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Electrical Measurement of Ferroelectric Capacitors for Non-Volatile Memory Applications

Published online by Cambridge University Press:  16 February 2011

Norman Abt*
Affiliation:
National Semiconductor Corp., 2900 Semiconductor Dr., Santa Clara, CA, 95051
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Abstract

Modified lead titanate ferroelectdc thin films are currently utilized in conjunction with silicon CMOS technology for non-volatile memory applications. The electrical measurement of ferroelectric films has been common practice for many years but the parameters necessary for optimizing their use as memory have not been routinely recorded. Remanent polarization, spontaneous polarization and their change through fatigue and ageing are still the dominant parameters but the pulsing conditions of interest are driven by the circuit requirements. The operation of a memory circuit will be discussed along with implications for testing. Memory is written by applying a pulse to the capacitor. It is read by applying a pulse and sensing whether or not the polarization switched. Read and write pulses will apply different voltages to the ferroelectric capacitor in the circuit because a sense capacitor will be in series with it during the read. A new test, pulsed hysteresis, which is based on circuit operation will be presented. Parameter space of interest will also be discussed.

Type
Research Article
Copyright
Copyright © Materials Research Society 1990

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References

REFERENCES

[1] Franco, Jona. and Shirane, G., ”Ferroelectric Crystals,” Pergamon Press Inc., New York, (1962) or Fatuzzo, Ennio and Walter J. Merz, ”Ferroelectricity,” North-Holland Publishing Company, Amsterdam, (1967).Google Scholar
[2] Lines, M. E. and Glass, A. M., ”Principles and Applications of Ferroelectrics and Related Materials,” Clarendon Press, Oxford, p578579, (1977).Google Scholar
[3] “IEEE Standard Definitions of Primary Ferroelectric Terms,” ANSI/IEEE, Std 180- 1986, (1985).Google Scholar
[4] Kinney, ,Wayne, , et al, A Non-Volatile Memory Cell Based on Ferroelectric Storage Capacitor, IEDM, Dec, (1987).Google Scholar