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Tsuneki YAMASAKI, Toyohiko ISHIHARA
2008 Volume E91.C Issue 1 Pages
1-2
Published: January 01, 2008
Released on J-STAGE: July 01, 2018
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Hiroyuki DEGUCHI, Mikio TSUJI, Hiroaki WATANABE
Article type: PAPER
Subject area: Antenna Theory
2008 Volume E91.C Issue 1 Pages
3-8
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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To obtain a broad circular-coverage beam with low sidelobe, this paper proposes optimization design based on the quadratic programming approach for circular horns. The desired excitation coefficients of higher-order modes are pre-determined and also evaluated by calculating universal radiation patterns. We show a design example of a multimode horn which has circular-coverage beam with low sidelobe level of about-30dB. The effectiveness of the designed horn is discussed by evaluating VSWR and radiation characteristics in X-band numerically and experimentally.
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Junichi NAKAYAMA, Yasuhiko TAMURA
Article type: PAPER
Subject area: Scattering and Diffraction
2008 Volume E91.C Issue 1 Pages
9-16
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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A transverse magnetic (TM) plane wave is diffracted by a periodic surface into discrete directions. However, only the reflection and no diffraction take place when the angle of incidence becomes a low grazing limit. On the other hand, the scattering occurs even at such a limit, if the periodic surface is finite in extent. To solve such contradiction, this paper deals with the scattering from a perfectly conductive sinusoidal surface with finite extent. By the undersampling approximation introduced previously, the total scattering cross section is numerically calculated against the angle of incidence for several corrugation widths up to more than 10
4 times of wavelength. It is then found that the total scattering cross section is linearly proportional to the corrugation width in general. But an exception takes place at a low grazing limit of incidence, where the total scattering cross section increases almost proportional to the square root of the corrugation width. This suggests that, when the corrugation width goes to infinity, the total scattering cross section diverges and the total scattering cross section per unit surface vanishes at a low grazing limit of incidence. Then, it is concluded that, at a low grazing limit of incidence, no diffraction takes place by a periodic surface with infinite extent and the scattering occurs from a periodic surface with finite extent.
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Kazuhiro HATTORI, Junichi NAKAYAMA, Yasuhiko TAMURA
Article type: PAPER
Subject area: Scattering and Diffraction
2008 Volume E91.C Issue 1 Pages
17-25
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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This paper deals with the scattering of a TM plane wave from a periodic grating with single defect, of which position is known. The surface is perfectly conductive and made up with a periodic array of rectangular grooves and a defect where a groove is not formed. The scattered wave above grooves is written as a variation from the diffracted wave for the perfectly periodic case. Then, an integral equation for the scattering amplitude is obtained, which is solved numerically by use of truncation and the iteration method. The differential scattering cross section and the optical theorem are calculated in terms of the scattering amplitude and are illustrated in figures. It is found that incoherent Wood's anomaly appears at critical angles of scattering. The physical mechanisms of Wood's anomaly and incoherent Wood's anomaly are discussed in relation to the guided surface wave excited by the incident plane wave. It is concluded that incoherent Wood's anomaly is caused by the diffraction of the guided surface wave.
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Toshihide AJIKI, Toyohiko ISHIHARA
Article type: PAPER
Subject area: High-Frequency Asymptotic Methods
2008 Volume E91.C Issue 1 Pages
26-33
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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We have derived the novel extended UTD (Uniform Geometrical Theory of Diffraction) solution and the novel modified UTD solution for the back scattering of an incident whispering gallery (WG) mode on the edge of a cylindrically curved conducting sheet. By comparing with the reference solution obtained from the integral representation of the scattered field by integrating numerically along the integration path, we have confirmed the validity and the utility of the novel asymptotic solutions proposed in the present study. It is shown that the extended UTD solution can be connected smoothly to the modified UTD solution on the geometrical boundary separating the edge-diffracted ray and the surface-diffracted ray.
