SKYCOM Precision Fiber Fusion Splicer T3X-MAX
The SKYCOM T3X-MAX Fusion Splicer features a 5-inch HD rotatable LCD, 8s splice time, and 20s tube heating for high efficiency. With 520×/230× magnification, advanced core alignment, and strong wind & dust resistance, it ensures precise and reliable splicing. Powered by a long-lasting lithium battery (up to 220 cycles), it supports Auto/Manual modes, USB connectivity, and storage for 10,000 splice results, making it ideal for demanding fiber optic projects.
The characteristics of Fusion Splicer T3X-MAX
1> 5 inches high resolution colorful LCD display, image can be turned according to position
2> Average splice time: 8 seconds
3> Average tube-heat time: 20 seconds
4> Lithium battery: Rechargable and up to 220 times of continuous splice and heat after fully charged
5> X or Y axis Separately views with 520 times magnification, or Simultaneously 230 times
6> Storing 10,000 groups of latest splice results
Precision Lab & High-Demand Network Installations
The T3X-MAX is optimized for precision-intensive environments where minimal splice loss and professional accuracy are essential. Typical use cases include:
● Laboratory Testing & Research: Accurate fiber testing for telecom research labs, universities, and development centers.
● Core Network Installations: Deploying backbone fibers in data centers, network hubs, and metropolitan networks with strict performance requirements.
● Enterprise & Critical Infrastructure Projects: Connecting sensitive networks for hospitals, financial institutions, or government facilities.
● High-Performance Multi-Mode Networks: Splicing different fiber types (single-mode, multi-mode) in projects requiring versatile solutions.
● Professional Training & Certification: Ideal for fiber optic training centers or advanced technician certification programs.
Key benefits: High-magnification cameras and image processing ensure professional-grade precision; multiple splicing modes allow flexibility; consistent low splice loss ensures long-term network reliability.
Specification:
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 |
Precision Lab & High-Demand Network Installations
1. Power On & System Preparation
● Press and hold the power button; wait for high-resolution display self-check.
● Inspect camera, lens, and fiber holders for cleanliness.
2. Fiber Preparation
● 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).
3. Splicing Operation
● 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.
4. Precision Inspection & Recording
● 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.
T3X-MAX – FAQ
Q1: What makes it suitable for high-precision applications?
A1: The T3X-MAX uses advanced core alignment technology and high-magnification imaging (520× separate, 230× simultaneous), providing extremely low splice loss and professional-grade accuracy for lab testing, enterprise networks, and critical infrastructure projects.
Q2: Does it support multiple splicing modes?
A2: Yes, it offers Auto, Manual, and Full-Auto modes, adapting to different project needs. Operators can choose the optimal mode for single-mode, multi-mode, or mixed fiber types, ensuring precise results under varying conditions.
Q3: Can splice records be saved for documentation?
A3: Yes, the T3X-MAX allows operators to save and export splice data, including images and loss results. This feature is essential for quality assurance, project reporting, and verification in core networks and high-demand installations.
SKYCOM Precision Fiber Fusion Splicer T3X-MAX
The SKYCOM T3X-MAX Fusion Splicer features a 5-inch HD rotatable LCD, 8s splice time, and 20s tube heating for high efficiency. With 520×/230× magnification, advanced core alignment, and strong wind & dust resistance, it ensures precise and reliable splicing. Powered by a long-lasting lithium battery (up to 220 cycles), it supports Auto/Manual modes, USB connectivity, and storage for 10,000 splice results, making it ideal for demanding fiber optic projects.
The characteristics of Fusion Splicer T3X-MAX
1> 5 inches high resolution colorful LCD display, image can be turned according to position
2> Average splice time: 8 seconds
3> Average tube-heat time: 20 seconds
4> Lithium battery: Rechargable and up to 220 times of continuous splice and heat after fully charged
5> X or Y axis Separately views with 520 times magnification, or Simultaneously 230 times
6> Storing 10,000 groups of latest splice results
Precision Lab & High-Demand Network Installations
The T3X-MAX is optimized for precision-intensive environments where minimal splice loss and professional accuracy are essential. Typical use cases include:
● Laboratory Testing & Research: Accurate fiber testing for telecom research labs, universities, and development centers.
● Core Network Installations: Deploying backbone fibers in data centers, network hubs, and metropolitan networks with strict performance requirements.
● Enterprise & Critical Infrastructure Projects: Connecting sensitive networks for hospitals, financial institutions, or government facilities.
● High-Performance Multi-Mode Networks: Splicing different fiber types (single-mode, multi-mode) in projects requiring versatile solutions.
● Professional Training & Certification: Ideal for fiber optic training centers or advanced technician certification programs.
Key benefits: High-magnification cameras and image processing ensure professional-grade precision; multiple splicing modes allow flexibility; consistent low splice loss ensures long-term network reliability.
Specification:
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 |
Precision Lab & High-Demand Network Installations
1. Power On & System Preparation
● Press and hold the power button; wait for high-resolution display self-check.
● Inspect camera, lens, and fiber holders for cleanliness.
2. Fiber Preparation
● 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).
3. Splicing Operation
● 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.
4. Precision Inspection & Recording
● 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.
T3X-MAX – FAQ
Q1: What makes it suitable for high-precision applications?
A1: The T3X-MAX uses advanced core alignment technology and high-magnification imaging (520× separate, 230× simultaneous), providing extremely low splice loss and professional-grade accuracy for lab testing, enterprise networks, and critical infrastructure projects.
Q2: Does it support multiple splicing modes?
A2: Yes, it offers Auto, Manual, and Full-Auto modes, adapting to different project needs. Operators can choose the optimal mode for single-mode, multi-mode, or mixed fiber types, ensuring precise results under varying conditions.
Q3: Can splice records be saved for documentation?
A3: Yes, the T3X-MAX allows operators to save and export splice data, including images and loss results. This feature is essential for quality assurance, project reporting, and verification in core networks and high-demand installations.
