Agilent 81480A and
Agilent 81680A, 81640A, 81682A, 81642A, & 81689A
Tunable Laser Modules
User’s Guide
S1
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Safety Summary
Safety Summary
The following general safety precautions must be observed during all
phases of operation, service, and repair of this instrument. Failure to
comply with these precautions or with specific warnings elsewhere in
this manual violates safety standards of design, manufacture, and
intended use of the instrument. Agilent Technologies Inc. assumes no
liability for the customer’s failure to comply with these requirements.
Before operation, review the instrument and manual, including the
red safety page, for safety markings and instructions. You must follow
these to ensure safe operation and to maintain the instrument in safe
condition.
WARNING
The WARNING sign denotes a hazard. It calls attention to a procedure,
practice or the like, which, if not correctly performed or adhered to,
could result in injury or loss of life. Do not proceed beyond a
WARNING sign until the indicated conditions are fully understood and
met.
Safety Symbols
The apparatus will be marked with this symbol when it is necessary
for the user to refer to the instruction manual in order to protect the
apparatus against damage.
Hazardous laser radiation.
Initial Inspection
Inspect the shipping container for damage. If there is damage to the
container or cushioning, keep them until you have checked the
contents of the shipment for completeness and verified the instrument
both mechanically and electrically.
The Performance Tests give procedures for checking the operation of
the instrument. If the contents are incomplete, mechanical damage or
defect is apparent, or if an instrument does not pass the operator’s
checks, notify the nearest Agilent Technologies Sales/Service Office.
WARNING
To avoid hazardous electrical shock, do not perform electrical tests
when there are signs of shipping damage to any portion of the outer
enclosure (covers, panels, etc.).
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Safety Summary
WARNING
You MUST return instruments with malfunctioning laser modules to
an Agilent Technologies Sales/Service Center for repair and
calibration.
Line Power Requirements
The Agilent 81480A, Agilent 81680A, Agilent 81640A, Agilent 81682A,
Agilent 81642A, & Agilent 81689A Tunable Laser Modules operate
when installed in the Agilent 8164A Lightwave Measurement System.
The Agilent 81689A also operates when installed in the Agilent 8163A
Lightwave Multimeter or Agilent 8166A Lightwave Multichannel
System.
Operating Environment
The safety information in the Agilent 8163A Lightwave Multimeter,
Agilent 8164A Lightwave Measurement System, & Agilent 8166A
Lightwave Multichannel System User’s Guide summarizes the
operating ranges for the Agilent 81480A, Agilent 81680A,
Agilent 81640A, Agilent 81682A, Agilent 81642A, & Agilent 81689A
Tunable Laser Modules. In order for these modules to meet
specifications, the operating environment must be within the limits
specified for your mainframe.
Input/Output Signals
CAUTION
There are two BNC connectors on the front panel of the
Agilent 81480A, Agilent 81680A, Agilent 81640A, Agilent 81682A, and
Agilent 81642A; a BNC input connector and a BNC output connector.
There is one BNC connector on the front panel of the Agilent 81689A -
a BNC input connector.
An absolute maximum of 6 V can be applied as an external voltage to
any BNC connector.
Storage and Shipment
This module can be stored or shipped at temperatures between
−40°C and +70°C. Protect the module from temperature extremes that
may cause condensation within it.
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Safety Summary
Initial Safety Information for Tunable Laser
Modules
The Specifications for these modules are as follows:
Table 1 Tunable Laser Modules Laser Safety Information
Agilent 81480A Agilent 81680A Agilent 81640A Agilent 81682A Agilent 81642A Agilent 81689A
Laser Type
FP-Laser
InGaAsP
FP-Laser
InGaAsP
FP-Laser
InGaAsP
FP-Laser
InGaAsP
FP-Laser
InGaAsP
FP-Laser
InGaAsP
Wavelength range
1370-1480 nm 1400-1670 nm 1400-1670 nm 1400-1670 nm 1400-1670 nm 1400-1670 nm
Max. CW output power*
Beam waist diameter
Numerical aperture
<15 mW
9 µm
0.1
<15 mW
9 µm
0.1
<15 mW
9 µm
0.1
<15 mW
9 µm
0.1
<15 mW
9 µm
0.1
<15 mW
9 µm
0.1
Laser Class according to
3A
3A
3A
3A
3A
3A
IEC 60825-1 (1998)- International
Max. permissible CW output
power - IEC**
50 mW
IIIb
50 mW
IIIb
50 mW
IIIb
50 mW
IIIb
50 mW
IIIb
50 mW
IIIb
Laser Class according to
FDA 21 CFR 1040.10 (1995) - USA
Max. permissible CW output
power - FDA**
500 mW
500 mW
500 mW
500 mW
500 mW
500 mW
* Max. CW output power is defined as the highest possible optical power that the laser source can produce at its output connector.
** Max. permissible CW output power is the highest optical power that is permitted within the appropriate laser class.
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Safety Summary
Laser Safety Labels
These laser safety warning labels are fixed on the outside of the
Agilent 8164A Lightwave Measurement System before shipment.
Figure 1 USA Safety Labels (81480A, 81680A, 81640A, 81682A, 81642A, 81689A)
These laser safety warning labels are fixed on the outside of the Agilent 8164A
Lightwave Measurement System before shipment.
Figure 2 Non-USA Safety Labels (81480A, 81680A, 81640A, 81682A, 81642A, 81689A)
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Safety Summary
A sheet of laser safety warning labels are included with the
instrument. You MUST stick the labels in the local language onto the
outside of the instrument, in a position where they are clearly visible
to anyone using the instrument.
See page 6
See page 6
Top View
Figure 3 Position of Safety Labels on Backloadable Tunable Laser Modules
These labels are applied in these positions to every Agilent 81480A,
Agilent 81680A, Agilent 81640A, Agilent 81682A, and Agilent 81642A
Tunable Laser Module before shipment.
See page 6
See page 6
See page 6
See page 6
Figure 4 Position of Safety Labels on Agilent 81689A Tunable Laser Module
These labels are applied in these positions to every Agilent 81689A
Tunable Laser Module before shipment.
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Safety Summary
WARNING
Please pay attention to the following laser safety warnings:
• Under no circumstances look into the end of an optical cable
attached to the optical output when the device is operational. The
laser radiation can seriously damage your eyesight.
• Do not enable the laser when there is no fiber attached to the optical
output connector.
• The laser is enabled by pressing the gray button close to the optical
output connector on the front panel of the module. The laser is on
when the green LED on the front panel of the instrument is lit.
• The use of optical instruments with this product will increase eye
hazard.
• The laser module has a built-in safety circuitry which will disable
the optical output in the case of a fault condition.
WARNING
Refer Servicing only to qualified and authorized personnel.
8
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The Structure of this Manual
The Structure of this Manual
This manual is divided into two categories:
• Getting Started
This section gives an introduction to the Tunable Laser modules.
– “Getting Started with Tunable Laser Sources” on page 21.
• Additional Information
This is supporting information of a non-operational nature. this
contains information concerning accessories, specifications, and
– “Performance Tests” on page 57.
Conventions used in this manual
• Hardkeys are indicated by italics, for example, Config, or Channel.
• Softkeys are indicated by normal text enclosed in square brackets,
for example, [Zoom] or [Cancel].
• Parameters are indicated by italics enclosed by square brackets, for
example, [Range Mode], or [MinMax Mode].
• Menu items are indicated by italics enclosed in brackets, for
example, <MinMax>, or <Continuous>.
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The Structure of this Manual
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Table of Contents
Table of Contents
Safety Summary
Safety Symbols
3
3
3
4
4
4
4
5
6
9
Initial Inspection
Line Power Requirements
Operating Environment
Input/Output Signals
Storage and Shipment
Initial Safety Information for Tunable Laser Modules
Laser Safety Labels
9
21
23
24
Agilent 81689A Tunable Laser Module
26
27
Optical Output
Polarization Maintaining Fiber
Angled and Straight Contact Connectors
Signal Input and Output
27
27
29
Accessories
31
Modules and Options
Modules
33
34
35
User’s Guides
Options
35
35
35
36
36
36
Option 003 - Agilent 81682A, Agilent 81642A
Option 072 - All Tunable Laser Modules
36
36
Options 071, 021: Straight Contact Connectors
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Table of Contents
Options 072, 022: Angled Contact Connectors
37
39
41
Specifications
Absolute Wavelength Accuracy
Effective Linewidth
Linewidth
Minimum Output Power
Mode-Hop Free Tuning Range
Modulation Extinction Ratio
Modulation Frequency Range
Output Power
Output Isolation
Peak Power
Polarization Extinction Ratio
Power Flatness Over Modulation
Power Flatness Versus Wavelength
Power Linearity
41
41
42
42
42
42
43
43
43
43
43
44
44
44
44
45
45
45
45
46
46
46
47
47
47
47
48
Power Repeatability
Power Stability
Relative Intensity Noise (RIN)
Relative Wavelength Accuracy
Return Loss
Sidemode Suppression Ratio
Signal-to-Source Spontaneous Emission (SSE) Ratio
Signal-to-Total-Source Spontaneous Emission
Wavelength Range
Wavelength Repeatability
Wavelength Resolution
Wavelength Stability
54
Operating Modes
54
54
54
54
54
54
55
Coherence Control (Agilent 81680A/40A/82A/42A)
Continuous Sweep (Agilent 81680A/40A/82A/42A)
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Table of Contents
Stepped Mode (Agilent 81680A/40A/82A/42A)
55
General
55
55
55
55
55
56
56
56
56
56
56
Return loss (typ.):
Polarization Maintaining Fiber (Options 071, 072):
Recalibration Period:
Operating Temperature:
Humidity:
57
59
Test Record
Test Failure
Instrument Specification
General Test Setup
60
60
60
61
61
61
General Settings of Wavelength Meters for all Wavelength Tests 62
Relative Wavelength Accuracy
Absolute Wavelength Accuracy
Mode Hop Free Tuning
62
62
64
64
65
Wavelength Repeatability
67
67
69
71
71
73
73
75
76
76
77
79
Calibration of the Agilent 81001FF Attenuation Filter
Power Linearity
Power Flatness over Wavelength - Without Attenuation
Power Flatness over Wavelength - Using Attenuation
Power Stability
Signal-to-Source Spontaneous Emission
81
Signal-to-Source Spontaneous Emission Tests - High Power Outputs
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88
89
95
95
Signal to Total SSE Tests - High Pow er Outputs
99
99
Agilent 81480A Performance Test
100
101
103
104
105
106
106
107
109
Power Linearity Output 2, High Power Upper Power Levels
Power Linearity Output 2, High Power by attenuator
Power Stability
Power
109
111
Output 2, High Power
111
Agilent 81680A Performance Test
113
114
115
117
118
119
120
120
121
123
Power Linearity Output 2, High Power Upper Power Levels
Power Linearity Output 2, High Power by attenuator
Power Stability
Power
123
SSE
125
Optional Test: Signal-to-Total-Source Spontaneous Emission - 81680A
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Table of Contents
Output 2, High Power
125
127
1 28
129
130
130
130
131
132
133
Relative Wavelength Accuracy Summary of all Repetitions
Relative Wavelength Accuracy Result
Absolute Wavelength Accuracy Result
Output 1, Low SSE134
Power Linearity Output 2, High Power Upper Power Levels
Power Linearity Output 2, High Power by Attenuator
134
135
136
137
Power Stability
Power
137
139
139
141
1 42
143
145
146
147
147
148
149
150
151
Power Linearity 81682A #003 Upper Power Levels
Power Linearity 81682A #003 by Attenuator
Signal-to-Source Spontaneous Emission - 81682A
152
153
1 54
155
157
158
159
159
160
Power Linearity - 81642A
Power Linearity 81642A #003 Upper Power Levels
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Power Linearity 81642A #003 by Attenuator
161
162
163
Signal-to-Source Spontaneous Emission - 81642A
165
166
167
168
169
169
170
170
170
Relative Wavelength Accuracy
Wavelength Repeatability
Maximum Power Test
Power Stability
Signal-to-Source Spontaneous Emission
Cleaning Information
171
173
173
174
Dust and shutter caps
Isopropyl alcohol
174
174
175
175
176
176
176
177
177
177
178
178
178
178
Microscope with a magnification range about 50X up to 300X
Warm water and liquid soap
Premoistened cleaning wipes
Infrared Sensor Card
179
179
180
180
181
182
Which Cleaning Procedure should I use ?
How to clean connector interfaces
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How to clean bare fiber adapters
183
184
How to clean instruments with a fixed connector interface
184
How to clean instruments with a physical contact interface
185
How to clean instruments with a recessed lens interface
186
How to clean optical devices which are sensitive to
187
188
189
How to clean metal filters or attenuator gratings
How to clean bare fiber ends
How to clean large area lenses and mirrors
Other Cleaning Hints
189
189
191
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Table of Contents
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List of Figures
List of Figures
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6
6
7
Figure 24
Figure 25
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26
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28
28
33
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Options 021, 071: Single-mode fiber/PMF with Straight Contact Connectors . 37
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61
67
68
69
71
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Calibration of the Agilent 81001FF Attenuation Filter, Reference Setup
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Test Setup for the Maximum Output Power Tests.
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Signal-to-Spectral SSE Measurement
Test Setup for Source Spontaneous Emission Test
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84
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85
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List of Figures
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Getting Started with Tunable Laser Sources
This chapter describes the Agilent 81480A, Agilent 81680A,
Agilent 81640A, Agilent 81682A, Agilent 81642A, and Agilent 81689A
Tunable Laser modules.
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What is a Tunable Laser ?
Getting Started with Tunable Laser Sources
What is a Tunable Laser ?
A Tunable Laser is a laser source for which the wavelength can be
varied through a specified range. The Agilent Technologies range of
Tunable Laser modules also allow you to set the output power, and to
choose between continuous wave or modulated power.
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Getting Started with Tunable Laser Sources
What is a Tunable Laser ?
Agilent 81480A, 81680A/82A/40A/42A
Tunable Laser Modules
Figure 5 Agilent 81480A Tunable Laser Module (straight contact connectors)
Figure 6 Agilent 81680A Tunable Laser Module (straight contact connectors)
Figure 7 Agilent 81682A Tunable Laser Module (straight contact connector)
Figure 8 Agilent 81640A Tunable Laser Module (straight contact connectors)
Figure 9 Agilent 81642A Tunable Laser Module (straight contact connectors)
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What is a Tunable Laser ?
Getting Started with Tunable Laser Sources
The Agilent 81480A and 81680A/82A/40A/42A Tunable Laser
modules are back-loadable modules. To fit these modules into the
Agilent 8164A mainframe see “How to Fit and Remove Modules” in the
Agilent 8163A Lightwave Multimeter, Agilent 8164A, Lightwave
Measurement System, & Agilent 8166A Lightwave Multichannel
SystemUser’s Guide.
The Agilent 81480A and 81680A/82A/40A/42A Tunable Laser
modules have a built-in wavelength control loop to ensure high
wavelength accuracy. As these modules are all mode-hop free tunable
with continuous output power, they qualify for the test of the most
critical dense-Wavelength Division Multiplexer (dWDM) components.
The Agilent 81480A and Agilent 81640A/80A Tunable Laser modules
are equipped with two optical outputs:
• Output 1, the Low SSE output, delivers a signal with ultra-low
source spontaneous emission (SSE). It enables accurate crosstalk
measurement of DWDM components with many channels at narrow
spacing. You can characterize steep notch filters such as Fiber
Bragg Gratings by using this output and a power sensor module.
• Output 2, the High Power output, delivers a signal with high optical
power. You can adjust the signal by more than 60 dB by using the in-
built optical attenuator.
The Agilent 81682A/42A Tunable Laser module delivers a signal with
high optical power. If you choose Option 003, you can adjust the signal
by more than 60 dB by using the in-built optical attenuator.
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Getting Started with Tunable Laser Sources
What is a Tunable Laser ?
Agilent 81689A Tunable Laser Module
Agilent 81689A with
Straight Contact Connector
Agilent 81689A with
Angled Contact Connector
Figure 10 Agilent 81689A Tunable Laser Module
The Agilent 81689A Tunable Laser module is a front-loadable module.
To insert this module into the Agilent 8163A Lightwave Multimeter,
Agilent 8164A Lightwave Measurement System or Agilent 8166A
Lightwave Multichannel System see “How to Fit and Remove Modules”
in the Agilent 8163A Lightwave Multimeter, Agilent 8164A Lightwave
Measurement System, & Agilent 8166A Lightwave Multichannel
System User’s Guide.
You can use the Agilent 81689A Tunable Laser module to set up a
realistic multi-channel test-bed for DWDM transmission systems. Its
continuous, mode-hop free tuning makes it quick and easy to set even
the most complex configurations to the target wavelengths and power
levels.
The Agilent 8163A Lightwave Multimeter, a Power Sensor module,and
a Agilent 81689A Tunable Laser module together represent a smart
loss-test set with selectable wavelength.
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Optical Output
Getting Started with Tunable Laser Sources
Optical Output
Polarization Maintaining Fiber
If you have an instrument with a polarization maintaining fiber (PMF),
the PMF is aligned to maintain the state of polarization.
The fiber is of Panda type, with TE mode in the slow axis in line with
the connector key. A well defined state of polarization ensures
constant measurement conditions.
The Agilent 81480A and 81680A/40A/82A/42A Tunable Laser
modules are equipped with PMF outputs as standard.
For the Agilent 81689A Tunable Laser module, PMF output is available
as an option.
E
Connector Key
Fiber Cladding
H
Fiber Core
(8-µm Diameter)
Stress Rods
Slow Axis (Polarization Axis)
Not to Scale
Figure 11 PMF Output Connector
Angled and Straight Contact Connectors
Angled contact connectors help you to control return loss. With angled
fiber endfaces, reflected light tends to reflect into the cladding,
reducing the amount of light that reflects back to the source.
The Agilent 81480 and 81680A/40A/82A/42A/89A Tunable Laser
modules can have the following connector interface options:
• Option 071, Polarization-maintaining fiber straight contact
connectors, or
• Option 072, Polarization-maintaining fiber angled contact
connectors.
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Getting Started with Tunable Laser Sources
Optical Output
Two additional connector interface options are available for the
Agilent 81689A Tunable Laser module:
• Option 021, Standard single-mode fiber straight contact connectors,
or
• Option 022, Standard single-mode fiber angled contact connectors.
CAUTION
If the contact connector on your instrument is angled, you can only
use cables with angled connectors with the instrument.
Angled Contact
Connector Symbol
Straight Contact
Connector Symbol
Figure 12 Angled and Straight Contact Connector Symbols
Figure 12 shows the symbols that tell you whether the contact
connector of your Tunable Laser module is angled or straight. The
angled contact connector symbol is colored green.
Figure 7 and Figure 13 show the front panel of the Agilent 81682A
Tunable Laser module with straight and angled contact connectors
respectively.
You should connect straight contact fiber end connectors with neutral
sleeves to straight contact connectors and connect angled contact fiber
end connectors with green sleeves to angled contact connectors.
NOTE You cannot connect angled non-contact fiber end connectors with
orange sleeves directly to the instrument.
Figure 13 Agilent 81682A Tunable Laser Module (angled contact connector)
See “Accessories” on page 31 for further details on connector
interfaces and accessories.
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Signal Input and Output
Getting Started with Tunable Laser Sources
Signal Input and Output
CAUTION
There are two BNC connectors on the front panel of the
Agilent 81480A, Agilent 81680A, Agilent 81680A, Agilent 81640A,
Agilent 81682A, and Agilent 81642A - a BNC input connector and a
BNC output connector.
There is one BNC connector on the front panel of the Agilent 81689A -
a BNC input connector.
An absolute maximum of 6 V can be applied as an external voltage to
any BNC connector.
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Getting Started with Tunable Laser Sources
Signal Input and Output
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Accessories
The Agilent 81480A and 81680A/40A/82A/42A/89A Tunable Laser
Source Modules are available in various configurations for the best
possible match to the most common applications.
This chapter provides information on the available options and
accessories.
32
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Modules and Options
Accessories
Modules and Options
Figure 14 shows all the options that are available for all Tunable Laser
modules and the instruments that support these modules.
Agilent 8164A
Lightwave Measurement System
Agilent 8163A
Lightwave Multimeter
Agilent81645A
Filler Module
Agilent81480A Agilent81680A Agilent81640A Agilent 81682A Agilent 81642A
Agilent 81689A Agilent 8163A
HP 8153A
Lightwave
Multimeter
Modules
Tunable Laser
1400 nm
Tunable Laser
1550 nm
Tunable Laser
1600 nm
Tunable Laser Tunable Laser
Compact
Tunable Laser
1550 nm
Lightwave
Multimeter
Modules
1550 nm
+ 8 dBm
1600 nm
+ 7 dBm
Low SSE
Low SSE
Low SSE
Option 071 Option 072
PMF, PMF,
Panda-type, Panda-type,
Option 021 Option 022 Option 071 Option 072
Single-mode Single-mode PMF, PMF,
Panda-type, Panda-type,
Option 003
Attenuator
fiber,
fiber,
Straight
Contact
Angled
Contact
Straight
Contact
Angled
Contact
Straight
Contact
Angled
Contact
Figure 14 Mainframes, Tunable Laser Modules, and Options
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Accessories
Modules
Modules
The Agilent 8164A Lightwave Measurement System supports the
Agilent 81480A and 81680A/40A/82A/42A/89A Tunable Laser
modules. In addition, the Agilent 8163A Lightwave Multimeter
supports the Agilent 81689A Tunable Laser module.
Tunable Laser Modules
Model No.
Description
Agilent 81480A Tunable Laser for the Test of Critical dense-WDM Components
Agilent 81680A Tunable Laser for the Test of Critical dense-WDM Components
Agilent 81640A Tunable Laser for the Test of Critical Components in both
dense-WDM Bands, the C and L bands
Agilent 81682A Tunable Laser for the Test of Optical Amplifiers and Passive
Components
Agilent 81642A Tunable Laser for the Test of Optical Amplifiers and Passive
Components in both dense-WDM Bands.
Agilent 81689A Tunable Laser for Multi-Channel Test Applications
Filler Module
Filler Module
Model No.
Description
Agilent 81645A Filler Module
The Agilent 81645A Filler Module is required to operate the
Agilent 8164A mainframe if it is used without a back-loadable Tunable
Laser module. It can be used to:
• prevent dust pollution and
• optimize cooling by guiding the air flow.
See the "Installation and Maintenance" chapter of the Agilent 81480A,
Agilent 81680A, Agilent 81682A, Agilent 81640A, & Agilent 81689A
Tunable Laser Modules User’s Guide for more details on installing the
Agilent 81645A Filler Module.
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Modules
Accessories
User’s Guides
User’s Guides
Opt
Description
Part No.
Agilent 81480A, Agilent 81680A, Agilent 81682A, Agilent 81640A, & 81680-90014
Agilent 81689A Tunable Laser Modules User’s Guide
ABJ
ABF
AB0
Japanese Agilent 81480A, Agilent 81680A, Agilent 81682A,
Agilent 81640A, & Agilent 81689A Tunable Laser Modules User’s
Guide
81680-91514
81680-91214
81680-91714
French Agilent 81480A, Agilent 81680A, Agilent 81682A,
Agilent 81640A, & Agilent 81689A Tunable Laser Modules User’s
Guide
Traditional Chinese (Taiwan) Agilent 81480A, Agilent 81680A,
Agilent 81682A, Agilent 81640A, & Agilent 81689A Tunable Laser
Modules
User’s Guide
AB1
Korean Agilent 81480A, Agilent 81680A, Agilent 81682A,
Agilent 81640A, & Agilent 81689A Tunable Laser Modules User’s
Guide
81680-91814
08164-91016
08164-91011
8164A 0B2 Agilent 8163A Lightwave Multimeter, Agilent 8164A Lightwave
Measurement System, & Agilent 8166A Lightwave Multichannel
System Programming Guide
8164A 0BF Agilent 8163A Lightwave Multimeter, Agilent 8164A Lightwave
Measurement System, & Agilent 8166A Lightwave Multichannel
System User’s Guide
Options
Option 003 - Agilent 81682A, Agilent 81642A
Built-in optical attenuator with 60 dB attenuation range.
NOTE The Agilent 81640A/80A Tunable Laser Modules have a built-in optical
attenuator as standard for Output 2, the High Power output.
A built-in optical attenuator is not available for the Agilent 81689A.
Option 021 - Agilent 81689A
Standard single-mode fiber, for straight contact connectors.
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Accessories
Connector Interfaces and Other Accessories
Option 022 - Agilent 81689A
Standard single-mode fiber, for angled contact connectors.
Option 071 - All Tunable Laser Modules
Polarization-maintaining fiber, Panda-type, for straight contact
connectors.
Option 072 - All Tunable Laser Modules
Polarization-maintaining fiber, Panda-type, for angled contact
connectors.
Connector Interfaces and Other
Accessories
The Agilent 81480A and 81680A/40A/82A/42A/89A Tunable Laser
modules are supplied with one of two connector interface options:
• Option 071, Polarization-maintaining fiber straight contact
connectors, or
• Option 072, Polarization-maintaining fiber angled contact
connectors.
Two additional connector interface options are available for the
Agilent 81689A Tunable Laser module:
• Option 021, Standard single-mode fiber straight contact connectors,
or
• Option 022, Standard single-mode fiber angled contact connectors.
