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    • 25. 发明申请
    • Development System and Image Forming Apparatus Using the Same
    • 开发系统和使用它的成像装置
    • US20070047985A1
    • 2007-03-01
    • US11466711
    • 2006-08-23
    • Koichi KamijoKen Ikuma
    • Koichi KamijoKen Ikuma
    • G03G15/00G03G15/10
    • G03G15/105G03G2215/00751G03G2215/0658
    • A development system comprises: an image forming section including a development roller for carrying developer, a developer supplying roller for supplying the developer to the development roller, a developer container for supplying the developer to the developer supplying roller, a photoconductor on which a developed image is formed with the developer carried by the development roller, and a transfer means for transferring the developed image on the photoconductor; a developer concentration adjusting section including a toner tank for reserving developer of which concentration is higher than that of the developer in the developer container, a liquid carrier tank for reserving liquid carrier, and a developer concentration adjusting tank into which the high-concentration developer is fed from the toner tank and the liquid carrier is fed from the liquid carrier tank; a paper type input means for inputting a paper type; and a developer concentration adjustment controlling section for controlling development conditions depending on the paper type inputted by the paper type input means.
    • 显影系统包括:图像形成部分,包括用于承载显影剂的显影辊,用于将显影剂供应到显影辊的显影剂供应辊,用于将显影剂供应到显影剂供给辊的显影剂容器,显影图像 由显影辊承载的显影剂形成,以及用于将显影图像转印在感光体上的转印装置; 显影剂浓度调节部分,包括用于保留浓度高于显影剂容器中的显影剂浓度的显影剂的调色剂罐,用于储存液体载体的液体载体罐和高浓度显影剂 从调色剂罐供给,液体载体从液体载体罐供给; 用于输入纸张类型的纸张类型输入装置; 以及显影剂浓度调节控制部分,用于根据由纸张类型输入装置输入的纸张类型来控制显影条件。
    • 26. 发明申请
    • Application roller and image forming apparatus
    • 应用辊和成像设备
    • US20060099011A1
    • 2006-05-11
    • US11260889
    • 2005-10-26
    • Koichi KamijoHidehiro TakanoKen Ikuma
    • Koichi KamijoHidehiro TakanoKen Ikuma
    • G03G15/10
    • G03G15/10G03G15/11
    • An application roller comprises inclined sections which monotonously extend from central parts of peaks to the bottom of grooves. Hence, a liquid developer (a carrier liquid and toner particles) remaining on wall surfaces of the grooves of the application roller and the like without moving to a developer roller from the application roller, due to its own gravity, moves to the bottom of the grooves while applied upon the developer roller, and stays at inner bottom parts of the grooves. This effectively prevents air from getting trapped in the grooves during carrying of the liquid developer to the grooves, and hence, permits carrying of an appropriate amount of the liquid developer.
    • 涂布辊包括从峰的中心部分到凹槽的底部单调延伸的倾斜部分。 因此,由于其自​​身的重力,残留在施加辊等的槽的壁表面上的液体显影剂(载体液体和调色剂颗粒)没有从施加辊移动到显影辊,移动到 凹槽,同时施加在显影辊上,并且停留在凹槽的内底部。 这有效地防止了在液体显影剂携带到槽中时空气被捕获在槽中,因此允许携带适量的液体显影剂。
    • 27. 发明申请
    • Apparatus for forming image using liquid development
    • 使用液体显影形成图像的装置
    • US20060034639A1
    • 2006-02-16
    • US11196775
    • 2005-08-03
    • Koichi KamijoHidehiro TakanoKen Ikuma
    • Koichi KamijoHidehiro TakanoKen Ikuma
    • G03G15/10
    • G03G15/10
    • Widths of a coating area, a developing agent carrier, a maximum image area and a first cleaning member taken along a second direction are respectively W1, W2, W3 and W4, the following conditions are satisfied: a first condition that W1>W2 is met and in the second direction, the both edges of the developing agent carrier are located on the inner side to the both edges of the coating area, a second condition that W2>W3 is met and in the second direction, the both edges of the image area are located on the inner side to the both edges of the developing agent carrier, and a third condition that W4>W2 is met and in the second direction, the both edges of the developing agent carrier are located on the inner side to the both edges of the first cleaning member.
    • 涂覆区域,显影剂载体,最大图像区域和沿着第二方向取得的第一清洁构件的宽度分别为W 1,W 2,W 3和W 4,满足以下条件:第一条件为W 1> W 2,并且在第二方向上,显影剂载体的两个边缘位于涂覆区域的两个边缘的内侧,满足W 2> W 3的第二条件,并且在第二个 图像区域的两个边缘位于显影剂载体的两个边缘的内侧,并且满足W 4> W 2的第三条件,并且在第二方向上,显影剂的两个边缘 载体位于第一清洁构件的两个边缘的内侧。
    • 28. 发明授权
    • Proximity effect correction methods
    • US06531251B2
    • 2003-03-11
    • US09861210
    • 2001-05-17
    • Koichi Kamijo
    • Koichi Kamijo
    • G03F900
    • B82Y10/00B82Y40/00H01J37/3174H01J2237/31764H01J2237/31769Y10S430/143
    • Methods are disclosed for calculating exposure energy on a sensitive substrate as realized whenever the substrate is exposed with a reticle pattern. The reticle pattern is divided into regions each defining one or more respective pattern elements. The respective pattern element(s) in the various regions are represented by a respective representative figure having an aspect ratio that reflects the aspect ratio of the pattern elements in the region. The representative figure also has an area equal to the collective area(s) of the respective pattern element(s) in the region, and a centroid located at the centroid of the pattern element(s) in the region. If (1) the direction of one side of the representative figure is in the X-axis direction, (2) the direction of a perpendicular side of the representative figure is in the Y-direction, (3) the sum of the moment of inertia of the actual respective pattern element(s) around an axis parallel to the X-axis and passing through the centroid is Ix, and (4) the sum of the moment of inertia of the actual pattern element(s) around an axis parallel to the Y-axis and passing through the centroid is Iy, then the ratio between the length of the sides in the X-axis direction and the length of the sides in the Y-axis direction is (Iy)1/2:(Ix)1/2.
