EXFO PM-1600 High-Speed Power Meter User Manual

Performing Typical Tests with Your PM-1600

66

PM-1600

Using the Analog Output

The user interface can be used to determine the operating power levels
and to optimize the analog output range. Choose the optimum power
range for your application. The following table provides the voltage vs.
power information for each available manual range.

Manual Range

Power vs. Voltage

a

a.

At 1310 nm.

LR1, HR1

2.15 V ± 25 %

b

at 18.30 dBm

c

b.

Large uncertainty is due to detector responsivity at 1310 nm.

c.

Not guaranteed due to detector saturation.

LR2, HR2

2.15 V ± 25 %

b

at 9.90 dBm

c

LR3, HR3

2.15 V ± 25 %

b

at −10.09 dBm

LR4, HR4

2.15 V ± 25 %

b

at −29.87 dBm

LR5

2.15 V ±25%

b

at −49.61 dBm or at 44.94

dBm for PM-16XXW models

LR6

2.15 V ±25%

b

at -69.61 dBm or at 64.10

dBm for PM-16XXW models

Performing Typical Tests with Your PM-1600

66

PM-1600

Using the Analog Output

The user interface can be used to determine the operating power levels
and to optimize the analog output range. Choose the optimum power
range for your application. The following table provides the voltage vs.
power information for each available manual range.

Manual Range

Power vs. Voltage

a

a.

At 1310 nm.

LR1, HR1

2.15 V ± 25 %

b

at 18.30 dBm

c

b.

Large uncertainty is due to detector responsivity at 1310 nm.

c.

Not guaranteed due to detector saturation.

LR2, HR2

2.15 V ± 25 %

b

at 9.90 dBm

c

LR3, HR3

2.15 V ± 25 %

b

at −10.09 dBm

LR4, HR4

2.15 V ± 25 %

b

at −29.87 dBm

LR5

2.15 V ±25%

b

at −49.61 dBm or at 44.94

dBm for PM-16XXW models

LR6

2.15 V ±25%

b

at -69.61 dBm or at 64.10

dBm for PM-16XXW models