User’s and Service Guide Agilent Technologies 87075C Multiport Test Set For E506x Network Analyzers Part No. 87075-90027 Printed in USA Print Date: March 2004 © Copyright 2004 Agilent Technologies, Inc.
WARRANTY STATEMENT THE MATERIAL CONTAINED IN THIS DOCUMENT IS PROVIDED “AS IS,” AND IS SUBJECT TO BEING CHANGED, WITHOUT NOTICE, IN FUTURE EDITIONS. FURTHER, TO THE MAXIMUM EXTENT PERMITTED BY APPLICABLE LAW, AGILENT DISCLAIMS ALL WARRANTIES, EITHER EXPRESS OR IMPLIED WITH REGARD TO THIS MANUAL AND ANY INFORMATION CONTAINED HEREIN, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
users will receive no greater than Limited Rights as defined in FAR 52.227-14 (June 1987) or DFAR 252.227-7015 (b)(2) (November 1995), as applicable in any technical data. Certification Agilent Technologies, Inc. certifies that this product met its published specifications at the time of shipment from the factory. Agilent Technologies, Inc.
WARNING Warning denotes a hazard. It calls attention to a procedure which, if not correctly performed or adhered to, could result in injury or loss of life. Do not proceed beyond a warning note until the indicated conditions are fully understood and met. CAUTION Caution denotes a hazard. It calls attention to a procedure that, if not correctly performed or adhered to, could result in damage to or destruction of the instrument.
Contents 1. Introduction and Installation Introduction to the Multiport Test Set . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 A Complete Multiport Test System . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 Fully Characterize Your Devices with a Single Connection. . . . . . . . . .2 Improve Your Competitiveness with a Fully Specified Test System . . .3 Eliminate Redundant Connection of Calibration Standards with Test Set Cal. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 Test Set Cal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 SelfCal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 Test Set Cal: An Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Setting Up the Measurement Parameters. . . . . . . . . . . . . . . . . . .
Contents Cal Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .59 System Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .62 6. SCPI Command Reference 7. COM Object Reference 8. Specifications About This Chapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .110 Definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Post-Repair Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 137 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138 Parts List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Rebuilt-Exchange Assemblies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1 Introduction and Installation 1
Introduction and Installation Introduction to the Multiport Test Set Introduction to the Multiport Test Set • The 87075C is a 75-ohm multiport test set that is available with 6 or 12 test ports. A Complete Multiport Test System 87075C multiport test sets are designed to work with E5061A (1.5 GHz) and E5062A (3 GHz) RF network analyzers to provide complete measurement systems for 75 ohm multiport devices.
Introduction and Installation Introduction to the Multiport Test Set Improve Your Competitiveness with a Fully Specified Test System A multiport test set coupled with an E5061A/E5062A network analyzer offers fully specified performance at the actual test ports, whether you measure in a fixture or at the end of test cables.
Introduction and Installation Introduction to the Multiport Test Set Reduce the Effects of Test-System Drift with SelfCal SelfCal is an internally automated calibration technique that uses solid-state switches to measure calibration standards located inside the test set. SelfCal executes automatically in just a few seconds (at an interval you define), so the impact to your test process is minimal.
Introduction and Installation Introduction to the Multiport Test Set Typeface Conventions Sample (bold) Boldface type is used when a term is defined or emphasis. Sample (Italic) Italic type is used for emphasis. [ Indicates a hardkey (key on the front panel or external keyboard) labeled “Sample.” “key” may be omitted.
Introduction and Installation If You are Using an 8712ET/ES or 8714ET/ES Analyzer If You are Using an 8712ET/ES or 8714ET/ES Analyzer This document is intended for use with E5061A and E5062A analyzers, so some of the information (for example, key presses and calibration features) does not apply to your analyzer. You can order the copy of the manual specifically written for using the 87075C with 8712ET/ES and 8714ET/ES analyzers with the part number 87050-90026 by contacting Agilent Technologies.
Introduction and Installation Installation Installation This section will guide you through the steps necessary to correctly and safely install your multiport test set. The steps are: • “Step 1. Check the Shipment” • “Step 2. Determine Network Analyzer Compatibility” • “Step 3. Connect the Test Set to the Analyzer” • “Step 4. Satisfy Electrical and Environmental Requirements” • “Step 5. Activate the Test Set” • “Step 6.
Introduction and Installation Installation Figure 1-1 87075C Multiport Test Set — Two Versions 87075C Option 006 — Six Port Test Set 87075C Option 012 — Twelve Port Test Set 8 Chapter 1
Introduction and Installation Installation Step 1. Check the Shipment After you have unpacked your test set, keep the packaging materials to use if your instrument should need to be returned for maintenance or repair. NOTE The packaging material is designed to protect the test set from damage that can happen during shipping. Returning the test set in anything other than the original packaging may result in non-warranted damage.
Introduction and Installation Installation Table 1-1 Test Set Accessories Supplied Item No. Description Quantity Part Number 1 Power Cord 1 See Figure 4-3.
Introduction and Installation Installation Figure 1-2 Test Set Accessories Supplied Step 2. Determine Network Analyzer Compatibility If you are using a 8712ET/ES or 8714ET/ES analyzer, refer to “If You are Using an 8712ET/ES or 8714ET/ES Analyzer”.
Introduction and Installation Installation Step 3. Connect the Test Set to the Analyzer For using your system on a bench, configure and connect the two instruments as shown in Figure 1-3: Connect the Parallel In connector of the test set to the analyzer Parallel connector. Use the parallel cable that was shipped with the multiport test set. If you will be installing your system in a rack, read “Installing the System in a Rack,” next in this section, before connecting the test set to the analyzer.
Introduction and Installation Installation NOTE There are special semi-rigid cables that should be used to connect the analyzer’s test ports to the test set’s REFLECTION and TRANSMISSION ports when used in a rack (or a bench configuration where the analyzer’s bottom feet have been removed). These cables were shipped with your analyzer if you ordered Option 1CM. If you order the rack mount kit separately, you will need to order these special cables separately also. See Table 1-1 for part numbers.
Introduction and Installation Installation Step 4. Satisfy Electrical and Environmental Requirements NOTE Refer to your network analyzer’s User’s Guide for information on electrical and environmental requirements for your network analyzer. 1. The line power module on your multiport test set has an autoranging input. It is designed to be used with an ac power source with a nominal voltage of either 115 V or 230 V. 2.
Introduction and Installation Installation Figure 1-4 WARNING Protective Earth Ground This is a Safety Class I product (provided with a protective earthing ground incorporated in the power cord). The mains plug shall only be inserted in a socket outlet provided with a protective earth contact. Any interruption of the protective conductor, inside or outside the instrument, is likely to make the instrument dangerous. Intentional interruption is prohibited.