Options 071, 021: Straight Contact
Connectors
If you want to use straight connectors (such as FC/PC, Diamond HMS-
10, DIN, Biconic, SC, ST or D4) to connect to the instrument, you must
do the following:
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Connector Interfaces and Other Accessories
Accessories
1 Attach your connector interface to the interface adapter.
2 Connect your cable (see Figure 15).
Agilent 810 Agilent 810 Agilent 810 Agilent 810 Agilent 810 Agilent 810 Agilent 810 Agilent 8100
00AI
00FI
Connector
Interface
00GI
Connector
Interface
D4
00HI
00KI
Connector
Interface
SC
00SI
00VI
Connector
Interface
ST
0WI
Connector
Interface
Diamond
HMS-10
Connector
Interface
Diamond
E-2000
Connector
Interface
DIN 47256
Connector
Interface
Biconic
FC/PC/SPC
Figure 15 Options 021, 071: Single-mode fiber/PMF with Straight Contact Connectors
Table 2 Straight Contact Connector Interfaces
Description
Model No.
Biconic
Agilent 81000 WI
Agilent 81000 GI
Agilent 81000 AI
Agilent 81000 SI
Agilent 81000 FI
Agilent 81000 KI
Agilent 81000 VI
Agilent 81000 HI
D4
Diamond HMS-10
DIN 47256
FC / PC / SPC
SC
ST
Diamond E-2000
Options 072, 022: Angled Contact
Connectors
If you want to use angled connectors (such as FC/APC, Diamond HRL-
10, or SC/APC) to connect to the instrument, you must do the
following:
1 Attach your connector interface to the interface adapter.
See Table 3 for a list of the available connector interfaces.
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Accessories
Connector Interfaces and Other Accessories
2 Connect your cable (see Figure 16).
Agilent 8100 Agilent 8100 Agilent 8100 Agilent 8100
0NI
0KI
0HI
0SI
Connector
Interface
FC/APC
Connector
Interface
SC/APC
Connector
Interface
Diamond
E-2108.6
Connector
Interface DIN
47256/4108.6
Figure 16 Options 022, 072: Single-mode fiber/PMF with Angled Contact Connectors
Table 3 Angled Contact Connector Interfaces
Description
Model No.
DIN 47256-4108.6
FC / APC
Agilent 81000 SI
Agilent 81000 NI
Agilent 81000 KI
Agilent 81000 HI
SC / APC
Diamond E-2108.6
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Specifications
The Agilent 81480A, Agilent 81680A, Agilent 81640A, Agilent 81682A,
Agilent 81642A and Agilent 81689A Tunable Laser modules are
produced to the ISO 9001 international quality system standard as
part of Agilent Technologies’ commitment to continually increasing
customer satisfaction through improved quality control.
Specifications describe the modules’ warranted performance.
Supplementary performance characteristics describe the modules
non-warranted typical performance.
Because of the modular nature of the instrument, these performance
specifications apply to these modules rather than the mainframe unit.
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Definition of Terms
Specifications
Definition of Terms
This section defines terms that are used both in this chapter and
“Performance Tests” on page 57.
Generally, all specifications apply for the given environmental
conditions and after warmup time.
Measurement principles are indicated. Alternative measurement
principles of equal value are also acceptable.
Absolute Wavelength Accuracy
The maximum difference between the actual wavelength and the
displayed wavelength of the TLS. Wavelength is defined as wavelength
in vacuum.
Conditions: constant power level, temperature within operating
temperature range, coherence control off, measured at high power
output.
Validity: within given time span after wavelength zeroing, at a given
maximum temperature difference between calibration and
measurement.
Measurement with wavelength meter. Averaging time given by
wavelength meter, ≥1 s.
NOTE The absolute wavelength accuracy of Output 1, the Low SSE Output, of
the Agilent 81680A/40A Tunable Laser modules is the same as the
absolute wavelength accuracy of Output 2, the High Power Output
(guaranteed by design).
Effective Linewidth
The time-averaged 3-dB width of the optical spectrum, expressed in
Hertz.
Conditions: temperature within operating temperature range,
coherence control on, power set to specified value.
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Specifications
Definition of Terms
Measurement with heterodyning technique: the output of the laser
under test is mixed with another laser of the same type on a wide
bandwidth photodetector. The electrical noise spectrum of the
photodetector current is measured with an Agilent Lightwave Signal
Analyzer, and the linewidth is calculated from the heterodyne
spectrum (Lightwave signal analyzer settings: resolution bandwidth
1 MHz; video bandwidth 10 kHz; sweep time 20 ms; single scan).
Linewidth
The 3-dB width of the optical spectrum, expressed in Hertz.
Conditions: temperature within operating temperature range,
coherence control off, power set to maximum flat power (maximum
attainable power within given wavelength range).
Measurement with self-heterodyning technique: the output of the
laser under test is sent through a Mach-Zehnder interferometer in
which the length difference of the two arms is longer than the
coherence length of the laser. The electrical noise spectrum of the
photodetector current is measured with an Agilent Lightwave Signal
Analyzer, and the linewidth is calculated from the heterodyne
spectrum (Lightwave signal analyzer settings: resolution bandwidth 1
MHz; video bandwidth 10 kHz; sweep time 20 ms; single scan).
Minimum Output Power
The minimum output power for which the specifications apply.
Mode-Hop Free Tuning Range
The tuning range for which no abrupt wavelength change occurs
during fine wavelength stepping. Abrupt change is defined as change
of more than 25 pm.
Conditions: within specified wavelength range, at specified
temperature range and output power. Tuning from outside into the
mode-hop free tuning range is not allowed.
Modulation Extinction Ratio
The ratio of total power in on-state to total power in off-state,
expressed in dB.
Conditions: Internal or external modulation, tunable laser at highest
power setting.
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Definition of Terms
Specifications
Measurement with optical spectrum analyzer. Tunable laser switched
on and off.
Modulation Frequency Range
The range of frequencies for which the modulation index is above − 3
dB of the highest modulation index. In this context, modulation index
is defined as the AC power amplitude (peak-to-peak) divided by the
average power.
Output Power
The achievable output power for the specified TLS tuning range.
Conditions: temperature within operating temperature range.
Measurement with power meter at the end of a single-mode fiber
patchcord.
Output Isolation
The insertion loss of the built-in isolator in the backward direction.
Measurement: Cannot be measured from the outside. This
characteristic is based on known isolator characteristics.
Peak Power
The highest optical power within specified wavelength range.
Polarization Extinction Ratio
The ratio of optical power in the slow axis of the polarization-
maintaining fiber to optical power in the fast axis within a specified
wavelength range.
Conditions: only applicable for TLS with polarization maintaining
fiber with the TE mode in slow axis and oriented in line with
connector key, at constant power level.
Measurement with a polarization analyzer at the end of a polarization-
maintaining patchcord, by sweeping the wavelength, thereby creating
circular traces on the Poincaré sphere, then calculating the
polarization extinction ratio from the circle diameters.
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Specifications
Definition of Terms
Power Flatness Over Modulation
When changing the wavelength and modulation frequency, and
measuring the differences between actual and displayed power levels
(in dB), the power flatness is half the span between the maximum
and the minimum value of all differences.
Conditions: uninterrupted line voltage, constant power setting,
temperature within 2 K, external modulation ON.
Measurement with optical power meter.
Power Flatness Versus Wavelength
When changing the wavelength at constant power setting and
recording the differences between actual and displayed power levels,
the power flatness is half the span (in dB) between the maximum
and the minimum of the measured power levels.
Conditions: uninterrupted TLS output power, constant power setting,
temperature within 1K.
Measurement with optical power meter.
Power Linearity
When changing the power level and measuring the differences (in dB)
between actual and displayed power levels, the power linearity is
half the span (in dB) between the maximum and the minimum value of
all differences.
Conditions: power levels from within specified output power range,
uninterrupted TLS output power, at fixed wavelength settings and
stable temperature.
Measurement with optical power meter.
Power Repeatability
The random uncertainty in reproducing the power level after changing
and re-setting the power level. The power repeatability is half the
span (in dB) between the highest and lowest actual power.
Conditions: uninterrupted TLS output power, constant wavelength,
temperature within 1 K, short time span.
Measurement with optical power meter.
NOTE The long-term power repeatability can be obtained by taken the power
repeatability and power stability into account.
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Definition of Terms
Specifications
Power Stability
The change of the power level during given time span, expressed as
half the span (in dB) between the highest and lowest actual power.
Conditions: uninterrupted TLS output power, constant wavelength
and power level settings, temperature within 1 K, time span as
specified.
Measurement with optical power meter.
Relative Intensity Noise (RIN)
The square of the (spectrally resolved) RMS optical power amplitude
divided by the measurement bandwidth and the square of the average
optical power, expressed in dB/Hz.
Conditions: at specified output power, coherence control off,
temperature within operating temperature range, frequency range 0.1
to 6 GHz.
Measurement with Agilent Lightwave Signal Analyzer.
Relative Wavelength Accuracy
When randomly changing the wavelength and measuring the
differences between the actual and displayed wavelengths, the relative
wavelength accuracy is half the span between the maximum and the
minimum value of all differences.
Conditions: uninterrupted TLS output power, constant power level,
temperature within operating temperature range, observation time 10
minutes maximum (constant temperature), coherence control off,
measured at high power output.
Measurement with wavelength meter. Averaging time given by
wavelength meter, ≥1 s.
NOTE The relative wavelength accuracy of Output 1, the Low SSE Output, of
the Agilent 81640A/80A Tunable Laser modules is the same as the
relative wavelength accuracy of Output 2, the High Power Output
(guaranteed by design).
Return Loss
The ratio of optical power incident to the TLS output port, at the TLS's
own wavelength, to the power reflected from the TLS output port.
Conditions: TLS disabled.
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Specifications
Definition of Terms
Sidemode Suppression Ratio
The ratio of average signal power to the optical power of the highest
sidemode within a distance from 0.1 to 6 GHz to the signal's optical
frequency, expressed in dB.
Conditions: at a specified output power and wavelength range,
temperature within operating temperature range, coherence control
off.
Measurement with the Agilent Lightwave Signal Analyzer, by
analyzing the heterodyning between the main signal and the highest
sidemode.
Signal-to-Source Spontaneous Emission
(SSE) Ratio
The ratio of signal power to maximum spontaneous emission power in
1 nanometer bandwidth within a 3 nm window around the signal
wavelength, where 1 nm around the signal wavelength are excluded,
at the specified output power, expressed in dB/nm.
Conditions: output power set to specified values, at temperatures
within operating temperature range, coherence control off.
Measurement with optical spectrum analyzer (OSA) at 0.5 nm
resolution bandwidth (to address the possibility of higher SSE within
a narrower bandwidth), then extrapolated to 1 nm bandwidth. On
low-SSE output (if applicable), with fiber Bragg grating inserted
between the TLS and the OSA in order to suppress the signal, thereby
enhancing the dynamic range of the OSA.
NOTE The specified signal-to-SSE ratio is also applicable to output powers
higher than the specified values.
Signal-to-Total-Source Spontaneous
Emission
The ratio of signal power to total spontaneous emission power, at the
specified achievable output power, expressed in dB.
Conditions: output power set to specified values, at temperatures
within operating temperature range, coherence control off.
Measurement with optical spectrum analyzer, by integrating the
source spontaneous emission and excluding the remnant signal. On
low-SSE output (if applicable), with fiber Bragg grating inserted
between the TLS and the OSA in order to suppress the signal, thereby
enhancing the dynamic range of the OSA.
46
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Definition of Terms
Specifications
NOTE The specified signal-to-total-SSE ratio is also applicable to output
powers higher than the specified values.
Wavelength Range
The range of wavelengths for which the specifications apply.
Wavelength Repeatability
The random uncertainty in reproducing a wavelength after detuning
and re-setting the wavelength. The wavelength repeatability is half
the span between the maximum and the minimum value of all actual
values of this wavelengths.
Conditions: uninterrupted TLS output power, constant power level,
temperature within operating temperature range, coherence control
off, short time span.
Measurement with wavelength meter at high power output. Averaging
time given by wavelength meter, ≥1 s.
NOTE The wavelength repeatability of Output 1, the Low SSE Output, of the
Agilent 81680A/40A Tunable Laser modules is the same as the relative
wavelength accuracy of Output 2, the High Power Output (guaranteed
by design).
NOTE The long-term wavelength repeatability can be obtained by taken the
wavelength repeatability and wavelength stability into account.
Wavelength Resolution
The smallest possible displayed wavelength increment/decrement.
Wavelength Stability
The change of wavelength during given time span, expressed as half
the span between the maximum and the minimum of all actual
wavelengths.
Conditions: uninterrupted TLS output power, constant wavelength
and power level settings, coherence control off, temperature within 1
K, time span as specified.
Measurement with wavelength meter. Averaging time given by
wavelength meter, ≥1 s.
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Specifications
Tunable Laser Module Specifications
Tunable Laser Module
Specifications
Agilent 81480A
Agilent 81480A
Agilent 81480A
Output 1
Output 2
(Low SSE)
(High Power)
Wavelength range
1370 nm to 1480 nm
0.1 pm, 15 MHz at 1450 nm
full wavelength range
0.01 nm
Wavelength resolution
9
Mode-hop free tuning range
1, 2, 9
1, 2, 9
Absolute wavelength accuracy
Relative wavelength accuracy
5 pm, typ. 2 pm
2, 9
Wavelength repeatability
1 pm, typ. 0.5 pm
Wavelength stability (typ., 24 hours at
constant temperature)
<
1 pm
2, 9
Tuning speed (typ. for a 1/10/100 nm step) 400 ms/ 600 ms/ 2.8 s
Linewidth (typ.), coherence control off
100 kHz
> 50 MHz (1420 - 1470 nm), at maximum flat output power)
Effective linewidth (typ.), coherence ctrl.
on
3
Output power
> -4.5 dBm peak typ
> +5.5 dBm peak typ
(continuous power during tuning)
> -7 dBm (1420 – 1470 nm)
> -13 dBm (1370 – 1480 nm)[9]
> +3 dBm (1420 - 1470 nm)
> -3 dBm (1370 - 1480 nm)[9]
3
Minimum output power
-13 dBm
-3 dBm
(-60 dBm in attenuation mode)
3
Power stability
0.01 dB, 1 hour
(1420nm-1480nm)
typ. 0.01 dB, 1 hour (1370nm-1420nm) [9]
typ. 0.03 dB, 24 hours
3, 9
Power repeatability (typ.)
0.01 dB
3
Power linearity
0.1 dB
(1420nm-1480nm)
0.3 dB
(1420nm-1480nm)
typ. 0.1dB (1370nm-1420nm) [9] typ. 0.3 dB (1370nm-1420nm) [9]
48
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Tunable Laser Module Specifications
Specifications
3, 9
Power flatness versus wavelength
0.2 dB, typ. 0.1 dB
(1420-1480nm)
0.3 dB, typ. 0.2 dB
(1420nm-1480nm)
0.2 dB typ (1370nm-1420nm)
> 40 dBc (1380 - 1480 nm)
0.3 dB typ (1370nm-1420nm)
4, 8, 9
Side-mode suppression ratio (typ.)
Signal-to-Source Spontaneous Emission
Ratio
> 61 dB/nm [7]
> 40 dB/ nm
5, 8
(1420 – 1470 nm)
(1420 – 1470 nm)
> 35 dB/ nm
> 55 dB/nm [7] [9]
(typ., 1370 – 1480 nm)
(1370 – 1480 nm)
Signal-to-Total-Source Spontaneous
Emission ratio
> 58 dB
> 28 dB
6, 8
(1420 – 1470 nm) [7]
(typ., 1420 - 1470 nm )
> 53 dB
(typ., 1370 - 1480 nm) [7] [9]
-145 dB/Hz (1420 - 1470 nm)
8
Relative intensity noise (RIN, typ.)
1. Valid for one month and within a 5 K temperature range after automatic wavelength zeroing.
2. At CW operation. Measured with wavelength meter based on wavelength in vacuum.
3. Applies to the selected output.
4. Measured by heterodyning method.
5. Measured with optical spectrum analyzer at 1 nm resolution bandwidth.
6. Measured with optical spectrum analyzer.
7. Measured with fiber Bragg grating to suppress the signal.
8. Output power as specified per wavelength range and output port.
9. Wavelength must not be equal to any water absorption line
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Specifications
Tunable Laser Module Specifications
Agilent 81680A and Agilent 81640A
Agilent 81680A
Agilent 81680A
Agilent 81640A
Agilent 81640A
Output 1
Output 2
Output 1
Output 2
(Low SSE)
(High Power)
(Low SSE)
(High Power)
Wavelength range
1460 nm to 1580 nm
1510 nm to 1640 nm
Wavelength resolution
Mode hop free tuning range
0.1 pm, 12.5 MHz at 1550 nm
1460 nm to 1580 nm
0.01 nm
1510 nm to 1640 nm
0.015 nm
1, 2
Absolute wavelength accuracy
1, 2
Relative wavelength accuracy
5 pm, typ. 2 pm
7 pm, typ. 3 pm
2
Wavelength repeatability
1 pm, typ. 0.5 pm
1 pm
Wavelength stability (typ., 24 hours
≤
2
at constant temperature)
Tuning speed
(typ. for a 1/10/100 nm step)
400 ms/600 ms/2.8 s
100 kHz
Linewidth (typ.), coherence control
off.
Effective Linewidth (typ.), coherence >50 MHz (1480 to 1580 nm, at maximum >50 MHz (1520 to 1620 nm, at maximum
control on
flat output power)
flat output power)
3
Output power
≥ −4 dBm peak typ. ≥ 6 dBm peak typ. ≥ −5 dBm peak typ. ≥ 4 dBm peak typ.
(continuous power during tuning)
≥ −6 dBm
≥ 5 dBm
≥ −7 dBm
(1530-1610 nm)
≥ −9 dBm
≥ 2 dBm
(1530-1610 nm)
≥ 0 dBm
(1520-1570 nm)
(1520-1570 nm)
≥ −10 dBm
(1480-1580 nm)
≥ 1 dBm
(1480-1580 nm)
(1520-1620 nm)
(1520-1620 nm)
≥ −13 dBm
(1510-1640 nm)
≥ −5 dBm
(1510-1640 nm)
≥ −13 dBm
(1460-1580 nm)
≥ −3 dBm
(1460-1580 nm)
3
Minimum output power
−13 dBm
−3 dBm
−13 dBm
−5 dBm
(−60 dBm in atten-
uation mode)
(−60 dBm in atten-
uation mode)
3
Power stability
0.01 dB, 1 hour.
typ. 0.03 dB, 24 hours
3
Power repeatability (typ.)
0.01 dB
3
Power linearity
0.1 dB
0.3 dB
0.1 dB
0.3 dB
3
Power flatness versus wavelength
0.2 dB,
0.3 dB,
0.2 dB,
0.3 dB,
typ. 0.1 dB
typ. 0.15 dB
typ. 0.1 dB
typ. 0.15 dB
Side-mode Suppression ratio (typ.)
≥ 40 dBc
(1480-1580 nm)
≥ 40 dBc
(1530-1610 nm)
4,8
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Tunable Laser Module Specifications
Specifications
Agilent 81640A
Agilent 81680A
Agilent 81680A
Agilent 81640A
Output 1
Output 2
Output 1
Output 2
(Low SSE)
(High Power)
(Low SSE)
(High Power)
7
7
Signal-to-Source Spontaneous Emis-
sion Ratio
≥ 63 dB/nm
≥ 45 dB/nm
(1520-1570 nm)
≥ 40 dB/nm
(1480-1580 nm)
≥ 35 dB/nm
≥ 60 dB/nm
≥ 45 dB/nm
(1530-1610 nm)
≥ 40 dB/nm
(1520-1620 nm)
≥ 35 dB/nm
5,8
(1520-1570 nm)
≥ 58 dB/nm (typ.,
1480-1580 nm)
≥ 53 dB/nm (typ.,
1460-1580 nm)
(1530-1610 nm)
7
7
≥ 55 dB/nm (typ.,
1520-1620 nm)
7
7
≥ 50 dB/nm
(1460-1580 nm) (typ., 1510-1640 nm) (1510-1640 nm)
7
7
Signal-to-Total-Source Spontaneous
Emission Ratio
≥ 60 dB
≥ 30 dB
(typ., 1520-1570
nm)
≥ 55 dB
≥ 27 dB
(typ., 1530-1610
nm)
6,8
(1520-1570 nm)
(1530-1610 nm)
7
7
≥ 50 dB
≥ 45 dB
(typ., 1480-1580 nm)
(typ., 1510-1640 nm)
8
Relative Intensity noise (RIN, typ.)
− 145 dB/Hz (1480-1580 nm)
− 145 dB/Hz (1530-1610 nm)
1. Valid for one month and within a 5 K temperature range after wavelength zeroing.
2. At CW operation. Measured with wavelength meter based on wavelength in vacuum.
3. Applies to the selected output.
4. Measured by heterodyning method.
5. Measured with optical spectrum analyzer at 1 nm resolution bandwidth.
6. Measured with optical spectrum analyzer.
7. Measured with Fiber Bragg Grating to supress the signal.
8. Output power as specified per wavelength range and ouput port.
9. Warm up time: 1 hour
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Specifications
Tunable Laser Module Specifications
Agilent 81682A, Agilent 81642A
and Agilent 81689A
Agilent 81682A
Agilent 81642A
Agilent 81689A
Wavelength range
1460 nm to 1580 nm
1510 nm to 1640 nm
1525 nm to 1575 nm
Wavelength resolution
0.1 pm, 12.5 MHz at
1550 nm
0.1 pm, 12.5 MHz at
1550 nm
0.01 nm, 1.25 GHz at
1550 nm
Mode hop-free tuning range
Absolute wavelength accuracy
Relative wavelength accuracy
Wavelength repeatability
1460 nm to 1580 nm
full wavelength range
1, 2
1, 2
2
0.01 nm
0.015 nm
0.3 nm, typ.
1, 2
1, 2
2
5 pm, typ. 2 pm
7 pm, typ. 3 pm
0.3 nm
2
2
2
1 pm, typ. 0.5 pm
1 pm, typ. 0.5 pm
0.05 nm
2
2
2
Wavelength stability (typ, over 24 hours
at constant temperature)
<
1 pm
<
1 pm
<
0.02 nm
Tuning speed
400 ms/600 ms/2.8 s
400 ms/600 ms/2.8 s
< 10 sec/ 50 nm (typ.)
(typ. for a 1/10/100 nm (typ. for a 1/10/100 nm
step)
step)
3
Linewidth (typ.)
100 kHz,
100 kHz,
20 MHz
coherence control off
coherence control off
Effective Linewidth (typ.), coherence
control on
> 50 MHz (1480 -
1580 nm, at maximum flat 1620 nm, at maximum flat
> 50 MHz (1520 -
- -
output power)
output power)
Output power
≥ 8 dBm peak typ.
≥ 7 dBm peak typ.
≥ 6 dBm (1525 - 1575 nm)
(continuous power during tuning)
≥ 6 dBm (1520 - 1570 nm) ≥ 6 dBm (1560 - 1610 nm)
≥ 2 dBm (1480 - 1580 nm) ≥ 4 dBm (1530 - 1610 nm)
≥ −3 dBm (1460-1580 nm) ≥ 2 dBm (1520 - 1620 nm)
≥ −3 dBm (1510-1640 nm)
4
4
/with option #003
Minimum output power
/with option #003
reduce by 1.5 dB
reduce by 1.5 dB
- -
−3 dBm
−3 dBm
−3 dBm
−4.5 dBm (−60 dBm in
−4.5 dBm (−60 dBm in
4
4
attenuation mode)
attenuation mode)
10
10
9
Power stability
0.01 dB, 1 hour
0.01 dB, 1 hour
0.03 dB, 1 hour
10
10
9
typ. 0.03 dB, 24 hours
0.01 dB
typ. 0.03 dB, 24 hours
0.01 dB
0.06 dB, 24 hours
9
Power repeatability (typ.)
Power linearity (typ.)
0.02 dB
0.1 dB
0.3 dB
0.1 dB
4
4
/with option #003
0.2 dB
0.3 dB
Power flatness versus wavelength
/with option #003
0.2 dB, typ. 0.1 dB
0.3 dB, typ. 0.15 dB
0.3 dB
4
4
0.3 dB, typ. 0.2 dB
0.3 dB
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Tunable Laser Module Specifications
Specifications
Agilent 81682A
Agilent 81642A
Agilent 81689A
Side-mode Suppression ratio (typ.)
≥ 40 dBc
(1480 - 1580 nm)
≥ 40 dBc
(1530 - 1610 nm)
> 40 dBc (1525 - 1575 nm
5,8
5,8
5
at 0 dBm)
Signal-to-Source Spontaneous Emission
Ratio
≥ 45 dB/nm
(1520 - 1570 nm)
≥ 40 dB/nm
(1480 - 1580 nm)
≥ 35 dB/nm
(1460 - 1580 nm)
≥ 45 dB/nm
(1530 - 1610 nm)
≥ 40 dB/nm
(1520 - 1620 nm)
≥ 35 dB/nm
(1510 - 1640 nm)
≥ 39 dB/nm
6,8
6,8
6,8
6,8
6,8
6,8
(1525 - 1575 nm at
6
6 dBm)
Signal-to-Total-Source Spontaneous
Emission Ratio
≥ 30 dB
≥ 27 dB
- -
7,8
8
7,8
(1520 - 1570 nm)
(1530 - 1610 nm)
Relative Intensity noise
(RIN, typ.)
−145 dB/Hz
(1460 - 1580 nm)
−145 dB/Hz
(1530 - 1610 nm)
< −140 dB/Hz
(100 MHz - 2.5 GHz)
8
Dimensions
- -
- -
75 mm H, 32 mm W, 335
mm D
(2.8” × 1.3” × 13.2”
Weight
- -
- -
1 kg
1. Valid for one month and within a 5 K temperature range after automatic wavelength zeroing.
2. At CW operation. Measured with wavelength meter based on wavelength in vacuum.
3. Measured by heterodyning method with 20 ms sweep time, 50 MHz span, 1 MHz resolution.
4. Option #003: built-in optical attenuator.
5. Measured by heterodyning method.
6. Measured with optical spectrum analyzer at 1 nm resolution bandwidth.
7. Measured with optical spectrum analyzer.
8. Output power as specified per wavelength range.
9. 500 ms after changing power.
