Abstract: A sense amplifier has a transimpedance amplifier capable of producing an output voltage level proportionate to a current variation sensed going into a bitline. A transconductance device is configured to produce varying bitline current in response to the transimpedance amplifier output voltage. The transconductance device is capable of utilizing the transimpedance amplifier output voltage as feedback to produce a bitline clamp voltage level. The transimpedance amplifier configured to produce an output voltage proportionate to a cell current of a selected memory cell and provide an output signal corresponding to a memory cell state. An output amplifier is coupled to the transimpedance amplifier and capable of producing an output signal level proportionate to the transimpedance amplifier output voltage.

Abstract: A single pump stage of a multi-stage charge pump couples a first low-voltage NMOS transistor in series with a first low-voltage PMOS transistor between charge transfer capacitors. A second low-voltage NMOS transistor is coupled between the gate and the source of the first NMOS transistor. A second low-voltage PMOS transistor is coupled between the gate and the source of the first PMOS transistor. Respective boost voltages are applied to gates of the first NMOS transistor and the second PMOS transistor to minimize threshold voltage losses. A stabilizing capacitor is connected between the first NMOS transistor and the second PMOS transistor.

Abstract: A circuit arrangement (e.g., an integrated circuit) generates a second or higher order compensation voltage to compensate for variations in operation parameters (e.g., temperature and process variations). In one aspect, the compensation voltage is applied to a MOS resistor to compensate for mobility variations of the MOS resistor by maintaining a stable equivalent resistance. The compensated MOS resistor can provide a relatively stable resistance for a variety of analog circuit applications, such as a current reference.

Abstract: An improved charge pump design useful in low power applications derives an alternative voltage from a supply voltage. The design can be constructed using PMOS manufactured according to standard processes such that triple well manufacturing processes are not required. The design can incorporate control gate circuitry to increase efficiency and decrease degradation due to the threshold voltage of the transistors used.

Abstract: A single ended sense amplifier circuit is disclosed that is operable to measure a state of a memory cell. The amplifier can track and compensate for variations in cell current via feedback to maintain precision. The amplifier can be used with low supply voltages while still providing high-speed operation.

Abstract: A single pump stage of a multi-stage charge pump couples a first low-voltage NMOS transistor in series with a first low-voltage PMOS transistor between charge transfer capacitors. A second low-voltage NMOS transistor is coupled between the gate and the source of the first NMOS transistor. A second low-voltage PMOS transistor is coupled between the gate and the source of the first PMOS transistor. Respective boost voltages are applied to gates of the first NMOS transistor and the second PMOS transistor to minimize threshold voltage losses. A stabilizing capacitor is connected between the first NMOS transistor and the second PMOS transistor.

Abstract: An oscillator circuit for use in integrated circuits. The oscillator circuit includes a delay generation circuit having a current mirror with at least a first current mirror branch and a second current mirror branch, a current source coupled to the first current mirror branch, a capacitive element coupled to the first current mirror branch; and a resistive element coupled to the second current mirror branch. The oscillator circuit further includes a plurality of inverting elements coupled in series with one another and a transconducting element coupled to an output of the plurality of inverting elements. The transconducting element is configured to discharge the capacitive element. A latching element is coupled to latch to an output signal of the plurality of inverting elements.

Abstract: A single pump stage of a multi-stage charge pump couples a first low-voltage NMOS transistor in series with a first low-voltage PMOS transistor between charge transfer capacitors. A second low-voltage NMOS transistor is coupled between the gate and the source of the first NMOS transistor. A second low-voltage PMOS transistor is coupled between the gate and the source of the first PMOS transistor. Respective boost voltages are applied to gates of the first NMOS transistor and the second PMOS transistor to minimize threshold voltage losses. A stabilizing capacitor is connected between the first NMOS transistor and the second PMOS transistor.

Abstract: A sense amplifier has a transimpedance amplifier capable of producing an output voltage level proportionate to a current variation sensed going into a bitline. A transconductance device is configured to produce varying bitline current in response to the transimpedance amplifier output voltage. The transconductance device is capable of utilizing the transimpedance amplifier output voltage as feedback to produce a bitline clamp voltage level. The transimpedance amplifier configured to produce an output voltage proportionate to a cell current of a selected memory cell and provide an output signal corresponding to a memory cell state. An output amplifier is coupled to the transimpedance amplifier and capable of producing an output signal level proportionate to the transimpedance amplifier output voltage.

Abstract: An apparatus and method for improving memory cell reliability is disclosed. The slew rate is reduced in an applied voltage signal used to program a memory cell when Fowler-Nordheim (FN) tunneling injection is detected. The applied programming signal is provided by a charge pump that is preferably a regulated charge pump. The charge pump is selectively controlled by a slew rate control circuit when FN tunneling injection is detected by a voltage level detection circuit at a predetermined threshold voltage level.

Abstract: A sense amplifier circuit and a method for reading a memory cell. A circuit comprises a first bit line associated with a memory cell. A first input of a latch is coupled to the first bit line and a second input of the latch is coupled to a second node. There is a means for biasing the first input and the second input of the latch to a differential voltage between the first node coupled to the first bitline and the second node. There is also a means for switching the latch according to memory cell current. There is also a means for producing an output signal indicating the direction of switch. A method of reading a memory cell comprises precharging a first bit line which is associated with a memory cell. The memory cell current is driven according to the programmed state of the memory cell. Latch circuitry is biased based on a differential voltage between a first node coupled to the first bit line and a second node.

Abstract: An apparatus and method for improving memory cell reliability is disclosed. The slew rate is reduced in an applied voltage signal used to program a memory cell when Fowler-Nordheim (FN) tunneling injection is detected. The applied programming signal is provided by a charge pump that is preferably a regulated charge pump. The charge pump is selectively controlled by a slew rate control circuit when FN tunneling injection is detected by a voltage level detection circuit at a predetermined threshold voltage level.

Abstract: A sense amplifier circuit and a method for reading a memory cell. A circuit comprises a first bit line associated with a memory cell. A first input of a latch is coupled to the first bit line and a second input of the latch is coupled to a second node. There is a means for biasing the first input and the second input of the latch to a differential voltage between the first node coupled to the first bitline and the second node. There is also a means for switching the latch according to memory cell current. There is also a means for producing an output signal indicating the direction of switch. A method of reading a memory cell comprises precharging a first bit line which is associated with a memory cell. The memory cell current is driven according to the programmed state of the memory cell. Latch circuitry is biased based on a differential voltage between a first node coupled to the first bit line and a second node.