Introduction and Installation Installation 5. Ensure there are at least two inches of clearance around the sides and back of the test set or the system cabinet. Figure 1-5 Ventilation Clearance Requirements 6. Set up a static-safe workstation. Electrostatic discharge (ESD) can damage or destroy components.
Introduction and Installation Installation Step 5. Activate the Test Set 1. Connect the semi-rigid cables that were shipped with your test set as shown in Figure 1-6. Check Table 1-1 to be sure that you are using the correct cables with your system configuration (the cables you use will be different depending on whether you are using a bench system configuration—as shown in Figure 1-6—or a rack configuration).
Introduction and Installation Installation Step 6. Connect Peripheral Devices After you’ve ensured that your system is working properly, connect any peripherals that you intend to use with your system. NOTE See your analyzer’s User’s Guide for information on peripheral connections.
Introduction and Installation Preventive Maintenance Preventive Maintenance Preventive maintenance consists of checking the front panel connectors. This should be done at least every six months — more often if the test set is used daily on a production line or in a harsh environment. Visually inspect the front panel connectors. The most important connectors are those to which the DUT is connected. All connectors should be clean and the center pins centered.
Introduction and Installation Preventive Maintenance 20 Chapter 1
2 Making Measurements This chapter describes the procedure of measurement using the 87075C multi-port test set.
Making Measurements Measurement Procedures Measurement Procedures Measurement is performed in 4 major steps below. • Setting the port connections of the multi-port test set • Setting the measurement conditions • Calibrating the test set • Performing measurement Multiport test system needs to be properly installed before making measurements. For the installation procedure see “Installation” on page 1-7.
Making Measurements Measurement Procedures Step 2. Press [System]. Step 3. Press 87075 Setup. Step 4. Press 87075 Control to make the status on. Step 5. Press Reflection. Step 6. Select the port to be connected to the reflection port. Step 7. Press Transmission. Step 8. Select the port to be connected to the transmission port. Step 9. Repeat Step 1 through Step 8 for all the channels to use. Setting the measurement conditions The procedure to set the measurement conditions is described below.
Making Measurements Measurement Procedures [Scale] - Reference Position [Scale] - Reference Value Step 5. Other settings Set the graph title, trace color, and so on as necessary.
Making Measurements Measurement Procedures Calibrating the test set The procedure to calibrate the test set is described below. Note that the calibration procedure described here is a typical one using a mechanical calibration kit. For more detailed information, including procedures using ECal, see Chapter 3. Step 1. Selecting a mechanical calibration kit Select a mechanical calibration kit you want to use for calibration. You can select a mechanical calibration kit using one of the following 2 methods.
Making Measurements Measurement Procedures Step 4. Executing calibration After the measurement of the calibration standards for necessary ports is finished, calculate and save the calibration coefficients. [Cal] - Test Set Cal - Calibration - Done NOTE The calibration data of the 87075C multi-port test set has higher priority over the analyzer’s normal calibration data.
Making Measurements Measurement Procedures Performing Measurements The procedure to execute measurement is described below. This section describes how to trigger actual measurement. For more information, see the E5061A/62A User’s Guide. Step 1. Setting the trigger source Select a trigger source. Because the trigger source is common to all the channels, you need not to set it channel by channel. [Trigger] - Trigger Source - Corresponding softkey Step 2. Setting the trigger mode Select a trigger mode.
Making Measurements Measurement Procedures 28 Chapter 2
3 Test Set Cal and SelfCal 29
Test Set Cal and SelfCal Introduction Introduction This chapter presents information on the following topics: • Test Set Cal: An Overview • Test Set Cal and SelfCal: Theory of Operation Measurement calibration is a process that improves measurement accuracy by using error correction arrays to remove systematic measurement errors.
Test Set Cal and SelfCal Introduction SelfCal A SelfCal is an automated internal system calibration that should be performed on a regular, frequent basis. If the operating temperature of the analyzer and test set is within the specified range (refer to Chapter 8), the recommended time interval is about once an hour. A SelfCal does not require removal of the DUT or external connections of calibration standards.
Test Set Cal and SelfCal Test Set Cal: An Overview Test Set Cal: An Overview To perform a Test Set Cal the following steps are required and are explained in detail in this section: 1. Set up measurement parameters, such as frequency range, power level, number of measurements points, etc. 2. Determine the best position for the calibration reference plane. 3. Determine the type of calibration kit you will need to match the connectors at your calibration reference plane. 4.
Test Set Cal and SelfCal Test Set Cal: An Overview The analyzer will interpolate between calibrated measurement points when the frequency span is narrowed. However, you should be aware that best measurement accuracy is compromised with this interpolation. Figure 3-1 Frequency Range Example NOTE It is recommended that you set your stop frequency to 1300 MHz. The performance of the test set is not specified above 1300 MHz.
Test Set Cal and SelfCal Test Set Cal: An Overview Other Parameters to Consider The following parameters, if changed after calibrating, will not invalidate the calibration, but will cause the “C?” notation to appear at the status bar of the display: • Sweep time • Number of points • Power level • IF bandwidth The “C?” notation indicates that a measurement parameter has changed after a calibration was performed. For best accuracy, avoid measurements which cause the “C?” notation to appear.
Test Set Cal and SelfCal Test Set Cal: An Overview Figure 3-2 The Calibration Reference Plane Chapter 3 35
Test Set Cal and SelfCal Test Set Cal: An Overview CAUTION Although the Test Set Cal can calibrate out the effects of your external hardware, the drift-removing features of the SelfCal cannot remove drift associated with any external fixtures or cabling. See Figure 3-4. Be sure that all external fixtures and cables are extremely stable. Agilent recommends the use of semi-rigid cabling external to your multiport test set. Design fixturing such that movement of all cables and connectors is minimized.
Test Set Cal and SelfCal Test Set Cal: An Overview Determine the Test Set Ports to Be Used To save time, calibrate the lowest number of ports necessary for your test setup. For example, if your test setup requires the use of only 6 of the available twelve ports, calibrate for 6 ports; there is no need to spend the time to calibrate all twelve ports. The selection of the number of ports is necessary, in part, in order to perform the minimum-through portion of the Test Set Cal.
Test Set Cal and SelfCal Test Set Cal: An Overview Step 3. Press Test Set Cal. Step 4. Press Calibration. NOTE If Calibration is disabled, the status of the multi-port test set of this channel may be off. See "Procedure of setting ports for the multi-port test set" in the previous chapter. Step 5. Press Port x-y (a port pair for which you want to execute calibration). NOTE The multi-port test set calibration is performed for each port pair.
