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A Novel Low-Warpage Hyper RDL (HRDL) Interposer Enabled by Low Temperature Hybrid Bonding for Advanced Packaging Applications

Yuan-Chiu Huang, Yu-Xian Lin, Chien-Kang Hsiung, Yu-Tao Yang, Tzu‐Heng Hung, Kuan‐Neng Chen

2024IEEE Electron Device Letters14 citationsDOI

Abstract

To minimize warpage in the multilayer-RDL interposers, a novel approach called hyper RDL (HRDL) is proposed. The HRDL utilizes a low temperature hybrid bonding method to stack RDL layers, reducing the warpage by at least 20X as compared to the conventional semi-additive processes (SAP). The HRDL based on polymer-based hybrid bonding was demonstrated as low as 180 °C under atmosphere with a bonding strength of 47.83 kgf/cm2. Both the thermal cycling of 1000 cycles and the un-biased highly accelerated stress test of 168 hours showed less than 1.5% change in electrical resistance. The HRDL process flow is designed to ensure reasonable running costs without the need for polymer chemical mechanical planarization (CMP). This innovative approach leads to a low-warpage RDL interposer platform for advanced packaging applications.

Topics & Concepts

InterposerChemical-mechanical planarizationMaterials scienceTemperature cyclingStack (abstract data type)Stress (linguistics)PolymerElectronic packagingThermalElectronic engineeringComposite materialOptoelectronicsLayer (electronics)Computer scienceEtching (microfabrication)EngineeringPhysicsLinguisticsProgramming languagePhilosophyMeteorology3D IC and TSV technologiesElectronic Packaging and Soldering TechnologiesNanofabrication and Lithography Techniques
A Novel Low-Warpage Hyper RDL (HRDL) Interposer Enabled by Low Temperature Hybrid Bonding for Advanced Packaging Applications | Litcius