Tektronix TV Cables OA 5000 User Manual

User Manual  
OA 5000 Series  
Optical Attenuators  
070-7612-06  
www.tektronix.com  
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WARRANTY  
Tektronix warrants that the products that it manufactures and sells will be free from defects in materials and  
workmanship for a period of one (1) year from the date of shipment. If a product proves defective during this  
warranty period, Tektronix, at its option, either will repair the defective product without charge for parts and labor,  
or will provide a replacement in exchange for the defective product.  
In order to obtain service under this warranty, Customer must notify Tektronix of the defect before the expiration  
of the warranty period and make suitable arrangements for the performance of service. Customer shall be  
responsible for packaging and shipping the defective product to the service center designated by Tektronix, with  
shipping charges prepaid. Tektronix shall pay for the return of the product to Customer if the shipment is to a  
location within the country in which the Tektronix service center is located. Customer shall be responsible for  
paying all shipping charges, duties, taxes, and any other charges for products returned to any other locations.  
This warranty shall not apply to any defect, failure or damage caused by improper use or improper or inadequate  
maintenance and care. Tektronix shall not be obligated to furnish service under this warranty a) to repair damage  
resulting from attempts by personnel other than Tektronix representatives to install, repair or service the product;  
b) to repair damage resulting from improper use or connection to incompatible equipment; c) to repair any  
damage or malfunction caused by the use of non-Tektronix supplies; or d) to service a product that has been  
modified or integrated with other products when the effect of such modification or integration increases the time  
or difficulty of servicing the product.  
THIS WARRANTY IS GIVEN BY TEKTRONIX IN LIEU OF ANY OTHER WARRANTIES, EXPRESS  
OR IMPLIED. TEKTRONIX AND ITS VENDORS DISCLAIM ANY IMPLIED WARRANTIES OF  
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. TEKTRONIX’  
RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE AND  
EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY.  
TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT, SPECIAL,  
INCIDENTAL, OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR  
THE VENDOR HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.  
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EC Declaration of Conformity  
We  
Tektronix UK Ltd.  
The Arena  
Downshire Way  
Bracknell, RG12 1PU  
declare under sole responsibility that the  
OA5000 Series Optical Attenuators  
OA5002, OA5012, OA5022, and OA5032  
Including the OCP5502 Power Module  
meet the intent of Directive 89/336/EEC for Electromagnetic Compatibility and  
Low Voltage Directive 73/23/EEC for Product Safety.  
Compliance was demonstrated to the following specifications as listed in the Official  
Journal of the European Communities:  
EMC Directive 89/336/EEC:  
EN 61326  
EMC requirements for Class A electrical equipment for  
measurement, control, and laboratory use  
IEC 61000--4--2 Electrostatic Discharge Immunity  
(Performance Criterion B)  
IEC 61000--4--2 RF Electromagnetic Field Immunity  
(Performance Criterion A)  
IEC 61000--4--2 Electrical Fast Transient / Burst Immunity  
(Performance Criterion B)  
IEC 61000--4--2 Power Line Surge Immunity  
(Performance Criterion B)  
IEC 61000--4--2 RF Conducted Immunity  
(Performance Criterion A)  
IEC 61000--4--2 Power Line Voltage Fluctuation Immunity  
(Performance Criterion B)  
EN 61000--3--2  
AC Power Line Harmonic Emissions  
This product meets the essential requirements in Annes 1 of the  
Low Voltage Directive 73/23/EEC, amended by 93/68/EEC:  
EN 61010--1/A1  
Safety requirements for electrical equipment for  
measurement, control, and laboratory use  
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Welcome  
Congratulations on your purchase of an OA 5000 Series Optical Attenuator.  
The OA 5000 Series Optical Attenuators are high-performance instruments  
used to attenuate optical signals. The OA 5000 Series consists of four instru-  
ments, the OA 5002, OA 5012, OA 5022, and OA 5032. The major difference  
between the models is the optical fiber connection. The OA 5002 is used  
with single-mode fiber; the OA 5012, with 50 m multimode fiber; the  
OA 5022, with 62.5 m multimode fiber; and the OA 5032, with 100 m fiber.  
Some of the outstanding characteristics of the OA 5000 Series are:  
H
Attenuation to 60 dB — the OA 5000 can attenuate signals up to 60 dB  
in steps of 0.01 dB. A shutter provides greater than 100 dB attenuation  
for the OA 5002, OA 5012, and OA 5022. The shutter provides greater  
than 90 dB attenuation for the OA 5032.  
H
H
H
600 nm to 1700 nm calibrated spectral response in one unit.  
Linear response within 0.05 dB.  
Ability to store attenuation levels, which is useful for repeat measure-  
ments.  
H
H
GPIB Programmable — the OA 5000 Series conforms to IEEE Std 488.2.  
Models for both Single and Multimode Fiber.  
OA 5000 Series User Manual  
i
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ii  
Welcome  
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Contents  
Welcome . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
i
iii  
Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
List of Figures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
List of Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
vii  
viii  
ix  
A Quick Tour  
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Removing the OA 5000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1-1  
1-2  
A Quick Tour . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Preset the OA 5000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Storing and Recalling Settings . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting a Reference Value . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1-3  
1-3  
1-4  
1-5  
User Reference  
Operator Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
The User Reference Section . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2-1  
2-1  
Enabling/Disabling Attenuation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2-3  
Setting Attenuation Levels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Specifying the Wavelength . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting the Attenuation Level . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Setting the Attenuation Level to Minimum . . . . . . . . . . . . . . . . .  
2-5  
2-5  
2-6  
2-7  
Setting the GPIB Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2-9  
Setting the Reference Level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Measuring Insertion Loss . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Approximating Signal Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2-11  
2-12  
2-13  
Storing and Recalling  
Attenuation Levels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2-15  
OA 5000 Series User Manual  
iii  
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Programming  
Setting Up the Instrument . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3-1  
Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Using the GPIB Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3-1  
3-1  
Command Syntax . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Clearing the OA 5000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Command and Query Structure . . . . . . . . . . . . . . . . . . . . . . . . . .  
Command Entry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Argument Types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Syntax Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3-5  
3-5  
3-6  
3-8  
3-10  
3-11  
Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3-13  
Common Commands and Queries . . . . . . . . . . . . . . . . . . . . . . . .  
Device Commands and Queries . . . . . . . . . . . . . . . . . . . . . . . . . .  
ADJusting? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
ALLev? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
ATTenuation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
BLRN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*CAL? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*CLS (No Query Form) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
DESE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
DISable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
DISPlay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*ESE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*ESR? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
EVEnt? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
EVMSG? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
EVQty? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
FACTORY (No Query Form) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
HEADer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*IDN? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*LRN? or SET? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*OPC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*PSC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
RECall (No Query Form) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
REFerence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*RST (No Query Form) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*SRE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*STB? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
STORe (Store Attenuation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*TST? (Query Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
VERBOSE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
*WAI (No Query Form) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
WAVelength . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3-13  
3-14  
3-15  
3-15  
3-16  
3-17  
3-18  
3-18  
3-19  
3-20  
3-20  
3-21  
3-22  
3-22  
3-23  
3-23  
3-24  
3-25  
3-26  
3-26  
3-27  
3-27  
3-28  
3-29  
3-29  
3-30  
3-31  
3-31  
3-32  
3-33  
3-34  
3-34  
iv  
Welcome  
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Status and Events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3-35  
Registers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Queues . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Event Handling Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Conflicts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3-35  
3-39  
3-39  
3-40  
3-41  
Appendices  
Appendix A: Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Standard Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Optional Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
A-1  
A-1  
A-1  
Appendix B: Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
A-3  
Appendix C: Interface Specifications . . . . . . . . . . . . . . . . . . . . . . . . .  
Interface Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Character Set (ASCII Chart) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
GPIB Function Subsets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
A-7  
A-7  
A-8  
A-9  
Appendix D: Using the *OPC Query/Command . . . . . . . . . . . . . . . .  
Appendix E: Packing for Shipment . . . . . . . . . . . . . . . . . . . . . . . . . . .  
A-11  
A-13  
Appendix F: Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Cleaning the Optical Ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Changing the Optical Port Connectors . . . . . . . . . . . . . . . . . . . .  
A-15  
A-15  
A-17  
Appendix G: Product Verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
A-21  
Equipment List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Power Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Display Modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
GPIB Address Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Attenuation Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Shutter Attenuation and the DISABLE button . . . . . . . . . . . . . .  
A-21  
A-22  
A-23  
A-24  
A-24  
A-25  
1310 nm: Insertion Loss, Attenuation Accuracy, and  
Repeatability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
A-26  
A-28  
A-29  
1550 nm: Insertion Loss, Attenuation Accuracy, and  
Repeatability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
850 nm (except A5002): Insertion Loss, Attenuation  
Accuracy, and Repeatability . . . . . . . . . . . . . . . . . . . . . . . . . .  
Appendix H: Replaceable Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Parts Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Using the Replaceable Parts List . . . . . . . . . . . . . . . . . . . . . . . . .  
A-31  
A-31  
A-31  
OA 5000 Series User Manual  
v
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Index  
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
I-1  
vi  
Welcome  
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List of Figures  
Figure 1-1: Installing the OA 5000 into the Power Module . . . . . . . . .  
1-2  
1-4  
Figure 1-2: OA 5002 Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Figure 2-1: OA 5002 Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Figure 2-2: The Location of the DISABLE Button . . . . . . . . . . . . . . . .  
Figure 2-3: Setting Attenuation Levels . . . . . . . . . . . . . . . . . . . . . . . . . .  
Figure 2-4: The Location of the ADDR (SET) Button . . . . . . . . . . . . . .  
Figure 2-5: The Location of the SET REF Button . . . . . . . . . . . . . . . . .  
Figure 2-6: The Location of the STORE and RECALL Buttons . . . . .  
Figure 3-1: GPIB Connector Location . . . . . . . . . . . . . . . . . . . . . . . . . .  
Figure 3-2: Typical GPIB Network Configurations . . . . . . . . . . . . . . . .  
Figure 3-3: Command Message Elements . . . . . . . . . . . . . . . . . . . . . .  
Figure 3-4: Block Argument Example . . . . . . . . . . . . . . . . . . . . . . . . . .  
Figure 3-5: Typical Syntax Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Figure 3-6: The Standard Event Status Register (SESR) . . . . . . . . . .  
Figure 3-7: The Status Byte Register (SBR) . . . . . . . . . . . . . . . . . . . . .  
Figure 3-8: The Device Event Status Enable Register (DESER) . . . .  
Figure 3-9: The Event Status Enable Register (ESER) . . . . . . . . . . . .  
Figure 3-10: The Service Request Enable Register (SRER) . . . . . . .  
Figure 3-11: Status and Event Handling Process . . . . . . . . . . . . . . . .  
Figure A-1: Removing the Optical Bulkhead Connector . . . . . . . . . .  
Figure A-2: FC Optical Bulkhead Assembly . . . . . . . . . . . . . . . . . . . . .  
Figure A-3: ST Optical Bulkhead Assembly . . . . . . . . . . . . . . . . . . . . .  
Figure A-4: DIN 47256 Optical Bulkhead Assembly . . . . . . . . . . . . . .  
Figure A-5: SC Optical Bulkhead Assembly . . . . . . . . . . . . . . . . . . . . .  
Figure A-6: OA 5000 Replaceable Parts . . . . . . . . . . . . . . . . . . . . . . . .  
2-2  
2-3  
2-5  
2-9  
2-11  
2-15  
3-2  
3-2  
3-6  
3-10  
3-11  
3-35  
3-36  
3-37  
3-38  
3-38  
3-40  
A-16  
A-17  
A-18  
A-18  
A-19  
A-33  
OA 5000 Series User Manual  
vii  
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List of Tables  
Table 3-1: BNF Symbols and Meanings . . . . . . . . . . . . . . . . . . . . . . . .  
3-5  
3-6  
3-7  
Table 3-2: Command Message Elements . . . . . . . . . . . . . . . . . . . . . .  
Table 3-3: Comparison of Header On and Off Responses . . . . . . . . .  
Table 3-4: Commands Common to All GPIB Devices and  
Supported by the OA 5000 Series . . . . . . . . . . . . . . . . . . . . . . . . .  
3-13  
3-14  
3-24  
3-32  
3-36  
3-37  
3-41  
3-41  
3-42  
3-43  
3-43  
3-43  
A-3  
Table 3-5: OA 5000 Device Commands and Parameters . . . . . . . . .  
Table 3-6: FACTORY Front Panel Settings . . . . . . . . . . . . . . . . . . . . . .  
Table 3-7: Results from *TST? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table 3-8: SESR Bit Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table 3-9: SBR Bit Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table 3-10: No Event Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table 3-11: Command Error Messages CME Bit 5 . . . . . . . . . . . .  
Table 3-12: Execution Error Messages EXE Bit 4 . . . . . . . . . . . . .  
Table 3-13: Device Error Messages DDE Bit 3 . . . . . . . . . . . . . . . .  
Table 3-14: System Event Messages QYE Bit 2 . . . . . . . . . . . . . . .  
Table 3-15: Execution Warning Messages EXE Bit 4 . . . . . . . . . .  
Table A-1: Optical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table A-2: Mechanical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table A-3: Environmental Performance . . . . . . . . . . . . . . . . . . . . . . . .  
Table A-4: OA 5000 Standard Interface Messages . . . . . . . . . . . . . .  
Table A-5: The ASCII Character Set . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table 4-1: Equipment Required for Performance Verification . . . . . .  
Table 4-2: Attenuation Accuracy at 1310 nm . . . . . . . . . . . . . . . . . . . .  
Table 4-3: Attenuation Accuracy at 1550 nm . . . . . . . . . . . . . . . . . . . .  
Table 4-4: Attenuation Accuracy at 850 nm . . . . . . . . . . . . . . . . . . . . .  
A-4  
A-4  
A-7  
A-8  
A-21  
A-27  
A-29  
A-30  
viii  
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Safety  
You might be eager to begin using your OA 5000, but please take a moment  
to review these safety precautions. They are provided for your protection  
and to prevent damage to the Optical Attenuator. This safety information  
applies to all operators and service personnel.  
These two terms appear in manuals:  
Symbols and Terms  
H
H
statements identify conditions or practices that could result in  
damage to the equipment or other property.  
statements identify conditions or practices that could result in  
personal injury or loss of life.  
These two terms appear on equipment:  
H
CAUTION indicates a personal injury hazard not immediately accessible  
as one reads the marking, or a hazard to property including the equip-  
ment itself.  
H
DANGER indicates a personal injury hazard immediately accessible as  
one reads the marking.  
This symbol appears in manuals:  
Static-Sensitive Devices  
These symbols appear on equipment:  
DANGER  
Protective  
ATTENTION  
Refer to  
High Voltage  
ground (earth)  
terminal  
manual  
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Observe all of these precautions to ensure your personal safety and to  
prevent damage to either the OA 5000 or equipment connected to it.  
Specific Precautions  
Optical Output  
WARNING  
To prevent damage to your eyes, avoid looking into the optical  
output port while there is an optical signal connected to the input  
port. Even if the OA 5000 is switched off, light can pass through the  
attenuator. Always attach the output port to a receiver before attach-  
ing the source signal to the input port.  
Power Source  
The OA 5000 is designed for operation in a Tektronix TM 5000 Series Power  
Module or the right-hand slot of an Tektronix OCP 5502. To ensure safe  
operation, follow all precautions listed in the instruments Operators Manual.  
Do not attempt to operate the OA 5000 with any other power source.  
Grounding the Optical Attenuator  
The OA 5000 is grounded through the power module. To avoid electric  
shock, plug the power module power cord into a properly wired receptacle  
where earth ground has been verified by a qualified service person.  
Without the protective ground connection, all parts of the OA 5000 are  
potential shock hazards. This includes knobs and controls that may appear  
to be insulators.  
Use the Proper Power Cord  
Use only the power cord and connector specified for your TM 5000 Series  
Power Module. Use only a power cord that is in good condition.  
Use the Proper Fuse  
To avoid fire hazard, use only the fuse specified in the parts list for your  
TM 5000 Series Power Module, and which is identical in type, voltage rating,  
and current rating.  
Do Not Remove Covers or Panels  
To avoid personal injury, do not operate the OA 5000 or TM 5000 Series  
Power Module without the panels or covers.  
x
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Do Not Operate in Explosive Atmospheres  
The OA 5000 provides no explosion protection from static discharges or  
arcing components. Do not operate the OA 5000 in an atmosphere of explo-  
sive gasses.  
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xii  
Safety  
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A Quick Tour  
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Installation  
The OA 5000 Optical Attenuator is designed to operate in a Tektronix  
TM 5000 Series Power Module or the right-hand slot of a Tektronix  
OCP 5502. To ensure safe operation, follow all precautions listed in the  
Power Modules Operator Manual. Do not attempt to operate the OA 5000  
with any other power source.  
Install the OA 5000 as follows:  
Step 1: Plug the TM 5000 Power Module or OCP 5502 into an appropri-  
ate AC power source.  
CAUTION  
To prevent possible instrument damage, make sure the power  
module is turned off before inserting the OA 5000.  
Step 2: After ensuring the power module is turned off, align the top and  
bottom grooves of the OA 5000 with the rails of the power module (in  
the right-hand slot of the OCP 5502) and slide the OA 5000 in until the  
edge connector snaps into place. See Figure 1-1. The OA 5000 front  
panel should be flush with the power module cabinet.  
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Installation  
OA 5000  
TM 5000 Series  
Power Module  
Release Lever  
Figure 1-1: Installing the OA 5000 into the Power Module  
If you will be programming the OA 5000 over the GPIB, perform the following  
additional step:  
Step 3: Attach the GPIB cable from your instrument controller to the  
GPIB connector located on the back of the TM 5000 Power Module.  
Before removing the OA 5000 from the power module, turn the power mod-  
ule off.  
Removing the  
OA 5000  
To remove the OA 5000 plug-in, grab the release lever and pull the instru-  
ment out.  
1 --- 2  
A Quick Tour  
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A Quick Tour  
This section provides a brief overview of the OA 5000 Optical Attenuator. The  
overview illustrates how easy it is to learn about and use the OA 5000.  
You can read this section or you can choose to investigate the OA 5000 on  
your own. If you decide not to read the overview, refer to the User Reference  
section to answer any questions you may have. User Reference also de-  
scribes details and features not covered in this section.  
