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ii

© Copyright 2000
Agilent Technologies 
All Rights Reserved. Repro-
duction, adaptation, or trans-
lation without prior written 
permission is prohibited, 
except as allowed under copy-
right laws.

Agilent Part No. 5962-5933
Printed in USA
February 2000

Agilent Technologies 
Lightwave Division
1400 Fountaingrove Parkway
Santa Rosa, CA 95403-1799, 
USA
(707) 577-1400

Notice.

The information contained in 
this document is subject to 
change without notice. Com-
panies, names, and data used 
in examples herein are ficti-
tious unless otherwise noted. 
Agilent Technologies makes 
no warranty of any kind with 
regard to this material, includ-
ing but not limited to, the 
implied warranties of mer-
chantability and fitness for a 
particular purpose. Agilent 
Technologies shall not be lia-
ble for errors contained herein 
or for incidental or conse-
quential damages in connec-
tion with the furnishing, 
performance, or use of this 
material.

Restricted Rights Legend.

Use, duplication, or disclo-
sure by the U.S. Government 
is subject to restrictions as set 
forth in subparagraph (c) (1) 
(ii) of the Rights in Technical 
Data and Computer Software 
clause at DFARS 252.227-7013 
for DOD agencies, and sub-
paragraphs (c) (1) and (c) (2) 
of the Commercial Computer 
Software Restricted Rights 
clause at FAR 52.227-19 for 
other agencies.

Warranty.

This Agilent Technologies 
instrument product is war-
ranted against defects in 

material and workmanship for 
a period of one year from date 
of shipment. During the war-
ranty period, Agilent Technol-
ogies will, at its option, either 
repair or replace products 
which prove to be defective. 
For warranty service or repair, 
this product must be returned 
to a service facility desig-
nated by Agilent Technolo-
gies. Buyer shall prepay 
shipping charges to Agilent 
Technologies and Agilent 
Technologies shall pay ship-
ping charges to return the 
product to Buyer. However, 
Buyer shall pay all shipping 
charges, duties, and taxes for 
products returned to Agilent 
Technologies from another 
country.

Agilent Technologies war-
rants that its software and 
firmware designated by Agi-
lent Technologies for use with 
an instrument will execute its 
programming instructions 
when properly installed on 
that instrument. Agilent Tech-
nologies does not warrant that 
the operation of the instru-
ment, or software, or firmware 
will be uninterrupted or error-
free. 

Limitation of Warranty.

The foregoing warranty shall 
not apply to defects resulting 
from improper or inadequate 
maintenance by Buyer, Buyer-
supplied software or interfac-
ing, unauthorized modifica-
tion or misuse, operation 
outside of the environmental 
specifications for the product, 
or improper site preparation 
or maintenance.

No other warranty is 
expressed or implied. Agilent 
Technologies specifically dis-
claims the implied warranties 
of merchantability and fitness 
for a particular purpose.

Exclusive Remedies.

The remedies provided herein 
are buyer's sole and exclusive 
remedies. Agilent Technolo-

gies shall not be liable for any 
direct, indirect, special, inci-
dental, or consequential dam-
ages, whether based on 
contract, tort, or any other 
legal theory.

Safety Symbols.

CAUTION

The 

caution

 sign denotes a 

hazard. It calls attention to a 
procedure which, if not cor-
rectly performed or adhered 
to, could result in damage to 
or destruction of the product. 
Do not proceed beyond a cau-
tion sign until the indicated 
conditions are fully under-
stood and met.

WARNING

The 

warning

 sign denotes a 

hazard. It calls attention to a 
procedure which, if not cor-
rectly 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.

The instruction man-
ual symbol. The prod-
uct is marked with this 
warning symbol when 
it is necessary for the 
user to refer to the 
instructions in the 
manual.

The laser radiation 
symbol. This warning 
symbol is marked on 
products which have a 
laser output.

The AC symbol is used 
to indicate the 
required nature of the 
line module input 
power.

 

|

The ON symbols are 

used to mark the posi-
tions of the instrument 
power line switch.

 

The OFF symbols 

are used to mark the 
positions of the instru-
ment power line 
switch.

