Product Overview: TL4050C25QDBZR by Texas Instruments

The TL4050C25QDBZR is a precision micropower shunt voltage reference from Texas Instruments, designed to offer both high accuracy and low power consumption for a wide range of applications. This component is part of Texas Instruments' TL4050 series, which is known for its reliable performance and versatility in various electronic circuits.

Key Features

• Reference Voltage: The device provides a fixed reference voltage of 2.5V with an impressive accuracy level. This stable voltage is crucial for applications requiring precise voltage monitoring and regulation.
• Low Operational Current: With a typical low supply current of 45 µA, the TL4050C25QDBZR is optimized for battery-powered and energy-efficient systems, minimizing power consumption without compromising performance.
• High Stability: Temperature coefficients as low as 50 ppm/°C ensure that the reference voltage remains stable across a wide temperature range, making it suitable for both commercial and industrial environments.
• Small Package: Packaged in a small SOT-23-3 form factor, this device is ideal for space-constrained applications, allowing designers to maintain a compact and efficient layout on their PCBs.
• Wide Operating Temperature Range: The TL4050C25QDBZR can operate over a broad temperature range of -40°C to 125°C, accommodating various operating conditions and enhancing system reliability.

Applications

The TL4050C25QDBZR is well-suited for a variety of applications that require a stable and precise voltage reference. These include:

• Portable and battery-powered equipment
• Data acquisition systems
• Analog-to-digital converters (ADCs) and digital-to-analog converters (DACs)
• Power supply monitoring
• Industrial control systems
• Medical and healthcare devices

With its combination of high accuracy, low power consumption, and small package size, the TL4050C25QDBZR from Texas Instruments is an excellent choice for engineers and designers looking to enhance the performance and efficiency of their electronic systems.