

Alpha and Omega Semiconductor, Inc.
AOZ1360DIL
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AOZ1360DIL Description
AOZ1360DIL Description
The AOZ1360DIL from Alpha & Omega Semiconductor Inc. is a high-side power distribution switch designed for general-purpose load switching applications. This surface-mount P-channel MOSFET-based switch operates with a 1:1 input-to-output ratio and supports a load voltage range of 5.5V to 28V, making it suitable for a variety of power management tasks. With an ultra-low Rds(On) of 22mOhm (typical), it minimizes power loss and improves efficiency in demanding circuits. The device is housed in a compact 10DFN package and is available in Tape & Reel (TR) packaging for automated assembly.
AOZ1360DIL Features
- Slew Rate Controlled: Ensures smooth switching transitions, reducing EMI and voltage spikes.
- Integrated Protection: Includes adjustable current limiting, over-temperature shutdown, and UVLO (Under-Voltage Lockout) for robust fault protection.
- No External Supply Needed: Operates without requiring a separate Vcc/Vdd supply, simplifying design.
- High-Side Configuration: Ideal for applications where ground isolation is critical.
- RoHS3 & REACH Compliant: Meets environmental and regulatory standards.
- Low On-Resistance: 22mOhm Rds(On) enhances efficiency and thermal performance.
AOZ1360DIL Applications
- Hot-Swap & Power Sequencing: Safely manages inrush current in server and telecom systems.
- USB Power Distribution: Protects ports from overcurrent in hubs and docking stations.
- Industrial Automation: Reliable load switching in PLCs and motor control circuits.
- Battery-Powered Devices: Efficient power routing in portable electronics and IoT devices.
- Automotive Systems: Suitable for 12V/24V load switching with built-in fault protection.
Conclusion of AOZ1360DIL
The AOZ1360DIL stands out for its low Rds(On), integrated protections, and slew rate control, making it a superior choice for power distribution in space-constrained, high-efficiency designs. Its wide voltage range and no-supply operation reduce BOM complexity, while its industrial-grade robustness ensures reliability in harsh environments. Engineers designing power switches for computing, automotive, or industrial systems will find this device an optimal solution for safe, efficient load management.



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