The CE mark is a reg-
istered trademark of 
the European Commu-
nity.

The CSA mark is a reg-
istered trademark of 
the Canadian Stan-
dards Association.

The C-Tick mark is a 
registered trademark 
of the Australian Spec-
trum Management 
Agency.

This text denotes the 
instrument is an 
Industrial Scientific 
and Medical Group 1 
Class A product.

Typographical Conven-
tions.

The following conventions are 
used in this book:

Key

 

type

 for keys or text 

located on the keyboard or 
instrument.

Softkey

 

type

 for key names that 

are displayed on the instru-
ment’s screen.

Display

 

type

 for words or 

characters displayed on the 
computer’s screen or instru-
ment’s display.

User

 

type

 for words or charac-

ters that you type or enter.

Emphasis

 type for words or 

characters that emphasize 
some point or that are used as 
place holders for text that you 
type.

ISM1-A

Содержание 83400 Series

Страница 1: ...nderutilized and idle equipment along with credit for buybacks and trade ins Custom engineering so your equipment works exactly as you specify Critical and expedited services Leasing Rentals Demos In stock Ready to ship TAR certified secure asset solutions Expert team I Trust guarantee I 100 satisfaction All trademarks brand names and brands appearing herein are the property of their respective ow...

Страница 2: ...Agilent 83400 Series Lightwave Source and Receiver Modules User s Guide ...

Страница 3: ...o defects resulting from improper or inadequate maintenance by Buyer Buyer supplied software or interfac ing unauthorized modifica tion or misuse operation outside of the environmental specifications for the product or improper site preparation or maintenance No other warranty is expressed or implied Agilent Technologies specifically dis claims the implied warranties of merchantability and fitness...

Страница 4: ...onnector Agilent 83400 series receivers The receivers are used to demodulate lightwave signals With no modulation signal lightwave receivers produce no electrical output If the optical power exceeds 3 mW the front panel OVER ILLUMINATION indicator lights Power must be decreased below 2 5 mW for the indicator to turn off Source Wavelength Unmodulated Output Power Modulation Range Optical Fiber Lase...

Страница 5: ...TICAL OUTPUT connec tor is no greater than 5 mW at a wavelength of 1550 nm No adjustments or maintenance are required to keep these products compli ant with their classification The IEC labels shown in the figure could not be affixed at the factory Instructions on page 1 5 explain how they are to be attached WAR N I N G Do NOT under any circumstances look into the optical output or any fiber devic...

Страница 6: ...v Laser Classification IEC and FDA labels and their placement on an Agilent 83402C ...

Страница 7: ... case parts Do not attempt to clean internally WAR N I N G This is a Safety Class 1 product provided with a protective earthing ground incorporated in the power cord The mains plug shall only be inserted in a socket outlet provided with a protective earth contact Any interruption of the protective conductor inside or outside of the product is likely to make the product dangerous Intentional interr...

Страница 8: ...must not be restricted The ambient temperature outside the cabinet must be less than the maximum operating temperature of the product by 4 C for every 100 watts dissipated in the cabinet If the total power dissipated in the cabinet is greater than 800 watts then forced convection must be used C AUT IO N Always use the three prong ac power cord supplied with this instrument Failure to ensure adequa...

Страница 9: ......

Страница 10: ...ating 2 2 Replaceable Parts 2 5 Front Panel Optical Adapters 2 6 Calibration Data Information 2 7 Cleaning Connections for Accurate Measurements 2 11 Theory of Operation 2 21 Returning the Instrument for Service 2 25 Agilent Technologies Service Offices 2 28 3 Specifications and Regulatory Information Specifications for Sources 3 3 Specifications for Receivers 3 7 Operating Specifications for Sour...

Страница 11: ......

Страница 12: ...a Receiver 1 8 Entering Calibration Data into an Agilent 8702D 1 9 To copy the data from the disk 1 10 To manually enter data from the label 1 10 Entering Calibration Data into an Agilent 8702A B 1 11 To install from the front panel 1 11 To install from an external disk drive 1 12 Getting Started ...

