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Robust hermetic wafer level thin-film encapsulation technology for stacked MEMS / IC package | IEEE Conference Publication | IEEE Xplore
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Robust hermetic wafer level thin-film encapsulation technology for stacked MEMS / IC package

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Y. Shimooka; M. Inoue; M. Endo; S. Obata; A. Kojima; T. Miyagi
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Abstract:

This paper reports a thin-film encapsulation technology for wafer level micro-electro-mechanical systems (MEMS) package, using poly-benzo-oxazole (PBO) sacrificial materi...Show More

Metadata

Abstract:

This paper reports a thin-film encapsulation technology for wafer level micro-electro-mechanical systems (MEMS) package, using poly-benzo-oxazole (PBO) sacrificial material and plasma enhanced chemical vapor deposited silicon oxide (PECVD SiO) cap layer. This technique, which is applicable for MEMS technologies, saves die size and enables conventional package processes such as dicing, picking, mounting and bonding. Besides the fabrication processes of the thin-film encapsulation, this paper also presents the results of finite element models (FEMs) for the deflection and the mechanical stress of the thin-film caps. Moreover, in order to mount a MEMS chip with the thin- film capsulations and another integrated circuit (IC) chip that controls a MEMS chip in the same package, we have also developed an epoxy reinforcement technique for protecting the thin-film encapsulations and a topography wafer thinning technique for the MEMS chip. And then the system in package (SiP) for the MEMS and IC chips is fabricated successfully based on the mechanical analysis of the SiP process.
Published in: 2008 58th Electronic Components and Technology Conference
Date of Conference: 27-30 May 2008
Date Added to IEEE Xplore: 24 June 2008
ISBN Information:

ISSN Information:

DOI: 10.1109/ECTC.2008.4550071
Conference Location: Lake Buena Vista, FL, USA
Citations are not available for this document.
Contents

Introduction

Since MEMS, such as various sensors and radio frequency (RF) actuators [1], [2], consist of movable parts and need to be operated in vacuum or controlled atmosphere, the conventional package techniques for large-scale integrated circuits (LSls) cannot be applied [3]. In many cases, as a MEMS chip, which needs to be controlled by another IC chip, is packaged using silicon or glass cap [4], , [6], it has been difficult to reduce the footprint on the printed circuit board (PCB) and assembly cost. To address these issues, we have developed the hermetic thin-film encapsulation structure fabricated by conventional back end of the line (BEOL) technologies of LSls as a wafer-level packaging (WLP). In this work, the fabrication processes and mechanical modeling results for thin-film encapsulations and the SiP [7] for MEMS and IC chips are shown for the fabrication of the multi-chip package (MCP).

Cites in Papers - |

Cites in Papers - IEEE (13)