Test Set Cal and SelfCal Test Set Cal: An Overview Step 10. Connect the short standard to the Port y side and press Port y Short to measure calibration data. Step 11. Connect the load standard to the Port y side and press Port y Load to measure calibration data. Step 12. Connect the thru standard between ports x and y side and press Portx- y Thru to measure calibration data. Step 13. Press Return to return to the port selection menu. Step 14. Repeat Step 5 through Step 13 for necessary port pairs.
Test Set Cal and SelfCal Test Set Cal: An Overview Calibrating: Insertable Port Pairs versus Noninsertable Port Pairs During the through portion of the calibration, if an adjacent port pair (for example, 1-to-2, 3-to-4, 5-to-6, etc.) can be connected directly without using a cable or an adapter, the port pair is insertable. If an adjacent port pair can only be connected by using a through cable or an adapter, the port pair is noninsertable.
Test Set Cal and SelfCal Test Set Cal: An Overview Step 6. Connect the ECal module between ports x and y and press ECal to measure calibration data and calculate the calibration coefficients. Step 7. Repeat Step 5 and Step 6 for necessary port pairs.
Test Set Cal and SelfCal Test Set Cal: An Overview NOTE A 2-port type ECal module is assumed in the above procedure. For a 4-port ECal module, in case of S-parameter test set, you can connect any two of the 4 ports when connecting the ECal module in Step 6. In case of transmission/reflection test set, one of the connections listed in the table must be used.
Test Set Cal and SelfCal Test Set Cal: An Overview Step 2. Press [Save/Recall]. Step 3. Press Recall State, then the softkey corresponding to the register from which you want to recall the instrument state. Copying the Test Set Cal. The E5061A/62A lets you temporarily save Test Set calibration data only for each channel and copy it to another channel.
Test Set Cal and SelfCal Test Set Cal: An Overview NOTE Self Cal is set for each measurement channel and executed for a port pair selected for the channel. NOTE SelfCals are not automatically initiated on currently unused ports. A port is never automatically calibrated unless it is selected— even if the time interval has been exceeded. NOTE SelfCals are initiated only when a trigger source is internal and a trigger mode is continuous. Step 1. Press [Cal]. Step 2. Press Test Set Cal. Step 3.
Test Set Cal and SelfCal Test Set Cal and SelfCal: Theory of Operation Test Set Cal and SelfCal: Theory of Operation Adding a multiport test set to the analyzer degrades raw performance of the test system as well as introduces drift. Test Set Cal provides the vector error correction that allows the system to achieve good performance. A Test Set Cal is a calibration that is performed on a regular, but infrequent basis.
Test Set Cal and SelfCal Test Set Cal and SelfCal: Theory of Operation Figure 3-3 Internal Transfer Standards A SelfCal is an automatic measurement of the test set internal standards that allows the system to remove system drift that occurs due to environmental changes such as temperature. SelfCal allows the multiport system to recalibrate itself without having to disconnect the DUT or connect any additional external standards or cables to the system. A SelfCal can be initiated manually.
Test Set Cal and SelfCal Test Set Cal and SelfCal: Theory of Operation Drift can be minimized by controlling the environmental temperature and humidity, and by using high quality connectors, semi-rigid cables, and fixturing that reduces cable movement to a minimum.
Test Set Cal and SelfCal Test Set Cal and SelfCal: Theory of Operation 48 Chapter 3
4 Front/Rear Panel 49
Front/Rear Panel This chapter contains information on the ports and switches found on the front and rear panels of the test set.
Front/Rear Panel Front Panel Front Panel Figure 4-1 Front Panel Features Item Description 1 Line Power Switch 2 Port Connection Status LEDs 3 Reflection and Transmission Connectors 4 Test Ports 5 Chassis Ground Connector Line Power Switch The test set line POWER switch is located at the bottom left corner of the front panel. See Figure 4-1. The line POWER switch turns the power to the test set to either on or off.
Front/Rear Panel Front Panel The front panel LINE switch disconnects the mains circuits from the mains supply after the EMC filters and before others parts of the instrument. Test Ports The front panel test ports are 75 ohm female connectors that are used to connect to the device under test. CAUTION Never connect 50 ohm cables to the front panel 75 ohm connectors of the analyzer or test set. Otherwise, irreparable connector damage will occur.
Front/Rear Panel Front Panel The REFLECTION Connector The REFLECTION connector is a female 75 ohm type-N connector that connects directly to the PORT 1 of the network analyzer using a semi-rigid cable that was shipped with your test set. CAUTION Check your analyzer's documentation for damage limits to the analyzer ports. Make sure that your test setup will not cause those limits to be exceeded.
Front/Rear Panel Rear Panel Rear Panel Figure 4-2 Rear Panel Features Item Description 1 Parallel In Connector 2 Parallel Out Connector 3 Line Module The PARALLEL IN Connector This female DB-25 connector input is always connected to the network analyzer. The analyzer provides control of the test set through this cable as well as passing through any printer control signals to the test set’s PARALLEL OUT connector.
Front/Rear Panel Rear Panel Line Module The line module contains the power cable receptacle. See “Step 4. Satisfy Electrical and Environmental Requirements” for power supply requirements. Power Cables The line power cable is supplied in one of several configurations, depending on the destination of the original shipment. Each instrument is equipped with a three-wire power cable. When connected to an appropriate ac power receptacle, this cable grounds the instrument chassis.
Front/Rear Panel Rear Panel Figure 4-3 Power Cable and Line (Mains) Plug Part Numbers 56 Chapter 4
5 Key Reference 57
Key Reference This chapter contains an alphabetical reference of the network analyzer keys that are used exclusively for the multiport test set. It also contains entries for some of the network analyzer keys that are likely to be used while making measurements with your multiport test set. For a complete reference of network analyzer keys, see your analyzer’s User’s Guide.
Key Reference Cal Menu Cal Menu -G[ UVTQMG (WPEVKQP [Cal] 5%2+ EQOOCPF Displays the softkeys related to setting and executing calibration. Correction Toggles on/off the error correction. Test Set Cal Displays the softkeys to execute multi-port test set calibration. :SENS{1-4}:CORR:STAT Test Set Cal Enables/disables the calibration data for the multi-port test set.