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Jing GAO, Lei ZHU, Keren LI
Article type: PAPER
Subject area: Artificial and Nolinear Materials
2008 Volume E91.C Issue 1 Pages
34-40
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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Transmission line metamaterials on coplanar waveguide with series-capacitive and shunt-inductive distributed loading in periodical intervals are characterized using our developed fullwave self-calibrated method of moments. Firstly, the two effective per-unit-length transmission parameters, i. e., complex propagation constant and characteristic impedance, are numerically extracted. The results provide a straightforward insight into the forward- and backward-wave propagation characteristics in several distinctive bands, including the left- and right-handed stop-bands and passbands. In particular, it is demonstrated that in the whole left-handed passband, the propagation constant has purely negative phase constant while the characteristic impedance has only positive real quantity. Next, varied left- and right-handed passbands are studied in terms of lower/higher cut-off frequencies based on ideal equivalent circuit model and practical distributed CPW elements, respectively. Of particular importance, the left-handed and right-handed passbands find to be able to be directly connected with a seamless bandgap under the condition that normalized inductance and capacitance of loaded CPW inductive and capacitive elements become exactly the same with each other. Finally, the 9-cell metamaterial circuits on CPW with actual 50Ω feed lines are designed and implemented for experimental validation on the derived per-unit-length parameters.
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Shinichi FURUKAWA, Wataru SATOU, Takashi HINATA, Nao SHIMIZU
Article type: PAPER
Subject area: Optical Fibers
2008 Volume E91.C Issue 1 Pages
41-47
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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In this paper, a fiber with two inhomogeneous sector holes around the core is proposed, and propagation characteristics of polarization maintaining region and single-polarization region are numerically analyzed by circular Fourier expansion method. In each case of the single-polarization region and the polarization maintaining region, a fiber is designed so as to satisfy the zero total dispersion at wavelength of 1.55μm. Then, the single-polarization bandwidth for the single-polarization region and the modal birefringence for the polarization maintaining region are examined as the specific characteristics in each region. In addition, the power concentrating into the core region and distributions of Poynting vector is also discussed.
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Shinya KAGAWA, Yiwei HE, Toshitaka KOJIMA
Article type: PAPER
Subject area: Optical Recording (or Optical Memory, Optical Storage)
2008 Volume E91.C Issue 1 Pages
48-55
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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Various kinds of optical near-field apertures have been proposed for higher throughput and smaller spot size. However, few studies have mentioned the readout characteristics of the recorded marks on an optical disk illuminated by a near field optical light. In this paper, we have investigated the scattering light by a two-dimensional recorded mark on a phase change disk with Finite-Difference Time-Domain (FDTD) simulations. Instead of using Recursive Convolution (RC) and Piecewise Linear Recursive Convolution (PLRC) scheme, we integrated the motion equation of free electron into conventional FDTD method to solve the electromagnetic field in the metallic materials. The validity of the proposed method is illustrated by comparing its results with those from the analytic exact solution. We analyzed the distributions of optical near-field around a two-dimensional metallic nano-aperture, and then calculated the far-field scattering pattern from a two-dimensional recorded mark on a phase change disk while it was illuminated by an optical near-field though a nanoaperture. The sum signal by a condenser lens was calculated from far-field pattern, and its relationships with the width of recorded mark and the thickness of each layer in the phase change disk were illustrated. The cross-talk between the recorded marks was also discussed.
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Junichi NAKAYAMA, Yasuhiko TAMURA
Article type: PAPER
Subject area: Electromagnetic Theory
2008 Volume E91.C Issue 1 Pages
56-63
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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This paper deals with the scattering of a transverse magnetic (TM) plane wave from a perfectly conductive sinusoidal surface with finite extent. By use of the undersampling approximation and a rectangular pulse approximation, an asymptotic formula for the total scattering cross section at a low grazing limit of incident angle is obtained explicitly under conditions such that the surface is small in roughness and slope, and the corrugation width is sufficiently large. The formula shows that the total scattering cross section is proportional to the square root of the corrugation width but does not depend on the surface period and surface roughness. When the corrugation width is not large, however, the scattered wave can be obtained by a single scattering approximation, which gives the total scattering cross section proportional to the corrugation width and the Rayleigh slope parameter. From the asymptotic formula and the single scattering solution, a transition point is defined explicitly. By comparison with numerical results, it is concluded that the asymptotic formula is fairly accurate when the corrugation width is much larger than the transition point.
