Abstract: The electromechanical connector proposed has a switch and an actuator. The switch can be connected by means of contacts to a power supply and has switching magnets with encoded magnetic elements mounted on a carriage. It is fitted in a housing as an enclosed unit. The actuator has actuation magnets with encoded magnetic elements and can be connected to a consumer. The switch can be connected to the actuator, connecting these two devices causing the switching magnets to move, against a restraining force, from an inoperative position to an operating position. The electrical connection between the switch and the actuator is thus established by means of contacts. The ends of the switch and actuator facing each other are fitted with alignment devices designed so that electrical contact between the switch and the actuator can only be made when the contacts are in a particular position with respect to each other.

Abstract: In a method of controlling a disk driving motor having a rotor to which disks are loaded, an improvement comprises the step of, when the recording/reproducing is performed with respect to a disk, rotating the rotor in a reverse direction by one of a predetermined rotational angle and for a predetermined time during the period from the time the rotor stops rotating in a normal direction to the time the rotor is again driven in the normal direction. A control device for a disk driving motor in accordance with the method is also disclosed.

Abstract: An improvement structure of the female seat of a high frequency connector, wherein two sets of symmetric L shape terminals are inserted to the rear side of a female seat of a connector, each L shape terminals are arranged from outer side to inner side and from larger one to smaller one sequentially; characterized in that the L shape terminals are integrally formed on a protrusion which is extended from the lateral side of a long strip material. According to the aforementioned structure, since each set of L shape terminals with different sizes are arranged integrally on the protrusion in installation. Therefore, the L shape terminals with different sizes are not necessary to be manufactured one by one and it is unnecessary to be secondarily finished for bending. Therefore, it has a simple manufacturing process and the manufacturing cost is reduced for increasing the competition of market.

Abstract: An electrical card connector comprises an insulative housing, a number of terminals received in the housing, a shield attached to the housing and two stand-off devices attached to opposite sides of the shield. Each stand-off device comprises two locking latches outwardly extending from leading arms of the shield and a stand-off section. The stand-off section comprises a main body and a base extending from a bottom portion thereof. Locking slots are formed in the body for retaining the corresponding locking latches therein. Spring arms are formed in the body and each has a folded free end proximate the corresponding locking slot for engaging with the corresponding locking latch. Thus, the stand-off device is easily and securely attached to the shield of the card connector.