10. Warm up time: 1 hour
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Specifications
Supplementary Performance Characteristics
Supplementary Performance
Characteristics
Operating Modes
Internal Digital Modulation 1
50% duty cycle, 200 Hz to 300 kHz. Modulation output: TTL reference
signal.
1
Agilent 81480A, Agilent 81680A/40A/82/42A: displayed wavelength
represents average wavelength while digital modulation is active.
External Digital Modulation 1
> 45% duty cycle, fall time < 300 ns, 200 Hz to 1 MHz. Modulation input:
TTL signal.
External Analog Modulation 1
≤ 15% modulation depth, 5 kHz to 20 MHz.
Modulation input: 5 Vp-p.
External Wavelength Locking (Agilent 81480A, Agilent
81680A/40A/82A/42A)
> 70 pm at 10 Hz
> 7 pm at 100 Hz
Modulation input: 5 V
Coherence Control (Agilent 81480A, Agilent
81680A/40A/82A/42A)
For measurements on components with 2-meter long patchcords and connectors
with 14 dB return loss, the effective linewidth results in a typical power stabil-
ity of < 0.025 dB over 1 minute by drastically reducing interference effects in
the test setup.
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Supplementary Performance Characteristics
Specifications
Continuous Sweep (Agilent 81680A/40A/82A/42A)
Tuning velocity adjustable to: 40 nm/s, 5 nm/s, 0.5 nm/s.
Mode-hop free span:
• Agilent 81480A:
1420 - 1470 nm at flat output power ≥ 0 dBm
• Agilent 81680A/82A:
1520 - 1570 nm at flat output power ≥ 3 dBm
• Agilent 81640A:
Any 50 nm within 1520 - 1620 nm at flat output power ≥ 0 dBm
• Agilent 81642A:
Any 50 nm within 1520 - 1620 nm at flat output power ≥ 2 dBm
Ambient temperature within +20°C and +30°C.
Stepped Mode (Agilent 81680A/40A/82A/42A)
Full instrument performance (Agilent 81680A/40A/82A/42A).
Please note that the laser is turned off for 3 µs after each wavelength
tuning in the range 1620-1640nm (Agilent 81640A only).
General
Output Isolation (typ.):
50 dB (for Agilent 81689A: 38 dB)
Return loss (typ.):
60 dB (options 022, 072);
40 dB (options 021, 071).
Polarization Maintaining Fiber (Options 071, 072):
Fiber type: Panda.
Orientation: TE mode in slow axis, in line with connector key.
Extinction Ratio: 16 dB typ.
Laser Class:
Class IIIb according to FDA 21 CFR 1040.10,
Class 3A according to IEC 825 - 1; 1993.
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Specifications
Supplementary Performance Characteristics
Recalibration Period:
2 years.
Warm-up Time:
< 20 min (< 40 min for Agilent 81689A), immediate operation after
boot-up.
Environmental
Storage Temperature:
−40°C to +70°C.
Operating Temperature:
+10°C to +35°C (+15°C to +35°C for Agilent 81689A).
Humidity:
< 80% R. H. at +10°C to +35°C (+15×°C to +35°C for Agilent 81689A).
Specifications are valid in non-condensing conditions.
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Performance Tests
The procedures in this section tests the optical performance of the
Agilent 81680A, Agilent 81640A, Agilent 81682A, Agilent 81642A and
Agilent 81689A are tested are given in “Specifications” on page 39. All
tests can be performed without access to the interior of the
instrument. The performance tests refer specifically to tests using the
Diamond HMS-10/Agilent connector.
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Required Test Equipment
Performance Tests
Required Test Equipment
Table Table 4. Any equipment which satisfies the critical
specifications of the equipment given in Table Table 4, may be
substituted for the recommended models.
Table 4 Equipment Required
Instrument
Description of Instrument/Accessory
#021, #071 #022, #072
1
Agilent 86142B
Optical Spectrum Analyzer
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
Agilent 8164A
WA-1500
Lightwave Measurement System
Burleigh Wavemeter
3
8153A
Lightwave Multimeter
3
81533B
Optical Head Interface Module
Power Sensor Module
3
81532A
2, 3
81525A
Standard Optical Head
4
N/A
Fiber Bragg Grating
Agilent 81000SA
Agilent 81000SI
Agilent 81000FI
Agilent 81101PC
Agilent 81113PC
Agilent 81113SC
DIN 47256/4108 Connector Adapter
DIN 47256/4108 Connector Interface
FC/PC Connector Interface
1
1
1
Diamond HMS-10/Agilent FC/PC Patchcord
Diamond HMS-10/Agilent FC/Super PC Patchcord
Diamond HMS-10/Agilent DIN 47256/4108 Patchcord
1
1
1
You can use the HP 71452B or HP 71450A #100 instead of the
Agilent 86142B.
2
3
You can use the HP 81524A plus HP 81001FF instead of the 81525A
You can use the 8163A, 81618A, 81625A and 81634A instead of the
8153A, 81533B, 81525A, and 81532A.
4
Approximately 1520nm for the 81640A, 81642A, 81680A, 81682A;
Approximately 1407nm for the 81480A
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Performance Tests
Required Test Equipment
Test Record
Results of the performance test may be tabulated in the Test Record
provided at the end of the test procedures. It is recommended that you
fill out the Test Record and refer to it while doing the test. Since the
test limits and setup information are printed on the Test Record for
easy reference, the record can also be used as an abbreviated test
procedure (if you are already familiar with the test procedures). The
Test Record can also be used as a permanent record and may be
reproduced without written permission from Agilent Technologies.
Test Failure
Always ensure that you use the correct cables and adapters, and that
all connectors are undamaged and extremely clean.
If the Agilent 81480A or Agilent 81680A/40A/82A/42A/89A Tunable
Laser module fails any performance test, return the instrument to the
nearest Agilent Technologies Sales/Service Office for repair.
Instrument Specification
Specifications are the performance characteristics of the instrument
which are certified. These specifications, listed in “Specifications” on
page 39, are the performance standards or limits against which the
Agilent 81480A and Agilent 81680A/40A/82A/42A/89A Tunable Laser
modules can be tested.
The specifications also list some supplemental characteristics of the
Agilent 81480A and Agilent 81680A/40A/82A/42A/89A Tunable Laser
modules. Supplemental characteristics should be considered as
additional information.
Any changes in the specifications due to manufacturing changes,
design, or traceability to the National Institute of Standards and
Technology (NIST), will be covered in a manual change supplement, or
revised manual. Such specifications supersede any that were
previously published.
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Performance Test Instructions
Performance Tests
Performance Test Instructions
NOTE • Make sure that all fiber connectors are clean.
• Turn the instruments on, enable the laser and allow the
instruments to warm up.
equipment is held within the environmental specifications given
in “Specifications” on page 39
General Test Setup
Insert your Tunable Laser module into the Agilent 8164A Lightwave
Measurement System. Insert an Agilent 81480A, Agilent 81680A,
Agilent 81640A, Agilent 81682A, or Agilent 81642A Tunable Laser
module from the rear. Insert an Agilent 81689A Tunable Laser module
from the front into slot 1 of the Agilent 8164A Lightwave Measurement
System.
Wavelength Tests
NOTE When performing wavelength tests, zero the Tunable Laser first.
Move to Channel 0, press [Menu], select <λ Zeroing>.
Zeroing takes approximately 2 minutes.
Connect the Tunable Laser module to the Wavelength Meter as shown
in Figure 17.
If you use the Agilent 81480A, Agilent 81680A or Agilent 81640A
Tunable Laser module, connect the Output 2, the high power output.
Agilent 8164A Lightwave
Measurement System
Wavelength Meter
Straight
Connector
Tunable Laser
For #021, #071: use 81000AI and 81101PC
For #022, #072: use 81000SI and 81113PC
Figure 17 Test Setup for Wavelength Tests
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Performance Tests
Performance Test Instructions
General Settings of Wavelength Meters for all
Wavelength Tests
Set the Burleigh WA-150 to the following settings:
• Set Display to Wavelength.
• Set Medium to Vacuum.
• Set Resolution to Auto.
• Set Averaging to On.
• Set Input Attenuator to Auto.
Wavelength Accuracy
The steps below explain how to calculate the Relative Wavelength
Accuracy, Absolute Wavelength Accuracy, and the Mode Hop Free
Tuning Result.
Relative Wavelength Accuracy
1 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
2 Set the menu parameters to the values shown in Table Table 5.
Table 5 Tunable Laser Channel Settings
Tunable Laser Channel Menu Parame-
ters
Values
<Wavelength Mode>
<Source State>
<Power Unit>
<λ>
<Off>
<dBm>
<Power Mode>
<Automatic>
3 If you use the Agilent 81480A, Agilent 81680A Tunable Laser
module or the Agilent 81640A Tunable Laser module:
Connect the fiber output to Output 2, the High Power output.
Set <Optical Output> to <High Power (2)>.
4 Set the wavelength and power of your Tunable Laser module to the
values given in Table Table 6.
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Performance Test Instructions
Performance Tests
Table 6 Initial Wavelength and Power Settings for Relative Wavelength Accuracy Tests
Module
Wavelength [λ]
Power [P]
Agilent 81480A
1370.200 nm
1460.000 nm
1510.000 nm
1460.000 nm
1460.000 nm
1510.000 nm
1510.000 nm
1525.000 nm
−3.00 dBm
−3.00 dBm
−3.00d Bm
−3.00 dBm
−4.50 dBm
−3.00 dBm
−4.50 dBm
−3.00 dBm
Agilent 81680A
Agilent 81640A
Agilent 81682A
Agilent 81682A (#003)
Agilent 81642A
Agilent 81642A (#003)
Agilent 81689A
5 Press the key beside the laser output to switch on the laser output.
6 Wait until the wavelength meter has settled, then, note the
wavelength displayed on the wavelength meter in the test record.
7 Increase the wavelength setting of Tunable Laser module by the
steps shown in the test record.
8 Repeat steps 6 and 7 up to the maximum wavelength values shown
in Table Table 7.
Table 7 Maximum Wavelength for Relative Wavelength Accuracy Tests
Tunable Laser Module
Maximum Wavelength Value
Agilent 81480A
Agilent 81680A
Agilent 81640A
Agilent 81682A
Agilent 81642A
Agilent 81689A
1480 nm
1580 nm
1640 nm
1580 nm
1640 nm
1575 nm
9 Repeat steps 4 through 8 another 4 times.
10 From each repetition of the measurements, pick the maximum and
minimum deviations, and note these values in the test record.
11 Determine the Relative Wavelength Accuracy Summary of all
repetitions:
a
Pick the largest Maximum Deviation, and note it as the Largest
Maximum Deviation in the test record.
b
Pick the smallest Minimum Deviation, and note it as the Smallest
Minimum Deviation in the test record.
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Performance Tests
Performance Test Instructions
NOTE The largest Maximum Deviation is the largest positive value and the
smallest Minimum Deviation is the largest negative value (largest
deviation above and below zero respectively).
12 Determine the Relative Wavelength Accuracy Result:
Subtract the Smallest Minimum Deviation from the Largest
Maximum Deviation. Record this value as the Relative Wavelength
Accuracy Result.
Absolute Wavelength Accuracy
13 From the measurements taken in the Relative Wavelength Accuracy
test, pick the largest absolute value from either the Largest
Maximum Deviation or the Smallest Minimum Deviation taken in
step 12 and note this value as Absolute Wavelength Accuracy.
Mode Hop Free Tuning
NOTE This section does not apply for Agilent 81689A Tunable Laser module.
14 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
15 Set the menu parameters to the values shown in Table Table 5.
16 If you are using the Agilent 81480A, Agilent 81680A, or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 2, the High Power output.
Set <Optical Output> to <High Power (2)>.
17 Set the wavelength and power of your Tunable Laser module to the
values given in Table Table 8.
Table 8 Initial Wavelength and Power Settings for Relative Wavelength Accuracy Tests
Module
Wavelength [λ]
Power [P]
Agilent 81480A
1415.000 nm
1460.000 nm
1510.000 nm
1460.000 nm
1460.000 nm
1510.000 nm
1510.000 nm
1525.000 nm
0.00 dBm
−3.00 dBm
−3.00d Bm
−3.00 dBm
−4.50 dBm
−3.00 dBm
−4.50 dBm
−3.00 dBm
Agilent 81680A
Agilent 81640A
Agilent 81682A
Agilent 81682A (#003)
Agilent 81642A
Agilent 81642A (#003)
Agilent 81689A
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Performance Test Instructions
Performance Tests
18 Press the key beside the laser output to switch on the laser output.
19 Then perform steps 4 through 8 once.
20 Note the wavelength displayed by the wavelength meter in the test
record.
21 Increase wavelength setting on Tunable Laser by the steps shown in
the test record.
22 Repeat steps 6 and 7 up to the maximum wavelength values shown
in Table Table 7.
23 Pick the maximum and minimum deviations, and note these values
in the test record.
24 Subtract the Minimum Deviation from the Maximum Deviation.
Record this value as the Mode Hop Free Tuning Result.
25 You do not need to repeat the Mode Hop Free Tuning test.
Wavelength Repeatability
1 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
2 Set the menu parameters to the values shown in Table Table 5.
3 If you are using the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 2, the High Power output.
Set <Optical Output> to <High Power (2)>.
4 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 9.
Table 9 Reference Wavelength and Power Settings for Wavelength Repeatability Tests
Module
Wavelength [λ]
Power [P]
Agilent 81480A
Agilent 81680A
Agilent 81640A
Agilent 81682A
Agilent 81682A #003
Agilent 81642A
Agilent 81642A #003
Agilent 81689A
1370.200 nm
1460.000 nm
1510.000 nm
1460.000 nm
1460.000 nm
1510.000 nm
1510.000 nm
1525.000 nm
−3.00 dBm
−3.00d Bm
−3.00 dBm
−3.00 dBm
−4.50 dBm
−3.00 dBm
−4.50 dBm
−3.00 dBm
5 Press the key beside the laser output to switch on the laser output.
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Performance Tests
Performance Test Instructions
6 Wait until the wavelength meter has settled. Then measure the
wavelength with the wavelength meter and note the result in test
record as the reference wavelength, "REF".
7 Set the wavelength of your Tunable Laser module to any wavelength
in its range (in the test record, this is given in column “from
wavelength”).
8 Set the wavelength of your Tunable Laser module back to the
Reference Wavelength and wait until the wavelength meter has
settled.
9 Measure the wavelength with the Wavelength Meter and note the
result in test record.
10 Repeat steps 7 through 9 with all wavelength settings given in the
“from wavelength” column of the test record.
11 From all wavelength measurements pick the largest measured value
and the smallest measured value.
12 Calculate the wavelength repeatability by subtracting the largest
measured value from the smallest measured value.
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Performance Test Instructions
Performance Tests
Power Tests
Calibration of the Agilent 81001FF Attenuation Filter
NOTE When an HP 81524A Optical Head is used in conjunction with a
Agilent 81001FF Attenuation Filter, it is absolutely necessary that you
calibrate the Agilent 81001FF Attenuation Filter before starting the
power tests in the following measurement setups; it is not sufficient to
use calibration factors that are derived from an earlier setup.
1 Make sure all instruments have warmed up.
Agilent 8164A Lightwave
Agilent 81000SA
Measurement System
Slanted
Connector
HP 81524A
Tunable Laser
Optical Head
For #021, #071: use 81000FI and 81113PC
For #022, #072: use 81000SI and 81113SC
HP 8153A Lightwave Multimeter
HP 81533B
Figure 18 Calibration of the Agilent 81001FF Attenuation Filter, Reference Setup
2 Set the power meter installed in the HP 8153A to the following
values:
a
b
c
Set range to 0 dBm; press Up or Down as required.
Set T, the averaging time, to 500 ms.
Agilent 81680A, 40A, 82A, 42A, & 89A:
Set λ, the wavelength, to 1550 nm.
Agilent 81480A:
Set λ, the wavelength, to 1450 nm.
d
Select dBm as the power units.
3 Move to the Tunable Laser channel of the Agilent 8164A.
Agilent 81680A, 40A, 82A, 42A, & 89A:
Set λ, the wavelength, to 1550 nm, and [P], the power, to 0 dBm..
For Agilent 81480A:
Set λ, the wavelength, to 1450 nm, and [P], the power, to 0 dBm.
4 Press the key beside the laser output to switch the laser on.
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Performance Test Instructions
5 Check if the display of HP 8153A reads 0 dBm 2 dBm.
6 Select dB as the power units of the HP 8153A.
7 Press Disp−>Ref on the HP 8153A.
8 Attach the Agilent 81001FF Attenuation Filter to the Optical Head
as shown in Figure 19. Move the patchcord as little as possible,
keeping the laser activated.
Agilent 8164A Lightwave
Measurement System
81000SA
Slanted
Connector
Agilent 81001FF
HP 81524A
Optical Head
Tunable Laser
For #021, #071: use 81000FI and 81113PC
For #022, #072: use 81000SI and 81113SC
HP 8153A Lightwave Multimeter
HP 81533B
Figure 19 Test Setup for Calibrating the Agilent 81001FF Attenuation Filter
9 On the HP 8153A Lightwave Multimeter, move to the power
measurement channel where the HP 81533B is installed. Press
Parameter until CAL is displayed. Using the Modify keys, change
the CAL value until the display shows 0.00 dB.
10 For further measurements using this Attenuation Filter, you have to
set the calibration factor of the HP 8153A to this value to get the
absolute power reading.
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Performance Test Instructions
Performance Tests
Maximum Output Power
Make sure the instruments have warmed up before starting the
measurement.
NOTE • Absolute Power Accuracy is not specified.
• The result of the measurement below is greatly influenced by the
1 Set up the equipment as shown in Table Figure 20.
Agilent 8164A Lightwave
81000SA
Measurement System
Slanted
Connector
HP 81525A
Tunable Laser
Optical Head
For #021, #071: use 81000FI and 81113PC
For #022, #072: use 81000SI and 81113SC
HP 8153A Lightwave Multimeter
HP 81533B
Figure 20 Test Setup for the Maximum Output Power Tests
2 Set the Power Meter to the following settings:
a
b
c
Select automatic ranging; press Auto as required.
Set T, the averaging time, to 500 ms.
Select dBm as the power units.
3 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
4 Set the menu parameters to the values shown in Table Table 5.
5 If you are using the Agilent 81480A, Agilent 81680A, or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 1, the Low SSE output,
remember to calibrate the Agilent 81001FF Attenuation Filter.
Set <Optical Output> to <Low SSE (1)>.
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Performance Test Instructions
6 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 10.
Table 10 Reference Wavelength and Power Values for Maximum Output Power Tests
Module
Wavelength [λ]
Power [P]
Agilent 81480A - Output 1
Agilent 81480A - Output 2
Agilent 81680A - Output 1
Agilent 81680A - Output 2
Agilent 81640A - Output 1
Agilent 81640A - Output 2
Agilent 81682A
1370.200 nm
1370.200 nm
1460.000 nm
1460.000 nm
1510.000 nm
1510.000 nm
1460.000 nm
1510.000 nm
1525.000 nm
+0.00 dBm
+10.00 dBm
+0.00 dBm
+10.00 dBm
+0.00 dBm
+10.00 dBm
+10.00 dBm
+10.00 dBm
+10.00 dBm
Agilent 81642A
Agilent 81689A
7 Press the key beside the laser output to switch on the laser output.
NOTE The laser output is limited to its maximum possible value at this
wavelength, the display will probably show ExP.
8 Set the wavelength of the HP 8153A to the same as your Tunable
Laser module, as given in Table Table 10.
9 Measure the output power with the HP 8153A and note the result
for this wavelength in the test record.
10 Increase the λ, output wavelength, of the Tunable Laser module to
the next value given in the test record.
11 Increase the wavelength of the HP 8153A to the same value.
12 Note the measured power in the test record for each wavelength
13 Repeat item 10 to item 12 for the full wavelength range
14 If you are using the Agilent 81680A, Agilent 81480A, or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 2, the High Power output,
remember to calibrate the Agilent 81001FF Attenuation Filter and
set <Optical Output> to <High Power (2)>.
Then, perform steps 6 through 12 for the full wavelength range.
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Performance Test Instructions
Performance Tests
Power Linearity
Power Linearity - Low Power Test
To measure the power linearity of the Low SSE output, Output 1, of
the Agilent 81480A, Agilent 81680A, or the of the Agilent 81640A:
1 Set up the equipment as shown in Figure 21.
Agilent 8164A Lightwave
Measurement System
Tunable Laser
Slanted
Connector
For #021, #071: use 81000FI and 81113PC
For #022, #072: use 81000SI and 81113SC
HP 8153A Lightwave Multimeter
HP 81532A
Power Sensor
Figure 21 Test Setup for Low Power Linearity Tests
2 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
3 Set the menu parameters to the values shown in Table Table 5.
<Power Mode> does not apply.
4 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 11.
Table 11 Wavelength and Power Settings for Low Power Linearity Tests
Module
Wavelength [λ]
Power [P]
Agilent 81480A - Output 1
Agilent 81680A - Output 1
Agilent 81640A - Output 1
1430.000 nm
1540.000 nm
1560.000 nm
−7.00 dBm
−6.00 dBm
−7.00 dBm
5 If you are using the Agilent 81680A, Agilent 81480A, or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 1, the Low SSE output.
Set <Optical Output> to <Low SSE (1)>.
6 Make sure the optical output is switched off.
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7 Set the HP 8153A to the following settings:
a
b
c
Zero the HP 81532A; press Zero.
Select automatic ranging; press Auto as required.
Set T, the averaging time, to 500 ms.
Select dB as the power units.
d
e
Set the l, the wavelength, to the same as your Tunable Laser
module, as given in Table Table 11.
8 Press the key beside the laser output to switch on the laser output.
For the Agilent 81480A, Agilent 81680A and the Agilent 81640A,
press the key beside Output 1, the Low SSE output.
9 Record the power displayed by the HP 8153A.
10 Press Disp−>Ref on the HP 8153A.
11 Change the power setting of your Tunable Laser module to the next
value listed in the test record and record the power displayed by the
HP 8153A again.
12 Record the power displayed by the HP 8153A as the "Measured
Relative Power from start".
13 Calculate the "Power Linearity at current setting as the sum of
"Measured Relative Power from start" and "Power Reduction from
start".
14 Repeat item 11 to item 13 for all power levels listed in the test
record.
15 Note the maximum and minimum values of the calculated Power
Linearity values for the various settings and record these in the test
record.
16 Subtract the minimum values from the maximum values of the
Power Linearity for the various settings. Record these as the Total
Power Linearity for the various settings.
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Performance Test Instructions
Performance Tests
Example (Agilent 81680A Output 1)
Power LinearityOutput 1
Power Setting Measured Relative
Power reduction
from start
Power Linearity
at current setting
from start
Power from start
Start = REF
−6.0 dBm
−7.0 dBm
0.00 dB
−1.02 dB
−1.92 dB
−3.02 dB
−3.95 dB
−5.07 dB
−5.96 dB
−7.05 dB
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
=
=
=
=
=
=
=
=
0.00 dB
−0.02 dB
+0.08 dB
−0.02 dB
+0.05 dB
−0.07 dB
+0.04 dB
−0.05 dB
−8.0 dBm
−9.0 dBm
− 10.0 dBm
− 11.0 dBm
− 12.0 dBm
− 13.0 dBm
Maximum Power Linearity at current setting:
Minimum Power Linearity at current setting:
+0.08 dB
−0.07 dB
Total Power Linearity:
(Max Power Linearity − Min Power Linearity)
0.15 dBpp
Power Linearity - High Power Test
Follow the steps below to measure the power linearity (without using
attenuation) of any one of the following:
• Output2, the High Power output, of the Agilent 81480A
• Output 2, the High Power output, of the Agilent 81680A
• Output 2, the High Power output, of the Agilent 81640A
• Agilent 81682A standard
• Agilent 81682A #003
• Agilent 81642A standard
• Agilent 81642A #003
• Agilent 81689A
1 Set up the equipment as shown in Figure 20 (remember to calibrate
the Agilent 81001FF Attenuation Filter if using 81524A).
2 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
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3 Set the menu parameters to the values shown in Table Table 5.
For Agilent 81480A, Agilent 81680A, Agilent 81640A,
Agilent 81682A, and Agilent 81642A tunable lase modules:
Set <Power Mode> to <Manual Att>.
4 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 12.
Table 12 Wavelength and Power Settings for High Power Linearity Tests without
Attenuation
Module
Wavelength [λ]
Power [P]
Attenuation [Atten]
Agilent 81480A - Output 2
Agilent 81680A - Output 2
Agilent 81640A - Output 2
Agilent 81682A
1430.000 nm
1540.000 nm
1560.000 nm
1540.000 nm
1540.000 nm
1580.000 nm
1580.000 nm
1540.000 nm
+3.000 dBm
+5.000 dBm
+2.000 dBm
+6.000 dBm
+4.500d Bm
+6.000 dBm
+4.500 dBm
+6.000 dBm
0.000 dB
0.000 dB
0.000 dB
Not applicable
0.000 dB
Agilent 81682A #003
Agilent 81642A
Not applicable
0.000 dB
Agilent 81642A #003
Agilent 81689A
Not applicable
without attenuation, refer to the table “Power Linearity Output 2,
High Power Upper Power Levels” on page 120.
table “Power Linearity Output 2, High Power Upper Power Levels”
on page 134.
table “Power Linearity 81682A #003 Upper Power Levels” on
page 148.
table “Power Linearity 81642A #003 Upper Power Levels” on
page 160.
5 Perform the steps 5 to 16 of the “Power Linearity - Low Power Test”
on page 71.
