An array structure of a single-poly nonvolatile memory includes a first MTP section and a first OTP section. The first MTP section includes a plurality of MTP cells and the first OTP section includes a plurality of OTP cells. The first MTP is connected to a first word line, a first source line, a first erase line and a plurality of bit lines. The first OTP section is connected to a second word line, a second source line and the plurality of bit lines shared with the first MTP section.

An NVM array includes a plurality of NVM cells, a plurality of word lines extending along a first direction, a plurality of bit lines extending along a second direction, and a plurality of source lines. Each of the NVM cells includes a PMOS select transistor and a PMOS floating gate transistor serially connected to the PMOS select transistor. Each word line is electrically connected to the select gate of the PMOS select transistor. Each bit line is electrically connected to a doping region of the PMOS floating gate transistor of each of the plurality of NVM cells. Each source line is electrically connected to a doping region of the PMOS select transistor.

A semiconductor integrated circuit includes a substrate, a multi-gate transistor device positioned on the substrate, and an LDMOS device positioned on the substrate. The substrate includes a plurality of first isolation structures and a plurality of second isolation structures. A depth of the first isolation structures is smaller than a depth of the second isolation structures. The multi-gate transistor device includes a plurality of first fin structures and a first gate electrode. The first fin structures are parallel with each other and spaced apart from each other by the first isolation structures. The first gate electrode is intersectionally arranged with the first fin structures, and covers a portion of each first fin structure. The LDMOS device includes a second gate electrode covering on the substrate. The LDMOS device is electrically isolated from the multi-gate transistor device by another second isolation structure.

A semiconductor package includes an electrically conductive base (base) having a source connector. A drain connector and a gate connector are electrically coupled with the base. A depletion mode gallium nitride field-effect transistor (GaN FET) and an enhancement mode laterally diffused metal-oxide-semiconductor field-effect transistor (LDMOS FET) are also coupled with the base. The gate connector and a gate contact of the LDMOS FET are both included in a first electrical node, the source connector and a source contact of the LDMOS FET are both included in a second electrical node, and the drain connector and a drain contact of the GaN FET are both included in a third electrical node. The GaN FET and LDMOS FET together form a cascode that operates as an enhancement mode amplifier. The semiconductor package does not include an interposer between the GaN FET and the base or between the LDMOS FET and the base.

A semiconductor structure includes a first high-voltage MOS device region having a first light doping region in a substrate. The conductive type of the substrate is similar to that of the first light doping region. A first well is in the substrate. The first well substantially contacts a side of the first light doping region and does not extend under the first light doping region. The conductive type of the first well is opposite that of the first light doping region. A first gate stack is disposed on a part of the first light doping region and a first well. A first heavy doping region is disposed in the first well and the first light doping region at two sides of the first gate stack. The conductive type of the first heavy doping region is opposite that of the first light doping region.

A semiconductor device includes a semiconductor layer of a first conductivity type formed on a substrate; a first trench formed in the semiconductor layer including a first trench gate; a second trench formed in the semiconductor layer and extending into the substrate and including a second trench gate; a first transistor device formed in the semiconductor layer adjacent the first trench. The second trench encircles active area of the first transistor device to provide electrical isolation of the first transistor device.

A power integrated circuit includes a double-diffused metal-oxide-semiconductor (LDMOS) transistor formed in a first portion of the semiconductor layer with a channel being formed in a first body region. The power integrated circuit includes a first deep diffusion region formed in the first deep well under the first body region and in electrical contact with the first body region and a second deep diffusion region formed in the first deep well under the drain drift region and in electrical contact with the first body region. The first deep diffusion region and the second deep diffusion region together form a reduced surface field (RESURF) structure in the LDMOS transistor.

An electrostatic discharge (ESD) protection device includes an N-type laterally diffused metal oxide semiconductor (LDMOS) transistor including a source electrode, a gate electrode, and a well bias electrode that are connected to a first pad receiving a first voltage, and a drain electrode connected to a middle node. The ESD protection device further includes a silicon controlled rectifier (SCR) connected between the middle node and a second pad receiving a second voltage higher than the first voltage.

According to one embodiment, a semiconductor device includes a substrate having a first surface and an insulator that surrounds a first region of the first surface. A gate electrode is on the first region and has a first resistivity. A first conductor is also on the first region. The first conductor comprises a same material as the gate electrode, but has a second resistivity that is different from the first resistivity. The resistivity may be different, for example, by either use of different dopants/impurities or different concentrations of dopants/impurities. Resistivity may also be different due to inclusion of a metal silicide on the conductors or not.

A power device includes: a semiconductor layer, a well region, a body region, a gate, a source, a drain, a first salicide block (SAB) layer and a second SAB layer. The first SAB layer is formed on a top surface of the semiconductor layer, and is located between the gate and the drain, wherein a part of the well is located vertically below and in contact with the first SAB layer. The second SAB layer is formed vertically above and in contact with the first SAB layer.