LEUZE HT10L1.3/L6T High-Temp Sensor | 1300°C Resistance for Foundry Robotics & Steel Mill Conveyors | IP69K Type 4 SIL2

Attribute

Details

Detection Attributes

- Detection Principle

Photoelectric sensing (presumably a specific mode, like through - beam, retro - reflective, or diffuse reflection; details may vary based on product design)

- Detection Range

[Specify the range, e.g., up to X meters/cm]

- Detection Accuracy

High - precision, capable of accurately determining object presence, position, and potentially some characteristics

- Sensing Distance Adjustment

[If applicable, describe how it can be adjusted, e.g., potentiometer - controlled, or via software within a certain range]

- Detection Angle

[Mention the angle if available, e.g., ±XX degrees, which indicates the angular scope of the sensor's detection area]

- Response Time

[State the response time, e.g., XX ms. A short response time is crucial for real - time monitoring in industrial processes]

Electrical Attributes

- Supply Voltage

[Mention the voltage range, e.g., 10 - 30 V DC. This is a common voltage range for industrial sensors, determining the power source requirements]

- Power Consumption

[Provide the power consumption value, e.g., XX mA. It shows how much electrical power the device consumes during normal operation]

- Output Type

Digital output (PNP/NPN, common digital output types for signaling detection events in industrial sensors) or analog output (if applicable, for more continuous data representation)

- Output Current Capacity

[Specify the maximum current the output can drive, e.g., up to XX mA. This is important for determining the load - handling capacity of the sensor's output]

Mechanical Attributes

- Housing Material

[Name the material, e.g., metal alloy (such as aluminum alloy for its strength and corrosion resistance) or high - grade plastic (which may offer good impact resistance and lightweight properties)]

- Dimensions

[Length] x [Width] x [Height] (in mm. Provide the exact dimensions for installation and space - planning purposes)

- Mounting Options

[List available mounting methods, such as threaded holes (for screwing the sensor onto a surface), clip - on mounting brackets (for quick and easy attachment), or other specific mounting features]

- Weight

[Indicate the product's weight, e.g., XX grams/kg. This can be relevant for applications where weight is a factor, like in moving machinery or when considering the load on mounting structures]

Environmental Attributes

- Operating Temperature Range

[Specify the range, e.g., -20°C to +60°C. This shows the temperature conditions in which the sensor can operate reliably without performance degradation]

- Storage Temperature Range

[If different from the operating range, mention it. For example, -40°C to +80°C, as sensors may need to be stored in different temperature conditions than they are operated in]

- Humidity Resistance

[State the humidity range it can operate in, e.g., 10 - 90% relative humidity, non - condensing. High humidity can affect the performance and lifespan of electronic components, so this information is important for industrial applications]

- Protection Class

[IP rating, e.g., IP67 for dust - tight and water - resistant up to 1 m immersion. The IP rating indicates the level of protection against dust, water, and other environmental factors]

Compatibility Attributes

- Connector Type

[Specify the connector type, e.g., M12 connector if applicable. The connector type is important for easy connection to other industrial devices]

- Compatibility with Control Systems

Compatible with common industrial control systems like PLCs (Programmable Logic Controllers). Mention some popular brands, e.g., Siemens, Allen - Bradley, as these are widely used in industrial automation and knowing the compatibility helps in system integration]

- Communication Protocols

[If it supports any, list them, e.g., Profibus DP (a popular industrial communication protocol for data transfer between devices in a network), Modbus RTU (another widely used protocol for serial communication in industrial settings). This information is crucial for seamless communication within an industrial automation network]