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Performance Test Instructions
Performance Tests
Power Linearity - Test Using Attenuation
Follow the steps below to measure the power linearity (while using
attenuation) of any one of the following:
• Output 2, the High Power output, of the Agilent 81480A
• Output 2, the High Power output, of the Agilent 81680A
• Output 2, the High Power output, of the Agilent 81640A
• Agilent 81682A #003
• Agilent 81642A #003
1 Set up the equipment as shown in Figure 21.
2 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
3 Set the menu parameters to the values shown in Table Table 5.
For Agilent 81480A, Agilent 81680A, Agilent 81640A,
Agilent 81642A#003 Agilent 81682A#003:
Set <Power Mode> to <Manual Att>.
4 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 13.
Table 13 Wavelength and Power Settings for High Power Linearity Tests with
Attenuation
Module
Wavelength [λ]
Power [P]
Attenuation [Atten]
Agilent 81480A - Output 2
1430.000 nm
1540.000 nm
1560.000 nm
1540.000 nm
1580.000 nm
+0.000 dBm
+0.000 dBm
+0.000 dBm
+0.000 dBm
+0.000 dBm
0.000 dB
0.000 dB
0.000 dB
0.000 dB
0.000 dB
Agilent 81680A - Output 2
Agilent 81640A - Output 2
Agilent 81682A #003
Agilent 81642A #003
Linearity Output 2, High Power by attenuator” on page 121 or “Power
Linearity Output 2, High Power by Attenuator” on page 135
respectively.
If you use the Agilent 81682A #003 with attenuation, use the table
“Power Linearity 81682A #003 by Attenuator” on page 149.
If you use the Agilent 81642A #003 with attenuation, use the table
“Power Linearity 81642A #003 by Attenuator” on page 161.
5 Perform the steps 5 to 16 of the “Power Linearity - Low Power Test”
on page 71.
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Performance Tests
Performance Test Instructions
Power Flatness over Wavelength
Power Flatness over Wavelength - Without Attenuation
Follow the steps below to measure the power flatness over wavelength
(without using attenuation):
1 Set up the equipment as shown in Figure 21.
2 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
3 Set the menu parameters to the values shown in Table Table 5.
For Agilent 81480A, Agilent 81640A, Agilent 81680A,
Agilent 81642A#003, and Agilent 81682A#003:
Set <Power Mode> to <Manual Att>.
4 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 14.
Table 14 Wavelength and Power Settings for Power Flatness over Wavelength Tests
without Attenuation
Module
Wavelength [λ]
Power [P]
Attenuation [ATTEN]
Agilent 81480A - Output 1
Agilent 81480A - Output 2
Agilent 81680A - Output 1
Agilent 81680A - Output 2
Agilent 81640A - Output 1
Agilent 81640A - Output 2
Agilent 81682A
1420.000 nm
1420.000 nm
1460.000 nm
1460.000 nm
1510.000 nm
1510.000 nm
1460.000 nm
1460.000 nm
1510.000 nm
1510.000 nm
1525.000 nm
1525.000 nm
−13.000 dBm
−3.000 dBm
−13.000 dBm
−3.000 dBm
−13.00 dBm
−5.00 dBm
Not applicable
0.000 dB
Not applicable
0.000 dB
Not applicable
0.000 dB
−3.000 dBm
−5.500 dBm
Not applicable
−4.500 dBm
+2.000 dBm
−3.000 dBm
Not applicable
0.000 dB
Agilent 81682A #003
Agilent 81642A
Not applicable
0.000 dB
Agilent 81642A #003
Agilent 81689A
Not applicable
Not applicable
Agilent 81689A
5 If you are using the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 1, the Low SSE output.
Set <Optical Output> to <Low SSE (1)>.
6 Set the power meter channel of the HP 8153A to the following
settings:
a
Set range to 0 dBm. Press Up or Down as required.
b
Set T, the averaging time, to 500 ms.
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Performance Test Instructions
Performance Tests
c
Set the l, the wavelength, to the same as your Tunable Laser
module, as given in Table Table 14.
d
Select dB as the power units.
7 Press the DISP->REF hardkey of the HP 8153A.
8 Increase the wavelength of the Tunable Laser module and of the
Power Meter to the next value listed in the test record.
9 Measure the output power. Note the result in the test record
10 Repeat steps 8 and 9 for the wavelength settings given in the test
record.
11 From the measurement results calculate the difference between the
maximum and minimum deviation from REF and note the result as
the Flatness.
12 If you use the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 2, the High Power output.
13 Set wavelength and power as given in Table Table 14.
14 Repeat steps 6 to 11.
Power Flatness over Wavelength - Using Attenuation
Follow the steps below to measure the power flatness over wavelength
(while using attenuation) of any one of the following:
• Agilent 81480A, Output 2, High Power
• Agilent 81680A, Output 2, High Power
1 Set up the equipment as shown in Figure 21.
2 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
3 Set the menu parameters to the values shown in Table Table 5.
Set <Power Mode> to <Manual Att>.
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Table 15 Wavelength and Power Settings for Power Flatness over Wavelength Tests
with Attenuation
Module
Wavelength [λ]
Power [P]
Attenuation [Atten]
Agilent 81480A - Output 2
Agilent 81680A - Output 2
Agilent 81640A - Output 2
Agilent 81682A #003
1420.000 nm
1460.000 nm
1510.000 nm
1460.000 nm
1510.000 nm
−3.000 dBm
−3.000 dBm
−5.000 dBm
−4.500 dBm
−4.500 dBm
57.000 dB
57.000 dB
55.000 dB
55.500 dB
55.500 dB
Agilent 81642A #003
4 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 15.
5 If you are using the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 2, the high power output.
Set <Optical Output> to <High Power (2)>.
6 Set the power meter channel of the HP 8153A to the following
settings:
a
b
c
Set range to -60 dBm. Press Up or Down as required.
Set the l, the wavelength, to the same as your Tunable Laser
module, as given in Table Table 14.
d
Select dB as the power units.
7 Press the DISP->REF hardkey of the HP 8153A.
8 Increase the wavelength of the Tunable Laser module and of the
Power Meter to the next value listed in the test record.
9 Measure the output power. Note the result in the test record
10 Repeat steps 8 and 9 for the wavelength settings given in the test
record.
11 From the measurement results calculate the difference between the
maximum and minimum deviation from REF and note the result as
the Flatness.
12 If you are using the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 2, the High Power output.
13 Set wavelength and power as given in Table Table 14.
14 Repeat steps 6 to 11.
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Performance Test Instructions
Performance Tests
Power Stability
Follow the steps below to measure the power stability:
1 Set up the equipment as shown in Figure 20.
2 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
3 Set the menu parameters to the values shown in Table Table 5.
4 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 16.
Table 16 Wavelength and Power Settings for Power Stability Tests
Module
Wavelength [λ]
Power [P]
Agilent 81480A - Output 1
1450.000 nm
1450.000 nm
1540.000 nm
1540.000 nm
1560.000 nm
1560.000 nm
1540.000 nm
1540.000 nm
1580.000 nm
1580.000 nm
1540.000 nm
−13.000 dBm
− 3.000 dBm (ATT = 0 dB)
−13.000 dBm
Agilent 81480A - Output 2
Agilent 81680A - Output 1
Agilent 81680A - Output 2
Agilent 81640A - Output 1
Agilent 81640A - Output 2
Agilent 81682A
− 3.000 dBm (ATT = 0 dB)
−13.00 dBm
− 5.00 dBm (ATT = 0 dB)
− 3.000 dBm
Agilent 81682A #003
Agilent 81642A
− 5.500 dBm (ATT = 0 dB)
− 3.000 dBm
Agilent 81642A #003
Agilent 81689A
− 4.500 dBm (ATT = 0 dB)
− 3.00 dBm
5 If you are using the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 1, the Low SSE output.
Set <Optical Output> to <Low SSE (1)>.
6 Ensure the optical output is switched off.
7 Set the power meter channel of the HP 8153A to the following
settings:
• Enable automatic ranging; press Auto as required.
• Set T, the averaging time, to 200 ms.
NOTE You should record measurements after a time interval of at least 3
seconds.
• Set the λ, the wavelength, to the same as your Tunable Laser
module, as given in Table Table 16.
• Select dB as the power units.
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Performance Test Instructions
• Set HP 8153A to Logging, T_Total 15 minutes:
a
b
c
Press Menu.
Press Record to get STABILITY.
Press Edit to get T_TOTAL.
d
e
Modify the display until it shows 0:15:00.
Press Edit.
NOTE To test power stability, it is sufficient to set T_Total to 15 minutes
rather than 1 hour, to ensure that the power control loop works
correctly.
8 Press the key beside the laser output to switch on the laser output
and wait 1 minute. For the Agilent 81480A, Agilent 81680A or the
Agilent 81640A, press the key beside Output 1, the Low SSE output,
or the key beside Output 2, the High Power output, as appropriate.
9 On the HP 8153A, press Exec.
Display will show RUNNING (blinking ) for a few moments and then
show the remaining time. When logging has finished the display will
show STABILITY.
10 To see the results:
a
b
c
Press More to get SHOW.
Press Edit to get MAXIMUM. Note the value in the test record.
Press Next to get MINIMUM. Note the value in the test record.
Press Edit, and Mode to return to normal operation.
d
11 Calculate the Stability by subtracting the MINIMUM from the
MAXIMUM.
12 If you are using the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 2, the high power output.
Then set the wavelength and power to the value given in Table Table
16.
13 Repeat item list 6 to 11.
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Performance Test Instructions
Performance Tests
See “Specifications” on page 39 for a definition of Signal-to-Source
Spontaneous Emission.
Signal-to-Source Spontaneous Emission Tests - High
Power Outputs
Follow this procedure to test modules with high power outputs:
• Agilent 81480A, Output 2, High Power
• Agilent 81680A, Output 2, High Power
• Agilent 81640A, Output 2, High Power
• Agilent 81682A standard model
• Agilent 81682A #003
• Agilent 81642A standard model
• Agilent 81642A #003
• Agilent 81689A
1 Connect the Tunable Laser module to the Optical Spectrum
Analyzer as shown in Figure 22.
Agilent 8164A Lightwave
Measurement System
Optical Spectrum Analyzer
Tunable Laser
For #021, #071: use 81000AI, 81101AC and 81000AI
For #022, #072: use 81000SI, 81113PC and 81000FI
Figure 22 Test Setup for the Source Spontaneous Emission Test - High Power Outputs
2 If you are using the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the one end of the fiber to Output 2, the High Power output,
and the other to the Optical Spectrum Analyzer.
3 Initialize Optical Spectrum Analyzer: press Preset the green
hardkey and Auto Meas.
4 Set the Optical Spectrum Analyzer:
a
Set Span to 4 nm. Press Span, enter the value.
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b
c
Set the Resolution Bandwidth to 1 nm. Press [AMPL], press
[BW Swp], and enter the value.
Set the Sensitivity to -60 dBm. Press [AMPL], press [SENS], and
enter the value.
d
Set the wavelength to the value given for your Tunable Laser
module in Table Table 17.
5 Move to the Tunable Laser channel of the Agilent 8164A Lightwave
Measurement System and press [Menu].
6 Set the menu parameters to the values shown in Table Table 5.
7 If you are using the Agilent 81480A, Agilent 81680A or the
Agilent 81640A Tunable Laser module:
Connect the output fiber to Output 2, the High Power output.
Set <Optical Output> to <High Power (2)>.
8 Ensure the optical output is switched off.
9 Set the wavelength of your Tunable Laser module to the value given
in Table Table 17.
Table 17 Wavelength Settings for Source Spontaneous Emission Tests
Module
Wavelength [λ]
Agilent 81480A - Output 2
Agilent 81680A - Output 2
Agilent 81640A - Output 2
Agilent 81682A
1420.000 nm
1460.000 nm
1510.000 nm
1460.000 nm
1510.000 nm
1525.000 nm
Agilent 81642A
Agilent 81689A
10 Set the power for each Tunable Laser module to the maximum
specified output power as given in the Test Record.
11 Press the key beside the laser output to switch on the laser output.
12 On the spectrum analyzer, set the Marker to the highest peak and
select delta.
(Marker −> HIGHEST PEAK −> DELTA)
13 Using the MODIFY knob move the second marker to the highest
peak of the displayed side modes and note the difference, delta,
between the two markers in the Test Record.
14 Increase the wavelength of the Tunable Laser by 10 nm as specified
in the Test Record.
15 Repeat steps 11 to 13 within the wavelength range of the Tunable
Laser.
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Performance Test Instructions
Performance Tests
Signal-to-Source Spontaneous Emission Tests - Low
SSE Outputs
Follow this procedure to test modules with Low SSE high power
outputs:
• Agilent 81480A, Output 1, Low SSE
• Agilent 81680A, Output 1, Low SSE
• Agilent 81640A, Output 1, Low SSE
The previous setup is limited by the dynamic range of the Optical
Spectrum Analyzer. An improvement can be done by reducing the
power of the spectral line of the Tunable Laser module by a filter, a
Fiber Bragg Grating. However, by this approach, the measurement is
limited to a single wavelength (that of the peak attenuation of the
Fiber Bragg Grating):
The Fiber Bragg Grating has a straight connector on one end and a
slanted connector on the other. Depending on the output connector
option of your Tunable Laser module, the Device Under Test (DUT),
the Fiber Bragg Grating should be connected with:
• a straight connector, if you use option #021 or #071, or
• the slanted connector, if you use option #022 or #072.
NOTE Because the Tunable Laser channel displays the wavelength in air and
the Optical Spectrum Analyzer displays the wavelength in a vacuum
there is a mismatch between the values displayed by the two
instruments.
A good approximation in this wavelength range is:
λ
= λ
− 0.5 nm
OSA
TLS
Use λ
as primary reference because the specified wavelength
TLS
accuracy of the Tunable Laser modules is better than the OSA.
The accuracy of the offset value in this equation does not influence the
measurement accuracy of spectral and total SSE measurements.
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Figure 23 Transmission Characteristic of Fiber Bragg Grating
Figure 24 Signal-to-Spectral SSE Measurement
λ ... λ
Lower Transmission Band
Upper Transmission Band
Attenuation Band
1
2
4
3
λ ... λ
3
λ ... λ
< 2 nm
2
1 Connect the Tunable Laser module (DUT) to the Optical Spectrum
Analyzer as shown in Figure 25. Connect the one end of the Fiber
1
Bragg Grating (FBG) to Output 1, the Low SSE output, and the
other to the Optical Spectrum Analyzer.
1
81640A, 81680A: λFBG ≈ 1520 nm
81480A: λFBG ≈ 1407 nm
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Performance Test Instructions
Performance Tests
Agilent 8164A Lightwave
Optical Spectrum Analyzer
Measurement System
Fiber
Bragg
Grating
Tunable Laser
For #021, #071: use 81000FI and adapter DIN/DIN 1005-0255 and 81113PC and 81000FI
For #022, #072: use 81000SI and 81000FI
Figure 25 Test Setup for Source Spontaneous Emission Test
2 Determine the filter transmission characteristics:
a
Check center wavelength, l
, of the Fiber Bragg Grating. This
FBG
wavelength is printed on its label, for example, 1520.5 nm. This
value relates to measurements performed in a vacuum.
b
Set the Optical Spectrum Analyzer:
•
•
Set the Span to 8 nm. Press Span and enter the value.
Set the center wavelength to λ
− 0.5 nm. Press Center and enter
FBG
the value.
•
•
•
Set the reference level to 0 dBm. Press [AMPL], press [Ref LVL],
and enter the value.
Set the Sensitivity to -68 dBm. Press [AMPL], press
[SENS AUTO MAN], and enter the value.
Set the resolution bandwidth to 0.1 nm. Press [BW Swp], and enter
the value.
c
Set the Tunable Laser module
•
Set [λ], the wavelength, to λ
FBG
1520.5 nm − 1 nm = 1519.5 nm.
Set [P], the output power, to the value in Table Table 18.
•
Table 18 Output Power Setting - Low SSE Output
Power [P]
Tunable Laser Module
Agilent 81480A - Output 1
Agilent 81680A - Output 1
Agilent 81640A - Output 1
-7 dBm
-6 dBm
-7 dBm
d
e
Press the key beside the laser output to switch on the laser
output.
Check and note the peak power level displayed by the OSA and
the wavelength at the peak power. Press Peak Search in the
Marker field.
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1 nm, check and note the power level displayed by the
OSA at every 0.1 nm interval. That is, fill out the table shown in
Table Table 19.
Table 19 Filter Transmission Characteristic
Tunable Laser Module Output
Associated Wavelength Dis-
played on OSA
Wavelength Relative to λ
Peak Power Level
FBG
−1.0 nm
−0.9 nm
−0.8 nm
−0.7 nm
−0.6 nm
−0.5 nm
−0.4 nm
−0.3 nm
−0.2 nm
−0.1 nm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
µW
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
0 nm = λ
FBG
+0.1 nm
+0.2 nm
+0.3 nm
+0.4 nm
+0.5 nm
+0.6 nm
+0.7 nm
+0.8 nm
+0.9 nm
+1.0 nm
µW
3 Determine minimum value of filter transmission and actual Fiber-
Bragg-Grating center wavelength, λ .
0
a
Check for minimum transmitted peak power in Table Table 19.
Mark the associated wavelength set on the Tunable Laser,
b
TLS_l , and note the value in the test record.
0
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Performance Tests
c
Mark the associated wavelength displayed on the OSA, OSA_l ,
0
and note the value in the test record.
4 Set TLS to the wavelength of minimum transmission, TLS_λ .
0
5 Record spectrum at minimum filter transmission. Set the Optical
Spectrum Analyzer:
a
b
c
Set the Sensitivity to -90 dBm.
Set the resolution bandwidth to 0.5 nm.
Set the center wavelength to OSA_l .
0
d
e
Set the reference level to -40 dBm.
Set the span to 6 nm.
6 Determine limits of transmission and attenuation ranges by
performing the following calculations:
f
Lower Transmission Band: l1 ... l2
•
TLS_λ = TLS_λ − 3 nm
1
0
•
TLS_λ = TLS_λ − 0.5 × Attenuation Band
2
0
= TLS_λ − 1 nm
0
g
Upper Transmission Band: l3 ... l4
•
TLS_λ = TLS_λ + 0.5 × Attenuation Band
3
0
= TLS_λ + 1 nm
0
•
TLS_λ = TLS_λ + 0.5 × Upper Transmission Band
4
0
= TLS_λ + 3 nm
0
7 Determine maximum transmitted power value inside transmission
band:
Record spectrum:
Check for the maximum transmitted power (max_SSE_power)
within Lower and Upper Transmission Bands. Do this by using
the marker. Change λ by using the RPG and note the maximum
power value within the Lower and Upper Transmission Bands
(this is one value for these bands together). Note this value in the
test record. Check the associated wavelength on OSA
(OSA@max_SSE_power) and note the value in the test record.
8 Set the marker of the OSA to OSA@max_SSE_power.
Change [λ], the output wavelength of the TLS, so that the peak
wavelength of the spectrum is at the OSA marker
Change [λ], the output wavelength of the TLS, to the wavelength of
highest SSE (TLS@max_SSE_power) using the approximation:
TLS@max_SSE_power = OSA@max_SSE_power + 0.5 nm
9 Determine TLS@max_SSE_power as follows:
Set the Optical Spectrum Analyzer:
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a
b
c
d
e
f
Set the Sensitivity to -68 dBm.
Set the resolution bandwidth to 0.5 nm.
Set the center wavelength to OSA@max_SSE_power.
Set the reference level to 0 dBm.
Set the span to 6 nm.
Record the spectrum.
10 Within the total spectrum, determine peak power
(power@SSE_peak) and note the value in the test record.
NOTE This is at the wavelength the TLS is set to for this measurement and
the OSA measures, respectively.
11 Calculate spectral SSE by using the following equation:
Spectral SSE = power@SSE_peak – ( max_SSE_power + 3 [dB/nm])
Note the value in the test record.
NOTE The measurements were done with a resolution bandwidth of 0.5 nm.
The additional value of 3 dB takes care of a resolution of 1 nm, thus to
get the SSE in [dB/nm].
Signal-to-Total-Source Spontaneous
Emission
Follow this procedure to test the Tunable Laser modules:
• Agilent 81480A
• Agilent 81680A
• Agilent 81640A
• Agilent 81682A
• Agilent 81642A
This test does not apply to the Agilent 81689A.
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Performance Test Instructions
Performance Tests
Signal to Total SSE Measurement
Measured Spectrum
Output
Power
Signal
Total SSE =
Σ
Wavelength/ nm
Signal to Total SSE Tests - Low SSE Outputs
Follow this procedure to test modules with low SSE outputs:
• Agilent 81480A, Output 1, the Low SSE output
• Agilent 81680A, Output 1, the Low SSE output
• Agilent 81640A, Output 1, the Low SSE output
1 Check center wavelength of Fiber Bragg Grating, FBG (λ_FBG)
which is printed on its label (for example, 1520.5 nm). This value
relates to vacuum conditions.
2 Determine OSA noise, that is, the noise of OSA alone without
applying the Tunable Laser signal:
a
Switch off the laser output of the Tunable Laser.
Set the OSA
b
•
•
Set the Span to 30 nm. Press Span and enter the value.
Set the center wavelength, OSA_λ_center, to λ
Center and enter the value.
− 0.5 nm. Press
FBG
•
•
•
Set the reference level to −40 dBm. Press [AMPL], press [Ref
LVL], and enter the value.
Set the Sensitivity to −90 dBm. Press [AMPL], press
[SENS AUTO MAN], and enter the value.
Set the resolution bandwidth to 1 nm. Press [BW Swp], and enter
the value.
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c
Record noise spectrum for a single sweep.
d
Measure partial noise of the spectrum.
With a sampling step of 1 nm on the OSA, check all 201 power
levels within the recorded spectrum, starting at OSA_l_center –
15 nm and finishing at OSA_l_center + 15 nm.
NOTE Note the “partial noise power level” values in a table in [pW], where
−12
1 pW = 10
W.
Example:
Table 20 Signal to Total SSE Tests - Low SSE Outputs
Wavelength,
Relative to OSA_λ_center
Partial Noise Power levels
−15 nm
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
−14 nm
−13nm
….
….
−2 nm
−1 nm
0 nm (= OSA_λ_center)
+1 nm
+ 2 nm
….
….
+ 13 nm
+ 14 nm
+ 15 nm
Sum of all partial noise power levels
e
Determine total noise power by adding up all 31 partial noise
power levels:
OSA_noise = Sum of all partial noise power levels
OSA_noise = _________ pW
f
Note the OSA_noise value in the test record.
3 Connect the Tunable Laser (DUT) to the Optical Spectrum Analyzer
as shown in Figure 25. Connect one end of the Fiber Bragg Grating
to Output 1,the Low SSE output of the TLS and the other to the
Optical Spectrum Analyzer.
4 Set the TLS menu parameters to the values shown in Table Table 5.
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Performance Tests
5 Set the power for each Tunable Laser module to the values given in
Table Table 21.
NOTE For the Agilent 81480A and Agilent 81640A, the laser ouput power is
limited to its maximum possible value at this wavelength. The display
will probably show ExP.
Table 21 Power Settings for Signal to Total SSE Tests - Low SSE Outputs
Module
Power [P]
Agilent 81480A - Output 1
Agilent 81680A - Output 1
Agilent 81640A - Output 1
−7.00 dBm
−6.00 dBm
6 Determine filter transmission characteristic (see Signal-to-Source
Spontaneous Emission Tests - Low SSE Outputs on page 83). You
may skip this step if the characteristic has already been determined.
a
b
c
Determine minimum value of filter transmission and actual FBG
center wavelength l0 (see step 3 on page 86). You may skip this
step if the characteristic has already been determined.
Note the wavelength of minimum transmitted peak power the
TLS is set to in the test record
TLS_l0 = ________ nm
Mark the associated wavelength displayed on the OSA (OSA_l0)
and note the value in the test record
OSA_l0 = ________ nm
7 Record spectrum at minimum filter transmission:
Set TLS to the wavelength of minimum transmission (TLS_λ0)
Check that the laser output is activated.
8 Set the Optical Spectrum Analyzer:
a
Set Span to 30 dBmnm. Press Span, enter the value.
b
Set the Resolution Bandwidth to 1 nm. Press [AMPL], press [BW
Swp], and enter the value.
c
d
e
Set the Sensitivity to -90 dBm. Press [AMPL], press [SENS], and
enter the value.
Set the center wavelength to OSA_l0. Press Center and enter the
value.
Set the reference level to -40 dBm. Press [AMPL], press [Ref
LVL], and enter the value.
9 Determine limits of SSE range by performing the following
calculations:
a
Lower Transmission Band: l1 ... l2
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Performance Tests
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•
•
OSA_λ = OSA_λ − 15 nm
1
0
OSA_λ = OSA_λ − 1/2 × Attenuation Band
2
0
= OSA_λ − 1 nm
0
b
c
Upper Transmission Band: l3 ... l4
•
OSA_λ = OSA_λ + 1/2 × Attenuation Band
3
0
= OSA_λ + 1 nm
0
•
OSA_λ = OSA_λ + Upper Transmission Band
4
0
= OSA_λ + 15 nm
0
Note the values of OSA_l1, OSA_l2, OSA_l3, OSA_l4 in the test
record:
•
•
•
•
OSA_λ = ___________ nm
1
OSA_λ = ___________ nm
2
OSA_λ = ___________ nm
3
OSA_λ = ___________ nm
4
10 Determine SSE power values inside the transmission bands:
a
b
c
Ensure the TLS is set to TLS_l0 and is not changed.
On OSA, set marker to OSA_l1.
Check the OSA and note SSE power value in [pW] in the table
below as SSE_power.
d
e
f
Increase OSA marker wavelength by 1 nm.
Repeat steps c and d until the wavelength is equal to OSA_l2.
