A level shifter and a chip with the level shifter are shown. Between the input pair and the cross-coupled output pair, there are a first protection circuit and a second protection circuit. An overdrive voltage, which is double the nominal voltage of the level shifter plus a delta voltage, is applied to the level shifter. The first protection circuit has a first voltage-drop circuit that compensates for the delta voltage. The second protection circuit has a second voltage-drop circuit that compensates for the delta voltage.

Described is an integrated circuit with a driving amplifier that transmits a signal over a link (e.g. a wire) by raising and lowering a voltage on the link. A reference oscillator provides an error measure for the rate at which the voltage transitions between voltages, the slew rate. Slew-rate calibration circuitry adjusts the driving amplifier responsive to the error measure.

A combinational logic circuit includes input circuitry to receive a first and second input signals that transition between supply voltages of first and second voltage domain, respectively. The input circuitry generates, based on the first and second input signals, a first internal signal that transitions between one of the supply voltages of the first voltage domain and one of the supply voltages of the second voltage domain. Output circuitry within the combinational logic circuit generates an output signal that transitions between the upper and lower supply voltages of the first voltage domain in response to transition of the first internal signal.

According to one aspect of embodiments, a drive circuit of a normally-ON transistor includes: a normally-OFF transistor that includes a main current path connected in serial to a main current path of the normally-ON transistor; and a buffer circuit that supplies, to a gate of the normally-ON transistor, a control signal for controlling turning ON and OFF of the normally-ON transistor, whose high-voltage side and low-voltage side are biased by a bias voltage supplied from a power source unit.

A semiconductor device includes: an electronic circuit to receive a first signal and transmit a second signal; a power supply circuit to supply a power supply voltage to the electronic circuit; and a correction circuit to change a value of the power supply voltage to switch between a normal and a refresh operation mode. The electronic circuit includes: a first Pch transistor in which a potential of a first gate changes according to the first signal, and a potential of one of the first source and drain changes in response to the power supply voltage; and a first Nch transistor in which the second gate is electrically connected to the first gate, a potential of one of the second source and drain is equal to or lower than a ground potential, and another of the second source and drain is electrically connected to another of the first source and drain.

An output driving circuit includes: a plurality of bias voltage generating circuits configured to generate a plurality of bias voltages; a switching control circuit; and an output voltage generating circuit. The switching control circuit is configured to selectively connect one bias voltage generating circuit of the plurality of bias voltage generating circuits to the output voltage generating circuit based on an output voltage. The output voltage generating circuit is configured to transmit and receive a parasitic current generated due to transition of the output voltage to and from the one bias voltage generating circuit selectively connected to the output voltage generating circuit through the switching control circuit.

A semiconductor memory device includes a memory cell array and a signal propagation circuit disposed on a propagation path of a signal or a control signal. The signal propagation circuit includes a first inverted signal output circuit; a second inverted signal output circuit including an input terminal connected to an output terminal of the first inverted signal output circuit; a third inverted signal output circuit including an input terminal connected to output terminals of the first inverted signal output circuit and the second inverted signal output circuit; a fourth inverted signal output circuit including an input terminal connected to an output terminal of the third inverted signal output circuit, and further including a terminal connected to output terminals of the third inverted signal output circuit and the fourth inverted signal output circuit.

A chip with pad tracking having an input/output buffer (I/O buffer), a pad, and a bias circuit. The I/O buffer is powered by a first power and is coupled to the pad. The pad is coupled to the system power. The bias circuit generates a bias signal to be transferred to the I/O buffer to block a leakage path within the I/O buffer when the system power is on and the first power is off. The bias circuit is a voltage divider which generates a divided voltage as the bias signal. In an example, the bias circuit is powered by a second power that is independent from the first power and is not drawn from the pad. In another example, a power terminal of the bias circuit is coupled to an electrostatic discharging bus, and the pad is coupled to the electrostatic discharging bus through a diode.

A level shifter with high reliability is shown, which has a cross-coupled pair and a pull-down pair. The cross-coupled pair couples a first power terminal to a first output terminal of the level shifter or a second output terminal of the level shifter. The pull-down pair has a first transistor and a second transistor, which are controlled according to an input signal of the level shifter. The first transistor is coupled between the second output terminal and a second power terminal, and the second transistor is coupled between the first output terminal and the second power terminal. A first voltage level coupled to the first power terminal is greater than a second voltage level coupled to the second power terminal, and the second voltage level is greater than the ground level.

In described examples, a circuit includes a switch. The switch includes first transistors and second transistors. A voltage generation circuit is coupled to the switch. A level shifter is coupled to the voltage generation circuit and is configured to receive a control signal. A logic unit is coupled to the level shifter and the voltage generation circuit. The logic unit is configured to generate a secondary signal. The first transistors are configured to receive the control signal, and the second transistors are configured to receive the secondary signal.