Manufacturer Part Number
LT1054CDW
Manufacturer
Texas Instruments
Introduction
The LT1054CDW from Texas Instruments is a versatile DC-DC switching regulator specifically designed for ratiometric or step-up voltage conversions. It is housed in a 16-SOIC package and is part of the company's power management category.
Product Features and Performance
Incorporates a charge pump topology
Supports both positive and negative output configurations
Designed for adjustable output with fixed options also available
Provides an output voltage range up to 26.4V
Output current capability up to 100mA
Operates at a switching frequency of 25kHz
Supports a wide input voltage range from 3.5V to 15V
Product Advantages
Flexible input voltage range suitable for various applications
Dual output configuration enhances design versatility
Low output ripple with charge pump mechanism
Efficient energy conversion helps in reducing power loss
Key Technical Parameters
Voltage Input (Min): 3.5V
Voltage Input (Max): 15V
Voltage Output (Min/Fixed): 3.5V, (-Vin, 2Vin)
Voltage Output (Max): 26.4V
Current Output: 100mA
Frequency Switching: 25kHz
Operating Temperature: 0°C ~ 70°C
Quality and Safety Features
Current limiting capabilities
Built-in thermal shutdown
Overvoltage and short-circuit protection
Compatibility
Compatible with a wide range of devices requiring adjustable or fixed voltage supply
Adaptable to various industrial and consumer electronic applications
Application Areas
Power Supply Solutions
Mobile Devices
Consumer Electronics
Industrial Controls
Product Lifecycle
Currently in Active status
Not nearing discontinuation with ongoing support and production
Availability of replacements or upgrades as per future technological advancements
Several Key Reasons to Choose This Product
Wide range of input and output voltage capabilities offers greater design flexibility
High reliability through built-in protective features
Cost-effective solution for both large-scale and small-volume applications
Provides steady and efficient power supply
Tailored for applications demanding compact and efficient energy usage