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The 0.9mm SC UPC SM Pigtail for Comm Networks stands as a critical connectivity solution engineered specifically for telecommunications and data communication networks requiring reliable, high-performance optical terminations. This single-mode pigtail serves as the essential interface between fiber optic cables and network equipment, providing a seamless transition in central offices, data centers, and communication hubs worldwide.
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Constructed with premium G.652D single-mode fiber, this pigtail delivers consistent performance across the 1310nm and 1550nm wavelength bands used in most communication networks, supporting data rates from 1Gbps to 400Gbps and beyond. The SC UPC connector features ultra-physical contact polishing that ensures excellent return loss characteristics, making it ideal for digital transmission systems where signal integrity is paramount.
Encased in a 0.9mm LSZH (Low Smoke Zero Halogen) buffer jacket, this pigtail offers enhanced handling characteristics during installation while meeting strict fire safety standards for enclosed spaces. Each unit undergoes rigorous testing to ensure compliance with Telcordia GR-326 and ITU-T G.652 standards, guaranteeing reliable performance in mission-critical communication infrastructure .
Low Insertion Loss ≤0.3dB at 1310nm/1550nm wavelengths, minimizing signal attenuation in network links .
High Return Loss ≥50dB due to UPC polishing, reducing back reflections in digital communication systems .
Wide Operating Wavelength Range: 1250nm to 1620nm, compatible with all standard single-mode applications .
Low Chromatic Dispersion: ≤6ps/nm/km at 1550nm, supporting long-haul communication links .
Precision SC UPC Connector with zirconia ceramic ferrule (φ2.5mm) ensuring consistent mating performance .
0.9mm LSZH Buffer Jacket for easy stripping and termination while providing fire safety compliance (UL 94 V-0) .
Smooth Fiber Transition between buffer and connector to prevent microbend losses in high-density installations .
Operating Temperature Range: -40°C to +85°C, suitable for central office and data center environments .
Mating Durability: >500 mating cycles with insertion loss variation <0.2dB, ensuring long-term connection stability .
RoHS 2 Compliant Materials meeting international environmental and safety regulations .
Primary connectivity solution in fiber distribution frames (FDFs), connecting backbone fibers to OLTs, cross-connects, and transmission equipment. The low loss characteristics support high-density wavelength division multiplexing (WDM) systems.
Facilitates connections between patch panels, switches, and routers in data center environments, supporting high-bandwidth services including cloud computing, big data analytics, and video streaming platforms.
Essential for connecting cell site equipment to core networks in 4G/5G mobile infrastructure. Supports the high-capacity requirements of wireless backhaul links with minimal signal degradation.
Ideal for structured cabling systems in corporate environments, providing reliable fiber connections between network closets, server rooms, and desktop equipment. Supports both current and future high-speed applications.
Provides calibrated reference connections in optical test equipment, ensuring accurate measurement of insertion loss, return loss, and dispersion in communication network components.
G.652D fiber offers excellent transmission characteristics across both 1310nm (0.35dB/km attenuation) and 1550nm (0.2dB/km attenuation) windows, with low dispersion that supports high-speed data transmission over long distances (up to 80km without amplification). Its universal compatibility makes it the industry standard for communication networks .
LSZH jackets produce minimal smoke and toxic gas during combustion compared to PVC alternatives, improving safety in enclosed spaces like data centers and central offices. They meet strict fire safety standards including UL 94 V-0 and IEC 60332-1, making them mandatory in many public and commercial buildings .
UPC polishing creates a 0.25μm smooth endface that achieves return loss ≥50dB, significantly reducing back reflections that can cause signal distortion in digital communication systems. This ensures reliable operation of high-speed transceivers (>10Gbps) commonly used in modern networks .
Constructed with premium G.652D single-mode fiber, this pigtail delivers consistent performance across the 1310nm and 1550nm wavelength bands used in most communication networks, supporting data rates from 1Gbps to 400Gbps and beyond. The SC UPC connector features ultra-physical contact polishing that ensures excellent return loss characteristics, making it ideal for digital transmission systems where signal integrity is paramount.
Encased in a 0.9mm LSZH (Low Smoke Zero Halogen) buffer jacket, this pigtail offers enhanced handling characteristics during installation while meeting strict fire safety standards for enclosed spaces. Each unit undergoes rigorous testing to ensure compliance with Telcordia GR-326 and ITU-T G.652 standards, guaranteeing reliable performance in mission-critical communication infrastructure .
Low Insertion Loss ≤0.3dB at 1310nm/1550nm wavelengths, minimizing signal attenuation in network links .
High Return Loss ≥50dB due to UPC polishing, reducing back reflections in digital communication systems .
Wide Operating Wavelength Range: 1250nm to 1620nm, compatible with all standard single-mode applications .
Low Chromatic Dispersion: ≤6ps/nm/km at 1550nm, supporting long-haul communication links .
Precision SC UPC Connector with zirconia ceramic ferrule (φ2.5mm) ensuring consistent mating performance .
0.9mm LSZH Buffer Jacket for easy stripping and termination while providing fire safety compliance (UL 94 V-0) .
Smooth Fiber Transition between buffer and connector to prevent microbend losses in high-density installations .
Operating Temperature Range: -40°C to +85°C, suitable for central office and data center environments .
Mating Durability: >500 mating cycles with insertion loss variation <0.2dB, ensuring long-term connection stability .
RoHS 2 Compliant Materials meeting international environmental and safety regulations .
Primary connectivity solution in fiber distribution frames (FDFs), connecting backbone fibers to OLTs, cross-connects, and transmission equipment. The low loss characteristics support high-density wavelength division multiplexing (WDM) systems.
Facilitates connections between patch panels, switches, and routers in data center environments, supporting high-bandwidth services including cloud computing, big data analytics, and video streaming platforms.
Essential for connecting cell site equipment to core networks in 4G/5G mobile infrastructure. Supports the high-capacity requirements of wireless backhaul links with minimal signal degradation.
Ideal for structured cabling systems in corporate environments, providing reliable fiber connections between network closets, server rooms, and desktop equipment. Supports both current and future high-speed applications.
Provides calibrated reference connections in optical test equipment, ensuring accurate measurement of insertion loss, return loss, and dispersion in communication network components.
G.652D fiber offers excellent transmission characteristics across both 1310nm (0.35dB/km attenuation) and 1550nm (0.2dB/km attenuation) windows, with low dispersion that supports high-speed data transmission over long distances (up to 80km without amplification). Its universal compatibility makes it the industry standard for communication networks .
LSZH jackets produce minimal smoke and toxic gas during combustion compared to PVC alternatives, improving safety in enclosed spaces like data centers and central offices. They meet strict fire safety standards including UL 94 V-0 and IEC 60332-1, making them mandatory in many public and commercial buildings .
UPC polishing creates a 0.25μm smooth endface that achieves return loss ≥50dB, significantly reducing back reflections that can cause signal distortion in digital communication systems. This ensures reliable operation of high-speed transceivers (>10Gbps) commonly used in modern networks .