Set OSA to OSA_l3.
g
h
Repeat steps c and d until the wavelength is equal to OSA_l4.
Add up all power values inside the transmissions bands to get
the value of power_trans.
−12
NOTE Note all the power values in the table in [pW], where 1 pW = 10
W.
Example:
Lower transmission band
OSA_λ1 to OSA_λ2
Upper transmission band
OSA_λ3 to OSA_λ4
Relative Wavelength,
Relative Wavelength,
Increments
Increments
SSE_power mea-
sured
SSE_power mea-
sured
from λ_1
from λ_3
0 (relates to OSA_λ1)
+1 nm
pW
0 (relates to λ_3)
+ 1 nm
pW
pW
pW
pW
pW
+2 nm
+ 2 nm
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Performance Test Instructions
Performance Tests
Lower transmission band
OSA_λ1 to OSA_λ2
Upper transmission band
OSA_λ3 to OSA_λ4
Relative Wavelength,
Relative Wavelength,
Increments
Increments
SSE_power mea-
sured
SSE_power mea-
from λ_1
from λ_3
sured
+3 nm
+4 nm
….
pW
+ 3 nm
+ 4 nm
….
pW
pW
pW
….
….
….
….
….
….
….
….
….
….
….
….
….
….
….
….
….
….
….
….
….
….
+11 nm
+12 nm
+13 nm
pW
pW
pW
pW
+11 nm
+12 nm
+13 nm
pW
pW
pW
pW
+14 nm
+14 nm
(relates to OSA_λ2)
(relates to OSA_λ4)
Sum of all SSE power levels:
• in lower transmission band ________ pW (1)
• in upper transmission band ________ pW (2)
Sum of all SSE power levels in transmission bands, add results in (1)
and (2)
power_trans = ___________ pW
11 Determine SSE power inside the attenuation band by interpolation:
a
Check the power measured at OSA_l2 and OSA_l3.
b
Mark that power value which is the largest of both and note it as
power_ OSA_l2,3_max
c
Calculate the power inside the attenuation band by using
power_att = 1/2 ¥ power_ OSA_l2,3_max
-12
= ___________ 10 W = ___________ pW
−12
NOTE Note all the power values in [pW], where 1 pW = 10
W.
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12 Determine total noise power, power_total_noise. Add the value of
the power_trans and the value of power_att:
power_total_noise= power_trans + power_att
-12
= ___________ 10 W = ___________ pW
13 Determine Peak power:
a
Set the OSA:
•
•
Set the Span to 30 nm. Press Span and enter the value.
Set the center wavelength to OSA_λ0. Press Center and enter the
value.
•
•
•
Set the reference level to 0 dBm. Press [AMPL], press [Ref LVL],
and enter the value.
Set the Sensitivity to −68 dBm. Press [AMPL], press
[SENS AUTO MAN], and enter the value.
Set the resolution bandwidth to 1 nm. Press [BW Swp], and enter
the value.
b
c
Set the TLS:
•
it to TLS_λ0 + 5 nm.
•
•
Set the output power to the value in Table Table 21.
Ensure the laser output is activated.
Record the spectrum for a single sweep.
−12
NOTE Note all the power values in [pW], where 1 pW = 10
W.
d
Find the maximum power level for the whole spectrum,
power_SSE_peak, and enter the result in the test record in [pW]:
-12
Peak_power = ___________ 10 W = ___________ pW
14 Calculate total SSE and express in decibels, [dB].
peak power
Total SSE = 10 × log -------------------------------------------------------------------------------------
power total noise – OSA noise
NOTE Make sure that all power values are entered in the same units, for
example Watts, W, or picowatts, pW. This ensures that the equation
will give Total SSE in decibels, dB.
15 Note the result in the test record:
Total SSE = ________________ dB
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Performance Test Instructions
Performance Tests
Optional Test
Signal to Total SSE Tests - High Power Outputs
Follow this optional procedure to test modules with high power
outputs:
• Agilent 81480A, Output 2, the High Power output
• Agilent 81680A, Output 2, the High Power output
• Agilent 81640A, Output 2, the High Power output
• Agilent 81682A, standard model
• Agilent 81682A, #003
• Agilent 81642A, standard model
• Agilent 81642A, #003
1 Connect the Tunable Laser module (DUT) to the Optical Spectrum
Analyzer as shown in Figure 22. For the Agilent 81640A and Agilent
81680A make sure to connect Output 2, the High Power output, to
the Optical Spectrum Analyzer.
2 Set the TLS menu parameters to the values shown in Table Table 5.
3 Set the wavelength and power for each Tunable Laser module to the
values given in Table Table 22.
Table 22 TLS Settings for Signal to Total SSE Tests - High Power Outputs
Module
Power [P]
Wavelength [λ]
Agilent 81480A - Output 2
Agilent 81680A - Output 2
Agilent 81640A - Output 2
Agilent 81682A - Standard
Agilent 81682A - #003
+3.00 dBm
+5.00 dBm
+2.00 dBm
+6.00 dBm
+4.50 dBm
+4.00 dBm
+2.50 dBm
1420 nm
1530 nm
1530 nm
1530 nm
1530 nm
1530 nm
1530 nm
Agilent 81642A - Standard
Agilent 81642A - #003
4 Set the Optical Spectrum Analyzer:
a
Set Span to 30 nm. Press Span, enter the value.
b
Set the Resolution Bandwidth to 1 nm. Press [AMPL], press [BW
Swp], and enter the value.
c
Set the Sensitivity to -60 dBm. Press [AMPL], press [SENS], and
enter the value.
5 Record Spectrum (run a single sweep):
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Performance Test Instructions
a
Press Peak Search in the Marker field.
b
Set Marker to Center Wavelength and note its displayed
wavelength as:
OSA_l_center = ________________ nm
6 Find the maximum power level at OSA_λ_center, peak_power, and
enter the result in the test record in [pW]:
-12
Peak_power = ___________ 10 W = ___________ pW
7 Measure partial noise of the spectrum.
With a sampling step of 1 nm on the OSA, check all 30 power levels
within the recorded spectrum, starting at
OSA_λ_center – 15 nm and finishing at OSA_λ_center + 15 nm
without recording a value at OSA_λ_center.
NOTE Note the “partial noise power level” values in the table in [pW], where
−12
1 pW = 10
W.
Example:
Wavelength,
Relative to OSA_λ_center
Partial Noise Power levels
−15 nm
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
pW
−14 nm
−13 nm
….
….
−2 nm
−1 nm
+/− 0 nm (= OSA_λ_center)
+1 nm
+ 2 nm
….
….
+13 nm
+14 nm
+15 nm
Sum of all partial noise power levels:
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Performance Test Instructions
Performance Tests
8 Determine total noise power by adding up all 30 partial noise
power levels:
OSA_noise = Sum of all partial noise power levels
OSA_noise = _________ pW
9 Note the OSA_noise value in the test record.
10 Determine SSE of the Tunable-Laser output signal by using the
maximum value at its border:
a
b
c
Note the power measured at:
OSA_l_center - 1 nm
Note the power measured at:
OSA_l_center + 1 nm
Determine the larger of these two power values and note it as
SSE_power_lTLS_max.
−12
NOTE Note all the power values in [pW], where 1 pW = 10
W.
-12
d
SSE_power_lTLS_max= ________ 10 W = _______ pW
11 Determine the Total SSE power, power_total_SSE.
Add the values of OSA_noise and SSE_power_λTLS_max:
power_total_SSE = OSA_noise + SSE_power_λTLS_max
-12
= ___________ 10 W = ___________ pW
12 Calculate the Total SSE in [dB] by using the following formula:
peak power
Total SSE = 10 × log----------------------------------------------
power total SSE
NOTE Make sure you that all values are power values are entered in the same
units, for example Watts, W, or picowatts, pW. This ensures that the
equation will give Total SSE in decibels, dB.
13 Note the result in the test record:
Total SSE = _____________________ dB
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Performance Tests
Performance Test Instructions
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Test Record
Performance Tests
Test Record
Agilent 81480A Performance Test
Page 1 of 13
Test Facility:
________________________________ Report No. _________________
________________________________ Date _________________
________________________________ Customer _________________
________________________________ Tested By _________________
Model
Agilent 81480A Tunable Laser Module 1400 nm
Serial No.
Options
____________________
____________________
Ambient temperature ________°C
Relative humidity
Line frequency
________ %
________ Hz
Firmware Rev. ____________________
Special Notes:
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
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Performance Tests
Test Record
Agilent 81480A Performance Test
Page 2 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Test Equipment Used
Description
Model No.
Trace No. Cal. Due Date
1. Lightwave Measurement System Agilent 8164A ________ _________
2. Lightwave Multimeter
3. Optical Head Interface Module
4. Standard Optical Head
5. Optical Spectrum Analyzer
6. Wavelength Meter
HP 8153A
_________ _________
_________ _________
_________ _________
HP 81533B
___________
___________ _________ _________
___________ _________ _________
7. __________________________ ___________
8. __________________________ ___________
9. __________________________ ___________
10. __________________________ ___________
11. __________________________ ___________
12. __________________________ ___________
13. __________________________ ___________
14. __________________________ ___________
15. __________________________ ___________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
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Test Record
Performance Tests
Agilent 81480A Performance Test
Page 3 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy
Repetition 1
Repetition 2
Repetition 3
Wavelength
Setting
Wavelength
Measured
Wavelength De- Wavelength
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1
viation
Measured
1370.200 nm
1380.000 nm
1390.200 nm
1400.200 nm
1410.000 nm
1420.200 nm
1430.000 nm
1440.000 nm
1450.000 nm
1460.000 nm
1470.000 nm
1480.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1370.000 nm to1480.000 nm
Maximum Deviation
nm
nm
nm
nm
nm
nm
Minimum Deviation
Repetition 4
Repetition 5
Wavelength Set- Wavelength
Wavelength De- Wavelength
Wavelength
Deviation
1
1
ting
Measured
viation
Measured
1370.200 nm
1380.000 nm
1390.200 nm
1400.200 nm
1410.000 nm
1420.200 nm
1430.000 nm
1440.000 nm
1450.000 nm
1460.000 nm
1470.000 nm
1480.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1370.000 nm to1480.000 nm
Maximum Deviation
nm
nm
nm
nm
Minimum Deviation
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
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Performance Tests
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Agilent 81480A Performance Test
Page 4 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy Largest Maximum Deviation_______nm
Summary of all Repetitions
Smallest Minimum Deviation________nm
Relative Wavelength Accuracy Result (= Largest Maximum Deviation − Smallest Minimum Deviation)
Relative Wavelength Accuracy ________nm
Specification 0.01 nm
Measurement Uncertainty: 0.2 pm
Absolute Wavelength Accuracy Largest Value of Deviation (= largest value of either Largest Maximum
Deviation or Smallest Minimum Deviation)
Absolute Wavelength Accuracy_______nm
Specification 0.02 nm
Result
Measurement Uncertainty: 0.6 pm
102
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Test Record
Performance Tests
Agilent 81480A Performance Test
Page 5 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Mode Hop Free Tuning
1
Wavelength Setting
Wavelength Measured
Wavelength Deviation
1420.000 nm
1421.000 nm
1422.000 nm
1423.000 nm
1424.000 nm
1425.000 nm
1426.000 nm
1427.000 nm
1428.000 nm
1429.000 nm
1430.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
1460.000 nm
1461.000 nm
1462.000 nm
1463.000 nm
1464.000 nm
1465.000 nm
1466.000 nm
1467.000 nm
1468.000 nm
1469.000 nm
1470.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Maximum Deviation:
nm
nm
Minimum Deviation:
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
Mode Hop Free Tuning Result (= Maximum Deviation − Minimum Deviation)
Mode Hop Free Tuning Result________ nm
Specification 0.05 nm
Measurement Uncertainty 0.2 pm
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Agilent 81480A Performance Test
Page 6 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Wavelength Repeatability
Repeatability of
Repeatability of
1370.200 nm (= reference)
Measurement Result
1420.200 nm (= reference)
Measurement Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
from 1390.200 nm to REF
from 1420.200 nm to REF
from 1450.000 nm to REF
from 1480.000 nm to REF
largest measured wavelength
from 1370.200 nm to REF
from 1390.200 nm to REF
from 1450.000 nm to REF
from 1480.000 nm to REF
largest measured wavelength
smallest measured wave-
length
smallest measured wave-
length
Wavelength Repeatability
nm
Wavelength Repeatability
nm
= largest measured wavelength - smallest measured wave-
length
= largest measured wavelength - smallest measured wave-
length
Specification
typical
0.002 nm
0.001 nm
Specification
typical
0.002 nm
0.001 nm
Repeatability of
1480.000 nm (= reference)
Measurement
Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
nm
from 1370.200 nm to REF
from 1390.200 nm to REF
from 1420.200 nm to REF
from 1450.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
= largest measured wavelength - smallest measured wave-
length
Specification
typical
0.002 nm
0.001 nm
Measurement Uncertainty: 0.1 pm
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Test Record
Performance Tests
Agilent 81480A Performance Test
Page 7 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Maximum Power Test
Output 1
Output 2
Wavelength Setting
Power Measured
Minimum Specification
Power Measured
Minimum Specification
1370.000 nm
1380.000 nm
1390.000 nm
1400.000 nm
1410.000 nm
1420.000 nm
1430.000 nm
1440.000 nm
1450.000 nm
1460.000 nm
1470.000 nm
1480.000 nm
dBm
− 13.00 dBm
− 13.00 dBm
− 13.00 dBm
− 13.00 dBm
− 13.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 13.00 dBm
dBm
− 3.00 dBm
− 3.00 dBm
− 3.00 dBm
− 3.00 dBm
− 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
− 3.00 dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
Measurement Uncertainty: 0.10 dB
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Performance Tests
Test Record
Agilent 81480A Performance Test
Page 8 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Power Linearity Output 1, Low SSE
Power Setting
from start
Measured Relative
Power from start
Power reduction
from start
Power Linearity at
current setting
Start = REF
− 7.0 dBm
− 8.0 dBm
− 9.0 dBm
− 10.0 dBm
− 11.0 dBm
− 12.0 dBm
− 13.0 dBm
0.00 dB
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______ dB
______ dB
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
______ dBpp
0.2 dBpp
0.05 dB
Specification
Measurement Uncertainty
Power Linearity Output 2, High Power Upper Power
Levels
Power Setting
from start
Measured Relative
Power from start
Power reduction
from start
Power Linearity
at current setting
Start = REF
+ 3.0 dBm
+ 2.0 dBm
+ 1.0 dBm
0.0 dBm
0.00 dB
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
− 1.0 dBm
− 2.0 dBm
− 3.0 dBm
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______ dB
______ dB
______ dBpp
0.6 dBpp
0.05 dB
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
Measurement Uncertainty
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Test Record
Performance Tests
Agilent 81480A Performance Test
Page 9 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Power Linearity Output 2, High Power by attenuator
Power Setting
from start
Measured Relative
Power from start
Power reduction
from start
Power Linearity
at current setting
Start = REF
0.0 dBm
dB
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
dB
− 1.0 dBm
− 2.0 dBm
− 3.0 dBm
− 4.0 dBm
− 5.0 dBm
− 10.0 dBm
− 15.0 dBm
− 20.0 dBm
− 25.0 dBm
− 30.0 dBm
− 35.0 dBm
− 40.0 dBm
− 45.0 dBm
− 50.0 dBm
− 55.0 dBm
− 60.0 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
10.00 dB
15.00 dB
20.00 dB
25.00 dB
30.00 dB
35.00 dB
40.00 dB
45.00 dB
50.00 dB
55.00 dB
60.00 dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______dB
______dB
______dBpp
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
0.6 dBpp
0.05 dB
Measurement Uncertainty
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Performance Tests
Test Record
Agilent 81480A Performance Test
Page 10 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Power Flatness
Low SSE Output 1
High Power Output 2
P = −3 dBm
ATT = 0 dB
P = −3 dBm
ATT = −57 dB
P = −13 dBm
Wavelength
1420.000 nm
Power Deviation
Power Deviation
Power Deviation
Start = REF
0.00 dB
0.00 dB
0.00 dB
1425.000 nm
1430.000 nm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
1435.000 nm
1440.000 nm
1445.000 nm
1450.000 nm
1455.000 nm
1460.000 nm
1465.000 nm
1470.000 nm
1480.000 nm
Maximum deviation
Minimum deviation
Flatness = Maximum − Minimum Deviation
Specification
0.40 dBpp
0.1 dB
0.60 dBpp
0.1 dB
0.60 dBpp
0.1 dB
Measurement Uncertainty
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Test Record
Performance Tests
Agilent 81480A Performance Test
Page 11 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Power Stability
Low SSE Output 1
High Power Output 2
Att = 0 dB
Maximum Deviation
Minimum Deviation
dB
dB
dB
dB
dB
dB
1
Power Stability
Specification
0.02 dBpp
0.005 dB
0.02 dBpp
0.005 dB
Measurement Uncertainty
1
Power Stability = Maximum Deviation – Minimum Deviation
Signal-to-Source Spontaneous Emission - 81480A
Output 2, High Power
Maximum
Wavelength
Output Power
Results
Specification
1370.000 nm
1380.000 nm
1390.000 nm
1400.000 nm
1410.000 nm
1420.000 nm
1430.000 nm
1440.000 nm
1450.000 nm
1460.000 nm
1470.000 nm
1480.000 nm
− 3.00 dBm
− 3.00 dBm
− 3.00 dBm
− 3.00 dBm
− 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
+ 3.00 dBm
− 3.00 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
35 dB
35 dB
35 dB
35 dB
35 dB
40 dB
40 dB
40 dB
40 dB
40 dB
40 dB
35 dB
Measurement Uncertainty: 0.20 dB
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Performance Tests
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Agilent 81480A Performance Test
Page 12 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Signal-to-Source Spontaneous Emission - 81480A
Output 1, Low SSE
Center Wavelength of Fiber Bragg Grating: TLS_λ
= ________ nm
= ________ nm
0
OSA_λ
0
Maximum Transmitted Power:
Peak Power:
max_SSE_power
OSA@max_SSE_power = _________ nm
= _________ dBm
power@SSE_peak = _________ dBm
Test result:
Spectral SSE
= power@SSE_peak – ( max_SSE_power + 3 [dB/nm])
= ___________ dB / nm
61 dB / nm
Specification:
Measurement Uncertainty:
1.2 dB
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Test Record
Performance Tests
Agilent 81480A Performance Test
Page 13 of 13
Model Agilent 81480A Tunable Laser
Report No. ________ Date_______
Signal-to-Total-Source Spontaneous Emission - 81480A
Output 1, Low SSE
Center Wavelength of Fiber Bragg Grating: TLS_λ
= ________ nm
= ________ nm
= ________ nm
= ________ nm
= ________ nm
= ________ nm
0
OSA_λ
0
1
2
3
4
Transmission Band Limits:
OSA_λ
OSA_λ
OSA_λ
OSA_λ
Output 1, Low SSE
OSA_noise
_________ pW
Sum of all SSE power levels in lower transmission band
Sum of all SSE power levels in upper transmission band
_________ pW
_________ pW
power_trans = Sum of all SSE power levels in transmission bands
_________ pW
_________ pW
power_att
power_total_noise= power_trans + power_att
peak_power
_________ pW
_________ pW
_________ dB
58 dB
Measurement Result - Total SSE
Specification
peak power
Total SSE = 10 × log -------------------------------------------------------------------------------------
power total noise – OSA noise
Measurement Uncertainty: 2.0 dB
Optional Test: Signal-to-Total-Source Spontaneous
Emission - 81480A Output 2, High Power
Output 2, High Power
OSA_noise
_________ pW
_________ pW
SSE_power_λTLS_max
Power_total_noise = OSA_noise + SSE_power_λTLS_max
Peak_power
_________ pW
_________ pW
Measurement Result - Total SSE
Specification
_________ dB
23 dB (28 dB typical)
peak power
Total SSE = 10 × log----------------------------------------------
power total SSE
Measurement Uncertainty:
2.00 dB
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Test Record
Performance Tests
Test Record
Agilent 81680A Performance Test
Page 1 of 13
Test Facility:
________________________________ Report No. _________________
________________________________ Date _________________
________________________________ Customer _________________
________________________________ Tested By _________________
Model
Agilent 81680A Tunable Laser Module 1550 nm
Serial No.
Options
____________________
____________________
Ambient temperature ________°C
Relative humidity
Line frequency
________ %
________ Hz
Firmware Rev. ____________________
Special Notes:
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
Agilent 81680A Performance Test
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Performance Tests
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Page 2 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Test Equipment Used
Description
Model No.
