Manufacturer Part Number
NID9N05CLT4G
Manufacturer
onsemi
Introduction
The NID9N05CLT4G is a power management integrated circuit (PMIC) designed by onsemi, focusing on power distribution switches and load drivers for automotive applications.
Product Features and Performance
Designed for relay and solenoid driving with a single N-channel output
Capable of handling load voltages up to 52V
Maximum output current of 9A
Low On-resistance of 90mOhm typical
Incorporates over-voltage fault protection
Can operate in extreme temperatures ranging from -55°C to 175°C
Features a non-inverting input type
Needs no external voltage supply (Vcc/Vdd) for operation
Product Advantages
High reliability and durability in automotive environments
Enhanced safety features with over-voltage protection
Optimal for high-temperature applications due to its wide operating temperature range
Low Rds enhances efficiency by reducing power loss
Direct drive capability without the need for external power supply
Key Technical Parameters
Voltage Load: 52V (Max)
Current Output (Max): 9A
Rds On (Typ): 90mOhm
Operating Temperature: -55°C to 175°C
Qualification: AEC-Q101
Quality and Safety Features
AEC-Q101 qualification assures automotive-grade reliability and quality
Built-in over-voltage fault protection improves safety and device longevity
Compatibility
Surface Mount Technology (SMT) for compatibility with modern PCB designs
Housed in a TO-252-3, DPAK package for standard integration into automotive systems
Application Areas
Automotive power distribution systems
Relay and solenoid drivers in vehicles
High temperature operating environments in automotive applications
Product Lifecycle
Obsolete product status, indicating it is nearing the end of its lifecycle
Users may need to consider seeking replacements or upgrades for future applications
Several Key Reasons to Choose This Product
Automotive-grade reliability and safety due to AEC-Q101 qualification and robust fault protection
High performance in extreme conditions, supporting a wide range of automotive applications
Efficient power management with low Rds On to minimize energy loss
Versatile compatibility with modern PCB design standards and automotive systems
Though obsolete, it may still provide an optimal solution for existing designs requiring high reliability and specific operational criteria