Overview of ADP1740ACPZ-2.5-R7
The ADP1740ACPZ-2.5-R7 is a high-quality step-down regulator from the reputable manufacturer, Analog Devices Inc. This device is designed with cutting-edge technology to convert a higher input voltage into a lower, stable output voltage. It features a fixed 2.5V output voltage and has a compact size allowing it to fit into various applications with limited board space.
Technical Features
The ADP1740ACPZ-2.5-R7 is packed with advanced technical features. It can handle an input voltage range from 2.3V to 5.5V, which makes it versatile for different power sourcing conditions. Other key features include a high output current of up to 1A, low quiescent current suitable for battery-powered devices, and a high efficiency up to 96% – ensuring maximum power utilization. Its overcurrent and thermal protection safeguards the device from potential damages caused by extreme conditions.
Application Scenarios
The ADP1740ACPZ-2.5-R7 can be applied in a wide variety of scenarios due to its versatile features and compact design. It is commonly used in portable electronic devices, wireless handsets, and digital cameras which all benefit from its low power consumption. Furthermore, it's also suitable for more complex systems such as data communication systems and point of load regulation in communication networks where stable voltage regulation is crucial.
Alternative Models
- ADP1741ACPZ-2.5-R7: An alternative model with almost similar features, but has a higher maximum input voltage of 6.5V.
- ADP1740ACPZ-3.3-R7: This model has all the characteristics of ADP1740ACPZ-2.5-R7, but it provides a 3.3V fixed output voltage.
Models of the Same Series
In the ADP1740 series, there are other models with varying specifications to cater to different application requirements. For instance, models like ADP1740ACPZ-1.8-R7 and ADP1740ACPZ-1.2-R7 provide lower output voltages and can be more suitable for devices requiring lower power levels. These models retain the main features of the series, making them a reliable choice for various applications.