Manufacturer Part Number
AUR6110GH
Manufacturer
diodes
Introduction
The AUR6110GH is a high-efficiency, synchronous, step-down DC-DC converter that provides a regulated output voltage from a wide input voltage range. It features an integrated high-side and low-side MOSFET, as well as advanced current-mode control, allowing for simple external component count and high efficiency across a wide load range.
Product Features and Performance
Wide input voltage range: 4.5V to 18V
Integrated high-side and low-side MOSFETs
Current-mode control for fast transient response
Adjustable output voltage from 0.8V to 12V
Switching frequency up to 2.2MHz
High efficiency up to 95%
Cycle-by-cycle current limit and thermal shutdown protection
Available in a compact 3mm x 3mm TSOT23-6 package
Product Advantages
High efficiency and wide input voltage range for versatile power conversion applications
Integrated power MOSFETs and current-mode control simplify design and reduce external component count
Small package size for space-constrained designs
Robust protection features for reliable operation
Key Reasons to Choose This Product
Excellent power conversion efficiency to maximize system power and thermal performance
Compact, integrated design simplifies board layout and reduces overall solution size
Reliable operation with comprehensive protection features
Flexibility to support a wide range of input voltage and output power requirements
Quality and Safety Features
Robust overcurrent and thermal protection
Designed and manufactured to high quality standards
Compatibility
The AUR6110GH is compatible with a wide range of electronic devices and systems that require a regulated DC power supply within its input voltage and output power capabilities.
Application Areas
Portable electronics
Industrial and commercial equipment
Home appliances
Automotive electronics
Product Lifecycle
The AUR6110GH is an obsolete product, meaning it is no longer in active production. Customers are advised to contact our website's sales team for information on available alternative or equivalent models that may better suit their current design requirements.
