Abstract: A mechanism is provided for dynamically adjusting DC offset at the time of deviation from DC balance ½ (DC level) in a data pattern including long-period consecutive bits generating DC offset in a section of data. A receiver circuit unit of an LSI having a serializer/deserializer arrangement for performing high-speed serial transmission includes an offset adjusting circuit. The offset adjusting circuit calculates DC balance in an arbitrary section of data by averaging received serial data. Based on comparison between a DC level and the DC balance obtained by averaging the received data, offset is shifted toward the H side when the DC balance exists on the H side from the DC level, and shifted toward the L side when the DC balance exists on the L side.

Abstract: An object of one embodiment of the present invention to provide a latch circuit includes a level shifter and a buffer in which transistors each including a channel region formed in an oxide semiconductor film are connected in series. Thus, data can be held in the latch circuit even when power is not supplied.

Abstract: Configurable time-borrowing flip-flops may be based on configurable pulse generation circuitry and pulse latches. The circuitry may use a self-timed architecture that controls the width of clock pulses that are generated so that the pulse latches that are controlled by the clock pulses exhibit a reduced risk of race through conditions. Latch circuitry may be provided that is based on a pulse latch and an additional latch connected in series with the pulse latch. In situations in which there is a potential for race through conditions on an integrated circuit, the additional latch may be switched into use to convert the latch circuitry into an edge-triggered flip flop. Clock trees may be provide with configurable shorting structures that help to reduce clock skew. Low-contention clock drivers may drive signals onto the clock tree paths.

Abstract: A synchronous output buffer circuit which effectively moves combinational logic associated with an output enable operation, boundary scan operation, and voltage translation to a pipe that leads into a pair of output registers that operate in response to the output clock signal. The output registers may be forced to asynchronously route an input signal to an output terminal during a reset mode and during a boundary scan mode. The output registers can include a safety circuit, which prevents pull-up and pull-down devices (which drive the output signal), from turning on at the same time.

Abstract: A dynamic logic gate has a dynamic node pre-charged in response to a pre-charge phase of a clock signal and a logic tree with a plurality of logic inputs for evaluating the dynamic node during an evaluate phase of the clock signal in response to a Boolean combination of the logic inputs. The logic tree has a stacked configuration with at least one multi-gate FEAT device for coupling an intermediate node of the logic tree to the dynamic node in response to a first logic input of the plurality of logic inputs or in response to the pre-charge phase of the clock signal. The multi-gate FEAT device has one gate coupled to the first logic input and a second gate coupled to a complement of the clock signal used to pre-charge the dynamic node.

Abstract: A logic circuit and associated method are provided to improve the switching performance of integrated circuit devices. The logic circuit includes a pass transistor logic circuit, a CMOS transistor pair connected as an inverter and having an input coupled to the output of the pass transistor logic circuit, a clocking transistor coupled between the inverter and a potential terminal to selectively enable the inverter according to a first clocking signal, and a precharge transistor coupled between the inverter output and a potential terminal to precharge the inverter output low according to a second clocking signal.

Abstract: A logic circuit and associated method are provided to improve the switching performance of integrated circuit devices. The logic circuit includes a pass transistor logic circuit, a CMOS transistor pair connected as an inverter and having an input coupled to the output of the pass transistor logic circuit, a clocking transistor coupled between the inverter and a potential terminal to selectively enable the inverter according to a first clocking signal, and a precharge transistor coupled between the inverter output and a potential terminal to precharge the inverter output low according to a second clocking signal.

Abstract: A double data rate dynamic logic gate in which an evaluation phase is performed for each phase of a clock signal. In one embodiment, an nMOSFET pull-down logic unit is clocked by two nMOSFETs switched in complementary fashion, and dynamic latches provide the output signals. In another embodiment, two nMOSFET pull-down logic units are employed, each clocked by an nMOSFET in complementary fashion, and a static logic unit provides the output signals.

Abstract: The present programming method exploits the close dependence of tunneling current on the voltage drop across the tunnel oxide layer. A bootstrapped capacitor connected to the drain terminal of the transistor is employed. The charge state of the capacitor determines the bias of the tunnel oxide and is in turn determined by the charge state in the floating gate. Biasing by the bootstrapped capacitor is such as to permit passage of the tunneling current and, hence, a change in the threshold voltage of the transistor until the floating gate reaches the desired charge level, and to prevent passage of the tunneling current upon the transistor reaching the desired threshold. Programming is thus performed automatically and to a predetermined degree of accuracy, with no need for a special circuit for arresting the programming operation when the desired threshold is reached.