Patent application number | Description | Published |
20110273949 | ELECTRICAL FUSE PROGRAMMING TIME CONTROL SCHEME - A circuit includes a fuse and a sensing and control circuit. The fuse is coupled between a MOS transistor and a current source node. The sensing and control circuit is configured to receive a programming pulse and output a modified programming signal to the gate of the MOS transistor for programming the fuse. The modified programming signal has a pulse width based on a magnitude of a current through the first fuse. | 11-10-2011 |
20120020177 | ELECTRICAL FUSE MEMORY - Some embodiments regard a memory array that has a plurality of rows and columns. A column includes a program control device, a plurality of eFuse memory cells in the column, a sense amplifier, and a bit line coupling the program control device, the plurality of memory cells in the column, and the sense amplifier. A row includes a plurality of eFuse memory cells in the row, a word line coupling the plurality of eFuse memory cells in the row, and a footer configured as a current path for the plurality of eFuse memory cells in the row. | 01-26-2012 |
20120038410 | CIRCUIT AND METHOD FOR CHARACTERIZING THE PERFORMANCE OF A SENSE AMPLIFIER - An integrated circuit includes a sensing circuit, a fuse box, and a fuse bus decoder. The sensing circuit includes an output node, and the fuse box includes a plurality of switches coupled in series with a plurality of resistive elements. The fuse box is coupled to the output node of the sensing circuit from which the fuse box is configured to receive a current. The fuse bus decoder is coupled to the fuse box and includes at least one demultiplexer configured to receive a signal and in response output a plurality of control signals for selectively opening and closing the switches of the fuse box to adjust a resistance across the fuse box. A voltage of the output node of the sense amplifier is based on a resistance the fuse box and the current. | 02-16-2012 |
20120057423 | ELECTRICAL FUSE MEMORY ARRAYS - Some embodiments regard a memory array that has a plurality of eFuse memory cells arranged in rows and columns, a plurality of bit lines, and a plurality of word lines. A column includes a bit line selector, a bit line coupled to the bit line selector, and a plurality of eFuse memory cells. An eFuse memory cell of the column includes a PMOS transistor and an eFuse. A drain of the PMOS transistor is coupled to a first end of the eFuse. A gate of the PMOS transistor is coupled to a word line. A source of the PMOS transistor is coupled to the bit line of the column. | 03-08-2012 |
20120086495 | VOLTAGE LEVEL SHIFTER - An input of a first inverter is configured to serve as an input node. An output of the first inverter is coupled to an input of a second inverter. An output of the second inverter is configured to serve as an output node. An input of a third inverter is coupled to an input of the first inverter. A gate of a first NMOS transistor is coupled to an output of the third inverter. A drain of the first NMOS transistor is coupled to the second inverter. A source of the first NMOS transistor is configured to serve as a level input node. When the input node is configured to receive a low logic level, the output node is configured to receive a voltage level provided by a voltage level at the level input node. | 04-12-2012 |
20120212993 | ONE TIME PROGRAMMING BIT CELL - A one time programming (OTP) memory cell includes a first transistor and a second transistor. The first transistor has a first drain, a first source, a first gate, and a first normal operational voltage value higher that a second normal operational voltage value of the second transistor. The second transistor has a second drain, a second source, and a second gate. The first source is coupled to the second drain. The second source is configured to detect data stored in the OTP memory cell. | 08-23-2012 |
20120257435 | NON-SALICIDE POLYSILICON FUSE - The embodiments of methods and structures disclosed herein provide mechanisms of forming and programming a non-salicided polysilicon fuse. The non-salicided polysilicon fuse and a programming transistor form a one-time programmable (OTP) memory cell, which can be programmed with a low programming voltage. | 10-11-2012 |
20130038375 | VOLTAGE LEVEL SHIFTER - A circuit includes a power switch and a level shifter. The level shifter has a node and an assistant circuit. The node is configured to control the power switch. The assistant circuitry is coupled to the node and configured for the node to receive a first voltage value through the assistant circuit. The first voltage value is different from a second voltage value of an input signal received by the level shifter. | 02-14-2013 |
20130039117 | ELECTRICAL FUSE BIT CELL - An electrical fuse (eFuse) bit cell includes a program transistor, a read transistor, and an eFuse. The program transistor has a first program terminal, a second program terminal, and a third program terminal. The read transistor has a first read terminal, a second read terminal, and a third read terminal. The eFuse has a first end and a second end. The first end, the first program terminal, and the second read terminal are coupled together. The read transistor is configured to be off and the program transistor is configured to be on when the eFuse bit cell is in a program mode. The program transistor is configured to be off and the read transistor is configured to be on when the eFuse bit cell is in a read mode. | 02-14-2013 |