In this section you will set up the OA 5000 and change various settings to  
show get a feel for how the OA 5000 works. You will not be using any optical  
signals.  
Figure 1-2, on page 1---4, presents a front panel view of the OA 5000.  
If you have not already done so, install the OA 5000 as described on  
page 1---1 and turn on the instrument.  
Preset the OA 5000  
Step 1: Press MODE so that the ATT indicator is lit and -- REF is not lit.  
This sets the OA 5000 to display attenuation in absolute units rather than  
displaying attenuation relative to a reference value.  
Step 2: Press WAVELENGTH. The word SET will appear in the attenua-  
tion display.  
Step 3: Using the COARSE and FINE knobs, set the WAVELENGTH to  
1300 nm.  
The actual attenuation of an optical input signal varies depending on the  
wavelength of the signal. To ensure accurate attenuation readings, set  
WAVELENGTH to the wavelength of the signal you are attenuating.  
Step 4: Press WAVELENGTH again to accept the new wavelength  
value.  
Step 5: Press DISABLE, so that it is not lit.  
If the DISABLE button is lit, the shutter inside the OA 5000 blocks the  
signal path, providing 100 dB attenuation for the OA 5002, OA 5012,  
and OA 5022, and 90 dB attenuation for the OA 5032. When the  
DISABLE button is not lit, the shutter is withdrawn from the optical  
signal path, enabling you to set the attenuation value from 0 to 60 dB in  
0.01 dB increments.  
Step 6: Press MIN ATT.  
This sets the OA 5000 to 0 dB attenuation.  
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A Quick Tour  
DISABLE  
MIN ATT  
STORE 1  
STORE 2  
RECALL 1  
RECALL 2  
REMOTE  
MODE  
SET REF  
COARSE  
ADDR  
(SET)  
WAVE-  
LENGTH  
FINE  
Figure 1-2: OA 5002 Front Panel  
Use the store and recall buttons to save one or two attenuator settings for  
use at a later time.  
Storing and  
Recalling Settings  
Step 7: Using the COARSE knob, set the attenuation to 10.00 dB.  
Step 8: Store the attenuation setting by pressing STORE 1.  
Step 9: Change the attenuation setting, using both the COARSE and  
FINE knobs, to 21.50 dB.  
Step 10: Store the attenuation setting by pressing STORE 2.  
Step 11: Press MIN ATT and then press RECALL 1.  
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A Quick Tour  
Check the ATTENUATION readout and verify that it is set to 10.00 dB.  
Step 12: Press RECALL 2.  
Check the ATTENUATION readout and verify that it is set to 21.50 dB.  
The SET REF button allows you to set a reference value for the attenuation.  
You can then measure attenuation relative to this set value.  
Setting a Reference  
Value  
Step 13: Press MIN ATT.  
This sets the OA 5000 to 0 dB attenuation.  
Step 14: Press the SET REF button.  
The word SET will appear in the wavelength display. The reference value  
can now be adjusted with the COARSE and FINE knobs.  
Step 15: Adjust the reference value for ---8.00 dB using the COARSE  
and FINE knobs.  
Step 16: Press the SET REF button to accept the displayed value. The  
display will return to normal.  
Step 17: Press the MODE button.  
Notice that the -- REF indicator is lit, indicating that the attenuation  
display is now displaying attenuation relative to a reference value. The  
attenuation display shows 8.00 dB and the MIN ATT button is lit.  
Step 18: Using the COARSE knob, adjust the attenuation to 10.00 dB.  
Step 19: Press the MIN ATT button. Check that the attenuation readout  
has changed to 8.00 dB and the MIN ATT button is lit.  
The attenuation display reads 8.00 dB, instead of 0.00 dB, because the  
display is still in reference mode and the reference value is (---8.00).  
Pressing MIN ATT will set the OA 5000 to 0.00 dB only if the display is  
not in reference mode or the reference value is 0.00 dB.  
Step 20: Recall the first stored setting by pressing RECALL 1.  
Remember that you set STORE 1 to 10.00 dB. Note that the attenuation  
readout is 18.00 dB. The display shows the value: 10.00 --- (---8.00)=  
18.00 dB.  
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A Quick Tour  
Step 21: Recall the second stored setting by pressing RECALL 2.  
Note that the attenuation readout is now 29.50 dB. Remember that you  
set STORE 2 to 21.50 dB. The display shows the value: 21.50 ---  
(---8.00)= 29.50 dB.  
Step 22: Push the MODE button so that just the ATT indicator is lit, and  
then push MIN ATT.  
Notice that the ATTENUATION display is now 0.00, because you  
pressed the MIN ATT button and the display is no longer in reference  
mode.  
Settings at Power Up  
One last thing to note are the settings used at power up. When you power  
down the OA 5000, it saves the attenuation setting, the mode, the wave-  
length, and reference levels. The next time you power up the OA 5000, it will  
return to the settings stored when it was last powered down.  
This completes the tour of the OA 5000.  
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A Quick Tour  
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User Reference  
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Operator Overview  
The User Reference section is arranged as an alphabetic list of topics. Each  
topic covers one aspect of the operation of the OA 5000. Five topics follow  
this operator overview:  
The User Reference  
Section  
H
H
H
H
H
Enabling/Disabling Attenuation  
Setting Attenuation Levels  
Setting the GPIB Address  
Setting the Reference Level  
Storing and Recalling Attenuation Levels  
Figure 2-1, on page 2---2, details the controls located on the OA 5000 front  
panel.  
NOTE  
If, after power-up, the decimal points in the WAVELENGTH display  
are flashing, the unit has lost its calibrator values and needs to be  
recalibrated. Contact your local service center.  
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Operator Overview  
When this indicator is lit, the  
attenuation is being changed. When  
it is dark, the set attenuation level  
has been achieved.  
These lights indicate  
whether the attenuation  
display is in absolute  
units or relative to a  
reference value.  
DISABLE  
MIN ATT  
The DISABLE button places  
the shutter across the signal  
path.  
Pressing this button  
generates a User  
Request Event (URQ).  
For more information,  
see page 3---36. The  
LED shows the  
Remote/Local status. If  
the LED is lit, the  
OA 5000 is in remote  
mode. If the LED is  
flashing, the front  
This button sets the  
attenuation level to  
minimum.  
STORE 1  
STORE 2  
RECALL 1  
RECALL 2  
These buttons store  
and recall attenuation  
settings.  
REMOTE  
MODE  
panel is locked out.  
SET REF  
COARSE  
This button activates the  
attenuation display  
mode.  
Use these knobs to  
adjust the attenuation  
level, the reference  
level, the wavelength  
setting, and the GPIB  
address.  
ADDR  
(SET)  
W A VE ---  
LENGTH  
This light indicates that  
the OA 5000 has  
requested service from  
the instrument  
FINE  
controller.  
When this button is lit,  
the knobs are  
assigned to adjust the  
Reference value.  
Use this button to assign the knobs  
to set the GPIB address. The LED  
is lit when the instrument is  
When this button is lit, the  
knobs are used to adjust the  
wavelength setting.  
addressed over the GPIB.  
Figure 2-1: OA 5002 Front Panel  
2 --- 2  
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Enabling/Disabling Attenuation  
On the OA 5000, the DISABLE button (Figure 2-2) allows you to enable or  
disable the optical path through the attenuator with a shutter. You can still  
set the attenuation level, however, since it is not dependent on the optical  
signal passing through the attenuator. For example, you can block the  
passage of the optical signal through the attenuator by disabling attenua-  
tion, setting the attenuation level, then enabling attenuation and your signal  
will be attenuated to the desired level immediately.  
DISABLE  
This button enables or  
disables attenuation.  
MIN ATT  
STORE 1  
STORE 2  
RECALL 1  
RECALL 2  
Figure 2-2: The Location of the DISABLE Button  
To enable attenuation, press the DISABLE button on the front panel so that  
the button is not lit. When the DISABLE button is not lit, the optical signal  
passes through the attenuator.  
To disable attenuation, press the DISABLE button so that it is lighted. When  
the DISABLE button is lighted, the internal shutter is placed across the  
optical path, providing 100 dB attenuation for the OA 5002, OA 5012, and  
OA 5022, and 90 dB attenuation for the OA 5032.  
WARNING  
To prevent damage to your eyes, avoid looking into the optical  
output port while there is an optical signal connected to the input  
port. The disable function is only valid while the instrument is  
switched on. When the OA 5000 is switched off, the shutter with-  
draws from the optical path and the light is attenuated only by the  
previous attenuator setting.  
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Enabling/Disabling Attenuation  
2 --- 4  
User Reference  
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Setting Attenuation Levels  
Because the OA 5000 automatically adjusts the attenuator to correct for  
different wavelengths, it is important, for attenuator accuracy, to correctly  
match the displayed wavelength with the wavelength of the signal going into  
the unit.  
Setting attenuation levels on the OA 5000 requires you to perform two  
procedures in the following order:  
1. Specify the wavelength of the signal to be attenuated.  
2. Set the level of attenuation.  
Refer to Figure 2-3.  
DISABLE  
MIN ATT  
This button sets  
attenuation to the  
STORE 1  
STORE 2  
RECALL 1  
RECALL 2  
minimum  
value.  
This button assigns the  
ATTENUATION display to  
either absolute units or  
units relative to the  
REMOTE  
MODE  
reference level.  
SET REF  
COARSE  
These knobs set the  
attenuation level,  
reference level,  
wavelength and GPIB  
address.  
ADDR  
(SET)  
WAVE-  
LENGTH  
FINE  
Use this button to assign the  
knobs to adjust the  
wavelength.  
Figure 2-3: Setting Attenuation Levels  
To specify the wavelength to be attenuated:  
Specifying the  
Wavelength  
Step 1: Press the WAVELENGTH button.  
The word SEt will appear in the attenuation display and the WAVE-  
LENGTH button will illuminate.  
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Setting Attenuation Levels  
Step 2: Use the two knobs to adjust the displayed wavelength value.  
The COARSE knob changes the displayed value by 10 nm per click and  
the FINE knob changes the displayed value by 1 nm per click. The  
wavelength can be adjusted from 600 to 1700 nm.  
Step 3: When the desired wavelength is displayed, press WAVE-  
LENGTH again to accept the new displayed value. The OA 5000 will  
return to the previous attenuation display mode.  
To set the attenuation level once you have set the wavelength:  
Setting the  
Attenuation Level  
Step 1: Set the attenuation display mode by pressing the MODE but-  
ton.  
The attenuation display shows the current attenuation value in one of two  
modes, absolute or relative to a reference value. Pressing the MODE button,  
while it is illuminated, toggles between these modes.  
When the ATT light is on and the -- REF light is off, the displayed attenuation  
is in absolute mode. In this mode, the displayed attenuation is the value  
relative to its absolute minimum setting. The minimum value in this mode is  
always 0 dB.  
When both the ATT and -- REF lights are on, the displayed attenuation value  
is the absolute attenuation value minus the value of the reference (refer to  
the section Setting the Reference Value to set the reference). The COARSE  
and FINE knobs still adjust the attenuation value as with absolute mode.  
The only difference is the value displayed in the attenuation display.  
Step 2: Set the desired attenuation value by adjusting the COARSE  
and FINE knobs. The COARSE knob changes the attenuation by 1 dB  
per click and the FINE knob changes the attenuation by 0.01 dB per  
click.  
NOTE  
Switching between the absolute and relative display modes does  
not change the actual attenuation value but only the value dis-  
played.  
2 --- 6  
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Setting Attenuation Levels  
To set the attenuation level to minimum, press the MIN ATT button.  
Setting the  
Attenuation Level to  
Minimum  
Setting the attenuation to minimum sets the absolute attenuation to 0 dB.  
This means that the OA 5000 is not attenuating the optical input. However,  
the attenuation display may not read 0 dB. As noted above, if the attenua-  
tion display mode is set to relative, the attenuation display will show the  
absolute attenuation value (0 dB after pressing MIN ATT) minus the value of  
the reference. If the reference value is non-zero, then the attenuation display  
will not be 0 dB after pressing MIN ATT.  
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Setting Attenuation Levels  
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Setting the GPIB Address  
Setting the GPIB address is accomplished using the ADDR (SET) button  
and the LEVEL ADJUST knobs (Figure 2-4).  
DISABLE  
MIN ATT  
STORE 1  
STORE 2  
RECALL 1  
RECALL 2  
REMOTE  
MODE  
SET REF  
COARSE  
Turning either knob  
changes the GPIB  
address (when the  
ADDR button is lit).  
ADDR  
(SET)  
W A VE ---  
LENGTH  
This button assigns  
the knobs to set the  
GPIB address.  
FINE  
Figure 2-4: The Location of the ADDR (SET) Button  
To set the GPIB address:  
Step 1: Press the ADDR (SET) button so that it is lighted. The ATTEN-  
UATION display will change to read Addr and the GPIB address will be  
displayed in the WAVELENGTH display.  
Step 2: Use either the COARSE or FINE knobs to change the address.  
Step 3: When the address is set, press the ADDR (SET) button again  
to enter the change of address.  
The ADDR (SET) button also indicates the addressed status of the OA 5000  
from the GPIB (when the GPIB address is not being set). When the button is  
lit, the OA 5000 has been addressed to talk or listen by a controller on the  
GPIB.  
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Setting the GPIB Address  
NOTE  
Valid GPIB addresses are 0 through 30. If the GPIB address is  
increased past 30, the display will show the word “OFF.” If OFF is  
entered as the address, the OA 5000 will not be addressable over  
the GPIB and it will not participate in any GPIB transactions.  
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Setting the Reference Level  
You can set the display of the OA 5000 to reflect the attenuation of the  
system rather than just the attenuation provided by the OA 5000. For exam-  
ple, if your system insertion loss is 1.55 dB, you could set the reference  
value to ---1.55 dB and the attenuation displayed would range from 1.55 dB  
to 61.55 dB, instead of 0 dB to 60 dB.  
Use the following procedure to set the reference level:  
Step 1: Press SET REF so that it is lit (Figure 2-5).  
Step 2: Adjust the reference level using the knobs.  
Step 3: After setting the reference level, press the SET REF button  
again.  
DISABLE  
MIN ATT  
STORE 1  
STORE 2  
RECALL 1  
RECALL 2  
REMOTE  
MODE  
SET REF  
COARSE  
This button assigns  
the knobs to set the  
Reference Level.  
ADDR  
(SET)  
WAVE-  
LENGTH  
FINE  
Figure 2-5: The Location of the SET REF Button  
Once you have set the reference level, you may wish to change the attenua-  
tion display mode. To set the display mode so that the reference level is  
subtracted from the attenuation provided by the OA 5000, press the MODE  
button so that the -- REF indicator is lighted.  
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Setting the Reference Level  
The reference mode has two primary applications:  
1. Reading total attenuation (insertion loss)  
2. Approximating signal power  
The total attenuation of any attenuator is the sum of the attenuation caused  
by the connections (the insertion loss) and the attenuation caused by the  
active element. Since the insertion loss is dependent on many factors, it is  
hard to determine this value precisely. Some of the factors that affect inser-  
tion loss are the condition of the connectors, the cleanliness of the connec-  
tors, and the mode pattern of the fiber. Nonetheless, you can measure  
insertion loss.  
Measuring Insertion  
Loss  
Step 1: Connect a stable source to an optical power meter using two  
optical cables that have been joined with an in-line adapter.  
Step 2: Measure the power on a suitable optical power meter and  
measure the optical power in dBm.  
Step 3: Disconnect the cables at the in-line adapter and connect them  
to the optical attenuator (which should be set at minimum attenuation).  
Step 4: Measure the resultant power in dBm.  
The insertion loss (within the connector uncertainty) is the difference be-  
tween the power reading with only the optical cables and the reading with  
the cables plus the attenuator. The insertion loss specification for the  
OA 5000 attenuators is 2.0 dB. The total attenuation is the insertion loss  
plus the attenuation level shown on the OA 5000. Thus, by setting the refer-  
ence level to the value of the insertion loss and enabling the reference  
display mode, the OA 5000 can display the total attenuation of the attenua-  
tion system.  
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Setting the Reference Level  
The second application for reference mode is approximating signal power  
after the source has been attenuated.  
Approximating Signal  
Power  
Step 1: Set the attenuator to its minimum reference level.  
Step 2: Measure the power (in dBm) from the fiber connected to the  
output optical connector.  
Step 3: Set the reference value to this number.  
Once this level has been set and the OA 5000 is in reference mode, the  
displayed attenuation is the negative of the power level in dBm. For exam-  
ple, if the power level is ---2.5 dBm when the attenuator is at its minimum  
attenuation level and this is entered as the reference level, then the display  
will read 2.5 dB when set to REF mode. Then, if you increase the attenuation  
by 10 dB, the display will read 12.5, which is the negative of the power level  
in dBm.  
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Setting the Reference Level  
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Storing and Recalling  
Attenuation Levels  
The OA 5000 can store two attenuation levels for later recall. This can help  
save you time and minimize mistakes. Refer to Figure 2-6.  
DISABLE  
MIN ATT  
STORE 1  
STORE 2  
RECALL 1  
RECALL 2  
These buttons store  
and recall attenuation  
settings.  
Figure 2-6: The Location of the STORE and RECALL Buttons  
To store an attenuation setting  
H
press either STORE1 or STORE2.  
The current attenuation setting will be stored. The ATTENUATION display  
will blink once to indicate acceptance of the value.  
NOTE  
When you press STORE1 or STORE2, the only setting saved is the  
attenuation setting. The wavelength setting is not stored. If the  
wavelength of your signal has changed since the attenuation setting  
was stored, you will have to adjust the wavelength setting to ensure  
accurate attenuation.  
To recall an attenuation setting  
H
press either RECALL1 or RECALL2.  
The selected setting will be recalled.  
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Storing and Recalling Attenuation Levels  
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Setting Up the Instrument  
This section tells you how to prepare the OA 5000 Optical Attenuator for use  
with a remote controller or computer. The first part of this section explains  
how to connect the OA 5000 to a controller or computer through the GPIB  
interface. The rest of the section describes how to use the OA 5000 front  
panel settings to enable the OA 5000 to send and receive messages to and  
from a remote controller.  
NOTE  
In addition to the information in this manual, you will need to con-  
sult the documentation for your controller to determine how to send  
commands, send interface messages such as local lockout and  
serial poll, and receive query responses from within the program-  
ming language running on your controller or computer. Also, you  
will need to determine how to assert various GPIB lines, including  
remote enable and attention from within the programming lan-  
guage running your controller or computer.  
