Title :
Signal margin analysis for DRAM sense amplifiers
Abstract :
The sense amplifier (SA) design and the bit line architecture determine the minimum detectable signal limit for a dynamic random access memory (DRAM) cell readout operation. Increasing memory sizes, smaller feature sizes and lower operating voltages make it more important to understand the cell signal sensing operation, the signal of memory cells and the limiting factors. This paper presents a measurement method to evaluate the signal created by the memory cell and the sense amplifier uniformity at product level. Measurements of the sense amplifier offset distribution and sense amplifier signals for 0´s and 1´s for all memory cells will be presented. Spatial analysis gives further insight into the sensing limitations. This can be used to improve the circuit modeling of the sense amplifier and to simulate process variations. The results for a 64Mbit 0.19 μm memory device will be shown, having a sense amplifier imbalance
Keywords :
DRAM chips; cellular arrays; integrated circuit modelling; pulse amplifiers; 0.19 micron; 64 Mbit; DRAM sense amplifiers; amplifier uniformity; bit line architecture; cell readout operation; cell signal sensing; circuit modeling; feature sizes; memory sizes; minimum detectable signal limit; offset distribution; operating voltages; process variations; signal margin analysis; spatial analysis; DRAM chips; Distributed amplifiers; Operational amplifiers; Random access memory; Sea measurements; Signal analysis; Signal detection; Testing; Topology; Voltage;
Conference_Titel :
Electronic Design, Test and Applications, 2002. Proceedings. The First IEEE International Workshop on
Conference_Location :
Christchurch
Print_ISBN :
0-7695-1453-7
DOI :
10.1109/DELTA.2002.994600
