ABB PFTL101A 1.0KN

Assembly line monitoring: Measuring the force applied during assembly processes to ensure proper component fit and avoid damage.
Robotics applications: Measuring gripper force or tool interaction forces with objects.
Material handling: Monitoring tension or weight in material handling processes that involve moderate forces, like wire feeding or cable coiling.
Force control systems: Providing feedback for control systems requiring precise force regulation in tasks like pressing, clamping, or insertion.

Category: ABB

Description

The ABB PFTL101A 1.0kN is a low-force load cell designed for industrial automation applications that require precise measurement of forces up to 1.0kN (kilonewtons), which is approximately 225 pounds-force (lbf). Here’s a breakdown of its potential functionalities and specifications:

Function:

The PFTL101A 1.0kN converts an applied force within its capacity into a measurable electrical signal. This signal can then be used by a control system to monitor or regulate force in various processes.

Specifications (based on available information):

Capacity: 1.0kN (approximately 225 lbf)
Output: Likely provides an analog voltage output signal corresponding to the applied force. The specific voltage range and sensitivity will depend on the model variant, but a datasheet would provide this information.
Accuracy: Information on accuracy might be limited, but industrial load cells typically offer high accuracy within their specified range. You might find this in a datasheet for the PFTL 101A series.
Material: The body is likely constructed from a durable metal like stainless steel to withstand industrial environments and mechanical stress.
Dimensions: Specific dimensions are difficult to find without a datasheet, but ABB offers various load cell designs, and the PFTL101A series is likely a compact design suitable for tight spaces in industrial automation setups.

Applications:

The PFTL101A 1.0kN finds use in various industrial automation scenarios requiring force measurement and control within its capacity, such as:

Assembly line monitoring: Measuring the force applied during assembly processes to ensure proper component fit and avoid damage.
Robotics applications: Measuring gripper force or tool interaction forces with objects.
Material handling: Monitoring tension or weight in material handling processes that involve moderate forces, like wire feeding or cable coiling.
Force control systems: Providing feedback for control systems requiring precise force regulation in tasks like pressing, clamping, or insertion.