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    • 1. 发明申请
    • MEMORY DEVICE WITH TEST MECHANISM
    • 具有测试机制的存储器件
    • US20110116332A1
    • 2011-05-19
    • US12618827
    • 2009-11-16
    • TOMOMI NAKAHajime Sakata
    • TOMOMI NAKAHajime Sakata
    • G11C29/00
    • G11C29/50G11C29/12005G11C2029/5006
    • A semiconductor memory device includes a plurality of memory cell transistors arranged in a matrix and each configured to store data, and a test circuit configured to output to outside the semiconductor memory device an output signal indicative of an amount of test current flowing through a selected one of the plurality of memory cell transistors, wherein the test circuit includes a plurality of reference cell transistors employed to successively produce varying amounts of currents, a comparison circuit configured to successively compare the amount of test current with each of the varying amounts of currents, and a code generating circuit configured to generate a code indicative of a result of the successive comparisons performed by the comparison circuit, wherein the code is output as the output signal.
    • 半导体存储器件包括以矩阵形式布置并分别被配置为存储数据的多个存储单元晶体管,以及测试电路,被配置为向半导体存储器件外部输出指示流过所选择的测试电流量的输出信号 所述多个存储单元晶体管中的所述测试电路包括用于连续产生不同数量电流的多个参考单元晶体管;比较电路,被配置为连续地将所述测试电流的量与所述不同量的电流中的每一个进行比较;以及 代码生成电路,被配置为生成表示由所述比较电路执行的连续比较的结果的代码,其中所述代码被输出作为所述输出信号。
    • 2. 发明授权
    • Memory device with test mechanism
    • 带测试机构的内存设备
    • US08213247B2
    • 2012-07-03
    • US12618827
    • 2009-11-16
    • Tomomi NakaHajime Sakata
    • Tomomi NakaHajime Sakata
    • G11C29/00
    • G11C29/50G11C29/12005G11C2029/5006
    • A semiconductor memory device includes a plurality of memory cell transistors arranged in a matrix and each configured to store data, and a test circuit configured to output to outside the semiconductor memory device an output signal indicative of an amount of test current flowing through a selected one of the plurality of memory cell transistors, wherein the test circuit includes a plurality of reference cell transistors employed to successively produce varying amounts of currents, a comparison circuit configured to successively compare the amount of test current with each of the varying amounts of currents, and a code generating circuit configured to generate a code indicative of a result of the successive comparisons performed by the comparison circuit, wherein the code is output as the output signal.
    • 半导体存储器件包括以矩阵形式布置并分别被配置为存储数据的多个存储单元晶体管,以及测试电路,被配置为向半导体存储器件外部输出指示流过所选择的测试电流量的输出信号 所述多个存储单元晶体管中的所述测试电路包括用于连续产生不同数量电流的多个参考单元晶体管;比较电路,被配置为连续地将所述测试电流的量与所述不同量的电流中的每一个进行比较;以及 代码生成电路,被配置为生成表示由所述比较电路执行的连续比较的结果的代码,其中所述代码被输出作为所述输出信号。
    • 3. 发明申请
    • Control method of distributed Bragg reflection semiconductor laser, and image projecting apparatus
    • 分布式布拉格反射半导体激光器的控制方法和图像投影装置
    • US20080002745A1
    • 2008-01-03
    • US11896142
    • 2007-08-30
    • Kazunari FujiiHajime SakataYukio Furukawa
    • Kazunari FujiiHajime SakataYukio Furukawa
    • H01S5/06
    • H04N9/3129H01S5/005H01S5/0092H01S5/06256H01S5/06804
    • A distributed Bragg reflection (DBR) semiconductor laser is controlled in an image projecting apparatus. The image projecting apparatus includes the DBR semiconductor laser which is provided with a phase region and a DBR region, a light wavelength converting device for converting fundamental-wave light emitted from the DBR semiconductor laser into second harmonic wave light, an optical deflector for scanning the second harmonic wave in a one-dimensional or two-dimensional manner, and a modulating portion for modulating the DBR semiconductor laser based on an image signal. In the control method, a coefficient calculating step and a wavelength adjusting step are performed within a non-drawing time during which a drawing signal, which corresponds to the image signal, is absent. In the coefficient calculating step, at least one coefficient in a relationship between a DBR current to be injected into the DBR region and a phase current to be injected into the phase region for continuously shifting the wavelength of the fundamental-wave light is calculated. In the wavelength adjusting step, the DBR current injected into the DBR region and the phase current injected into the phase region are changed based on the relationship such that the second harmonic wave light is adjusted.
