Abstract: An input buffer receiver circuit for electronic devices (e.g., memory chips) to receive and process reduced-swing and high bandwidth inputs to obtain “buffered” output signals therefrom with symmetrical rising and falling delays, and without additional current dissipation over previous receiver circuits, is disclosed. The receiver circuit may include two stages of differential amplifier pairs (i.e., a total of 4 separated differential amplifiers). The differential amplifiers in the first stage convert the single-ended input signal to a full-differential signal, which is then converted back to a single-ended output signal by the differential amplifier pair in the second stage. The output of a P-diff first stage may be connected to the input of an N-diff second stage and the output of an N-diff first stage may be connected to the input of a P-diff second stage thereby creating a “cross” coupled structure.

Abstract: An isolation circuit, comprising a first transistor having a gate, a first source/drain terminal, and a second source/drain terminal, a first pad coupled to the gate of the first transistor, the first pad operable to receive an enable signal, a second pad coupled to the first source/drain of the first transistor, the second pad operable to receive a ground potential, a first fuse device coupling the second source/drain terminal to a node, a second fuse device coupling the node to the first pad, a third pad operable to receive a signal to be applied to at least one die, and a second transistor operable to selectively transfer the signal received at the third pad to the at least one die in response to a control signal provided by the node.

Abstract: In a multi-bank memory system such as a synchronous dynamic random access memory (SDRAM), a method of writing data to the banks is provided. This method allows for writing to any number of banks. More particularly, this method allows for writing to a selected number of banks between one and all banks. In addition, the method retains the discrete nature of the selected banks by allowing any row in each bank to be accessed regardless of the rows activated in other banks. As a result, rows of different memory banks that are intended to store similar data may be accessed simultaneously for purposes of writing the data in test and non-test modes. This allows for quicker writing to the SDRAM without the errors that may be created by other fast writing modes, such as data compression.

Abstract: An isolation circuit includes a first pad adapted to receive a control signal and a second pad adapted to receive another signal. A third pad is coupled to a microelectronic die and a device is provided to transfer the other signal from the second pad to the third pad in response to the control signal.

Abstract: A low-current input buffer is disclosed. The buffer uses self-biased N and P channel differential pairs with their outputs tied together. The self-biasing assists in reducing current consumption. The combination of N and P-channel differential pairs results in symmetry across a wide range of reference and supply voltages.

Abstract: In a memory device, an on-die register is provided that is configured to store a row address as well as a column address of a memory cell that fails a test. Storing the row address frees testing from being limited to activating at one time only rows related to a common redundant segment. Storing the row address also guides repair using segmented redundancy. As an addition or alternative, information may be stored in an anti-fuse bank that is designed to provide access to a redundant cell but has not yet enabled access to that cell. If the information stored in the anti-fuse bank relates to the failure of the redundant cell, such information may be used to avoid repairing with that redundant cell.

Abstract: A low-current input buffer is disclosed. The buffer uses self-biased N and P channel differential pairs with their outputs tied together. The self-biasing assists in reducing current consumption. The combination of N and P-channel differential pairs results in symmetry across a wide range of reference and supply voltages.

Abstract: As part of anti-fuse circuitry for a memory device, a preferred exemplary embodiment of the current invention provides a direct connection between an anti-fuse and a contact pad used to provide voltage to that anti-fuse. The contact pad also serves as a voltage source for at least one other part of the memory device. At least one circuit coupled to the anti-fuse is temporarily isolated from it in the event that a voltage present at the pad would damage the circuit or cause the circuit to improperly read the status of the anti-fuse. The contact pad is available during a probe stage of the in-process memory device, but once the device is packaged, access to that contact pad is prevented. At the backend of the production process, the anti-fuse may be accessed through a second pad, whose electrical communication with the anti-fuse is regulated.

Abstract: An isolation circuit includes a first pad adapted to receive a control signal and a second pad adapted to receive another signal. A third pad is coupled to a microelectronic die and a device is provided to transfer the other signal from the second pad to the third pad in response to the control signal.

Abstract: An apparatus and method using a reduced number of fuses for enabling redundant memory blocks in a semiconductor memory is disclosed. In one embodiment, a redundancy selection module may be configured using selection fuses, wherein each selection fuse selects a pair of repair modules. In another embodiment, a redundancy selection module may be configured using selection fuses, wherein each selection fuse may select a power of two (i.e., 1, 2, 4, 8, etc.) number of repair modules. Each repair module includes fuses programmed with a selected address, such that the repair module may respond when an address input matches the selected address. However, the Least Significant Bit (LSB) is uninvolved in the address programming. Instead, the LSB is compared to the values of the selection fuses. As a result, repair modules select a redundant memory block based on a combination of the selected address comparison and the separate LSB comparison.