Страница 13: ... its own calibration data that describes its magnitude and phase modulation response Because no two sources or receivers are exactly alike the calibration data should not be used with any other source or receiver The calibration data is provided in three forms Coefficients printed on a label Data on a DOS formatted disk Data on a LIF formatted disk For more information about the calibration data r...

Страница 14: ... 60664 respectively Measurement accuracy it s up to you Fiber optic connectors are easily damaged when connected to dirty or damaged cables and accessories The Agilent 83400 series front panel optical connector is no excep tion When you use improper cleaning and handling techniques you risk expensive instrument repairs damaged cables and compromised measurements Before you connect any fiber optic ...

Страница 15: ... Agilent Technologies sales and service office Agilent Technologies will arrange for repair or replacement of damaged or incomplete shipments without waiting for a settlement from the transportation company Notify the Agilent Technologies customer engineer of any problems 2 Make sure that the serial number and options listed on the instrument s rear panel label match the serial number and options ...

Страница 16: ...ok into the optical output or any fiber device attached to the output while the laser is in operation 2 Connect a terminated fiber optic cable or device to the source s OPTICAL OUTPUT connector This protects the user from exposure to laser radiation See Figure 1 3 on page 1 7 3 Connect the DC cable supplied with the source between the source s rear panel DC IN connector and a PROBE POWER jack You ...

Страница 17: ...1 6 Getting Started Connecting a Source Figure 1 2 Location of laser safety labels ...

Страница 18: ...ave occurred The key switch is in the OFF position O The ambient temperature is out of the specified range 25 C 5 C The remote shutdown is open The power supply voltage s are out of spec 12 6 V 5 and 15 V 5 There is an internal malfunction of the unit contact Agilent Technologies for assistance These products cannot be serviced If service is required return the instru ment to Agilent Technologies ...

Страница 19: ...ll find PROBE POWER jacks on the following products Agilent 8702A B D lightwave component analyzer Agilent 11899A probe power supply 2 Locate the SMA RF cable supplied with the receiver 3 Use adapters to connect the SMA RF cable between the Agilent 8702 s RF port and the receiver s rear panel RF OUT connector 4 Connect a fiber optic cable or device to the receiver s OPTICAL INPUT connector ...

Страница 20: ... for example 50Ω load and thru connection Electrical standards are packaged together as calibration kits Provided with the device and must be loaded into the Agilent 8702 s memory For example the Agilent 83400 series lightwave sources and receivers are shipped with calibration data stored on a disk This disk must be placed into the instrument s front panel disk drive so that the data can be loaded...

Страница 21: ...y pressing the corresponding LOAD softkey To manually enter data from the label The following procedure is written specifically for entering source data If you are entering data for a receiver simply substitute the word RECEIVER for SOURCE and the word RCVR for SRC 1 Press CAL CAL KITS STDS SOURCE CAL STD SRC COEFF and then ENTER SRC COEFF 2 Press each softkey corresponding to the nine coefficient...

Страница 22: ... second procedure For more information on calibration data refer to Entering Calibration Data into an Agilent 8702D on page 1 9 To install from the front panel The following procedure is written specifically for entering source data If you are entering data for a receiver simply substitute the word RECEIVER for SOURCE and the word RCVR for SRC 1 On the Agilent 8702A B press PRESET CAL CAL KITS STD...

Страница 23: ...a tion data The following procedure is written specifically for entering source data If you are entering data for a receiver simply substitute the word RECEIVER for SOURCE and the word RCVR for SRC 1 Locate the LIF formatted calibration disk provided with the source 2 Place the disk in the disk drive 3 On the Agilent 8702A B press PRESET LOCAL SYSTEM CONTROLLER CAL CAL KITS STDS SOURCE COEFF CAL S...

Страница 24: ...le Parts 2 5 Calibration Data Information 2 7 Cleaning Connections for Accurate Measurements 2 11 Theory of Operation 2 21 Returning the Instrument for Service 2 25 Agilent Technologies Service Offices 2 28 General Information ...