You can control the OA 5000 with a remote controller or computer that uses  
the IEEE Std 488.1-1987 (GPIB) interface.  
Controllers  
The OA 5000 is connected to the GPIB through the TM5000 Series power  
module in which it is installed. Connect the TM5000 power module to the  
GPIB using an IEEE Std 488 GPIB cable (available as Tektronix part number  
012-0991-00). The TM5000 power module has a 24-pin GPIB connector on  
its rear panel (Figure 3-1). This connector has a D-type shell and conforms  
to IEEE Std 488.  
Using the GPIB  
Interface  
You can also stack GPIB connectors.  
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Setting Up the Instrument  
GPIB Connector  
Figure 3-1: GPIB Connector Location  
GPIB Requirements  
Observe these rules when using your OA 5000 with a GPIB network:  
H
Each device on the bus must be assigned a unique device address; no  
two devices can share the same device address.  
H
H
H
Do not connect more than 15 devices to any one bus.  
Connect one device for every 6 feet (2 meters) of cable used.  
Do not use more than 65 feet (20 meters) of cable to connect devices to  
a bus.  
H
H
At least two-thirds of the devices on the network must be turned on  
while the network is operating.  
Connect the devices on the network in a star or linear configuration as  
shown in Figure 3-2. Do not use loop or parallel configurations.  
GPIB Device  
GPIB Device  
GPIB Device  
GPIB Device  
GPIB Device  
GPIB Device  
GPIB Device  
Figure 3-2: Typical GPIB Network Configurations  
Appendix C, Interface Specifications, gives additional information on the  
OA 5000 GPIB configuration.  
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Setting Up the Instrument  
Setting the GPIB Address  
Once you have connected the OA 5000 through the GPIB interface, you  
need to set its GPIB address to allow it to communicate through the inter-  
face.  
To set the GPIB address:  
Step 1: Press the ADDR (SET) button so that it is lighted. The ATTEN-  
UATION display will change to read Addr and the GPIB address will be  
displayed in the WAVELENGTH display.  
Step 2: Use either the COARSE or FINE knobs to change the address.  
Step 3: When the address is set, press the ADDR (SET) button again  
to enter the change of address.  
Once you have set the address, you can control the OA 5000 through the  
GPIB interface.  
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Command Syntax  
You can control the OA 5000 through the GPIB using a large group of com-  
mands and queries. This section describes the syntax these commands and  
queries use and the conventions the OA 5000 uses to process them. The  
commands and queries themselves are listed in the section entitled Com-  
mands.  
You transmit commands to the OA 5000 using the enhanced American  
Standard Code for Information Interchange (ASCII) character encoding.  
Appendix C includes a chart of the ASCII character set.  
This manual uses Backus-Naur Form (BNF) notation and syntax diagrams to  
describe commands and queries. The syntax diagrams follow the notations  
and conventions of the ANSI/IEEE Std 488.2-1987, section 7.2.  
This manual uses the following BNF symbols listed in Table 3-1.  
Table 3-1: BNF Symbols and Meanings  
Symbol  
Meaning  
<
>
Defined element  
::=  
|
Is Defined As  
Exclusive OR  
{
[
}
Group; one element is required  
Optional; can be omitted  
Previous element(s) may be repeated  
Comment  
]
. . .  
(
)
You can stop any query or process by using the Device Clear (DCL) GPIB  
interface message.  
Clearing the  
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Command Syntax  
Commands consist of set commands and query commands (usually simply  
called commands and queries). Commands modify instrument settings or  
tell the OA 5000 to take a specific action. Queries cause the OA 5000 to  
return information about its status.  
Command and  
Query Structure  
Most commands have both a set form and a query form. The query form of  
the command is the same as the set form but with a question mark on the  
end. For example, the set command ATT:DB has a query form ATT:DB?.  
Not all commands have both a set and query form; some commands are set  
only and some are query only.  
A command message is a command or query name, followed by any infor-  
mation the OA 5000 needs to execute the command or query. Command  
messages consist of three different element types, defined in Table 3-2 and  
shown in the example in Figure 3-3.  
Table 3-2: Command Message Elements  
Symbol  
Meaning  
<Header>  
The basic command name. If the header ends with a  
question mark, the command is a query. The header  
may begin with a colon (:) character; if the command is  
concatenated with other commands the beginning colon  
is required. The beginning colon can never be used with  
command headers beginning with star (*).  
<Mnemonic>  
<Argument>  
A header sub-function. Some command headers have  
only one mnemonic. If a command header has multiple  
mnemonics, they are always separated from each other  
by a colon (:) character.  
A quantity, quality, restriction, or limit associated with the  
header. Not all commands have an argument, while  
other commands have multiple arguments. Arguments  
are separated from the header by one or more space  
characters. Arguments are separated from each other  
by a <Separator>, defined below.  
<Separator>  
A separator between arguments of multiple-argument  
commands. The separator can be a single comma, or it  
may optionally have white space characters before and  
after the comma.  
Header  
ATT:DB 10  
Mnemonics  
Argument  
Figure 3-3: Command Message Elements  
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Command Syntax  
Commands  
Commands cause the OA 5000 to perform a specific function or change one  
of its settings. Commands have the structure:  
H
[:]<Header>[<Space><Argument>[<Separator><Argu-  
ment>]...]  
Queries  
Queries cause the OA 5000 to return information about its status or settings.  
Queries have the structure:  
H
H
[:]<Header>?  
[:]<Header>?[<Space><Argument>[<Separator><Argu-  
ment>]...]  
You may use only a part of the header in a query command. When you do  
this, the instrument returns information about all the possible mnemonics  
that you have left unspecified. For example, ATT:DB? returns the current  
setting in absolute dB units, while ATT? returns the setting in absolute units  
and units relative to the reference.  
Headers in Query Responses  
You can control whether or not headers are returned by the OA 5000 as part  
of the query response. Use the HEADER command to control this feature. If  
header is on, command headers are returned as part of the query, and the  
query response is formatted as a valid set command. When header is off,  
only the values are sent back in the response, which may be easier to parse  
and to extract the information. Table 3-3 shows the difference in responses.  
Table 3-3: Comparison of Header On and Off Responses  
Query  
Header Off Response  
Header On Response  
:DISP DB  
DISP?  
DB  
ATT:DB?  
32.53  
:ATT:DB 32.53  
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Command Syntax  
H
H
Enter commands in upper or lower case.  
Command Entry  
Precede any command with blank characters. Blank characters include  
any combination of the ASCII control characters 00 through 09 and 0B  
through 20 hexadecimal (0 through 9 and 11 through 32 decimal).  
H
The OA 5000 ignores commands consisting of any combination of blank  
characters, carriage returns, and line feeds.  
Abbreviating Commands  
Many OA 5000 commands can be abbreviated. These abbreviations are  
shown in capitals in the commands listing in the Commands section. For  
example, the command DISPlay can be entered simply as DISP or dis-  
play.  
If you use the HEADER command to have command headers included as  
part of query responses, you can further control whether the returned head-  
ers are abbreviated or are full-length. The VERBOSE command lets you  
control this.  
Concatenating Commands  
You can concatenate any combination of set commands and queries using  
a semicolon (;). The OA 5000 executes concatenated commands in the  
order received. Concatenating commands is useful when you want to avoid  
events generated by conflicting settings see Conflicts on page 3---40.  
When concatenating commands and queries you must follow these rules:  
3. Completely different headers must be separated by both a semicolon  
and by the beginning colon on all commands but the first. For example,  
the commands ATT:DB 15 and DISABLE OFF would be concatenated  
into a single command:  
ATT:DB 15;:DIS OFF  
4. Never precede a star (*) command with a colon:  
ATT:DB 10;*OPC  
5. When you concatenate queries, the responses to all the queries are  
concatenated into a single response message. For example, if the  
display mode is dB and the attenuator is 20 dB, the concatenated query  
DISP?;:ATT:DB?  
will return either DISP DB;:ATT:DB 20 if Header is set to on, or DB;20  
if Header is set to off.  
6. Set commands and queries may be concatenated in the same mes-  
sage. For example:  
ATT:DB 15;DISP DB;DIS?;:ADJ?  
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Command Syntax  
is a valid message that sets the attenuation to 15 dB, the display mode  
to dB, and responds with the disable status and the adjusting status.  
Concatenated commands and queries are executed in the order re-  
ceived.  
Here are some invalid concatenations:  
H
DISPLAY DBR;ATT:DBR 5  
no colon before ATT  
H
ATT:MIN;:*OPC  
extra colon before a star (*) command  
Message Terminators  
This manual uses <EOI> (End or Identify) to represent a message termina-  
tor.  
Symbol  
Meaning  
<EOI>  
Message terminator  
If you use a GPIB network, <EOI> can be the IEEE Std 488 EOI interface  
symbol or LF (line feed). When using GPIB, the OA 5000 always accepts the  
EOI interface symbol as an input message terminator.  
The end-of-message terminator may be either the END message (EOI  
asserted concurrently with the last data byte), the ASCII code for line feed  
(LF) sent as the last data byte, or both.  
The end-of message terminator should not immediately follow a semicolon  
(;).  
The OA 5000 always terminates responses to queries with linefeed and EOI  
asserted.  
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Command Syntax  
The argument of a command may be in one of several forms. The individual  
descriptions of each command tell which argument types to use with that  
command.  
Argument Types  
Block Arguments  
One OA 5000 command utilizes a block argument form:  
Symbol  
<Block>  
<NZDig>  
<Dig>  
Meaning  
A block of data bytes, defined below  
A non-zero digit character, in the range 1 --- 9  
A digit character, in the range 0 --- 9  
<DChar>  
A character with the binary equivalent of 0 through  
FF hexadecimal (0 through 255 decimal)  
The block argument is in the following format:  
<Block> ::= #<NZDig><Dig>[<Dig>. . .][<DChar>. . .]  
H
<NZDig> specifies the number of <Dig> elements that follow. Taken togeth-  
er, the <Dig> elements form a decimal integer that specifies how many  
<DChar> elements follow.  
Block Argument  
BLRN #222(binary data - 22 bytes)  
Specifies Data Length  
Specifies Number of  
Length Digits that Follow  
Block Header  
Figure 3-4: Block Argument Example  
The block argument can also take the following format:  
H
<Block> ::= #0[<DChar>. . .]<EOI>  
Under IEEE Std 488.2 this is also a valid form for block arguments. If this  
form is used, the last byte of the block must have EOI asserted. Conse-  
quently, this must be the last or only command. Although the OA 5000  
accepts this format, it will never respond to a query with this format.  
Numeric Arguments  
Many OA 5000 commands require numeric arguments. This manual repre-  
sents these arguments as follows:  
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Command Syntax  
Symbol  
<NR1>  
<NR2>  
<NR3>  
<NRf>  
Meaning  
Signed integer value  
Floating point value without an exponent  
Floating point value with an exponent  
Flexible numeric argument {NR1|NR2|NR3}. A suffix com-  
posed of a multiplier (letter exponent) and units may be used  
as an alternate to NR3. For example, this numeric type would  
let you use 10nmas an alternate to 10E---9m”  
The syntax diagrams in this manual use the following symbols and notation:  
Syntax Diagrams  
H
Circles and ovals contain literal elements that must be sent exactly as  
shown. Command and query names are abbreviated to the minimum  
required spelling.  
H
H
Boxes contain the defined elements described earlier in this section,  
such as <NRf> or <QString>.  
Arrows connect the elements and show the allowed paths through the  
diagram. This also shows the different orders in which the elements can  
be sent. Parallel paths show that one and only one of the paths must be  
taken. A path around a group of elements shows that those elements  
are optional. Loops show elements that can be repeated.  
Figure 3-5 shows the structure of a few typical syntax diagrams.  
Figure 3-5: Typical Syntax Diagrams  
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Command Syntax  
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Commands  
OA 5000 commands fall into two main groups: Common Commands and  
Device Commands. The commands follow Tektronix Standard Codes and  
Formats 1991.  
Most of these commands can be used either as set commands or queries.  
However, some commands can only be used to set: these have the words  
No Query Formincluded with the command name. Other commands can  
only be used to query: these have a question mark appended to the header,  
and include the words Query Onlyin the command name.  
Headers, mnemonics, and arguments are usually spelled out fully in text,  
with the minimum required spelling shown in upper case. For example, to  
use the command RECall you must enter at least REC. The examples in this  
manual use the abbreviated forms.  
Several commands and queries used with the OA 5000 are common to all  
devices on the GPIB. These commands and queries are defined by IEEE  
Std 488.2-1987 and Tektronix Standard Codes and Formats 1991 as useful  
across all instruments in a GPIB system.  
Common  
Commands  
and Queries  
Table 3-4 lists the Common Commands supported by the OA 5000. Com-  
plete descriptions of these commands appear in an alphabetical listing of  
commands later in this section.  
Table 3-4: Commands Common to All GPIB Devices and  
Supported by the OA 5000 Series  
Header  
ALLev?  
BLRN  
Full Command Name  
All Events  
Binary Device Setup  
Instrument Self Calibration  
Clear Status  
*CAL?1  
*CLS  
DESE  
Device Event Status Enable  
Standard Event Status Enable  
Standard Event Status Register  
Event  
*ESE  
*ESR?  
EVENT?  
EVMSG?  
EVQTy?  
Event Message  
Number of Events in Queue  
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Commands  
Table 3-4: Commands Common to All GPIB Devices and  
Supported by the OA 5000 Series (Cont.)  
Header  
Full Command Name  
Set to Factory Defaults  
Header  
FACTory  
HEADer  
*IDN?  
*LRN?  
*OPC  
Identification  
Learn Device Setup  
Operation Complete  
Power-On Status Clear  
Reset  
*PSC  
*RST  
*SRE  
Service Request Enable  
Read Status Byte  
Self-Test  
*STB?  
*TST?  
VERBOSE  
*WAI  
Verbose  
Wait To Continue  
1
*CAL? always returns 0.  
Table 3-5 lists the device commands, queries, and command parameters  
that are specific to the OA 5000. Complete descriptions of these commands  
appear in the alphabetical listing of commands that immediately follows this  
table.  
Device Commands  
and Queries  
Table 3-5: OA 5000 Device Commands and Parameters  
Header  
Full Command Name  
Attenuator Adjusting  
ADJusting?  
ATTen  
Attenuation  
ATTen:DB  
ATTen:DBR  
ATTen:MIN  
DISable  
DISPlay  
RECall  
Attenuation in Absolute Terms  
Attenuation with Reference Value  
Minimum Attenuation  
Light Shutter Status  
Front Panel Display Mode  
Recall Attenuation Setting  
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Commands  
Table 3-5: OA 5000 Device Commands and Parameters (Cont.)  
Header  
Full Command Name  
Reference  
REFerence  
STORe1|2  
WAVelength  
Store Attenuation  
Wavelength  
ADJusting? (Query Only)  
The ADJusting? query returns the status of the attenuator. A 1 is returned if  
the attenuator is moving to some attenuation value. A 0 is returned if the  
attenuator is stationary.  
*OPC, *WAI.  
Related Commands:  
Syntax:  
ADJusting?  
ADJusting  
?
ADJ?  
Examples:  
would return the string ”:ADJUSTING 0” or ”:ADJUSTING 1”.  
ALLev? (Query Only)  
The ALLev? query causes the OA 5000 to return all events and their mes-  
sages. This query also removes the returned events from the Event Queue.  
The messages are separated by commas. Use the *ESR? query to enable  
the events to be returned. For a complete discussion of the use of these  
registers, see page 3---35. This command is similar to repeatedly sending  
EVMsg? queries to the OA 5000.  
*CLS, DESE, *ESE, *ESR?, EVENT?, EVMsg?, EVQTY, *SRE, *STB?  
Related Commands:  
Syntax:  
ALLev?  
ALLev  
?
The event code and message in the following format:  
Returns:  
<Event Code><Comma><QString>[<Event Code><Com-  
ma><QString>...]  
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Commands  
<QString>::= <Message>;[<Command>]  
<Command> is the command that caused the error and may be returned  
when a command error is detected by the OA 5000. As much of the com-  
mand will be returned as possible without exceeding the 60 character limit of  
the <Message> and <Command> strings combined. The command string is  
right-justified.  
ALLev?  
Examples:  
might return the string 401,Power onor 113,Undefined head-  
er; unrecognized command-abc.  
ATTenuation  
ATTenuation can be used as both a query and as a command to set device  
parameters. ATTenuation has three parameters: DB, DBR, and MIN. Use the  
DB term to query or set attenuation in absolute terms relative to minimum  
attenuation. To query or set attenuation values relative to the REFerence  
value, use the DBR term. To set the attenuation to the minimum (0 dB), use  
the MIN term.  
NOTE  
Attenuation can be changed even if the light shutter is closed.  
STORe, RECall.  
Related Commands:  
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Commands  
ATTen:DB?  
Syntax:  
ATTen:DBR?  
ATTen:DB <NRf>  
ATTen:DBR <NRf>  
ATTen:MIN  
ATTen:MIN?  
ATTen?  
DB  
?
DBR  
DB  
<space>  
<NRf>  
DBR  
:
MIN  
MIN  
?
ATTen  
?
If you make a query without an argument (for example, ATTen?), the re-  
sponse is the same as that for an ATTen:DB?; DBR? query.  
Arguments:  
Examples:  
ATT:DB?  
returns the string  
:ATTEN:DB <present setting, absolute>  
ATT:DBR?  
returns the string  
:ATTEN:DBR <present setting, minus REF>  
ATT:MIN?  
returns the string  
:ATTEN:MIN <1 if at min, 0 otherwise>  
BLRN  
The query version of this command reads the instrument configuration in  
binary form. The command version configures the instrument binary data  
format. The configuration is 22 bytes long.  
*LRN.  
Related Commands:  
Syntax:  
BLRN <Block>  
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Commands  
BLRN?  
<Space>  
?
<Block>  
BLRN  
BLRN?  
might return the response:  
Examples:  
BLRN #222 <22 bytes of binary data>  
*CAL? (Query Only)  
This command performs no function in the OA 5000. It is included for com-  
pliance with IEEE Std 488.2.  
N/A  
Related Commands:  
Syntax:  
*CAL?  