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1.
Xiang Chen, Yan Liu, Xiyu Gu, Shengxiang Wang, Jiaqi Ding, Min Zeng, Cheam Daw Don, Yao Cai, Shishang Guo, Chengliang Sun, "A Robust Thin-Film Encapsulation for RF-MEMS With Aluminum Nitride/Molybdenum Cap", IEEE Sensors Journal, vol.25, no.1, pp.1323-1330, 2025.
Show Article
Google Scholar
2.
Anna Persano, Alvise Bagolini, Jacopo Iannacci, David Novel, Adriana Campa, Fabio Quaranta, "Low-Temperature Thin Film Encapsulation for MEMS With Silicon Nitride/Chromium Cap", IEEE Sensors Journal, vol.23, no.15, pp.16710-16720, 2023.
Show Article
Google Scholar
3.
Jae-Wung Lee, Srinivas Merugu, Ser Choong Chong, Jaibir Sharma, Navab Singh, "Evaluation of thin film encapsulation strength for commercial packaging", 2017 IEEE 19th Electronics Packaging Technology Conference (EPTC), pp.1-4, 2017.
Show Article
Google Scholar
4.
Honglin Zhang, Bing An, Chenxu Niu, "W2W wafer level vacuum packaging of MEMS devices using solder", 2015 16th International Conference on Electronic Packaging Technology (ICEPT), pp.354-358, 2015.
Show Article
Google Scholar
5.
Jaibir Sharma, Jae-Wung Lee, Srinivas Merugu, Navab Singh, "A Robust Bilayer Cap in Thin Film Encapsulation for MEMS Device Application", IEEE Transactions on Components, Packaging and Manufacturing Technology, vol.5, no.7, pp.930-937, 2015.
Show Article
Google Scholar
6.
Jae-Wung Lee, Jaibir Sharma, Srinivas Merugu, Navab Singh, "Etch-hole design in encapsulation for better robustness", 2014 IEEE 16th Electronics Packaging Technology Conference (EPTC), pp.42-45, 2014.
Show Article
Google Scholar
7.
Jae-Wung Lee, Jaibir Sharma, Srinivas Merugu, Navab Singh, "Robust Pop-Up Shape Encapsulation Using Dual-Sealing", Journal of Microelectromechanical Systems, vol.23, no.4, pp.765-767, 2014.
Show Article
Google Scholar
8.
Kang-Wook Lee, Yuki Ohara, Kouji Kiyoyama, Ji-Cheol Bea, Mariappan Murugesan, Takafumi Fukushima, Tetsu Tanaka, Mitsumasa Koyanagi, "Die-Level 3-D Integration Technology for Rapid Prototyping of High-Performance Multifunctionality Hetero-Integrated Systems", IEEE Transactions on Electron Devices, vol.60, no.11, pp.3842-3848, 2013.
Show Article
Google Scholar
9.
Y. Kurui, H. Yamazaki, Y. Shimooka, T. Saito, E. Ogawa, T. Ogawa, T. Ikehashi, Y. Sugizaki, H. Shibata, "A CMOS embedded RF-MEMS tunable capacitor for multi-band/multi-mode smartphones", 2012 IEEE 62nd Electronic Components and Technology Conference, pp.109-114, 2012.
Show Article
Google Scholar
10.
Kang-Wook Lee, Akihiro Noriki, Kouji Kiyoyama, Takafumi Fukushima, Tetsu Tanaka, Mitsumasa Koyanagi, "Three-Dimensional Hybrid Integration Technology of CMOS, MEMS, and Photonics Circuits for Optoelectronic Heterogeneous Integrated Systems", IEEE Transactions on Electron Devices, vol.58, no.3, pp.748-757, 2011.
Show Article
Google Scholar
11.
Kang-Wook Lee, Soichiro Kanno, Kouji Kiyoyama, Takafumi Fukushima, Tetsu Tanaka, Mitsumasa Koyanagi, "A Cavity Chip Interconnection Technology for Thick MEMS Chip Integration in MEMS-LSI Multichip Module", Journal of Microelectromechanical Systems, vol.19, no.6, pp.1284-1291, 2010.
Show Article
Google Scholar
12.
K-W Lee, S. Kanno, Y. Ohara, K. Kiyoyama, J-C. Bea, T. Fukushima, T. Tanaka, M. Koyanagi, "Heterogeneous integration technology for MEMS-LSI multi-chip module", 2009 IEEE International Conference on 3D System Integration, pp.1-6, 2009.
Show Article
Google Scholar
13.
D. Reuter, M. Nowack, M. Rennau, A. Bertz, M. Wiemer, F. Kriebel, T. Gessner, "Hermetic thin film encapsulation of mechanical transducers for smart label applications", TRANSDUCERS 2009 - 2009 International Solid-State Sensors, Actuators and Microsystems Conference, pp.208-211, 2009.
Show Article
Google Scholar

Cites in Papers - Other Publishers (2)

1.
Qing Zhang, Paul-Vahé Cicek, Frederic Nabki, Mourad El-Gamal, "Thin-film encapsulation technology for above-IC MEMS wafer-level packaging", Journal of Micromechanics and Microengineering, vol.23, no.12, pp.125012, 2013.
CrossRef Google Scholar
2.
Kang-Wook Lee, Mitsumasa Koyanagi, "Novel interconnection technology for heterogeneous integration of MEMS–LSI multi-chip module", Microsystem Technologies, vol.16, no.3, pp.441, 2010.
CrossRef Google Scholar
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