Страница 25: ...ch is DC offset providing this offset does not exceed 20 volts DC If the environmental temperature rises above the safe operating range the laser source turns off and the front panel TEMP light turns on Refer to Oper ating Specifications for Sources and Receivers on page 3 13 for safe operating temperatures WAR N I N G Use of controls or adjustments or performance of procedures other than those sp...

Страница 26: ...OWN BNC connector must be shorted for the laser to operate When the BNC short is removed from the connector the accessible radiation does not exceed the AEL for FDA LASER Class IIIb IEC LASER Class 3B for the Agilent 83402C and FDA LASER Class I IEC LASER Class 1 for the Agilent 83403C according to IEC Publication CE IEC 821 1 1993 Use your own short switch or other circuitry to control the remote...

Страница 27: ... faces Refer to Replaceable Parts on page 2 5 for a figure which shows each available connector For Agilent 83411C D receivers use a single mode 9 µm optical fiber For Agilent 83410C and Agilent 83412B receivers use an 62 5 µm multimode optical fiber The AVG POWER connector provides an output voltage that is proportional to the average optical power into the receiver The OVER ILLUMINATION light tu...

Страница 28: ...adapters with their Agilent Technologies model numbers are shown in the following fig ure Table 2 1 Replaceable Parts for Sources and Receivers Description Agilent Part Number RF cable SMA 8120 5157 DC cable probe power 83400 60005 Cable clips 83400 20008 Laser shutter cover sources 08145 64521 Safety key sources 3100 1984 BNC short m for rear panel REMOTE SHUTDOWN connector sources 1250 0774 ...

Страница 29: ...ilent Part Number Diamond HMS 10 81000AI FC PCa a The FC PC adapter is the standard adapter supplied with the instrument 81000FI D4 81000GI SC 81000KI DIN 81000SI ST 81000VI Biconic 81000WI Dust Covers FC connector 1005 0594 Diamond HMS 10 connector 1005 0593 DIN connector 1005 0595 ST connector 1005 0596 SC connector 1005 0597 ...

Страница 30: ...re supplied with sources and receivers Data points supplied on a 3 5 inch disk For Agilent 8702A B instruments a LIF formatted disk is provided It contains data for 101 points For Agilent 8702D instruments a DOS formatted disk is provided This disk contains data for 202 data points 9 coefficients supplied on the source or receiver itself Both of these items represent the modulation transfer charac...

Страница 31: ...tion the disk drive must be an HP CS80 disk drive such as an HP 9122C D dual sided model Refer to the computer s User s Guide for instructions on how to make back up copies or copy files How labeled coefficients are used The labeled coefficient data consists of nine coefficients that are used in a polynomial curve to describe the magnitude and phase modulation response of the source or receiver Th...

Страница 32: ...ber M indicates multimode fiber D indicates diode only 2nd Indicates the modulation frequency range 1 means up to 3 GHz 2 means up to 6 GHz 3rd Indicates the wavelength 3 means 1300 nm 5 means 1550 nm 8 means 850 nm 4th thru 8th These remaining 5 digits are the specific calibration data number for your source or receiver This number is not the same as the instrument s serial number 9th thru 10th C...

Страница 33: ...e coefficients are scaled as shown in the following table Although the coefficients are scaled as shown in the table enter them exactly as listed on the label Table 2 2 Coefficient Scaling in Equation Coefficient Scale Factor Coefficient Scale Factor B 10 9 F 10 39 C 10 30 G 10 30 D 10 21 H 10 21 E 10 12 I 10 12 responsivity ω Ae jωB C jω 3 D jω 2 E jω 1 F jω 4 G jω 3 H jω 2 I jω 1 ω 2π frequency ...

Страница 34: ...ly in the mechanical assembly that holds the ferrule in position against another identical ferrule Connectors also vary in the polish curve and concentricity of the core within the cladding Mating one style of cable to another requires an adapter Agilent Technologies offers adapters for most instruments to allow testing with many different cables Figure 2 4 on page 2 12 shows the basic components ...

Страница 35: ...epresents a good compromise between performance reli ability and cost If properly maintained and cleaned this connector can withstand many repeated connections However many instrument specifications require tighter tolerances than most connectors including the FC PC style can deliver These instruments cannot tolerate connectors with the large non concentricities of the fiber common with ceramic st...

