Errata Title & Document Type: 70000 Series Spectrum Analyzer and 70900B Oscillator Installation and Verification Manual Manual Part Number: 70900-90314 Revision Date: December 1, 1996 HP References in this Manual This manual may contain references to HP or Hewlett-Packard. Please note that HewlettPackard's former test and measurement, semiconductor products and chemical analysis businesses are now part of Agilent Technologies. We have made no changes to this manual copy.
Installation and Veri cation Manual HP 70000 Series Modular Spectrum Analyzer System HP 70900B Local Oscillator Source-Controlled Modules ABCDE HP Part No. 70900-90314 Printed in USA December 1996 Edition A.0.
Notice The information contained in this document is subject to change without notice. Hewlett-Packard makes no warranty of any kind with regard to this material, including, but not limited to, the implied warranties of merchantability and tness for a particular purpose. Hewlett-Packard shall not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing, performance, or use of this material. Restricted Rights Legend.
Certi cation Hewlett-Packard Company certi es that this product met its published speci cations at the time of shipment from the factory. Hewlett-Packard further certi es that its calibration measurements are traceable to the United States National Institute of Standards and Technology, to the extent allowed by the Institute's calibration facility, and to the calibration facilities of other International Standards Organization members.
Safety Symbols The following safety symbols are used throughout this manual. Familiarize yourself with each of the symbols and its meaning before operating this instrument. CAUTION The CAUTION sign denotes a hazard. It calls attention to a procedure which, if not correctly performed or adhered to, could result in damage to or destruction of the product or the user's work. Do not proceed beyond a CAUTION sign until the indicated conditions are fully understood and met.
General Safety Considerations WARNING The instructions in this document are for use by quali ed personnel only. To avoid electrical shock, do not perform any servicing unless you are quali ed to do so. The opening of covers or removal of parts is likely to expose dangerous voltages. Disconnect the instrument from all voltage sources while it is being opened. The power cord is connected to internal capacitors that may remain live for ve seconds after disconnecting the plug from its power supply.
Contents 1. General Information Manual Conventions . . . . . . . . . . . . . . . . . . . . . . . . . Before Operation . . . . . . . . . . . . . . . . . . . . . . . . . . Initial Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . HP 70900B Local Oscillator Source . . . . . . . . . . . . . . . . . . HP 70900B Local Oscillator Source Front-Panel Features . . . . . . . HP 70900B Local Oscillator Source Rear-Panel Features . . . . . . . HP 70900B Local Oscillator Source Options . . . . . . . . . .
Addressing Criteria . . . . . . . . . . . . . . . . . . . . . . . . . . . Row Addressing Priority . . . . . . . . . . . . . . . . . . . . . . . . . Address Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Master Address Switches . . . . . . . . . . . . . . . . . . . . . . . . . Slave Address Switches . . . . . . . . . . . . . . . . . . . . . . . . . Display Address Switches . . . . . . . . . . . . . . . . . . . . . . . . . Module Removal and Installation . . . . . . . . . . . . . . . . . .
HP 71210P Microwave Spectrum Analyzer with HP 70907B external millimeter interface module Added . . . . . . . . . . . . . . . . . . . . . . . . System Replaceable Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . Direct Mail-Order System . . . . . . . . . . . . . . . . . . . . . . . . . . 3. Speci cations and Characteristics System Speci cations . . . . . . . . . . . . . . . . . . . . . . . . . . . . System Components . .
4. System Operation Veri cation Shipment Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Software Version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Software/Hardware Compatibility . . . . . . . . . . . . . . . . . . . . . . . Computer Hardware Compatibility . . . . . . . . . . . . . . . . . . . . . Computer Language Compatibility . . . . . . . . . . . . . . . . . . . . . Printer Compatibility . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Log Fidelity (for HP 70902A IF Section or HP 70903A IF Section) . . . . . . . Resolution Bandwidth Tests (for HP 70902A IF Section or HP 70903A IF Section) Calibrator Amplitude Accuracy (using HP 70907A External Millimeter Interface Module) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Calibrator Amplitude Accuracy (using HP 70907B External Millimeter Interface Module) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figures 1-1. 1-2. 1-3. 1-4. 1-5. 1-6. 1-7. 1-8. 1-9. 1-10. 1-11. 1-12. 2-1. 2-2. 2-3. 2-4. 2-5. 2-6. 2-7. 2-8. 2-9. 2-10. 2-11. 2-12. 2-13. 2-14. 2-15. 2-16. 2-17. 2-18. 2-19. 2-20. 2-21. 2-22. 2-23. HP 70900B Local Oscillator Source Front-Panel Features . . . . . . . . . . . HP 70900B Local Oscillator Source Rear-Panel Features . . . . . . . . . . . Spectrum Analyzer Instrument Keypad . . . . . . . . . . . . . . . . . . . Front Handle Removal and Rack Mounting . . . . . . . . . . . . . . . . .
