SICK DLS40E-S3RV01024 Compact and slim incremental encoder

SICK DLS40E-S3RV01024 is an incremental encoder. Here is a detailed introduction:

Product Features

High resolution: With a resolution of 1024 pulses/turn, it can accurately measure the rotation angle and position change, provide accurate feedback signals for the control system, and is suitable for applications with high precision requirements.

Compact design: With a thickness of only 20mm (solid shaft) or 25mm (blind hole), it is small in size and can be installed in equipment with limited space, which can significantly reduce the space required for the rear end of the motor and save equipment space.

Multiple interfaces: The electrical interface includes TTL/RS-422, HTL/Push-Pull, open collector NPN, etc., with strong compatibility and can be "seamlessly" switched with the mainstream mechanical structure and electrical signals in the market. The mechanical interface includes clamping flange or servo flange, as well as blind hollow shaft or through-hole hollow shaft, with shaft diameters of 6mm, 8mm, 10mm, and 12mm for selection, and good versatility.

Protection performance: The protection level is IP50, which can prevent dust from entering and can work stably in general industrial environments.

Operating temperature range: The operating temperature range is - 10°C to + 70°C, which can adapt to the temperature changes of most conventional industrial sites.

Other features: The number of signal channels is 3 channels, the output frequency is ≤150kHz, the load current is ≤30mA, the power consumption is ≤2W (no load), and the supply voltage is 10-27V. It uses a 5-core, 2m radial cable connection, and the MTTFd (Time Between Dangerous Failures) is 600 years (EN ISO 13849-1).

Application scenario

Automated production line: Monitor the speed and position of the motor on the production line to accurately control the production process. For example, in the material conveying link, the speed of the conveyor belt and the conveying position of the material are adjusted by monitoring the information fed back by the encoder to ensure that the material is accurately and correctly transported to the designated location.

Robotics: Installed on the joints or drive wheels of the robot, it monitors the robot's motion state in real time, provides position and speed information for the precise control of the robot, and enables the robot to accurately complete various actions and tasks.

Machine tool processing: In the feed system or spindle drive of the machine tool, it is used to accurately measure the rotation angle and position of the shaft, realize precise control of the processing accuracy, and ensure the dimensional accuracy and surface quality of the processed parts.

Textile printing and dyeing industry: Installed on the motor of the textile machinery equipment, monitor the speed of the textile machinery, accurately control the length and production rhythm of the textile, and avoid affecting the fabric quality due to unstable speed.

Printing equipment: Used to monitor the speed and position of the roller or transmission shaft in the printing equipment to ensure that the paper conveying speed is synchronized with the printing speed during the printing process, and avoid quality problems such as inaccurate overprinting or blurred printing.

Other industries: It is also widely used in medicine, food, packaging, electronic semiconductors, automobiles, steel, logistics and other industries, such as accurately controlling the conveying length and cutting position of packaging materials in packaging machines; accurately controlling the position and movement speed of the workbench in semiconductor manufacturing equipment; and used for motion control of robot arms and assembly positioning of automobile parts on automobile production lines.