*CAL  
?
*CAL?  
would return 0.  
Examples:  
*CLS (No Query Form)  
The *CLS (Clear Status) command clears the OA 5000 status data struc-  
tures. This command also puts the OA 5000 in the Operation Complete  
Command Idle State and in the Operation Complete Query Idle State. While  
in these states the OA 5000 has nothing in its buffers and does not execute  
commands or queries.  
DESE, *ESE, *ESR, EVENT?, EVMSG?,*SRE, *STB.  
Related Commands:  
Syntax:  
*CLS  
*CLS  
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Commands  
The *CLS command clears  
H
H
H
the Event Queue,  
the Standard Event Status Register (SESR), and  
the Status Byte Register (except the MAV bit; see below).  
If the *CLS command immediately follows an <EOI>, the Output Queue and  
MAV bit (Status Byte Register bit 4) are also cleared. MAV indicates informa-  
tion is in the output queue. DCL will clear the output queue and thus MAV.  
*CLS does not clear the output queue or MAV. (A complete discussion of  
these registers and bits and of event handling in general is on page 3---35.)  
DESE  
The DESE (Device Event Status Enable) command sets and queries the bits  
in the Device Event Status Enable Register (DESER). The DESER prevents  
events from being reported to the Standard Event Status Register (SESR)  
and from being entered into the Event Queue. For a complete discussion of  
the use of these registers, see page 3---35.  
*CLS, *ESE, *ESR, EVENT?, EVMSG?, *SRE, *STB.  
Related Commands:  
Syntax:  
DESE <NRf>  
DESE?  
<Space>  
?
<NRf>  
DESE  
<NRf> is a value in the range from 0 to 255. The binary bits of the DESER  
are set according to this value. For example, DESE 209 sets the DESER to  
the binary value 11010001 (that is, the first bit in the register is set to 1, the  
second bit to 1, the third bit to 0, etc.).  
Arguments:  
The power-on default for DESER is all bits set if *PSC is 1. If *PSC is 0, the  
DESER maintains its value through a power cycle.  
NOTE  
Setting the DESER and the ESER to the same value allows only  
those codes to be entered into the Event Queue and summarized  
on the ESB bit (bit 5) of the Status Byte Register. Use the *ESE  
command to set the ESER. A complete discussion of event handl-  
i ng i s on pag e 3 --- 35.  
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Commands  
DESE 209  
sets the DESER to binary 11010001, which enables the PON, URQ, EXE,  
and OPC bits.  
Examples:  
DESE?  
might return the string :DESE 186, showing that the DESER contains  
the binary value 10111010.  
DISable  
To query or set the status of the light shutter, use the DISable term. A DIS-  
able argument of 1, or ON, closes the light shutter and blocks all light  
through the fiber ports. A DISable argument of 0, or OFF, opens the shutter  
and allows light to pass through the fiber ports (light will be attenuated at the  
level specified by the ATTEN:DB or ATTEN:DBR terms).  
Related Commands:  
Syntax:  
DISable {ON|1}  
DISable {OFF|0}  
Disable?  
ON  
1
<Space>  
OFF  
DISable  
0
?
DIS?  
Examples:  
returns the string  
DIS 0  
if the light shutter is not closed.  
DISPlay  
Use the DISPlay command to set the front panel display mode. The DB and  
DBRef parameters specify display of attenuation relative to minimum attenu-  
ation and relative to the reference values respectively. The SETRef and  
SETWavelength parameters put the front panel in a state which that the user  
to set the reference value and the wavelength via the front panel controls.  
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Commands  
Related Commands:  
Syntax:  
DISPlay {DB|DBR|SETRef|SETWavelength}  
DISPlay?  
DB  
DBR  
SETRef  
<space>  
SETWavelength  
DISPlay  
?
DISP?  
Examples:  
returns the string  
:DISP DB  
DISP:SETRef  
Sets the front panel to the Set Reference mode (has the same effect as  
pressing the SET REF button on the front panel).  
*ESE  
The *ESE (Event Status Enable) command sets and queries the bits in the  
Event Status Enable Register (ESER). The ESER prevents events from being  
reported to the Status Byte Register (STB). For a complete discussion of the  
use of these registers, see page 3---35.  
*CLS, DESE, *ESR, EVENT?, EVMSG? *SRE, *STB.  
Related Commands:  
Syntax:  
*ESE <NRf>  
*ESE?  
<Space>  
?
<NRf>  
*ESE  
<NRf> is a value in the range from 0 through 255. The binary bits of the  
ESER are set according to this value.  
Arguments:  
The power-on default for ESER is 0 if *PSC is 1. If *PSC is 0, the ESER  
maintains its value through a power cycle.  
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Commands  
NOTE  
Setting the DESER and the ESER to the same value allows only  
those codes to be entered into the Event Queue and summarized  
on the ESB bit (bit 5) of the Status Byte Register. Use the DESE  
command to set the DESER. A complete discussion of event handl-  
i ng i s on pag e 3 --- 35.  
*ESE 209  
Examples:  
sets the ESER to binary 11010001, which enables the PON, URQ, EXE,  
and OPC bits.  
*ESE?  
might return the string *ESE 186, showing that the ESER contains the  
binary value 10111010.  
*ESR? (Query Only)  
The *ESR? (Event Status Register) query returns the contents of the Stan-  
dard Event Status Register (SESR). *ESR? also clears the SESR (since  
reading the SESR clears it). For a complete discussion of the use of these  
registers, see page 3---35.  
ALLev?, *CLS, DESE, *ESE, EVENT?, EVMSG?, EVQTy?, *SRE, *STB.  
Related Commands:  
Syntax:  
*ESR?  
*ESR  
?
*ESR?  
Examples:  
might return the value 213, showing that the SESR contains binary  
11010101.  
EVEnt? (Query Only)  
The EVEnt? query returns from the Event Queue an event code that pro-  
vides information about the results of the last *ESR? read. EVENT? also  
removes the returned value from the Event Queue. Note the the ALLev?  
command removes all pending events from the event queue and places  
them in the output queue. A complete discussion of event handling is on  
page 3---35.  
ALLev?, *CLS, DESE, *ESE, *ESR?, EVMSG?, EVQty?, *SRE, *STB.  
Related Commands:  
Syntax:  
EVEnt?  
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Commands  
EVEnt  
?
EVEnt?  
Examples:  
might return the response :EVENT 110, showing that there was an  
error in a command header.  
EVMSG? (Query Only)  
The EVMSG? query removes from the Event Queue a single event code  
associated with the results of the last *ESR? read and returns the event  
code along with an explanatory message. A complete discussion of event  
handling is on page 3---35.  
*CLS, DESE, *ESE, *ESR?, EVENT?, *SRE, *STB.  
Related Commands:  
Syntax:  
EVMSG?  
EVMSG  
?
EVMSG?  
Examples:  
might return the message :EVMSG 110,Command header error.  
EVQty? (Query Only)  
The EVQty? query returns returns the number of events associated with the  
last Standard Event Status Register read and thus the length of a subse-  
quent response to an ALLev? query. The maximum number of event queue  
items is 32.  
*CLS, DESE, *ESE, *ESR?, EVMSG?, *SRE, *STB.  
Related Commands:  
Syntax:  
EVQty?  
EVQty  
?
EVQty?  
Examples:  
might return the response :EVQTY 4, showing that there are four events  
in the event queue.  
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Commands  
FACTORY (No Query Form)  
The FACTORY command resets the OA 5000 to its factory default settings  
and purges stored settings.  
NOTE  
The FACTORY command can take 5 to 10 seconds to complete  
depending on attenuation settings.  
DESE, *ESE, HEADER, *PSC, *RST, *SRE, VERBOSE.  
Related Commands:  
Syntax:  
FACTORY  
FACTORY  
The FACTORY command does the following:  
H
H
H
Puts the OA 5000 in the Operation Complete Command Idle State.  
Puts the OA 5000 in the Operation Complete Query Idle State.  
Clears the Event Status Enable Register (equivalent to the command  
*ESE 0).  
H
H
H
H
H
H
Clears the Service Request Enable Register (equivalent to the command  
*SRE 0).  
Sets the Device Event Status Enable Register to all-enabled (equivalent  
to the command DESE 255).  
Sets the Power-on status clear flag to TRUE (equivalent to the command  
*PSC 1).  
Sets the Response Header Enable State to TRUE (equivalent to the  
command HEADER 1).  
Sets the Verbose Header State to TRUE (equivalent to the command  
VERBOSE 1).  
Sets the front panel as shown in Table 3-6.  
Table 3-6: FACTORY Front Panel Settings  
Front Panel Parameter  
DISP:DB  
ATT:DB  
Setting  
0
0
0
0
REF  
STORE1  
STORE2  
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Commands  
Table 3-6: FACTORY Front Panel Settings (Cont.)  
Front Panel Parameter  
Setting  
OFF  
DISABLE  
WAVELENGTH  
1300  
The FACTORY command does not alter the following items:  
H
H
H
The state of the GPIB (IEEE Std 488.2) interfaces.  
The selected GPIB address.  
Calibration data that affects device specifications.  
HEADer  
The HEADer command sets and queries the Response Header Enable State  
that causes the OA 5000 to either include or omit headers on query re-  
sponses. This command does not affect IEEE Std 488.2 Common Com-  
mands (those starting with an asterisk) or the *LRN? response.  
VERBOSE.  
Related Commands:  
HEADer { ON | OFF | <NRf> }  
HEADer?  
Syntax:  
ON  
<Space>  
OFF  
<NRf>  
HEADer  
?
ON or <NRf> ¸ 0 sets the Response Header Enable State to TRUE. This  
causes the OA 5000 to include headers on applicable query responses. You  
can then use the query response as a command.  
Arguments:  
OFF or <NRf> = 0 sets the Response Header Enable State to FALSE. This  
causes the OA 5000 to omit headers on query responses, so that only the  
argument is returned.  
HEADER OFF  
Examples:  
causes the OA 5000 to omit headers from query responses.  
HEADER 1  
causes the OA 5000 to include headers on applicable query responses.  
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Commands  
HEADER?  
might return the value 1, showing that the Response Header Enable  
State is TRUE.  
*IDN? (Query Only)  
The *IDN? (Identification) query returns the OA 5000s unique identification  
code.  
N/A  
Related Commands:  
Syntax:  
*IDN?  
*IDN  
?
The query response is an ASCII string separated into four fields by commas:  
TEKTRONIX,OA5002,<serial number>,CF:91.1CN RM:<firm-  
ware version number>  
*IDN?  
Examples:  
might return the response  
TEKTRONIX,OA5002,B010101,CF:91.1CN RM:1.5  
*LRN? or SET?  
The *LRN? (Learn Device Setup) or SET? query returns a string listing the  
OA 5000s settings, except for calibration values. You can use this string to  
return the OA 5000 to the state it was in when you made the *LRN? query.  
HEADER, VERBOSE.  
Related Commands:  
Syntax:  
*LRN?  
SET?  
*LRN  
?
SET  
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Commands  
NOTE  
The *LRN? query always returns a string with command headers,  
regardless of the setting of the HEADER command. This is because  
the returned string is intended to be able to be sent back to the  
OA 5000 as a command string. The VERBOSE command can still  
be used normally to specify whether the returned headers should  
be abbreviated or full length.  
*LRN?  
Examples:  
might return the string:  
:REFERENCE 0.00;:WAVELENGTH 1300;:ATTENUATION:DB  
0.00;:DISPLAY DB;:DISABLE 0;:STORE1 0.00;:STORE2 0.00  
*OPC  
The *OPC (Operation Complete) command generates the operation com-  
plete message in the Standard Event Status Register (SESR) when all  
pending operations finish. The *OPC? query places the ASCII character 1”  
into the Output Queue when all pending operations are finished. The *OPC?  
response is not available to read until all pending operations finish. For a  
complete discussion of the use of these registers and the output queue, see  
page 3---35.  
*WAI, ADJusting?  
Related Commands:  
Syntax:  
*OPC  
*OPC?  
*OPC  
?
*PSC  
The *PSC (Power-On Status Clear) command sets and queries the power-on  
status flag that controls the automatic power-on handling of the DESER,  
SRER, and ESER registers. When PSC is TRUE, the DESER register is set to  
255 and the SRER and ESER registers are set to 0 at power-on. When PSC  
is FALSE, the current values in the DESER, SRER, and ESER registers are  
preserved in non-volatile memory when power is shut off and restored at  
power-on. For a complete discussion of the use of these registers, see  
page 3---35.  
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Commands  
DESE, *ESE, *RST, *SRE.  
Related Commands:  
Syntax:  
*PSC <NRf>  
*PSC?  
<Space>  
?
<NRf>  
*PSC  
<NRf> is a value in the range from ---32767 to 32767.  
Arguments:  
<NRf> = 0 sets the power-on status clear flag to FALSE, and disables the  
power-on clear and allows the OA 5000 to assert SRQ after power-on.  
<NRf> ¸ 0 sets the power-on status clear flag TRUE. Sending *PSC 1  
therefore enables the power-on clear and prevents any SRQ assertion after  
power-on. Using an out-of-range value causes an execution error.  
*PSC 0  
Examples:  
sets the power-on status clear flag to FALSE.  
*PSC?  
might return the value 1, showing that the power-on status clear flag is  
set to TRUE.  
RECall (No Query Form)  
The RECall command sets the attenuation of the instrument to either stored  
value 1 or 2.  
STORe  
Related Commands:  
Syntax:  
RECall {1 | 2}  
1
RECall  
<Space>  
2
3 --- 2 8  
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Commands  
REFerence  
This command reads and sets the reference used when displaying the  
attenuation in the ATT---REF mode. The units for command mode and  
responses is dB. Values smaller than 0.01 dB are rounded to the nearest  
one-hundredth dB. The REF value may not exceed 99.99. The combina-  
tion of the REF value and the ATTen value may not exceed 99.99. For  
example, if the ATTen value is set to 30 dB and the REF value is set to  
---70 dB, the resultant ATT---REF value would be 100 dB, and an execution  
error event would result. The factory default for REF is 0.00 (dB).  
N/A  
Related Commands:  
REFerence <NRf>  
REFerence?  
Syntax:  
<Space>  
?
<NRf>  
REFerence  
<NRf> is a number that cannot exceed 99.99.  
Arguments:  
Examples:  
REF 45.00  
sets the REFerence value to 45.00 dB.  
REF?  
would return the string :REF 45.00.  
*RST (No Query Form)  
The *RST (Reset) command returns the OA 5000 to a known set of instru-  
ment settings.  
NOTE  
The *RST command can take 5 to 10 seconds to complete depend-  
ing on attenuation settings.  
*PSC, FACTory.  
Related Commands:  
Syntax:  
*RST  
*RST  
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Commands  
*RST does the following:  
H
H
H
Puts the OA 5000 into the Operation Complete Command Idle State.  
Puts the OA 5000 into the Operation Complete Query Idle State.  
Returns the instrument settings to those listed on page 3---24.  
The *RST command does not alter the following:  
H
H
H
H
H
H
H
H
The state of the IEEE Std 488.1 interface.  
The selected IEEE Std 488.1 address of the OA 5000.  
Calibration data that affects device specifications.  
The Output Queue.  
The Standard Status Register Enable setting.  
The Standard Event Status Enable setting.  
The Power-on status clear flag setting.  
HEADer and VERBose settings.  
*SRE  
The *SRE (Service Request Enable) command sets and queries the bits in  
the Service Request Enable Register (SRER). For a complete discussion of  
the use of these registers, see page 3---35.  
ALLev?, *CLS, DESE, *ESE, *ESR, EVENT?, EVMSG?, EVQty?, *PSC,  
*STB.  
Related Commands:  
Syntax:  
*SRE <NRf>  
*SRE?  
<Space>  
?
<NRf>  
*SRE  
<NRf> is a value in the range from 0 to 255. The binary bits of the SRER are  
set according to this value. Using an out-of-range value causes an execution  
error.  
Arguments:  
The power-on default for SRER is 0 if *PSC is 1. If *PSC is 0, the SRER  
maintains its value through a power cycle.  
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*SRE 48  
sets the bits in the SRER to 00110000 binary.  
Examples:  
*SRE?  
might return a value of 32, showing that the bits in the SRER have the  
binary value 00100000.  
*STB? (Query Only)  
The *STB? (Read Status Byte) query returns the Status Byte Register (SBR)  
using the Master Summary Status (MSS) bit. For a complete discussion of  
the use of these registers, see page 3---35.  
ALLev?, *CLS, DESE, *ESE, *ESR, EVENT?, EVMSG?, EVQty?, *SRE.  
Related Commands:  
Syntax:  
*STB?  
*STB  
?
*STB?  
Examples:  
might return the value 96, showing that the STB contains the binary  
value 01100000.  
STORe (Store Attenuation)  
The STORe command sets or reads the value of stored positions 1 or 2.  
Using the command form (for example, STOR1) without a value specified  
stores the current attenuation in the specified location.  
RECall  
Related Commands:  
Syntax:  
STORe{1|2}?  
STORe{1|2}  
STORe{1|2} <NRf>  
?
1
2
STORe  
<Space>  
<NRf>  
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Commands  
<NRf> specifies the attenuation value to be stored. The range for the attenu-  
ation value is 0 <NRf> 60.00. All attenuation values associated with the  
STORe command and query forms are in absolute dB and never include the  
REFERENCE value, even if the front panel display shows that the OA 5000 is  
set to ATT-REF mode.  
Arguments:  
Examples:  
STORE1?  
returns the attenuation value stored in register 1, in the form:.  
:STORE1 <NRf>  
STORE1 20.00  
sets the attenuation value in stored register 1 to 20.00 dB.  
STORE2  
stores the current attenuation value in stored register 2.  
*TST? (Query Only)  
The *TST? (Self-Test) query runs the OA 5000 internal self-test and reports  
the results. The self-test does not require operator interaction and does not  
create bus conditions that violate IEEE Std 488.1/488.2 standards. When  
complete, the OA 5000 returns to the state it was in just prior to the self-test.  
The test response is a value <NR1> as described in Table 3-7.  
*TST?  
Syntax:  
*TST  
?
NOTE  
The *TST? query can take 5 seconds or more to respond.  
Table 3-7: Results from *TST?  
