Patent application number | Description | Published |
20090141577 | ANTI-FUSE REPAIR CONTROL CIRCUIT AND SEMICONDUCTOR DEVICE INCLUDING DRAM HAVING THE SAME - In an anti-fuse repair control circuit, a semiconductor memory device is integrated into a multi-chip package to perform an anti-fuse repair. An anti-fuse repair control circuit includes a data mask signal input circuit, a cell address enable unit a repair enable unit, and a repair unit. The data mask signal input circuit receives and outputs a data mask signal upon receiving a test control signal for an anti-fuse repair. The cell address enable unit receives an anti-fuse repair address to enable a cell address of an anti-fuse cell to be repaired upon receiving the data mask signal outputted from the data mask signal input circuit. The repair enable unit codes the cell address and output a repair enable signal and a drive signal according to whether or not an anti-fuse cell corresponding to the cell address is enabled. The repair unit supplies a repair voltage to the anti-fuse cell when the repair enable signal, the address, and the drive signal are enabled. | 06-04-2009 |
20100032669 | SEMICONDUCTOR INTEGRATED CIRCUIT CAPABLE OF CONTROLLING TEST MODES WITHOUT STOPPING TEST - A semiconductor integrated circuit capable of controlling test modes without stopping testing of the semiconductor integrated circuit is presented. The semiconductor integrated circuit includes a test mode control unit configured to produce, in response to address decoding signals, a plurality of test mode signals of a first group and a plurality of test mode signals of a second group. The test mode control unit selectively inactivates the test mode signals of the first group by providing a reset signal using the test mode signals of the second group. Therefore, the testing time of the semiconductor integrated circuit can be reduced by inactivating the previous test mode using the reset signal and by executing a new test mode without disconnecting the test mode state. | 02-11-2010 |
20100142299 | ANTI-FUSE REPAIR CONTROL CIRCUIT AND SEMICONDUCTOR DEVICE INCLUDING DRAM HAVING THE SAME - In an anti-fuse repair control circuit, a semiconductor memory device is integrated into a multi-chip package to perform an anti-fuse repair. An anti-fuse repair control circuit includes a data mask signal input circuit, a cell address enable unit a repair enable unit, and a repair unit. The data mask signal input circuit receives and outputs a data mask signal upon receiving a test control signal for an anti-fuse repair. The cell address enable unit receives an anti-fuse repair address to enable a cell address of an anti-fuse cell to be repaired upon receiving the data mask signal outputted from the data mask signal input circuit. The repair enable unit codes the cell address and output a repair enable signal and a drive signal according to whether or not an anti-fuse cell corresponding to the cell address is enabled. The repair unit supplies a repair voltage to the anti-fuse cell when the repair enable signal, the address, and the drive signal are enabled. | 06-10-2010 |
20100265784 | ADDRESS CONTROL CIRCUIT OF SEMICONDUCTOR MEMORY APPARATUS - An address control circuit for a semiconductor memory apparatus so as to make a refresh operation test possible by designating a refresh address is presented. The circuit includes a buffer block, a decoder, and a latch block. The buffer block receives coding information coded testing address information in accordance to a test signal. The decoder generates a test refresh address by decoding the coding information. The latch block latches the test refresh address depending on the test signal. | 10-21-2010 |
20110103165 | SELF-REFRESH TEST CIRCUIT OF SEMICONDUCTOR MEMORY APPARATUS - A self-refresh test circuit includes a test clock generation unit, a pulse generation unit, a period signal selection unit, and a self-refresh pulse control unit. The test clock generation unit divides a clock signal to generate a plurality of divided clock signals having different periods when a test enable signal is enabled, and outputs one of the plurality of divided clock signals as a selected clock signal. The pulse generation unit generates a test period signal in response to the selected clock signal. The period signal selection unit outputs one of the test period signal and a self-refresh period signal as a selected period signal. The self-refresh pulse control unit generates a self-refresh pulse in response to a self-refresh exit signal and the selected period signal. | 05-05-2011 |
Patent application number | Description | Published |
20090046524 | MULTI-COLUMN DECODER STRESS TEST CIRCUIT - The embodiments described herein are directed to providing a multi-column decoder stress test circuit capable of reducing a column stress test time while sufficiently performing a stress test by using column selection signals. The multi-column decoder stress test circuit comprising a control unit configured to receive at least one column test signal and to generate a multi-column enable signal, and a multi-enable decoding unit configured to receive the multi-column enable signal and to generate a plurality of enabled column selection signals. | 02-19-2009 |
20090046525 | WAFER BURN-IN TEST CIRCUIT - A wafer burn-in test circuit includes an address toggle signal generating unit for generating an address toggle signal in response to address signals having a constant time period, a reset signal generating unit for receiving a wafer burn-in mode activation signal, the address signals, and a reset determination signal among the address signals and then generating a reset signal, a refresh test mode signal generating unit for receiving the address toggle signal and the reset signal and then generating a refresh test mode signal, and a refresh period signal generating unit for receiving the address toggle signal and the refresh test mode signal and then generating a refresh period signal. | 02-19-2009 |
20090230986 | SEMICONDUCTOR INTEGRATED CIRCUIT, FUSE CIRCUIT FOR SEMICONDUCTOR INTEGRATED CIRCUIT AND CONTROL METHOD OF THE SAME - A fuse circuit for a semiconductor integrated circuit includes a control unit configured to activate a fuse set control signal in response to an external command signal, and a plurality of fuse sets, each configured so that power is supplied to internal fuses in response to the activation of the fuse set control signal. | 09-17-2009 |