Electrode of COMWAY

Electrode of COMWAY

Price: Rs 5900.00

COMWAY CE-03 High-Performance Electrodes

With Electrode ID • Up to 5000 Arc Discharges • Original COMWAY Spare Part

The COMWAY CE-03 electrodes are high-performance replacement electrodes designed for COMWAY optical fusion splicer machines. These electrodes provide stable arc discharge, precise fiber fusion, low splice loss, and reliable long-term performance for professional fiber optic installation and maintenance work.

Each electrode set comes with an Electrode ID Card for activation and performance calibration, ensuring proper compatibility and optimal operation with supported COMWAY fusion splicer models.

Model
CE-03
Electrode ID
Included
Lifespan
5000 Arcs
Application
Fusion Splicing

Key Features

✔ Includes Electrode ID Card for Activation
✔ Stable Arc Discharge Performance
✔ Consistent Low-Loss Fiber Splicing
✔ Long Lifespan up to 5000 Arc Discharges
✔ High Precision & Durable Construction
✔ Easy Replacement and Maintenance

Technical Specifications

Parameter Specification
Product Model COMWAY CE-03
Product Type Fusion Splicer Electrode
Electrode ID Included — Activation Required
Lifespan Up to 5000 Arc Discharges
Application Optical Fiber Fusion Splicing
Performance Stable Arc, Accurate Fiber Fusion, Low Splice Loss

Compatible COMWAY Models

Supported Models:

C10S • C6S • C6S+ • C10 • C9 • C8 • C6 • C5 • A33 • A3 • A4

Available Electrodes for Other Brands

Brand Supported Models
COMWAY C6, C8S, C10S
Fujikura 22S, 38S, 48S, 50S, 60S, 80S, 62C+
Sumitomo Z1C, Z2C, 82C
INNO View 6C
Tumtec 18S, 18H, 83A, V9+

D-TECH Fusion Splicer Spare Parts

At D-TECH Trading Nepal, we supply fusion splicer electrodes, batteries, chargers, touch screens, cleaver blades, fiber holders, adapters, and other spare parts for COMWAY, Fujikura, INNO, Sumitomo, Tumtec, FiberFox, UCL Swift, and other major brands.

Maintenance Note:
Regular replacement of electrodes is recommended after reaching the maximum arc count to maintain stable arc discharge, low splice loss, and optimal fusion splicer performance.