Key Reference Cal Menu -G[ UVTQMG (WPEVKQP [Cal] 5%2+ EQOOCPF (Continued) Test Set Cal Calibration Port 1-2 ECal Executes 2-port ECal for ports 1 and 2 of the multi-port test set. Return Returns to the softkey display in one level upper. Port 3-4 :SENS{1-4}:CORR:MULT:C OLL:ECAL 2,1 Displays the softkeys to calibrate ports 3 and 4 of the multi-port test set. The lower level softkeys displayed are the same as those for Port 1-2.
Key Reference Cal Menu -G[ UVTQMG (WPEVKQP 5%2+ EQOOCPF Timer Specifies the execution interval of the auto calibration feature using the internal standard of the multi-port test set. You can specify 1 or more in minutes. :SENS{1-4}:CORR:MULT:SE LF:TIM Self Cal Once Executes the auto calibration feature using the internal standard for the specified port of the multi-port test set. :SENS{1-4}:CORR:MULT:SE LF:ONCE Return Returns to the softkey display in one level upper.
Key Reference System Menu System Menu -G[ UVTQMG (WPEVKQP [System] 5%2+ EQOOCPF Displays the softkeys related to control/management features of the analyzer. 87075 Setup Displays the softkeys related to setting the multi-port test set. 87075 Control Enables/disables the multi-port test set. Reflection Displays the softkeys to select the port for the reflection side of the multi-port test set. :SENS{1-4}:MULT Selects Port 1 as the reflection-side port.
Key Reference System Menu -G[ UVTQMG [System] (WPEVKQP 5%2+ EQOOCPF (Continued) 87075 Setup Return Return Returns to the softkey display in one level upper. Returns to the softkey display in one level upper.
Key Reference System Menu 64 Chapter 5
6 SCPI Command Reference This chapter describes the SCPI command reference for the Agilent E5061A/E5062A to control the Agilent 87075C Multi Port Test Set. It describes the commands using their abbreviated format in alphabetical order.
SCPI Command Reference Syntax Notational conventions in this command reference This section describes the rules to read the description of the commands in this chapter. Syntax Part with heading "Syntax" describes the syntax to send a command from the external controller to the E5061A/E5062A. A syntax consists of a command part and a parameter part. The separator between the command part and the parameter part is a space.
SCPI Command Reference Query response Parameters Part with heading "Parameters" describes necessary parameters when sending the command. When a parameter is a value type or a string type enclosed with <>, its description, allowable setup range, preset (factory-set) value, and so on are given; when a parameter is a selection type enclosed with { }, the description of each selection item is given.
SCPI Command Reference Equivalent key menu using the [←↓] key and so on, and then press the [Enter] key.
SCPI Command Reference :SENS{1-4}:CORR:MULT Multiport Testset Commands This section describes the commands of 87075C Multiport Testset. :SENS{1-4}:CORR:MULT Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport[:STATe] {ON|OFF|1|0} :SENSe{[1]|2|3|4}:CORRection:MULTiport[:STATe]? Description For channel 1 to channel 4, enables/disables the calibration of the test set. Parameters Description ON or 1 Enables the calibration of the test set. OFF or 0 (preset value) Disables the calibration of the test set.
SCPI Command Reference :SENS{1-4}:CORR:MULT:COLL:ECAL :SENS{1-4}:CORR:MULT:COLL:ECAL Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect:ECAL , Description For channel 1 to channel 4, performs the calibration of the specified ports using ECal. This command makes a measurement of the standard and calculates calibration coefficient successively. The calibration executed here is the test set calibration specified by :SENS{1-4}:CORR:MULT:COLL:METH on page 73.
SCPI Command Reference :SENS{1-4}:CORR:MULT:COLL:ISOL :SENS{1-4}:CORR:MULT:COLL:ISOL Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect[:ACQuire]:ISOLation , Description For channel 1 to channel 4, measures isolation calibration data for the specified port pair. NOTE If 2 ports you specify are not a port pair, an error occurs. Also, if :SENS{1-4}:MULT on page 81 is off, an error occur.
SCPI Command Reference :SENS{1-4}:CORR:MULT:COLL:LOAD :SENS{1-4}:CORR:MULT:COLL:LOAD Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect[:ACQuire]:LOAD Description For channel 1 to channel 4, measures the calibration data of the load standard of the specified port. NOTE If :SENS{1-4}:MULT on page 81 is off, an error occur. Parameters Description value Specifies a port of the test set for which the calibration data of the load standard is measured.
SCPI Command Reference :SENS{1-4}:CORR:MULT:COLL:METH :SENS{1-4}:CORR:MULT:COLL:METH Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect:METHod {ERES|SOLT2} :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect:METHod? Description For channel 1 to channel 4, selects the test set calibration from enhanced response calibration or full 2-port calibration. NOTE Only ERES (enhanced response calibration) can be specified for the T/R model.
SCPI Command Reference :SENS{1-4}:CORR:MULT:COLL:OPEN :SENS{1-4}:CORR:MULT:COLL:OPEN Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect[:ACQuire]:OPEN Description For channel 1 to channel 4, measures the calibration data of the open standard of the specified port. NOTE If :SENS{1-4}:MULT on page 81 is off, an error occur. Parameters Description value Specifies a port of the test set for which the calibration data of the open standard is measured.
SCPI Command Reference :SENS{1-4}:CORR:MULT:COLL:SAVE :SENS{1-4}:CORR:MULT:COLL:SAVE Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect:SAVE Description For channel 1 to channel 4, calculates the calibration coefficients depending on the selected calibration type. Calibration coefficient is calculated for all port pairs that have all necessary measured calibration data for calculation. If none of the port pair has all necessary data for calculation, an error occurs and the command is ignored.
SCPI Command Reference :SENS{1-4}:CORR:MULT:COLL:SHOR :SENS{1-4}:CORR:MULT:COLL:SHOR Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect[:ACQuire]:SHORt Description For channel 1 to channel 4, measures the calibration data of the short standard of the specified port. NOTE If :SENS{1-4}:MULT on page 81 is off, an error occur. Parameters Description value Specifies a port of the test set for which the calibration data of the short standard is measured.
SCPI Command Reference :SENS{1-4}:CORR:MULT:COLL:THRU :SENS{1-4}:CORR:MULT:COLL:THRU Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:COLLect[:ACQuire]:THRU , Description For channel 1 to channel 4, measures thru standard calibration data for the specified port pair. NOTE If 2 ports you specify are not pair ports, an error occurs. Also, if :SENS{1-4}:MULT on page 81 is off, an error occur.