Trace No. Cal. Due Date
1. Lightwave Measurement System Agilent 8164A ________ _________
2. Lightwave Multimeter
3. Optical Head Interface Module
4. Standard Optical Head
5. Optical Spectrum Analyzer
6. Wavelength Meter
HP 8153A
_________ _________
_________ _________
_________ _________
HP 81533B
___________
___________ _________ _________
___________ _________ _________
7. __________________________ ___________
8. __________________________ ___________
9. __________________________ ___________
10. __________________________ ___________
11. __________________________ ___________
12. __________________________ ___________
13. __________________________ ___________
14. __________________________ ___________
15. __________________________ ___________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
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Test Record
Performance Tests
Agilent 81680A Performance Test
Page 3 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy
Repetition 1
Repetition 2
Repetition 3
Wavelength
Setting
Wavelength
Measured
Wavelength De- Wavelength
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1
viation
Measured
1460.000 nm
1475.000 nm
1490.000 nm
1500.000 nm
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1575.000 nm
1580.000nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1460 to 1580 nm
Maximum Deviation
nm
nm
nm
nm
nm
nm
Minimum Deviation
Repetition 4
Repetition 5
Wavelength Set- Wavelength
Wavelength De- Wavelength
Wavelength
Deviation
1
1
ting
Measured
viation
Measured
1460.000 nm
1475.000 nm
1490.000 nm
1500.000 nm
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1575.000 nm
1580.000nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1460 to 1580 nm
Maximum Deviation
nm
nm
nm
nm
Minimum Deviation
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
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Test Record
Agilent 81680A Performance Test
Page 4 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy Largest Maximum Deviation________nm
Summary of all Repetitions
Smallest Minimum Deviation________nm
Relative Wavelength Accuracy Result (= Largest Maximum Deviation − Smallest Minimum Deviation)
Relative Wavelength Accuracy ________nm
Specification 0.01 nm
Measurement Uncertainty: 0.2 pm
Absolute Wavelength Accuracy Largest Value of Deviation (= largest value of either Largest Maximum
Deviation or Smallest Minimum Deviation)
Absolute Wavelength Accuracy_______nm
Specification 0.02 nm
Result
Measurement Uncertainty: 0.6 pm
116
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Performance Tests
Agilent 81680A Performance Test
Page 5 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Mode Hop Free Tuning
1
Wavelength Setting
Wavelength Measured
Wavelength Deviation
1460.000 nm
1461.000 nm
1462.000 nm
1463.000 nm
1464.000 nm
1465.000 nm
1466.000 nm
1467.000 nm
1468.000 nm
1469.000 nm
1470.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
1570.000 nm
1571.000 nm
1572.000 nm
1573.000 nm
1574.000 nm
1575.000 nm
1576.000 nm
1577.000 nm
1578.000 nm
1579.000 nm
1580.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Maximum Deviation:
nm
nm
Minimum Deviation:
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
Mode Hop Free Tuning Result (= Maximum Deviation − Minimum Deviation)
Mode Hop Free Tuning Result________ nm
Specification 0.05 nm
Measurement Uncertainty: 0.2 pm
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Test Record
Agilent 81680A Performance Test
Page 6 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Wavelength Repeatability
Repeatability of
Repeatability of
1460.000 nm (= reference)
Measurement Result
1520.000 nm (= reference)
Measurement Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
from 1490.000 nm to REF
from 1520.000 nm to REF
from 1550.000 nm to REF
from 1580.000 nm to REF
largest measured wavelength
from 1460.000 nm to REF
from 1490.000 nm to REF
from 1550.000 nm to REF
from 1580.000 nm to REF
largest measured wavelength
smallest measured wave-
length
smallest measured wave-
length
Wavelength Repeatability
nm
Wavelength Repeatability
nm
= largest measured wavelength - smallest measured wave-
length
= largest measured wavelength - smallest measured wave-
length
Specification
typical
0.002 nm
0.001 nm
Specification
typical
0.002 nm
0.001 nm
Repeatability of
1580.000 nm (= reference)
Measurement
Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
nm
from 1460.000 nm to REF
from 1490.000 nm to REF
from 1520.000 nm to REF
from 1550.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
= largest measured wavelength - smallest measured wave-
length
Specification
typical
0.002 nm
0.001 nm
Measurement Uncertainty: 0.1 pm
118
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Test Record
Performance Tests
Agilent 81680A Performance Test
Page 7 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Maximum Power Test
Output 1
Output 2
Wavelength Setting
Power Measured
Minimum Specification
Power Measured
Minimum Specification
1460.000 nm
1470.000 nm
1480.000 nm
1490.000 nm
1500.000 nm
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1570.000 nm
1580.000 nm
dBm
− 13.00 dBm
− 13.00 dBm
− 10.00 dBm
− 10.00 dBm
− 10.00 dBm
− 10.00 dBm
− 6.00 dBm
− 6.00 dBm
− 6.00 dBm
− 6.00 dBm
− 6.00 dBm
− 6.00 dBm
− 10.00 dBm
dBm
− 3.00 dBm
− 3.00 dBm
+ 1.00 dBm
+ 1.00 dBm
+ 1.00 dBm
+ 1.00 dBm
+ 5.00 dBm
+ 5.00 dBm
+ 5.00 dBm
+ 5.00 dBm
+ 5.00 dBm
+ 5.00 dBm
+ 1.00 dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
Measurement Uncertainty: 0.10 dB
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Performance Tests
Test Record
Agilent 81680A Performance Test
Page 8 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Power Linearity Output 1, Low SSE
Power Setting
from start
Measured Relative
Power from start
Power reduction
from start
Power Linearity at
current setting
Start = REF
− 6.0 dBm
− 7.0 dBm
− 8.0 dBm
− 9.0 dBm
− 10.0 dBm
− 11.0 dBm
− 12.0 dBm
− 13.0 dBm
0.00 dB
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
=
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______ dB
______ dB
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
______ dBpp
0.2 dBpp
0.05 dB
Specification
Measurement Uncertainty
Power Linearity Output 2, High Power Upper Power
Levels
Power Setting
from start
Measured Relative
Power from start
Power reduction
from start
Power Linearity
at current setting
Start = REF
+ 5.0 dBm
+ 4.0 dBm
+ 3.0 dBm
+ 2.0 dBm
+ 1.0 dBm
0.0 dBm
0.00 dB
+
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
8.00 dB
=
=
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
− 1.0 dBm
− 2.0 dBm
− 3.0 dBm
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______ dB
______ dB
______ dBpp
0.6 dBpp
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
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Test Record
Performance Tests
Measurement Uncertainty
0.05 dB
Agilent 81680A Performance Test
Page 9 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Power Linearity Output 2, High Power by attenuator
Power Setting
from start
Measured Relative
Power from start
Power reduction
from start
Power Linearity
at current setting
Start = REF
0.0 dBm
− 1.0 dBm
dB
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
− 2.0 dBm
− 3.0 dBm
− 4.0 dBm
− 5.0 dBm
− 10.0 dBm
− 15.0 dBm
− 20.0 dBm
− 25.0 dBm
− 30.0 dBm
− 35.0 dBm
− 40.0 dBm
− 45.0 dBm
− 50.0 dBm
− 55.0 dBm
− 60.0 dBm
2.00 dB
3.00 dB
4.00 dB
5.00 dB
10.00 dB
15.00 dB
20.00 dB
25.00 dB
30.00 dB
35.00 dB
40.00 dB
45.00 dB
50.00 dB
55.00 dB
60.00 dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______dB
______dB
______dBpp
0.6 dBpp
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
Measurement Uncertainty
0.05 dB
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Performance Tests
Test Record
Agilent 81680A Performance Test
Page 10 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Power Flatness
Low SSE Output 1
High Power Output 2
P = −3 dBm
ATT = 0 dB
P = −3 dBm
ATT = −57 dB
P = −13 dBm
Wavelength
Power Deviation
Power Deviation
Power Deviation
Start = REF
1460 nm
1465 nm
0.00 dB
0.00 dB
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
1470 nm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
1475 nm
1480 nm
1485 nm
1490 nm
1495 nm
1500 nm
1505 nm
1510 nm
1515 nm
1520 nm
1525 nm
1530 nm
1535 nm
1540 nm
1545 nm
1550 nm
1555 nm
1560 nm
1565 nm
1570 nm
1575 nm
1580 nm
Maximum deviation
Minimum deviation
Flatness = Maximum − Minimum Deviation
Specification
0.40 dBpp
0.1 dB
0.60 dBpp
0.1 dB
0.60 dBpp
0.1 dB
Measurement Uncertainty
122
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Test Record
Performance Tests
Agilent 81680A Performance Test
Page 11 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Power Stability
Low SSE Output 1
High Power Output 2
Att = 0 dB
Maximum Deviation
Minimum Deviation
dB
dB
dB
dB
dB
dB
1
Power Stability
Specification
0.02 dBpp
0.005 dB
0.02 dBpp
0.005 dB
Measurement Uncertainty
1
Power Stability = Maximum Deviation – Minimum Deviation
Signal-to-Source Spontaneous Emission - 81680A
Output 2, High Power
Maximum
Wavelength
Output Power
Results
Specification
1460 nm
1470 nm
1480 nm
1490 nm
1500 nm
1510 nm
1520 nm
1530 nm
1540 nm
1550 nm
1560 nm
1570 nm
1580 nm
-3.00 dBm
-3.00 dBm
+1.00 dBm
+1.00 dBm
+1.00 dBm
+1.00 dBm
+5.00 dBm
+5.00 dBm
+5.00 dBm
+5.00 dBm
+5.00 dBm
+5.00 dBm
+1.00 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
35 dB
35 dB
40 dB
40 dB
40 dB
40 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
40 dB
Measurement Uncertainty: 0.20 dB
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Performance Tests
Test Record
Agilent 81680A Performance Test
Page 12 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Signal-to-Source Spontaneous Emission - 81680A
Output 1, Low SSE
Center Wavelength of Fiber Bragg Grating: TLS_λ
= ________ nm
= ________ nm
0
OSA_λ
0
Maximum Transmitted Power:
Peak Power:
max_SSE_power
OSA@max_SSE_power = _________ nm
= _________ dBm
power@SSE_peak = _________ dBm
Test result:
Spectral SSE
= power@SSE_peak – ( max_SSE_power + 3 [dB/nm])
= ___________ dB / nm
63 dB / nm
Specification:
Measurement Uncertainty:
1.2 dB
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Test Record
Performance Tests
Agilent 81680A Performance Test
Page 13 of 13
Model Agilent 81680A Tunable Laser
Report No. ________ Date_______
Signal-to-Total-Source Spontaneous Emission - 81680A
Output 1, Low SSE
Center Wavelength of Fiber Bragg Grating: TLS_λ
= ________ nm
= ________ nm
= ________ nm
= ________ nm
= ________ nm
= ________ nm
0
OSA_λ
0
1
2
3
4
Transmission Band Limits:
OSA_λ
OSA_λ
OSA_λ
OSA_λ
Output 1, Low SSE
OSA_noise
_________ pW
Sum of all SSE power levels in lower transmission band
Sum of all SSE power levels in upper transmission band
_________ pW
_________ pW
power_trans = Sum of all SSE power levels in transmission bands
_________ pW
_________ pW
power_att
power_total_noise= power_trans + power_att
peak_power
_________ pW
_________ pW
_________ dB
60 dB
Measurement Result - Total SSE
Specification
peak power
Total SSE = 10 × log -------------------------------------------------------------------------------------
power total noise – OSA noise
Measurement Uncertainty: 2.00 dB
Optional Test: Signal-to-Total-Source Spontaneous
Emission - 81680A Output 2, High Power
Output 2, High Power
OSA_noise
_________ pW
_________ pW
SSE_power_λTLS_max
Power_total_noise = OSA_noise + SSE_power_λTLS_max
Peak_power
_________ pW
_________ pW
Measurement Result - Total SSE
Specification
_________ dB
25 dB (30 dB typical)
peak power
Total SSE = 10 × log----------------------------------------------
power total SSE
Measurement Uncertainty:
2.00 dB
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Test Record
Performance Tests
Test Record
Agilent 81640A Performance Test
Page 1 of 13
Test Facility:
________________________________ Report No. _________________
________________________________ Date _________________
________________________________ Customer _________________
________________________________ Tested By _________________
Model
Agilent 81640A Tunable Laser Module 1600 nm
Serial No.
Options
____________________
____________________
Ambient temperature ________°C
Relative humidity
Line frequency
________ %
________ Hz
Firmware Rev. ____________________
Special Notes:
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
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Performance Tests
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Agilent 81640A Performance Test
Page 2 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Test Equipment Used
Description
Model No.
Trace No. Cal. Due Date
1. Lightwave Measurement System Agilent 8164A ________ _________
2. Lightwave Multimeter
3. Optical Head Interface Module
4. Standard Optical Head
5. Optical Spectrum Analyzer
6. Wavelength Meter
HP 8153A
_________ _________
_________ _________
HP 81533B
HP 81524A #C01_________ _________
___________ _________ _________
___________ _________ _________
7. ___________________________ ___________
8. ___________________________ ___________
9. ___________________________ ___________
10. __________________________ ___________
11. __________________________ ___________
12. __________________________ ___________
13. __________________________ ___________
14. __________________________ ___________
15. __________________________ ___________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
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Test Record
Performance Tests
Agilent 81640A Performance Test
Page 3 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy
Repetition 1
Repetition 2
Repetition 3
Wavelength
Setting
Wavelength
Measured
Wavelength De- Wavelength
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1
viation
Measured
1510.000 nm
1525.000 nm
1540.000 nm
1550.000 nm
1550.000 nm
1560.000 nm
1575.000 nm
1590.000 nm
1600.000 nm
1615.000 nm
1630.000 nm
1640.000nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1510 to 1640 nm
Maximum Deviation
nm
nm
nm
nm
nm
nm
Minimum Deviation
Repetition 4
Repetition 5
Wavelength Set- Wavelength
Wavelength De- Wavelength
Wavelength
Deviation
1
1
ting
Measured
viation
Measured
1510.000 nm
1525.000 nm
1540.000 nm
1550.000 nm
1550.000 nm
1560.000 nm
1575.000 nm
1590.000 nm
1600.000 nm
1615.000 nm
1630.000 nm
1640.000nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1510 to 1640 nm
Maximum Deviation
Minimum Deviation
nm
nm
nm
nm
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
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Performance Tests
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Agilent 81640A Performance Test
Page 4 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy Summary of all
Repetitions
Largest Maximum Deviation________nm
Relative Wavelength Accuracy Result
(= Largest Maximum Deviation − Smallest Minimum Deviation)
Relative Wavelength Accuracy________nm
Specification 0.014 nm
Measurement Uncertainty:
0.2 pm
Absolute Wavelength Accuracy Result
Largest Value of Deviation (= largest value of either Largest Maximum
Deviation or Smallest Minimum Deviation)
Absolute Wavelength Accuracy________nm
Specification
0.03 nm
Measurement Uncertainty: 0.6 pm
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Test Record
Performance Tests
Agilent 81640A Performance Test
Page 5 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Mode Hop Free Tuning
1
Wavelength Setting
Wavelength Measured
Wavelength Deviation
1530.000 nm
1531.000 nm
1532.000 nm
1533.000 nm
1534.000 nm
1535.000 nm
1536.000 nm
1537.000 nm
1538.000 nm
1539.000 nm
1540.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
1610.000 nm
1611.000 nm
1612.000 nm
1613.000 nm
1614.000 nm
1615.000 nm
1616.000 nm
1617.000 nm
1618.000 nm
1619.000 nm
1620.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Maximum Deviation:
nm
nm
Minimum Deviation:
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
Mode Hop Free Tuning Result (= Maximum Deviation − Minimum Deviation)
Mode Hop Free Tuning Result_______nm
Specification 0.05 nm
Measurement Uncertainty: 0.2 pm
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Test Record
Agilent 81640A Performance Test
Page 6 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Wavelength Repeatability
Repeatability of
Repeatability of
1500.000 nm (= reference)
Measurement Result
1570.000 nm (= reference)
Measurement Result
Initial Setting
REF =
nm
Initial Setting
REF =
nm
from 1525.000 nm to REF
from 1550.000 nm to REF
from 1570.000 nm to REF
from 1590.000 nm to REF
from 1615.000 nm to REF
from 1640.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
nm
nm
nm
nm
nm
nm
nm
nm
nm
from 1510.000 nm to REF
from 1525.000 nm to REF
from 1550.000 nm to REF
from 1590.000 nm to REF
from 1615.000 nm to REF
from 1640.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
nm
nm
nm
nm
nm
nm
nm
nm
nm
= largest measured wavelength - smallest measured wavelength
= largest measured wavelength - smallest measured wavelength
Specification
typical
0.002 nm
0.001 nm
Specification
typical
0.002 nm
0.001 nm
Repeatability of
1640.000 nm (= reference)
Measurement
Result
Initial Setting
REF =
nm
nm
from 1510.000 nm to REF
from 1525.000 nm to REF
from 1550.000 nm to REF
from 1570.000 nm to REF
from 1590.000 nm to REF
from 1615.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
nm
nm
nm
nm
nm
nm
nm
nm
= largest measured wavelength - smallest measured wavelength
Specification
typical
0.002 nm
0.001 nm
Measurement Uncertainty: 0.1 pm
132
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Test Record
Performance Tests
Agilent 81640A Performance Test
Page 7 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Maximum Power Test
Output 1
Output 2
Wavelength Setting
Power Measured
Minimum Specification
Power Measured
Minimum Specification
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1570.000 nm
1580.000 nm
1590.000 nm
1600.000 nm
1610.000 nm
1620.000 nm
1630.000 nm
1640.000 nm
dBm
− 13.00 dBm
− 9.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 7.00 dBm
− 9.00 dBm
− 13.00 dBm
− 13.00 dBm
dBm
− 5.00 dBm
0.00 dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
0.00 dBm
− 5.00 dBm
− 5.00 dBm
Measurement Uncertainty: 0.10 dB
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Performance Tests
Test Record
Agilent 81640A Performance Test
Page 8 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Power LinearityOutput 1, Low SSE
Power Setting
from start
Measured Relative
Power from start
Power reduction
from start
Power Linearity at
current setting
Start = REF
− 7.0 dBm
− 8.0 dBm
− 9.0 dBm
− 10.0 dBm
− 11.0 dBm
− 12.0 dBm
− 13.0 dBm
0.00 dB
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______ dB
______ dB
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
______ dBpp
0.2 dBpp
0.05 dB
Specification
Measurement Uncertainty
Power Linearity Output 2, High Power Upper Power
Levels
Power Setting
from start
Measured Relative
Power from start
Power reduction
from start
Power Linearity
at current setting
Start = REF
+ 2.0 dBm
+ 1.0 dBm
0.0 dBm
0.00 dB
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
=
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
B
dB
dB
dB
dB
dB
dB
− 1.0 dBm
− 2.0 dBm
− 3.0 dBm
− 4.0 dBm
− 5.0 dBm
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______ dB
______ dB
______ dBpp
0.6 dBpp
0.05 dB
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
Measurement Uncertainty
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Performance Tests
Agilent 81640A Performance Test
Page 9 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Power Linearity Output 2, High Power by Attenuator
Power Setting from
start
Measured Relative
Power from start
Power reduction
from start
Power Linearity
at current setting
Start = REF
0.0 dBm
− 1.0 dBm
− 2.0 dBm
− 3.0 dBm
− 4.0 dBm
− 5.0 dBm
− 10.0 dBm
− 15.0 dBm
− 20.0 dBm
− 25.0 dBm
− 30.0 dBm
− 35.0 dBm
− 40.0 dBm
− 45.0 dBm
− 50.0 dBm
− 55.0 dBm
− 0.0 dBm
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 B
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
5.00 dB
10.00 dB
15.00 dB
20.00 dB
25.00 dB
30.00 dB
35.00 dB
40.00 dB
45.00 dB
50.00 dB
55.00 dB
60.00 dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______dB
______dB
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
______dBpp
0.6 dBpp
0.05 dB
Specification
Measurement Uncertainty
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Performance Tests
Test Record
Agilent 81640A Performance Test
Page 10 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Power Flatness
Output 1 Low SSE Output 2 High Power
P = −13 dBm
P = −3dBm ATT = 0 dB P = −5dBm ATT = 55.000 dB
Wavelength
1510 nm
Power Deviation
Power Deviation
Power Deviation
Start = REF
0.00 dB
0.00 dB
0.00 dB
1520 nm
1530 nm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
1540 nm
1550 nm
1560 nm
1570 nm
1580 nm
1585 nm
1590 nm
1595 nm
1600 nm
1610 nm
1620 nm
1630 nm
Maximum deviation
Minimum deviation
Flatness =Maximum − Minimum Deviation
Specification
0.40 dBpp
0.10 dB
0.60 dBpp
0.10 dB
0.60 dBpp
0.10 dB
Measurement Uncertainty
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Test Record
Performance Tests
Agilent 81640A Performance Test
Page 11 of 13
Model Agilent 81640A Tunable Laser
Report No. ________Date_______
Power Stability
Output 1 Low SSE
Output 2 High Power
Att = 0 dB
Maximum Deviation
Minimum Deviation
dB
dB
dB
dB
dB
1
Power Stability
dB
Specification
0.02 dBpp
0.005 dB
0.02 dBpp
0.005 dB
Measurement Uncertainty
1
Power Stability = Maximum Deviation – Minimum Deviation
Signal-to-Source Spontaneous Emission - 81640A
Output 2, High Power
Maximum
Wavelength
Output Power
Results
Specification
1510 nm
1520 nm
1530 nm
1540 nm
1550 nm
1560 nm
1570 nm
1580 nm
1590 nm
1600 nm
1610 nm
1620 nm
1630 nm
1640 nm
−5.00 dBm
0.00 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
35 dB
40 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
40 dB
35 dB
35 dB
+2.00 dBm
+2.00 dBm
+2.00 dBm
+2.00 dBm
+2.00 dBm
+2.00 dBm
+2.00 dBm
+2.00 dBm
+2.00 dBm
0.00 dBm
−5.00 dBm
−5.00 dBm
Measurement Uncertainty: 0.20 dB
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Performance Tests
Test Record
Agilent 81640A Performance Test
Page 12 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Signal-to-Source Spontaneous Emission - 81640A
Output 1, Low SSE
Center Wavelength of Fiber Bragg Grating: TLS_λ
= _________ nm
= _________ nm
0
OSA_λ
0
Maximum Transmitted Power:
Peak Power:
max_SSE_power
OSA@max_SSE_power = _________ nm
= _________ dBm
power@SSE_peak = _________ dBm
Test result:
Spectral SSE
= power@SSE_peak – (max_SSE_power + 3 [dB/nm])
= ___________ dB / nm
Specification:
60 dB/nm
Measurement Uncertainty:
1.2 dB
138
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Test Record
Performance Tests
Agilent 81640A Performance Test
Page 13 of 13
Model Agilent 81640A Tunable Laser
Report No. ________ Date_______
Signal-to-Total-Source Spontaneous Emission - 81640A
Output 1, Low SSE
Center Wavelength of Fiber Bragg Grating: TLS_λ
= ________ nm
0
OSA_λ
= ________ nm
0
Transmission Band Limits:
OSA_λ
OSA_λ
OSA_λ
OSA_λ
= ________ nm
= ________ nm
= ________ nm
= ________ nm
1
2
3
4
Output 1, Low SSE
OSA_noise
_________ pW
Sum of all SSE power levels
_________ pW
_________ pW
in lower transmission band
Sum of all SSE power levels in upper transmission band
power_trans
_________ pW
_________ pW
= Sum of all SSE power levels in transmission bands
power_att
power_total_noise = power_trans + power_att
Peak_power
_________ pW
Measurement Result - Total SSE
Specification
_________ dB
55 dB
peak power
Total SSE = 10 × log-------------------------------------------------------------------------------------
power total noise – OSA noise
Measurement Uncertainty: 2.00 dB
Optional Test - Signal-to-Total-Source Spontaneous
Emission - 81640A Output 2, High Power
Output 2, High Power
OSA_noise
_________ pW
_________ pW
SSE_power_λTLS_max
Power_total_noise = OSA_noise + SSE_power_λTLS_max
_________ pW
_________ pW
_________ dB
Peak_power
Measurement Result - Total SSE
Specification
22 dB
(27 dB typical)
peak power
Total SSE = 10 × log----------------------------------------------
power total SSE
Measurement Uncertainty: 2.00 dB
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Test Record
Performance Tests
Test Record
Agilent 81682A Performance Test
Page 1 of 12
Test Facility:
________________________________ Report No. _________________
________________________________ Date _________________
________________________________ Customer _________________
________________________________ Tested By _________________
Model
Agilent 81682A Tunable Laser Module 1550 nm
Serial No.
Options
____________________
____________________
Ambient temperature ________°C
Relative humidity
Line frequency
________ %
________ Hz
Firmware Rev. ____________________
Special Notes:
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
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Performance Tests
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Agilent 81682A Performance Test
Page 2 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Test Equipment Used
Description
Model No.
Trace No. Cal. Due Date
1. Lightwave Measurement System Agilent 8164A ________ _________
2. Lightwave Multimeter
3. Optical Head Interface Module
4. Standard Optical Head
5. Optical Spectrum Analyzer
6. Wavelength Meter
HP 8153A
_________ _________
_________ _________
HP 81533B
HP 81524A #C01_________ _________
___________ _________ _________
___________ _________ _________
7. __________________________ ___________
8. __________________________ ___________
9. __________________________ ___________
10. __________________________ ___________
11. __________________________ ___________
12. __________________________ ___________
13. __________________________ ___________
14. __________________________ ___________
15. __________________________ ___________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
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Test Record
Performance Tests
Agilent 81682A Performance Test
Page 3 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy
Repetition 1
Repetition 2
Repetition 3
Wavelength
Setting
Wavelength
Measured
Wavelength De- Wavelength
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1
viation
Measured
1460.000 nm
1475.000 nm
1490.000 nm
1500.000 nm
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1575.000 nm
1580.000nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1460 to 1580 nm
Maximum Deviation
nm
nm
nm
Minimum Deviation
nm
nm
nm
Repetition 4
Repetition 5
Wavelength
Setting
Wavelength
Measured
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1460.000 nm
1475.000 nm
1490.000 nm
1500.000 nm
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1575.000 nm
1580.000nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1460 to 1580 nm
Maximum Deviation
nm
nm
nm
nm
Minimum Deviation
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
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Agilent 81682A Performance Test
Page 4 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy Largest Maximum Deviation________nm
Summary of all repetitions
Relative Wavelength Accuracy Result (= Largest Maximum Deviation − Smallest Minimum Deviation)
Relative Wavelength Accuracy________nm
Specification:0.01 nm
Measurement Uncertainty: 0.2 pm
Absolute Wavelength Accuracy Largest Value of Deviation (= largest value of either Largest Maximum
Deviation or Smallest Minimum Deviation)
Result
Absolute Wavelength Accuracy________nm
Specification
0.02 nm
Measurement Uncertainty: 0.6 pm
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Performance Tests
Agilent 81682A Performance Test
Page 5 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Mode Hop Free Tuning
1
Wavelength Setting
Wavelength Measured
Wavelength Deviation
1460.000 nm
1461.000 nm
1462.000 nm
1463.000 nm
1464.000 nm
1465.000 nm
1466.000 nm
1467.000 nm
1468.000 nm
1469.000 nm
1470.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
1570.000 nm
1571.000 nm
1572.000 nm
1573.000 nm
1574.000 nm
1575.000 nm
1576.000 nm
1577.000 nm
1578.000 nm
1579.000 nm
1580.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Maximum Deviation:
nm
nm
Minimum Deviation:
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
Mode Hop Free Tuning Result (= Maximum Deviation − Minimum Deviation)
Mode Hop Free Tuning Result________ nm
Specification: 0.05 nm
Measurement Uncertainty: 0.2 pm
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Performance Tests
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Agilent 81682A Performance Test
Page 6 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Wavelength Repeatability
Repeatability of
Repeatability of
1460.000 nm (= reference)
Measurement Result
1520.000 nm (= reference)
Measurement Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
from 1490.000 nm to REF
from 1520.000 nm to REF
from 1550.000 nm to REF
from 1580.000 nm to REF
largest measured wavelength
from 1460.000 nm to REF
from 1490.000 nm to REF
from 1550.000 nm to REF
from 1580.000 nm to REF
largest measured wavelength
smallest measured wave-
length
smallest measured wave-
length
Wavelength Repeatability
nm
Wavelength Repeatability
nm
= largest measured wavelength - smallest measured wave-
length
= largest measured wavelength - smallest measured wave-
length
Specification
typical
0.002 nm
0.001 nm
Specification
typical
0.002 nm
0.001 nm
Repeatability of
1580.000 nm (= reference)
Measurement
Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
nm
from 1460.000 nm to REF
from 1490.000 nm to REF
from 1520.000 nm to REF
from 1550.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
= largest measured wavelength - smallest measured wave-
length
Specification
typical
0.002 nm
0.001 nm
Measurement Uncertainty: 0.1 pm
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Test Record
Performance Tests
Agilent 81682A Performance Test
Page 7 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Maximum Power Test
Agilent 81682A
Agilent 81682A #003
Wavelength Setting
Power Measured
Minimum Specification
Power Measured
dBm
Minimum Specification
1460.000 nm
1470.000 nm
1480.000 nm
1490.000 nm
1500.000 nm
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1570.000 nm
1580.000 nm
dBm
− 3.00 dBm
− 3.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 2.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 2.00 dBm
− 4.50 dBm
− 4.50 dBm
+ 0.50 dBm
+ 0.50 dBm
+ 0.50 dBm
+ 0.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 0.50 dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
Measurement Uncertainty: 0.10 dB
Power Linearity - 81682A
Power Setting from Measured Relative Power
Power reduction from
start
Power Linearity at current
setting
start
from start
Start = REF
+ 6.0 dBm
+ 5.0 dBm
+ 4.0 dBm
+ 3.0 dBm
+ 2.0 dBm
+ 1.0 dBm
+ 0.0 dBm
− 1.0 dBm
− 2.0 dBm
− 3.0 dBm
0.00 dB
+
+
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
8.00 dB
9.00 dB
=
=
=
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______dB
______dB
______dBpp
0.5 dBpp
0.2 dBpp
0.05 dB
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
typical
Measurement Uncertainty
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Test Record
Agilent 81682A Performance Test
Page 8 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Power Linearity 81682A #003 Upper Power Levels
Power Setting Measured Relative Pow-
Power reduction
from start
Power Linearity at cur-
from start
er from start
rent setting
Start = REF
+ 4.5 dBm
+ 3.5 dBm
+ 2.5 dBm
+ 1.5 dBm
+ 0.5 dBm
− 0.5 dBm
− 1.5 dBm
− 2.5 dBm
− 3.5 dBm
− 4.5 dBm
0.00 dB
+
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
8.00 dB
9.00 dB
=
=
=
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
______dB
______dB
______dBpp
0.8 dBpp
0.4 dBpp
0.05 dB
Typical
Measurement Uncertainty
148
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Performance Tests
Agilent 81682A Performance Test
Page 9 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Power Linearity 81682A #003 by Attenuator
Power Setting from Measured Relative Power
Power reduction from
start
Power Linearity
at current setting
start
from start
Start = REF
0.0 dBm
− 1.0 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
− 2.0 dBm
− 3.0 dBm
− 4.0 dBm
− 5.0 dBm
− 10.0 dBm
− 15.0 dBm
− 20.0 dBm
− 25.0 dBm
− 30.0 dBm
− 35.0 dBm
− 40.0 dBm
− 45.0 dBm
− 50.0 dBm
− 55.0 dBm
− 60.0 dBm
5.00 dB
10.00 dB
15.00 dB
20.00 dB
25.00 dB
30.00 dB
35.00 dB
40.00 dB
45.00 dB
50.00 dB
55.00 dB
60.00 dB
Maximum Power Linearity at current setting
______dB
______dB
______dBpp
0.8 dBpp
0.4 dBpp
0.05 dB
Minimum Power Linearity at current setting
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
Typical
Measurement Uncertainty
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Performance Tests
Test Record
Agilent 81682A Performance Test
Page 10 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Power Flatness
Agilent 81682A
Standard
Agilent 81682A
Option #003
without #003
P = −4.5 dBm
P = −4.5 dBm
ATT=55.5000 dB
P = −3 dBm
ATT = 0
Wavelength
Power Deviation
Power Deviation
Power Deviation
Start = REF
1460 nm
1465 nm
1470 nm
1475 nm
1480 nm
1485 nm
1490 nm
1495 nm
1500 nm
1505 nm
1510 nm
1515 nm
1520 nm
1525 nm
1530 nm
1535 nm
1540 nm
1545 nm
1550 nm
1555 nm
1560 nm
1565 nm
1570 nm
1575 nm
1580 nm
0.00 dB
0.00 dB
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Deviation
Minimum Deviation
Flatness = Maximum − Minimum Deviation
Specification
0.40 dBpp
0.10 dB
0.60 dBpp
0.10 dB
0.60 dBpp
0.10 dB
Measurement Uncertainty
150
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Test Record
Performance Tests
Agilent 81682A Performance Test
Page 11 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Power Stability
Agilent 81682A
Standard
Agilent 81682A
Option #003
without #003
Att = 0 dB
Maximum Deviation
Minimum Deviation
dB
dB
dB
dB
dB
dB
1
Power Stability
Specification
0.02 dBpp
0.005 dB
0.02 dBpp
0.005 dB
Measurement Uncertainty
1
Power Stability = Maximum Deviation – Minimum Deviation
Signal-to-Source Spontaneous Emission - 81682A
Agilent 81682A Standard
without #003
Agilent 81682A
Option #003
Wavelength
Output
Power
Results
Maximum
Specification
Output
Power
Results
Maximum
Specification
1460 nm
1470 nm
1480 nm
1490 nm
1500 nm
1510 nm
1520 nm
1530 nm
1540 nm
1550 nm
1560 nm
1570 nm
1580 nm
−3.00 dBm
−3.00 dBm
+2.00 dBm
+2.00 dBm
+2.00 dBm
+2.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+2.00 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
35 dB
35 dB
40 dB
40 dB
40 dB
40 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
40 dB
−4.50 dBm
−4.50 dBm
+0.50 dBm
+0.50 dBm
+0.50 dBm
+0.50 dBm
+4.50 dBm
+4.50 dBm
+4.50 dBm
+4.50 dBm
+4.50 dBm
+4.50 dBm
+0.50 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
35 dB
35 dB
40 dB
40 dB
40 dB
40 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
40 dB
Measurement Uncertainty: 0.20 dB
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Performance Tests
Test Record
Agilent 81682A Performance Test
Page 12 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Optional Test: Signal-to-Total-Source Spontaneous
Emission - 81682A
pW
pW
OSA_noise
SSE_power_λTLS_max
Power_total_noise = OSA_noise
pW
+ SSE_power_λTLS_max
Peak_power
Measurement Result - Total SSE
Specification
pW
dB
25 dB
(30 dB typical)
peak power
Total SSE = 10 × log----------------------------------------------
power total SSE
Measurement Uncertainty: 2.00 dB
152
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Test Record
Performance Tests
Test Record
Agilent 81642A Performance Test
Page 1 of 12
Test Facility:
________________________________ Report No. _________________
________________________________ Date _________________
________________________________ Customer _________________
________________________________ Tested By _________________
Model
Agilent 81642A Tunable Laser Module 1600 nm
Serial No.
