A microelectronic package includes a substrate having a first surface. A microelectronic element overlies the first surface. Electrically conductive elements are exposed at the first surface of the substrate, at least some of which are electrically connected to the microelectronic element. The package includes wire bonds having bases bonded to respective ones of the conductive elements and ends remote from the substrate and remote from the bases. The ends of the wire bonds are defined on tips of the wire bonds, and the wire bonds define respective first diameters between the bases and the tips thereof. The tips have at least one dimension that is smaller than the respective first diameters of the wire bonds. A dielectric encapsulation layer covers portions of the wire bonds, and unencapsulated portions of the wire bonds are defined by portions of the wire bonds, including the ends, are uncovered by the encapsulation layer.

A semiconductor device includes: a semiconductor element that converts DC electric power into AC electric power; a DC terminal that transmits DC electric power; an AC terminal that transmits AC electric power; a sealing member that seals the semiconductor element, at least a part of the DC terminal, and at least a part of the AC terminal; and at least one floating terminal that is arranged between the DC terminal and the AC terminal.

A semiconductor device includes: a semiconductor element that converts DC electric power into AC electric power; a DC terminal that transmits DC electric power; an AC terminal that transmits AC electric power; a sealing member that seals the semiconductor element, at least a part of the DC terminal, and at least a part of the AC terminal; and at least one floating terminal that is arranged between the DC terminal and the AC terminal.

A semiconductor device having a dolmen structure, includes: a substrate; a first chip disposed on the substrate; a plurality of support pieces disposed around the first chip, on the substrate; and a bonding adhesive piece-attached chip supported by the plurality of support pieces and disposed to cover the first chip, in which the bonding adhesive piece-attached chip includes a second chip, and a bonding adhesive piece provided on one surface of the second chip, and a shear strength of the support pieces and the bonding adhesive piece-attached chip at 250° C. is 3.2 MPa or more.

A semiconductor device having a dolmen structure, includes: a substrate; a first chip disposed on the substrate; a plurality of support pieces disposed around the first chip, on the substrate; and a bonding adhesive piece-attached chip supported by the plurality of support pieces and disposed to cover the first chip, in which the bonding adhesive piece-attached chip includes a second chip, and a bonding adhesive piece provided on one surface of the second chip, and a shear strength of the support pieces and the bonding adhesive piece-attached chip at 250° C. is 3.2 MPa or more.

Semiconductor die stacks, and associated methods and systems are disclosed. The semiconductor die stack may include a first die with a memory array and a second die with CMOS circuitry configured to access the memory array. The first die may not have circuitry for accessing the memory array. Further, the first and second dies may be bonded to function as a single memory device, and front surfaces of the first and second dies are conjoined to form electrical connections therebetween. The second die may include a portion uncovered by the first die, where bond pads of the semiconductor die stack are located. The first die may provide a space for bond wires to connect to the bond pads without interfering with another die attached above the semiconductor die stack. Multiple semiconductor die stacks may be stacked on top of and in line with each other.

Semiconductor die stacks, and associated methods and systems are disclosed. The semiconductor die stack may include a first die with a memory array and a second die with CMOS circuitry configured to access the memory array. The first die may not have circuitry for accessing the memory array. Further, the first and second dies may be bonded to function as a single memory device, and front surfaces of the first and second dies are conjoined to form electrical connections therebetween. The second die may include a portion uncovered by the first die, where bond pads of the semiconductor die stack are located. The first die may provide a space for bond wires to connect to the bond pads without interfering with another die attached above the semiconductor die stack. Multiple semiconductor die stacks may be stacked on top of and in line with each other.

A microelectronic package includes a substrate having a first surface. A microelectronic element overlies the first surface. Electrically conductive elements are exposed at the first surface of the substrate, at least some of which are electrically connected to the microelectronic element. The package includes wire bonds having bases bonded to respective ones of the conductive elements and ends remote from the substrate and remote from the bases. The ends of the wire bonds are defined on tips of the wire bonds, and the wire bonds define respective first diameters between the bases and the tips thereof. The tips have at least one dimension that is smaller than the respective first diameters of the wire bonds. A dielectric encapsulation layer covers portions of the wire bonds, and unencapsulated portions of the wire bonds are defined by portions of the wire bonds, including the ends, are uncovered by the encapsulation layer.

A microelectronic package includes a substrate having a first surface. A microelectronic element overlies the first surface. Electrically conductive elements are exposed at the first surface of the substrate, at least some of which are electrically connected to the microelectronic element. The package includes wire bonds having bases bonded to respective ones of the conductive elements and ends remote from the substrate and remote from the bases. The ends of the wire bonds are defined on tips of the wire bonds, and the wire bonds define respective first diameters between the bases and the tips thereof. The tips have at least one dimension that is smaller than the respective first diameters of the wire bonds. A dielectric encapsulation layer covers portions of the wire bonds, and unencapsulated portions of the wire bonds are defined by portions of the wire bonds, including the ends, are uncovered by the encapsulation layer.

Multiple bonded units are provided, each of which includes a respective front-side die and a backside die. The two dies in each bonded unit may be a memory die and a logic die configured to control operation of memory elements in the memory die. Alternatively, the two dies may be memory dies. The multiple bonded units can be attached such that front-side external bonding pads have physically exposed surfaces that face upward and backside external bonding pads of each bonded unit have physically exposed surfaces that face downward. A first set of bonding wires can connect a respective pair of front-side external bonding pads, and a second set of bonding wires can connect a respective pair of backside external bonding pads.