Research & Development
JP SCIENCE leads the future through advanced science and technology. Our innovative research and development creates new industry standards.
Current Research Project
Insulating Bonding Wire Coating Technology Development Milestones
Research Overview
JP SCIENCE is conducting research on coating methods and coating materials for high-performance Insulating Bonding Wire used in semiconductor packaging processes.
Our goal is to improve the insulation properties and durability of wires and provide optimized solutions for high-density semiconductor products.
Key Research Objectives
- Development of high-efficiency insulation coating materials
- Process optimization for uniform coating thickness
- Improved durability in high-temperature environments
- Development of coating technology for fine pitch applications
Research Milestones
| Phase | Research Content | Period | Progress |
|---|---|---|---|
| Phase 1: Coating Material Selection | Analysis of various insulation material properties and optimal material selection | Jul 2024 ~ Sep 2024 | Completed |
| Phase 2: Coating Method Development | Process development and optimization for uniform coating | Oct 2024 ~ Jan 2025 | In Progress (80%) |
| Phase 3: Property Evaluation | Evaluation of electrical, mechanical, and thermal properties of coated wires | Feb 2025 ~ Apr 2025 | Scheduled |
| Phase 4: Reliability Testing | Long-term reliability testing under various environmental conditions | May 2025 ~ Jul 2025 | Scheduled |
| Phase 5: Mass Production Technology Development | Process optimization for mass production and quality management system establishment | Aug 2025 ~ Dec 2025 | Scheduled |
R&D Timeline
JP SCIENCE's innovative research journey
2023
Defect control-based single cell selection memory dual-function selector-only memory device fundamental technology research (Feb 2023 ~ Jan 2026)
High-speed/low-power/high-reliability 2-terminal field-free SOT-MRAM fundamental technology development and IP acquisition (Apr 2023 ~ Dec 2027)
2021
Multi-level brain function mimicking device using magnetic skyrmions (Apr 2021 ~ Dec 2023)
High-stretchability energy harvesting anode material and property fundamental technology research for self-charging implantable medical devices (Mar 2021 ~ Feb 2024)
2019
Large-area/integrable complementary SOT-MTJ structure-based ultra-low power unit cell reconfigurable spin logic device fundamental technology (Jun 2019 ~ Dec 2021)
2017
3D stacked cross-bar vertical spin-torque magnetoresistive memory integration and application technology research (Mar 2017 ~ Feb 2020)
2016
1D fiber-based energy harvesting clothing research operated by human body movement (Dec 2016 ~ Nov 2017)
Forming-free a-C:Ox based ReRAM fundamental technology development (Oct 2016 ~ Sep 2021)
Neuron device and system fundamental technology development mimicking nerve cells using nanoelectronic device technology (Aug 2016 ~ Jul 2021)