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

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

MOQ: 1
Price: $403/piece
Standard Packaging: 110*60*60mm
Delivery Period: 3 day
Payment Method: T/T
Supply Capacity: 1piece in stock
Detail Information
Place of Origin
GERMANY
Brand Name
LEUZE
Certification
3C
Model Number
HT10L1.3/L6T
Degree Of Protection:
IP67
Weight:
50 G
Efficiency In Percent:
95.5 %
Output Current:
500 MA
Io Type:
Digital In
Isolation Voltage:
500V
Product Description

High - Performance Detection

The LEUZE HT10L1.3/L6T is a high - performance industrial automation product, well - known for its excellent detection capabilities. It likely utilizes advanced photoelectric technology, enabling it to accurately detect objects within its operational range. With a reliable detection distance, it can effectively monitor industrial processes. Whether it's identifying the presence of small parts on a production line or detecting the movement of large components in a manufacturing plant, this sensor ensures high - accuracy results. Its fast response time allows for real - time monitoring, minimizing production errors and enhancing overall efficiency.

Sturdy and Compact Design

Engineered with durability and space - efficiency in mind, the HT10L1.3/L6T features a robust yet compact design. Its housing is made from high - quality materials, providing good resistance to impacts, vibrations, and dust. This ensures long - term reliable operation even in harsh industrial environments. The compact size makes it easy to install in various industrial setups, including those with limited space. Despite its small footprint, it doesn't compromise on performance. The product also comes with convenient mounting options, allowing for quick and secure installation, guaranteeing stable performance over time.

Versatile Applications

One of the key strengths of the LEUZE HT10L1.3/L6T is its wide range of applications. It can be used in multiple industries, such as automotive manufacturing, food and beverage production, and electronics assembly. In the automotive industry, it can be applied to detect the position of parts during the assembly process. In the food and beverage sector, it helps with product counting and quality control. In electronics manufacturing, it can identify the presence of tiny components. Its adaptability to different industrial processes makes it a valuable asset for enhancing overall productivity and flexibility.

 

 

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]

 
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PRODUCTS DETAILS
LEUZE HT10L1.3/L6T High-Temp Sensor | 1300°C Resistance for Foundry Robotics & Steel Mill Conveyors | IP69K Type 4 SIL2
MOQ: 1
Price: $403/piece
Standard Packaging: 110*60*60mm
Delivery Period: 3 day
Payment Method: T/T
Supply Capacity: 1piece in stock
Detail Information
Place of Origin
GERMANY
Brand Name
LEUZE
Certification
3C
Model Number
HT10L1.3/L6T
Degree Of Protection:
IP67
Weight:
50 G
Efficiency In Percent:
95.5 %
Output Current:
500 MA
Io Type:
Digital In
Isolation Voltage:
500V
Minimum Order Quantity:
1
Price:
$403/piece
Packaging Details:
110*60*60mm
Delivery Time:
3 day
Payment Terms:
T/T
Supply Ability:
1piece in stock
Product Description

High - Performance Detection

The LEUZE HT10L1.3/L6T is a high - performance industrial automation product, well - known for its excellent detection capabilities. It likely utilizes advanced photoelectric technology, enabling it to accurately detect objects within its operational range. With a reliable detection distance, it can effectively monitor industrial processes. Whether it's identifying the presence of small parts on a production line or detecting the movement of large components in a manufacturing plant, this sensor ensures high - accuracy results. Its fast response time allows for real - time monitoring, minimizing production errors and enhancing overall efficiency.

Sturdy and Compact Design

Engineered with durability and space - efficiency in mind, the HT10L1.3/L6T features a robust yet compact design. Its housing is made from high - quality materials, providing good resistance to impacts, vibrations, and dust. This ensures long - term reliable operation even in harsh industrial environments. The compact size makes it easy to install in various industrial setups, including those with limited space. Despite its small footprint, it doesn't compromise on performance. The product also comes with convenient mounting options, allowing for quick and secure installation, guaranteeing stable performance over time.

Versatile Applications

One of the key strengths of the LEUZE HT10L1.3/L6T is its wide range of applications. It can be used in multiple industries, such as automotive manufacturing, food and beverage production, and electronics assembly. In the automotive industry, it can be applied to detect the position of parts during the assembly process. In the food and beverage sector, it helps with product counting and quality control. In electronics manufacturing, it can identify the presence of tiny components. Its adaptability to different industrial processes makes it a valuable asset for enhancing overall productivity and flexibility.

 

 

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]