    • 29. 发明授权
    • Apparatus and methods for charged-particle-beam microlithography exhibiting reduced four-fold aberrations
    • 带电粒子束微光刻的装置和方法显示出减小的四倍像差
    • US06507027B1
    • 2003-01-14
    • US09399916
    • 1999-09-21
    • Shinichi KojimaKoichi Kamijo
    • Shinichi KojimaKoichi Kamijo
    • H01J37145
    • B82Y10/00B82Y40/00H01J37/1475H01J37/3174
    • Charged-particle-beam microlithography apparatus are disclosed that exhibit minimal deflection aberrations while providing large-magnitude deflections of the charged particle beam using a relatively small excitation current. The apparatus comprises multiple deflectors. A representative deflector comprises a toroidal deflector coil having a semi-angle of 72° and a toroidal saddle deflector coil having a semi-angle of 36°. By adjusting the dimensions and number of windings of each coil, and the excitation current applied to each coil, magnetic-field components associated with cos[3&phgr;] and with cos[5&phgr;], which are higher-order components in the deflection field, are minimized. As a result, four-fold aberrations are minimized and deflection sensitivity is increased.
    • 公开了带电粒子束微光刻设备,其使用相对较小的激励电流提供带电粒子束的大幅度偏转,其呈现最小的偏转像差。 该装置包括多个偏转器。 代表性的偏转器包括半角为72°的环形偏转线圈和半角为36°的环形鞍形偏转线圈。 通过调整每个线圈的绕组数量和施加到每个线圈的励磁电流,与cos [3phi]和cos [5phi]相关的磁场分量,它们是偏转场中的高阶分量, 最小化。 结果,四倍像差被最小化并且偏转灵敏度增加。
    • 30. 发明授权
    • Data transfer method between buses, bridge devices for interconnecting
buses, and data processing system including multiple buses
    • 总线之间的数据传输方法,用于互连总线的桥接设备,以及包括多个总线的数据处理系统
    • US6076128A
    • 2000-06-13
    • US14450
    • 1998-01-28
    • Koichi KamijoIkuo ShohHidenobu Hanami
    • Koichi KamijoIkuo ShohHidenobu Hanami
    • G06F13/40G06F13/38
    • G06F13/404
    • The object of the present invention is to eliminate, in a data processing system having multiple buses, a combination of devices that can not be accessed via a PCI to PCI bridge. When an access request is issued to an S.sub.-- ISA device by an S.sub.-- PCI device, a PCI to PCI bridge determines whether or not a requested address is outside a blocked area, and whether or not the address matches an address stored in a retry register. When the requested address does not match the address in the retry register, the PCI to PCI bridge mistakes the access request for an access to a P.sub.-- PCI device. Thus, the PCI to PCI bridge positively decodes the access request on the S.sub.-- PCI bus, and transmits an access request on the P.sub.-- PCI bus. However, since none of the P.sub.-- PCI devices do not decode the request, the PCI to PCI bridge has to terminate the bus cycle on the P.sub.-- PCI bus by master abort. At this time, the PCI to PCI bridge stores the requested address in the retry register, and terminates the bus cycle on the S.sub.-- PCI bus in the retry manner. Following this, although the S.sub.-- PCI device tries again to access the S.sub.-- ISA device, the PCI to PCI bridge refers to the address in the retry register and does not decode the access request. Since none of devices on the S.sub.-- PCI bus positively decodes the access request, the PCI to ISA bridge subtractively decodes the request. As a result, the access request is transmitted to the S.sub.-- ISA bus, and the S.sub.-- ISA device can decode this request, thereby establishing a correct bus cycle.
    • 本发明的目的是在具有多个总线的数据处理系统中消除不能通过PCI到PCI桥接器的组合。 当通过S-PCI设备向S-ISA设备发出访问请求时,PCI至PCI桥接器确定所请求的地址是否在阻塞区域外,以及地址是否匹配存储在重试中的地址 寄存器。 当请求的地址与重试寄存器中的地址不匹配时,PCI到PCI桥接器将访问请求错误地访问P-PCI设备。 因此,PCI到PCI桥对S-PCI总线上的访问请求进行了正确的解码,并在P-PCI总线上发送访问请求。 然而,由于没有一个P-PCI设备没有解码该请求,PCI到PCI桥必须通过主机中止在P-PCI总线上终止总线周期。 此时,PCI到PCI桥将请求的地址存储在重试寄存器中,并以重试的方式终止S-PCI总线上的总线周期。 接下来,虽然S-PCI设备再次尝试访问S-ISA设备,PCI到PCI桥指的是重试寄存器中的地址,但不解码访问请求。 由于S-PCI总线上的任何设备都无法正确地解码访问请求,所以PCI到ISA桥对该请求进行减法解码。 结果,访问请求被发送到S-ISA总线,并且S-ISA设备可以解码该请求,从而建立正确的总线周期。