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Jun-Da CHEN, Zhi-Ming LIN, Jeen-Sheen ROW
Article type: PAPER
Subject area: Microwaves, Millimeter-Waves
2008 Volume E91.C Issue 1 Pages
64-71
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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A low-voltage and low-power RF mixer for WCDMA applications is presented. The paper presents a novel topology mixer that leads to a better performance in terms of isolation and power consumption for low supply voltage. The measuring results of the proposed mixer achieve: 7dB power conversion gain, 10.4dB double side band (DSB) noise figure, -2dBm input third-order intercept point (IIP3), and the total dc power consumption of this mixer including output buffers is 2.2mW from a 1V supply voltage. The current output buffer is about 1.96mW, the excellent LO-RF, LO-IF and RF-IF isolation achieved up to 49dB, 39.5dB and 57.3dB, respectively.
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Doo-Hwan KIM, Sung-Hyun YANG, Kyoung-Rok CHO
Article type: PAPER
Subject area: Electronic Circuits
2008 Volume E91.C Issue 1 Pages
72-80
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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This paper proposes a dual-level low voltage differential signaling (DLVDS) circuit aimed at low power consumption and reducing transmission lines for LCD driver IC's. We apply two-bit binary data to the DLVDS circuit as inputs, and then the circuit converts these two inputs into two kinds of fully differential signal levels. In the DLVDS circuit, two transmission lines are sufficient to transfer two-bit binary inputs while keeping the conventional LVDS features. The receiver recovers the original two-bit binary data through a level decoding circuit. The proposed circuit was fabricated using a commercial 0.25μm CMOS technology. Under a 2.5V supply voltage, the circuit shows a data rate of 1-Gbps/2-line and power consumption of 35mW.
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Do Danh CUONG, Zhi-Yuan CUI, Nam-Soo KIM, Kie-Yong LEE, Ho-Yong CHOI
Article type: PAPER
Subject area: Electronic Circuits
2008 Volume E91.C Issue 1 Pages
81-86
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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This paper presents a CMOS A/D converter based on the folding and interpolating technique. A current steering folder composed of differential pairs allows low power operation and an interpolation is used for high speed with low supply voltage. In a folding circuit, only twenty-three MOSFETs are required to have eight reference voltages of an 8-b A/D converter. The interpolation is implemented with a current division technique to generate 32 folding signals. This approach requires much less area and power consumption than other conventional flash A/D converter. The simulation in a 0.35μm CMOS process achieves 8-b resolution at 250 Msample/s with power consumption 70mW at 3.3V power supply. The preliminary experiment indicates the current steering folder and coarse bits operate as expected.
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Ippei AKITA, Kazuyuki WADA, Yoshiaki TADOKORO
Article type: PAPER
Subject area: Electronic Circuits
2008 Volume E91.C Issue 1 Pages
87-95
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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A scheme for a low-voltage CMOS syllabic-companding log domain filter with wide dynamic range is proposed and its prototype is presented. A nodal voltage which is fixed in a conventional filter based on the dynamically adjustable biasing (DAB) technique is adapted for change of input envelope to achieve wide dynamic range. Externally linear and time invariant (ELTI) relation between an input and an output is guaranteed by a state variable correction (SVC) circuit which is also proposed for low-voltage operation. To demonstrate the proposed scheme, a fifth-order Chebychev low-pass filter with 100-kHz cutoff frequency is designed and fabricated in a standard 0.35-μm CMOS process. The filter has a 78-dB dynamic range and consumes 200-μW power from a 0.8-V power supply.
