Fiber optic slip rings are rotating joints that transmit optical signals through optical prisms, with one end fixed and the other end capable of relative rotational motion.
FORJ-XM-S is a single channel fiber slip ring made of stainless steel material. The fiber length and fiber interface size can be customized according to customer requirements, and can be used in conjunction with electrical slip rings and rotary joints. The external dimensions can also be customized
Exquisite structure, compact, and reliable
·Low loss
Optical signal transmission, no electromagnetic leakage, anti electromagnetic interference
Non contact transmission, no wear and tear
·Due to the absence of worn parts, the lifespan is extremely long
And it can be used in conjunction with electrical slip rings and rotary joints to achieve comprehensive transmission of light, electricity, gas, etc
application
Radar, meteorological monitoring, underwater robots, fiber optic reels, cable reels, etc
Standard model | |||
Fiber type | Fiber type | No. | L |
Single mode | FORJ-SM-S | ||
Multimode | FORJ-MM-S | ||
Interface and fiber optic | |||
Interface type | FC/PC can also choose SC, ST, and LC by default | ||
The tail fiber has a reserved length of 1M and an outer diameter of about 3mm |
Optical parameters | Mechanical properties | ||
Fiber type | Single mode 9/125u Multi mode 50/125 μ m or 62.5/125 μ m | Speed | 2000RPM |
Working wavelength | Single mode 380-1650nm (default 1310&1550nm) Multimode 380-1650nm (default 850&1300nm) | Shell Material | Stainless steel |
Insertion loss | ≤1.5dB | Contact materials | Optional high silver alloy or precise gold contacts |
Rotational variation | ≤0.5dB | Operation temperature | -40°C.. +85°C [-40°F ..+185°F] |
Return Loss | ≥40dB | protection grade | IP60 |
Maximum optical power | 25dBm | Vibration standards | MIL-STD-167-1A |
Mechanical shock | MIL-STD-810G | ||
0ptionals: | |||
Fiber type | Fiber optic working wavelength | ||
Housing material | Fiber optic tail fiber type | ||
Fiber length and size | Installation method |