Description
Product Name: CC-IP0101(1) Honeywell
Product Description: The CC-IP0101(1) from Honeywell is a high-performance compact airflow mass sensor designed for use in commercial and industrial HVAC (heating, ventilation, and air conditioning) systems. It provides precise measurement of airflow volume and velocity, essential for efficient air handling and zoning in building automation systems. The sensor offers a small footprint and is easy to install, making it suitable for retrofit applications in confined spaces. It provides reliable airflow measurement for precise temperature and humidity control, energy efficiency, and occupant comfort.
Product Parameters:
Airflow Range: The sensor measures airflow volume from 0.5 to 30 cfm (cubic feet per minute) with a velocity range of 0 to 300 fpm (feet per minute).
Accuracy: The CC-IP0101(1) offers ±2% of reading accuracy, ensuring precise measurement results.
Interface: It provides a digital output interface for easy integration with building automation systems.
Dimensions: The sensor measures 3.25″ x 3.25″ x 1.75″ (82.6 x 82.6 x 44.5 mm) and weighs approximately 3.5 oz (99.2 g).
Operating Temperature: The sensor is designed to operate within a temperature range of -4 to 50°C (-24 to 122°F).
Specifications:
Response Time: The sensor has a fast response time of ≤5 seconds, ensuring accurate measurement of dynamic airflow changes.
Certifications: The CC-IP0101(1) is certified to meet various international safety and performance standards.
Wiring: The sensor requires a 4-20 mA analog output signal for data transmission, along with power supply and ground connections.
The CC-IP0101(1) Honeywell airflow mass sensor offers a reliable solution for precise airflow measurement in commercial and industrial HVAC systems. It provides accurate data for temperature, humidity, and energy management, enabling efficient operation and occupant comfort. The compact design and easy installation make it suitable for retrofit applications in existing buildings, as well as new construction.