Abstract: An integrated circuit includes a first external pin and an input buffer connected to the first external pin. The input buffer includes an output terminal and a first test mode input terminal adapted to disable the output terminal in response to a first test mode signal. A method for testing an integrated circuit, the integrated circuit including a first external pin and an input buffer, includes providing a first external input signal to the first external pin at a first specified time, and disabling the input buffer at a second specified time after the first specified time.

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: A booting circuit, used during antifuse programming, that has a clamping circuit designed to prevent a programming voltage from being unnecessarily limited by other components in an integrated circuit. The booting circuit is connected between an external interface, such as a bond pad, and an internal line, and is activated when the programming voltage is being applied directly to the internal line (i.e., not through the external interface). When activated, the clamping circuit allows a suitable and sufficiently high voltage to be applied to the internal line to properly program the antifuses while also clamping the amount of voltage seen at the external interface.

Abstract: A booting circuit, used during antifuse programming, that has a clamping circuit designed to prevent a programming voltage from being unnecessarily limited by other components in an integrated circuit. The booting circuit is connected between an external interface, such as a bond pad, and an internal line, and is activated when the programming voltage is being applied directly to the internal line (i.e., not through the external interface). When activated, the clamping circuit allows a suitable and sufficiently high voltage to be applied to the internal line to properly program the antifuses while also clamping the amount of voltage seen at the external interface.

Abstract: An open digit line memory device includes a memory array. The memory array includes a plurality of memory cells. The memory cells are grouped into sub-arrays. Each of the sub-arrays includes a plurality of digit lines. The digit lines from adjacent sub-arrays connect to a plurality of sense amplifiers. The sense amplifiers located next to the edges of the memory array connect to dummy digit lines. The dummy digit lines are connected to a fixed voltage during a normal mode. During a test mode, the fixed voltage is replaced by a variable voltage so that the all of the sub-arrays, including the sub-arrays at the edges, can be equally stressed during the test mode.

Abstract: An improved input buffer circuit and method configured for voltage detection is provided that can facilitate use of a mid-level voltage for testing purposes. An exemplary input buffer configured for voltage detection comprises a reference generator and a multi-state detector. The reference generator is configured to generate at least two reference voltages to be provided as input signals to the multi-state detector. The multi-state detector is suitably configured to receive an input reference signal, and through comparison of the input reference signal to the two reference voltages, provide output signals to three output terminals representing a high, low and mid-level state of operation. An exemplary input buffer circuit can comprise two differential pairs of transistors configured in a back-to-back arrangement and sharing a common node, thus resulting in lower current requirements.

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: 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 back end of the production process, the anti-fuse may be accessed through a second pad, whose electrical communication with the anti-fuse is regulated.

Abstract: A dual mode, full density/half density SDRAM includes a refresh controller specifically adapted to refresh memory cells of the SDRAM in the half density mode at a rate that is significantly slower than the rate at which the memory cells are refreshed in the full density mode. In the half density mode, the refresh controller increments a counter at a rate that is half the rate the counter is incremented in the full density mode. A refresh trigger pulse, which initiates the refresh of the memory cells, is generated when the counter has incremented to one of a first counter stage in the full density mode and a counter stage two stages beyond the first counter stage in the half density mode. Circuitry is also provided for ignoring some auto-refresh commands applied to the SDRAM in the half density mode so that the memory cells are also refreshed less frequently in the auto-refresh mode.

Abstract: A power saving circuit disables input buffers for command and address signals during an auto-refresh of a DRAM. The input buffers are re-enabled at the end of the auto-refresh in a manner that does not cause spurious commands to be generated. The power saving circuit prevents spurious commands by biasing internal command signals to a “no operation” command whenever the input buffers for the command signals are disabled. The DRAM may also be placed in a mode in which it automatically transitions to a low power precharge mode at the end of the auto-refresh to further reduce power consumed by the DRAM.

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: 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: An input buffer receives an external input signal during an active mode and a low-power mode. The input buffer includes a switching system to switch the input buffer between multiple conductive paths such that current consumed by the input buffer during the low-power mode is substantially less than current consumed by the buffer during the active mode.

Abstract: An improved input buffer circuit and method configured for voltage detection is provided that can facilitate use of a mid-level voltage for testing purposes. An exemplary input buffer configured for voltage detection comprises a reference generator and a multi-state detector. The reference generator is configured to generate at least two reference voltages to be provided as input signals to the multi-state detector. The multi-state detector is suitably configured to receive an input reference signal, and through comparison of the input reference signal to the two reference voltages, provide output signals to three output terminals representing a high, low and mid-level state of operation. An exemplary input buffer circuit can comprise two differential pairs of transistors configured in a back-to-back arrangement and sharing a common node, thus resulting in lower current requirements.

Abstract: An open digit line memory device includes a memory array. The memory array includes a plurality of memory cells. The memory cells are grouped into sub-arrays. Each of the sub-arrays includes a plurality of digit lines. The digit lines from adjacent sub-arrays connect to a plurality of sense amplifiers. The sense amplifiers located next to the edges of the memory array connect to dummy digit lines. The dummy digit lines are connected to a fixed voltage during a normal mode. During a test mode, the fixed voltage is replaced by a variable voltage so that the all of the sub-arrays, including the sub-arrays at the edges, can be equally stressed during the test mode.

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 back end of the production process, the anti-fuse may be accessed through a second pad, whose electrical communication with the anti-fuse is regulated.

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: 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 back end of the production process, the anti-fuse may be accessed through a second pad, whose electrical communication with the anti-fuse is regulated.

Abstract: Systems, methods and apparatus for accessing integrated circuits, such as semiconductor memories and particularly in testing, by reducing the number of clock cycles required to apply sequences of command and address signals to a m-dimensional structure of such integrated circuit, such as a memory array. The system, methods and apparatus comprise structure and steps by which commands are issued responsive to external controls signals and commands are generated independent of such signals, such commands being communicated internal to the integrated circuit via separate data paths.