Страница 36: ...ection of the Diamond HMS 10 connector The nickel silver allows an active centering process that permits the glass fiber to be moved to the desired position This process first stakes the soft nickel silver to fix the fiber in a near center location then uses a post active staking to shift the fiber into the desired position within 0 2 µm This process plus the keyed axis allows very precise core to...

Страница 37: ...he end of the fiber any stray particles or finger oil can have a significant effect on connector performance Where many repeat connections are required use of a connector saver or patch cable is recommended Figure 2 7 shows the end of a clean fiber optic cable The dark circle in the center of the micrograph is the fiber s 125 µm core and cladding which carries the light The surrounding area is the...

Страница 38: ...hieve the best possible performance when making measurements on a fiber optic system Never use metal or sharp objects to clean a connector and never scrape the connector Avoid matching gel and oils Figure 2 7 Clean problem free fiber end and ferrule Figure 2 8 Dirty fiber end and ferrule from poor cleaning ...

Страница 39: ...ber optic cable into a connector gently insert it in as straight a line as possible Tipping and inserting at an angle can scrape material off the inside of the connector or even break the inside sleeve of connectors made with ceramic material When inserting a fiber optic connector into a connector make sure that the fi ber end does not touch the outside of the mating connector or adapter Avoid ove...

Страница 40: ...performance they can be used to determine connector degradation A smooth polished fiber end should pro duce a good return loss measurement The quality of the polish establishes the difference between the PC physical contact and the Super PC con nectors Most connectors today are physical contact which make glass to glass connections therefore it is critical that the area around the glass core be cl...

Страница 41: ...nnectors The procedures in this section provide the proper steps for cleaning fiber optic cables and Agilent Technologies universal adapters The initial cleaning using the alcohol as a solvent gently removes any grit and oil If a caked on layer of material is still present this can happen if the beryllium copper sides of the ferrule retainer get scraped and deposited on the end of the fiber during...

Страница 42: ...w clean lint free cotton swab or lens paper 4 Clean the fiber end with the swab or lens paper Do not scrub during this initial cleaning because grit can be caught in the swab and become a gouging element 5 Immediately dry the fiber end with a clean dry lint free cotton swab or lens paper 6 Blow across the connector end face from a distance of 6 to 8 inches using filtered dry compressed air Aim the...

Страница 43: ... adapters allow you to connect the instrument to different types of fiber optic cables Figure 2 10 Universal adapters 1 Apply isopropyl alcohol to a clean foam swab Cotton swabs can be used as long as no cotton fibers remain after cleaning The foam swabs listed in this section s introduction are small enough to fit into adapters Although foam swabs can leave filmy deposits these deposits are very ...

Страница 44: ... a thermal electric cooler to keep the laser at a steady ambient temperature If the temperature of the laser deviates from the present temperature by more than 5 degrees the thermal control circuit sends a signal to the level control circuit which then shuts down the laser When this happens the TEMP LED on the front panel goes on The source also has a remote shut down connector BNC short that when...

Страница 45: ...1C D receivers 62 5 µm for the Agilent 83410C and 83412B receivers that is terminated into a graded index lens The design provides good environmental sealing and allows a low loss and low reflection signal coupling to the diode The PIN diode has high linearity wide bandwidth and low dark current Notice that it is directly coupled into the first amplifier stage This physically small low impedance c...

Страница 46: ...steresis function on the DC board monitors the output of the active bias current and uses the signal to light the OVER ILLUMINATION LED if the average optical input power exceeds 3 5 mW If the input power continues to increase the receiver goes into an unspecified state and measurement data will be invalid If average power exceeds 5 mW permanent damage could result Figure 2 12 Agilent 83411C D blo...

Страница 47: ...2 24 General Information Theory of Operation Figure 2 13 Agilent 83410C and 83412B block diagram ...

Страница 48: ...intenance contract it will be repaired under the terms of the warranty or contract the warranty is at the front of this manual If the instrument is no longer under warranty or is not covered by an Agilent Technologies mainte nance plan Agilent Technologies will notify you of the cost of the repair after examining the unit When an instrument is returned to a Agilent Technologies service office for ...

