Fiber of 2 colors |
There are aramid yarns inside, protective fibers do not snap |
Cable count |
Outer sheealth diameter (mm) | Maximum Tensile Load (N) | Minimum Crush Load (N/100mm) | Minimum Bending Radius (mm) |
Storage Temp. (oC) Â |
|||
Short term | Long term | Short term | Long term | Short term | Long term | |||
12 | 6.0 (±0.5) | 1500 | 600 | 1000 | 300 | 20D | 10D | -40 + 60 |
FIBER PERFORMANCE (ITU-G.652) | Item | Specifications |
Mode field diameter(μm) | 1310 nm            9.2±0.4 | |
1550nm          10.5±0.4 | ||
Coating diameter(μm)             | 245±7 | |
Coating non-circularity (%)Â Â Â Â Â Â Â Â | <6.0 | |
Mode field /cladding concentricity error (μm)          | ≤0.6 | |
Cladding diameter(μm) | 125.0±1 | |
Cladding non-circularity (%) | <1.0 | |
Attenuation(dB/Km) | 1310mm          ≤0.35 | |
1550nm           ≤0.21 | ||
1625nm      ≤0.24 | ||
Cut-off wavelength (nm) |    2m(λc)        1150~1330 | |
20m cable +2m fiber (λcc)          <1260 |
FIBER PERFORMANCE (ITU-G.652) | Item | Specifications | |
Dispersion | Zero dispersion wavelength(m)Â Â Â Â Â Â 1300~1322 | ||
Zero dispersion slope(ps/nm2.Km)   ≤0.092 | |||
Chromatic dispersion (Ps/nm2.Km) | 1285~1330nm   ≤3.1 | ||
1550nm         ≤18 | |||
1625nm         ≤22 | |||
 | Fiber color | Blue, orange, green, brown, slate, white, red, black, yellow, violet, pink and aqua |
Fiber of 2 colors |
There are aramid yarns inside, protective fibers do not snap |
Cable count |
Outer sheealth diameter (mm) | Maximum Tensile Load (N) | Minimum Crush Load (N/100mm) | Minimum Bending Radius (mm) |
Storage Temp. (oC) Â |
|||
Short term | Long term | Short term | Long term | Short term | Long term | |||
12 | 6.0 (±0.5) | 1500 | 600 | 1000 | 300 | 20D | 10D | -40 + 60 |
FIBER PERFORMANCE (ITU-G.652) | Item | Specifications |
Mode field diameter(μm) | 1310 nm            9.2±0.4 | |
1550nm          10.5±0.4 | ||
Coating diameter(μm)             | 245±7 | |
Coating non-circularity (%)Â Â Â Â Â Â Â Â | <6.0 | |
Mode field /cladding concentricity error (μm)          | ≤0.6 | |
Cladding diameter(μm) | 125.0±1 | |
Cladding non-circularity (%) | <1.0 | |
Attenuation(dB/Km) | 1310mm          ≤0.35 | |
1550nm           ≤0.21 | ||
1625nm      ≤0.24 | ||
Cut-off wavelength (nm) |    2m(λc)        1150~1330 | |
20m cable +2m fiber (λcc)          <1260 |
FIBER PERFORMANCE (ITU-G.652) | Item | Specifications | |
Dispersion | Zero dispersion wavelength(m)Â Â Â Â Â Â 1300~1322 | ||
Zero dispersion slope(ps/nm2.Km)   ≤0.092 | |||
Chromatic dispersion (Ps/nm2.Km) | 1285~1330nm   ≤3.1 | ||
1550nm         ≤18 | |||
1625nm         ≤22 | |||
 | Fiber color | Blue, orange, green, brown, slate, white, red, black, yellow, violet, pink and aqua |
EPS basic working principle similar to the backup UPS or inverter, that is, when the electricity is normal, the electricity through the EPS mains bypass directly to the load, when the utility power, EPS switch to the battery inverter power supply to the load. Applicable to emergency panel lights and the like, you can adjust the control current to reach the emergency control of the voltage, control energy.
For most in the lighting industry industry there is a very real learning curve as we explore the intricacies, applications, limitations and potential of this amazing light source. Despite the curve, use of LED lighting for general lighting purposes is rapidly growing. Its popularity is not a mystery. LED technology is continually
improving. LEDs offer long life and high efficiency, have low operating costs and are lead and mercury free.
As with other types of lighting, LED lighting must meet the life safety code requirements for emergency illumination. LED fixtures serving as emergency units
must, therefore, provide at least 90 minutes of emergency lighting. Philips Bodine emergency LED drivers and emergency lighting inverters allow these fixtures
to meet or exceed code.
LED Emergency Driver
LED Emergency Driver,LED Emergency Lights,Emergency Light,LED Warning Lights
ShenZhen Fahold Electronic Limited , http://www.fahold.com