    • 在图像投影装置中控制分布式布拉格反射(DBR)半导体激光器。 图像投影装置包括具有相位区域和DBR区域的DBR半导体激光器,用于将从DBR半导体激光器发射的基波光转换为二次谐波光的光波长转换装置,用于扫描 一维或二维二次谐波,以及用于基于图像信号调制DBR半导体激光器的调制部分。 在控制方法中,系数计算步骤和波长调整步骤在不存在对应于图像信号的绘制信号的非绘制时间内执行。 在系数计算步骤中,计算要注入到DBR区域的DBR电流和要注入到用于连续移位基波的波长的相位区域的相电流之间的关系中的至少一个系数。 在波长调整步骤中,根据调整二次谐波光的关系,改变注入DBR区域的DBR电流和注入相位区域的相电流。
    • 4. 发明授权
    • Semiconductor laser element capable of changing emission wavelength, and
method of driving the same
    • 能够改变发射波长的半导体激光元件及其驱动方法
    • US5155736A
    • 1992-10-13
    • US790832
    • 1991-11-14
    • Takeo OnoHajime Sakata
    • Takeo OnoHajime Sakata
    • H01S5/0625H01S5/34H01S5/50
    • B82Y20/00H01S5/06255H01S5/34H01S5/06256H01S5/06258H01S5/5045
    • A semiconductor laser element capable of changing an oscillation wavelength over a wide range without increasing a threshold current is disclosed. A wavelength selective filter capable of changing a selected wavelength over a wide range is also disclosed. The semiconductor laser element has a substrate and a laser resonator formed on the substrate by stacking semiconductor layers including an active layer and an optical waveguide layer of a superlattice structure. The resonator includes a first reflection portion, an active portion, a phase adjustment portion and second reflection portion which are juxtaposed in a resonance direction. Diffraction gratings are formed in the optical guide layer of the first and second reflection portions. Electrodes are independently formed in the active portion, the phase adjustment portion and the first and second reflection portions. Further, a method for driving the semiconductor laser is disclosed.
    • 公开了能够在不增加阈值电流的情况下在宽范围内改变振荡波长的半导体激光元件。 还公开了能够在宽范围内改变选定波长的波长选择滤波器。 半导体激光元件具有通过层叠包括有源层和超晶格结构的光波导层的半导体层而形成在基板上的基板和激光谐振器。 谐振器包括在谐振方向上并列的第一反射部分,有源部分,相位调整部分和第二反射部分。 衍射光栅形成在第一和第二反射部分的光导层中。 电极独立地形成在有源部分,相位调整部分和第一和第二反射部分中。 此外,公开了一种用于驱动半导体激光器的方法。
    • 10. 发明申请
    • Light wavelength converting apparatus, control method of the same, and image projecting apparatus using the same
    • 光波长变换装置及其控制方法以及使用其的图像投影装置
    • US20050254531A1
    • 2005-11-17
    • US11120950
    • 2005-05-04
    • Yukio FurukawaHajime SakataKazunari Fujii
    • Yukio FurukawaHajime SakataKazunari Fujii
    • G02B26/10G02F1/377H01S3/10H01S5/00H01S5/02H01S5/06H01S5/0625H01S5/0687H01S5/125
    • H01S5/06256H01S5/005H01S5/0092H01S5/02248H01S5/0617H01S5/06804
    • A light wavelength converting apparatus includes a semiconductor laser having a gain region, a phase region, and a distributed Bragg reflection (DBR) region, a nonlinear optical device for receiving fundamental-wave light emitted from the semiconductor laser and outputting second harmonic wave light, a first optical detector for monitoring an output of the fundamental-wave light, a second optical detector for monitoring the second harmonic wave light, and a control portion for controlling at least a drive current for driving the semiconductor laser. The control portion includes a control parameter determiner, and a wavelength controller. The control parameter determiner changes a DBR current supplied to the DBR region and a phase current supplied to the phase region to obtain a changing point that corresponds to a discontinuous change in an electrical signal from the first optical detector, and determines a control parameter for controlling the DBR current and the phase current such that the relationship between the DBR current and the phase current is not located on the changing point. The wavelength controller controls the DBR current and the phase current pursuant to the control parameter such that an oscillation wavelength of the semiconductor laser can be continuously controlled.
    • 光波长转换装置包括具有增益区域,相位区域和分布布拉格反射区域的半导体激光器,用于接收从半导体激光器发射的基波光并输出二次谐波光的非线性光学装置, 用于监视基波输出的第一光检测器,用于监测第二谐波光的第二光检测器,以及用于至少控制用于驱动半导体激光器的驱动电流的控制部分。 控制部分包括控制参数确定器和波长控制器。 控制参数确定器改变提供给DBR区域的DBR电流和提供给相位区域的相电流,以获得对应于来自第一光学检测器的电信号的不连续变化的变化点,并且确定用于控制的控制参数 DBR电流和相电流使得DBR电流和相电流之间的关系不位于变化点上。 波长控制器根据控制参数控制DBR电流和相电流,使得能够连续地控制半导体激光器的振荡波长。