Options
____________________
____________________
Ambient temperature ________°C
Relative humidity
Line frequency
________ %
________ Hz
Firmware Rev. ____________________
Special Notes:
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
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Performance Tests
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Agilent 81642A Performance Test
Page 2 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Test Equipment Used
Description
Model No.
Trace No. Cal. Due Date
1. Lightwave Measurement System Agilent 8164A ________ _________
2. Lightwave Multimeter
3. Optical Head Interface Module
4. Standard Optical Head
5. Optical Spectrum Analyzer
6. Wavelength Meter
HP 8153A
_________ _________
_________ _________
_________ _________
HP 81533B
___________
___________ _________ _________
___________ _________ _________
7. __________________________ ___________
8. __________________________ ___________
9. __________________________ ___________
10. __________________________ ___________
11. __________________________ ___________
12. __________________________ ___________
13. __________________________ ___________
14. __________________________ ___________
15. __________________________ ___________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
154
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Performance Tests
Agilent 81682A Performance Test
Page 3 of 12
Model Agilent 81682A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy
Repetition 1
Repetition 2
Repetition 3
Wavelength
Setting
Wavelength
Measured
Wavelength De- Wavelength
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1
viation
Measured
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1570.000 nm
1580.000 nm
1590.000 nm
1600.000 nm
1610.000 nm
1620.000 nm
1630.000 nm
1640.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1510 to 1640 nm
Maximum Deviation
nm
nm
nm
Minimum Deviation
nm
nm
nm
Repetition 4
Repetition 5
Wavelength
Setting
Wavelength
Measured
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1570.000 nm
1580.000 nm
1590.000 nm
1600.000 nm
1610.000 nm
1620.000 nm
1630.000 nm
1640.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1510 to 1640 nm
Maximum Deviation
nm
nm
nm
nm
Minimum Deviation
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
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Agilent 81642A Performance Test
Page 4 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy Largest Maximum Deviation________nm
Summary of all repetitions
Relative Wavelength Accuracy Result (= Largest Maximum Deviation − Smallest Minimum Deviation)
Relative Wavelength Accuracy________nm
Specification:0.014 nm
Measurement Uncertainty: 0.2 pm
Absolute Wavelength Accuracy Largest Value of Deviation (= largest value of either Largest Maximum
Deviation or Smallest Minimum Deviation)
Result
Absolute Wavelength Accuracy________nm
Specification
0.03 nm
Measurement Uncertainty: 0.6 pm
156
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Performance Tests
Agilent 81642A Performance Test
Page 5 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Mode Hop Free Tuning
1
Wavelength Setting
Wavelength Measured
Wavelength Deviation
1510.000 nm
1511.000 nm
1512.000 nm
1513.000 nm
1514.000 nm
1515.000 nm
1516.000 nm
1517.000 nm
1518.000 nm
1519.000 nm
1520.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
1630.000 nm
1631.000 nm
1632.000 nm
1633.000 nm
1634.000 nm
1635.000 nm
1636.000 nm
1637.000 nm
1638.000 nm
1639.000 nm
1640.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Maximum Deviation:
nm
nm
Minimum Deviation:
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
Mode Hop Free Tuning Result (= Maximum Deviation − Minimum Deviation)
Mode Hop Free Tuning Result________ nm
Specification: 0.05 nm
Measurement Uncertainty: 0.2 pm
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Agilent 81642A Performance Test
Page 6 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Wavelength Repeatability
Repeatability of
Repeatability of
1510.000 nm (= reference)
Measurement Result
1580.000 nm (= reference)
Measurement Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
from 1540.000 nm to REF
from 1580.000 nm to REF
from 1610.000 nm to REF
from 1640.000 nm to REF
largest measured wavelength
from 1510.000 nm to REF
from 1540.000 nm to REF
from 1610.000 nm to REF
from 1640.000 nm to REF
largest measured wavelength
smallest measured wave-
length
smallest measured wave-
length
Wavelength Repeatability
nm
Wavelength Repeatability
nm
= largest measured wavelength - smallest measured wave-
length
= largest measured wavelength - smallest measured wave-
length
Specification
typical
0.002 nm
0.001 nm
Specification
typical
0.002 nm
0.001 nm
Repeatability of
1640.000 nm (= reference)
Measurement
Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
nm
from 1510.000 nm to REF
from 1540.000 nm to REF
from 1580.000 nm to REF
from 1610.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
= largest measured wavelength - smallest measured wave-
length
Specification
typical
0.002 nm
0.001 nm
Measurement Uncertainty: 0.1 pm
158
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Performance Tests
Agilent 81642A Performance Test
Page 7 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Maximum Power Test
Agilent 81642A
Agilent 81642A #003
Wavelength Setting
Power Measured
Minimum Specification
Power Measured
dBm
Minimum Specification
1510.000 nm
1520.000 nm
1530.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1570.000 nm
1580.000 nm
1590.000 nm
1600.000 nm
1610.000 nm
1620.000 nm
1630.000 nm
1630.000 nm
dBm
− 3.00 dBm
+ 2.00 dBm
+ 4.00 dBm
+ 4.00 dBm
+ 4.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 2.00 dBm
− 3.00 dBm
− 3.00 dBm
− 4.50 dBm
+ 0.50 dBm
+ 2.50 dBm
+ 2.50 dBm
+ 2.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 4.50 dBm
+ 0.50 dBm
− 4.50 dBm
− 4.50 dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
dBm
Measurement Uncertainty: 0.10 dB
Power Linearity - 81642A
Power Setting from Measured Relative Power
Power reduction from
start
Power Linearity at current
setting
start
from start
Start = REF
+ 6.0 dBm
+ 5.0 dBm
+ 4.0 dBm
+ 3.0 dBm
+ 2.0 dBm
+ 1.0 dBm
0 dBm
0.00 dB
+
+
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
8.00 dB
9.00 dB
=
=
=
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
− 1.0 dBm
− 2.0 dBm
− 3.0 dBm
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______dB
______dB
______dBpp
1.0 dBpp
0.6 dBpp
0.05 dB
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
typical
Measurement Uncertainty
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Performance Tests
Test Record
Agilent 81642A Performance Test
Page 8 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Power Linearity 81642A #003 Upper Power Levels
Power Setting Measured Relative Pow-
Power reduction
from start
Power Linearity at cur-
from start
er from start
rent setting
Start = REF
+ 4.5 dBm
+ 3.5 dBm
+ 2.5 dBm
+ 1.5 dBm
+ 0.5 dBm
− 0.5 dBm
− 1.5 dBm
− 2.5 dBm
− 3.5 dBm
− 4.5 dBm
0.00 dB
+
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
8.00 dB
9.00 dB
=
=
=
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
______dB
______dB
______dBpp
1.0 dBpp
0.6 dBpp
0.05 dB
Specification
Typical
Measurement Uncertainty
160
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Test Record
Performance Tests
Agilent 81642A Performance Test
Page 9 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Power Linearity 81642A #003 by Attenuator
Power Setting from Measured Relative Power
Power reduction from
start
Power Linearity
at current setting
start
from start
Start = REF
0.0 dBm
− 1.0 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
− 2.0 dBm
− 3.0 dBm
− 4.0 dBm
− 5.0 dBm
− 10.0 dBm
− 15.0 dBm
− 20.0 dBm
− 25.0 dBm
− 30.0 dBm
− 35.0 dBm
− 40.0 dBm
− 45.0 dBm
− 50.0 dBm
− 55.0 dBm
− 60.0 dBm
5.00 dB
10.00 dB
15.00 dB
20.00 dB
25.00 dB
30.00 dB
35.00 dB
40.00 dB
45.00 dB
50.00 dB
55.00 dB
60.00 dB
Maximum Power Linearity at current setting
______dB
______dB
______dBpp
1.0 dBpp
0.6 dBpp
0.05 dB
Minimum Power Linearity at current setting
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
Typical
Measurement Uncertainty
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Performance Tests
Test Record
Agilent 81642A Performance Test
Page 10 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Power Flatness
Agilent 81642A
Standard
Agilent 81642A
Option #003
without #003
P = −4.5 dBm
P = −4.5 dBm
ATT=55.5000 dB
P = −3 dBm
ATT = 0
Wavelength
Power Deviation
Power Deviation
Power Deviation
Start = REF
1510 nm
1515 nm
1520 nm
1525 nm
1530 nm
1535 nm
1540 nm
1545 nm
1560 nm
1565 nm
1570 nm
1575 nm
1580 nm
1585 nm
1590 nm
1595 nm
1600 nm
1605 nm
1610 nm
1615 nm
1620 nm
1625 nm
1630 nm
1635 nm
1640 nm
0.00 dB
0.00 dB
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Deviation
Minimum Deviation
Flatness = Maximum − Minimum Deviation
Specification
0.60 dBpp
0.10 dB
0.60 dBpp
0.10 dB
0.60 dBpp
0.10 dB
Measurement Uncertainty
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Test Record
Performance Tests
Agilent 81642A Performance Test
Page 11 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Power Stability
Agilent 81642A
Standard
Agilent 81642A
Option #003
without #003
Att = 0 dB
Maximum Deviation
Minimum Deviation
dB
dB
dB
dB
dB
dB
1
Power Stability
Specification
0.02 dBpp
0.005 dB
0.02 dBpp
0.005 dB
Measurement Uncertainty
1
Power Stability = Maximum Deviation – Minimum Deviation
Signal-to-Source Spontaneous Emission - 81642A
Agilent 81642A Standard
without #003
Agilent 81642A
Option #003
Wavelength
Output
Power
Results
Maximum
Specification
Output
Power
Results
Maximum
Specification
1510 nm
1520 nm
1530 nm
1540 nm
1550 nm
1560 nm
1570 nm
1580 nm
1590 nm
1600 nm
1610 nm
1620 nm
1630 nm
1640 nm
−3.00 dBm
+2.00 dBm
+4.00 dBm
+4.00 dBm
+4.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+2.00 dBm
− 3.00 dBm
− 3.00 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
35 dB
40 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
40 dB
35 dB
30 dB
−4.50 dBm
+0.50 dBm
+2.50 dBm
+2.50 dBm
+2.50 dBm
+4.50 dBm
+4.50 dBm
+4.50 dBm
+4.50 dBm
+4.50 dBm
+4.50 dBm
+0.50 dBm
− 4.50 dBm
− 4.50 dBm
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
35 dB
40 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
45 dB
40 dB
35 dB
30 dB
Measurement Uncertainty: 0.20 dB
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Performance Tests
Test Record
Agilent 81642A Performance Test
Page 12 of 12
Model Agilent 81642A Tunable Laser
Report No. ________ Date_______
Optional Test: Signal-to-Total-Source Spontaneous
Emission - 81642A
pW
pW
OSA_noise
SSE_power_λTLS_max
Power_total_noise = OSA_noise
pW
+ SSE_power_λTLS_max
Peak_power
Measurement Result - Total SSE
Specification
pW
dB
22 dB
(27 dB typical)
peak power
Total SSE = 10 × log----------------------------------------------
power total SSE
Measurement Uncertainty: 2.00 dB
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Test Record
Performance Tests
Test Record
Agilent 81689A Performance Test
Page 1 of 6
Test Facility:
________________________________ Report No. _________________
________________________________ Date _________________
________________________________ Customer _________________
________________________________ Tested By _________________
Model
Agilent 81689A Tunable Laser Module 1550 nm
Serial No.
Options
____________________
____________________
Ambient temperature ________°C
Relative humidity
Line frequency
________ %
________ Hz
Firmware Rev. ____________________
Special Notes:
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
_________________________________________________________________
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Performance Tests
Test Record
Agilent 81689A Performance Test
Page 2 of 6
Model Agilent 81689A Tunable Laser
Report No. ________ Date_______
Test Equipment Used
Description
Model No.
Trace No. Cal. Due Date
1. Lightwave Measurement System Agilent 8164A ________ _________
2. Lightwave Multimeter
3. Optical Head Interface Module
4. Standard Optical Head
5. Optical Spectrum Analyzer
6. Wavelength Meter
HP 8153A
_________ _________
_________ _________
_________ _________
HP 81533B
___________
___________ _________ _________
___________ _________ _________
7. __________________________ ___________
8. __________________________ ___________
9. __________________________ ___________
10. __________________________ ___________
11. __________________________ ___________
12. __________________________ ___________
13. __________________________ ___________
14. __________________________ ___________
15. __________________________ ___________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
_________ _________
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Test Record
Performance Tests
Agilent 81689A Performance Test
Page 3 of 6
Model Agilent 81689A Tunable Laser
Report No. ________ Date_______
Relative Wavelength Accuracy
Repetition 1
Repetition 2
Repetition 3
Wavelength
Setting
Wavelength
Measured
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1
1525.000 nm
1535.000 nm
1545.000 nm
1555.000 nm
1565.000 nm
1575.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1525 to 1575 nm
Maximum Deviation
nm
nm
nm
nm
nm
nm
Minimum Deviation
Repetition 4
Repetition 5
Wavelength
Setting
Wavelength
Measured
Wavelength
Deviation
Wavelength
Measured
Wavelength
Deviation
1
1
1525.000 nm
1535.000 nm
1545.000 nm
1555.000 nm
1565.000 nm
1575.000 nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
nm
Within full Tuning Range 1525 to 1575 nm
Maximum Deviation
nm
nm
nm
nm
Minimum Deviation
1
Wavelength Deviation = Wavelength Measured - Wavelength Setting
Relative Wavelength Accuracy Largest Maximum Deviation________nm
Summary of All Repetitions
Relative Wavelength Accuracy Result (= Largest Maximum Deviation − Smallest Minimum Deviation)
Relative Wavelength Accuracy________nm
Specification0.6 nm
Measurement Uncertainty: 0.2 pm
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Performance Tests
Test Record
Agilent 81689A Performance Test
Model Agilent 81689A Tunable Laser
Page 4 of 6
Report No. ________ Date_______
Absolute Wavelength Accuracy Largest Value of Deviation (= largest value of either Largest Maximum
Deviation or Smallest Minimum Deviation)
Absolute Wavelength Accuracy________nm
Specification 1.0 nm
Result
0.6 nm typical
Measurement Uncertainty: 0.6 pm
Wavelength Repeatability
Repeatability of
Repeatability of
1525.000 nm (= reference)
Measurement Result
1550.000 nm (= reference)
Measurement Result
REF =
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
nm
nm
Initial Setting
nm
nm
nm
nm
nm
nm
nm
nm
nm
from 1535.000 nm to REF
from 1540.000 nm to REF
from 1550.000 nm to REF
from 1560.000 nm to REF
from 1575.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
from 1525.000 nm to REF
from 1535.000 nm to REF
from 1540.000 nm to REF
from 1560.000 nm to REF
from 1575.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
= largest measured wavelength - smallest measured wavelength
= largest measured wavelength - smallest measured wavelength
Specification 0.10 nm
Specification
0.10 nm
Repeatability of
1575.000 nm (= reference)
Measurement
Result
Initial Setting
REF =
nm
nm
nm
nm
nm
nm
nm
nm
nm
from 1525.000 nm to REF
from 1535.000 nm to REF
from 1540.000 nm to REF
from 1550.000 nm to REF
from 1560.000 nm to REF
largest measured wavelength
smallest measured wavelength
Wavelength Repeatability
= largest measured wavelength - smallest measured wavelength
Specification
0.10 nm
Measurement Uncertainty: 0.1 pm
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Test Record
Performance Tests
Agilent 81689A Performance Test
Page 5 of 6
Model Agilent 81689A Tunable Laser
Report No. ________ Date_______
Maximum Power Test
Wavelength Setting
Power Measured
dBm
Minimum Specification
1525.000 nm
1535.000 nm
1540.000 nm
1550.000 nm
1560.000 nm
1570.000 nm
1575.000 nm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
+ 6.00 dBm
dBm
dBm
dBm
dBm
dBm
dBm
Measurement Uncertainty: 0.10 dB
Power Linearity
Power Setting from
start
Measured Relative
Power from start
Power reduction
Power Linearity at cur-
rent setting
from start
Start = REF
+ 6.00 dBm
+ 5.00 dBm
+ 4.00 dBm
+ 3.00 dBm
+ 2.00 dBm
+ 1.00 dBm
− 0.0 dBm
− 1.0 dBm
− 2.0 dBm
− 3.0 dBm
0.00 dB
+
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
dB +
0.00 dB
1.00 dB
2.00 dB
3.00 dB
4.00 dB
5.00 dB
6.00 dB
7.00 dB
8.00 dB
9.00 dB
=
=
=
=
=
=
=
=
=
=
0.00 dB
dB
dB
dB
dB
dB
dB
dB
dB
dB
Maximum Power Linearity at current setting
Minimum Power Linearity at current setting
______dB
______dB
______dBpp
0.5 dBpp
Total Power Linearity = (Max Power Linearity − Min Power Linearity)
Specification
typical
0.2 dBpp
0.05 dB
Measurement Uncertainty
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Performance Tests
Test Record
Agilent 81689A Performance Test
Page 6 of 6
Model Agilent 81689A Tunable Laser
Report No. ________ Date_______
Power Flatness
P = +2.0 dBm
Wavelength
Power Deviation
Start = REF
1525 nm
1530 nm
1540 nm
1550 nm
1560 nm
1570 nm
1575 nm
0.00 dB
dB
dB
dB
dB
dB
dB
Maximum deviation
Minimum deviation
dB
dB
dB
Flatness =
Maximum − Minimum Deviation
Specification
0.60 dBpp
0.10 dB
Measurement Uncertainty
Power Stability
P = −3.0 dBm
Maximum Deviation
Minimum Deviation
dB
dB
dB
1
Power Stability
Specification
0.06 dBpp
0.005 dB
Measurement Uncertainty
1
Power Stability = Maximum Deviation – Minimum Deviation
Signal-to-Source Spontaneous Emission
Maximum
Wavelength
1525 nm
Output Power
Results
Specification
Typical
39 dB
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
+6.00 dBm
dB
dB
dB
dB
dB
dB
30 dB
1535 nm
1545 nm
1555 nm
1565 nm
1575 nm
30 dB
30 dB
30 dB
30 dB
30 dB
39 dB
39 dB
39 dB
39 dB
39 dB
Measurement Uncertainty: 0.20 dB
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Cleaning Information
The following Cleaning Information contains some general safety
precautions, which must be observed during all phases of cleaning.
Consult your specific optical device manuals or guides for full
information on safety matters.
Please try, whenever possible, to use physically contacting connectors,
and dry connections. Clean the connectors, interfaces, and bushings
carefully after use.
If you are unsure of the correct cleaning procedure for your optical
device, we recommend that you first try cleaning a dummy or test
device.
Agilent Technologies assume no liability for the customer’s failure to
comply with these requirements.
Cleaning Instructions for this Instrument
This Cleaning Information applies to a number of different types of
Optical Equipment.
“How to clean instruments with a physical contact interface” on
page 185 is particularly relevant to this module.
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Safety Precautions
Cleaning Information
Safety Precautions
Please follow the following safety rules:
• Do not remove instrument covers when operating.
• Ensure that the instrument is switched off throughout the cleaning
procedures.
• Use of controls or adjustments or performance of procedures other
than those specified may result in hazardous radiation exposure.
• Make sure that you disable all sources when you are cleaning any
optical interfaces.
• Under no circumstances look into the end of an optical device
attached to optical outputs when the device is operational. The laser
radiation is not visible to the human eye, but it can seriously
damage your eyesight.
• To prevent electrical shock, disconnect the instrument from the
mains before cleaning. Use a dry cloth, or one slightly dampened
with water, to clean the external case parts. Do not attempt to clean
internally.
• Do not install parts or perform any unauthorized modification to
optical devices.
• Refer servicing only to qualified and authorized personnel.
Why is it important to clean
optical devices?
In transmission links optical fiber cores are about 9 µm (0.00035") in
diameter. Dust and other particles, however, can range from tenths to
hundredths of microns in diameter. Their comparative size means that
they can cover a part of the end of a fiber core, and as a result will
reduce the performance of your system.
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Cleaning Information
What do I need for proper cleaning?
Furthermore, the power density may burn dust into the fiber and
cause additional damage (for example, 0 dBm optical power in a single
2
mode fiber causes a power density of approximately 16 million W/m ).
If this happens, measurements become inaccurate and non-repeatable.
Cleaning is, therefore, an essential yet difficult task. Unfortunately,
when comparing most published cleaning recommendations, you will
discover that they contain several inconsistencies. In this section, we
want to suggest ways to help you clean your various optical devices,
and thus significantly improve the accuracy and repeatability of your
lightwave measurements.
What do I need for proper
cleaning?
instrument. For certain cleaning procedures, you may also require
certain Additional Cleaning Equipment.
Standard Cleaning Equipment
Before you can start your cleaning procedure you need the following
• Compressed air
Dust and shutter caps
All of Agilent Technologies’ lightwave instruments are delivered with
either laser shutter caps or dust caps on the lightwave adapter. Any
cables come with covers to protect the cable ends from damage or
contamination.
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What do I need for proper cleaning?
Cleaning Information
We suggest these protective coverings should be kept on the
equipment at all times, except when your optical device is in use. Be
careful when replacing dust caps after use. Do not press the bottom of
the cap onto the fiber too hard, as any dust in the cap can scratch or
pollute your fiber surface.
If you need further dust caps, please contact your nearest Agilent
Technologies sales office.