2-24. Address Map for HP 71200C Modular Spectrum Analyzer Deleting HP 70902A IF Section, with HP 70903A IF Section and HP 70907B External Millimeter Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-25. HP 71200C Modular Spectrum Analyzer Deleting HP 70902A IF Section, with HP 70903A IF Section and HP 70907B External Millimeter Interface Module Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-26.
2-55. HP 71200P Modular Spectrum Analyzer Rear Panel Cabling with HP 70903A IF Section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-56. Address Map for HP 71200P Modular Spectrum Analyzer Deleting HP 70902A IF Section, with HP 70903A IF Section and HP 70907B External Millimeter Interface Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-57.
Tables 1-1. 1-2. 1-3. 1-4. 1-5. 1-6. 1-7. 1-8. 1-9. 1-10. 1-11. 2-1. 2-2. 2-3. 3-1. 3-2. 3-3. 3-4. 3-4. 3-4. 3-4. 3-4. 3-4. 3-4. 3-5. 3-6. 3-7. 3-8. 3-8. 3-8. 3-9. 3-9. 3-9. 3-10. 3-11. 3-12. 3-13. 3-14. 3-15. 3-16. 3-17. HP 70900B Local Oscillator Source Front-Panel Feature Descriptions . . . . . HP 70900B Local Oscillator Source Rear-Panel Feature Descriptions . . . . . . Accessories Shipped When Module is Ordered Separately . . . . . . . . . . . Instrument Keypad Function Keys . . . . . . . . . . . . .
3-18. HP 70905B RF Section/HP 70600A Preselector or HP 70906B RF Section/ HP 70601A Preselector Speci cations and Characteristics . . . . . . 3-19. HP 71400C Lightwave Signal Analyzer Speci cations and Characteristics 3-20. HP 71400C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . 3-21. HP 71401C Lightwave Signal Analyzer Speci cations and Characteristics 3-22.
1 General Information The HP 70000 Modular Spectrum Analyzer Installation and Veri cation Manual contains information speci c to the HP 70900B local oscillator source as well as information needed to prepare an HP 70000 Series modular spectrum analyzer system for use.
Before Operation Before operating this module, familiarize yourself with any safety markings on the module and read the following cautions and warnings. This module has been manufactured and tested according to international safety standards. Cautions and warnings must be followed to ensure the safe operation of the module and protection of personnel. Refer to the summary of safety considerations at the front of this manual and below before using the instrument.
Initial Inspection Inspect the shipping containers for damage. If a shipping container or cushioning material is damaged, it should be kept until the contents of the shipment have been checked for completeness and the module has been checked mechanically and electrically. To determine what accessories should have been shipped with the module, refer to \HP 70900B Local Oscillator Source Accessories". Run the operation veri cation tests to check electrical performance. (Refer to Chapter 4.
HP 70900B Local Oscillator Source Front-Panel Features Note It is normal for the ERR and ACT LEDs to ash on, then o , during the module self-test. Self-test occurs each time the instrument is turned on. The numbers in the \Item" column of Table 1-1 refer to the callouts in Figure 1-1. Table 1-1. HP 70900B Local Oscillator Source Front-Panel Feature Descriptions Item Description 1 The RMT LED lights if the analyzer is addressed by a computer.
Figure 1-1.
HP 70900B Local Oscillator Source Rear-Panel Features The numbers in the \Item" column of Table 1-2 refer to callouts in Figure 1-2. Table 1-2. HP 70900B Local Oscillator Source Rear-Panel Feature Descriptions Item Description 1 300 MHz OUT 1 and 2 provide 300 MHz, 0 dB signals that are used by other modules in the system for reference and phase-locking. 2 EXT TRIG IN is a TTL input that is used for the external trigger functions of the spectrum analyzer.