Abstract: An input buffer having differential amplifiers for receiving input signals to generate an output signal. The input buffer operates with a relatively low supply voltage and a relatively wide range of input signal levels while improving the symmetry between rising and falling signal transitions of the output signal.

Abstract: A method and apparatus for improving time between row address latching and column address latching (tRCD) by allowing the pull-up of the IO lines during a READ burst to end upon the firing of a column access signal rather than waiting for the next clock signal of the READ operation. A latch is set during the active command in order to set a node voltage which allows the IO pull-up signal to end upon the firing of the column access signal. The invention allows improvement in tRCD parameter, and allows digit line pairs to separate without unwanted line sharing with the IO lines prior to reading of the first bit of a data burst. The result is a more accurate and error-free read of a first bit of data during a READ sequence.

Abstract: In a multi-bank memory system such as a synchronous dynamic random access memory (SDRAM), a method of writing data to the banks is provided. This method allows for writing to any number of banks. More particularly, this method allows for writing to a selected number of banks between one and all banks. In addition, the method retains the discrete nature of the selected banks by allowing any row in each bank to be accessed regardless of the rows activated in other banks. As a result, rows of different memory banks that are intended to store similar data may be accessed simultaneously for purposes of writing the data in test and non-test modes. This allows for quicker writing to the SDRAM without the errors that may be created by other fast writing modes, such as data compression.

Abstract: There is provided a reduced current input buffer circuit. More specifically, in one embodiment, there is provided an input buffer circuit comprising an input buffer that is adapted to draw an operating current, means for providing a first portion of the operating current to the input buffer, and means for providing a second portion of the operating current to the input buffer if the input buffer is expecting data.

Abstract: A method and apparatus for reducing the duty cycle distortion of a periodic signal in high speed devices. More specifically, there is provided a device having a switching point modulation circuit coupled to input logic and configured to modulate the periodic output signal from the input logic such that the periodic output signal is centered about a known voltage signal, such as a switching point voltage signal.

Abstract: A method and apparatus for reducing the duty cycle distortion of a periodic signal in high speed devices. More specifically, there is provided a device having a switching point modulation circuit coupled to input logic and configured to modulate the periodic output signal from the input logic such that the periodic output signal is centered about a known voltage signal, such as a switching point voltage signal.

Abstract: A low-current input buffer is disclosed. The buffer uses self-biased N and P channel differential pairs with their outputs tied together. The self-biasing assists in reducing current consumption. The combination of N and P-channel differential pairs results in symmetry across a wide range of reference and supply voltages.

Abstract: An apparatus and method using a reduced number of nonvolatile programming elements for enabling redundant memory blocks in a semiconductor memory is disclosed. A redundancy selection module may be configured using N fuses to configure and select 2N-1 repair modules. Programming fuses effectively separates the repair modules into two sets, those with an even address and those with an odd address. Each repair module contains fuses programmed with a selected address, such that the repair module may respond when an address input matches the selected address. However, the least significant bit is left out of the programming. As a result, repair modules in the even set respond to even addresses matching the selected address and repair modules in the odd set respond to odd addresses matching the selected address. Similar arrangements may be used to reduce the number of enable fuses and disable fuses required for each repair module.

Abstract: A semiconductor wafer or other bulk semiconductor substrate having a plurality of dice thereon is manufactured using conventional processing techniques. The wafer is subjected to testing to identify functional and nonfunctional dice. The locations of the functional dice are analyzed to determine the location of immediately adjacent or closely proximate functional dice. A group of functional dice is identified and an interconnection circuit is formed therebetween. The functional die group, once interconnected, is then segmented from the wafer while maintaining the unitary integrity of the functional die group as well as the associated interconnections between dice. Modules including one or more functional die groups and methods of fabricating functional die groups and modules are also disclosed.

Abstract: Some embodiments of the invention include an input buffer having multiple differential amplifiers for receiving input signals to generate an output signal. The input buffer operates in a relatively low supply voltage and a relatively wide range of signal levels of the input signals while improving the symmetry between rising and falling signal transitions of the output signal. Other embodiments are described and claimed.