ATO square capacitive proximity switch delivers precise detection, strong anti-interference, and stability. Choose from NPN NO, NPN NC, PNP NO, or PNP NC outputs, operating within a 1-10mm range with 10-30V DC. With an IP67 rating, this capacitive prox sensor excels in various environments and detects electrostatically charged objects.
Specifications
- Model: ATO-C2010
- Detection Distance: 1-10mm (Adjustable)
- Installation Method: Not Flush
- Output Method: NPN NO, NPN NC, PNP NO or PNP NC
- Indicator Light: LED light
- Operating Voltage: 10~30V DC
- Continuous Waves: <10%
- No Load Current: <10mA
- Maximum Load Current: 150mA
- Leakage Current: <0.01mA
- Voltage Drop: <1. 5V
- On-Off Level: 50Hz
- Response Time: <15ms
- Switching Hysteresis: <15% (Sr)
- Repeat Accuracy: <5.0% (Sr)
- Protection Level: IP67
- Operating Temperature: -25℃~70℃
- Temperature Drift: <10% (Sr)
- Reverse Polarity Protection: Yes
- Shell Material: PBT Plastic
- Connection Method: D5 3*0.15 2M PVC
- Standard Wire Length: 2m
Dimension (Unit: mm)
Tips: What is a square capacitive proximity sensor?
A square capacitive proximity sensor is a type of sensor used in industrial automation to detect the presence or absence of objects, typically non-metallic, without direct contact. These sensors rely on changes in capacitance to identify the proximity of an object. The sensor has a square shape and is designed to be sensitive to variations in capacitance caused by the proximity of an object.
Inside the square capacitive proximity sensor, there are electrodes that form a capacitive field. When an object enters the sensor's detection range, it causes a change in the capacitance, which is then detected by the sensor. This change triggers the sensor to respond, such as by opening or closing an electrical circuit. Square capacitive proximity sensors are commonly used for applications where non-metallic object detection, liquid level sensing, or similar tasks are required, making them valuable in industries such as packaging, food processing, and automation.