138 entries
Published: June 2012

This paper demonstrates and discusses novel “three dimensional” silicon based junction isolation/termination solutions suitable for high density ultra-low-resistance Lateral Super-Junction structures.


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Published: June 2012

The XU035 series is X-FAB’s 0.35-micrometer Modular 700V Ultra-High-Voltage (UHV) Technology. Based upon the standard 1P3M process with single 5V gate oxide, 0.35-micron drawn gate length and metal design rules, the platform is engineered for applications needing an integrated power and startup device solution.


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Published: May 2012

Overwhelmed by the complexity of 700V designs due to cross talk, ESD, reliability or latch-up issues? Are your design challenges compounded by chip size and time-to-market issues? This webinar showcases X-FAB's new CMOS-based process for ultra-high-voltage apps such as AC LED lighting, ultra-low standby/no-load power and other power conversion and control applications. The combination of this cost-competitive process architecture and X-FAB’s design support enables first-time-right/first time functional designs for high-voltage lighting and power supply applications


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Published: May 2012

XDM10 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 110V net supply. The typical breakdown voltage of the HV-DMOS devices is >350 V or >275V. 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: April 2012

The huge demand for high voltage, high current power devices on Silicon on Chip (SoC) has led to the development of Lateral IGBT (LIGBT), touted as the best candidate to serve these two purposes. This paper is the first to review the research works on LIGBTs published till now. The LIGBTs are categorized into four types based on different technologies applied, mainly Junction Isolation (JI), Silicon On Insulator (SOI), Partial SOI (PSOI) and Membrane, and ten varieties based on their device mechanisms, such as Reverse Conducting, Trench Gate and Super Junction.


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Published: April 2012

The article at hand presents the results of thermoelectrical simulations of migration effects in integrated interconnect systems in comparison to measurement data. The simulation concept will be described and the output values as mass flux divergence and time-to-failure (TTF) will be discussed.


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Published: April 2012

In a typical ASIC semiconductor facility, there are hundreds of products processed on dozens of different equipments with unequal characteristics. Sequence depended equipment setups, failures, preventive maintenance and product specific re-entrant flows cause a high variability in factory performance measures. Also different customer demands, which are natural in the foundry business, should be taken into account (e.g. delivery dates or throughput). To reduce the variability and to improve the factory performance a robust and efficient dispatching and scheduling strategy is vital.


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Published: April 2012

Inline defect control systems are used across the semiconductor industry for detection of process failures like equipment issues or yield problems. Besides to the goal to improve the yield of each process, it may have a negative influence on factory performance as well. The measurement of all lots in all defect control monitors of a process is not feasible, even when there are bottleneck situations.


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Published: March 2012

Electrostatic discharge (ESD) is a serious threat to integrated circuits (ICs) that can cause irreversible damage. This webinar on ESD protection will show you solutions on how to eliminate ESD threats in complex analog/mixed-signal and high-voltage designs. It covers an overview of various ESD protection concepts, and explains the structures and schemes available to protect against electrostatic discharge in X-FAB’s enhanced 0.35 and 0.18 micrometer XH035 and XH018 high-voltage foundry processes. The webinar presentation also highlights similarities and differences among ESD protection concepts, outlining the advantages and disadvantages of each in circuit designs.


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Published: March 2012

X-FAB, a pure play foundry, has already extensive experience in volume production of monolithic integrated MEMS devices. The idea of combining CMOS and MEMS processes to obtain monolithic integrated sensor solutions is a logical, consequent step following the “More than Moore” strategy.


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