Hideyuki FUKUHARA Takao KOMATSUZAKI Katsushi BOKU Yoichi MIYAI
There is general trend toward larger chip size and tighter layout due to customer requests of loading more and more functions on single chip. This trend makes yield difficult to be maintained high enough, since larger amount of defects are distributed on such large and tight-ruled chips. To overcome such a situation, RADLYS (RAnDom Logic Yield Simulator) and DD-TEG (Defect Density TEG) have been developed. DD-TEG extracts defect size distribution and its amount automatically, while RADLYS simulates defects on any layout and outputs yield based on the extracted defect size distribution. Critical layout from yield point of view can be found in this procedure. DD-TEG and RADLYS are used as a set of parameter extraction and simulation of the SPICE. In this paper, we introduce these tools and showed two application results. The predicted yield showed a good agreement with the actual yield in the first application (Optical Device A). Critical layout at the Local I/O portion was found in the second application (Random Logic portion of Memory Device B) and the layout was changed based on the RADLYS results.
Hiromi NOBUKATA Kenichi SATORI Shinji HIRAMATSU Hideki ARAKAWA
An experimental 3 V-only 4 Mb NAND Flash memory with 65 ns access time has been developed using a new charge pump circuit and novel circuit techniques such as folded bit-line architecture. By adopting a new program verify technique, programming time is reduced to 11 µs/Byte.
Hideaki OKAZAKI Hideo NAKANO Takehiko KAWASE
A parallel blower system is quite familiar in hydraulic machine systems and quite often employed in many process industries. It is dynamically dual to the fundamental functional element of digital computer, that is, the flip-flop circuit, which was extensively studied by Moser. Although the global dynamic behaviour of such systems has significant bearing upon system operation, no substantial study reports have hitherto been presented. Extensive research concern has primarily been concentrated upon the local stability of the equilibrium point. In the paper, a piecewise linear model is used to analytically and numerically investigate its manifold global dynamic behaviour. To do this, first the Poincar
Shingo KUROIWA Kazuya TAKEDA Masaki NAITO Naomi INOUE Seiichi YAMAMOTO
We carried out a one year field trial of a voice-activated automatic telephone exchange service at KDD Laboratories which has about 200 branch phones. This system has DSP-based continuous speech recognition hardware which can process incoming calls in real time using a vocabulary of 300 words. The recognition accuracy was found to be 92.5% for speech read from a written text under laboratory conditions independent of the speaker. In this paper, we describe the performance of the system obtained as a result of the field trial. Apart from recognition accuracy, there was about 20% error due to out-of-vocabulary input and incorrect detection of speech endpoints which had not been allowed for in the laboratory experiments. Also, we found that the recognition accuracy for actual speech was about 18% lower than for speech read from text even if there were no out-of-vocabulary words. In this paper, we examine error variations for individual data in order to try and pinpoint the cause of incorrect recognition. It was found from experiments on the collected data that the pause model used, filled pause grammar and differences of channel frequency response seriously affected recognition accuracy. With the help of simple techniques to overcome these problems, we finally obtained a recognition accuracy of 88.7% for real data.
Akira ADACHI Ken'ichi OKAJIMA Youichi TAKADA Saburo TANAKA Hideo ITOZAKI Haruhisa TOYODA Hisashi KADO
This study shows that using the direct offset integration technique (DOIT) and additional positive feedback (APF) in a high-Tc dc superconducting quantum interference device (SQUID) improves the effective flux-to-voltage transfer function and reduces the flux noise of a magnetometer, thus improving the magnetic field noise. The effective flux-to-voltage transfer function and the flux noise with APF were measured at different values of the positive feedback parameter βa, which depends on the resistance of the APF circuit. These quantities were also compared between conditions with and without APF. This investigation showed that a βa condition the most suitable for minimizing the flux noise of a magnetometer with APF exists and that it is βa=0.77. The effective flux-to-voltage transfer function with APF is about three times what it is without APF (93 µV/Φ0 vs. 32 µV/Φ0). The magnetic field noise of a magnetometer with APF is improved by a factor of about 3 (242 fT/Hz vs. 738 fT/Hz).
Hisashi KADO Gen UEHARA Hisanao OGATA Hideo ITOZAKI
This paper describes a SQUID magnetometer and the measurement of small signals. It also describes the current state of SQUID technology developed in the SSL project.
