Abstract: A CMOS image sensor includes a photo-transistor capable of performing photo-sensing and active amplification. The photo-transistor is installed to improve low illustration characteristics while maintaining an existing pixel operation. The CMOS image sensor also includes a reset transistor connected to the photo-transistor and adapted to perform a reset function, a drive transistor for acting as a source follower buffer amplifier in response to an output signal from the photo-transistor, and a switching transistor connected to the drive transistor and adapted to perform an addressing function.

Abstract: A mask ROM, a method for fabricating the same and a method for coding the same are disclosed. The method for forming the mask ROM maximizes packing density and integration of a device. The mask ROM includes a semiconductor substrate having a device isolation region and an active region, BN junction regions formed in predetermined portions of the active region, an insulating film, first electrode layers formed on predetermined portions of the insulating film, spacers formed at sides of the first electrode layers, and second electrode layers between the spacers.

Abstract: A CMOS image sensor and a method for fabricating the same are disclosed, in which light that transmits through a microlens is prevented from being beyond a photodiode region to minimize loss of incident light and to improve low illumination characteristics of the CMOS image sensor. The CMOS image sensor includes a semiconductor substrate including a transistor region and a photodiode region, a gate electrode formed on the semiconductor substrate corresponding to the transistor region, an interlayer dielectric layer formed on an entire surface of the semiconductor substrate including the gate electrode, a microlens formed over the interlayer dielectric layer to condense light, and a metal barrier formed in the interlayer dielectric layer to surround a portion of the interlayer dielectric layer corresponding to the photodiode region and to reflect light in the photodiode region that transmits through the microlens but goes beyond the photodiode region.

Abstract: Disclosed are a CMOS image sensor capable of improving the focusing capability of light and a method for manufacturing the same. The CMOS image sensor includes a plurality of first micro-lenses formed in the upper part of the planarization layer, each of the first micro-lenses arranged over a corresponding photodiode, and a plurality of second micro-lenses formed on the planarization layer, each of the plurality of second micro-lenses wrapping a corresponding first micro-lens respectively.

Abstract: A method of fabricating a metal-insulator-metal capacitor in a semiconductor device is disclosed. An example method for fabricating an MIM capacitor of a semiconductor device deposits a metal layer to be used as a lower electrode of an MIM capacitor, deposits a sacrificial layer on the metal layer, and removes some part of the sacrificial layer to form the MIM capacitor thereon. In addition, the example method deposits a dielectric layer and an upper metal layer and forms the MIM capacitor by patterning the dielectric layer and the upper metal layer.