Страница 49: ... IO N Instrument damage can result from using packaging materials other than the original materials Never use styrene pellets as packaging material They do not adequately cushion the instrument or prevent it from shifting in the carton They may also cause instrument damage by generating static electricity 3 Pack the instrument in the original shipping containers Original materials are available th...

Страница 50: ...et filled with air bubbles Use the pink antistatic Air Cap to reduce static electricity Wrapping the instrument several times in this ma terial will protect the instrument and prevent it from moving in the carton 4 Seal the carton with strong nylon adhesive tape 5 Mark the carton FRAGILE HANDLE WITH CARE 6 Retain copies of all shipping papers ...

Страница 51: ...umbers listed below Agilent Technologies Service Numbers Austria 01 25125 7171 Belgium 32 2 778 37 71 Brazil 11 7297 8600 China 86 10 6261 3819 Denmark 45 99 12 88 Finland 358 10 855 2360 France 01 69 82 66 66 Germany 0180 524 6330 India 080 34 35788 Italy 39 02 9212 2701 Ireland 01 615 8222 Japan 81 426 56 7832 Korea 82 2 3770 0419 Mexico 5 258 4826 Netherlands 020 547 6463 Norway 22 73 57 59 Rus...

Страница 52: ...3 Specifications for Sources 3 3 Specifications for Receivers 3 7 Operating Specifications for Sources and Receivers 3 13 Regulatory Information 3 14 Specifications and Regulatory Information ...

Страница 53: ...f continu ous operation and that the optical connector adapter used is an HMS 10 Dia mond Specifications Specifications describe warranted performance Characteristics Characteristics provide useful but nonwarranted information about the functions and performance of the instrument Characteristics are printed in italics Calibration cycle Agilent Technologies warrants instrument specifications over t...

Страница 54: ...W Optical Port Match return loss c characteristics 35 0 dBo 35 0 dBo MODULATION RF Input Power maximum characteristics 11 dBm 11 dBm DC into RF Port maximum 20 V 20 V Electrical Input Port Match return loss d 11 dB 11 dB Modulation Frequency Response a 300 kHz to 6 GHz Corrected disk Corrected polynomial characteristic Uncorrected characteristic 0 5 dBe 1 5 dBe 0 2 4 8 dBe 0 5 dBe 1 5 dBe 0 2 4 8 ...

Страница 55: ...ccording to 21 CFR 1040 10 IEC Laser Class 1 according to IEC 60825 a Factory test system b No intensity modulation applied c Measured with Agilent 8153A and Agilent 81534A return loss module d Measured on Agilent 8703 from 130 MHz to 6 GHz e Measured with 10 dBm RF input power 0 01 to 6 GHz f Changes linearly from 25 dBc at 1 GHz to 8 dBc at 3 GHz g To a Fresnel reflection using a 9 1 optical cou...

Страница 56: ...3 5 Specifications and Regulatory Information Specifications for Sources Agilent 83402C Modulation frequency response characteristic Agilent 83402C Electrical input port return loss characteristic ...

Страница 57: ...3 6 Specifications and Regulatory Information Specifications for Sources Agilent 83403C Modulation frequency response characteristic Agilent 83403C Electrical input port return loss characteristic ...

Страница 58: ... characteristic 30 dB 30 dB 30 dB 30 dB Maximum Average Optical Input Power 5 mW 5 mW 5 mW 5 mW Responsivity characteristic 850 nm 1300 nm and 1550 nm 1300 nm 1550 nm 20 dB 10 A W 7 dB 0 45 A W 8 dB 0 40 A W 17 0 dB 7 0 A W 16 0 dB 6 3 A W 16 5 dB 6 5 A W ELECTRICAL PORT Electrical Input Port Match return loss 300 kHz to 3 GHz 300 kHz to 6 GHz 13 dB 13 dB 9 0 dB 13 dB DC into RF Port maximum 20 V ...