<NR1>  
Meaning  
0
Test completed with no errors detected  
ROM checksum error  
Non-volatile RAM is bad  
System timer is bad  
101, 102  
104  
115  
401  
Calibration EEPROM is bad  
Calibration needed  
410, 411  
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Commands  
NOTE  
If an error is detected, *TST? stops and returns an error code and  
does not complete any remaining tests. It also places a device  
dependent event in the event queue.  
*TST?  
Examples:  
might return the value 115, indicating that the system timer is not work-  
ing correctly.  
VERBOSE  
The VERBOSE command sets and queries the Verbose Header State that  
controls the length of headers on query responses. This command does not  
affect IEEE Std 488.2 Common Commands (those starting with an asterisk).  
HEADER, *LRN?.  
Related Commands:  
Syntax:  
VERBOSE { ON | OFF | <NRf> }  
VERBOSE?  
ON  
<Space>  
OFF  
<NRf>  
VERBOSE  
?
ON or <NRf> ¸ 0 sets the Verbose Header State TRUE, which returns  
full-length headers for applicable setting queries.  
Arguments:  
Examples:  
OFF or <NRf> = 0 sets the Verbose Header State FALSE, which returns  
minimum-length headers for applicable setting queries.  
VERBOSE ON  
sets the Verbose Header State TRUE.  
VERBOSE?  
might return the value 1, showing that the Verbose Header State is  
TRUE.  
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Commands  
*WAI (No Query Form)  
The *WAI (Wait) command prevents the OA 5000 from executing further  
commands or queries until all pending operations finish.  
*OPC, ADJusting?.  
Related Commands:  
Syntax:  
*WAI  
*WAI  
WAVelength  
This commands set or queries the wavelength used by the instrument when  
determining the equivalent attenuator positioning for a given attenuation.  
N/A  
Related Commands:  
Syntax:  
WAVelength <NRf>  
WAVelength?  
<Space>  
<NRf>  
WAVelength  
?
The valid range for the wavelength argument is 600 nm to 1700 nm. Default  
units are always in nanometers with N (for nano or 1E---09) and U (for micro  
or 1E---06) accepted as multipliers; M (for meters) is also an acceptable term  
(see examples below).  
Arguments:  
Examples:  
WAV?  
returns the value of wavelength to which the OA 5000 is set. An example  
response is:  
:WAVELENGTH 1300  
WAV 1300  
sets the wavelength to 1300 nm.  
WAV 1300NM  
sets the wavelength to 1300 nm.  
WAV 1.3UM  
sets the wavelength to 1300 nm.  
WAV 1.3E-09M  
sets the wavelength to 1300 nm.  
3 --- 3 4  
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Status and Events  
The OA 5000 provides a status and event reporting system for the GPIB  
interfaces. This system informs you of certain significant events that occur  
within the OA 5000.  
The OA 5000 status handling system consists of five 8-bit registers and two  
queues. This section describes these registers and components and ex-  
plains how the event handling system operates.  
The registers in the event handling system fall into two functional groups:  
Registers  
H
The Standard Event Status Register (SESR) and the Status Byte Regis-  
ter (SBR) contain information about the status of the OA 5000. These  
registers are therefore called the Status Registers.  
H
The Device Event Status Enable Register (DESER), the Event Status  
Enable Register (ESER), and the Service Request Enable Register  
(SRER) determine whether selected types of events are reported to the  
Status Registers and the Event Queue. These three registers are called  
the Enable Registers.  
Status Registers  
The Standard Event Status Register (SESR) and the Status Byte Register  
(SBR) record certain types of events that may occur while the OA 5000 is in  
use. These registers are defined by IEEE Std 488.2-1987. Refer also to  
Figure 3-6 and Table 3-8.  
Each bit in a Status Register records a particular type of event, such as an  
execution error or service request. When an event of a given type occurs,  
the bit that represents that type of event is set to a value of one. (You can  
disable bits so that they ignore events and remain at zero; see the Enable  
Registers section on page 3---37.) Reading the status registers tells you  
what types of events have occurred.  
The Standard Event Status Register (SESR) The SESR, shown in  
Figure 3-6, records eight types of events that can occur within the OA 5000.  
Use the *ESR? query to read the SESR register. Reading the register clears  
the bits of the register so that the register can accumulate information about  
new events.  
7
6
5
4
3
2
1
0
PON URQ CME EXE DDE QYE RQC OPC  
Figure 3-6: The Standard Event Status Register (SESR)  
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Status and Events  
Table 3-8: SESR Bit Functions  
Function  
Bit  
7 (MSB)  
6
PON (Power On). Shows that the OA 5000 was powered on.  
URQ (User Request). Shows that the Remote button was  
pressed.  
5
4
CME (Command Error). Shows that an error occurred while  
the OA 5000 was parsing a command or query. Command  
error messages are listed in Table 3-11 on page 3---41.  
EXE (Execution Error). Shows that an error occurred while  
the OA 5000 was executing a command or query. Execution  
error messages are listed in Table 3-12 on page 3---42.  
3
2
DDE (Device Error). Shows that a device error occurred. De-  
vice error messages are listed in Table 3-13 on page 3---43.  
QYE (Query Error). Shows that either an attempt was made  
to read the Output Queue when no data was present or  
pending, or that data in the Output Queue was lost.  
1
RQC (Request Control). Not used.  
0 (LSB)  
OPC (Operation Complete). Shows that the operation is com-  
plete. This bit is set by the *OPC command.  
The Status Byte Register (SBR) shown in Figure 3-7, records wheth-  
er output is available in the Output Queue, whether the OA 5000 requests  
service, and whether the SESR has recorded any events.  
Use a Serial Poll or the *STB? query to read the contents of the SBR. Refer  
to Table 3-9. The bits in the SBR are set and cleared depending on the  
contents of the SESR, the Event Status Enable Register (ESER), and the  
Output Queue. (When you use a Serial Poll to obtain the SBR, bit 6 is the  
RQS bit. When you use the *STB? query to obtain the SBR, bit 6 is the MSS  
bit.)  
6
RQS  
7
5
4
3
2
1
0
ESB MAV  
6
MSS  
Figure 3-7: The Status Byte Register (SBR)  
3 --- 3 6  
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Status and Events  
Table 3-9: SBR Bit Functions  
Bit  
Function  
Not used (always 0).  
7 (MSB)  
6
RQS (Request Service ), obtained from a serial poll. Shows  
that the OA 5000 requests service from the GPIB controller.  
6
MSS (Master Status Summary), obtained from *STB? query.  
Summarizes the ESB and MAV bits in the SBR.  
5
ESB (Event Status Bit). Shows that status is enabled and  
present in the SESR.  
4
MAV (Message Available). Shows that output is available in  
the Output Queue.  
3 --- 0  
Not used (always 0).  
Enable Registers  
The DESER, ESER, and SRER allow you to select which events are reported  
to the Status Registers and the Event Queue. Each Enable Register acts as  
a filter to a Status Register (the DESER also acts as a filter to the Event  
Queue), and can prevent information from being recorded in the register or  
queue.  
Each bit in an Enable Register corresponds to a bit in the Status Register it  
controls. In order for an event to be reported to its bit in the Status Register,  
the corresponding bit in the Enable Register must be set to one. If the bit in  
the Enable Register is set to zero, the event is not recorded.  
The bits in the Enable Registers are set using various commands. The  
Enable Registers and the commands used to set them are described below.  
The Device Event Status Enable Register (DESER) is shown in  
Figure 3-8. This register controls which types of events are reported to the  
SESR and the Event Queue. The bits in the DESER correspond to those in  
the SESR, as described earlier.  
Use the DESE command to enable and disable the bits in the DESER. Use  
the DESE? query to read the DESER.  
7
6
5
4
3
2
1
0
PON URQ CME EXE DDE QYE RQC OPC  
Figure 3-8: The Device Event Status Enable Register (DESER)  
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Status and Events  
The Event Status Enable Register (ESER) is shown in Figure 3-9. It  
controls which types of events are summarized by the Event Status Bit  
(ESB) in the SBR.  
Use the *ESE command to set the bits in the ESER, and use the *ESE?  
query to read it.  
7
6
5
4
3
2
1
0
PON URQ CME EXE DDE QYE RQC OPC  
Figure 3-9: The Event Status Enable Register (ESER)  
The Service Request Enable Register (SRER) is shown in Figure  
3-10. It controls which bits in the SBR generate a Service Request and are  
summarized by the Master Status Summary (MSS) bit.  
Use the *SRE command to set the SRER. Use the SRE? query to read it.  
The RQS bit remains set to one until either the Status Byte Register is read  
with a Serial Poll or the MSS bit changes back to a zero.  
7
6
5
4
3
2
1
0
ESB MAV  
Figure 3-10: The Service Request Enable Register (SRER)  
The Enable Registers and the *PSC Command  
The *PSC command controls the contents of the Enable Registers at power-  
on. Sending *PSC 1 sets the Enable Registers at power on as follows:  
H
H
H
DESER 255 (equivalent to a DESe 255 command)  
ESER 0 (equivalent to an *ESE 0 command)  
SRER 0 (equivalent to an *SRE command)  
Sending *PSC 0 lets the Enable Registers maintain their values in nonvola-  
tile memory through a power cycle.  
NOTE  
To enable the PON (Power On) event to generate a Service Re-  
quest, send *PSC 0, use the DESe and *ESE commands to enable  
PON in the DESER and ESER, and use the *SRE command to  
enable bit 5 in the SRER. Subsequent power-on cycles will gener-  
ate a Service Request.  
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Status and Events  
The OA 5000 status and event reporting system contains two queues: the  
Output Queue and the Event Queue.  
Queues  
The Output Queue  
The Output Queue stores up to 8000 bytes of a query response while it is  
waiting to be output. The Output Queue is emptied each time a new com-  
mand or query message is received, so that any query response must be  
read before the next command or query is sent, or responses to earlier  
queries will be lost, and an error may result.  
The Event Queue  
The Event Queue stores detailed information on up to 32 events. If more  
than 32 events stack up in the Event Queue, the 32nd event is replaced by  
event code 350, Too many events.”  
Read the Event Queue with either the EVENT? query (which returns only the  
event number) or with the EVMSG? query (which returns the event number  
and a text description of the event). Reading an event removes it from the  
queue.  
Before reading an event from the Event Queue, you must use the *ESR?  
query to read the summary of that event from the SESR. This makes the  
events summarized by the *ESR? read available to the EVENT? and  
EVMSG? queries, and empties the SESR.  
Reading the SESR erases any events that were summarized by a previous  
*ESR? read but not read from the Event Queue. Events that follow an *ESR?  
read are put in the Event Queue but are not available until *ESR? is used  
again.  
Figure 3-11, on page 3---40, shows how to use the status and event handl-  
ing system. In the explanation that follows, numbers in parentheses refer to  
numbers in Figure 3-11.  
Event Handling  
Sequence  
When an event occurs, a signal is sent to the DESER (1). If that type of  
event is enabled in the DESER (that is, if the bit for that event type is set to  
1), the appropriate bit in the SESR is set to one and the event is recorded in  
the Event Queue (2). If the corresponding bit in the ESER is also enabled  
(3), then the ESB bit in the SBR is set to one (4).  
When output is sent to the Output Queue, the MAV bit in the SBR is set to  
one (5).  
When a bit in the SBR is set to one and the corresponding bit in the SRER is  
enabled (6), the MSS bit in the SBR is set to one and a service request is  
generated (7).  
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Status and Events  
1
7
6
5
4
3
2
1
0
Device Event Status Enable Register  
(DESER)  
PON URQ CME EXE DDE QYE RQC OPC  
2
7
6
5
4
3
2
1
0
Standard Event Status Register  
(SESR)  
Event  
Queue  
PON URQ CME EXE DDE QYE RQC OPC  
Event  
Event  
Event  
3
7
6
5
4
3
2
1
0
Event Status Enable Register  
(ESER)  
Output  
Queue  
PON URQ CME EXE DDE QYE RQC OPC  
Byte  
Byte  
Byte  
4
5
6
RQS  
7
5
4
3
2
1
0
Status Byte Register  
(SBR)  
ESB MAV  
6
MSS  
6
7
7
6
5
4
3
2
1
0
Service Request Enable Register  
(SRER)  
ESB MAV  
Figure 3-11: Status and Event Handling Process  
Whenever a command is issued that results in a conflict, an event is gener-  
ated on the EXE bit (bit 4).  
Conflicts  
You can avoid generating this event if you concatenate commands so that  
the conflict is resolved when the command is completed. For example, when  
setting the attenuator in DBR mode, always make sure that the REF com-  
mand precedes the ATT:DBR command or an execution warning may result.  
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Status and Events  
Tables 3-10 through 3-15 list all the programming interface messages the  
OA 5000 generates in response to commands and queries.  
Messages  
For most messages, a secondary message from the OA 5000 gives more  
detail about the cause of the error or the meaning of the message. This  
message is part of the message string, and is separated from the main  
message by a semicolon.  
Each message is the result of an event. Each type of event sets a specific bit  
in the SESR, and is controlled by the equivalent bit in the DESER. Thus,  
each message is associated with a specific SESR bit. In the message tables  
that follow, the associated SESR bit is specified in the table title, with excep-  
tions noted with the error message text.  
Table 3-10 shows the messages when the system has no events or status to  
report. These have no associated SESR bit.  
Table 3-10: No Event Messages  
Code  
Message  
0
1
No events to report --- queue empty  
No events to report --- new events pending *ESR?  
Table 3-11 shows the error messages generated by improper command  
syntax. Check that the command is properly formed and that it follows the  
rules in the Command Syntax chapter starting on page 3---5.  
Table 3-11: Command Error Messages — CME Bit 5  
Code  
100  
101  
102  
103  
104  
105  
106  
108  
109  
110  
111  
112  
Message  
Command error  
Invalid character  
Syntax error  
Invalid message or unit separator  
Data type error  
GET not allowed  
Invalid program data separator  
Parameter not allowed  
Missing parameter  
Command header error  
Header separator error  
Program mnemonic too long  
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Status and Events  
Table 3-11: Command Error Messages CME Bit 5 (Cont.)  
Code  
Message  
113  
118  
120  
121  
123  
124  
128  
130  
131  
134  
138  
140  
141  
144  
148  
150  
151  
158  
160  
161  
168  
Undefined header  
Query not allowed  
Numeric data error  
Invalid character in number  
Numeric overflow  
Too many digits  
Numeric data not allowed  
Suffix error  
Invalid suffix  
Suffix too long  
Suffix not allowed  
Character data error  
Invalid character data  
Character data too long  
Character data not allowed  
String data error  
Invalid string data  
String data not allowed  
Block data error  
Invalid block data  
Block data not allowed  
Table 3-12 lists the execution errors that are detected during execution of a  
command. In these error messages, you should read macroas alias.”  
Table 3-12: Execution Error Messages EXE Bit 4  
Code  
200  
Message  
Execution error  
Parameter error  
Settings in conflict  
220  
221  
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Status and Events  
Table 3-12: Execution Error Messages EXE Bit 4 (Cont.)  
Code  
222  
Message  
Data out of range  
Too much data  
223  
Table 3-13 lists the device errors that can occur during operation of the  
OA 5000. These errors may indicate that the OA 5000 needs repair.  
Table 3-13: Device Error Messages DDE Bit 3  
Code  
300  
310  
313  
315  
350  
Message  
Internal error  
System error  
Calibration memory lost  
Configuration memory lost  
Too many events (Does not set DDE bit)  
Table 3-14 lists the system event messages. These messages are generated  
whenever certain system conditions occur.  
Table 3-14: System Event Messages QYE Bit 2  
Code  
401  
402  
403  
410  
420  
430  
440  
Message  
Power on --- PON Bit 7  
Operation complete --- OPC Bit 0  
User request --- URQ Bit 6  
Query INTERRUPTED  
Query UNTERMINATED  
Query DEADLOCKED  
Query UNTERMINATED after indefinite response  
Table 3-15 lists warning messages that do not interrupt the flow of command  
execution. These notify you that you might get unexpected results.  
Table 3-15: Execution Warning Messages EXE Bit 4  
Code  
Message  
500  
Execution warning  
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Status and Events  
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Programming  
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Appendices  
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Appendix A: Accessories  
Some accessories are included with the OA 5000. If you wish to purchase  
optional accessories, or purchase additional standard accessories, see a  
Tektronix products catalog or contact your local Tektronix field representa-  
tive.  
H
This manual, the OA 5000 Optical Attenuator User Manual (Tektronix part  
Standard  
Accessories  
number 070-7612-03).  
H
H
The TM 5003 Power Module, Tektroninx part number 620-0057-00  
Two universal optical input and output connector kits, Tektronix part  
number 020-1885-00.  
H
Two blank plug-in panels, Tektronix part number 016-0195-05  
The optional accessories appropriate for your instrument depend on which  
OA 5000 Optical Attenuator you purchased.  
Optional  
Accessories  
Optical Cables, Single Mode, 2 meter, 8/125 micron  
H
H
H
H
H
FC/PC to Diamond 2.5, Tektronix part number 174-1497-00.  
FC/PC to Diamond 3.5, Tektronix part number 174-1385-00.  
FC/PC to ST, Tektronix part number 174-1386-00.  
FC/PC to FC/PC, Tektronix part number 174-1387-00.  
FC/PC to Biconic, Tektronix part number 174-1388-00.  
Optical Cables, Multimode, 2 meter, 62.5/140 micron  
H
H
H
FC/PC to Biconic, Tektronix part number 174-2323-00.  
FC/PC to SMA906, Tektronix part number 174-2324-00.  
FC/PC to FC/PC, Tektronix part number 174-2322-00.  
Optical Cables, Multimode, 2 meter, 100/140 micron  
(Note: at the time of publication, the 100 m cables listed below did not  
utilize physical contact connectors)  
H
H
H
FC to SMA, Tektronix part number 174-0878-00.  
ST to SMA, Tektronix part number 174-0876-00.  
Diamond 2.5 to SMA, Tektronix part number 174-1303-00.  
OA 5000 Series User Manual  
A --- 1  
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Appendix A: Accessories  
A --- 2  
Appendices  
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Appendix B: Specifications  
The performance characteristics described in this appendix (Tables A-1  
through A-3) are valid under the following conditions:  
H
The instrument must have been calibrated at an ambient temperature  
between +20_ C and +30_ C.  
H
H
The instrument must have had a warm-up period of at least 20 minutes.  
