Analog Devices Inc. introduces the LT6654AHS6-3.3#TRMPBF, a high-accuracy, low-drift, precision voltage reference encapsulated in a compact SOT-23 package. This advanced component is designed to provide a stable and precise reference voltage for high-resolution analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and other high-precision circuitry.
Key Features
- Output Voltage: Fixed at 3.3 volts, this device provides a stable reference for systems requiring a common 3.3V supply.
- Low Drift: With a temperature drift of typically 2ppm/°C, the LT6654AHS6-3.3#TRMPBF ensures consistent performance over a wide temperature range, making it ideal for precision applications.
- High Accuracy: Initial accuracy is specified at ±0.05%, offering reliable and precise voltage reference for critical applications.
- Long-Term Stability: The device exhibits excellent long-term stability, minimizing the need for recalibration and maintenance.
- Low Noise: It features low output noise, which is crucial for maintaining signal integrity in sensitive electronics.
- Supply Range: The operating supply range is broad, accommodating various system requirements.
- Package: Supplied in a small SOT-23 package, it is suitable for space-constrained applications.
Applications
The LT6654AHS6-3.3#TRMPBF is versatile and can be used in a multitude of applications where precision is paramount. It is particularly well-suited for:
- High-precision data acquisition systems
- Medical and laboratory instrumentation
- Industrial control systems
- Automotive electronics
- Battery-powered devices
- Portable test equipment
Ordering Information
The device is available in tape and reel packaging, denoted by the suffix #TRMPBF, which facilitates automated assembly processes. This packaging ensures safe delivery and efficient handling in high-volume production environments.
With its combination of high precision, stability, and low power consumption, the LT6654AHS6-3.3#TRMPBF from Analog Devices Inc. stands out as a robust solution for maintaining the accuracy of electronic systems.