Страница 59: ...z 2 GHz to 3 GHz 300 kHz to 6 GHz 1 5 dBe c 1 5 dBe c 1 5 dBe c 1 5 dBe c 2 5 dBe 1 5 dBe Uncorrected characteristic 300 kHz to 2 GHz 2 GHz to 3 GHz 300 kHz to 6 GHz 3 0 dBe c 3 0 12 0 dBe c 2 0 3 0 dBe c 3 0 dBe c 3 0 dBe 3 0 13 0 dBe Harmonic Distortion with 5 dBm output power characteristic 300 kHz to 3 GHz 300 kHz to 6 GHz 25 dBc 25 dBc 25 dBc 25 dBc Compression Level characteristic 1 dB elect...

Страница 60: ...3 9 Specifications and Regulatory Information Specifications for Receivers Agilent 83410C Demodulation frequency response characteristic Agilent 83410C Electrical output port return loss characteristic ...

Страница 61: ...3 10 Specifications and Regulatory Information Specifications for Receivers Agilent 83411C Demodulation frequency response characteristic Agilent 83411C Electrical output port return loss characteristic ...

Страница 62: ...3 11 Specifications and Regulatory Information Specifications for Receivers Agilent 83411D Demodulation frequency response characteristic Agilent 83411D Electrical output port return loss characteristic ...

Страница 63: ...3 12 Specifications and Regulatory Information Specifications for Receivers Agilent 83412B Demodulation frequency response characteristic Agilent 83412B Electrical output port return loss characteristic ...

Страница 64: ...er input 12 6 V 5 15 V 5 Temperature Limits Operating a Non operating a This temperature range describes the operating limits of the instrument Specifications and characteristics apply over the reduced temperature range as described on page 3 2 0 C to 55 C 40 to 55 C Maximum relative humidity 95 Weight 1 5 kg 3 3 lb Dimensions H x W x D 8 5 x 8 5 x 23 cm 3 3 x 3 3 x 9 1 in ...

Страница 65: ...993 The products described in this manual are designed for use in INSTALLATION CATEGORY II and POLLUTION DEGREE 2 per IEC 61010 and 60664 respec tively Notice for Germany Noise Declaration This is to declare that this instrument is in conformance with the German Reg ulation on Noise Declaration for Machines Laermangabe nach der Maschinen laermverordnumg 3 GSGV Deutschland Acoustic Noise Emission G...

Страница 66: ...3 15 Specifications and Regulatory Information Regulatory Information Declaration of conformity sources ...

Страница 67: ...3 16 Specifications and Regulatory Information Regulatory Information Declaration of conformity receivers ...

Страница 68: ...1 Center Wavelength and Spectral Width 4 4 2 Average Output Power 4 5 3 Electrical Input Port Match 4 6 Tests for Receivers 4 7 1 Demodulation Frequency Response 4 7 2 RF Port Match 4 7 3 Dynamic Accuracy 4 8 Performance Tests ...

Страница 69: ...ors Be sure that all optical connections are clean Refer to Cleaning Connections for Accurate Measurements on page 2 11 Allow the source or receiver to warm up for 1 hour before doing any of the per formance tests WAR N I N G Do NOT under any circumstances look into the optical output or any fiber device attached to the output while the laser is in operation Calibration cycle Agilent Technologies ...

Страница 70: ... D 83412B Optical Spectrum Analyzer 71450 series Polarization Controller 11896A Lightwave Component Analyzer 8702 8702 Option 006 APC 7 mm to 3 5 mm Adapter Lightwave Power Meter 8153A Optical Attenuator 8156A Lightwave Source 1300 nm 1550 nm 850 nm 83400 2 83403 83404 Reference Receivera a Characterized using a dual heterodyne YAG system available only at the factory ...

Страница 71: ...matically characterizes DFB lasers Do not modulate the source during this procedure 1 Connect the equipment as shown in Figure 4 1 Figure 4 1 Center wavelength and spectral width test setup 2 Turn on the Agilent 83400 series source and the optical spectrum analyzer and allow them to warm up for 1 hour 3 Connect the output of the source to the optical spectrum analyzer s input using a 9 µm fiber op...