Isopropyl alcohol
This solvent is usually available from any local pharmaceutical
supplier or chemist's shop.
If you use isopropyl alcohol to clean your optical device, do not
immediately dry the surface with compressed air (except when you
are cleaning very sensitive optical devices). This is because the dust
and the dirt is solved and will leave behind filmy deposits after the
alcohol is evaporated. You should therefore first remove the alcohol
and the dust with a soft tissue, and then use compressed air to blow
away any remaining filaments.
If possible avoid using denatured alcohol containing additives.
Instead, apply alcohol used for medical purposes.
Never drink this alcohol, as it may seriously damage to your health.
Do not use any other solvents, as some may damage plastic materials
and claddings. Acetone, for example, will dissolve the epoxy used with
fiber optic connectors. To avoid damage, only use isopropyl alcohol.
Cotton swabs
We recommend that you use swabs such as Q-tips or other cotton
swabs normally available from local distributors of medical and
hygiene products (for example, a supermarket or a chemist's shop).
You may be able to obtain various sizes of swab. If this is the case,
select the smallest size for your smallest devices.
Ensure that you use natural cotton swabs. Foam swabs will often leave
behind filmy deposits after cleaning.
Use care when cleaning, and avoid pressing too hard onto your optical
device with the swab. Too much pressure may scratch the surface, and
could cause your device to become misaligned. It is advisable to rub
gently over the surface using only a small circular movement.
Swabs should be used straight out of the packet, and never used twice.
This is because dust and dirt in the atmosphere, or from a first
cleaning, may collect on your swab and scratch the surface of your
optical device.
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Cleaning Information
What do I need for proper cleaning?
Soft tissues
These are available from most stores and distributors of medical and
hygiene products such as supermarkets or chemists' shops.
We recommend that you do not use normal cotton tissues, but multi-
layered soft tissues made from non-recycled cellulose. Cellulose
tissues are very absorbent and softer. Consequently, they will not
scratch the surface of your device over time.
Use care when cleaning, and avoid pressing on your optical device
with the tissue. Pressing too hard may lead to scratches on the surface
or misalignment of your device. Just rub gently over the surface using
a small circular movement.
Use only clean, fresh soft tissues and never apply them twice. Any dust
and dirt from the air which collects on your tissue, or which has
gathered after initial cleaning, may scratch and pollute your optical
device.
Pipe cleaner
Pipe cleaners can be purchased from tobacconists, and come in
various shapes and sizes.The most suitable one to select for cleaning
purposes has soft bristles, which will not produces scratches.
There are many different kinds of pipe cleaner available from tobacco
nists.
The best way to use a pipe cleaner is to push it in and out of the device
opening (for example, when cleaning an interface). While you are
cleaning, you should slowly rotate the pipe cleaner.
Only use pipe cleaners on connector interfaces or on feed through
adapters. Do not use them on optical head adapters, as the center of a
pipe cleaner is hard metal and can damage the bottom of the adapter.
Your pipe cleaner should be new when you use it. If it has collected
any dust or dirt, this can scratch or contaminate your device.
The tip and center of the pipe cleaner are made of metal. Avoid
accidentally pressing these metal parts against the inside of the device,
as this can cause scratches.
Compressed air
Compressed air can be purchased from any laboratory supplier.
It is essential that your compressed air is free of dust, water and oil.
Only use clean, dry air. If not, this can lead to filmy deposits or
scratches on the surface of your connector. This will reduce the
performance of your transmission system.
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What do I need for proper cleaning?
Cleaning Information
When spraying compressed air, hold the can upright. If the can is held
at a slant, propellant could escape and dirty your optical device. First
spray into the air, as the initial stream of compressed air could contain
some condensation or propellant. Such condensation leaves behind a
filmy deposit.
Please be friendly to your environment and use a CFC-free aerosol.
Additional Cleaning Equipment
Some Cleaning Procedures need the following equipment, which is not
• Infrared Sensor Card
Microscope with a magnification range about 50X up to
300X
A microscope can be found in most photography stores, or can be
obtained through or specialist mail order companies. Special fiber-
scopes are available from suppliers of splicing equipment.
Ideally, the light source on your microscope should be very flexible.
This will allow you to examine your device closely and from different
angles.
A microscope helps you to estimate the type and degree of dirt on your
device. You can use a microscope to choose an appropriate cleaning
method, and then to examine the results. You can also use your
microscope to judge whether your optical device (such as a connector)
is severely scratched and is, therefore, causing inaccurate
measurements.
Ultrasonic bath
Ultrasonic baths are also available from photography or laboratory
suppliers or specialist mail order companies.
An ultrasonic bath will gently remove fat and other stubborn dirt from
your optical devices. This helps increase the life span of the optical
devices.
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Cleaning Information
What do I need for proper cleaning?
Only use isopropyl alcohol in your ultrasonic bath, as other solvents
may cause damage.
Warm water and liquid soap
Only use water if you are sure that there is no other way of cleaning
your optical device without causing corrosion or damage. Do not use
hot water, as this may cause mechanical stress, which can damage
your optical device.
Ensure that your liquid soap has no abrasive properties or perfume in
it. You should also avoid normal washing up liquid, as it can cover
your device in an iridescent film after it has been air dried.
Some lenses and mirrors also have a special coating, which may be
sensitive to mechanical stress, or to fat and liquids. For this reason we
recommend you do not touch them.
If you are not sure how sensitive your device is to cleaning, please
contact the manufacturer or your sales distributor.
Premoistened cleaning wipes
Use pre-moistened cleaning wipes as described in each individual
cleaning procedure. Cleaning wipes may be used in every instance
where a moistened soft tissue or cotton swab is applied.
Polymer film
Polymer film is available from laboratory suppliers or specialist mail
order companies.
Using polymer film is a gentle method of cleaning extremely sensitive
devices, such as reference reflectors and mirrors.
Infrared Sensor Card
Infrared sensor cards are available from laboratory suppliers or
specialist mail order companies.
With this card you are able to control the shape of laser light emitted.
The invisible laser beam is projected onto the sensor card, then
becomes visible to the normal eye as a round spot.
Take care never to look into the end of a fiber or any other optical
component, when they are in use. This is because the laser can
seriously damage your eyes.
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Preserving Connectors
Cleaning Information
Preserving Connectors
Listed below are some hints on how best to keep your connectors in
the best possible condition.
Making Connections Before you make any connection you must ensure that all cables and
connectors are clean. If they are dirty, use the appropriate cleaning
procedure.
When inserting the ferrule of a patchcord into a connector or an
adapter, make sure that the fiber end does not touch the outside of the
mating connector or adapter. Otherwise you will rub the fiber end
against an unsuitable surface, producing scratches and dirt deposits
on the surface of your fiber.
Dust Caps and Shutter Caps Be careful when replacing dust caps after use. Do not press the bottom
of the cap onto the fiber as any dust in the cap can scratch or dirty
your fiber surface.
When you have finished cleaning, put the dust cap back on, or close
the shutter cap if the equipment is not going to be used immediately.
Always keep the caps on the equipment when it is not in use.
All of Agilent Technologies’ lightwave instruments and accessories are
shipped with either laser shutter caps or dust caps. If you need
additional or replacement dust caps, contact your nearest Agilent
Technologies Sales/Service Office.
Immersion Oil and Other Index Wherever possible, do not use immersion oil or other index matching
compounds with your device. They are liable to impair and dirty the
surface of the device. In addition, the characteristics of your device
can be changed and your measurement results affected.
Matching Compounds
Cleaning Instrument Housings
Use a dry and very soft cotton tissue to clean the instrument housing
and the keypad. Do not open the instruments as there is a danger of
electric shock, or electrostatic discharge. Opening the instrument can
cause damage to sensitive components, and in addition your warranty
will be voided.
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Cleaning Information
Which Cleaning Procedure should I use ?
Which Cleaning Procedure
should I use ?
Light dirt If you just want to clean away light dirt, observe the following
procedure for all devices:
• Use compressed air to blow away large particles.
• Clean the device with a dry cotton swab.
• Use compressed air to blow away any remaining filament left by the
swab.
one of the procedures below. Please consult “Cleaning Instructions
for this Instrument” on page 172 for the procedure relevant for this
instrument.
If you are unsure of how sensitive your device is to cleaning, please
contact the manufacturer or your sales distributor
How to clean connectors
Cleaning connectors is difficult as the core diameter of a single-mode
fiber is only about 9 µm. This generally means you cannot see streaks
or scratches on the surface. To be certain of the condition of the
surface of your connector and to check it after cleaning, you need a
microscope.
In the case of scratches, or of dust that has been burnt onto the surface
of the connector, you may have no option but to polish the connector.
This depends on the degree of dirtiness, or the depth of the scratches.
This is a difficult procedure and should only be performed by a skilled
person, and as a last resort as it wears out your connector.
WARNING
Never look into the end of an optical cable that is connected to an
active source.
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How to clean connector adapters
Cleaning Information
To assess the projection of the emitted light beam you can use an
infrared sensor card. Hold the card approximately 5 cm from the
output of the connector. The invisible emitted light is projected onto
the card and becomes visible as a small circular spot.
Preferred Procedure Use the following procedure on most occasions.
1 Clean the connector by rubbing a new, dry cotton swab over the
surface using a small circular movement.
2 Blow away any remaining lint with compressed air.
Procedure for Stubborn Dirt Use this procedure when there is greasy dirt on the connector:
1 Moisten a new cotton swab with isopropyl alcohol.
2 Clean the connector by rubbing the cotton swab over the surface
using a small circular movement.
3 Take a new, dry soft tissue and remove the alcohol, dissolved
sediment and dust, by rubbing gently over the surface using a small
circular movement.
4 Blow away any remaining lint with compressed air.
An Alternative Procedure A better, more gentle, but more expensive cleaning procedure is to use
an ultrasonic bath with isopropyl alcohol.
1 Hold the tip of the connector in the bath for at least three minutes.
2 Take a new, dry soft tissue and remove the alcohol, dissolved
sediment and dust, by rubbing gently over the surface using a small
circular movement.
3 Blow away any remaining lint with compressed air.
How to clean connector adapters
CAUTION
Some adapters have an anti-reflection coating on the back to reduce
back reflection. This coating is extremely sensitive to solvents and
mechanical abrasion. Extra care is needed when cleaning these
adapters.
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Cleaning Information
How to clean connector interfaces
Preferred Procedure Use the following procedure on most occasions.
1 Clean the adapter by rubbing a new, dry cotton swab over the
surface using a small circular movement.
2 Blow away any remaining lint with compressed air.
Procedure for Stubborn Dirt Use this procedure when there is greasy dirt on the adapter:
1 Moisten a new cotton swab with isopropyl alcohol.
2 Clean the adapter by rubbing the cotton swab over the surface using
a small circular movement.
3 Take a new, dry soft tissue and remove the alcohol, dissolved
sediment and dust, by rubbing gently over the surface using a small
circular movement.
4 Blow away any remaining lint with compressed air.
How to clean connector
interfaces
CAUTION
Be careful when using pipe cleaners, as the core and the bristles of the
pipe cleaner are hard and can damage the interface.
Do not use pipe cleaners on optical head adapters, as the hard core of
normal pipe cleaners can damage the bottom of an adapter.
Preferred Procedure Use the following procedure on most occasions.
1 Clean the interface by pushing and pulling a new, dry pipe cleaner
into the opening. Rotate the pipe cleaner slowly as you do this.
2 Then clean the interface by rubbing a new, dry cotton swab over the
surface using a small circular movement.
3 Blow away any remaining lint with compressed air.
Procedure for Stubborn Dirt Use this procedure when there is greasy dirt on the interface:
1 Moisten a new pipe cleaner with isopropyl alcohol.
2 Clean the interface by pushing and pulling the pipe cleaner into the
opening. Rotate the pipe cleaner slowly as you do this.
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How to clean bare fiber adapters
Cleaning Information
3 Moisten a new cotton swab with isopropyl alcohol.
4 Clean the interface by rubbing the cotton swab over the surface
using a small circular movement.
5 Using a new, dry pipe cleaner, and a new, dry cotton swab remove
the alcohol, any dissolved sediment and dust.
6 Blow away any remaining lint with compressed air.
How to clean bare fiber adapters
Bare fiber adapters are difficult to clean. Protect from dust unless they
are in use.
CAUTION
Never use any kind of solvent when cleaning a bare fiber adapter as
solvents can:
• Damage the foam inside some adapters.
• Deposit dissolved dirt in the groove, which can then dirty the
surface of an inserted fiber.
Preferred Procedure Use the following procedure on most occasions.
1 Blow away any dust or dirt with compressed air.
Procedure for Stubborn Dirt Use this procedure when there is greasy dirt on the adapter:
1 Clean the adapter by pushing and pulling a new, dry pipe cleaner
into the opening. Rotate the pipe cleaner slowly as you do this.
CAUTION
Be careful when using pipe cleaners, as the core and the bristles of
the pipe cleaner are hard and can damage the adapter.
2 Clean the adapter by rubbing a new, dry cotton swab over the
surface using a small circular movement.
3 Blow away any remaining lint with compressed air.
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Cleaning Information
How to clean lenses
How to clean lenses
Some lenses have special coatings that are sensitive to solvents,
grease, liquid and mechanical abrasion. Take extra care when cleaning
lenses with these coatings.
Lens assemblies consisting of several lenses are not normally sealed.
Therefore, use as little alcohol as possible, as it can get between the
lenses and in doing so can change the properties of projection.
Preferred Procedure Use the following procedure on most occasions.
1 Clean the lens by rubbing a new, dry cotton swab over the surface
using a small circular movement.
2 Blow away any remaining lint with compressed air.
Procedure for Stubborn Dirt Use this procedure when there is greasy dirt on the lens:
1 Moisten a new cotton swab with isopropyl alcohol.
2 Clean the lens by rubbing the cotton swab over the surface using a
small circular movement.
3 Using a new, dry cotton swab remove the alcohol, any dissolved
sediment and dust.
4 Blow away any remaining lint with compressed air.
How to clean instruments with a
fixed connector interface
You should only clean instruments with a fixed connector interface
when it is absolutely necessary. This is because it is difficult to remove
any used alcohol or filaments from the input of the optical block.
It is important, therefore, to keep dust caps on the equipment at all
times, except when your optical device is in use.
If you do discover filaments or particles, the only way to clean a fixed
connector interface and the input of the optical block is to use
compressed air.
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How to clean instruments with an optical glass plate
Cleaning Information
If there are fluids or fat in the connector, please refer the instrument
to the skilled personnel of Agilent’s service team.
CAUTION
Only use clean, dry compressed air. Make sure that the air is free of
dust, water, and oil. If the air that you use is not clean and dry, this
can lead to filmy deposits or scratches on the surface of your
connector interface. This will degrade the performance of your
transmission system.
Never try to open the instrument and clean the optical block by
yourself, because it is easy to scratch optical components, and cause
them to become misaligned.
How to clean instruments with
an optical glass plate
Some instruments, for example, the optical heads from Agilent
Technologies have an optical glass plate to protect the sensor. Clean
this glass plate in the same way as optical lenses (see “How to clean
lenses” on page 184).
How to clean instruments with a
physical contact interface
Remove any connector interfaces from the optical output of the
instrument before you begin the cleaning procedure.
Cleaning interfaces is difficult as the core diameter of a single-mode
fiber is only about 9 µm. This generally means you cannot see streaks
or scratches on the surface. To be certain of the degree of pollution on
the surface of your interface and to check whether it has been
removed after cleaning, you need a microscope.
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Cleaning Information
WARNING
How to clean instruments with a recessed lens interface
Never look into an optical output, because this can seriously damage
your eyesight.
To assess the projection of the emitted light beam you can use an
infrared sensor card. Hold the card approximately 5 cm from the
interface. The invisible emitted light is projected onto the card and
becomes visible as a small circular spot.
Preferred Procedure Use the following procedure on most occasions.
1 Clean the interface by rubbing a new, dry cotton swab over the
surface using a small circular movement.
2 Blow away any remaining lint with compressed air.
Procedure for Stubborn Dirt Use this procedure when there is greasy dirt on the interface:
1 Moisten a new cotton swab with isopropyl alcohol.
2 Clean the interface by rubbing the cotton swab over the surface
using a small circular movement.
3 Take a new, dry soft tissue and remove the alcohol, dissolved
sediment and dust, by rubbing gently over the surface using a small
circular movement.
4 Blow away any remaining lint with compressed air.
How to clean instruments with a
recessed lens interface
WARNING
For instruments with a deeply recessed lens interface (for example the
Agilent 81633A and 81634A Power Sensors) do NOT follow this
procedure. Alcohol and compressed air could damage your lens even
further.
Keep your dust and shutter caps on when your instrument is not in
use. This should prevent it from getting too dirty. If you must clean
such instruments, please refer the instrument to the skilled personnel
of Agilent’s service team.
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How to clean optical devices which are sensitive to mechanical stress and pressure
Cleaning Information
Preferred Procedure Use the following procedure on most occasions.
1 Blow away any dust or dirt with compressed air.
If this is not sufficient, then
2 Clean the interface by rubbing a new, dry cotton swab over the
surface using a small circular movement.
3 Blow away any remaining lint with compressed air.
Procedure for Stubborn Dirt Use this procedure when there is greasy dirt on the interface, and
using the preferred procedure is not sufficient. Using isopropyl
alcohol should be your last choice for recessed lens interfaces because
of the difficulty of cleaning out any dirt that is washed to the edge of
the interface:
1 Moisten a new cotton swab with isopropyl alcohol.
2 Clean the interface by rubbing the cotton swab over the surface
using a small circular movement.
3 Take a new, dry soft tissue and remove the alcohol, dissolved
sediment and dust, by rubbing gently over the surface using a small
circular movement.
4 Blow away any remaining lint with compressed air.
How to clean optical devices
which are sensitive to
mechanical stress and pressure
Some optical devices, such as the Agilent 81000BR Reference
Reflector, which has a gold plated surface, are very sensitive to
mechanical stress or pressure. Do not use cotton swabs, soft tissues or
other mechanical cleaning tools, as these can scratch or destroy the
surface.
Preferred Procedure Use the following procedure on most occasions.
1 Blow away any dust or dirt with compressed air.
Procedure for Stubborn Dirt To clean devices that are extremely sensitive to mechanical stress or
pressure you can also use an optical clean polymer film. This
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Cleaning Information
How to clean metal filters or attenuator gratings
procedure is time-consuming, but you avoid scratching or destroying
the surface.
1 Put the film on the surface and wait at least 30 minutes to make
sure that the film has had enough time to dry.
2 Remove the film and any dirt with special adhesive tapes.
Alternative Procedure For these types of optical devices you can often use an ultrasonic bath
with isopropyl alcohol. Only use the ultrasonic bath if you are sure
that it won't cause any damage any part of the device.
1 Put the device into the bath for at least three minutes.
2 Blow away any remaining liquid with compressed air.
If there are any streaks or drying stains on the surface, repeat the
cleaning procedure.
How to clean metal filters or
attenuator gratings
This kind of device is extremely fragile. A misalignment of the grating
leads to inaccurate measurements. Never touch the surface of the
metal filter or attenuator grating. Be very careful when using or
cleaning these devices. Do not use cotton swabs or soft tissues, as
there is the danger that you cannot remove the lint and that the device
will be destroyed by becoming mechanically distorted.
Preferred Procedure Use the following procedure on most occasions.
1 Use compressed air at a distance and with low pressure to remove
any dust or lint.
Procedure for Stubborn Dirt Do not use an ultrasonic bath as this can damage your device.
Use this procedure when there is greasy dirt on the device:
1 Put the optical device into a bath of isopropyl alcohol, and wait at
least 10 minutes.
2 Remove the fluid using compressed air at some distance and with
low pressure. If there are any streaks or drying stains on the
surface, repeat the whole cleaning procedure.
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Additional Cleaning Information
Cleaning Information
Additional Cleaning Information
The following cleaning procedures may be used with other optical
equipment:
• How to clean large area lenses and mirrors
How to clean bare fiber ends
Bare fiber ends are often used for splices or, together with other
optical components, to create a parallel beam. The end of a fiber can
often be scratched. You make a new cleave. To do this:
1 Strip off the cladding.
2 Take a new soft tissue and moisten it with isopropyl alcohol.
3 Carefully clean the bare fiber with this tissue.
4 Make your cleave and immediately insert the fiber into your bare
fiber adapter in order to protect the surface from dirt.
How to clean large area lenses and mirrors
Some mirrors, as those from a monochromator, are very soft and
sensitive. Therefore, never touch them and do not use cleaning tools
such as compressed air or polymer film.
Some lenses have special coatings that are sensitive to solvents,
grease, liquid and mechanical abrasion. Take extra care when cleaning
lenses with these coatings.
Lens assemblies consisting of several lenses are not normally sealed.
Therefore, use as little liquid as possible, as it can get between the
lenses and in doing so can change the properties of projection.
Preferred Procedure Use the following procedure on most occasions.
1 Blow away any dust or dirt with compressed air.
Procedure for Stubborn Dirt Use this procedure when there is greasy dirt on the lens:
CAUTION
Only use water if you are sure that there is no other way of cleaning
your optical device without causing corrosion or damage.
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Cleaning Information
Additional Cleaning Information
Only use water if you are sure that there is no other way of cleaning
your optical device without causing corrosion or damage. Do not use
hot water, as this may cause mechanical stress, which can damage
your optical device.
Ensure that your liquid soap has no abrasive properties or perfume in
it. You should also avoid normal washing up liquid, as it can cover
your device in an iridescent film after it has been air dried.
Some lenses and mirrors also have a special coating, which may be
sensitive to mechanical stress, or to fat and liquids. For this reason we
recommend you do not touch them.
If you are not sure how sensitive your device is to cleaning, please
contact the manufacturer or your sales distributor.
1 Moisten the lens or the mirror with water.
2 Put a little liquid soap on the surface and gently spread the liquid
over the whole area.
3 Wash off the emulsion with water, being careful to remove it all, as
any remaining streaks can impair measurement accuracy.
4 Take a new, dry soft tissue and remove the water, by rubbing gently
over the surface using a small circular movement.
5 Blow away remaining lint with compressed air.
Alternative Procedure A To clean lenses that are extremely sensitive to mechanical stress or
pressure you can also use an optical clean polymer film. This
procedure is time-consuming, but you avoid scratching or destroying
the surface.
1 Put the film on the surface and wait at least 30 minutes to make
sure that the film has had enough time to dry.
2 Remove the film and any dirt with special adhesive tapes.
Alternative Procedure B If your lens is sensitive to water then:
1 Moisten the lens or the mirror with isopropyl alcohol.
2 Take a new, dry soft tissue and remove the alcohol, dissolved
sediment and dust, by rubbing gently over the surface using a small
circular movement.
3 Blow away remaining lint with compressed air.
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Other Cleaning Hints
Cleaning Information
Other Cleaning Hints
Selecting the correct cleaning method is an important element in
maintaining your equipment and saving you time and money. This
Appendix highlights the main cleaning methods, but cannot address
every individual circumstance.
This section contain some additional hints which we hope will help
you further. For further information, please contact your local Agilent
Technologies representative.
Making the connection Before you make any connection you must ensure that all lightwave
cables and connectors are clean. If not, then use the appropriate
cleaning methods.
When you insert the ferrule of a patchcord into a connector or an
adapter, ensure that the fiber end does not touch the outside of the
mating connector or adapter. Otherwise, the fiber end will rub up
against something which could scratch it and leave deposits.
Lens cleaning papers Some special lens cleaning papers are not suitable for cleaning optical
devices like connectors, interfaces, lenses, mirrors and so on. To be
absolutely certain that a cleaning paper is applicable, please ask the
salesperson or the manufacturer.
Immersion oil and other index Do not use immersion oil or other index matching compounds with
optical sensors equipped with recessed lenses. They are liable to dirty
the detector and impair its performance. They may also alter the
property of depiction of your optical device, thus rendering your
measurements inaccurate.
matching compounds
Cleaning the housing and the When cleaning either the mainframe or the housing of your
instrument, only use a dry and very soft cotton tissue on the surfaces
and the numeric pad.
mainframe
Never open the instruments as they can be damaged. Opening the
instruments puts you in danger of receiving an electrical shock from
your device, and renders your warranty void.
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Cleaning Information
Other Cleaning Hints
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Index
Index
C
Connectors
straight contact 27, 36
Conventions 9
D
Definition of Terms 41
Absolute Wavelength Accuracy 41
Effective Linewidth 41
Linewidth 42
Minimum Output Power 42
Mode-Hop Free Tuning Range 42
Modulation Depth 42
Modulation Frequency Range 43
Output Isolation 43
Output Power 43
Peak Power 43
Polarization Extinction Ratio 43
Power Flatness Versus Wavelength 44
Power Linearity 44
Power Repeatability 44
Power Stability 45
Relative Intensity Noise 45
Relative Wavelength Accurac 45
Return Loss 45
Sidemode Suppression Ratio 46
Signal-to-Source Spontaneous Emission Ratio 46
Signal-to-Total-Source Spontaneous Emission 46
Wavelength Range 47
Wavelength Repeatability 47
Wavelength Resolution 47
Wavelength Stability 47
F
Filler Module 34
G
Getting Started 21
I
Inspection 3
L
Line Power 4
O
Optical Output 27
Optional features 33
P
Performance Tests 58
Agilent 81480A 99
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Index
Agilent 81640A 127
Agilent 81680A 113
Agilent 81682A 141, 153
Agilent 81689A 165
Polarization Maintaining Fiber 27
S
Safety
symbols 3
Signal Input 29
Signal Output 29
Specifications 48
T
Test Record 99
Tunable Laser Modules
Agilent 81640A 24
Agilent 81642A 24
Agilent 81680A 24
Agilent 81682A 24
Agilent 81689A 26
U
User’s Guides 35
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