STGIPS30C60-H - STMicroelectronics

The STGIPS30C60-H is a cutting-edge Intelligent Power Module (IPM) from STMicroelectronics, designed for advanced motor drive applications. This high-performance module is part of STMicroelectronics' SLLIMM™ (Small Low-Loss Intelligent Molded Module) family, offering a compact and highly efficient solution for inverterized motor drives.

Key Features:

• Integrated IGBTs: The module incorporates state-of-the-art IGBTs with a low on-state voltage drop to ensure high efficiency and superior thermal performance.
• Advanced Gate Drivers: The built-in gate drivers are optimized for the IGBTs, providing excellent switching performance and protection features for enhanced reliability.
• Short-Circuit Ruggedness: The STGIPS30C60-H is designed to withstand short-circuit conditions, offering a robust solution for industrial environments.
• Over-Temperature Protection: With an integrated temperature sensor, the module can provide over-temperature protection, preventing damage from overheating.
• Isolation: The module features built-in isolation between the low-voltage and high-voltage sections, ensuring safe operation and simplifying system design.
• Compact Design: The SLLIMM™ package is engineered to minimize footprint and maximize power density, making it ideal for space-constrained applications.

Applications:

The STGIPS30C60-H is highly versatile and can be used in a variety of applications, including:

• AC Motor Drives
• Washing Machines
• Refrigerators
• Fans and Pumps
• Other Home Appliances

Technical Specifications:

The IPM operates with a supply voltage of up to 600V and features a 30A current rating. Its three-phase inverter design with IGBTs and an optimized gate driver circuit ensures efficient motor control in a wide range of operating conditions.

With its robust design, the STGIPS30C60-H from STMicroelectronics is a reliable and efficient solution for designers looking to improve the performance and efficiency of their motor drive systems, while reducing the overall system size and complexity.