20130100756 | ELECTRICAL FUSE MEMORY ARRAYS - A mechanism of reconfiguring an eFuse memory array to have two or more neighboring eFuse bit cells placed side by and side and sharing a program bit line. By allowing two or more neighboring eFuse bit cells to share a program bit line, the length of the program bit line is shortened, which results in lower resistivity of the program bit line. The width of the program bit line may also be increased to further reduce the resisivity of program bit line. Program bit lines with low resistance and high current are needed for advanced eFuse memory arrays using low-resistivity eFuses. | 04-25-2013 |
20130107603 | CIRCUIT AND METHOD FOR GENERATING A READ SIGNAL | 05-02-2013 |
20130155799 | ELECTRICAL FUSE MEMORY - A method of reading an eFuse in a column of eFuse memory cells includes electrically disconnecting a first end of the eFuse from a first electrical path. A second electrical path between a second end of the eFuse and a node is activated to bypass a third electrical path, where the third electrical path includes a diode device between the second end of the eFuse and the node. A footer coupled with the node is turned on. | 06-20-2013 |
20130221995 | SENSE AMPLIFIER - An amplifying circuit comprises a bias circuit, a reference circuit, a first circuit, and an amplifying sub-circuit. The bias circuit is configured to provide a bias current. The reference circuit is configured to provide a first differential input based on a reference resistive device and a reference current derived from the bias current. The first circuit is configured to provide a second differential input based on a first current and a first resistance. The amplifying sub-circuit is configured to receive the first differential input and the second differential input and to generate a sense amplifying output indicative of a resistance relationship between the first resistance and a resistance of the reference resistive device. | 08-29-2013 |
20130256801 | INTEGRATED CIRCUIT STRUCTURE TO RESOLVE DEEP-WELL PLASMA CHARGING PROBLEM AND METHOD OF FORMING THE SAME - During various processing operations, ions from process plasma may be transfer to a deep n-well (DNW) formed under devices structures. A reverse-biased diode may be connected to the signal line to protect a gate dielectric formed outside the DNW and is connected to the drain of the transistor formed inside the DNW. | 10-03-2013 |
20130262962 | MEMORY ERROR CORRECTION - In a method, by a first circuit, a plurality of bits is converted in a first format to a second format. By a second circuit, the plurality of bits in the second format is used to program a plurality of memory cells corresponding to the plurality of bits. The first circuit and the second circuit are electrically coupled together in a first chip. The plurality of bits is selected from the group consisting of 1) address information, cell data information, and program information of a memory cell that has an error; and 2) word data information of a first word and error code and correction information corresponding to the word data information of the first word. | 10-03-2013 |
20130272080 | METHOD AND APPARATUS FOR BIT CELL REPAIR - A method includes reading data from a subset of a plurality of memory bit cells of a non-volatile memory. The data identifies an address of at least one individual failed bit cell. The method further includes loading the data directly into a register, receiving an address of data to be accessed, determining if the received address is the address of any individual failed bit cell; and accessing the data of the register if the received address is the address of any individual failed bit cell. | 10-17-2013 |
20130301374 | WORD LINE DRIVER HAVING A CONTROL SWITCH - A word line driver including a control switch configured to receive a control signal, where the control switch is between a first node configured to receive an operating voltage signal and a second node configured to determine an output of the word line driver. The word line driver further includes a cross-coupled amplifier electrically connected to the second node. The word line driver further includes at least one inverter electrically connected to the cross-coupled amplifier. A semiconductor device including the word line driver and a memory array including at least one electronic fuse. | 11-14-2013 |
20140061851 | METAL-VIA FUSE - The embodiments of methods and structures disclosed herein provide mechanisms of forming and programming a metal-via fuse. The metal-via fuse and a programming transistor form a one-time programmable (OTP) memory cell. The metal-via fuse has a high resistance and can be programmed with a low programming voltage, which expands the programming window. | 03-06-2014 |
20140369105 | GENERATING OUTPUT SIGNAL DURING READ OPERATION - A circuit includes a fuse cell, a sense circuit and an output control circuit. The fuse cell includes an electrical fuse. The sense circuit is electrically coupled to the fuse cell and configured for generating a sense signal indicative of a programmed condition of the electrical fuse, at an output of the sense circuit. The output control circuit is electrically coupled to the output of the sense circuit, and the output control circuit is configured for latching the sense signal indicative of the electrical fuse having been programmed, during a read operation of the fuse cell. | 12-18-2014 |