Product description
The Qualcomm PM-7250B-0-F0WPSP110-TR-00-0 is engineered to meet the demands of modern electronic devices, particularly in the mobile sector. Its architecture is optimized for high performance and low power consumption, making it ideal for smartphones, tablets, and IoT devices.
The PMIC features a sophisticated control loop that ensures stable output voltages under varying load conditions. This is critical for maintaining the performance of sensitive components like CPUs and GPUs, which can experience significant fluctuations in power demand.
In addition to its power management capabilities, the PM-7250B integrates several communication interfaces, allowing it to interface seamlessly with microcontrollers and other system components. This integration simplifies the design process and reduces the number of external components required, leading to a more compact and cost-effective solution.
The device's thermal management features are also noteworthy. With built-in thermal shutdown capabilities, the PM-7250B can protect itself and the overall system from overheating, which is particularly important in high-performance applications where heat generation can be substantial.
Overall, the Qualcomm PM-7250B-0-F0WPSP110-TR-00-0 stands out as a versatile and efficient power management solution, capable of meeting the rigorous demands of contemporary electronic devices while ensuring reliability and performance. Its combination of features and specifications makes it an ideal choice for designers looking to optimize power management in their applications.
Specification parameters
Input Voltage Range: The PMIC typically operates within a specified input voltage range, allowing it to be compatible with various power sources.
Output Voltage Range: The device can provide multiple output voltages, which can be configured to meet the specific requirements of the application.
Output Current: The PM-7250B can deliver a significant amount of current across its outputs, ensuring that it can power demanding components without performance degradation.
Switching Frequency: The PMIC operates at a defined switching frequency, which impacts its efficiency and response time. Higher frequencies can lead to smaller passive components but may also increase switching losses.
Package Type: The PM-7250B is available in a compact package type, which is essential for integration into space-constrained designs.