Abstract: A semiconductor body has first and second opposed major surfaces. A first region meets the first major surface and at least one second region meets the second major surface. The semiconductor body provides a voltage-sustaining zone between the first and second regions. The voltage sustaining zone has third regions of one conductivity type interposed with fourth regions of the opposite conductivity type with the second and third regions providing a rectifying junction such that, in use, when the rectifying junction is forward biased in one mode of operation by a voltage applied between the first and second regions, a main current path is provided between the first and second major surfaces through the first region, the voltage-sustaining zone and the second region.

Abstract: A field-effect semiconductor device, for example a MOSFET of the trench-gate type, comprises side-by-side device cells at a surface (10a) of a semiconductor body (10), and at least one drain connection (41) that extends in a drain trench (40) from the body surface (10a) to an underlying drain region (14a). A channel-accommodating region (15) of the device extends laterally to the drain trench (40). The drain trench (40) extends through the thickness of the channel-accommodating region (15) to the underlying drain region (14a), and the drain connection (41) is separated from the channel-accommodating region (15) by an intermediate insulating layer (24) on side-walls of the drain trench (40). A compact cellular layout can be achieved, with a significant proportion of the total cellular layout area accommodating conduction channels (12). The configuration in a discrete device avoids a need to use a substrate conduction path and so advantageously reduces the ON resistance of the device.

Abstract: A semiconductor body (10) has first and second opposed major surfaces (10a and 10b), with a first region (11) of one conductivity type and a plurality of body regions (32) of the opposite conductivity type each forming a pn junction with the first region (11). A plurality of source regions (33) meet the first major surface (10a) and are each associated with a corresponding body region (32) such that a conduction channel accommodating portion (33a) is defined between each source region (33) and the corresponding body region (32). An insulated gate structure (30,31) adjoins each conduction channel area (33a) for controlling formation of a conduction channel in the conduction channel areas to control majority charge carrier flow from the source regions (33) through the first region (11) to a further region (14) adjoining the second major surface (10b).

Abstract: A semiconductor device has first and second opposed major surfaces (10a and 10b). A semiconductor first region (11) is provided between second (12 or 120) and third (14) regions such that the second region (12 or 120) forms a rectifying junction (13 or 130) with the first region (11) and separates the first region (11) from the first major surface (10a) while the third region (14) separates the first region (11) from the second major surface (10b). A plurality of semi-insulating or resistive paths (21) are dispersed within the first region (1′) such that each path extends through the first region from the second to the third region. In use of the device when a reverse biasing voltage is applied across the rectifying junction (13 or 130) an electrical potential distribution is generated along the resistive paths (21) which causes a depletion region in the first region (11) to extend through the first region (11) to the third region (14) to increase the reverse breakdown voltage of the device.

Abstract: A board game comprising: (i) a board (13) defining a playing area (24) divided into two halves (20, 22) each of which is subdivided into regions (1-12) each bearing an indicia; (ii) a playing piece for movement between the regions; (iii) means for randomly determining to which region the playing piece is moved; (iv) means for randomly determining the outcome of an event associated with the region on which the playing piece is situated; and (v) rules determining how two opposing players may move the playing piece in an attempt to achieve a specified aim. The random determining means preferably comprises a plurality of dice and the rules specify how many dice a player uses in a given situation to determine the outcome of an event or movement of the playing piece. The game may also include means for recording and displaying parameters selected by a player used for biasing the outcome of certain events.