Fiber Optic Pigtail Types

OM3 fiber optic pigtails are engineered for reliable fusion and mechanical splicing in high-speed fiber optic networks. Pre-terminated for fast and efficient field installation, they simplify fiber termination while ensuring consistent optical performance. Manufactured with bend-insensitive OM3 multimode fiber, these pigtails maintain low signal attenuation even when routed through tight bends or confined spaces. The durable 900 µm tight-buffered construction protects the fiber from mechanical stress and allows quick, easy stripping for splicing. Compared with conventional pigtails, they provide greater installation flexibility, improved cable protection, and enhanced long-term reliability, making them an ideal choice for data centers, enterprise networks, LANs, and other high-bandwidth multimode cabling applications.

Fiber Optic Pigtail Connector Advantage Specifications

Connector A：LC UPC Simplex
Connector B：Unterminated
Fiber Mode：OM3 50/125μm
Wavelength：850/1300nm
Fiber Count：1 Fibers
Cable Type：Tight-Buffered
Cable Outside Diameter (OD)：0.9mm
Cable Jacket：PVC (Unrated)
Min. Bend Radius (Optical Fiber)：7.5mm
Min. Bend Radius (Fiber Cable)：20/10D (Dynamic/Static)
Connector Durability：1000 times
Insertion Loss：≤0.30dB
Return Loss：≥30dB
Attenuation at 850nm：0.30dB/km
Attenuation at 1300nm：1.0dB/km
Vibration：≤0.2dB
Interchangeability：≤0.2dB
Operating Temperature：-40 to 75°C (-40 to 167℉)
Storage Temperature：-45 to 85°C (-49 to 185℉)

Fiber Optic Tails Advantages

1、Low insertion loss and high return loss
2、Fast and reliable fiber termination
3、Supports fusion and mechanical splicing
4、Bend-insensitive fiber for flexible routing
5、Durable tight-buffered construction
6、Easy-strip coating for quick installation
7、Multiple connector types and polish options
8、Factory tested for consistent performance
9、Ideal for FTTH, data centers, and telecom networks
10、Long service life with stable optical transmission

Fiber Pigtails Types Features:

1、Factory-polished for consistent performance
2、Low insertion loss, high return loss
3、Supports fusion and mechanical splicing
4、Premium zirconia ceramic ferrule
5、Easy-strip tight-buffered fiber
6、Bend-insensitive fiber available
7、Multiple connector and polish options
8、Durable and reliable construction
9、Color-coded for easy identification
10、100% factory tested before shipment

Pigtail Fiber Applications

Fiber optic pigtails are widely used for fiber termination and splicing in telecommunications, data centers, FTTH networks, enterprise cabling, and broadband communication systems. They are ideal for optical distribution frames (ODF), fiber termination boxes, patch panels, LAN/WAN infrastructures, PON networks, CATV systems, and industrial fiber optic applications. Their reliable optical performance and easy installation make them an excellent choice for building, expanding, and maintaining modern fiber optic networks.

Fiber Tails Detection

Performance testing for fiber optic patch cords falls into the following categories:
1. Optical performance testing: Includes return loss and insertion loss measurements. The FibKey 7602 integrated return loss/insertion loss tester is commonly used for this purpose.
2. End-face geometry testing: Parameters measured include radius of curvature, apex offset, and fiber height. Interferometers are used for this testing; the Norland AC/NC3000 or CC6000 models are widely adopted. The CC6000, in particular, is increasingly used in factories due to its excellent cost-performance ratio.
3. Fiber end-face scratch inspection: Video fiber microscopes are used for observation; for example, many factories use the FibView FV-400PA. This instrument provides exceptionally clear images and is extremely easy to operate. Some customers also use the FibKey-5600 variable-magnification microscope, which integrates 400x, 200x, and 80x magnification capabilities, allowing for clear and convenient inspection of both the fiber end-face and the ferrule end-face. Automated inspection using specialized software is also an option.
4. Fiber tensile testing: Measures the tensile force that the fiber optic connector can withstand.
5. Environmental temperature testing: Evaluates the performance metrics of the fiber optic connector under varying ambient temperatures.