Abstract: A method for detecting an under-programming or over-programming condition in a multistate memory cell. The method uses three sense amplifiers, each with an associated reference cell which produces a reference voltage for input to each of the sense amplifiers. Control circuitry is used which allows the reference cell currents to be varied to produce the reference voltages or pairs of reference voltages needed to accurately determine the threshold voltage and hence state of a programmed or erased memory cell. This information is used by a controller to determine if a memory cell has been over-programmed, under-programmed, or properly programmed. If the cell has not been properly programmed, then additional programming pulses are applied (in the case of under-programming) or an error flag is set and the programming algorithm is terminated (in the case of an over-programmed cell).

Abstract: A data input/output circuit used to program the cells of a memory array or to determine the state of those cells. The circuit includes a data write path used for programming the memory cells in the array and a data read path for reading data indicative of the state of the cells. The data write path includes switching means for electrically disconnecting the high capacitance elements of the write path from the read path. The switching means is under the control of a control means which acts to enable or disable the switching means. The switching means serves to electrically isolate the high capacitance elements of the write path from the read path, thereby increasing the speed with which a read operation be performed.

Abstract: An oscillator circuit capable of being fully implemented in integrated circuit form and having a first current source for charging a first capacitor so as to produce a time varying voltage which is sensed by a first comparator when the voltage reaches a predetermined threshold level. The circuit further includes a second current source for charging a second capacitor so as to produce a further time varying voltage which is sensed by a second comparator when the voltage reaches the predetermined threshold voltage. The output of first and second comparators are combined so as to produce the output clock signal, with the first cycle segment of the clock having a duration determined by the first comparator output and the second cycle segment of the clock having a duration determined by the second comparator output.

Abstract: A data input/output circuit used to program the cells of a memory array or to determine the state of those cells. The circuit includes a data write path used for programming the memory cells in the array and a data read path for reading data indicative of the state of the cells. The data write path includes switching means for electrically disconnecting the high capacitance elements of the write path from the read path. The switching means is under the control of a control means which acts to enable or disable the switching means. The switching means serves to electrically isolate the high capacitance elements of the write path from the read path, thereby increasing the speed with which a read operation be performed.

Abstract: A fast-sensing amplifier for a flash memory comprised of a plurality of floating-gate memory devices and having a column line selectively coupled to the devices is disclosed. The column line is quickly discharged to ground before a read-biasing and amplifying circuit quickly pulls up the line to the read-bias potential at a particular memory device. This potential is compared to a sense-reference potential by a differential amplifier within the fast-sensing amplifier. The binary state of the particular memory device is provided as the output of the fast-sensing amplifier.

Abstract: A nonvolatile memory system emulates a magnetic hard disk drive and includes an array of nonvolatile memory cells, such as flash memory cells, organized into sets, such as sectors. A buffer, such as a random access memory, stores a first set of data to be written to the array. Error correction code (ECC) circuitry receives the first set of data and calculates first ECC check bits representative of the first set of data. ECC comparison circuitry compares the first ECC check bits with second ECC check bits representative of a second set of data stored in the array to generate an ECC comparison signal having a first state indicative of a match between the first and second ECC check bits and a second state indicative of a miscomparison between the first and second ECC check bits.

Abstract: A flash memory system having the capability of automatically executing consecutive program-erase cycles for the purpose of measuring the endurance of the memory. The memory system may be switched to a test mode which triggers the autocycling by applying a high voltage to two of the package pins of the system which normally are coupled to low voltage sources. The system includes an internal state machine which, in normal operation, is implemented to perform flash cell programming, erasing and reading, with the erasing sequence including a preprogram step where, prior to the erase, all cells are programmed. When placed in the autocycle mode by application of the high voltages to the pins, the state machine is caused to enter the erase sequence, including the preprogram step. Once the first erase sequence is concluded, circuitry is provided that causes the state machine to automatically initiate a further erase sequence.

Abstract: Apparatus for use in photodynamic therapy (PDT) is provided having a substantially cylindrical support to which is attached a removable, multi-sided head. Each side of the head has an array of light-emitting diodes that provide monochromatic light to activate a photosensitive dye. The apparatus may be used in invasive surgery to treat brain tumors and the like. The apparatus may be used for topical treatments by providing a removable reflector over the light-emitting head. The temperature of the head is controlled, and the head is cooled by circulating cooling fluid through the head. The use of the cooling fluid allows the LEDs to be driven beyond their rated capacity. The catheter may also include an expandable light diffuser that is affixed over the light-emitting head and that is filled with a diffuser fluid such as a lipid solution. The apparatus may also be used to provide radiant energy to plants or to patients in non-PDT applications.

Abstract: A controllable one-shot circuit for use in a control unit of a memory circuit, for asserting a control signal with variable (and controllable) duration in response to a trigger signal, and a state machine for controlling memory operations of a memory circuit which includes such a controllable one-shot circuit. In preferred embodiments, the one-shot and the state machine of which it is a part are implemented as parts of a single memory chip (preferably, a nonvolatile memory chip such as an integrated flash memory circuit). Other aspects of the invention are methods of operating a state machine of a memory circuit to generate control signals for use in controlling memory operations performed by the memory circuit.

Abstract: A high voltage detection circuit implemented in an integrated circuit which is switchable between a normal operation mode and an alternative operation mode and having contact pads for electrically connecting the integrated circuit to an external environment. One of the pads functions to provide an interface between an external environment and the integrated circuit for signals having a maximum voltage magnitude, relative to a circuit common, when the integrated circuit is in the normal operation mode. The one pad further functions to receive an external test mode signal which will cause the integrated circuit to switch to the test mode of operation, with the test mode signal having a voltage magnitude which is greater than that of maximum voltage magnitude. The detection circuit includes a first MOS transistor having either the gate or source coupled to the one pad and a second MOS transistor having a source and drain connected in series with the drain and source of the first transistor.