All optical connections to the instrument are made using physical con-  
tact connectors. Tektronix offers limited selection of fiber optic jumper  
cables which utilize physical contact on the connector ends (for exam-  
ple: Tektronix part number 174-1387-00, see Appendix A).  
H
Both input and output connectors have been cleaned as described on  
page A---15.  
Table A-1: Optical Characteristics  
Characteristic  
Specification  
Wavelength Range  
OA 5002  
1100 --- 1600 nm  
750 --- 1600 nm  
OA 5012/22/32  
Input  
OA 5002  
OA 5012  
OA 5022  
OA 5032  
Single Mode Fiber  
50 m Multimode Fiber  
62.5 m Multimode Fiber  
100 m Multimode Fiber  
Insertion Loss  
750 --- 1100 nm  
1100---1350 nm  
1350---1600 nm  
4.0 dB (OA 5012/22/32 only)  
2.0 dB  
2.5 dB  
Return Loss  
OA 5002  
OA 5012/5022/5032  
--- 45 dB  
--- 25 dB  
Attenuation Range  
OA 5002  
1100 --- 1350 nm  
1350---1600 nm  
OA 5012/22/32  
750---1350 nm  
1350---1600 nm  
60 dB (calibrated, 0.01 dB step size)  
50 dB (calibrated, 0.01 dB step size)  
60 dB (calibrated, 0.01 dB step size)  
50 dB (calibrated, 0.01 dB step size)  
Maximum Attenuation  
OA 5002/5012/5022  
OA 5032  
100 dB (shutter activated)  
90 dB (shutter activated)  
Repeatability  
0.05 dB  
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A --- 3  
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Appendix B: Specifications  
Table A-1: Optical Characteristics (Cont.)  
Characteristic  
Specification  
Linearity  
0.1 dB max (typically 0.05 dB)  
Accuracy  
OA 5002  
1310 20 nm  
1550 20 nm  
0.15 dB (typically 0.05 dB)  
0.15 dB (0 to 40 dB) (typically 0.05 dB)  
0.20 dB (40 dB)  
All other wavelengths  
OA 5012/5022/5032  
Typically 0.25 dB  
850 20 nm  
1310 20 nm  
1550 20 nm  
All other wavelengths  
0.20 dB (typically 0.05 dB)  
0.20 dB (typically 0.05 dB)  
0.20 dB (typically 0.05 dB)  
Typically 0.25 dB  
Table A-2: Mechanical Characteristics  
Characteristic  
Specification  
Net Weight  
1.3 kg (2.86 lb.)  
External Dimensions  
Height  
Width  
14.0 cm (5.5 in.)  
23.4 cm (9.2 in.)  
44.4 cm (17.4 in.)  
Length  
Table A-3: Environmental Performance  
Specification  
Characteristic  
Temperature  
Operating  
0_ C to +50_ C (32_ F to 122_ F)  
Nonoperating  
(storage)  
--- 40_ C to +70_ C ( --- 40_ F to 160_ F)  
(Meets MIL---T---28800D, class 5.)  
Altitude  
Operating  
4.6 km (15,000 ft.)  
Nonoperating  
15 km (50,000 feet)  
(Exceeds MIL---T---28800D, class 5.)  
A --- 4  
Appendices  
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Appendix B: Specifications  
Table A-3: Environmental Performance (cont.)  
Characteristic  
Specification  
Humidity  
Operating and  
Nonoperating  
95% RH: 11_ C to 30_ C (52_ F to 86_ F)  
75% RH: 11_ C to 40_ C (52_ F to 104_ F)  
45% RH: 11_ C to 50_ C (52_ F to 122_ F)  
(Exceeds MIL---T---28800D, Class 5, noncon-  
densing)  
Vibration1  
0.38 mm (0.015 in.) p-p, 5 Hz to 55 Hz, 75 min-  
utes. Meets MIL---T---28800D, Class 5, when  
installed in qualified power modules2.  
1
Requires retainer clip  
Refer to TM5000 Power Module specifications  
Without power module  
2
3
Shock1  
30 gs, (1/2 sine), 11 ms duration, 3 shocks in  
each direction along 3 major axes, 18 total  
shocks. Meets MIL---T---28800D, Class 5, when  
installed in qualified power modules.  
Bench Handling3  
12 drops from 45_, 4 in. or equilibrium, whichev-  
er occurs first. Meets MIL---T---28800D, Class 5,  
when installed in qualified power modules2, and  
IEC 348 (Electronic measuring apparatus).  
Packaged Product Vi-  
bration and Shock1  
The packaged product qualifies under the Na-  
tional Safe Transit Associations Preshipment  
Test Procedures, Project 1A---B---1 and  
1A --- B --- 2.  
Electrical Discharge  
8 kV maximum discharge applied to operating  
instrument from an ESD source per IEC 801---2  
(150 /150 pF)  
1
Requires retainer clip  
2
3
Refer to TM5000 Power Module specifications  
Without power module  
OA 5000 Series User Manual  
A --- 5  
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Appendix B: Specifications  
A --- 6  
Appendices  
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Appendix C: Interface Specifications  
This appendix describes details of the remote interface of the Optical  
Attenuator, that is, the GPIB. Normally, you will not need this information to  
use the OA 5000, but the information is useful when connecting to control-  
lers of unusual configuration.  
This appendix also contains general information that pertains to program-  
ming with both interfaces. This information includes a chart of the ASCII  
character set and a list of reserved words.  
Table A-4 shows the standard interface messages that are supported by the  
OA 5000.  
Interface Messages  
Table A-4: OA 5000 Standard Interface Messages  
Message  
GPIB  
Yes  
No  
DCL  
GET  
GTL  
Yes  
Yes  
No  
LLO  
PPC  
PPD  
No  
PPE  
No  
PPU  
No  
SDC  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
SPD  
SPE  
UNL  
UNT  
Listen Addresses  
Talk Addresses  
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A --- 7  
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Appendix C: Interface Specifications  
Table A-5 shows the character set used for all messages to and from the  
OA 5000. This is identical to standard ASCII.  
Character Set  
(ASCII Chart)  
Table A-5: The ASCII Character Set  
0
1
2
3
4
5
6
7
0
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
NUL  
DLE  
space  
0
@
P
p
0
1
16  
17  
32  
48  
49  
64  
65  
80  
81  
96  
97  
112  
113  
SOH  
STX  
ETX  
EOT  
ENQ  
ACK  
BEL  
BS  
DC1  
DC2  
DC3  
DC4  
NAK  
SYN  
ETB  
CAN  
EM  
!
1
2
3
4
5
6
7
8
9
:
A
B
C
D
E
F
Q
R
S
T
U
V
W
X
Y
Z
[
a
b
c
d
e
f
q
r
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
46  
47  
2
3
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
50  
51  
52  
53  
54  
55  
56  
57  
58  
59  
60  
61  
62  
63  
66  
67  
68  
69  
70  
71  
72  
73  
74  
75  
76  
77  
78  
79  
82  
83  
84  
85  
86  
87  
88  
89  
90  
91  
92  
93  
94  
95  
98  
99  
114  
115  
116  
117  
118  
119  
120  
121  
122  
123  
124  
125  
126  
#
$
%
&
s
t
4
100  
101  
102  
103  
104  
105  
106  
107  
108  
109  
110  
111  
u
v
w
x
y
z
5
6
G
H
I
g
h
i
7
(
8
HT  
)
9
LF  
SUB  
ESC  
FS  
*
+
,
J
j
10  
11  
12  
13  
14  
15  
VT  
;
K
L
k
l
{
FF  
<
=
>
?
\
|
CR  
GS  
---  
.
M
N
O
]
m
n
o
}
SO  
RS  
^
_
~
SI  
US  
/
rubout  
127  
A --- 8  
Appendices  
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Appendix C: Interface Specifications  
The OA 5000 supports many GPIB function subsets, as listed below. Some  
of the listings describe subsets that the OA 5000 does not support.  
GPIB Function  
Subsets  
H
H
H
SH1 (Source Handshake). The OA 5000 can transmit multi-line mes-  
sages across the GPIB.  
AH1 (Acceptor Handshake). The OA 5000 can receive multi-line mes-  
sages across the GPIB.  
T6 (Talker). The OA 5000 becomes a talker when its talk address is sent  
with the ATN (Attention) line asserted. It ceases to be a talker when  
another devices talk address is sent with ATN asserted. The OA 5000  
has no talk-only capability.  
H
L4 (Listener). The OA 5000 becomes a listener when its listen address is  
sent with the ATN (Attention) line asserted. The OA 5000 does not have  
listen-only capability.  
H
H
H
SRQ (Service Request). The OA 5000 asserts the SRQ (Service Re-  
quest) line to notify the controller when it requires service.  
RL1 (Remote/Local). The OA 5000 responds to both the GTL (Go To  
Local) and LLO (Local Lock Out) interface messages.  
PPO (Parallel Poll). The OA 5000 has no parallel poll capability. It does  
not respond to the following interface messages: PPC, PPD, PPE, and  
PPU. The OA 5000 does not send out a status message when the ATN  
(Attention) and EOI (End of Instruction) lines are asserted simultaneous-  
ly.  
H
H
DCL (Device Clear). When acting as a listener, the OA 5000 responds to  
the DCL (Device Clear) and SDC (Selected Device Clear) interface  
messages.  
DT (Device Trigger). The OA 5000 does not respond to the GET (Group  
Execute Trigger) interface message.  
H
H
C0 (Controller). The OA 5000 cannot control other devices.  
E2 (Electrical). The OA 5000 uses tri-state buffers to provide optimal  
high-speed data transfer.  
OA 5000 Series User Manual  
A --- 9  
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Appendix C: Interface Specifications  
A --- 1 0  
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Appendix D: Using the *OPC  
Query/Command  
When you are using the OA 5000 in an automated test environment, it is  
important that you be aware of the finite times for certain OA 5000 com-  
mands to complete. For example: suppose you develop an automated test  
in which the attenuator is adjusted over the GPIB bus via the ATT:DB n  
command. After each adjustment by the attenuator, you might then make an  
automated reading from an optical power meter (such as the Tektronix  
OCP 5502). In such a sequence, it is important that you not initiate the  
reading from the optical power meter before the attenuator has completed  
all adjustments and has come to a stable position (that is, the ATT ADJ  
indicator is no longer illuminated).  
Below is an example that illustrates the use of GPIB commands and queries  
utilizing the *OPC? query/command. In this example, queries to other instru-  
ments (such as the power meter in this example) are not made until all of  
the OA 5000s pending operations have completed.  
Example: A command is sent to the OA 5000 to change attenuation to  
45 dB; the command is immediately followed by an *OPC? query across the  
GPIB bus to the same OA 5000.  
1. Write to the OA 5000 GPIB address: ATT:DB 45.00; *OPC?  
2. Read from OA 5000 GPIB address: 1  
Depending on the previous attenuation setting of the OA 5000, several  
seconds may be required before the ATT:DB command is completed and  
the *OPC? produces a 1in the OA 5000 GPIB output queue. After the  
*OPC? query is sent to the OA 5000, the programmer should immediately  
attempt a GPIB read instruction from the controller. The programmers  
controller should wait until the OA 5000 finishes all adjustments and the  
*OPC query provides a 1to be read.  
NOTE  
It is important that you remember to set the time-out of the control-  
ler’s GPIB READ instruction to be greater than the longest time  
possible for the OA 5000 to make any adjustments (up to five  
seconds may be required to make large changes to attenuation  
settings).  
OA 5000 Series User Manual  
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Appendix D: Using the *OPC Query/Command  
You can also have the OA 5000 set the OPC bit of the SESR by using the  
command form of *OPC instead of the query form. By setting the OPC bit to  
1via an *OPC command, an SRQ will be generated assuming the user  
has enabled the proper register bits.  
H
Advanced programmers can develop other methods to accomplish the  
set-and-wait-until-complete routine utilizing the event queues and status  
registers provided in the OA 5000.  
A --- 1 2  
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Appendix E: Packing for Shipment  
If you ship the OA 5000, pack it in the original shipping carton and packing  
material. If the original packing material is not available, package the instru-  
ment as follows:  
Step 1: Obtain a corrugated cardboard shipping carton with inside  
dimensions at least 15 cm (6 in) taller, wider, and deeper than the  
OA 5000. The shipping carton must be constructed of cardboard with  
375 pound test strength.  
Step 2: If you are shipping the OA 5000 to a Tektronix field office for  
repair, attach a tag to the OA 5000 showing the instrument owner and  
address, the name of the person to contact about the instrument, the  
instrument type, and the serial number.  
Step 3: Wrap the OA 5000 with polyethelene sheeting or equivalent  
material to protect the finish.  
Step 4: Cushion the OA 5000 in the shipping carton by tightly packing  
dunnage or urethane foam on all sides between the carton and the  
OA 5000. Allow 7.5 cm (3 in) on all sides, top, and bottom.  
Step 5: Seal the shipping carton with shipping tape or an industrial  
stapler.  
OA 5000 Series User Manual  
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Appendix E: Packing for Shipment  
A --- 1 4  
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Appendix F: Maintenance  
This appendix describes how to perform routine maintenance on the  
OA 5000 Series Optical Attenuators. There are no user-serviceable parts in  
the OA 5000. Should your instrument need service, contact your nearest  
Tektronix service representative.  
The following maintenance procedures are discussed in this chapter.  
H
H
Cleaning the Optical Port  
Changing Optical Port Connectors  
If the OA 5000 performance appears degraded, the optical fiber and optical  
port may be dirty. Clean the fiber connector with a clean cloth. To clean an  
optical port, perform the following steps:  
Cleaning the  
Optical Ports  
1. Turn the power supply off or pull the OA 5000 out of the power module.  
2. Use a Phillips screwdriver to remove the four screws that secure the  
bulkhead connector to the front panel (see Figure A-1 on page A---16).  
3. Gently pull the bulkhead out of the unit and unscrew the fiber connector.  
Be careful not to pull beyond the fiber slack. If there is insufficient slack  
or if you accidently push the disconnected fiber back into the instru-  
ment, then perform the following three steps:  
a. Using a flat-blade screwdriver, turn the securing screw on the right-  
side cover 90_ counter-clockwise and remove the side cover (See  
Figure A-1).  
b. You will now have access to the optical fiber. Unscrew it from the  
bulkhead if necessary or push it back through the front panel.  
c. Reinstall the cover when finished. Turn the securing screw to lock  
the side cover.  
4. Using a soft, lint-free cloth with a high-quality glass cleaner, clean the tip  
of the fiber cable.  
5. If available, use low-pressure compressed air or canned air to blow any  
dirt out of the bulkhead connector. If compressed air is not available,  
then the bulkhead will have to be taken apart and cleaned. Refer to the  
Changing the Optical Port Connectors procedure, on page A---17, for  
information about bulkhead disassembly.  
6. After cleaning the bulkhead, reconnect the fiber and install the bulk-  
head. Be sure to reinstall the dust cover chain.  
OA 5000 Series User Manual  
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Appendix F: Maintenance  
NOTE  
To keep cleaning to a minimum, install the dust cover when no fiber  
is connected to the optical port.  
Securing Screw  
Optical Fiber Connector  
Figure A-1: Removing the Optical Bulkhead Connector  
A --- 1 6  
Appendices  
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Appendix F: Maintenance  
The OA 5000 is shipped with the FC connector bulkhead and dust cover  
installed. If you wish to change to the ST, DIN 47256, or SC connectors,  
perform the following procedure.  
Changing the  
Optical Port  
Connectors  
1. Turn the power supply off first and then pull the OA 5000 out of the  
power module.  
2. Use a Phillips screwdriver to remove the four screws that secure the  
bulkhead connector to the front panel (see Figure A-1).  
3. Gently pull the bulkhead out of the unit and unscrew the fiber connector.  
Be careful not to pull beyond the fiber slack. If there is insufficient slack  
or if you accidently push the disconnected fiber back into the instru-  
ment, then perform the following three steps:  
a. Using a flat-blade screwdriver, turn the securing screw on the right-  
side cover 90_ counter-clockwise and remove the side cover (See  
Figure A-1).  
b. You will now have access to the optical fiber. Unscrew it from the  
bulkhead if necessary or push it back through the front panel.  
c. Reinstall the side cover when finished. Turn the securing screw to  
lock the side cover.  
4. Disassemble the bulkhead as shown in Figures A-2 through A-5.  
Figure A-2: FC Optical Bulkhead Assembly  
OA 5000 Series User Manual  
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Appendix F: Maintenance  
Figure A-3: ST Optical Bulkhead Assembly  
Figure A-4: DIN 47256 Optical Bulkhead Assembly  
A --- 1 8  
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Appendix F: Maintenance  
Figure A-5: SC Optical Bulkhead Assembly  
5. Replace the current bulkhead with the one you wish to use and re-as-  
semble.  
6. Installation is the reverse of steps 1 through 3.  
OA 5000 Series User Manual  
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Appendix F: Maintenance  
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Appendix G: Product Verification  
Refer to Table 4-1 for a list of the equipment required to verify the perfor-  
mance of your OA 5000 Series instrument.  
Equipment List  
Table 4-1: Equipment Required for Performance Verification  
Description  
Minimum Use Specifications  
Recommendation  
850 nm  
Laser source  
CW, 850 20 nm, actual wavelength Fotec S785  
known within 1 nm; >500 W into  
50/125 m fiber; <0.02 dB/minute  
stability1  
1310 nm  
Laser source  
CW, 1310 20 nm, actual  
wavelength known within 1 nm;  
>1 mW into SM fiber; <0.02 dB/  
minute stability1  
Advantest  
Q81211/Q8221  
1550 nm  
Laser source  
CW, 1550 20 nm, actual  
wavelength known within 1 nm;  
>500 W into SM fiber; <0.02  
dB/minute stability1  
Advantest  
Q81212/Q8221  
(1310 and 1550  
nm) Optical  
power meter  
with long  
(0.025 dB + 0.3 pW) linearity, ---90 Agilent/HP  
to +3 dBm; noise (p---p) < 0.5 pW; 81532A/8153A  
accepts 9/125 to 100/140 m fiber  
wavelength  
sensor  
(850 nm)  
Optical power  
(0.025 dB + 0.3 pW) linearity,  
---90 to +3 dBm; accepts 9/125 to  
Agilent/HP  
81530A/8153A  
meter with short 100/140 m fiber  
wavelength  
sensor  
OA 5002, 50 m long, if available, or a fiber as  
Optical input fi- short as 1 m can be used;  
ber, 1 each  
9/125 m, FC/PC to FC/PC2  
OA 5002,  
1 to 5 m long, 9/125 m, FC/PC to  
Tektronix  
174-1387-00  
Optical output fi- FC/PC2  
ber, 1 each  
OA 5012,  
Optical input  
and output fiber  
1 to 5 m long, 50/125 m, FC/PC to  
FC/PC2  
OA 5000 Series User Manual  
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Appendix G: Product Verification  
Table 4-1: Equipment Required for Performance Verification  
Description  
Minimum Use Specifications  
Recommendation  
OA 5022,  
Optical input  
and output fiber  
1 to 5 m long, 62.5/125 m, FC/PC  
to FC/PC2  
Tektronix  
174-2322-00  
OA 5032,  
Optical input  
and output fiber  
1 to 5 m long, 100/140 m, FC/PC  
to FC/PC2  
FC/FC adapter  
Female to female  
Tektronix  
131-6252-00  
1
Laser should have short coherence length (<1 m if possible) and multiple longitudinal  
modes to minimize effects of polarization and reflection. If a DFB or tunable laser is used, it  
should have a coherence control feature and optionally a polarization scrambler.  