SCPI Command Reference :SENS{1-4}:CORR:MULT:SELF :SENS{1-4}:CORR:MULT:SELF Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:SELF[:STATe] {ON|OFF|1|0} :SENSe{[1]|2|3|4}:CORRection:MULTiport:SELF[:STATe]? Description For channel 1 to channel 4, specifies whether to execute the self calibration of the test set automatically at user defined interval. To specify the interval, use the :SENS{1-4}:CORR:MULT:SELF:TIM on page 80 command.
SCPI Command Reference :SENS{1-4}:CORR:MULT:SELF:ONCE :SENS{1-4}:CORR:MULT:SELF:ONCE Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:SELF:ONCE Description For channel 1 to channel 4, executes self calibration for the port pairs that are used in the channel with the Test Set calibration. NOTE If necessary test set calibration has not been executed, this command causes an error. Also, if :SENS{1-4}:MULT on page 81 is off, this command causes an error.
SCPI Command Reference :SENS{1-4}:CORR:MULT:SELF:TIM :SENS{1-4}:CORR:MULT:SELF:TIM Syntax :SENSe{[1]|2|3|4}:CORRection:MULTiport:SELF:TIMer :SENSe{[1]|2|3|4}:CORRection:MULTiport:SELF:TIMer? Description For channel 1 to channel 4, specifies the interval at which the self calibration of the test set is executed automatically. If :SENS{1-4}:CORR:MULT:SELF on page 78 is on, self calibration is executed at intervals specified by this command.
SCPI Command Reference :SENS{1-4}:MULT :SENS{1-4}:MULT Syntax :SENSe{[1]|2|3|4}:MULTiport[:STATe] {ON|OFF|1|0} :SENSe{[1]|2|3|4}:MULTiport[:STATe]? Description For channel 1 to channel 4, enables/disables the test set. If off is specified, test set calibration cannot be executed. Parameters Description ON or 1 Enables the test set. OFF or 0 (preset value) Disables the test set.
SCPI Command Reference :SENS{1-4}:MULT:PORT{1-2}:SEL :SENS{1-4}:MULT:PORT{1-2}:SEL Syntax :SENSe{[1]|2|3|4}:MULTiport:PORT{[1]|2}:SELect :SENSe{[1]|2|3|4}:MULTiport:PORT{[1]|2}:SELect? Description For channel 1 to channel 4, specifies ports to which the reflection port (port 1) of the test set and the transmission port (port 2) are connected. The same port cannot be specified as a port to which port 1 and port 2 are connected.
SCPI Command Reference :SENS{1-4}:MULT:PROP :SENS{1-4}:MULT:PROP Syntax :SENSe{[1]|2|3|4}:MULTiport:PROPerty {ON|OFF|1|0} :SENSe{[1]|2|3|4}:MULTiport:PROPerty? Description For channel 1 to channel 4, specifies whether to display the port connection status of the test set. Parameters Description ON or 1 Shows the port connection status of the test set. OFF or 0 (preset value) Hides the port connection status of the test set.
SCPI Command Reference :SENS{1-4}:MULT:PROP 84 Chapter 6
7 COM Object Reference This chapter describes the COM object model of the Agilent E5061A/E5062A and the COM object reference provided for the Agilent 87075C Multiport Test Set control in alphabetical order.
COM Object Reference Application Objects COM Object Model The COM objects provided for the E5061A/E5062A are structured hierarchically as shown in Figure 7-1. Figure 7-1 E5061A/E5062A COM object model Application Objects The Application objects are at the top of the hierarchy of the E5061A/E5062A COM object model. They consist of 7 objects dedicated to the COM interface and SCPI objects corresponding to SCPI commands.
COM Object Reference SCPI Objects SCPI Objects The SCPI objects are created to realize the SCPI commands of the E5061A/E5062A with the COM interface. For information on the basic use of the SCPI objects, see “SCPI Objects” on page 87. The conversion rules from the SCPI commands when writing SCPI object messages are as follows: • SCPI. must be at the beginning. Notice that the IEEE common commands start with SCPI.IEEE4882. and "*" is omitted.
COM Object Reference Object Type Notational Rules of COM Objects This section describes the rules for the description of the COM objects in this chapter. Object Type Part with heading “Object type” describes the type of the E5061A/E5062A COM object. The E5061A/E5062A provides properties and methods as the types of COM objects.
COM Object Reference Variable Variable Part with heading “Variable” describes necessary variables when using the object. It gives the description, data type, allowable range, preset value, unit, resolution, and notes for variable (italic) shown in the syntax. Variables declared as the string data type (String) are case insensitive. For variables of the string type that indicate arguments (written as Param in the syntax), you can omit lower-case letters.
COM Object Reference Equivalent Key Equivalent Key Part with heading “Equivalent key” shows the operational procedure of the front panel keys that has the same effect as this object. [Key] Indicates that you press the key named Key. [Key] - Item Indicates a series of key operation in which you press the [Key] key, move the focus to the button called Item on the displayed menu using the [←↓] key and so on, and then press the [Enter] key.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.ACQuire.ISOLation SCPI Objects SCPI objects are a collection of the COM interface having one-on-one correspondence with the SCPI commands. This section describes the E5061A/E5062A SCPI objects. SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.A CQuire.ISOLation Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.ACQuire.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.ACQuire.ISOLation Examples Dim IsPort(1) As Variant IsPort(0) = 1 IsPort(1) = 2 SCPI.SENSe(1).CORRection.MULTiport.COLLect.ACQuire.ISOLation = IsPort Related objects SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.LOAD on page 93 SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.OPEN on page 94 SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.SHORt on page 95 SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.LOAD SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.LOAD Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.ACQuire.LOAD = Value Description For channel 1 to channel 4, measures load calibration data for the specified port. Variable Value Description Specifies a port of the test set for which the calibration data of the load standard is measured.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.OPEN SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.OPEN Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.ACQuire.OPEN = Value Description For channel 1 to channel 4, measures open calibration data for the specified port. Variable Value Description Specifies a port of the test set for which the calibration data of the open standard is measured.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.SHORt SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.SHORt Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.ACQuire.SHORt = Value Description For channel 1 to channel 4, measures short calibration data for the specified port. Variable Value Description Specifies a port of the test set for which the calibration data of the short standard is measured.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.THRU SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.THRU Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.ACQuire.THRU = Data Description For channel 1 to channel 4, measures thru calibration data for the specified port pair.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ECAL SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ECAL Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.ECAL = Data Description For channel 1 to channel 4, performs the calibration of the specified ports using ECAL. This command makes a measurement of the standard and calculates calibration coefficient successively. The calibration executed here is the test set calibration specified by SCPI.SENSe(Ch).CORRection.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. METHod SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. METHod Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.METHod = Param Param = SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.METHod Description For the active trace of channels 1 to 4 (Ch), selects the calibration type of the Test Set Cal. Variable Param Description Calibration type Data type Character string type (String) Range Select from the following.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. SAVE SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. SAVE Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.COLLect.SAVE Description For the active trace of channels 1 to 4 (Ch), calculates the calibration coefficients depending on the selected calibration type. Calibration coefficient is calculated for all port pairs that have all necessary measured calibration data for calculation.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.SELF. ONCE SCPI.SENSe(Ch).CORRection.MULTiport.SELF. ONCE Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.SELF.ONCE Description For channel 1 to channel 4, executes self calibration for the port pairs that are used in the channel with the Test Set calibration. Variable For information on the variable (Ch), see Table 7-2, “Variable (Ch),” on page 91. Examples SCPI.SENSe(1).CORRection.MULTiport.SELF.ONCE Related objects SCPI.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.SELF. STATe SCPI.SENSe(Ch).CORRection.MULTiport.SELF. STATe Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.SELF.STATe = Status Status = SCPI.SENSe(Ch).CORRection.MULTiport.SELF.STATe Description For channel 1 to channel 4, specifies whether to execute the self calibration of the test set automatically at user defined interval. To specify the interval, use the SCPI.SENSe(Ch).CORRection.MULTiport.SELF. TIMer on page 103 command.
