Product Description
The Qualcomm QCN-5052-0-DRQFN100B-TR-00-0 is a high-performance wireless communication component that leverages Qualcomm's advanced technology to deliver reliable and efficient connectivity solutions. Its DRQFN100B package is designed to provide a compact, low-profile form factor while facilitating effective thermal management through an exposed thermal pad.
This component supports a range of wireless standards and protocols, making it highly versatile for various applications, including consumer electronics, industrial control systems, and automotive electronics. Its high integration level simplifies system design by reducing the need for multiple external components, which can also lead to cost savings.
Specification
Electrical Characteristics:
Operating Voltage Range: Typically operates between 1.8V and 3.6V.
Power Consumption: Designed for low power consumption to support energy-efficient applications. Specific power consumption details are provided in the datasheet.
Frequency Range: The component supports a specific frequency range necessary for its wireless communication functions. Detailed frequency specifications are available in the datasheet.
Thermal Characteristics:
Thermal Resistance: The DRQFN package's design includes an exposed thermal pad to enhance thermal performance and manage heat dissipation effectively.
Operating Temperature Range: Generally, the component operates reliably within a temperature range of -40°C to 85°C, making it suitable for a wide range of environmental conditions.
Performance Parameters:
Data Rate: Supports high data rates necessary for modern wireless communication applications. The exact data rate capabilities are detailed in the datasheet.
Signal Integrity: Features designed to ensure high signal integrity and reliability, including low noise and high signal-to-noise ratio.
Pin Configuration:
Pin Count: 100 pins.
Pin Functions: Pins are assigned specific functions related to power, ground, input/output, and communication protocols. Detailed pin functionality is described in the datasheet.