The SKYCOM T3X-MAX represents a high-performance solution for demanding fiber optic projects requiring reliable core alignment. Our precision fiber fusion splicer integrates a five-inch high-resolution touch screen with a durable lithium battery supporting up to 220 continuous cycles. Telecom technicians benefit from rapid eight-second splicing and twenty-second tube heating capabilities. We engineer our optical fiber splicing machine to deliver consistent accuracy across varying environmental conditions. Professionals can easily manage extensive data through substantial internal storage designed for ten thousand splice results.
Applicable Fibers | SM, MM, NZ-DS, EDF, Pigtail, Cable (rubber-insulated wire), SC/LC/FC connector (optional function) |
Average Splice Loss | 0.02dB(SM), 0.01dB(MM), 0.04dB(NZDS), 0.04dB(EDF) |
Fiber Diameter | Cladding: 80-150μm,Coating: 100-3000μm |
Fiber Cleaved Length | 5mm to 16mm |
Return Loss | ≥60dB |
Tension Test | 2.0N(200gf)(Standard) |
Typical Splicing Time | 8 seconds |
Typical Heating Time | 20 seconds |
Splicing Program | 50 groups |
Protection Sleeve Length | 40mm, 45mm, 60mm |
Operating Language | Chinese, English, French, Portuguese, Spanish, Russian |
Operating Conditions | -10~+50°C(operation temperature),0~95% RH(humidity), 0~5000m(altitude) |
Power Supply | AC adaptor: 100~240V input voltage, 50/60Hz; 15V, 5A output voltage(DC) Inner lithium battery: 11.1V, 6.0AH |
Monitor | 5 inches high resolution touch screen |
Fiber Image Magnification | X or Y axis Separately views 520x times magnification, or Simultaneously 230x times |
Storage of Splice Result | 10,000 Splice, 100 images |
Electrode Life | 3,500 times |
Splicing Model | Auto & Manual & Full Auto & intelligent |
Dimensions | 130(W)*138(D)*135(H)mm; |
Weight | 1.69kg without battery; |
Fiber Identifier | Automatically identify SM or MM fiber |
Our core alignment fiber splicer utilizes sophisticated imaging systems to ensure minimal signal loss across networks. Operators gain unparalleled visibility through independent X or Y axis views featuring 520x magnification. The simultaneous viewing mode provides 230x magnification for comprehensive alignment verification before operation. This detailed optical inspection capability guarantees optimal connections for critical infrastructure. Network engineers rely on these high-magnification cameras to maintain stringent professional standards during complex deployments.
Efficiency remains central to our FTTH splicing equipment design for large-scale fiber deployments. The system completes a standard splice in just eight seconds while requiring only twenty seconds for average tube heating. This accelerated processing speed significantly reduces overall project timelines for enterprise network installations. Technicians can maximize daily productivity without sacrificing the structural integrity of the fiber connection. The optimized thermal processing accommodates standard protection sleeve lengths seamlessly.
Extended field operations demand the resilient power management engineered into our telecom fusion splicer. The internal lithium battery delivers sustained energy for approximately two hundred and twenty continuous operations upon full charge. Field technicians can confidently execute full-day assignments without requiring frequent recharging interruptions. The device also features extensive memory capacity capable of retaining ten thousand individual splice results alongside one hundred images. This integrated data management simplifies subsequent project documentation and quality assurance reporting.
Our precision tool serves as an essential device for technicians establishing backbone connectivity across urban environments. The equipment handles strict performance requirements necessary for data centers and central network hubs. Consistent low-loss splicing ensures reliable data transmission across extensive metropolitan distances. Infrastructure developers depend on this accuracy to prevent signal degradation in high-capacity broadband systems. The versatile design accommodates various fiber types encountered during complex municipal telecom upgrades.
Financial institutions and government facilities require absolute data security starting at the physical network layer. Our T3X-MAX facilitates the precise construction of these sensitive enterprise networks with professional accuracy. Technicians utilize the automated splicing modes to adapt to specific on-site environmental challenges. The robust construction withstands demanding field conditions while maintaining laboratory-grade precision. Reliable physical connections established by the device ensure long-term stability for mission-critical enterprise communications.
Field deployment speed increases drastically when technicians utilize our optimized fiber connection solutions. The intuitive interface and responsive touch screen minimize the learning curve for new operators entering the field. Automated fiber identification and intelligent splicing models reduce manual configuration errors during high-volume projects. The strong environmental resistance protects the internal optics during challenging assignments. Teams complete their daily installation quotas faster while maintaining exceptional connection quality.
Consistent performance metrics directly influence the lifespan and stability of the installed fiber optic network. Our equipment maintains a remarkably low average splice loss to preserve signal integrity across numerous connections. The extended electrode life of three thousand and five hundred uses ensures sustained operational quality before maintenance is required. Project managers experience fewer network failures and reduced troubleshooting callbacks after initial deployment. This reliability ultimately lowers the total cost of ownership for telecommunication service providers.
Press and hold the power button; wait for high-resolution display self-check. Inspect camera, lens, and fiber holders for cleanliness.
Strip fiber jacket precisely, leaving ~10mm exposed fiber. Use high-precision cleaning tools for fiber end faces. Select the correct mode for fiber type (single-mode or multi-mode).
Place fibers in holders and select appropriate mode: Auto / Manual / Full-Auto. Use high magnification to ensure precise alignment for minimal splice loss. Perform tube heating; adjust time manually if special heat shrink tubes are used.
Verify splice loss and fiber alignment on the screen; ensure it meets core network standards. Save or export splice records for documentation. Replace electrodes regularly to maintain lab-grade accuracy. Tips: T3X-MAX is designed for high-precision environments; advanced alignment and multi-mode capability ensure optimal results every time.
Nanjing SKYCOM Communications Ltd has continuously driven innovation in fiber optic maintenance tools since our establishment. We operate a specialized three thousand square meter manufacturing facility equipped with advanced production technology. Our dedicated research and development team ensures strict compliance with ISO quality and environmental management standards. We consistently deliver reliable network hardware to top telecom operators and global infrastructure projects. Clients trust our rigorous testing protocols and proven industry expertise for critical deployments.
Our device uses advanced core alignment technology and high-magnification imaging to provide extremely low splice loss and professional-grade accuracy for critical infrastructure projects.
Yes, it offers Auto, Manual, and Full-Auto modes to adapt to different project needs and fiber types.
Yes, the equipment allows operators to save and export splice data including images and loss results for project reporting and verification.
