• Proceedings of the KIEE Conference
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• 1999.07f
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• pp.2758-2760
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• 1999

ASIC chip design for motor control has been a subject of increasing interest since effective system-on-a-chip design methodology was developed. This paper investigates the design and implementation of ASIC chip for speed control of induction motor using VHDL which is a standarded hardware description language. The presented system is implemented using a simple electronic circuit based on FPGA.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.42 no.2 s.332
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• pp.31-40
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• 2005

The Multi-Threshold CMOS (MTCMOS) technology provides a solution to the high performance and low power design requirements of mobile computing applications. In this paper, we (i) motivate the post-mask-tooling performance enhancement technique combined with the MTCMOS leakage current suppression technology, and (ii) develop a practical MTCMOS ASIC design methodology which fine-tunes and integrates best-in-class techniques and commercially available tools to fix the new design issues related to the MTCMOS technology. Towards validating the proposed techniques, a Personal Digital Assistant (PDA) processor has been implemented using the methodology, and a 0.18um Process. The fabricated PDA processor operates at 333MHz which has been improved about $23\%$ at no additional cost of redesign and masks, and consumes about 2uW of standby mode leakage power which could have been three orders of magnitude larger if the MTCMOS technology was not applied.

• Proceedings of the KIEE Conference
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• 2000.07b
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• pp.1099-1101
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• 2000

ASIC chip design for motor control has been a subject of increasing interest since an effective methodology of system-on-a-chip design was developed. This paper investigates the design and implementation of ASIC chip for vector control of induction motor using VHDL which is a standard hardware description language. The vector control algorithm is finally implemented using a simple electronic circuit based on FPGA. The performance of the designed ASIC is verified through simulation and experiment.

• Journal of the Korean Institute of Telematics and Electronics A
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• v.33A no.6
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• pp.220-229
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• 1996

We presetn sytem-level simulation methodology as well as environment setup established for CDMA digtial cellular mobile station in an effort to verify CDMA modem ASIC design. To make the system-level simulation feasible, behavioral modeling of a microcontroller was first carried out with VHDL. In addition, models written in C language were also developed to provide ASIC with realistic input data. Finally, the netlist of CDMA modem ASIC was loaded on the a hardware accelerator, which was interfaced with VHDL simulator, and ismulation was performed by excuting the actual CDMA call processing software. Simulation resutls thus obtained were confirmed by comparing them with the emulation resutls from the actual system constructed on hardware modeler. these methods were proved to be effective in both discovering in advance malfunctions when embedded in the system or design errors of ASIC and reducing simulation time by a factor of as much as 20 in case of simulation at gate-level.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.13 no.3
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• pp.522-530
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• 2009

In this paper, we propose an efficient methodology to fix timing violation in ECO step for ASIC process. Timing violation can occur from various reasons and the major cause is inconsistent correlation between EDA tools. The most frequent violation is setup time and hold time violation. First, we analyzed the reason of violation creation, and then proposed the adjusting method for overcome them. Each violation can be fixed by increasing data required time or decreasing data arrival time. We proposed the detailed technique on a case basis. It is difficult to execute these methods by routine of algorithm or principle. Therefore ASIC engineer needs to apply these technique to violation as conditions of the implemented design.

• Proceedings of the IEEK Conference
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• 2000.11b
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• pp.132-135
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• 2000

We have been aware fer some time. that it is becoming harder to develop ASIC only, using the vendor wire model for the current top-down/bottom-up process. Because VDSM has a much bigger wired delay than cell delay, it is also difficult to reduce development time, as well as time-to-market, while developing several million gate ASIC's. The same is true for high frequency ASIC's with VDSM (which have larger wire delay versus cell delay). Therefore, a solution called “RTS-GDS”, using physical constraints fur SOC with timing met, is being actively discussed. This paper suggests a methodology for SOC development by utilizing a top down flow via CWLM along with discussing potential problems. This paper also provides a design flow, including physical synthesis, DFT, floor plan and CWLM, all of which are relevant to proper SOC development.

• JSTS:Journal of Semiconductor Technology and Science
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• v.4 no.4
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• pp.263-268
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• 2004

In this paper, we motivate the post-mask performance enhancement technique combined with the Multi-Threshold Voltage CMOS (MTCMOS) leakage current suppression technology, and integrate the new design issues related to the MTCMOS technology into the ASIC design methodology. The issues include short-circuit current and sneak leakage current prevention. Towards validating the proposed techniques, a Personal Digital Assistant (PDA) processor has been implemented using the methodology, and a 0.18um process. The fabricated PDA processor operates at 333MHz which has been improved about 23% at no additional cost of redesign and masks, and consumes about 2uW of standby mode leakage power which could have been three orders of magnitude larger if the MTCMOS technology was not applied.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.7 no.4
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• pp.798-804
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• 2003

In this paper, We have designed an advanced circuits for controlling the Ink Nozzle of Printer Head We can fully increase the number of nozzle by reducing the number of Input/Output PADs using the proposed new circuit. The proposed circuit is tested with only 20 nozzles to evaluate functional test using FPGA sample chip. The new circuit architecture can be estimated. Full circuit for controlling 320 nozzles was designed and simulated from ASIC full custom methodology, then the circuit was fabricated by applying 3${\mu}{\textrm}{m}$ CMOS process design rule.

• 전자공학회논문지 IE
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• v.48 no.2
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• pp.6-11
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• 2011

This paper describes the design of new method of propagation delay measurement in micro and nanostructures during characterization of ASIC standard library cell. Providing more accuracy timing information about library cell (NOR, AND, XOR, etc.) to the design team we can improve a quality of timing analysis inside of ASIC design flow process. Also, this information could be very useful for semiconductor foundry team to make correction in technology process. By comparison of the propagation delay in the CMOS element and result of analog SPICE simulation, we can make assumptions about accuracy and quality of the transistor's parameters. Physical implementation of phase error accumulation method(PHEAM) can be easy integrated at the same chip as close as possible to the device under test(DUT). It was implemented as digital IP core for semiconductor manufacturing process($0.11{\mu}m$, GL130SB). Specialized method helps to observe the propagation time delay in one element of the standard-cell library with up-to picoseconds accuracy and less. Thus, the special useful solutions for VLSI schematic-to-parameters extraction (STPE), basic cell layout verification, design simulation and verification are announced.

• Proceedings of the KIEE Conference
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• 2000.07b
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• pp.1102-1104
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• 2000

Recently effective system-on-a-chip design methodology is developed, and ASIC chip design is much studied for motor control. This paper investigates the design and implementation of ASIC chip for sensorless speed control of induction motor using VHDL which is a standarded hardware description language. The sensorless control strategy is to design an adaptive state observer for flux estimation and to estimate the rotor speed from the estimated rotor flux and stator current. The presented system is implemented using a simple electronic circuit based on FPGA.