It is provided a driving system, a driving method, a computer system and a computer readable medium. The driving system includes: an input circuit configured to receive an input on-chip voltage and output the on-chip voltage; an adjusting circuit configured to automatically detect a present amplitude of the on-chip voltage output by the input circuit and to output a bias voltage corresponding to the present amplitude of the on-chip voltage to a gate of the driven thin film transistor, wherein a source of the thin film transistor is directly or indirectly coupled to the on-chip voltage, and the bias voltage is lower than the on-chip voltage. The protection of the transistor gate and the adjusting of a receiver threshold voltage for different I/O (input/output) voltages and levels can be completed through automatic detection of the on-chip voltage and automatic adjusting.

An integrated circuit includes a first field effect transistor (FET) and a second FET formed in or over a semiconductor substrate and configured to selectively conduct a current between a first circuit node and a second circuit node. The first FET has a first source, a first drain and a first buried layer all having a first conductivity type, and a first gate between the first source and the first drain. The second FET has a second source, a second drain and a second buried layer all having the first conductivity type, and a second gate between the second source and the second drain. A first potential between the first source and the first buried layer is configurable independently from a second potential between the second source and the second buried layer.

IC apparatus, and manufacturing methods therefor, that include a power transistor and a thermoelectric device. The power transistor is constructed in a plurality of layers formed over a semiconductor substrate. The thermoelectric device is formed in one or more of the plurality of layers and is sensitive to temperature differences within the IC apparatus resulting from operation of the power transistor.

An apparatus includes a first lateral diffusion field effect transistor (LDFET) having a first threshold voltage and that includes a first gate electrode, a first drain contact, a first source contact, and a first electrically conductive shield plate separated from the first gate electrode and the first source contact by a first interlayer dielectric. A second LDFET of the apparatus has a second threshold voltage and includes a second gate electrode, a second drain contact, and a second source contact. The second source contact is electrically connected to the first source contact of the first LDFET. A control circuit of the apparatus is electrically coupled to the first electrically conductive shield plate and is configured to apply to the first electrically conductive shield plate a first gate bias voltage of a first level to set the first threshold voltage of the first LDFET to a first desired threshold voltage.

A semiconductor device includes a transistor in a semiconductor substrate having a first main surface. The transistor includes a source region, a source contact, the source contact including a first and second source contact portion, and a gate electrode in a gate trench in the first main surface adjacent to a body region. The body region and a drift zone are disposed along a first direction parallel to the first main surface between the source region and a drain region. The second source contact portion is disposed at a second main surface of the semiconductor substrate. The first source contact portion includes a source conductive material in direct contact with the source region, the first source contact portion further including a portion of the semiconductor substrate between the source conductive material and the second source contact portion. The semiconductor device further includes a temperature sensor in the semiconductor substrate.

A semiconductor device comprises a transistor formed in a semiconductor body having a first main surface. The transistor comprises a source region, a drain region, a channel region, a drift zone, a source contact electrically connected to the source region, a drain contact electrically connected to the drain region, and a gate electrode at the channel region. The channel region and the drift zone are disposed along a first direction between the source region and the drain region, the first direction being parallel to the first main surface. The channel region has a shape of a first ridge extending along the first direction. One of the source contact and the drain contact is adjacent to the first main surface, the other one of the source contact and the drain contact is adjacent to a second main surface that is opposite to the first main surface.

An apparatus includes a first lateral diffusion field effect transistor (LDFET) having a first threshold voltage and that includes a first gate electrode, a first drain contact, a first source contact, and a first electrically conductive shield plate separated from the first gate electrode and the first source contact by a first interlayer dielectric. A second LDFET of the apparatus has a second threshold voltage and includes a second gate electrode, a second drain contact, and a second source contact. The second source contact is electrically connected to the first source contact of the first LDFET. A control circuit of the apparatus is electrically coupled to the first electrically conductive shield plate and is configured to apply to the first electrically conductive shield plate a first gate bias voltage of a first level to set the first threshold voltage of the first LDFET to a first desired threshold voltage.

An apparatus includes a first lateral diffusion field effect transistor (LDFET) having a first threshold voltage and that includes a first gate electrode, a first drain contact, a first source contact, and a first electrically conductive shield plate separated from the first gate electrode and the first source contact by a first interlayer dielectric. A second LDFET of the apparatus has a second threshold voltage and includes a second gate electrode, a second drain contact, and a second source contact. The second source contact is electrically connected to the first source contact of the first LDFET. A control circuit of the apparatus is electrically coupled to the first electrically conductive shield plate and is configured to apply to the first electrically conductive shield plate a first gate bias voltage of a first level to set the first threshold voltage of the first LDFET to a first desired threshold voltage.

An apparatus includes a first lateral diffusion field effect transistor (LDFET) having a first threshold voltage and that includes a first gate electrode, a first drain contact, a first source contact, and a first electrically conductive shield plate separated from the first gate electrode and the first source contact by a first interlayer dielectric. A second LDFET of the apparatus has a second threshold voltage and includes a second gate electrode, a second drain contact, and a second source contact. The second source contact is electrically connected to the first source contact of the first LDFET. A control circuit of the apparatus is electrically coupled to the first electrically conductive shield plate and is configured to apply to the first electrically conductive shield plate a first gate bias voltage of a first level to set the first threshold voltage of the first LDFET to a first desired threshold voltage.

A wide gap semiconductor device has: a first MOSFET region (M0) having a first gate electrode 10 and a first source region 30 provided in a first well region 20 made of a second conductivity type; a second MOSFET region (M1) provided below a gate pad 100 and having a second gate electrode 110 and a second source region 130 provided in a second well region 120 made of the second conductivity type; and a built-in diode region electrically connected to the second gate electrode 110. The second source region 130 of the second MOSFET region (M1) is electrically connected to the gate pad 100.