Abstract: Disclosed is a semiconductor package 3 including a socket 1 which is formed on the top surface 3a for enabling electrical conductivity and a connecting terminal 2 which is formed on the bottom surface 3b for enabling electrical conductivity. The socket 1a has a depressed shape, and a spiral contact 1 is formed in the depression 1c. An electronic circuit module is constructed by mounting and electrically connecting a semiconductor module wherein a plurality of semiconductor packages 3 is stacked on a circuit board. A circuit board with sockets is constructed by mounting a socket board on a circuit board.

Abstract: To provide a producing method of a spiral contact that exhibits, even in a hot environment, low permanent set in fatigue, excellent spring characteristic and excellent electrical conductivity. In the producing method in which atoms of a dissimilar metal are diffused and infiltrated into a surface layer of the spiral contact (7) by being heated in a state where the spiral contact (7) is brought into contact with the dissimilar metal, by heating titanium (or aluminum) deposited on the surface of the spiral contact, copper of a Cu substrate (1) and nickel which is a core material of the spiral contact (7), atoms of Ti (or Al) and atoms of Cu are diffused and infiltrated into the surface layer of the core material (Ni) to form alloys (7c) and (7d). The heating temperature is set such that a lower limit thereof is the temperature corresponding to 0.

Abstract: Disclosed is a semiconductor package 3 including a socket 1 which is formed on the top surface 3a for enabling electrical conductivity and a connecting terminal 2 which is formed on the bottom surface 3b for enabling electrical conductivity. The socket 1a has a depressed shape, and a spiral contact 1 is formed in the depression 1c. An electronic circuit module is constructed by mounting and electrically connecting a semiconductor module wherein a plurality of semiconductor packages 3 is stacked on a circuit board. A circuit board with sockets is constructed by mounting a socket board on a circuit board.

Abstract: A micro connector comprising an insulator holding a lever, a printed circuit board which has a plurality of micro contacting terminals at a back surface thereof and an FPC cable which has a plurality of micro contacting pieces in an end thereof, wherein said insulator guides said FPC cable.

Abstract: The present invention relates to a terminal for a spiral contactor performing an electrical connection with an electronic component. The terminal is constituted including a peripheral frame and a contact portion contacting a connection end terminal. One end of the contact portion is fixed on the peripheral frame and the other end of the contact portion is provided spirally extended toward a center of an opening of the peripheral frame so as to universally move in a perpendicular direction for an opening face of the peripheral frame. And a thickness of the contact portion becomes thinner as the contact portion proceeds from one end toward the other end.