AMI Semiconductor's New Mixed-Signal Technology Reduces Sensor Interface ICs by up to 40 Percent.Business Editors/High-Tech Writers POCATELLO, Idaho--(BUSINESS WIRE)--May 13, 2003 I3T50 technology employs deep trench technique to reduce size of automotive and industrial ASICs AMI Semiconductor AMI Semiconductor is a company engaged the design and manufacture of customer specific integrated circuit solutions, including solutions for the automotive, medical and industrial markets. Among its products are products that integrate processing of analog and digital signals. (AMIS A·mis , Kingsley 1922-1995. British writer best known for his novels, including Lucky Jim (1954) and Jake's Thing (1978). ), a leader in the design and manufacture of application-specific integrated circuits (ASICs), today introduced a new high-voltage, mixed-signal technology that reduces component count and cost, and delivers high-density ASICs with chip areas that are up to 40 percent smaller than other system-on-chip (SoC) solutions. The new I3T50 "Smart Power" technology will simplify the implementation of designs requiring high-performance, compact and robust ASICs and ASSPs with operations up to 50V. As a result, the technology is ideal for sensor interface applications targeted at automotive and industrial systems, computer peripherals and consumer equipment. The second in AMI Semiconductor's series of I3T mixed-signal technologies, the I3T50 allows designers to integrate complex digital and precision analog circuitry, embedded microprocessors, and high-voltage functionality onto a single IC. The technology is ideal for a variety of applications such as sensor interfaces, transceivers, and actuator and motor drivers. In developing its I3T50 technology, AMIS employed a proprietary deep trench isolation (DTI Diffusion tensor imaging (DTI) A refinement of magnetic resonance imaging that allows the doctor to measure the flow of water and track the pathways of white matter in the brain. ) technique that allows isolation distances between an ASIC's high-voltage devices to be dramatically reduced. Because of this, the chip area of an I3T50 ASIC (Application Specific Integrated Circuit) Pronounced "a-sick." A chip that is custom designed for a specific application rather than a general-purpose chip such as a microprocessor. or ASSP (Application Specific Standard Part) An ASIC chip that is designed as a generic device for a particular market. Whereas an ASIC is typically used only by its creator, ASSPs are used by many different companies in the design of their products. See ASIC. is between 10 percent and 60 percent lower than SoC solutions that use standard junction isolation schemes. The I3T50 offers logic gate densities of 15,000/mm2 and can be used to create Smart Power SoC devices with gate counts as high as 500,000. In addition to the digital logic, these devices can incorporate high-voltage circuitry such as motor controller drives, DC/DC converters, and high-precision analog circuits including bandgap filters, ADCs and DACs. The new 50V Smart Power technology is built around the AMIS low-voltage (LV) 0.35(micron) 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. semiconductor process that features metal-metal capacitors and well-matched high-ohmic resistors. As with the 80V I3T80 technology announced in September 2002, the I3T50 is available with a full library of high-voltage DMOS DMOS Double-Diffused Metal-Oxide Semiconductor DMOS Diffusion Metal Oxide Semiconductor DMOS Duty Military Occupational Specialty DMOS Diffusive Mixing of Organic Solutions DMOS Distributed Mature Object Space DMOS Discrete Metal Oxide Semiconductor and bipolar devices including high-performance floating vertical nDMOS transistors. These transistors have a drain-to-source on resistance (RDS (1) (Remote Data Services) A set of programming interfaces from Microsoft that enables users to update data on the Internet or intranets from their ActiveX-enabled browser. (ON)) of below 50m(Omega).mm2 at a breakdown voltage in excess of 50V. Electrostatic discharge (ESD (1) (Electronic Software Distribution) Distributing new software and upgrades via the network rather than individual installations on each machine. See ESL. ) capability for the I3T technology is rated at 4.5kV HBM HBM Human Body Model HBM Human Brain Mapping HBM Hottinger Baldwin Messtechnik GmbH (German company) HBM High Bone Mass HBM Hybrid Bilayer Membrane HBM Humming Bird Medal HBM Her/His Britannic Majesty (human body model) and 750V CDM 1. CDM - Content Data Model 2. CDM - Code Division Multiplexing (charge device model). In addition to ARM7TDMI and 8051 embedded processor cores, a comprehensive family of IP blocks that simplify and speed the implementation of I3T50 Smart Power SoCs is available. These blocks include PLLs, USB USB in full Universal Serial Bus Type of serial bus that allows peripheral devices (disks, modems, printers, digitizers, data gloves, etc.) to be easily connected to a computer. interfaces, bus protocol controllers, and controllers for CAN and LIN connectivity. In addition, a wide variety of memory options, including ROM and RAM, are available, and high-density flash solutions will be developed. "The I3T50 allows developers to rapidly implement Smart Power solutions that combine digital, analog, and high-voltage circuitry onto a single, compact Smart Power IC," said Marnix Tack, director of technology at AMI Semiconductor. "As a result, the I3T50 is an excellent vehicle with which to design compact and robust SoCs that save space, reduce component count, and minimize both cost and time-to-market." I3T50 Availability The I3T50-based prototypes have already been produced and successfully evaluated in a target application. Working prototypes are available immediately. About AMI Semiconductor AMI Semiconductor (AMIS) is a world leader in the design and manufacture of silicon solutions for the real world. As a widely recognized innovator in state-of-the-art mixed-signal technologies and mid-range digital ASICs including ASIC conversion services, AMIS is committed to providing customers with the optimal value, quickest time-to-market ASIC solutions. Offering unparalleled manufacturing flexibility and dedication to customer service, AMI Semiconductor operates globally with headquarters in Pocatello, Idaho, European corporate offices in Oudenaarde, Belgium, and a network of sales and design centers located in the key markets of the United States, Europe and the Asia Pacific region. For more information, please visit the AMIS Web site at www.amis.com. |
|
||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion