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Fiber Units(Detection distance 【classification】:~2000)
Fiber Units and fiber sensor is an device that use for detecting a presence of a workpiece in manufacturing process. When selecting a fiber sensor, it is crucial to consider factors such as Detection Distance, Detection type (e.g., Thru-beam type, Reflective type, and Retro-reflective type.), Detection Object for example Mirror Surface Body, Transparent Body, Label, and so on. These considerations are vital for ensuring the production of high-quality products. We highly recommend reputable brands like OMRON, OPTEX FA, and PANASONIC.
Take advantage of the convenience of FREE SHIPPING and NO MINIMUM ORDER on the Fiber Units, fiber sensor and other relate products. If you have any doubts or require assistance in choosing the right product, our experts are readily available to provide advice and guidance.
Take advantage of the convenience of FREE SHIPPING and NO MINIMUM ORDER on the Fiber Units, fiber sensor and other relate products. If you have any doubts or require assistance in choosing the right product, our experts are readily available to provide advice and guidance.
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OPTEX FA Fiber Units NF Series Screen / Array Series
OPTEX FA
Fiber optic unit that detects with band-shaped light.
It is suitable for cases where the workpiece passage position is not constant or for detecting a complicated workpiece.
[Features]
・ Screen Fiber: This is a gas clean fiber that spreads light in a band with a lens. Since near parallel light is realized, the transmission type can detect a subtle difference in light amount compared to the array fiber
・ Array Fiber: An array fiber consists of a single core of fiber and a strip of light. Since the light is spread, it is easy to adjust the optical axis, especially for the transmissive type. Also, when using a reflective type to detect minute objects at a short distance, the amount of light received is greater than with a screen fiber, enabling stable detection- CAD :
- 2D
Detection Distance(mm) Type Detection Type Light Axis Arrangement Type Head Shape Detection Light Type Detection Object Amplifier Installation Type Detection Light Color Head Material Detection distance 【classification】(mm) Operating Environment Protection Structure Amplifier Function (Selectable only when Amplifier is installed) Fiber Type (Selectable only when Amplifier is not installed) Fiber clothing material Fiber minimum bend R(mm) - Fiber Unit Transparent Emitting and Receiving Sections Separated Square Wide Colored Surface Separated Type Red Brass Nickel Plating ~2000 Standard / Cold Resistant - - Standard Polyethylene 25 From: ₹ 10,928.29 Days to Ship: 8 Day(s) or more 
8 Day(s) or more
| Brand |
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| Product Series |
| CAD |
| From |
| Days to Ship |
| Detection Distance(mm) |
| Type |
| Detection Type |
| Light Axis Arrangement Type |
| Head Shape |
| Detection Light Type |
| Detection Object |
| Amplifier Installation Type |
| Detection Light Color |
| Head Material |
| Detection distance 【classification】(mm) |
| Operating Environment |
| Protection Structure |
| Amplifier Function (Selectable only when Amplifier is installed) |
| Fiber Type (Selectable only when Amplifier is not installed) |
| Fiber clothing material |
| Fiber minimum bend R(mm) |
You can add up to 6 items per a category to the compare list.  | |
| Brand | OPTEX FA |
| Product Series | |
| CAD |
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| From | ₹ 10,928.29 |
| Days to Ship | 8 Day(s) or more |
| Detection Distance(mm) | - |
| Type | Fiber Unit |
| Detection Type | Transparent |
| Light Axis Arrangement Type | Emitting and Receiving Sections Separated |
| Head Shape | Square |
| Detection Light Type | Wide |
| Detection Object | Colored Surface |
| Amplifier Installation Type | Separated Type |
| Detection Light Color | Red |
| Head Material | Brass Nickel Plating |
| Detection distance 【classification】(mm) | ~2000 |
| Operating Environment | Standard / Cold Resistant |
| Protection Structure | - |
| Amplifier Function (Selectable only when Amplifier is installed) | - |
| Fiber Type (Selectable only when Amplifier is not installed) | Standard |
| Fiber clothing material | Polyethylene |
| Fiber minimum bend R(mm) | 25 |
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Configure
Specification/Dimensions
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Detection Distance(mm)
- 0~15
- 2~6
- 5
- 5.4~9
- 6
- 8
- 8~20
- 10
- 10~20
- 10~250
- 12
- 12~30
- 15~38
- 16
- 17
- 27
- 30
- 50
- 60
- 100
- 110
- 120
- 130
- 140
- 150
- 150~1500
- 180
- 190
- 200
- 250
- 280
- 300
- 350
- 360
- 400
- 450
- 550
- 600
- 680
- 800
- 900
- 1000
- 1100
- 1200
- 1350
- 1500
- 1550
- 1700
- 1780
- 1800
- 2600
- 2700
- 2800
- 3500
- 3800
- 4000
- 20000
The detecting distance can vary with your amplifier, operating environment and the detected object.
