The Fiber Fox Fusion Splicer
is engineered for modern fiber-optic installations — from FTTH and FTTx
rollouts to backbone, metro and datacenter splicing. Its advanced automatic
core-alignment system accurately centers singlemode and multimode fibers before
fusion, producing repeatable, low-loss splices even in challenging field
conditions.
Designed for real technicians, Fiber
Fox combines a fast splice/heater cycle, intuitive touchscreen UI, rugged
compact housing and a battery system that supports long shifts. The splicer
includes a large, bright display for clear alignment observation, programmable
splice recipes for different fiber types, and a suite of diagnostic tools (loss
estimator, splice image storage and arc calibration) that make quality control
simple and auditable.
Whether you’re terminating fiber to
homes, repairing breaks in the field, or building out enterprise networks, the
Fiber Fox balances precision, speed and portability — helping teams finish jobs
faster with fewer reworks.
Technical
specifications
- Alignment method:
Automatic core alignment (image-based)
- Applicable fibers:
SM (ITU-T G.652/G.657), MM (OM1/OM2/OM3/OM4), DS, NZDS, 鍍覆 fibers
- Average splice loss (typical): 0.02–0.1 dB (singlemode); 0.01–0.03 dB (multimode)
- Typical splice time:
7–12 seconds (singlemode, normal mode)
- Typical heater time:
15–40 seconds (depends on sleeve)
- Tension test:
standard tension test available (e.g., 1.96 N/200 g)
- Display:
4.3"–5.0" color LCD (high brightness)
- Battery:
removable Li-ion pack (e.g., 4000–5200 mAh) — supports 200–350 splices per
charge (splice + heat)
- Electrode life:
>2,000 – 5,000 arcs (replaceable)
- Storage:
internal memory for >10,000 splice records; SD/USB export supported
- Operating temperature: typically −10°C to +50°C (model dependent)
- Humidity:
up to 95% non-condensing
- Dimensions / Weight:
compact and lightweight for field portability (model dependent)
- Power:
AC adapter 100–240V input; DC charge via vehicle adapter (optional)
- Certifications:
CE, RoHS (model dependent)