Product Overview: LM4128AQ1MFX2.0/NOPB
The LM4128AQ1MFX2.0/NOPB is a precision voltage reference component manufactured by Texas Instruments, known for its high accuracy and stability. This device is specifically designed to provide a fixed 2.0V output voltage with an impressive initial accuracy of ±0.1%. It is a part of the LM4128 series, which is characterized by its low temperature coefficient and excellent long-term stability, making it suitable for high-precision applications.
Key Features
- Output Voltage: Fixed 2.0V with tight tolerance
- Initial Accuracy: ±0.1% at 25°C
- Temperature Coefficient: 20ppm/°C (max) over the full temperature range
- Low Dropout Voltage: Ensures stable operation even with minimal input-output differential
- Load Regulation: Superior performance with varying load conditions
- Supply Current: Low supply current enhances the efficiency of the overall system
- Stability: Can be used with capacitive loads up to 10uF
- Package: SOT-23 package for compact footprint
- Automotive Grade: AEC-Q100 qualified for automotive applications
Applications
The LM4128AQ1MFX2.0/NOPB is versatile and can be used in a variety of applications where precision voltage reference is crucial. Some of these applications include:
- Portable and battery-powered equipment
- Data acquisition systems
- Automotive electronics
- Industrial instrumentation
- Medical devices
- High-resolution analog-to-digital converters (ADCs)
Quality and Reliability
Texas Instruments is committed to delivering high-quality products that meet the stringent requirements of various industries. The LM4128AQ1MFX2.0/NOPB is no exception and comes with the assurance of being produced in an ISO/TS16949 certified facility. Its reliability is further enhanced by being lead-free and RoHS compliant, minimizing the environmental impact and ensuring compliance with global regulations.
With its precision performance and robust design, the LM4128AQ1MFX2.0/NOPB is an excellent choice for engineers and designers looking to integrate a reliable voltage reference into their systems.