Patent application number | Description | Published |
20080238439 | Methods of testing fuse elements for memory devices - A method of testing a fuse element for a memory device is provided. A first test probe is electrically connected to a program terminal of the memory device. A second test probe is electrically connected to a ground terminal. The fuse element is on an electrical circuit path between the program terminal and the ground terminal. The first and second test probes are electrically connected to a testing device. A first voltage is applied with the testing device between the program terminal and the ground terminal. At least part of a first current of the first voltage flows across the fuse element. The first voltage and the at least part of the first current that flows across the fuse element is not large enough to change the conductivity state of the fuse element. The first current is measured and used to evaluated the conductive state of the fuse element. | 10-02-2008 |
20110007542 | TESTING ONE TIME PROGRAMMING DEVICES - A one time programming (OTP) memory array is divided into a user section and a test section. The cells in the user section and in the test section are configured to form a checkerboard pattern, that is, having repeats of one user cell and one test cell in both column and row directions. Programming the test section and various additional tests are performed to both the user and test sections and other circuitry of the memory array while the user section is not programmed. Even though the OTP user section is not programmed or tested, the provided tests in accordance with embodiments of the invention can provide a very high probability that the OTP memory including the user section is of high quality, i.e., the OTP cells in the user section can be programmed and function appropriately. | 01-13-2011 |
20110026354 | CURRENT LEAKAGE REDUCTION - An OTP memory array includes a bit line coupled to a plurality of memory banks. Each memory bank includes a plurality of memory cells, a footer, and a bias device, and is associated with a current mirror. When a memory cell is activated (e.g., for reading) the memory bank including the activated memory cell is referred to as an activated memory bank and other banks are referred to as deactivated memory banks. A current tracking device serves to compensate for bit line leakage current in deactivated memory cells in the activated memory bank. Further, footers and bias devices in deactivated memory banks and associated current mirrors are configured to reduce/eliminate bit line current leakage through deactivated memory cells in deactivated memory banks. | 02-03-2011 |
20120320700 | CURRENT LEAKAGE REDUCTION - This description relates to a circuit including a bit line. The circuit further includes at least one memory bank. The at least one memory bank includes at least one memory cell, a first device configured to provide a current path between the bit line and the at least one memory cell when the at least one memory cell is activated, and a second device configured to reduce current leakage between the bit line and the at least one memory cell when the at least one memory cell is deactivated. The circuit further includes a tracking device configured to receive a minor current substantially equal to a current along the current path, the tracking device configured to have a resistance substantially equal to a cumulative resistance of all memory cells of the at least one memory cell. | 12-20-2012 |