Figure 1-2.
HP 70900B Local Oscillator Source Options The HP 70900B local oscillator source has the following module options available. Option 910 This option adds another set of the user documentation that normally ship with the module. Option 915 This option adds the module service documentation and module veri cation software. HP 70900B Local Oscillator Source Accessories The HP 70900B local oscillator source may be ordered separately or as part of an HP 70000 Series modular spectrum analyzer system.
Preparing an HP 70000 System for Use System Operating Requirements Refer to Chapter 3 for the following information: operating and storage temperature ranges weights and dimensions of each system or module power requirements of the HP 70001A mainframe or HP 70004A color display Before running the HP 11990A system performance test software, refer to \System Calibration Certi cation" for warm-up requirement information.
Initial System Power-On The HP 70000 Series modular spectrum analyzer system is shipped as a precon gured system model (for example, HP 71100C modular spectrum analyzer), with most rear panel inter-module cables connected. (Some cables are removed for shipping.) The following procedure may be used to ensure that proper initial conditions exist at power-on. 1. Locate the cables shipped with the system. 2. Inspect socket ends and cables for damage. 3. If the loose inter-module cables are intact, connect them.
Instrument Keypad for a Spectrum Analyzer A spectrum analyzer instrument keypad (see Figure 1-3) is shipped with each HP 70900B local oscillator source. This keypad, designed to plug into the front of an HP 70004A color display, allows the operator to access or activate spectrum analyzer control functions from the front of the HP 70004A color display. The spectrum analyzer instrument keypad can be used with the current LO module and HP 70004A color display rmware.
Figure 1-3.
System Rack-Mount and Cabinet Interconnect Installation To make bench operation of the system easier, HP 70000 Series modular measurement system mainframes and stand-alone models (for example, HP 70206A system graphics display) have fold-away tilt stands and plastic feet that are designed to be self-aligning when systems are stacked. Use the following information when modifying your system for rack-mounting or when connecting two system cabinets.
Figure 1-4.
Interconnecting Instrument Cabinets CAUTION The HP 70001A mainframe and HP 70206A system graphics display use Metric 4.0 screws. Other System II cabinets use Metric 3.5 or English 6-32 screws. Using incorrect screw sizes may damage the instrument cabinet. Kit hardware used for vertically interconnecting System II cabinets is illustrated in Figure 1-5. The kit contains both Metric and English screws to cover all mainframe and System II cabinet combinations. Figure 1-5.
Line Voltage Selection Use the line-voltage selectors to select the appropriate voltage setting for each mainframe or display in the system. The line-voltage selector is located on the bottom of the mainframe, on the rear panel of the stand-alone display, or on the right side of the HP 70004A color display. See Figure 1-6. DANGER Before turning the system on, make sure it is grounded through the protective conductor of the power cable to a socket outlet with protective earth contact.
400 Hz Option for the Mainframe and Stand-Alone Display Both the HP 70001A mainframe and the HP 70206A system graphics display are available with an option that allows them to run on a power-line frequency of 400 Hz. Note The HP 70004A color display does not require an option to operate on 400 Hz. The modular spectrum analyzer 400 Hz Options come with an external in-line isolation transformer for use with a 400 Hz power source.
System Line Fuse Replacement The system line fuse is in the line-module housing, which is located at the rear of the system mainframe and the display. The Metric 6.3 A fuse (HP part number 2110-0703) can be used with both 120 V and 230 V power sources. A spare fuse is included with the line fuse in the line-module housing. Figure 1-7 illustrates removal and replacement of the system line fuse. Figure 1-7.
Optional Mainframe Rear-Fan Filter An optional rear-fan lter may be ordered for the HP 70001A mainframe. This lter is not included as part of the standard system. Refer to Figure 1-8 for the part number and installation information for the rear-fan lter. Figure 1-8. Rear-Fan Filter Installation System Power Cables In accordance with international safety standards, this instrument is equipped with a three-wire power cable.
Figure 1-9.
Display Screen Cleaning To avoid damaging the coating on the display screen, use a thin lm cleaner such as Hewlett-Packard Display Cleaner (HP part number 8500-2163). This should be used with an abrasion-free cleaning tissue or soft cloth. CAUTION Do not use hand or laboratory paper towels to clean the display screen. These abrasive materials may scratch the screen coating. (Refer to \Display Screen Cleaning".