COM Object Reference SCPI.SENSe(Ch).CORRection.MULTiport.SELF. TIMer SCPI.SENSe(Ch).CORRection.MULTiport.SELF. TIMer Object type Property Syntax SCPI.SENSe(Ch).CORRection.MULTiport.SELF.TIMer = Value Value = SCPI.SENSe(Ch).CORRection.MULTiport.SELF.TIMer Description For channel 1 to channel 4, specifies the interval at which the self calibration of the test set is executed automatically. If SCPI.SENSe(Ch).CORRection.MULTiport.SELF.
COM Object Reference SCPI.SENSe(Ch).MULTiport.PORT(Pt).SELect SCPI.SENSe(Ch).MULTiport.PORT(Pt).SELect Object type Property Syntax SCPI.SENSe(Ch).MULTiport.PORT(Pt).SELect = Value Value = SCPI.SENSe(Ch).MULTiport.PORT(Pt).SELect Description For channel 1 to channel 4, specifies ports to which the reflection port (port 1) of the test set and the transmission port (port 2) are connected. The same port cannot be specified as a port to which port 1 and port 2 are connected.
COM Object Reference SCPI.SENSe(Ch).MULTiport.PORT(Pt).SELect SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.OPEN on page 94 SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.SHORt on page 95 SCPI.SENSe(Ch).CORRection.MULTiport.COLLect. ACQuire.
COM Object Reference SCPI.SENSe(Ch).MULTiport.PROPerty SCPI.SENSe(Ch).MULTiport.PROPerty Object type Property Syntax SCPI.SENSe(Ch).MULTiport.PROPerty = Status Status = SCPI.SENSe(Ch).MULTiport.PROPerty Description For channel 1 to channel 4, specifies whether to display the port connection status of the test set. Variable Status Description Test set connection property status.
COM Object Reference SCPI.SENSe(Ch).MULTiport.STATe SCPI.SENSe(Ch).MULTiport.STATe Object type Property Syntax SCPI.SENSe(Ch).MULTiport.STATe = Status Status = SCPI.SENSe(Ch).MULTiport.STATe Description For channel 1 to channel 4, enables/disables the test set. If off is specified, test set calibration cannot be executed. Variable Status Description Multiport test set control status.
COM Object Reference SCPI.SENSe(Ch).MULTiport.
8 Specifications 109
Specifications About This Chapter This chapter describes the performance and features of the 87075C multiport test sets. The performance of a test set is formally described in this chapter under the categories Specifications and Supplemental Information. Performance of the test set to specifications is covered by the Agilent Technologies warranty1. Supplemental information may be useful in the application of the test set, but this performance is not covered by the Agilent Technologies warranty.
Specifications Definitions All specifications and characteristics apply over a 25 °C ±5 °C range (unless otherwise stated) and thirty minutes after the instrument has been turned on. Specification (spec.): Warranted performance. Specifications include guardbands to account for the expected statistical distribution, measurement uncertainties, and changes in performance due to environmental conditions. Characteristic (char.
Specifications Test Set Performance Table 8-1 Test Set Input/Output Performance, 75Ω 87075C Test Set Input/Output Description Specification Supplemental Frequency Range 87075C 3 MHz–1.3 GHz — RF Input Power Maximum Input Power at 0.
Specifications Table 8-2 Test Set Input/Output Performance, 75 Ω (continued) 87075C (75 Ω) Test Set Input/Output Specification, dB Typical, dB 3 MHz to 1.3 GHz 3 MHz to 1.3 GHz Source Match, test port1 12 16 Load Match, test port unselected2 20 25 Load Match, test port selected3 15 20 Interconnect Match, reflection port4 12 18 4 12 18 Insertion Loss, reflection port to port-n 7.5 6.5 Insertion Loss, transmission port to port-n Description Interconnect Match, transmission port 11.
Specifications Table 8-3 Test Set General Information 87075C General Information Description Specification Supplemental Information Port Connectors 87075C — Type-N, Female 75 Ω (nominal) Front Panel Ports 87075C, 75 Ω, Opt.006 6 — 87075C, 75 Ω, Opt.
Specifications Table 8-3 Test Set General Information (continued) 87075C General Information Description Specification Supplemental Information General Environmental ESD — Minimize using static-safe work procedures and an antistatic bench mat (part number 9300-0797). Dust — Minimize for optimum reliability. Operating Environment General Temperature Humidity (relative) Altitude Indoor Use Only — 0 °C to +55 °C — less than 80% RH up to 31 °C, decreasing linearly to 50% RH at 40 °C — 0 to 4.
Specifications Physical Dimensions Figure 8-1 Physical Dimensions of the 87075C Option 006 Multiport Test Set1 1. These dimensions exclude rear protrusions.
Specifications Figure 8-2 Physical Dimensions of the 87075C Option 012 Multiport Test Set1 1. These dimensions exclude rear protrusions.
Specifications Warranty NOTE The actual warranty on your instrument depends on the date it was ordered as well as whether or not any warranty options were purchased at that time. To determine the exact warranty on your instrument, contact Agilent Technologies with the model and serial number of your instrument. See page 120 for contact information. This Agilent Technologies instrument product is warranted against defects in material and workmanship for the warranty period.
