Register File with low power retention mode and 3 speed options
You are here:
Over-voltage Protection Module to handle up to 5.5 V using standard process 3.3 V devices - High temperature (Grade 1, Tj=150�)
Dolphin Design provides a complete Power Management IPs platform, toward three objectives:
To standardize and ease Power Regulation Network integration
To enable diverse optimizations
To reduce Time-to-Market
To avoid expensive solutions, such as additional mask layer or external regulators, the library features a cost effective alternative with a set of Over-voltage Protection Modules (OPM). These companions for regulators enable over-voltage operation while using standard process 1.8 V devices.
The OPM-Angel-AR-LP is optimized to be used for retention mode in low power applications.
Applicable to automotive, industrial.
Designed for extended mission profile (aging report available)
To standardize and ease Power Regulation Network integration
To enable diverse optimizations
To reduce Time-to-Market
To avoid expensive solutions, such as additional mask layer or external regulators, the library features a cost effective alternative with a set of Over-voltage Protection Modules (OPM). These companions for regulators enable over-voltage operation while using standard process 1.8 V devices.
The OPM-Angel-AR-LP is optimized to be used for retention mode in low power applications.
Applicable to automotive, industrial.
Designed for extended mission profile (aging report available)
查看 Over-voltage Protection Module to handle up to 5.5 V using standard process 3.3 V devices - High temperature (Grade 1, Tj=150�) 详细介绍:
- 查看 Over-voltage Protection Module to handle up to 5.5 V using standard process 3.3 V devices - High temperature (Grade 1, Tj=150�) 完整数据手册
- 联系 Over-voltage Protection Module to handle up to 5.5 V using standard process 3.3 V devices - High temperature (Grade 1, Tj=150�) 供应商
Block Diagram of the Over-voltage Protection Module to handle up to 5.5 V using standard process 3.3 V devices - High temperature (Grade 1, Tj=150�)