Preparing a Static-Safe Work Station Electrostatic discharge (ESD) can damage or destroy electronic components. Therefore, all work performed on assemblies consisting of electronic components should be done at a static-safe work station. Figure 1-11 shows an example of a static-safe work station. Two types of ESD protection are shown: a conductive table mat and wrist strap combination a conductive oor mat and heel strap combination Figure 1-11.
Preparing a Static-Safe Work Station Reducing ESD Damage To help reduce the amount of ESD damage that occurs during testing and servicing use the following guidelines: Be sure that all instruments are properly earth-grounded to prevent buildup of static charge. Personnel should be grounded with a resistor-isolated wrist strap before touching the center pin of any connector and before removing any assembly from a piece of equipment.
If You Need to Contact Hewlett-Packard Before calling Hewlett-Packard or returning your instrument, please read your warranty information. Warranty information is printed at the front of this document. In any correspondence or telephone conversations, refer to the instrument by its full model number and full serial number. With this information, the Hewlett-Packard representative can determine whether your unit is still within its warranty period.
If You Need to Contact Hewlett-Packard Table 1-7. Hewlett-Packard Sales and Service O ces US FIELD OPERATIONS EUROPEAN OPERATIONS HEADQUARTERS HEADQUARTERS INTERCON OPERATIONS HEADQUARTERS California Australia Hewlett-Packard Company 19320 Pruneridge Avenue Cupertino, CA 95014, USA (800) 752-0900 Hewlett-Packard S.A. 150, Route du Nant-d'Avril 1217 Meyrin 2/Geneva Switzerland (41 22) 780.8111 Hewlett-Packard Co. France 1421 South Manhattan Ave.
Returning Your Instrument to Hewlett-Packard Hewlett-Packard has sales and service o ces around the world to provide complete support for your instrument. To obtain servicing information or to order replacement parts, contact the nearest Hewlett-Packard sales and service o ce listed in Table 1-7. Use the following procedure to return your instrument to Hewlett-Packard: 1. Fill out a service tag (available at the end of this document) and attach it to the instrument.
Returning Your Instrument to Hewlett-Packard Table 1-8.
Returning Your Instrument to Hewlett-Packard Table 1-9.
Returning Your Instrument to Hewlett-Packard Table 1-10.
Returning Your Instrument to Hewlett-Packard Table 1-11.
2 Installation This chapter contains information necessary for installing the components of an HP 70000 Series modular spectrum analyzer system. The factory ships HP 70000 Series modular spectrum analyzer systems with all system components installed and addressed. All cables, however, are subject to removal for shipment. The following information is included in this chapter.
Modular Measurement System Terms Understanding the following terms is essential to understanding HP-MSIB addressing and the structural relationship of modular measurement system devices. Functional Terms The devices of a modular system may be combined in such a way to allow them to communicate and operate as an instrument. The following terms identify the interrelationship among devices within a modular instrument. Element Any device that communicates over the HP-MSIB (for example, HP 70902A IF section).
Address Map Protocol Protocol for master, sub-master, slave, and independent element addressing is explained in this section. The factors governing proper system communication and system function are based on adherence to the addressing protocol of modular spectrum analyzers. By de nition, a master is an element addressed to control another element, or is the controlling element of a system. Slave elements are addressed within the area a master controls, called the slave area.
Display-Response Area NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN A display-response area exists at row 0. The display's REPORT ERRORS menu key function can only access a module addressed at row 0. A display must be assigned to an instrument before communication between the two is initiated. This can be done automatically or manually. The automatic assignment function ( SELECT INSTRUMENT menu key) searches the display-response area (row 0) when it assigns itself to an instrument.
Sub-Master Elements Figure 2-2. Master/Slave Address Matrix A sub-master is an element that can function as both master and slave at the same time. Sub-masters are located at a row address other than 0, are controlled by another master, and control a slave area of their own. For example, Figure 2-3 illustrates sub-master M2 at address 3, 24. M2 is a slave to M1. M2 also has a slave area that lies within the slave area of M1.
