Fusion splicing is a critical process in telecommunications, particularly in the realm of fiber optics. Choosing the right fusion splicer is essential for ensuring the quality and reliability of the splice, which can significantly impact the overall performance of a fiber optic network. This article
In the fast-paced world of modern telecommunications, the demand for high-speed, reliable data transmission has never been greater. As the backbone of this industry, fiber optic technology plays a crucial role in meeting these demands. At the heart of fiber optic deployment and maintenance lies a cr
What is a Fusion Splicer? Fusion splicing is a technique used to connect two optical fibers end-to-end. This method is primarily used in telecommunications to enable the transmission of data over long distances. The process involves aligning the fibers so that the light signals can pass through wit
Fusion splicing is the process of joining two optical fibers end-to-end using heat. This method is preferred over other techniques such as mechanical splicing because it provides a permanent bond that minimizes signal loss and reflection. Fusion splicing is used in various applications including tel
In this digital age, the demand for high-speed internet and reliable communication networks has never been greater. At the heart of these networks lies fiber optic technology, which offers unparalleled speed and bandwidth. However, the efficiency and effectiveness of fiber optic networks heavily dep
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What is a multi-fiber fusion splicer? A multi-fiber fusion splicer is a specialized device designed to join multiple optical fibers together by fusing them at high temperatures. This advanced technology is particularly crucial in the telecommunications industry, where it is used to create robust an
In the ever-evolving realm of telecommunications, the backbone network stands as the bedrock of connectivity, reliability, and speed. As we venture deeper into the digital age, the demand for high-speed internet, seamless data transfer, and robust communication systems has never been greater. At the
Fusion splicing is the process of fusing two optical fibers together to form a continuous low-loss joint. The application of fusion splicing in the FTTH fiber network is important because it allows for the efficient and reliable transmission of data over long distances. FTTH networks typically use s
Introduction In the rapidly advancing world of telecommunications, the construction and maintenance of optical fiber networks have become paramount. As we delve into the future of this industry, one pivotal tool stands out: the mass fusion splicer. This device not only enhances efficiency but also
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X-5004
SHINHO
Product Description
Features For X-5004 Optical Fiber Identifier
◆ Digital display relative optical power
◆ Online fiber testing
◆ Identifies 3 common test tones,270Hz,1kHz and 2kHz
◆ Identifies 3 dominant traffic direction, audible alarm
◆ Low false detection & insertion loss
◆ Low power consumption, portable and easy to operation
◆ Equipped with a hood to test more accurately outdoors
◆ Provide corresponding adapter for 250μm bare fiber, 0.9mm/2mm/3mm patch cord
SPECIFICATIONS
Identified Wavelength Range | 800-1700nm | |
Identified Signal Type | CW, 270Hz±5%, 1kHz±5%, 2kHz±5% | |
Detector Type | InGaAs 2pcs | |
Adapter Type | Ø0.25/Ø0.9/ Ø2.0/Ø3.0 | |
Signal Direction | Left & Right LED | |
Singe Direction Test Range (dBm, CW/0.9mm Bare Fiber) | -46~10 (1310nm) | |
-50~10 (1550nm) | ||
Signal Power Test Range | -50~+10 (dBm, CW/0.9mm bare fiber) | |
Signal Frequency Display (Hz) | 270, 1k, 2k | |
Frequency Test Range (dBm, Average Value) | Ø0.9, Ø2.0, Ø3.0 | -30~0 (270Hz,1kHz) |
-25~0 (2kHz) | ||
0.25 | -25~0 (1kHz,2kHz) | |
-20~0 (2kHz) | ||
Insertion Loss (dB, Typical Value) | 0.8 (1310nm) | |
2.5 (1550nm) | ||
Alkaline Battery | 9V | |
Operating Temperature | -10℃~+60℃ | |
Storage Temperature | -25℃~+75℃ | |
Dimension/Weight | 195x30x27mm/200g | |
Package | X-5004 fiber identifier; user manual; fifiber adapter; soft carrying bag |
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