Agilent Technologies 86142B User Manual page 45

Optical spectrum analyzer

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1 From the front panel, press System > Options > Light Source > Select Off.

Using the Instrument

Setting Up Measurements

Operating the Internal White Light Source

For Option 002 only

Option 002 provides a built-in white light source which is a stable, broadband

light source for swept-wavelength stimulus response testing from 900 nm to

1700 nm. The light source is ideal to perform stimulus-response measure-

ments, and measure photodetector responsivity.

page

3-33.

Although the light source's lamp lasts an exceptionally long time, turn off the

light when not in use to extend the lamp's lifetime. On the front panel, press

System, Optimum, Light Source, Select off.

Performing Stimulus-Response Measurements

Stimulus-response measurements characterize optical components for loss

(or gain) versus wavelength. You can characterize devices such as couplers,

switches, filters, fibers, and amplifiers.

To perform stimulus-response measurements, you must have an amplitude-

stable broadband light source. Although a white-light source provides the wid-

est wavelength input for stimulus-response measurements, you can also use

an LED or the spontaneous emission from an optical amplifier.

The displayed response is a convolution of the analyzer's resolution bandwidth

and the amplitude response of the device under test. Because of this convolu-

tion, the analyzer's resolution bandwidth affects both dynamic range and the

ability to resolve large amplitude changes versus wavelength. Wide resolution

bandwidths increase the ability to resolve large amplitude changes.

You can display two responses at the same time. The output response versus

wavelength is displayed. The displayed trace shows the ratio of the output

power to the input power expressed as a logarithm (dB).

response (dB) = 10 log

Making ratioed measurements is sometimes referred to as normalization. Nor-

malized measurements are used to negate wavelength dependencies in the

source. The ratio is achieved through simple trace subtraction using logarith-

mic amplitude scales. This is possible because of the following logarithmic

equality:

2-4

output power

------------------------------------

input power

Refer to "Light Source" on

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86140b 86141b 86144b 86146b86140b series86143b

Agilent Technologies 86142B User Manual page 45

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