Specifications Limitation of Warranty The foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by Buyer, Buyer-supplied software or interfacing, unauthorized modification or misuse, operation outside of the environmental specifications for the product, or improper site preparation or maintenance. NO OTHER WARRANTY IS EXPRESSED OR IMPLIED. AGILENT TECHNOLOGIES SPECIFICALLY DISCLAIMS THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
Specifications Contacting Agilent By internet, phone, or fax, get assistance with all your test and measurement needs. Online assistance: www.agilent.
Specifications Spain (tel) (+34) 91 631 3300 (alt) (+34) 91 631 3000 (fax) (+34) 91 631 3301 Sweden (tel) 0200 88 22 55* (alt) (+46) (0)8 5064 8686 (fax) 020 120 2266* Switzerland (Italian) (tel) 0800 80 5353 opt. 3* (alt) (+39) (0)2 9260 8484 (fax) (+41) (0)22 567 5314 United Kingdom (tel) (+44) (0)7004 666666 (alt) (+44) (0)7004 123123 (fax) (+44) (0)7004 444555 Switzerland (French) (tel) 0800 80 5353 opt.
Specifications 122 Chapter 8
9 Service 123
Service WARNING These servicing instructions are for use by qualified personnel only. To avoid electrical shock, do not perform any servicing unless you are qualified to do so. WARNING The opening of covers or removal of parts is likely to expose dangerous voltages. Disconnect the product from all voltage sources while it is being opened. WARNING The power cord is connected to internal capacitors that may remain live for 5 seconds after disconnecting the plug from its power supply.
Service Automated Performance Tests Automated Performance Tests The performance verification tests make up the VBA performance test software program. Your network analyzer is required to execute an VBA program to verify test set performance. The performance verification tests are designed to verify specifications for the test set as listed in Table 8-2. The performance test software uses traditional analyzer calibrations rather than a Test Set Cal.
Service Automated Performance Tests Step 7. Click "Open" button to download the test program. Step 8. Press Select Macro to select Select Macro function. Step 9. Press Module Main to open the Module1 main program file. "87075C Performance Test Program" dialog box (Main Menu) as shown below will appear. 87075C Performance Test Program dialog box Step 10. To exit the program, click "Exit" button.
Service Automated Performance Tests Program Overview Instrument Information The option and serial number for the 87075C can be entered. Test Condition The test condition, “Temperature”, “Humidity” and person doing the test (“Tested by”) can be entered. Test Items The following test can be selected. To execute the test you select, click “Execute” button. Each test result is categorized as “PASS” or “FAIL”.
Service Automated Performance Tests Test dialog box “Text” or “Graph” in the Test Result box can be selected before “Execute” button is pressed. To execute the test, click “Execute” button. To return the 87075C performance test program dialog box (Main Menu), click “Back to Main Menu”. The test program will prompt you connect cables and O/S/L terminations to the 87075C or E5061A/E5062A. Follow the instructions on the E5061A/E5062A display for performing the test. The test results file named “87075C_pt.
Service Automated Performance Tests Performance Verification Test Results The performance verification tests are designed to verify specifications for the test set. This section lists the test names along with some descriptive information and the general steps involved in each test. Each test result is categorized as PASS or FAIL. A FAIL indicates a specification has not been met. When a FAIL occurs, check the connections and repeat the test before continuing to the next test.
Service Automated Performance Tests SRC MATCH XX Measures reflection at port XX when the port is switched to the test set’s REFLECTION port, which is terminated with a precision load. Tests the specified performance of “Source Match,” listed in Table 8-2 in Chapter 8, “Specifications.” Steps: •Set specified frequency for test set. •Perform reflection 1-port (User 1-port1) calibration at end of cable (using short, open, and load). •Connect precision load to test set’s REFLECTION port.
Service Automated Performance Tests LD MATCH XX Measures reflection at port XX when the port is switched to the test set’s TRANSMISSION port, which is terminated with a precision load. Tests the specified performance of “Load Match, Test Port Selected,” listed in Table 8-2 in Chapter 8, “Specifications.” Steps: •Set specified frequency for test set. •Perform reflection 1-port (User 1-port1) calibration at end of cable (using short, open, and load). •Connect precision load to test set’s TRANSMISSION port.
Service Automated Performance Tests INSERT LOSS R->XX and INSERT LOSS T->XX Measures worst-case insertion loss between the test set’s REFLECTION port or TRANSMISSION port and port XX when the test set is switched to port XX. Tests the specified performance of “Insertion Loss,” listed in Table 8-2 in Chapter 8, “Specifications.” Steps:2 •Set specified frequency for test set. •Perform transmission Enhanced Response calibration with two test cables (using short, open, load and through).
Service Automated Performance Tests XTALK XX->YY Measures crosstalk resulting from worst-case mismatch (shorts) between the selected ports of the test set. Tests the specified performance of “Crosstalk,” listed in Table 8-2 in Chapter 8, “Specifications.” Steps:3 •Set specified frequency for test set. •Set measurement parameters: system bandwidth=30 Hz, Average Factor=8, and Power Level=10. •Connect the analyzer to the test set using the test cables.
Service Manual Performance Tests Manual Performance Tests There are no manual Performance Verification Tests for this instrument. It is not necessary to manually perform the Performance Verification Tests since they are available in an VBA program that is included with the performance test software. See “Performance Verification Test Results” for more information on each Performance Verification Test.
Service Adjustments Adjustments There are no adjustments for this instrument. Any drift in components can be compensated for with the SelfCal feature. Any failure will require the replacement of an assembly.
Service Troubleshooting Troubleshooting Refer to Chapter 1, “Introduction and Installation,” to make sure the test set is connected properly to the analyzer and that the analyzer has been configured for use with the multiport test set. Troubleshooting consists of isolating the cause of any problem to an individual assembly.
Service Troubleshooting If the power supply voltage is measured while the cable is disconnected from the main board assembly, the +5 volt supply may not function. It requires a load of at least 0.5 amps to operate properly. This can be simulated with any 10 ohm, 5 watt resistor. The LEDs on the main board assembly indicate that power is being received. The fan operates from +12 volts and has its own regulator derived from the +15 volt supply.
Service Block Diagram Block Diagram Figure 9-1 Block Diagram 138 Chapter 9
Service Parts List Parts List This section provides ordering information and lists the part numbers for the various replaceable parts, kits, and accessories for your multiport test set. Ordering Information To order a part listed in the replaceable parts lists: 1. Determine the part number and quantity required. 2. Mail the information to the nearest Agilent Technologies office or, in the U.S., call the hotline number listed in the following section.
