Manufacturer Part Number
LT3060EDC-1.8#TRMPBF
Manufacturer
Analog Devices
Introduction
The LT3060EDC-1.8#TRMPBF is a low-dropout linear regulator designed for power management applications, offering a fixed output voltage of 1.8V and a maximum current output of 100mA.
Product Features and Performance
Output Configuration: Positive
Output Type: Fixed
Number of Regulators: 1
Voltage - Input (Max): 45V
Voltage - Output (Min/Fixed): 1.8V
Voltage Dropout (Max): 0.51V @ 100mA
Current - Output: 100mA
Current - Quiescent (Iq): 80 µA
Current - Supply (Max): 4 mA
PSRR: 75dB at 120Hz
Control Features: Enable, Soft Start
Protection Features: Over Current, Over Temperature, Reverse Polarity
Product Advantages
Compact size in an 8-WFDFN Exposed Pad package
High input voltage capability up to 45V
Low quiescent current aiding in better power efficiency
Built-in protection for safer operation
Key Technical Parameters
Input Voltage (Max): 45V
Output Voltage (Fixed): 1.8V
Output Current: 100mA
Voltage Dropout (Max): 0.51V @ 100mA
Quiescent Current (Iq): 80 µA
Supply Current (Max): 4 mA
Quality and Safety Features
Protection against over-current, over-temperature, and reverse polarity
High Power Supply Rejection Ratio (PSRR) ensures stable operation
Compatibility
Designed for surface mount technology with an 8-DFN (2x2) package
Application Areas
Ideal for use in battery-powered devices, microprocessors, and other sensitive electronic devices requiring stable and efficient voltage regulation
Product Lifecycle
Product Status: Active
Continuously manufactured with no foreseeable discontinuation, replacements, or upgrades required
Several Key Reasons to Choose This Product
Highly efficient with a low dropout voltage feature allowing operation close to the input voltage
Ultralow quiescent current ideal for power-sensitive applications
Robust protection features enhance the durability and safety of the application
Supports high input voltage up to 45V, making it versatile for various applications
Compact and reliable design suitable for space-constrained applications