Description
- Product Name: PFSK160A 3BSE009514R1
- Product Description:
The PFSK160A 3BSE009514R1 is a high-performance radio transceiver module designed for long-range wireless communication. It offers excellent signal quality and range, making it suitable for a variety of industrial, commercial, and consumer applications. The module features advanced modulation and coding schemes for reliable data transmission in challenging environments. It is typically used in devices that require robust wireless connectivity, such as sensors, actuators, and other automation equipment. - Product Parameters:
- Operating Frequency: The PFSK160A operates within a specific frequency range, depending on the desired application and regulatory requirements.
Transmit Power: The module has adjustable transmit power output, allowing for control over the strength of the radio signal transmitted.
Receiver Sensitivity: The PFSK160A has a high receiver sensitivity, ensuring it can receive weak radio signals with minimum loss.
Data Rate: The module supports various data rates, enabling transmission of more or less data per unit time.
Interface: The module interfaces with the host microcontroller or processor through a serial communication interface such as UART or SPI.
Security: The PFSK160A offers encryption and authentication options to ensure secure wireless communication. - Specification:
The PFSK160A 3BSE009514R1 is designed to meet the most stringent radio regulatory standards, ensuring compliance with different regions and frequency bands. It offers excellent interference immunity, making it robust against external noise and interference. The module has a small footprint and is designed for easy integration into various devices and systems. It provides access to advanced radio settings, allowing for customization of transmit and receive parameters. Additionally, the PFSK160A offers advanced features such as automatic frequency control (AFC) for accurate frequency tracking and data buffering for reliable data transmission in challenging environments.