Overview of LM2936QMM-3.0/NOPB
The LM2936QMM-3.0/NOPB is a remarkable product from the well-established manufacturer, Texas Instruments. This device is an ultra-low quiescent current voltage regulator, designed to provide optimal performance in applications where power management is crucial. Its highly efficient functionality makes it a desirable component across a wide range of applications.
Key Features
- It comes with an impressive ultra-low quiescent current, making it remarkably energy-efficient.
- The device has a high output accuracy, hence its reliability in ensuring steady voltage regulation.
- It features a wide operating temperature range, making it flexible for use in various environments.
- The shutdown mode functionality that it offers, allows for further power conservation when the device is not in use.
Technical Specifications
The LM2936QMM-3.0/NOPB is characterized by an array of impressive technical specifications. Some of these specifications include a 3.0V output voltage and a maximum operating temperature of 125 °C, showcasing its resilience under extreme conditions. The device also boasts a 50mA output current and a minimum operating temperature of -40 °C, demonstrating its versatility across different environmental conditions. This voltage regulator has a fixed output voltage polarity and a maximum input voltage of 40V, further emphasizing its robust performance. The device operates at a quiescent current of 15 μA, marking its high-efficiency operation.
Applications
The LM2936QMM-3.0/NOPB is suited for a variety of applications, mainly due to its excellent power management capabilities. It can be utilized in automotive systems, where it proves instrumental in supplying power to various subsystems. It is also perfect for battery-powered systems due to its low power consumption. Its wide operating temperature range makes it fit for use in industrial applications, where it can operate under various environmental conditions. Furthermore, this device can be used in portable and wireless products given its effective power conservation capabilities.