Страница 72: ... this procedure 1 Connect the equipment as shown in Figure 4 2 Figure 4 2 Average output power test setup 2 Turn on the Agilent 83400 series source and an optical power meter and allow them to warm up for 1 hour 3 Calibrate the optical power meter and then measure the output power of the source Compare the measured value to the specified power level listed in Chapter 3 Specifications and Regulator...

Страница 73: ... to electrical response test Use the following settings Start frequency 300 kHz Stop frequency Agilent 83403C 3 GHz Stop frequency Agilent 83402C 6 GHz Stimulus power 10 dBm IF bandwidth 100 Hz 4 The guided setup routine will step you through an S11 1 port electrical calibration 5 Place the Agilent 8702D in single sweep mode and use the marker functions to locate the peak of the response 6 Compare...

Страница 74: ...nce receiver that is calibrated using a dual hetrodyne YAG system Since these ref erence receivers are not commercially available your instrument must be returned to the factory to verify this specification 2 RF Port Match 1 Connect the equipment as shown in Figure 4 4 Figure 4 4 RF port match test setup 2 Turn on the equipment and allow them to warm up for 1 hour ...

Страница 75: ...ions and Regulatory Information 3 Dynamic Accuracy Dynamic accuracy is not a specified performance parameter However this procedure is provided for comparison with the characteristic value 1 Connect the system as shown in Figure 4 5 2 Turn on the equipment and allow them to warm up for 1 hour 3 Set the Agilent 8702D to the following settings Start frequency 300 kHz Stop frequency 3 GHz Stimulus po...

Страница 76: ...the optical attenuator in 10 dB increments starting at 0 dB At each step adjust the Agilent 8702D s reference level as shown in the following list 0 dB level ref level 20 dB 10 dB optical attenuation ref level 0 dB 20 dB optical attenuation ref level 20 dB 30 dB optical attenuation ref level 40 dB 40 dB optical attenuation ref level 60 dB 1300 nm wavelength only Determine the maximum difference be...

Страница 77: ...D Repeat the procedure using a start frequency of 3 GHz and a stop frequency of 6 GHz Insert a polarization controller between the lightwave source and the optical attenuator as shown in Figure 4 6 Figure 4 6 Dynamic accuracy test setup for 6 GHz modulation frequency range ...

Страница 78: ...g a receiver 1 8 connecting a source 1 5 connector care 2 11 cotton swabs 2 18 D damaged shipment 1 4 data label 2 9 DC cable 2 5 DC IN connector 2 21 DC power input voltage 3 13 declaration of conformity 3 15 3 16 demodulation frequency response 3 8 test procedure 4 7 DFB lasers 4 4 dimensions of instrument 3 13 disk back up data 2 8 DOS formatted disk 2 7 dual hetrodyne YAG system 4 7 dust caps ...

Страница 79: ...idity 3 13 measurement accuracy 1 3 modulation distortion 3 3 frequency response 3 3 N noise declaration 3 14 non operating temperature 3 13 O operating a receiver 1 8 a source 1 5 temperature 3 13 optical cable 4 2 OPTICAL INPUT connector 1 8 OPTICAL OUT connector 1 5 optical port match 3 3 receivers 3 7 output noise 3 8 power 3 8 power test 4 5 OVER ILLUMINATION LED iii 2 23 P packaging for ship...

Страница 80: ...ication vi laser label 1 5 sales and service offices 2 28 scaling coefficients 2 10 serial number of instrument 1 4 service 2 25 returning for 2 25 sales and service offices 2 28 shipping damage 1 4 procedure 2 25 size of instrument 3 13 source characteristics 3 3 connecting and operating 1 5 declaration of conformity 3 15 front and rear panel 2 3 performance tests 4 4 replaceable parts 2 5 specif...

Страница 81: ...Index 4 Index width spectral procedure 4 4 Y YAG system dual hetrodyne 4 7 ...

Страница 82: ...quipment Have surplus equipment taking up shelf space We ll give it a new home Learn more Visit us at artisantg com for more info on price quotes drivers technical specifications manuals and documentation Artisan Scientific Corporation dba Artisan Technology Group is not an affiliate representative or authorized distributor for any manufacturer listed herein We re here to make your life easier How...

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