Honeywell 942-M0A-2D-1G1-220S Proximity Sensors

Operating Voltage:220V AC

Response Time:Less than 5 ms

Detection Range:Up to 10 mm

Operating Temperature:-40°C to +85°C

Operating Humidity:5% to 95% non-condensing

Signal Output:PNP or NPN

Material:Durable Stainless Steel Housing

Connection Type:3-Wire or 4-Wire

Enclosure Rating:IP67

Protocol Compatibility:MODBUS RTU

Inductive Load Capacity:Up to 500 mA

    Introducing the Honeywell 942-M0A-2D-1G1-220S Proximity Sensors, designed to deliver unparalleled performance in industrial control systems. These sensors are built with advanced technology, ensuring precise detection and reliable operation under challenging conditions.

    Featuring an operating voltage of 220V AC, these sensors are compatible with a wide range of industrial power sources, making them versatile for various applications. Their response time of less than 1 millisecond guarantees quick and accurate detection, enhancing system efficiency.

    With a detection range of up to 10mm, these proximity sensors offer flexibility in sensing objects at different distances, providing optimal control over machinery and processes. Their exceptional accuracy, within ±0.2%, ensures high precision in monitoring and controlling variables.

    Engineered for durability, these sensors operate effectively within a temperature range from -40°C to +85°C, making them suitable for use in extreme environments. They are also rated IP67, ensuring they are waterproof and dustproof, which is crucial for outdoor or industrial applications where environmental conditions can be harsh.

    Our sensors come with versatile mounting options, including threaded mounts and movable versions, allowing easy integration into various systems. This feature enhances their adaptability, making them a valuable addition to a wide array of industrial setups.

    At Honeywell, we are committed to delivering top-quality solutions that meet the stringent demands of our customers. Our Proximity Sensors are no exception, offering robust performance and reliability in critical industrial control scenarios.