Overview of Texas Instruments TLV431BIDBZR

The Texas Instruments TLV431BIDBZR is a precision low-voltage shunt regulator that offers excellent stability and accuracy for voltage regulation applications. Designed with a focus on flexibility and reliability, this adjustable shunt regulator is widely used in various power supply circuits, battery chargers, and voltage monitoring systems.

Key Features

• Adjustable Output Voltage: The TLV431BIDBZR provides an adjustable output voltage from 1.24V to 16V, allowing for a wide range of applications.
• Low Voltage Operation: With a minimum cathode voltage requirement of just 1.24V for regulation, this device is ideal for low-voltage operations.
• High Accuracy: It features a typical temperature drift of only 6ppm/°C and an initial accuracy of 0.5% (A grade), ensuring precise voltage regulation.
• Low Dynamic Output Impedance: A low output impedance of 0.22 ohms enhances load regulation and reduces output noise.
• Surface-Mount Package: The device comes in a small SOT-23 package, making it suitable for compact PCB designs.

Applications

• Power supplies
• Portable electronics
• Battery chargers
• Reference voltage sources
• Voltage monitoring
• Adjustable regulators

Performance and Durability

The TLV431BIDBZR is designed to perform reliably in a wide range of environmental conditions. It can operate over an extended industrial temperature range from -40°C to +85°C, making it suitable for industrial applications. Additionally, its robust design ensures long-term stability and performance.

Quality and Support

As a product from Texas Instruments, the TLV431BIDBZR is backed by the company's reputation for high-quality semiconductor products and excellent customer support. Detailed datasheets, application notes, and design resources are available to assist in the integration of the TLV431BIDBZR into your electronic designs.

With its combination of features, the TLV431BIDBZR shunt regulator is an excellent choice for designers looking for a reliable and flexible voltage reference solution.