UCC28631D

Product Overview

Category

UCC28631D belongs to the category of integrated circuits (ICs) specifically designed for power management applications.

Use

This IC is commonly used in various power supply systems to regulate and control the flow of electrical energy efficiently.

Characteristics

• High efficiency: UCC28631D offers excellent power conversion efficiency, minimizing energy losses during operation.
• Wide input voltage range: It can handle a broad range of input voltages, making it suitable for diverse applications.
• Compact package: The IC is available in a compact package, ensuring easy integration into different circuit designs.
• Low standby power consumption: UCC28631D consumes minimal power when in standby mode, enhancing overall energy efficiency.

Package and Quantity

The UCC28631D IC is typically packaged in a small outline integrated circuit (SOIC) package. It is commonly available in reels containing a specified quantity of ICs, usually 250 or 1000 units per reel.

Specifications

• Input Voltage Range: 4.5V to 30V
• Output Voltage Range: Adjustable from 0.8V to 28V
• Maximum Output Current: 3A
• Switching Frequency: Adjustable up to 1MHz
• Operating Temperature Range: -40°C to 125°C
• Control Method: Peak current mode control

Detailed Pin Configuration

The UCC28631D IC has the following pin configuration:

1. VDD: Power supply input pin.
2. GND: Ground reference pin.
3. FB: Feedback pin for regulating the output voltage.
4. COMP: Compensation pin for stability control.
5. CS: Current sense pin for peak current mode control.
6. SS/EN: Soft-start and enable pin.
7. RT/CLK: External resistor or clock input pin for setting switching frequency.
8. DRV: Gate driver output pin for driving external power MOSFET.

Functional Features

• Peak current mode control: UCC28631D utilizes peak current mode control to regulate the output voltage accurately and maintain stability during load variations.
• Soft-start function: The soft-start feature ensures a controlled startup of the power supply, preventing excessive inrush currents and voltage overshoots.
• Overcurrent protection: The IC incorporates overcurrent protection to safeguard the power supply and connected components from excessive currents.
• Frequency synchronization: UCC28631D allows synchronization with an external clock signal, enabling precise frequency control and reducing interference in multi-channel applications.

Advantages and Disadvantages

Advantages

• High efficiency leads to reduced power losses and improved energy conservation.
• Wide input voltage range enables versatile application possibilities.
• Compact package facilitates easy integration into various circuit designs.
• Low standby power consumption enhances overall energy efficiency.

Disadvantages

• Limited maximum output current may restrict usage in high-power applications.
• External components required for operation may increase system complexity.

Working Principles

UCC28631D operates based on the peak current mode control technique. It regulates the output voltage by monitoring the current flowing through the power MOSFET and adjusting the duty cycle of the switching waveform accordingly. This control method ensures stable and efficient power conversion.

Detailed Application Field Plans

The UCC28631D IC finds extensive application in the following areas:

1. Switching power supplies for consumer electronics, such as televisions, computers, and audio systems.
2. Industrial power systems, including motor drives, lighting controls, and industrial automation equipment.
3. Automotive power management systems, such as electric vehicle charging stations and battery management systems.
4. Renewable energy systems, including solar inverters and wind turbine power converters.

Detailed and Complete Alternative Models

1. UCC28630D: Similar to UCC28631D, but with a lower maximum output current of 2A.
2. UCC28632D: Similar to UCC28631D, but with a higher maximum output current of 4A.
3. UCC28633D: Similar to UCC28631D, but optimized for higher input voltage applications.

These alternative models provide flexibility in choosing the appropriate IC based on specific requirements and system constraints.

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