Kunihiro SUZUKI Tetsu TANAKA Yoshiharu TOSAKA Hiroshi HORIE Toshihiro SUGII
We propose and fabricate n+-p+ double-gate SOI MOSFETs for which threshold voltage is controlled by interaction between the two gates. Devices have excellent short channel immunity, dispite a low channel doping concentration of 1015 cm-3, and enable us to design a threshold voltage below 0.3 V while maintaining an almost ideal subthreshold swing. We demonstrated 27 ps CMOS inverter delay with a gate length of 0.19 µm, which is, to our knowledge, the lowest delay for this gate length despite rather a thick 9 nm gate oxide. This high performance is a result of the low threshold voltage and negligible drain capacitance. We also showed theoretically that we can design a 0.1 µm gate length device with an ideal subthreshold swing, and that we can expect less than 10 ps inverter delay at a supply voltage of 1 V.
Cong-Kha PHAM Mamoru TANAKA Katsufusa SHONO
In this paper, bifurcation and chaotic behavior which occur in simple looped MOS inverters with high speed operation are described. The most important point in this work is to change a nonlinear transfer characteristic of a MOS inverter to the nonlinearity generating a chaos. Three types of circuits which include four, three and one MOS inverters, respectively, are proposed. A switched capacitor (SC) circuit to operate sampling holding is added in the loop in each of the circuits. The bifurcation and chaotic behavior have been found along with a variation of an external input, and/or a sampling clock frequency. The bifurcation and chaotic behavior of the proposed simple looped MOS inverters are verified by employing SPICE circuit simulator as well as the experiments. For the first type of four looped CMOS inverters, Lyapunov exponent λ which has the positive regions for the chaotic behavior can be calculated by use of the fitting nonlinear function synthesized from two sigmoid functions. For the second type of three looped CMOS inverters and the third type of one looped MOS inverter, the nonlinear charge/discharge characteristics of the hold capacitor in the SC circuit is utilized efficiently for forming the nonlinearity generating the bifurcation and chaotic behavior. Their bifurcation can be generated by the sampling clock frequency parameter which is controlled easily.
Haruo OGAWA Yuichiro TAKAHASHI Jun INAHASHI Toru SENGA
The objective of this study is to realize a manipulator of 0.5 mm in outside diameter as a part of 'research and development of micro machine technology.' This manipulator is intended as a part of a working robot to fix or observe the inside wall of a small pipe. One of the important problems of this research is to establish a processing method of a tubular small structure. MIM, metal injection molding, has been adopted to fabricate such a small structure. As a processing method to machine small molds for MIM, finish processing with surface roughness of Rmax 0.1 µm has been under our research applying 'vibrational processing technology,' which was developed on our own. This paper presents the results of 'vibrational processing technology' surface finishing of molds for metal injection.
Shinobu ISHIGAMI Ryoichi GOKITA Yoshifumi NISHIYAMA Ichiro YOKOSHIMA Takashi IWASAKI
The wave forms of electric and magnetic fields radiated by short gap discharges are measured to analyze electrostatic discharge (ESD) events in the near-field zone with the monopole antennas, the loop antenna and the 5.5GHz bandwidth waveform digitizer. The antenna outputs are corrected by the measured characteristics of the antennas. The relations between the measured electric field and the discharge currents are discussed.
Results of an empirical investigation of the shielding properties of a small pre-fabricated reinforced concrete building are presented. The electric field attenuation was measured in the frequency range of approximately 20kHz to 500MHz. The experiments were performed in collaboration with the Italian National Board of Post an Telecommunications (ISPT). An equivalent stick model has been analyzed in frequency domain by numerically solving a set of electric field integral equations. The influence of the real reinforcement mesh (dimensions, spatial disposition, electrical parameters) on the attenuation of the electric field has been investigated. A comparison between computed and measured results is presented.
The analysis of the shielding properties of chiral materials slabs is here presented, first deriving the spectral representation of the shielded fields, then getting the asymptotic expression of the transmission matrix in the higher frequencies. The time response of the shielded field for the NEMP incidence is finally deduced in a closed form.
Saverio CRISTINA Antonio ORLANDI
In this paper we have considered both frequency-domain and time-domain shielding provided by reinforced concrete walls and floors in planar geometries, against electromagnetic fields due to electromagnetic pulses. The concrete composites have been modeled as isotropic, homogeneous lossy materials and the metal bars of the reinforcement have been modeled as a wire-mesh grid under the assumptions that the wire junctions are connected and that thin-wire approximation applies. The presence of imperfect wire junctions due to oxidation of overlapping or poor welding is taken into account by introducing an equivalent distributed junction impedance. We have used the formalism of the transmission matrix of network theory. Such a formalism is useful in dealing with shielding problems involving bodies with non-separable layers, such as the reinforcement and the concrete. The behavior of a reinforced concrete wall with respect to an incident electromagnetic field is a function both of the low-pass behavior of the concrete, and of the inductive effects of the metal frame impedance. The electric field inside a reinforced concrete structure shows an attenuation, a time delay when it reaches its maximum value, and an increase in its temporal width with respect to the electric field outside. The proposed model is validated by comparison with numerical and measured results.
