Brand:GE Fanuc
Model:A860-2100-V001
Type:Motion Industry Sensor Unit
Operating Range:100-240 VAC
Output Signal:TTL/PNP/NPN
Operating Temperature:-20°C to +60°C
Protection Rating:IP67
Response Time:≤ 1 ms
Accuracy:+/- 0.5%
Operating Life:≥ 1 million cycles
Mounting Type:Panel
Material:Stainless Steel
Dimensions:L x W x H: 45 x 45 x 24 mm
The GE Fanuc A860-2100-V001 Motor Interface Sensor Unit is engineered to meet the stringent demands of modern industrial applications, ensuring exceptional performance and longevity. This sensor unit utilizes advanced non-contact magnetic sensing technology to provide highly accurate and reliable data on motor speeds and positions.
With a measurement range extending up to 300 RPM and a resolution of 0.01% of its full scale, this unit is capable of delivering precise feedback essential for optimizing system efficiency and reducing maintenance needs. Its ability to operate within a wide temperature range of -20°C to +85°C ensures robust functionality in various industrial environments.
Featuring a versatile supply voltage range from 12 to 24V DC and a maximum current consumption of just 5mA, the A860-2100-V001 is designed for efficient power usage without compromising on performance. The square wave output signal facilitates seamless integration with control systems, while the M12 connector simplifies installation and maintenance.
For enhanced durability and protection against harsh conditions, this sensor unit boasts an IP67 enclosure rating, making it suitable for use in environments with dust and water splashes. The combination of these features makes the GE Fanuc A860-2100-V001 Motor Interface Sensor Unit an indispensable component for achieving high accuracy and reliability in industrial automation.
Incorporating the A860-2100-V001 into your system can significantly improve operational efficiency, reduce downtime, and ensure compliance with industry standards, making it a strategic choice for manufacturers seeking to enhance their automation capabilities.
There are no reviews yet.