2
The fiber specifications assume that adapters on the test equipment and the DUT (device  
under test) are FC/PC. Alternative adapters can be used with appropriate changes in the  
fiber connectors.  
Step 1: Insert the OA 5000 into a powered-down Tektronix TM 5000  
Power Up  
series Mainframe power supply.  
H
Make certain that the OA 5000 is securely latched into the main-  
frame.  
Step 2: Turn the TM 5000 mainframe power on (via mainframes power  
switch)  
Step 3: A few seconds are required after mainframe power-up before  
the OA 5000 displays become lit.  
H
Once the displays become active, all LEDs and digital segments will  
be lit for a couple of seconds; any segment which does not light up  
during this time is either defective, burnt out, or is not connected.  
H
This test can be invoked anytime after power up by pushing and  
holding the ADDR(SET) button.  
Step 4: The wavelength, attenuation, and display mode will power-up at  
whatever values existed before the previous power-down; if the instru-  
ment is being powered on for the first time the settings will be at their  
factory default values (see manual for these default values).  
A --- 2 2  
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Appendix G: Product Verification  
Step 1: Push the MODE button until ATT is backlit and -REF is not  
Display Modes  
backlit (these LEDs are green);  
H
The MODE button itself should now be backlit (this LED is red).  
Step 2: Push the MIN ATT button; this will cause the instrument to  
adjust to zero dB (a few seconds may be needed to complete the ad-  
justment if the previous setting was non-zero).  
H
H
The MIN ATT button should itself be backlit  
0.00 should be displayed in the ATTENUATION(dB) display  
Step 3: Push the SET REF button.  
H
The SET REF button should now be backlit; the MODE button  
should not be backlit.  
H
Check that the WAVELENGTH(nm) display is showing SEt.  
Step 4: Adjust the numerical value displayed in the ATTENUATION(dB)  
display by manipulating the COARSE and FINE knobs; the coarse knob  
should increment or decrement the value by 1 dB per detent; the fine  
knob should increment or decrement the value by 0.01 dB.  
H
H
Set the display to read --10.00”  
Push the SET REF button again; the button will then be unlit and the  
MODE should now be lit with the ATT only backlit.  
Step 5: Push the MODE once again.  
H
H
Check to see that ATTand --- REF are both backlit  
The ATTENUATION(dB) display should now read 10.00(This is  
because ATT=0.00;REF=---10.00; hence, the result  
ATT---REF=0---(---10.00)=10.00)  
H
H
Pushing the MODE button repeatedly will toggle the --- REF back-  
lighting on and off and the displayed attenuation will toggle between  
0.00and 10.00”  
Set the MODE so that the ATTonly is backlit before going to the  
next step.  
Step 6: Push the WAVELENGTH button once.  
H
The ATTENUATION(dB) display should read SEtand the  
WAVELENGTH button will be backlit.  
H
The COARSE and FINE knobs increment or decrement the value  
displayed in the WAVELENGTH(nm) display; the coarse knob should  
increment or decrement the wavelength value by 10 nm; the fine  
knob should increment or decrement the value by 1 nm.  
OA 5000 Series User Manual  
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Appendix G: Product Verification  
H
H
Set the WAVELENGTH(nm) display to read 1300.  
Push the WAVELENGTH button once more; check that the button is  
no longer backlit and that the MODE button is backlit. (After exiting  
the wavelength mode, the instrument may require a second or two  
to recalculate calibration for the new wavelength; the ATT ADJ light  
next to the ATTENUATION(dB) display will briefly be backlit to indi-  
cate this.)  
Step 1: Push the ADDR(SET) button once.  
GPIB Address Setting  
H
The button should become backlit, the ATTENUATION display  
should read Addr, and the WAVELENGTH display should show a  
number from 0 to 30 or the word OFF.  
Step 2: While in this mode, the coarse and fine knobs should increment  
or decrement the displayed address value by 1; adjust the value, using  
the knobs, to the address desired.  
H
Check that when the value is adjusted above 30that the word  
OFFappears.  
Step 3: Push the ADDR(SET) button once again while the desired  
address is being displayed; the display mode should return to whatever  
state the instrument was in before pushing the ADDR(SET) button.  
NOTE  
The address of the instrument is not actually updated until the  
ADDR (SET) mode is exited.  
Step 1: Enter the Wavelength set mode for the OA 5000 by pushing the  
Attenuation Range  
WAVELENGTH button so that the display reads SEt.  
Step 2: Using the knobs, adjust the wavelength to read 1350 nm.  
Step 3: Exit the Wavelength Set mode by pushing the WAVELENGTH  
button again; the instrument will require a second to prepare the new  
calibration tables (as indicated by the ATT ADJ briefly lighting up).  
Step 4: Adjust the OA 5000 such that the display mode is showing  
attenuation in dB with the ATT indicator lit and the ---REF indicator not lit.  
Step 5: Using the knobs, increase the level of attenuation (turn the  
coarse knob clockwise); keep increasing the level until the value reach-  
es a maximum level and no longer increases. This value should exceed  
60.00 dB.  
A --- 2 4  
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Appendix G: Product Verification  
Step 6: Enter the Wavelength set mode for the OA 5000 by pushing the  
WAVELENGTH button so that the top display reads SEt.  
Step 7: Using the knobs, adjust the wavelength to read 1600 nm.  
Step 8: Exit the Wavelength Set mode by pushing the WAVELENGTH  
button again; the instrument will require a second to prepare the new  
calibration tables (as indicated by the ATT ADJ briefly lighting up).  
Step 9: Adjust the OA 5000 such that the display mode is showing  
attenuation in dB with the ATT indicator lit and the ---REF indicator not lit.  
Step 10: Using the knobs, increase the level of attenuation (turn the  
coarse knob clockwise); keep increasing the level until the value reach-  
es a maximum level and no longer increases. This value should exceed  
50.00 dB.  
Step 1: Set the optical power meter as follows (operating instructions  
Shutter Attenuation  
and the DISABLE  
button  
are for HP8153A):  
H
H
H
Select the long wavelength power sensor.  
Wavelength: actual wavelength ( 1 nm) of 1310 nm laser  
Averaging: 1 s  
Toggle the Mode key to display PARAM, and then press the Param  
key to display T and set T to 1 s.  
H
Displayed units: W (watts)  
Step 2: Cover the sensor input and zero the power meter.  
Step 3: Connect the 1310 nm laser to the OA 5000 input using the input  
fiber specified in the equipment table.  
Step 4: Connect the OA 5000 output to the sensor using the output  
fiber specified in the equipment table.  
NOTE  
For the OA 5012, OA 5022, and OA 5032 the input fiber may have a  
smaller core diameter than the one specified, as long as the laser  
can couple into the fiber. For these models, the output fiber may  
have a larger core diameter than the one specified, up to 100 m.  
Step 5: Set the OA 5000:  
H
H
H
Wavelength: actual wavelength ( 1 nm) of 1310 nm laser  
Attenuation: 0 dB  
Disable: off (unlit)  
OA 5000 Series User Manual  
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Appendix G: Product Verification  
Step 6: Set the laser to CW (unmodulated) mode, and set the laser  
power level (if adjustable) to maximum, but not more than 2 mW. Turn  
on the laser. The power meter reading should be at least 500 W.  
Step 7: Set the power meter to dB relative (press the dB key), and set  
the dB reference (press Disp-->Ref). The power meter should read  
0.0 dB 0.1 dB.  
Step 8: Set the OA 5000 DISABLE button to on (lit).  
NOTE  
The measurement in step 9 is near the noise floor of the power  
meter, so it may be necessary to repeat the meter zero (with sensor  
capped) and the measurement several times to get a valid result. If  
an average reading lower than about ---97 dB cant be obtained  
(except for the OA 5032), it might be due to noise in the sensor. A  
laser with a higher power output might be needed to improve the  
range of the measurement.  
Step 9: Verify the OA 5000 shutter attenuation by checking that average  
(not peak) value of the power meter reading is ---100 dB or lower (more  
negative), except ---90 dB or lower for OA 5032.  
1310 nm:  
NOTE  
Insertion Loss,  
Attenuation  
Accuracy, and  
Repeatability  
Stable light levels must be maintained throughout the insertion loss,  
attenuation accuracy, and repeatability tests. Use only fiber optic  
connectors that are clean and in good condition. It may be neces-  
sary to remove the OA 5000 bulkhead connectors and clean the  
OA 5000 connectors and fibers (see Appendix F).  
Step 1: Leave the fibers connected to the 1310 nm laser and the long  
wavelength sensor. Disconnect the fibers from the OA 5000, and con-  
nect the fibers together using an FC/FC adapter.  
Step 2: Assure that the wavelength displays of the OA 5000 and the  
power meter are set to the actual wavelength (not the nominal wave-  
length) of the laser, within 1 nm.  
Step 3: Set the power meter to W (watts) mode. The reading should be  
700 W or more. Set the power meter to dB relative mode (press the  
dB key), and set the dB reference (Disp-->Ref). The power meter  
should read 0.0 dB 0.1 dB.  
Step 4: Disconnect the fibers from the FC/FC adapter, and connect  
them to the OA 5000.  
A --- 2 6  
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Appendix G: Product Verification  
Step 5: Set the OA 5000 attenuation to 0 dB, and the DISABLE button  
off (unlit).  
Step 6: The power meter reading is the insertion loss of the OA 5000.  
Check that the power meter reading is ---2.0 dB or higher (more posi-  
tive).  
NOTE  
During the remaining steps, do not disturb the connections and  
fibers.  
Step 7: Set the dB reference (Disp-->Ref) at the power meter. The  
power meter reading should be 0.00 dB within 0.01 dB.  
Step 8: Set the OA 5000 to each of the settings in the table below, and  
check that the power meter reads within the listed accuracy limits. At  
30 dB, note the reading.  
Step 9: Set the OA 5000 to 0 dB. Check that the power meter reads  
0.00 dB within the repeatability specification ( 0.05 dB).  
Step 10: Set the OA 5000 to 30 dB. Check that the power meter reads  
the same as in step 8, within the repeatability specification ( 0.05 dB).  
Step 11: If the readings in steps 9 and 10 do not meet the repeatability  
specifications, check the connections, and repeat steps 7 to 10.  
Table 4-2: Attenuation Accuracy at 1310 nm  
OA 5002  
OA 5012 / OA 5022 /  
OA 5032  
Attenuation  
setting (dB)  
Tolerance Limits (dB)  
Tolerance Limits (dB)  
10  
20  
30  
40  
50  
60  
---10.15 to ---9.85  
---20.15 to ---19.85  
---30.15 to ---29.85  
---40.15 to ---39.85  
---50.15 to ---49.85  
---60.15 to ---59.85  
---10.20 to ---9.80  
---20.20 to ---19.80  
---30.20 to ---29.80  
---40.20 to ---39.80  
---50.20 to ---49.80  
---60.20 to ---59.80  
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Appendix G: Product Verification  
Step 1: Disconnect the fibers from the OA 5000 and 1310 nm laser.  
Connect the 1550 nm laser to the input fiber and the long wavelength  
sensor to the output fiber. Connect the fibers together using an FC/FC  
adapter. Set the laser to CW (unmodulated) mode, and set the laser  
power level (if adjustable) to maximum, but not more than 2 mW. Turn  
on the laser.  
1550 nm:  
Insertion Loss,  
Attenuation  
Accuracy, and  
Repeatability  
Step 2: Set the wavelength displays of the OA 5000 and the power  
meter to the actual wavelength (not the nominal wavelength) of the laser,  
within 1 nm.  
Step 3: Set the power meter to W (watts) mode. The reading should be  
at least 400 W. Set the power meter to dB relative (dB key) mode, and  
set the dB reference (Disp-->Ref). The power meter should read 0.0 dB  
0.1 dB.  
Step 4: Disconnect the fibers from the FC/FC adapter, and connect  
them to the OA 5000.  
Step 5: Set the OA 5000 attenuation to 0 dB, and the DISABLE button  
off (unlit).  
Step 6: The power meter reading is the insertion loss of the OA 5000.  
Check that the power meter reading is ---2.5 dB or higher (more posi-  
tive).  
NOTE  
During the remaining steps, do not disturb the connections and  
fibers.  
Step 7: Set the dB reference (Disp-->Ref) at the power meter. The  
power meter reading should be 0.00 dB within 0.01 dB.  
Step 8: Set the OA 5000 to each of the settings in the table below, and  
check that the power meter reads within the listed accuracy limits. At  
30 dB, note the reading.  
Step 9: Set the OA 5000 to 0 dB. Check that the power meter reads  
0.00 dB within the repeatability specification ( 0.05 dB).  
Step 10: Set the OA 5000 to 30 dB. Check that the power meter reads  
the same as in step 8, within the repeatability specification ( 0.05 dB).  
Step 11: If the readings in steps 9 and 10 do not meet the repeatability  
specifications, check the connections, and repeat steps 7 to 10.  
A --- 2 8  
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Appendix G: Product Verification  
Table 4-3: Attenuation Accuracy at 1550 nm  
OA 5002  
OA 5012 / OA 5022 /  
OA 5032  
Attenuation  
setting (dB)  
Tolerance Limits (dB)  
Tolerance Limits (dB)  
10  
20  
30  
40  
50  
---10.15 to ---9.85  
---20.15 to ---19.85  
---30.15 to ---29.85  
---40.15 to ---39.85  
---50.20 to ---49.80  
---10.20 to ---9.80  
---20.20 to ---19.80  
---30.20 to ---29.80  
---40.20 to ---39.80  
---50.20 to ---49.80  
Step 1: Disconnect the fibers from the OA 5000, 1550 nm laser, and  
long wavelength sensor. Connect the 850 nm laser to the input fiber and  
the short wavelength sensor to the output fiber. Connect the fibers  
together using an FC/FC adapter. Set the laser to CW (unmodulated)  
mode, and set the laser power level (if adjustable) to maximum, but not  
more than 2 mW. Turn on the laser.  
850 nm (except  
OA 5002):  
Insertion Loss,  
Attenuation  
Accuracy, and  
Repeatability  
Step 2: At the power meter, select the short wavelength sensor. Set the  
wavelength displays of the OA 5000 and the power meter to the actual  
wavelength (not the nominal wavelength) of the laser, within 1 nm.  
Step 3: Set the power meter to W (watts) mode. The reading should be  
at least 400 W. Set the power meter to dB relative (dB key) mode, and  
set the dB reference (Disp-->Ref). The power meter should read 0.0 dB  
0.1 dB.  
Step 4: Disconnect the fibers from the FC/FC adapter, and connect  
them to the OA 5000.  
Step 5: Set the OA 5000 attenuation to 0 dB, and the DISABLE button  
to off (unlit).  
Step 6: The power meter reading is the insertion loss of the OA 5000.  
Check that the power meter reading is ---4.0 dB or higher (more posi-  
tive).  
NOTE  
During the remaining steps, do not disturb the connections and  
fibers.  
OA 5000 Series User Manual  
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Appendix G: Product Verification  
Step 7: Set the dB reference (Disp-->Ref) at the power meter. The  
power meter reading should be 0.00 dB within 0.01 dB.  
Step 8: Set the OA 5000 to each of the settings in the table below, and  
check that the power meter reads within the listed accuracy limits. At  
30 db, note the reading.  
Step 9: Set the OA 5000 to 0 dB. Check that the power meter reads  
0.00 dB within the repeatability specification ( 0.05 dB).  
Step 10: Set the OA 5000 to 30 dB. Check that the power meter reads  
the same as in step 8, within the repeatability specification ( 0.05 dB).  
Step 11: If the readings in steps 9 and 10 do not meet the repeatability  
specifications, check the connections, and repeat steps 7 to 10.  
Table 4-4: Attenuation Accuracy at 850 nm  
OA 5012 / OA 5022 / OA 5032  
Attenuation setting (dB) Tolerance Limits (dB)  
10  
20  
30  
40  
50  
60  
---10.20 to ---9.80  
---20.20 to ---19.80  
---30.20 to ---29.80  
---40.20 to ---39.80  
---50.20 to ---49.80  
---60.20 to ---59.80  
A --- 3 0  
Appendices  
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Appendix H: Replaceable Parts  
This chapter contains a list of the components that are replaceable for the  
OA 5002, OA 5012, OA 5022, and OA 5032 Optical Attenuators. As de-  
scribed below, use this list to identify and order replacement parts.  
Replacement parts are available from or through your local Tektronix, Inc.  
service center or representative.  
Parts Ordering  
Information  
Changes to Tektronix instruments are sometimes made to accommodate  
improved components as they become available and to give you the benefit  
of the latest circuit improvements. Therefore, when ordering parts, it is  
important to include the following information in your order:  
H
H
H
H
Part number  
Instrument type or model number  
Instrument serial number  
Instrument modification number, if applicable  
If a part you order has been replaced with a different or improved part, your  
local Tektronix service center or representative will contact you concerning  
any change in the part number.  
Change information, if any, is located at the rear of this manual.  
The tabular information in the Replaceable Parts List is arranged for quick  
retrieval. Understanding the structure and features of the list will help you  
find the all the information you need for ordering replacement parts.  
