Product Overview: LM4130CIM5-2.5/NOPB
The LM4130CIM5-2.5/NOPB is a precision micropower low dropout voltage reference from Texas Instruments, renowned for its high accuracy and stability. Designed to cater to a wide array of applications that demand a precise voltage reference, this device is an ideal choice for high-performance data converters, portable instrumentation, and industrial control systems.
Key Features
- Precision Voltage: The LM4130CIM5-2.5/NOPB provides a fixed 2.5V output, with an impressive accuracy level that ensures reliable performance in critical applications.
- Low Dropout: Its low dropout voltage allows the reference to maintain output accuracy even with a minimal difference between the input and output voltages, making it suitable for battery-powered devices.
- High Stability: The device is characterized by its high stability over temperature, which is crucial for maintaining its precision across a wide range of operating conditions.
- Low Power Consumption: With micropower operation, it draws minimal current, thereby extending battery life in portable applications.
- Small Package: Housed in a compact SOT-23 package, the LM4130CIM5-2.5/NOPB saves valuable board space and is suitable for space-constrained applications.
- Lead-Free and RoHS Compliant: The NOPB designation indicates that this component is lead-free and complies with the RoHS directive, making it an environmentally friendly choice.
Applications
The LM4130CIM5-2.5/NOPB is versatile and can be used in various high-precision applications, including:
- Data Acquisition Systems
- Portable Test Instruments
- Industrial Process Control
- Precision Power Supplies
- Battery-Powered Equipment
- Automotive Electronics
Quality and Reliability
Texas Instruments is known for its commitment to quality and reliability. The LM4130CIM5-2.5/NOPB is manufactured to meet the highest industry standards, ensuring performance and durability for the most demanding applications. With Texas Instruments' trusted brand, customers can expect a product that performs consistently over time.