Manufacturer Part Number
FPF2496UCX
Manufacturer
onsemi
Introduction
FPF2496UCX by onsemi is a versatile power distribution switch designed for Power Management (PMIC) applications, tailored for load drivers within various electronic devices.
Product Features and Performance
Slew Rate Controlled to minimize inrush current.
Status Flag for real-time status monitoring.
IntelliMAX™ technology for advanced power management.
Current Limiting (Adjustable) for enhanced protection.
Over Temperature, Over Voltage, Reverse Current, UVLO (Under Voltage Lock Out) for comprehensive fault protection.
Product Advantages
Advanced fault protection enhances device longevity.
Integrated IntelliMAX™ technology for efficient power distribution.
Compact 9-WLCSP (1.22x1.22) packaging saves space on PCB.
Slew Rate Control improves system reliability by reducing inrush current impact.
Key Technical Parameters
General Purpose Switch Type.
Voltage Load: 3.5V ~ 5.5V.
Current Output (Max): 2.5A.
Rds On (Typ): 100mOhm.
Operating Temperature: -40°C ~ 85°C (TA).
Quality and Safety Features
Comprehensive fault protection features including Current Limiting (Adjustable), Over Temperature, Over Voltage, and more.
Built to operate reliably within a wide range of temperatures (-40°C ~ 85°C).
Compatibility
Surface Mount technology for compatibility with modern PCB designs.
Compatible with devices requiring precise power distribution and fault protection.
Application Areas
Consumer Electronics.
Portable Devices.
IoT Devices.
Power Management Systems.
Product Lifecycle
Product Status: Active.
Continuously supported, with no current indication of discontinuation.
Availability of replacements or upgrades if necessary.
Several Key Reasons to Choose This Product
onsemi's reputation for reliable and high-quality components.
IntelliMAX™ technology optimizes power distribution efficiency.
Compact size suitable for portable and space-constrained applications.
Advanced fault protection features safeguard against common power-related failures.
Slew Rate Controlled feature significantly reduces the risk of damaging inrush currents.