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Ho-Yin LEE, Shih-Lun CHEN, Ching-Hsing LUO
Article type: PAPER
Subject area: Organic Molecular Electronics
2008 Volume E91.C Issue 1 Pages
96-104
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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This paper describes a smart thermal sensing chip with an integrated vertical bipolar transistor sensor, a Sigma Delta Modulator (SDM), a Micro-Control Unit (MCU), and a bandgap reference voltage generator for biomedical application by using 0.18μm CMOS process. The npn bipolar transistors with the Deep N-Well (DNW) instead of the pnp bipolar transistor is first adopted as the sensor for good isolation from substrate coupling noise. In addition to data compression, Micro-Control Unit (MCU) plays an important role for executing auto-calibration by digitally trimming the bipolar sensor in parallel to save power consumption and to reduce feedback complexity. It is different from the present analog feedback calibration technologies. Using one sensor, instead of two sensors, to create two differential signals in 180° phase difference input to SDM is also a novel design of this work. As a result, in the range of 0°C to 80°C or body temperature (37±5°C), the inaccuracy is less than ±0.1°C or ±0.05°C respectively with one-point calibration after packaging. The average power consumption is 268.4μW with 1.8V supply voltage.
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Helmy FITRIAWAN, Matsuto OGAWA, Satofumi SOUMA, Tanroku MIYOSHI
Article type: PAPER
Subject area: Semiconductor Materials and Devices
2008 Volume E91.C Issue 1 Pages
105-109
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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The analysis of multiband quantum transport simulation in double-gate metal oxide semiconductor field effects transistors (DGMOSFETs) is performed based on a non-equilibrium Green's function (NEGF) formalism coupled self-consistently with the Poisson equation. The empirical
sp3s* tight binding approximation (TBA) with nearest neighbor coupling is employed to obtain a realistic multiband structure. The effects of non-parabolic bandstructure as well as anisotropic features of Si are studied and analyzed. As a result, it is found that the multiband simulation results on potential and current profiles show significant differences, especially in higher applied bias, from those of conventional effective mass model.
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Jiro ITO, Tom Yen-Ting FAN, Takanori SUZUKI, Hiroyuki TSUDA
Article type: LETTER
Subject area: Optoelectronics
2008 Volume E91.C Issue 1 Pages
110-112
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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A compact arrayed-waveguide grating with small-bend waveguides incorporating air trenches and high mesa structures has been proposed. An 8-channel, 100-GHz-spacing silica arrayed-waveguide grating was fabricated, and its size was reduced dramatically to 1/4 of that of a conventional device.
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Nguyen Hoang HAI, Yoshinori NAMIHIRA, Feroza BEGUM, Shubi F. KAIJAGE, ...
Article type: LETTER
Subject area: Optoelectronics
2008 Volume E91.C Issue 1 Pages
113-116
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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In this paper, we propose and demonstrate a novel type of PCF that has two cladding layers with Ge rods at the center core. We numerically show that it is possible to design a single mode PCF with large effective area greater than 200μm
2 over the whole wavelength above 1.2μm. The proposed large mode area PCF (LMA-PCF) exhibits a high negative dispersion coefficient from -186 to -158 [ps/(nm-km)] in all wavelengths ranging from 1.2μm to 1.8μm. Effective single mode operation of LMA-PCF is confimed for the entire band of interest.
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Shih-Bin JHONG, Min-Hang WENG, Sean WU, Cheng-Yuan HUNG, Maw-Shung LEE
Article type: LETTER
Subject area: Microwaves, Millimeter-Waves
2008 Volume E91.C Issue 1 Pages
117-119
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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A novel low insertion-loss and wideband microstrip band-pass filter has been designed and tested. The basic configuration of this novel dual-mode filter is a square ring resonator with direct-connected orthogonal feed lines, and dual-perturbation elements are introduced within the resonator at symmetrical location. The effects of the size of the perturbation element are studied. A new filter having wider bandwidth and transmission zeros are presented. The proposed filter responses are in good agreement with the simulations and experiments.
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Masashi KATO, Nobuyuki TERADA, Hirofumi OHATA, Eisuke ARAI
Article type: LETTER
Subject area: Electronic Circuits
2008 Volume E91.C Issue 1 Pages
120-121
Published: January 01, 2008
Released on J-STAGE: March 01, 2010
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This letter presents a low-power switched current (SI) memory cell with CMOS-type configuration. By combining nMOS and pMOS in the SI memory cell and using a polarity discrimination circuit, we design a CMOS-type SI memory cell which eliminates the quiescent current in the SI memory cell. The simulation result shows that the CMOS-type SI memory cell consumes less power than the conventional class-AB memory cell.
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