The EE-SX950-R 1M belongs to the category of photoelectric sensors. These sensors are commonly used for detecting the presence or absence of an object, as well as for counting, positioning, and inspecting objects. The EE-SX950-R 1M is known for its compact design, high precision, and reliable performance. It comes in a standard package with essential accessories and is available in various packaging quantities to suit different application needs.
The EE-SX950-R 1M features a detailed pin configuration that includes input/output pins, power supply pins, and ground pins. This configuration allows for seamless integration with various control systems and devices.
The EE-SX950-R 1M operates based on the interruption of a light beam between the transmitter and receiver components. When an object obstructs the light path, the sensor detects the change in light intensity and triggers the corresponding output signal.
The EE-SX950-R 1M is widely used in industrial automation, conveyor systems, packaging machinery, and robotic applications. Its high precision and reliability make it suitable for tasks such as object detection, counting, and positioning in these fields.
In conclusion, the EE-SX950-R 1M photoelectric sensor is a versatile and reliable component that finds extensive use in industrial automation and robotics. Its compact design, high precision, and functional features make it a preferred choice for various object detection and positioning applications.
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What is the operating voltage range of EE-SX950-R 1M?
What is the typical output current of EE-SX950-R 1M?
What is the sensing distance of EE-SX950-R 1M?
What is the response time of EE-SX950-R 1M?
What is the operating temperature range of EE-SX950-R 1M?
Is EE-SX950-R 1M suitable for use in industrial automation applications?
Can EE-SX950-R 1M be used in high-noise environments?
Does EE-SX950-R 1M have any built-in protection features?
What is the recommended circuit configuration for integrating EE-SX950-R 1M into a system?
Can EE-SX950-R 1M be used in conjunction with microcontrollers or PLCs?