The Banner Engineering RP-QM72D-6L is a high-performance radar presence sensor designed for reliable object detection in a variety of industrial applications. It uses Frequency Modulated Continuous Wave (FMCW) radar technology to accurately detect the presence or absence of objects, even in challenging environments with dust, dirt, or varying light conditions.

Applications

• Automated Gates: Used for triggering the opening and closing of automated gates based on vehicle or pedestrian presence.
• Traffic Management: Employed in traffic monitoring systems to detect vehicles and optimize traffic flow.
• Parking Management: Integrated into parking systems to detect vehicle occupancy in parking spaces.
• Industrial Automation: Utilized in automated machinery and production lines to detect the presence of materials or parts.
• Security Systems: Used in security systems to detect the presence of intruders or unauthorized personnel.

Features

• FMCW Radar Technology: Provides accurate and reliable object detection.
• Adjustable Sensing Range: Allows customization of the detection range to suit specific applications.
• Immunity to Environmental Factors: Unaffected by dust, dirt, rain, or varying light conditions.
• Configurable Output: Offers various output options, including relay, PNP, and NPN.
• Rugged Housing: Designed to withstand harsh industrial environments.
• Easy Installation: Simple mounting and wiring for quick deployment.

Benefits

• Reliable Detection: FMCW radar ensures accurate object detection in various conditions.
• Versatile Applications: Suitable for a wide range of industrial and commercial applications.
• Reduced Maintenance: Immunity to environmental factors minimizes maintenance requirements.
• Customizable Performance: Adjustable sensing range allows optimization for specific needs.
• Long-Term Durability: Rugged housing ensures reliable performance in harsh environments.

Additional Details

The RP-QM72D-6L operates on a 24 GHz frequency band and features a narrow beam pattern for precise detection. It typically requires a 12-24 V DC power supply and offers a variety of mounting options. The sensor is often configured using a PC-based software tool, allowing users to adjust parameters such as sensitivity, range, and output settings.