Product Overview: REF3130AIDBZT
The REF3130AIDBZT is a high-precision, low-power voltage reference from Texas Instruments, engineered to ensure stability and accuracy for various applications. This voltage reference device is part of TI's family of low-dropout, micropower series voltage references that provide a stable output voltage over a wide current range.
Key Features
- Output Voltage: The REF3130AIDBZT offers a fixed output voltage of 3.0V, making it suitable for a wide range of applications, including portable and battery-powered devices.
- High Accuracy: With an initial accuracy of 0.2% and a temperature coefficient of 50 ppm/°C (max), this device provides precise voltage regulation, ensuring reliable performance across various temperature ranges.
- Low Power Consumption: The device is designed for energy-sensitive applications, consuming a low quiescent current of 30 µA (typical), which makes it ideal for battery-operated systems.
- Stable with Capacitive Loads: The REF3130AIDBZT is stable with capacitive loads up to 10 µF, offering flexibility in design and compatibility with a range of components.
- Small Package Size: It is available in a small 3-pin SOT-23 package, which is beneficial for space-constrained applications.
- Extended Temperature Range: The device operates over an extended industrial temperature range of -40°C to 125°C, accommodating environments with varying temperatures.
- Low Dropout Voltage: The REF3130AIDBZT features a low dropout voltage, allowing it to function correctly even when the supply voltage is close to the output voltage.
Applications
The REF3130AIDBZT is versatile and can be used in a variety of applications, including:
- Data acquisition systems
- Portable and battery-powered equipment
- Medical devices
- Industrial instrumentation
- Automotive electronics
- Microcontroller reference
With its combination of high accuracy, low power consumption, and small footprint, the REF3130AIDBZT from Texas Instruments is a reliable choice for designers looking to enhance the performance of their systems while maintaining efficiency and precision.