Abstract: First and second flash memory cells or transistors, operating in the linear region of operation, are provided with different threshold values by providing different charges on their respective floating gates. The first of the pair of flash memory transistors is "over-erased" until it has a negative threshold voltage so that the first flash memory transistor is rendered permanently conducting when its control gate and source are at V.sub.ss. Circuitry is provided for connecting the first and second flash memory transistors in parallel circuits in which equal current values are generated in an equilibrium condition. Circuitry for sensing a voltage in each of the parallel circuits is provided to determine any imbalance in current values and provide an output voltage which may be used as an reference value when the currents are in equilibrium.

Abstract: A memory circuit including at least one of flash memory calls organized into one or more physically separate decode blocks and a controller which monitors the disturb effect on each independently erasable "erase" block of cells of each decode block due to erasures of other erase blocks in the same decode block, and a method of operating such a circuit. Preferably, the controller controls memory operations of each array in addition to monitoring the disturb effect on each erase block. The disturb effect causes cells of an erase block to lose charge from their floating gates each time an erase operation is performed on another erase block in the same decode block. Preferably, each time an erase block is erased, the controller updates a table for the decode block which contains the erased block by adding a unit of disturb to the count for each other erase block in the decode block and resetting the count for the erased block to zero.

Abstract: An integrated circuit operable in a test mode and a normal operating mode, which includes an improved test mode switch. In the test mode of preferred embodiments in which the circuit is an integrated memory chip, the test mode switch is closed so as to connect an input/output (I/O) pad directly with a selected memory cell (so a current/voltage characterization of the cell can be obtained). In the normal operating mode of these embodiments, the test mode switch is open and it isolates the I/O pad from direct connection with the selected cell even under the condition that a transistor of the test mode switch undesirably becomes conductive (e.g., due to low voltage on the I/O pad, inductive coupling, or the like).

Abstract: An operational amplifier-based voltage multiplier circuit ("op amp circuit") implemented as an integrated circuit, and a memory chip including such an op amp circuit. The op amp circuit includes a variable operational feedback or input resistance (or a variable operational feedback resistance and a variable input resistance), and preferably also circuitry for controlling at least one variable resistance in response to control bits to cause the op amp circuit to assert a selected output voltage in response to a given input voltage. Preferably, each set of control bits determines a binary control word whose binary value has a simple functional relation to the value of the output voltage selected thereby. Preferably, the memory chip includes an array of memory cells (e.g, flash memory cells) and a control unit for controlling memory operations including programming, reading, and erasing the memory cells.

Abstract: A flash memory array arrangement having a plurality of erase blocks which can be separately erased. The erase blocks have separate source lines, the state of which is controlled by a source line decoder. In array read, program and erase operations, the source lines of the deselected erase blocks, the blocks that are not being read, programmed or erased, are set to a high impedance level. If a cell in one of the deselected erase blocks is defective in some respect such that the cell is conducting leakage current, the high impedance source line associated with the cell will reduce the likelihood that the defective cell will prevent proper operation of the selected erase block.

Abstract: An address transition detection (ATD) circuit for use in a memory generates a first pulse in a first node in response to a change in state of an address signal and generates a second pulse in a second node in response to a change in state of the address signal. A load circuit accelerates assertion of the first pulse in response to assertion of the second pulse and accelerates deassertion of the first pulse in response to deassertion of the second pulse.

Abstract: A filtered command port architecture for a memory array is disclosed. A command controller is directly connected to the memory array and receives command instructions from an external microprocessor via an address and data bus. A command clock is used to latch commands from the data bus into a command decoder. A timing signal is used to filter incoming signals from the data bus which are asserted for less than a predetermined amount of time. A state decoder then tracks a sequence of commands from the command decoder and performs an appropriate action in response to the commands.

Abstract: A non-volatile data storage unit having a data input and a volatile memory device for storing data. The volatile memory device is preferably a latch circuit made up of a pair of cross-coupled inverter circuits which store the data in complementary form. A non-volatile memory device, such as a pair of flash memory cells, is included which also store data in complementary form. Control circuitry is provided for controlling the operation of the data storage unit, including circuitry for transferring data from the data input to the volatile memory device and circuitry for programming the non-volatile memory device with data from the volatile memory device. The storage unit also preferably includes circuitry for transferring data stored in the non-volatile memory device to the volatile memory device, with such transfer typically taking place after an interruption of power to the storage unit.

Abstract: A circuit which responds to an external standby command (a transition in a chip enable signal from an external device) by generating a delayed internal standby signal. The internal standby signal functions by switching selected components of the circuit (such as address buffers) from an active mode to a standby mode. In preferred embodiments, the circuit is a memory circuit implemented as an integrated circuit. The amount of the delay in generating the delayed internal standby signal is selected to achieve a desired decreased average response time to a sequence of commands (such as memory access commands) without excessive power consumption. In embodiments in which the circuit is a memory chip (such as a flash memory chip) having address access time in the range from 60 ns to 80 ns, the delay typically is from about 100 ns to about 200 ns.

Abstract: A method for verifying the status of selected nonvolatile memory cells of an integrated memory circuit, such as during a memory erase or programming operation, and an integrated nonvolatile memory circuit including circuitry for performing this verification method. Preferably, the invention employs simple logic circuitry including a flip-flop to assert successful verification data only in response to a continuous validity of a verification signal throughout a sampling period, thereby avoiding false assertion of successful verification data. The sampling period is preferably longer than the expected duration of fluctuations due to noise in the verification signal. During the sampling period of a verification operation, the logic circuitry receives a raw verification signal indicative of the instantaneous relation between a measured threshold voltage of a selected memory cell and a reference voltage.