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Type
- Fiber Unit
- Fiber Sensor (Amplifier)
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Detection Type
- Transparent
- Reflection
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Light Axis Arrangement Type
- Emitting and Receiving Sections Integrated, Single
- Emitting and Receiving Sections Integrated, Reflection Plate Used
- Emitting and Receiving Sections Separated
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Head Shape
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Detection Light Type
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Detection Object
- Colored Surface
- Transparent Body
- Small Area
- Liquid Surface (Pipe Mounting)
- Liquid Surface (Contacting)
- Wafer Mapping
- Label
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Amplifier Installation Type
- Separated Type
- Amplifier Only
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Detection Light Color
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Head Material
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Detection distance 【classification】(mm)
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Operating Environment
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Protection Structure
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Amplifier Function (Selectable only when Amplifier is installed)
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Fiber Type (Selectable only when Amplifier is not installed)
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Fiber clothing material
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Fiber minimum bend R(mm)
Related Categories to Fiber Units
FAQ Fiber Units for Sensors
- Question: What are the main types of fiber optic cables and their applications?
- Answer: Fiber Optic Cable Types and Applications:
1. Multimode Fiber (MMF): Applications for example, connecting servers within a data center for high-speed data transfer.
2. Single-mode Fiber (SMF): Applications for example, submarine cables, high-speed internet.
3. Dispersion-Shifted Fiber (DSF): Applications for example, high-bandwidth long-distance ,
Connecting undersea data centers for efficient data transmission.
4. Polarization-Maintaining Fiber (PMF): Applications for example,Optical sensors, coherent transmission systems.
5. Plastic Optical Fiber (POF): Applications for example, indoor applications, decorative lighting, connecting LED lights within a building for decorative purposes. - Question: How do fiber optic sensors work, and in what industries are they most commonly used?
- Answer: Fiber optic sensors work by utilizing the properties of light. When light travels through the fiber optic cable, any changes in the surrounding environment, like temperature, pressure, cause changes in the light's properties. These changes are then measured and converted into electrical signals, providing valuable information about the environment.
Example in each Industries:
1.Oil and Gas: Monitoring pipelines for leaks and corrosion, measuring pressure and temperature.
2.Aerospace: Sensing strain, vibration, and temperature in aircraft components.
3.Medical: Monitoring vital signs during surgery, measuring blood pressure and flow.
4.Civil Engineering: Monitoring structural integrity of bridges, buildings, and dams.
5.Telecommunications: Monitoring network performance and optimizing signal transmission. - Question: What are the differences between optical fiber and optic cables in terms of performance and usage?
- Answer: Although the terms "optical fiber" and "optic cable" sound different, they both refer to the same technology: a cable that transmits data using light through thin strands of glass or plastic. The core of this technology is the individual strand, known as "optical fiber," while the "optic cable" encompasses the entire assembly, including protective coatings and strengthening materials.
These cables are used across various applications, including providing high-speed internet access, powering the modern telecommunications infrastructure, connecting servers and storage devices within data centers, and even delivering cable TV signals. - Question: Can you explain the benefits and limitations of using fibre optic technology in data transmission?
- Answer: Benefits:
• High speed and bandwidth: Offers significantly higher data transmission rates compared to copper cables, enabling faster data transfer and supporting bandwidth-intensive applications.
• Low signal attenuation: Signals travel much farther with minimal degradation, allowing for long-distance data transmission without the need for repeaters.
• Immunity to electromagnetic interference: Unaffected by electrical noise and interference, ensuring reliable data transmission in critical environments.
• Lightweight and flexible: Cables are lighter and easier to handle than copper cables, making them ideal for complex installations.
Limitations:
• Cost: Fibre optic cables and equipment are generally more expensive than copper alternatives.
• Installation complexity: Requires specialized skills and tools for proper installation and maintenance.
• Fragility: Fibre optic cables are more fragile than copper cables and susceptible to damage from physical impacts. - Question: What factors should one consider when choosing the right fiber cables for a specific application?
- Answer: 1. Application: Distance, bandwidth needs, environmental conditions.
2. Cable type: Multimode or Single-mode based on distance and bandwidth.
3. Cable features: Core diameter, jacket type, and connector compatibility.
4. Cost and budget: Balancing performance, price, and future needs.
5. Regulations: Compliance with relevant standards like TIA/EIA or ISO/IEC.
6. Futureproofing: Choosing cables supporting future expansion and upgrades. - Question: How does one accurately measure and calculate the required length of fiber wire for an installation?
- Answer: 1. Plan the route: Carefully map the cable path, noting bends, obstacles, and elevation changes.
2. Measure straight sections: Use a measuring wheel or laser distance meter for accurate measurements.
3. Calculate bend allowance: Estimate additional length for bends based on bend radius and angle.
4. Utilize specialized tools: Consider Visual Optical Length Testers (VOLTs) for faster and more precise measurements.
5. Add buffer: Allow extra length for splicing, repairs, and future adjustments.
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