An output driver in an integrated circuit includes a voltage shifter. The output driver has a low voltage section configured to provide a low voltage signal responsive to an input signal and a high voltage section configured to provide a high voltage signal responsive to the input signal. A first biasing circuit is configured to provide a bias to a first transistor in the high voltage section such that the bias is modified during a transition in the output signal. A second biasing circuit is configured to turn on a second transistor in the high voltage section when the output signal is at a low voltage level. The second transistor is configured to discharge a terminal of the first transistor. The input signal switches between 0 Volts and 0.9 Volts. The output signal switches between 0 Volts and 1.2 Volts or between 0 Volts and 1.8 Volts.

A multi-bit level shifter that has a plurality of level shifters, each of which is configured to receive an input signal in a first voltage domain and provide a corresponding output signal in a second voltage domain. The level shifters each have an enable node. An enable circuit includes an output terminal connected to the enable node of each of the plurality of level shifters, and each of the plurality of level shifters is configured to output the corresponding output signals in response an enable signal received by the enable circuit.

Embodiments of input supply circuits and methods for operating an input supply circuit are described. In one embodiment, an input supply circuit includes a bias circuit configured to define a voltage threshold in response to an input signal, and an input buffer configured to generate an output signal in response to the voltage threshold. Other embodiments are also described.

A method includes: forming first, second, and third NWs; forming form first to fourth transistors in corresponding first to fourth groups of active regions, connecting selected transistors amongst the first and second transistors to form first and second input circuits respectively receiving a first input signal in a first domain and a second input signal in the first domain; connecting selected transistors amongst the first and third transistors and amongst the first and fourth transistors to respectively form a first single bit level shifter (SBLS) and a second SBLS; each SBLS operates in the second domain and receives correspondingly versions of the first and second input signals; and connecting selected transistors amongst the first and third transistors to form a control circuit for toggling the first and second SBLSs between a normal and a standby state, a portion of the control circuit and the first SBLS sharing the second NW.

A multi-chip package includes: a first semiconductor integrated-circuit (IC) chip; a second semiconductor integrated-circuit (IC) chip over and bonded to the first semiconductor integrated-circuit (IC) chip; a plurality of first metal posts over and coupling to the first semiconductor integrated-circuit (IC) chip, wherein the plurality of first metal posts are in a space beyond and extending from a sidewall of the second semiconductor integrated-circuit (IC) chip; and a first polymer layer over the first semiconductor integrated-circuit (IC) chip and in the space, wherein the plurality of first metal posts are in the first polymer layer, wherein a top surface of the first polymer layer, a top surface of the second semiconductor integrated-circuit (IC) chip and a top surface of each of the plurality of first metal posts are coplanar.

A level shift circuit includes first to fourth n-type transistors, first and second p-type transistors, and first and second inverters. The first n-type transistor receives an input signal at its gate and has a drain connected to an inverted output node. The first p-type transistor is placed between a third power supply and the inverted output node. The second n-type transistor receives an inverted input signal at its gate and has a drain connected to an output node. The second p-type transistor is placed between the third power supply and the output node. The third n-type transistor is between the inverted output node and an inverted input node, and the first inverter between the drain and gate of the third n-type transistor. The fourth n-type transistor is between the output node and an input node, and the second inverter between the drain and gate of the fourth n-type transistor.

Various implementations described herein are related to a device having a level shifter that receives an input signal and reference voltages and provides level-shifted input signals based on the reference voltages. The device may have a pre-driver that receives the level-shifted input signals and reference voltages and provides gate voltages based on the reference voltages. The device may have a gate stabilizer that receives the reference voltages and provides a stabilized reference voltage based on the reference voltages. The device may have an output driver that receives the reference voltages, receives the gate voltages, receives the stabilized reference voltage and provides an output pad voltage to an input-output pad based on the reference voltages, the gate voltages and the stabilized reference voltage.

A manufacturing method of an input circuit of a flip-flop including: depositing a first gate strip, a second gate strip, a third gate strip, and a fourth gate strip, wherein a distance between the first and second gate strips, a distance between the second and third gate strips, and a distance between the third and fourth gate strips equal; executing a cut-off operation upon the first gate strip to generate a first first gate strip and a second first gate strip; executing a cut-off operation upon the third gate strip to generate a first third gate strip and a second third gate strip; and directing a first signal to the first first gate strip and the second third gate strip, and a second signal to the second first gate strip and the first third gate strip.

A drive circuit, a method for driving the drive circuit and a memory are provided. The drive circuit includes a word line drive circuit and a first control circuit. The word line drive circuit includes an input terminal, an output terminal and at least one N-type transistor. The word line drive circuit is configured to provide an output signal to the output terminal according to an input signal received by the input terminal. The first control circuit is configured to pull down, in response to the input signal being a first control signal, a voltage of a substrate terminal of the at least one N-type transistor in the word line drive circuit, to reduce a leakage current of the at least one N-type transistor.

A level shift circuit includes: a first transistor connected to ground and having a control terminal; a second transistor connected to the ground and having a control terminal connected to the a terminal of the first transistor; a pull-up circuit connected to a power source and also connected to the first terminal of the first transistor, and having a current mirror circuit constituted by two transistors; a third transistor having a first terminal connected to the first terminal of the first transistor, a second terminal connected to the power source, and a control terminal connected to a first terminal of the second transistor; and a fourth transistor having a first terminal connected to the first terminal of the second transistor, a second terminal connected to the power source, and a control terminal connected to the first terminal of the first transistor.