Plasma Induced Damage Test Methodology applied to a 3D Vertical NAND Memory Technology
Plasma Induced Damage (PID) testing methodology is applied to a Vertical Floating-Gate 3D NAND Memory Technology with CMOS under Array (CuA) and detected lifetime effects are reported for the first time. Revealing Constant Current Stresses (CCS) at elevated temperature of 95°C are performed to ident...
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| Published in | 2023 IEEE International Integrated Reliability Workshop (IIRW) pp. 1 - 6 |
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| Main Authors | , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
08.10.2023
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| Subjects | |
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| Abstract | Plasma Induced Damage (PID) testing methodology is applied to a Vertical Floating-Gate 3D NAND Memory Technology with CMOS under Array (CuA) and detected lifetime effects are reported for the first time. Revealing Constant Current Stresses (CCS) at elevated temperature of 95°C are performed to identify process charging risks. The effect on transistor dielectric breakdown lifetimes from PID induced defects are quantified by a Constant Voltage Stress (CVS) test methodology and modeled by combining intrinsic and extrinsic failure distributions scaled by antenna size. To determine the voltage dependence of the early fails, more wafers are stressed at varying gate stress voltages. The tests show the same intrinsic power law voltage acceleration while for larger antennas the extrinsic branches increase with reduced gate stress voltage. The empirical bimodal TDDB model with added intrinsic/extrinsic power law terms for the gate stress voltage can describe the behavior with high accuracy. A physical model using the gate current voltage characteristics and the antenna area ratios as inputs is developed, which describes the behavior with good agreement. |
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| AbstractList | Plasma Induced Damage (PID) testing methodology is applied to a Vertical Floating-Gate 3D NAND Memory Technology with CMOS under Array (CuA) and detected lifetime effects are reported for the first time. Revealing Constant Current Stresses (CCS) at elevated temperature of 95°C are performed to identify process charging risks. The effect on transistor dielectric breakdown lifetimes from PID induced defects are quantified by a Constant Voltage Stress (CVS) test methodology and modeled by combining intrinsic and extrinsic failure distributions scaled by antenna size. To determine the voltage dependence of the early fails, more wafers are stressed at varying gate stress voltages. The tests show the same intrinsic power law voltage acceleration while for larger antennas the extrinsic branches increase with reduced gate stress voltage. The empirical bimodal TDDB model with added intrinsic/extrinsic power law terms for the gate stress voltage can describe the behavior with high accuracy. A physical model using the gate current voltage characteristics and the antenna area ratios as inputs is developed, which describes the behavior with good agreement. |
| Author | LaRow, Charles Beckmeier, Daniel Kerber, Andreas |
| Author_xml | – sequence: 1 givenname: Daniel surname: Beckmeier fullname: Beckmeier, Daniel email: daniel.beckmeier@intel.com organization: Intel Corporation,NAND Design, Technology & Manufacturing,Folsom,USA – sequence: 2 givenname: Charles surname: LaRow fullname: LaRow, Charles email: charles.larow@intel.com organization: Intel Corporation,NAND Design, Technology & Manufacturing,Folsom,USA – sequence: 3 givenname: Andreas surname: Kerber fullname: Kerber, Andreas email: andreas.kerber@intel.com organization: Intel Corporation,NAND Design, Technology & Manufacturing,Santa Clara,USA |
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| Snippet | Plasma Induced Damage (PID) testing methodology is applied to a Vertical Floating-Gate 3D NAND Memory Technology with CMOS under Array (CuA) and detected... |
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| SubjectTerms | antenna effect elevated temperature failure rate modeling gate charging Life estimation Logic gates memory technology PID Plasma temperature Plasmas reliability Semiconductor device modeling Sociology TDDB test methodology Three-dimensional displays |
| Title | Plasma Induced Damage Test Methodology applied to a 3D Vertical NAND Memory Technology |
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