Jazz Semiconductor Announces Availability of Its 0.13 Micron SiGe BiCMOS Process for High-Performance RF Design.NEWPORT BEACH Newport Beach, residential and resort city (1990 pop. 66,643), Orange co., S Calif., on Newport Bay and the Pacific Ocean; inc. 1906. It is a popular seaside resort and yachting center. Manufactures include electrical and medical equipment, computers, boats, and adhesives. , Calif. -- Foundry Offers Cost-Effective 0.13um SiGe BiCMOS Process Platform with High-Performance Passives for RF/Analog System-on-Chip (SoC) Applications Jazz Semiconductor Jazz Semiconductor is a US based pure-play semiconductor wafer foundry that serves customers targeting wireless, optical networking, power management, storage, aerospace/defense and other high-performance applications. , an independent semiconductor wafer foundry, today announced the availability of process design kits for its SBL SBL Society of Biblical Literature SBL Symbol Technologies, Inc. (NYSE symbol) SBL Spamhaus Block List SBL Space-Based Laser SBL Securities Borrowing and Lending SBL Supreme Beings of Leisure (band) 13 process, a 0.13um SiGe BiCMOS technology combining high-performance, low-cost SiGe transistors with its low-power (1.2V), 0.13um digital CMOS (Complementary Metal Oxide Semiconductor) Pronounced "c-moss." The most widely used integrated circuit design. It is found in almost every electronic product from handheld devices to mainframes. platform, CA13. The process also includes a suite of high-density passive elements for more aggressive scaling of analog device Analog device is apparatus that measures continuous information. The measured analog signal has an infinite number of possible values. The only limitation on resolution is the accuracy of the measuring device. area in complex Analog Systems on Chip (Analog SoCs). The Jazz SBL13 process technology enables the design of cost-effective and highly integrated circuits Integrated circuits Miniature electronic circuits produced within and upon a single semiconductor crystal, usually silicon. Integrated circuits range in complexity from simple logic circuits and amplifiers, about 1/20 in. (1. for most wireless applications that require the combination of dense digital logic with high-performance RF and analog functionality. Examples of products that can take advantage of the SBL13 process include mobile TV tuners, cellular transceivers and WLAN See wireless LAN. WLAN - wireless local area network transceivers. Jazz continues to expand its specialty process offerings, which currently span geometries from 0.5um to 0.13um and technologies that promote high performance, high voltage The term high voltage characterizes electrical circuits, in which the voltage used is the cause of particular safety concerns and insulation requirements. High voltage is used in electrical power distribution, in cathode ray tubes, to generate X-rays and particle beams, to and high levels of integration. The latest addition is the SBL13 platform, created to address the growing need for a low-cost RF process that incorporates bipolar devices for better noise and frequency performance. The SBL13 SiGe bipolar device is a Silicon Germanium transistor added to an aluminum-based 0.13um CMOS process with minimal additional masks. The combination results in a process that is comparable in mask count to an industry standard 0.13um RFCMOS process which typically also requires a more costly copper metallization Met`al`li`za´tion n. 1. The act or process of metallizing. scheme. In addition to the low cost bipolar, the process includes a stacked MIM MIM Metal Injection Molding MIM Mendelian Inheritance in Man MIM Mobile Instant-Messaging MIM Man in the Middle MIM Multilateral Initiative on Malaria MIM Metal-Insulator-Metal MIM Master of International Management MIM Made in Mexico capacitor for aggressive scaling of capacitance area and a thick top metal for inductor inductor, electric device consisting of one or more turns of wire and typically having two terminals. An inductor is usually connected into a circuit in order to raise the inductance to a desired value. performance. SBL13 uses a 1.2/3.3V dual gate oxide process to form the base CMOS, with the addition of SiGe transistors offering a range of Ft, Fmax, and BVceo for design flexibility, with an Ft up to 90 GHz, Fmax up to 123 GHz and BVceo up to 6V. The process also supports up to six layers of aluminum metal, a 5.6 fF/um2 linear MIM capacitor, a triple well module, Nwell resistor and unsilicided poly resistor. The top metal is 2.8um thick aluminum to support high-Q inductors. The technology is offered through Jazz Semiconductor's integrated design environment supporting the latest EDA (1) (Electronic Design Automation) Using the computer to design, lay out, verify and simulate the performance of electronic circuits on a chip or printed circuit board. tools and flows for fast and accurate design cycles of RF, analog and mixed-signal products. "The Jazz SBL13 process is the first of its kind in addressing the need in the wireless market for a low-cost Silicon Germanium process at the 0.13 micron node and the combination of features offered by Jazz is suited for many emerging markets including mobile TV, WLAN and 3G," said Joanne Itow, managing director, Semico Research. "These markets require the combination of digital content with good analog performance, which historically does not scale in more advanced geometries without a feature set comparable to the one offered by Jazz SBL13." "We continue to build out our SiGe roadmap by listening to our customers, understanding end applications, and using our modular infrastructure to develop the right combination of process features to address the demands of those applications," said Marco Racanelli, vice president of technology and engineering, Jazz Semiconductor. "Our SBL13 offering is designed to provide the low-power and high-performance attributes of the 0.13 micron node without the high cost typically associated with it by incorporating an aluminum back-end as well as a very streamlined architecture for the bipolar device. The process can thus be used not only to provide power, noise and performance advantages but can also be adopted in more cost sensitive segments of the market." About Jazz Semiconductor Jazz Semiconductor is an independent wafer foundry primarily focused on specialty CMOS process technologies, including High Voltage CMOS, SiGe BiCMOS and RFCMOS for the manufacture of highly integrated analog and mixed-signal semiconductor devices. The company's specialty process technologies are designed for customers who seek to produce analog and mixed-signal semiconductor devices that are smaller and more highly integrated, power efficient, feature rich and cost effective than those produced using standard process technologies. Jazz customers target the wireless and high-speed wireline communications, consumer electronics, automotive and industrial end markets. Jazz's executive offices and its U.S. wafer fabrication facilities are located in Newport Beach. For more information, please visit www.jazzsemi.com. |
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