Abstract: A large scale integrated circuit chip includes a semiconductor circuit having a multilayered wiring structure, a metal guard ring surrounding the semiconductor circuit, and a plurality of external connection terminals, on a semiconductor circuit. The plurality of external connection terminals connect to an uppermost-layer wiring of the multilayered wiring structure and are exposed on a surface of the large scale integrated circuit chip. A predetermined external connection terminal conducts to a predetermined wiring through a conductive via within the guard ring and conducts to a conductive piece through another conductive via outside the guard ring. One side of the external connection terminal extending over the guard ring connects to the conductive piece, and the other side of the external connection terminal connects to the uppermost-layer wiring within the guard ring. Thus, a cutout part is not necessary in the guard ring.

Abstract: A large scale integrated circuit chip includes a semiconductor circuit having a multilayered wiring structure, a metal guard ring surrounding the semiconductor circuit, and a plurality of external connection terminals, on a semiconductor circuit. The plurality of external connection terminals connect to an uppermost-layer wiring of the multilayered wiring structure and are exposed on a surface of the large scale integrated circuit chip. A predetermined external connection terminal conducts to a predetermined wiring through a conductive via within the guard ring and conducts to a conductive piece through another conductive via outside the guard ring. One side of the external connection terminal extending over the guard ring connects to the conductive piece, and the other side of the external connection terminal connects to the uppermost-layer wiring within the guard ring. Thus, a cutout part is not necessary in the guard ring.

Abstract: A semiconductor integrated circuit device for driving an LCD, COG chip packaging is performed. To achieve this, an elongate and relatively thick gold bump electrode is formed over an aluminum-based pad having a relatively small area. In a wafer probe test performed after formation of the gold bump electrode, a cantilever type probe needle having gold as a main component and having an almost perpendicularly bent tip portion is used. The diameter of this probe needle in the vicinity of its tip is usually almost the same as the width of the gold bump electrode. This makes it difficult to perform the wafer probe test stably. To counteract this, a plurality of bump electrode rows for outputting a display device drive signal are formed such that the width of inner bump electrodes is made greater than the width of outer bump electrodes.

Abstract: It is in offering the technology which can solve the problem actualized in connection with the narrowing of a pitch of a bump electrode. Concretely, even if it is a case where the contact position of the probe needle to a bump electrode shifts, in the needle contact of the probe needle in an electrical property test, the technology in which it can prevent that a probe needle contacts an adjoining bump electrode is offered. Bump electrodes are arranged in a single line, and they are arranged so that a partial area may shift in an adjoining bump electrode. And a probe needle is contacted to the region which has shifted and an electrical property test is carried out.

Abstract: A semiconductor device having a liquid crystal driving circuit is disclosed. The driving circuit includes a digital functional unit and an analog functional unit. The digital functional unit is comprised of a display controller and a display data storage RAM, while the analog functional unit is made up of a gradation voltage generating circuit and a gradation voltage selecting circuit. The digital and analog function units are functionally divided from each other and testing of the digital function and testing of the analog function unit are performed in an overlapping manner independently from each other.

Abstract: A semiconductor device having a liquid crystal driving circuit is disclosed. The driving circuit includes a digital functional unit and an analog functional unit. The digital functional unit is comprised of a display controller and a display data storage RAM, while the analog functional unit is made up of a gradation voltage generating circuit and a gradation voltage selecting circuit. The digital and analog function units are functionally divided from each other and testing of the digital function and testing of the analog function unit are performed in an overlapping manner independently from each other.