Osamu FUJIWARA Michihiko NOMURA
A method is described for approximately estimating the surface specific-absorption-rate (SAR) in an anatomically realistic model of the human head for microwave exposure using the external magnetic near-field. The finite-difference time-domain (FD-TD) technique is used to compute the electromagnetic fields in the head model for 750-MHz and 1.5-GHz far-field exposures with the 1991 ANSI specified safety level. The spatial pattern tracking between the one-gram averaged surface-SAR and external magnetic near-field is demonstrated on the horizontal cross sectional perimeter of the head model. The regression coefficients between them are also obtained on the fifty-five horizontal cross sectional perimeters, which could give an approximate value of the surface-SAR in an acutual head, if the external magnetic near-field would be measured. This is validated by the theoretical results in a semi-infinite homogeneous flat model for normal incidence microwave exposure.
The analysis of the shielding properties of a planar wire-mesh shield embedded in a general isotropic--chirality is included--or anisotropic stratified media is here presented. A suitable model of the grating has been introduced in order to consider the occuring phenomena, in fact through a spectral technique the electromagnetic problem is translated into the equivalent circuit network model that allows to express the time response of the shielded field for the NEMP incidence in a closed form.
Electromagnetic environments generated by power transmission system, possibilities of the interference and its mitigation method was introduced. In the frequency region below 10kHz, concern for DC and AC electric and magnetic field are described. In the frequency range above 10kHz, concern for discharges on power apparatus, electromagnetic emvironments generated by carrier system and fault locating system and passive interference are described. Electromagnetic environment caused by load equipments, that is harmonics, and undesirable electromagnetic emission from power converting units are described finally.
Takuya MIYASHITA Osami WADA Ryuji KOGA Hiroya SANO
Concerned is a spectral profile of electromagnetic (EM) emission from a signal line on a high-speed digital circuit. The authors have proposed and examined an a priori method to predict the peak frequencies on spectral profile of EM emission from printed circuit boards (PCBs). Profile of an EM spectrum is determined by the resonance of digital circuits. It is the purpose of this paper to investigate the parameters that determine the spectral profile of EM emission from a signal line on a PCS. In this paper, measurements and calculations of EM spectra were carried out for different load capacitances. EM emissions were measured with a small loop antenna at a 50mm from the surface of the PCB. Measured EM spectra had two peaks. Calculated EM spectra, which was based on transient current given by the analog simulator SPICE, had two peaks too. Results of calculations of EM spectra for different internal capacitances of an IC tell that lower peak frequency is determined by the resonance frequency of the resonant loop which is composed of an IC package and a decoupling capacitor. Comparison with measured EM spectra and calculated EM spectra for different load resistances tell that sharpness of the other peak depends on Q factor of a resonant loop which includes a signal line. Therefore the peak frequencies of EM emission spectrum can be predicted as two resonance frequencies of two resonant circuits.
Shose HAYASHI Koichiro MASUDA Ken-ichi HATAKEYAMA
For estimating the radiated emission from a metallic enclosure, the authors have developed a numerical computational method which applied inverse analysis. A metallic enclosure containing a loop antenna was set up to be a model source for the numerical analysis. Magnetic fields around the enclosure were measured by measurement systems fabricated in the authors' laboratory. Using the measured magnetic fields, current distributions on the enclosure surface were determined by means of an inverse analysis utilizing the least squares method. From this surface current distribution, the electromagnetic field distributions were estimated by forward analysis on a cylindrical surface 3.0m in radius. The amount of the error in the estimated fields distribution was also discussed.
Hitoshi IIDA Shinobu ISHIGAMI Ichiro YOKOSHIMA Takashi IWASAKI
The antenna factor measurement of the dipole antennas for electromagnetic interference (EMI) measurements is studied theoretically and experimentally. The 3-antenna method is applied to near-field. Near-field transmission characteristics between the transmitting and receiving dipole antennas is obtained by using the electromotive force (EMF) method, where sinusoidal current distributions are assumed. It is shown that the antenna factors can be measured from transmission values between two antennas and near-field correction factors at any height of each antenna.
Behzad D. MOTTAHED Souran MANOOCHEHRI
Effects of various joint configurations and gap sizes on the electromagnetic shielding effectiveness (SE) are evaluated to provide guidelines for best design of joints in order to increase the value of SE. Four different joint geometries are presented. A sharp decrease on SE with larger gap size for simple joints is observed. Addition of bends in the joint geometry has strong positive effect on the value of the SE. Increasing the angle of cut, which increases the effective length of the joint were also demonstrated to have increasing effect on the shielding performance.