Using the  
Replaceable Parts  
List  
Item Names  
In the Replaceable Parts List, an Item Name is separated from the descrip-  
tion by a colon (:). Because of space limitations, an Item Name may some-  
times appear as incomplete. For further Item Name identification, U.S.  
Federal Cataloging Handbook H6-1 can be used where possible.  
OA 5000 Series User Manual  
A --- 3 1  
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Appendix H: Replaceable Parts  
Indentation System  
This parts list is indented to show the relationship between items. The  
following example is of the indentation system used in the Description  
column:  
1
2
3
4
5
Name & Description  
Assembly and/or Component  
Attaching parts for Assembly and/or Component  
(END ATTACHING PARTS)  
Detail Part of Assembly and/or Component  
Attaching parts for Detail Part  
(END ATTACHING PARTS)  
Parts of Detail Part  
Attaching parts for Parts of Detail Part  
(END ATTACHING PARTS)  
Attaching parts always appear at the same indentation as the item it  
mounts, while the detail parts are indented to the right. Indented items are  
part of, and included with, the next higher indentation. Attaching parts must  
be purchased separately, unless otherwise specified.  
Abbreviations  
Abbreviations conform to American National Standards Institute (ANSI)  
standard Y1.1  
A --- 3 2  
Appendices  
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Appendix H: Replaceable Parts  
6
1
5
2
3
4
Figure A-6: OA 5000 Replaceable Parts  
OA 5000 Series User Manual  
A --- 3 3  
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Appendix H: Replaceable Parts  
CROSS INDEX --- MFR. CODE NUMBER TO MANUFACTURER  
Mfr.  
Manufacturer  
Address  
City,  
Code  
State, Zip Code  
0J260  
0JR05  
62712  
80009  
91260  
COMTEK MANUFACTURING OF OREGON  
TRIQUEST PRECISION PLASTICS  
SEIKO INSTRUMENTS USA INC  
TEKTRONIX INC  
P O BOX 4200  
M / S 1 6 --- 2 0 7  
BEAVERTON, OR 970764200  
3000 LEWIS & CLARK HWY  
PO BOX 66008  
VANCOUVER, WA 98666---6008  
TORRANCE, CA 90505  
ELECTRONIC COMPONENTS DIV  
2990 W LOMITA BLVD  
14150 SW KARL BRAUN DR  
PO BOX 500  
BEAVERTON, OR 97077---0001  
CONNOR FORMED METAL PRODUCTS  
1729 JUNCTION AVENUE  
SAN JOSE, CA 95112  
TK2565 VISION PLASTICS INC  
26000 SW PARKWAY CENTER DRIVE  
WILSONVILLE, OR 97070  
A --- 3 4  
Appendices  
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Appendix H: Replaceable Parts  
Fig. &  
Index  
No.  
Tektronix  
Part No.  
Serial No.  
Effective Dscont  
Mfr.  
12345 Name & Description  
Qty  
Code  
Mfr. Part No.  
A 6 --- 1 337---3039---00  
2
1
1
SHIELD,ELEC:  
0J260  
91260  
0JR05  
ORDER BY DESC  
ORDER BY DESC  
ORDER BY DESC  
---2  
--- 3  
214---3143---00  
105---0865---00  
SPRING,HLEXT:0.125 ID X 0.545 L, XLOOP  
BAR,LATCH RLSE:AA501  
--- 4  
--- 5  
--- 6  
366---1851---01  
105---0866---00  
366---2166---00  
1
1
2
KNOB,LATCH:IVORY GY,0.625 X 0.25 X 1.09  
LATCH,RETAINING:  
80009  
0JR05  
366---1851---01  
ORDER BY DESC  
KNOB:ABS,IVORY GRAY,0.165 ID X 0.40 OD  
STANDARD ACCESSORIES  
TK2565 366---2166---00  
020---1885---00  
070---7612---05  
620005700  
016019505  
1
1
1
2
ACCESSORY PKG:O/E CONVERTER  
MANUAL,TECH:INSTR,OA5000 Series  
POWER SPLY ASSY:MAINFRAME  
BLANK PLUG-IN PANELS,FRONT  
80009  
80009  
80009  
80009  
020 1885 00  
070 7612 05  
620 0057 00  
016 0195 05  
OPTIONAL ACCESSORIES  
174---1497---00  
174---1385---00  
174---1386---00  
174---1387---00  
174---1388---00  
174---2322---00  
174---2323---00  
174---2324---00  
1
1
1
1
1
1
1
1
CA ASSY,FBR OPT:SINGLE MODE,2M L  
CA ASSY,FBR OPT:SGL MODE,2M L  
CA ASSY,FBR OPT:SINGLE MODE,2M L  
CA ASSY,FBR OPT:SGL MODE,2M L  
CA ASSY,FBR OPT:SGL MODE,2M L,  
CABLE,FIBER OPT:JUMPER,2 METER,62.5  
CABLE,FIBER OPT:JUMPER,2 METER,62.5  
CABLE,FIBER OPT:JUMPER,2 METER,62.5  
80009  
80009  
80009  
80009  
80009  
62712  
62712  
62712  
174 1497 00  
174 1385 00  
174 1386 00  
174 1387 00  
174 1388 00  
174 2322 00  
174 2323 00  
P C / S K --- 2 0 002A  
OA 5000 Series User Manual  
A --- 3 5  
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Appendix H: Replaceable Parts  
A --- 3 6  
Appendices  
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Index  
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Index  
MIN ATT, 2 --- 7  
*ESR?, 3 --- 22, 3 --- 35  
A
MODE, 2 --- 11  
EVEnt?, 3 --- 22– 3 --- 23  
EVMSG?, 3 --- 23  
EVQty?, 3 --- 23  
RECALL1, RECALL2, 2 --- 15  
SET REF, 2 --- 11  
Abbreviating, Command, 3 --- 8  
STORE1, STORE2, 2 --- 15  
WAVELENGTH, 2 --- 5  
FACTORY, 3 --- 24– 3 --- 25  
HEADER, 3 --- 25– 3 --- 26  
Header, 3 --- 6  
absolute display mode, 2 --- 6  
See also REFerence command  
Accessories, A --- 1  
Optional, A --- 1  
*IDN?, 3 --- 26  
List  
Standard, A --- 1  
Common command, 3 --- 13  
Device command, 3 --- 14  
C
ADDR (SET) button, 2 --- 9, 3 --- 3  
ALLev? Command, 3 --- 15  
*LRN?, 3 --- 26– 3 --- 27  
Message, 3 --- 6  
*CAL? Command, 3 --- 18  
Mnemonic, 3 --- 6  
ALLev? command, 3 --- 22– 3 --- 23  
CAUTION  
Numeric argument, 3 --- 10  
*OPC, 3 --- 27  
Amplitude. See Pulse generator,  
Amplitude  
statement in manuals, ix  
statement on equipment, ix  
*PSC, 3 --- 27– 3 --- 28, 3 --- 38  
Query, 3 --- 6  
Argument, Command, 3 --- 6  
Cautions  
RECall, 3 --- 28  
fuses, x  
ASCII, 3 --- 5  
Character table, A --- 8  
REFerence, 3 --- 29  
*RST, 3 --- 29– 3 --- 30  
Rules for forming, 3 --- 5  
Separator, 3 --- 6  
grounding the OA5000, x  
operating in explosive atmo-  
spheres, xi  
ATT indicator, 2 --- 6  
Attenuation  
power cord, x  
power source, x  
disabling, 2 --- 3  
enabling, 2 --- 3  
setting, 2 --- 5  
Set, 3 --- 6  
removing panels or covers, x  
*SRE, 3 --- 30– 3 --- 31, 3 --- 38  
*STB?, 3 --- 31, 3 --- 36  
STOre, 3 --- 31– 3 --- 32  
Channel delay. See Pulse generator,  
Channel delay  
ATTenuation Command, 3 --- 16– 3 --- 34  
ATTen:DB, 3 --- 16– 3 --- 17  
Syntax, 3 --- 5  
BNF (Backus Naur form), 3 --- 5  
Table  
Common command, 3 --- 13  
Device command, 3 --- 14  
*TST?, 3 --- 32– 3 --- 33  
Clear Status, 3 --- 18  
ATTen:DBR, 3 --- 16– 3 --- 17  
ATTen:MINimum, 3 --- 16– 3 --- 17  
*CLS command, 3 --- 18– 3 --- 19  
Command, 3 --- 13  
*CAL?, 3 --- 18  
attenuation levels  
recalling, 2 --- 15  
storing, 2 --- 15  
*SET?, 3 --- 26– 3 --- 27  
Abbreviating, 3 --- 8  
ADJusting?, 3 --- 15  
ALLev?, 3 --- 15  
VERBOSE, 3 --- 33  
*WAI, 3 --- 34  
WAVelength, 3 --- 34  
Command syntax, 3 --- 5  
Argument, 3 --- 6  
BNF (Backus Naur form), 3 --- 5  
ATTenuation, 3 --- 16– 3 --- 17  
Block argument, 3 --- 10  
BLRN, 3 --- 17  
B
Common command, List, 3 --- 13  
Concatenating, Command, 3 --- 8  
Configuration, Command query, 3 --- 26  
Block, Command argument, 3 --- 10  
BLRN Command, 3 --- 17– 3 --- 18  
BNF (Backus Naur form), 3 --- 5  
Break, 3 --- 5  
*CLS, 3 --- 18  
Common, List, 3 --- 13  
Concatenating, 3 --- 8  
DESE, 3 --- 19, 3 --- 37  
Device, List, 3 --- 14  
DISable, 3 --- 20  
Conflicts, 3 --- 40  
See also Blinking  
Connector, GPIB, 3 --- 1  
Buttons  
ADDR (SET), 2 --- 9, 3 --- 3  
DISABLE, 2 --- 3  
Controller, GPIB, 3 --- 1  
DISPlay, 3 --- 20– 3 --- 21  
*ESE, 3 --- 21– 3 --- 22, 3 --- 38  
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I --- 1  
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D
F
I
DANGER, statement on equipment, ix  
DCL, A --- 7  
FACTORY command, 3 --- 24  
*IDN? query, 3 --- 26  
Fall time. See Pulse generator, Fall  
time  
IEEE Std. 488.2  
3 --- 13  
1987, 3 --- 1, 3 --- 5,  
DESE command, 3 --- 19, 3 --- 37  
Flashing. See Blinking  
Initialize. See Reset  
DESER register, 3 --- 19, 3 --- 273 --- 28,  
3 --- 37  
insertion loss, measuring, 2 --- 12  
Device Clear, 3 --- 5, A --- 7  
Interface message, A --- 7  
Device command, List, 3 --- 14  
G
Device event status enable register.  
See DESER register  
GET, A --- 7  
Go to local, A --- 7  
GPIB  
L
Diagram, Syntax, 3 --- 11  
DISABLE button, 2 --- 3  
DISable Command, 3 --- 20  
Lead delay. See Pulse generator, Lead  
delay  
Additional information you need  
about your controller, 3 --- 1  
DISPlay Command, 3 --- 203 --- 34  
DISP:DB, 3 --- 203 --- 21  
Learning about the OA 5000, 1 --- 3  
Level. See Trigger, Level  
Configurations, 3 --- 2  
Connection rules, 3 --- 2  
EOI (end or identify), 3 --- 9  
Function subsets, A --- 9  
Menu, 3 --- 3  
DISP:DBR, 3 --- 203 --- 21  
Limits. See Pulse generator, Limits  
DISP:SETRef, 3 --- 203 --- 21  
DISP:SETWavelength, 3 --- 203 --- 21  
List  
Common command, 3 --- 13  
Device command, 3 --- 14  
Documentation, A --- 1  
Parameter Setting, 3 --- 3  
setting address, 2 --- 9, 3 --- 3  
Using a controller, 3 --- 1  
Duty cycle. See Pulse generator, Duty  
cycle  
LLO, A --- 7  
Local lock out, 3 --- 1, A --- 7  
Low. See Pulse generator, Low  
*LRN? query, 3 --- 263 --- 27  
GPIB address, setting, 2 --- 9  
GPIB connector, 3 --- 1  
Group execute trigger, A --- 7  
GTL, A --- 7  
E
EOI (end or identify), 3 --- 9  
Error message, Programming inter-  
face, 3 --- 41  
M
H
*ESE command, 3 --- 213 --- 22, 3 --- 38  
Macro. See Alias  
ESER register, 3 --- 213 --- 22,  
3 --- 273 --- 28, 3 --- 38  
Manuals, A --- 1  
Header  
Command, 3 --- 6, 3 --- 253 --- 26  
measuring insertion loss, 2---12  
Menu, GPIB, 3 --- 3  
*ESR? command, 3 --- 22  
*ESR? query, 3 --- 35  
Included in query response,  
3 --- 253 --- 26, 3 --- 33  
Message  
HEADER command, 3 --- 25  
Event handling, 3 --- 35, 3 --- 40  
Event Quantity query, 3 --- 23  
Event query, 3 --- 223 --- 23  
Event queue, 3 --- 223 --- 23, 3 --- 39  
Command, 3 --- 6  
Command terminator, 3 --- 9  
Handling, 3 --- 35  
High. See Pulse generator, High  
Table of program messages, 3 --- 41  
MIN ATT button, 2 --- 7  
Event status enable register. See ESER  
register  
Mnemonic, Command, 3 --- 6  
Mode. See Trigger, Mode  
EVEnt? command, 3 --- 223 --- 23  
EVMSG? command, 3 --- 23  
EVQty? command, 3 --- 23  
I --- 2  
Index  
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N
Q
S
Numeric, Command argument, 3 --- 10  
Query, Header in query response,  
3 --- 253 --- 26, 3 --- 33  
Safety, ix  
Symbols, ix  
Query command, 3 --- 6  
Saved settings. See Settings  
SBR register, 3 --- 31, 3 --- 36  
SDC, A --- 7  
Queue  
Event, 3 --- 39  
Output, 3 --- 39  
O
Selected device clear, A --- 7  
Self test, 3 --- 323 --- 33  
Separator, Command, 3 --- 6  
Offset. See Pulse generator, Offset  
*OPC command, 3 --- 27  
Quick tour, 1 --- 3  
Operation complete command, 3 --- 27  
Operation complete wait, 3 --- 34  
Serial poll, 3 --- 1, 3 --- 36  
Disable, A --- 7  
Enable, A --- 7  
R
Optical Cables, optional accessories,  
A --- 1  
RECall command, 3 --- 28  
Recall settings. See Settings  
--- R E F indicator, 2 --- 6, 2 --- 11  
REFerence command, 3 --- 29  
reference level, setting, 2 --- 11  
reference mode, 2 --- 12  
Service request enable command,  
3 --- 303 --- 31  
Optical Output, x, 2 --- 3  
optical output power, approximating,  
2 --- 13  
Service request enable register,  
3 --- 303 --- 31  
See also SRER register  
Output queue, 3 --- 39  
SESR register, 3 --- 18, 3 --- 22, 3 --- 27,  
3 --- 35  
Set  
Register  
Command query, 3 --- 263 --- 27  
Query, 3 --- 263 --- 27  
P
DESER, 3 --- 19, 3 --- 273 --- 28, 3 --- 37  
ESER, 3 --- 213 --- 22, 3 --- 273 --- 28,  
3 --- 38  
SBR, 3 --- 31, 3 --- 36  
Set command, 3 --- 6  
SET REF button, 2 --- 11  
*SET? query, 3 --- 263 --- 27  
Shipment, A --- 11, A --- 13  
Slope. See Trigger, Slope  
SPD, A --- 7  
Packing for shipment, A --- 11, A --- 13  
Parallel poll, A --- 7  
SESR, 3 --- 18, 3 --- 22, 3 --- 27, 3 --- 35  
Phase. See Pulse generator, Phase  
Polarity. See Pulse generator, Polarity  
SRER, 3 --- 273 --- 28, 3 --- 303 --- 31,  
3 --- 38  
relative display mode, 2 --- 6  
Power on status clear command,  
3 --- 273 --- 28  
Remote. See Programming  
Reset  
PPC, A --- 7  
SPE, A --- 7  
See also FACTORY  
Command, 3 --- 293 --- 30  
PPD, A --- 7  
Specifications, A --- 3  
*SRE command, 3 --- 303 --- 31, 3 --- 38  
PPE, A --- 7  
Rise time. See Pulse generator, Rise  
time  
PPU, A --- 7  
SRER register, 3 --- 273 --- 28,  
3 --- 303 --- 31, 3 --- 38  
Pretrigger. See Trigger, Pretrigger  
Programming, 3 --- 1  
*RST command, 3 --- 293 --- 30  
Standard event status register. See  
SESR register  
Rules, Command forming, 3 --- 5  
Programming command. See Com-  
mand  
Status, 3 --- 35  
Status byte register. See SBR register  
*STB? query, 3 --- 31, 3 --- 36  
*PSC command, 3 --- 273 --- 28, 3 --- 38  
Pulse rate. See Pulse generator, Pulse  
rate  
STORe command, 3 --- 313 --- 32  
See also RECall command  
Pulse width. See Pulse generator,  
Pulse width  
OA 5000 Series User Manual  
I --- 3  
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STORE1, STORE2 buttons, 2 --- 15  
Trail delay. See Pulse generator, Trail  
delay  
V
Syntax  
Transducer input. See Pulse generator,  
Transducer input  
BNF (Backus Naur form), 3 --- 5  
Command, 3 --- 5  
Diagram, 3 --- 11  
VERBOSE command, 3 --- 33  
Transition. See Pulse generator,  
Transition  
*TST? query, 3 --- 323 --- 33  
W
Tutorial, 1 --- 3  
T
*WAI command, 3 --- 34  
Wait for operation complete, 3 --- 34  
WARNING, statement in manual, ix  
Warning, optical output, x, 2 --- 3  
WAVELENGTH, button, 2 --- 5  
WAVelength command, 3 --- 34  
Width. See Pulse generator, Width  
Table  
ASCII character, A --- 8  
Common command, 3 --- 13  
Device command, 3 --- 14  
Programming message, 3 --- 41  
U
UNL, A --- 7  
Unlisten, A --- 7  
UNT, A --- 7  
Tek Std. Codes and Formats 1989,  
3 --- 13  
Terminator, Command message, 3 --- 9  
Untalk, A --- 7  
Tour, 1 --- 3  
I --- 4  
Index  
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