technology for 32nm-generation logic LSIs, which makes it possible to minimize the number of necessary manufacturing processes for LSIs, and without the need to utilize additional new materials.
IMEC, AIXTRON set important step towards low-cost GaN power devices
IMEC, Europe's leading independent research center in the field of nanoelectronics, and AIXTRON, the world leader in metal-organic chemical-vapor deposition (MOCVD) equipment, have demonstrated the growth of high-quality and uniform AlGaN/GaN heterostructures on 200mm silicon wafers. This demonstration is a milestone towards fabricating low-cost GaN power devices for high-efficiency/high-power systems beyond the silicon limits.
How to make microwaves on a chip to replace X-rays for medical imaging and security
Is microwave radiation the nondestructive imaging technology of the future? Microwaves with frequencies from a few hundred gigahertz (GHz) up to slightly over 1 terahertz (THz), penetrate just a short distance into surfaces without the ionizing damage caused by X-rays. The technology could be used to detect skin cancer or image dental flaws beneath the enamel. It could also be a valuable tool for airport security, to detect objects hidden under clothing.
Nano-designed transistors with disordered materials, but high performance
The Holy Grail for transistor designers has been the requirement to be able to get high performance at reduced costs over very large substrate areas. Transistors on cheap and flexible substrates like glass and plastics are currently unable to deliver such performance and therefore do not lend themselves to seamless monolithic integration of increased electronic functions on human interface devices (displays and sensors).
Sony Rolls Out World's Smallest Full HD Camcorder
The new pocket-sized Sony HDR-TG1 Handycam camcorder's weighty high-definition capability will appeal to vacationers who prefer to "travel light." This diminutive camcorder weighs in at only ten ounces. It has an ultra-portable body measuring just 1.3-inches wide by 4.7-inches tall by 2.5-inches deep.
Intel Introduces New Atom Processors for Mobile Internet Devices
Intel Corporation today introduced five new Intel Atom processors and Intel Centrino Atom processor technology for Mobile Internet Devices (MIDs) and embedded computing solutions.
Engineers make first 'active matrix' display using nanowires
Engineers have created the first "active matrix" display using a new class of transparent transistors and circuits, a step toward realizing applications such as e-paper, flexible color monitors and "heads-up" displays in car windshields.
Breaking the performance barrier of 22-nm CMOS technology
A major initiative has been launched in Europe with a top-ranked project called DUALLOGIC, Dual channel CMOS for (sub)-22 nm high performance logic.

Toshiba Develops 60GHz Receiver Technology Using CMOS Device

Related stories:

News discussion: