The LM236AH-2.5/NOPB is a precision voltage reference from Texas Instruments, designed to provide a stable 2.5V output with tight regulation. This component is a part of the LM136 series, which is known for its reliability and consistency across a wide range of operating conditions. The device is encapsulated in a hermetically sealed metal can (TO-46 package), ensuring robust performance in demanding environments.
This voltage reference is characterized by its low dynamic impedance and excellent temperature stability, which is achieved through the use of an advanced circuit design and high-quality materials. The LM236AH-2.5/NOPB is capable of sourcing or sinking up to 10 mA of output current, making it versatile for various applications. Furthermore, it has a typical temperature coefficient of just 0.005%/°C, which contributes to its precision over a wide temperature range.
One of the key features of the LM236AH-2.5/NOPB is its ease of use. It requires no external components for operation, simplifying the design process for engineers. Additionally, it has a wide operating current range of 400 µA to 10 mA, which allows for flexibility in design and application. The device also offers excellent long-term stability and is specified for operation over a full military temperature range of -55°C to +125°C.
The LM236AH-2.5/NOPB is commonly used in precision data systems, analog-to-digital converters (ADCs), digital-to-analog converters (DACs), and other high-accuracy measurement and control systems. Its no-lead (NOPB) design aligns with modern environmental standards, reducing the impact on the environment by avoiding the use of lead in the manufacturing process.
In summary, the LM236AH-2.5/NOPB from Texas Instruments is a high-quality, precision voltage reference that offers excellent stability, low dynamic impedance, and ease of use for a variety of electronic applications. Its robust package and compliance with environmental standards make it a reliable choice for designers seeking to integrate a dependable voltage reference into their systems.