3 calculating fiber link attenuation, Calculating fiber link attenuation, Maintenance 9145elb nid hardware user’s manual – CANOGA PERKINS 9145ELB Network Interface Device Hardware User Manual

Maintenance

9145ELB NID Hardware User’s Manual

Checking Optical Power Levels

33

web site. The power level must be lower than the saturation level. If not, contact Canoga
Perkins Technical Support.

Figure 6-2 Measuring Receiver Input Power

6.2.3 Calculating Fiber Link Attenuation

Link attenuation measurement identifies potential problems with links that are on the threshold of
receiver sensitivity. Measure optical fiber links at the shortest wavelength of operation, as it is the
limiting factor in the loss budget. Use a power meter calibrated for the laser source, then factor in
approximately 1 dB for the connector loss from the patch cables between the 9145ELB and the
local device. (Each fiber connection can generate 0.5 dB of additional loss.)

If you cannot determine the Rx sensitivity, contact Canoga Perkins Technical Support for
assistance.

Follow these steps to calculate fiber link attenuation:

1. Determine transmitter output power as described in section 6.2.1.

2. Determine receiver input power as described in section 6.2.2.

3. Subtract receiver input power from transmitter output power. The result is the fiber link

attenuation.

Transmit Output Power

-7.0 dBm

Receiver Sensitivity

-28.2 dBm

Fiber Link Attenuation

21.2 dB

FIBER OPTIC
TRANSMITTER

FIBER OPTIC
RECEIVER

OPT

IC

A

L

P

O

WE
R

ME

TER

-2
4

dB
m

λ

= 1

300

nm

FIBER OPTIC
TRANSMITTER

FIBER OPTIC
RECEIVER

OPT

IC

A

L

P

O

WE

R

ME

TER

-2

4

dB

m

λ

= 1

300

nm

LOCAL SITE

REMOTE SITE