LTC3130EMSE#TRPBF

Product Overview

Category

LTC3130EMSE#TRPBF belongs to the category of integrated circuits (ICs) specifically designed for power management applications.

Use

This product is commonly used in various electronic devices to efficiently regulate and convert power from one voltage level to another. It is particularly suitable for battery-powered systems, portable devices, and other low-power applications.

Characteristics

• High efficiency: The LTC3130EMSE#TRPBF offers high conversion efficiency, minimizing power losses during voltage regulation.
• Wide input voltage range: It can accept a wide range of input voltages, making it versatile for different power sources.
• Low quiescent current: The IC has a low standby current, ensuring minimal power consumption when not actively regulating voltage.
• Compact package: The LTC3130EMSE#TRPBF comes in a small MSOP-16 package, allowing for space-efficient integration into electronic designs.
• Robustness: This product is designed to withstand harsh operating conditions, including temperature variations and voltage transients.

Package and Quantity

The LTC3130EMSE#TRPBF is packaged in an MSOP-16 package. Each package contains one LTC3130EMSE#TRPBF IC.

Specifications

• Input Voltage Range: 2.5V - 20V
• Output Voltage Range: 0.6V - 18V
• Maximum Output Current: 600mA
• Switching Frequency: 1MHz
• Quiescent Current: 30µA
• Operating Temperature Range: -40°C to 125°C

Pin Configuration

The LTC3130EMSE#TRPBF features the following pin configuration:

1. VIN: Input voltage pin
2. GND: Ground pin
3. SW: Switching node pin
4. FB: Feedback pin
5. EN: Enable pin
6. VOUT: Output voltage pin

Functional Features

• Wide input voltage range allows for compatibility with various power sources.
• High efficiency conversion minimizes power losses and extends battery life.
• Integrated feedback loop ensures accurate output voltage regulation.
• Enable pin provides control over the device's operation, allowing for power-saving modes.
• Protection features such as overvoltage and overcurrent protection enhance system reliability.

Advantages and Disadvantages

Advantages

• High efficiency conversion reduces power consumption.
• Wide input voltage range enables versatile applications.
• Compact package facilitates space-efficient integration.
• Robust design ensures reliable performance in challenging environments.

Disadvantages

• Maximum output current may be limiting for certain high-power applications.
• Limited availability of alternative models from other manufacturers.

Working Principles

The LTC3130EMSE#TRPBF operates based on a switching regulator topology. It utilizes an internal switch to rapidly switch the input voltage across an inductor, storing energy during the "on" state and releasing it during the "off" state. This process efficiently steps up or steps down the input voltage to the desired output voltage level.

Detailed Application Field Plans

The LTC3130EMSE#TRPBF finds applications in various fields, including but not limited to: 1. Portable electronic devices: Powering smartphones, tablets, and wearable devices. 2. IoT (Internet of Things) devices: Enabling efficient power management in connected devices. 3. Battery-powered systems: Regulating power in portable medical devices, wireless sensors, and remote monitoring systems. 4. Automotive electronics: Providing power management solutions for automotive applications. 5. Industrial automation: Supporting power supply requirements in industrial control systems and robotics.

Alternative Models

While the LTC3130EMSE#TRPBF is a highly capable IC, alternative models from other manufacturers can provide similar functionality. Some alternative models include: - TPS63020 from Texas Instruments - MAX17222 from Maxim Integrated - ADP2360 from Analog Devices

These alternative models offer comparable features and performance, providing designers with options based on their specific requirements.

In conclusion, the LTC3130EMSE#TRPBF is a versatile integrated circuit designed for efficient power management in various electronic devices. Its high efficiency, wide input voltage range, and compact package make it an attractive choice for low-power applications. However, its limited maximum output current and availability of alternative models should be considered when selecting the appropriate power management IC for a particular design.