An AND gate comprises: a first input; a second input; an output; and a plurality of field effect transistors, FETs, each having a respective first terminal, a respective second terminal, and a respective gate terminal to which a voltage may be applied to control a conductivity of a respective channel between the respective first terminal and the respective second terminal. The plurality of FETs comprises: a first FET having its first terminal directly connected to the first input, its second terminal directly connected to the output, and its gate terminal directly connected to the second input; a second FET having its first terminal directly connected to the first input, its second terminal directly connected to the output, and its gate terminal directly connected to the output; and a third FET having its first terminal directly connected to the second input, its second terminal directly connected to the output, and its gate terminal directly connected to the output. Also disclosed is a clock divider stage for receiving a first clock signal oscillating at a first frequency and a second clock signal, the second clock signal being an inversion of the first clock signal, and generating a first output clock signal oscillating at half of the first frequency.

The invention provides a scan driving circuit for an oxide semiconductor thin film transistor and a NAND logic operation circuit thereof. The NAND logic operation circuit includes: a first inverter and a second inverter applied to a pull-down holding circuit of a GOA circuit, and multiple transistors. The invention uses the combination of NFTF and inverter to replace a function of original PMOS elements and thereby achieves characteristics similar to that of the original CMOS NAND operation circuit. Accordingly, the invention can solve the design problem of IGZO TFT single type of device logic operation circuit and thus is more suitable for integrating a large scale digital integrated circuit on a liquid crystal display device.

An IC device includes a transistor including a gate structure between first and second active areas, a first S/D metal portion overlying the first active area, and a second S/D metal portion overlying the second active area. A load resistor including a third S/D metal portion is positioned on a dielectric layer and in a same layer as the first and second S/D metal portions. A first via overlies the first S/D metal portion, second and third vias overlie the third S/D metal portion, and a first conductive structure is configured to electrically connect the first via to the second via.

An electronic circuit comprises: an input terminal; an output terminal; first and second supply rails; first, second, third, and fourth field effect transistors, FETs, each of a first type and each having respective gate, source and drain terminals; and first and second loads. The source of the first FET is connected to the first supply rail, the drain of the first FET and the source of the second FET are connected to the output terminal, the drain of the second FET is connected to the second supply rail, the gate of the third FET and the gate of the fourth FET are connected to the input terminal, the drain of the third FET is connected to the second supply rail, the first load is connected between the first supply rail and the source of the third FET, and the second load is connected between the drain of the fourth FET and the second supply rail. In one aspect of the invention, the gate of the first FET is connected to a node between the source of the third FET and the first load such that a voltage at the source of the third FET is applied to the gate of the first FET, and the gate of the second FET is connected to a node between the drain of the fourth FET and the second load such that a voltage at the drain of the fourth FET is applied to the gate of the second FET.

An AND gate comprises: a first input; a second input; an output; and a plurality of field effect transistors, FETs, each having a respective first terminal, a respective second terminal, and a respective gate terminal to which a voltage may be applied to control a conductivity of a respective channel between the respective first terminal and the respective second terminal. The plurality of FETs comprises: a first FET having its first terminal directly connected to the first input, its second terminal directly connected to the output, and its gate terminal directly connected to the second input; a second FET having its first terminal directly connected to the first input, its second terminal directly connected to the output, and its gate terminal directly connected to the output; and a third FET having its first terminal directly connected to the second input, its second terminal directly connected to the output, and its gate terminal directly connected to the output. Also disclosed is a clock divider stage for receiving a first clock signal oscillating at a first frequency and a second clock signal, the second clock signal being an inversion of the first clock signal, and generating a first output clock signal oscillating at half of the first frequency.

Apparatus and associated methods related to a three-dimensional integrated logic circuit that includes a columnar active region. Within the columnar active region resides an interdigitated plurality of semiconductor columns and conductive columns. A plurality of transistors is vertically arranged along each semiconductor column, which extends from a bottom surface of the columnar logic region to a top surface of the columnar logic region. Each of the plurality of transistors of each semiconductor column have source, body, and drain regions horizontally aligned, such that source, drain, and body regions of each of the plurality of transistors are vertically aligned with one another along the semiconductor column. Each of the plurality of conductive columns is adjacent to at least one of the plurality of semiconductor columns and extends along a columnar axis to one or more interconnection layers at the top and/or bottom surfaces of the columnar active layer.

An AND gate comprises: a first input; a second input; an output; and a plurality of field effect transistors, FETs, each having a respective first terminal, a respective second terminal, and a respective gate terminal to which a voltage may be applied to control a conductivity of a respective channel between the respective first terminal and the respective second terminal. The plurality of FETs comprises: a first FET having its first terminal directly connected to the first input, its second terminal directly connected to the output, and its gate terminal directly connected to the second input; a second FET having its first terminal directly connected to the first input, its second terminal directly connected to the output, and its gate terminal directly connected to the output; and a third FET having its first terminal directly connected to the second input, its second terminal directly connected to the output, and its gate terminal directly connected to the output. Also disclosed is a clock divider stage for receiving a first clock signal oscillating at a first frequency and a second clock signal, the second clock signal being an inversion of the first clock signal, and generating a first output clock signal oscillating at half of the first frequency.

Apparatus and associated methods related to a three-dimensional integrated logic circuit that includes a columnar active region. Within the columnar active region resides an interdigitated plurality of semiconductor columns and conductive columns. A plurality of transistors is vertically arranged along each semiconductor column, which extends from a bottom surface of the columnar logic region to a top surface of the columnar logic region. Each of the plurality of transistors of each semiconductor column have source, body, and drain regions horizontally aligned, such that source, drain, and body regions of each of the plurality of transistors are vertically aligned with one another along the semiconductor column. Each of the plurality of conductive columns is adjacent to at least one of the plurality of semiconductor columns and extends along a columnar axis to one or more interconnection layers at the top and/or bottom surfaces of the columnar active layer.

An AND gate comprises: a first input; a second input; an output; and a plurality of field effect transistors, FETs, each having a respective first terminal, a respective second terminal, and a respective gate terminal to which a voltage may be applied to control a conductivity of a respective channel between the respective first terminal and the respective second terminal. The plurality of FETs comprises: a first FET having its first terminal directly connected to the first input, its second terminal directly connected to the output, and its gate terminal directly connected to the second input; a second FET having its first terminal directly connected to the first input, its second terminal directly connected to the output, and its gate terminal directly connected to the output; and a third FET having its first terminal directly connected to the second input, its second terminal directly connected to the output, and its gate terminal directly connected to the output. Also disclosed is a clock divider stage for receiving a first clock signal oscillating at a first frequency and a second clock signal, the second clock signal being an inversion of the first clock signal, and generating a first output clock signal oscillating at half of the first frequency.

A method of generating an IC layout diagram includes positioning a resistor unit cell in the IC layout diagram, a resistor of the resistor unit cell including a source/drain metal region, positioning a MOS unit cell in the IC layout diagram, overlapping the resistor unit cell with a first via region, overlapping the MOS unit cell with a second via region, overlapping the first and second via regions with a continuous conductive region, and storing the IC layout diagram in a storage device.