149 entries
Published: June 2014

First-time-right in analog design depends not only on proper consideration of process variations and design sensitivities but also on device reliability. Device aging can jeopardize performance and long-term product success and therefore should be taken into account as early as possible in the development. This webinar provides an overview of reliability physics and considerations and gives guidance on reliability conscious circuit design. Critical issues are discussed and future options for a reliability-aware design flow are indicated.


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Published: November 2013

The XH035 series is X-FAB’s 0.35-micron Modular RF capable Mixed Signal Technology. Main target applications are standard cell, semi-custom and full  custom designs for Industrial, Automotive and Telecommunication products. Based on a single poly, triple metal 0.35-micron drawn gate length process for digital applications, process modules are available such as embedded Non-Volatile Memory, high voltage options, as well as standard or thick fourth layer metal, double-poly and MIM capacitor and high resistance polysilicon.


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Published: October 2013

Is there magic that makes analog designs successful? How can designs achieve ESD (electro-static discharge) specifications? Do DFM methods make designs more robust? This webinar answers these questions and provides tips & tricks for analog design.


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Published: October 2013

This webinar session provides guidance through the EDA environment and describes the interaction among EDA tools, design methodology and PDKs to optimize the design process. It uses selected reference flows and best practice examples for critical components during the design phase.


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Published: September 2013

This webinar session focuses on the importance of proper characterization data for successful analog design, and discusses how modeling and process characterization can make life easier for analog design engineers. It covers statistic modeling approaches, model quality assurance and process calibration.


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Published: September 2013

Showing first-time-right performance statistics from X-FAB's customer base, this first session outlines the challenges involved in achieving first-time-right analog designs. It talks about what impact the choice of process architecture makes, and discusses the pros and cons of different process architectures including SOI and BCD.


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Published: July 2013

XDH10 is X-Fab´s dielectric trench insulated smart power technology. Main target applications are analog switch ICs, driver ICs for capacitive, inductive and resistive loads and EL / piezo driver ICs for applications using 220V net supply. The typical breakdown voltage of the HV DMOS devices is >350V or >650V. The modular process combines DMOS, bipolar and CMOS processing steps that are compatible with dielectric insulation to provide a wide variety of MOS and bipolar devices with different voltage levels within a dielectric bi-directional high voltage trench insulation on the same die.


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Published: June 2013

Lifetime determination is one of the reliability key tasks to have an accurate estimation of the period of time that can still survive with a certain confidence level under the specific operating conditions to perform the respective function of the applications. Various reliability tests have been designed to reveal and assess the respective wear-out degradation mechanisms.


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Published: May 2013

What happens when optical signals are converted to electrical signals? Focusing on the optical to electrical conversion process, this webinar sheds some light on the basics of light interaction from reflection, transmission, polarization and refraction to absorption with semiconductors devices. It explores electrical fields, recombination and lifetime, doping profiles, band structures and pn-junctions to determine what happens when light has been converted into electron-hole pairs. This webinar provides a solid overview of passive and active optical sensor elements manufactured in a mixed-signal CMOS process or added during post processing


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Published: May 2013

The filters are constituted by a Fabry-Perot resonator formed by two Bragg mirrors separated by a patterned cavity. The filter response can be tuned by changing the geometric parameters of the patterning, and consequently the cavity effective refractive index. In this way, many different filters can be produced at once on a single chip, allowing multichanneling. The filter has been designed, produced, and characterized. The results for a chip with 24 filters are presented.


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