At VisionPower Semiconductor Manufacturing Company (VSMC), we are committed to protecting our intellectual property — including proprietary semiconductor designs, fabrication processes, software, and technical know-how. This policy ensures we maintain our competitive edge, comply with legal requirements, and handle sensitive technologies responsibly.
Any unauthorized use, disclosure, or theft of VSMC’s IP will be investigated and may result in disciplinary action, legal proceedings, or criminal prosecution. Whistleblower protections are in place to encourage the safe reporting of any suspected misuse.
A mixed-signal process integrating automotive bipolar, CMOS, and DMOS transistors on one chip, optimized for efficient, high-current operation and power management. With low Rsp, it enables compact designs while ensuring robustness and long-term reliability.
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A specialized semiconductor process integrating bipolar, CMOS, and DMOS transistors on a single chip. Enabling high-voltage and analog functions alongside digital logic, widely used in PMICs, it offers a strong balance of performance, integration, and efficiency.
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A power-optimized semiconductor process designed for energy-efficient operation in compact, battery-powered devices. It reduces power consumption in always-on modes, extends battery life, and supports advanced functionality in IoT environments.
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A reliable embedded non-volatile memory (NVM) platform built on a 40nm CMOS process. eSF3 enables secure, low-power, and high-performance data storage for advanced embedded systems across automotive, industrial, and IoT markets. It provides excellent endurance, fast read/write speeds, and robust data retention for mission-critical applications.
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A 40nm BCD process integrating bipolar, CMOS, and DMOS transistors on a single chip, supporting high-voltage components (5V–28V) ideal for PMICs. Compatible with Ultra-Low Power (ULP) processes, it suits mobile, IoT, and automotive applications.
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Resistive RAM (ReRAM) is a non-volatile memory technology that retains data without power, using a metal-insulator-metal (MIM) structure with resistive switching. It offers low power consumption, fast write/read speeds, and compact cell size, making it ideal for energy-sensitive and high-performance applications. ReRAM supports advanced computing architectures while providing secure, efficient storage solutions for embedded systems, mobile devices, and connected environments.
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