Service Parts List The defective assembly must be returned for credit under the terms of the rebuilt-exchange assembly program. Shipping the Defective Assembly Back to Agilent 1. When the rebuilt assembly is received, be careful not to damage the box in which it was shipped. You will use that box to return the defective assembly. The box you receive will contain the following: • The rebuilt assembly • An exchange assembly failure report • A return address label 2. Complete the failure report. 3.
Service Parts List Major Parts and Assemblies Table 9-1 Item # Part Number Qty 1 1510-0038 1 Ground connector 2 3101-3008 1 Line switch 3 87075-60014 1 Board assembly, LED display 4 87075-60018 1 Line module cable assembly 5 2110-0957 1 Fuse H 3.
Service Parts List Figure 9-2 Major Parts and Assemblies 142 Chapter 9
Service Parts List Cables, Front Panel, and Main Board Assembly 012 (75 Ω) — Option Table 9-2 Item # Part Number Qty 1 87075-20034 1 Semi-rigid cable, REFLECTION port 2 87075-20035 1 Semi-rigid cable, TRANSMISSION port 3 87075-20036 1 Semi-rigid cable, test set PORT 1 4 87075-20037 1 Semi-rigid cable, test set PORT 2 5 87075-20038 1 Semi-rigid cable, test set PORT 3 6 87075-20039 1 Semi-rigid cable, test set PORT 4 7 87075-20040 1 Semi-rigid cable, test set PORT 5 8 8707
Service Parts List Figure 9-3 Cables, Front Panel, and Main Board Assembly— Option 012 144 Chapter 9
Service Parts List Cables, Front Panel, and Main Board Assembly— Option 006 Table 9-3 Item # Part Number Qty 1 87075-20034 1 Semi-rigid cable, reflection port 2 87075-20035 1 Semi-rigid cable, transmission port 3 87075-20036 1 Semi-rigid cable, test port 1 4 87075-20037 1 Semi-rigid cable, test port 2 5 87075-20038 1 Semi-rigid cable, test port 3 6 87075-20039 1 Semi-rigid cable, test port 4 7 87075-20040 1 Semi-rigid cable, test port 5 8 87075-20041 1 Semi-rigid cable, t
Service Parts List Figure 9-4 Cables, Front Panel, and Main Board Assembly— Option 006 146 Chapter 9
Service Parts List Instrument Covers and Associated Parts Table 9-4 Item # Part Number Qty 1 5002-3964 2 Side cover 2 5002-1088 1 Bottom cover 3 5041-9171 2 Side trim 4 5041-9167 4 Feet 5 1460-1345 2 Tilt-up foot wire 6 5041-9176 1 Top trim 7 5002-1047 1 Top cover Chapter 9 Description 147
Service Parts List Figure 9-5 Instrument Covers and Associated Parts 148 Chapter 9
Service Parts List Accessories Table 9-5 Part or Model Number Description 85036B/E Type-N 75 Ω calibration kit 8120-6818 Parallel port interface cable1 87075-60026 Type-N front panel interconnect cable (REFL)1,2 87075-60027 Type-N front panel interconnect cable (REFL)1,2 87075-60028 Type-N front panel interconnect cable (TRANS)1,2 87075-60029 Type-N front panel interconnect cable (TRANS)1,2 1. Supplied with your multiport test set. 2. See Table 1-1 for more information on these cables.
Service Parts List 150 Chapter 9
10 Safety and Regulatory Information 151
Safety and Regulatory Information This section contains required safety and regulatory information that is not included elsewhere in this manual.
Safety and Regulatory Information Safety Information Safety Information Much of the required safety information is distributed throughout this manual in appropriate places. This section contains all required safety information that is not included elsewhere in this manual. Warnings IMPORTANT Warning denotes a hazard. It calls attention to a procedure which, if not correctly performed or adhered to, could result in injury or loss of life.
Safety and Regulatory Information Safety Information Cautions IMPORTANT Caution denotes a hazard. It calls attention to a procedure that, if not correctly performed or adhered to, would result in damage to or destruction of the instrument. Do not proceed beyond a caution sign until the indicated conditions are fully understood and met. Cautions applicable to this instrument are: CAUTION Always use the three-prong ac power cord supplied with this instrument.
Safety and Regulatory Information Safety Information Statement of Compliance This instrument has been designed and tested in accordance with IEC Publication 1010, Safety Requirements for Electronic Measuring Apparatus, and has been supplied in a safe condition. The instruction documentation contains information and warnings which must be followed by the user to ensure safe operation and to maintain the instrument in a safe condition.
Safety and Regulatory Information Safety Information Instrument Markings The instruction manual symbol. The product is marked with this symbol when it is necessary for the user to refer to the instructions in the manual. The CE mark shows compliance with European Community. (If accompanied by a year, it is the year when the design was proven.) The CSA mark is the Canadian Standards Association safety mark. This symbol is used to mark the ON position of the power line switch.
Safety and Regulatory Information Regulatory Information Regulatory Information Notice for Germany: Noise Declaration This is to declare that this instrument is in conformance with the German Regulation on Noise Declaration for Machines (Laermangabe nach der Maschinenlaermrerordnung −3.GSGV Deutschland). Acoustic Noise Emission/Geraeuschemission LpA < 70 dB LpA < 70 dB Operator position am Arbeitsplatz Normal position normaler Betrieb per ISO 7779 nach DIN 45635 t.
Safety and Regulatory Information Regulatory Information 158 Chapter 10
Index Numerics 12 port test set--Option 012, 8 6 port test set--Option 006, 8 A accessories supplied, 9 activating the test set, 17 adjacent port pairs, 30, 37, 40 Agilent Technologies, contacting, 120 analyzer compatibility, 11 analyzer configuration for use with test set, 17 Application objects, 86 B block diagram, 138 C C notation, 42 C? notation, 34, 42 cables, front panel, 13, 17 calibration insertable versus noninsertable port pairs, 40 limitations, 46 measurement parameters, 32, 34 number of test po
Index markings, instrument, 156 multiport test set introduction, 2 N network analyzer compatibility, 11 noise declaration, 157 noninsertable port pairs, 40 notation C, 42 C?, 34, 42 O object model, 86 option 006, 8 option 012, 8 P parallel port input connector, 54 parallel port output connector, 54 part number, line fuse, 141 part numbers static-safe equipment, 16 parts list, 139 parts supplied with shipment, 9 parts, ordering, 139 performances tests automated, 125 manual, 134 periodic SelfCal, 46 peripher
Index U unpacking the test set, 9 V variable COM object reference, 89 ventilation requirements, 16 voltage requirements, 14 W warranty, 118 Index Index-3