The HP-MSIB address requirements of a de ning element are as follows: The column address of a de ning element must be greater than the column address of the master. In Figure 2-2, for the master addressed in column 23, the de ning element must be addressed in column 24 or above. In Figure 2-3, for M2 addressed in column 24, the de ning element must be addressed in column 25 or above. The row address of a de ning element must be equal to or less than the row address of a master.
Addressing Order Requirements for HP 70000 Systems HP-MSIB addresses are set by switches located on each module. The address consists of two parts: a row number and a column number. A module's address can be determined by viewing the address map or selecting the con guration screen. Measurement systems are composed of more than one module. When this is true, the modules will assume master/slave relationships to simplify the user interface.
Addressing Criteria Each module, or type of module, has addressing criteria that impact address selection. The descriptions below are written as if the modules are in the same column; however, this is not a requirement as long as their relative position is maintained with respect to the HP 70900B local oscillator source search pattern. HP 70900B local oscillator A single HP 70900B local oscillator source master module may source control only 16 slave modules.
HP 70300A RF tracking generator HP 70301A microwave tracking generator HP 70310A precision frequency reference HP 70810B lightwave section HP 70620A/B preampli er or HP 70621A preampli er The HP 70300A RF tracking generator should be addressed just above an HP 70301A microwave tracking generator, if one is present. The HP 70301A microwave tracking generator should be addressed just below an HP 70300A RF tracking generator, if one is present.
Row Addressing Priority The row addressing priority for systems is shown below. Notice that this order is a relative row-address ranking only. The individual modules do not require consecutive row addresses (that is, there can be empty rows between modules). Also, note that all modules need not be in the same column. They need only fall in the slave area of the master module.
Binary Decimal Row Column 010 2 11000 24 The following three sections describe the address switch functions for each of the elements and independent elements available. Master Address Switches Slave Address Switches Display Address Switches The address switches may be found on the top, side, or rear of the modules, and at the rear of the HP 70004A color display and HP 70206A system graphics display. The location of address switches is de ned in each element's installation and veri cation manual.
Figure 2-4. HP 70900B Local Oscillator Source Address Switch MAS/SLA NRML/TEST COLUMNs 1|5 ROWs 1|3 With this set to the MAS position, the HP 70900B local oscillator source can function as a master or sub-master; with it set to the SLA position, the HP 70900B local oscillator source is a slave. This switch should be set to NRML for normal operation. The TEST position is used for a hard reset and during production. These set the HP-MSIB column address, which is also the default HP-IB address.
Display Address Switches A system graphics display is an example of an independent element. It may be assigned both HP-MSIB and HP-IB addresses. Figure 2-6 and Figure 2-7 illustrate the address switches of the HP 70206A system graphics display and HP 70004A color display. For more information on HP-MSIB and HP-IB addressing, refer to \Address Map Protocol". HP-IB ON/OFF This switches the display on or o the HP-IB without disrupting instrument operation.
Figure 2-7.
Module Removal and Installation The following procedure de nes the steps in removing or installing modules. Module Removal 1. Set the HP 70004A color display/HP 70001A mainframe line switch to o . See Figure 2-8. 2. Remove the rear panel intermodule cables. 3. Open the HP 70004A color display/HP 70001A mainframe front panel door. With an 8 mm hex-ball driver, loosen the module hex-nut latch. 4. Press against the rear panel, and slide the module out. Installation 1.
WARNING If an instrument handle is damaged it should be replaced immediately. Damaged handles can break while the instrument is being moved or lifted. This may cause damage to the instrument or personal injury. Connecting the MSIB Cables on a \A" and \C" System Figure 2-9.
Connecting the MSIB Y-Cable on a \P" System CAUTION Care should be taken when connecting the MSIB Y-cable to the MSIB interface card. Damage can occur if the MSIB Y-cable connection is not properly aligned. Ensure power is not applied while making or removing connections. 1. Remove the protective cap from the MSIB Y-cable and inspect the pins for damage or misalignment. Do not install MSIB Y-cable if pins are bent or damaged. If necessary, obtain service from Hewlett-Packard.
System Con gurations for \A" and \C" Systems The gures in this section show the addressing order and cable connections for some common \A" and \C" system con gurations. The following information is provided for each con guration. A sample address map screen illustrating the addressing order. A partial view of the system rear panel illustrating cable connections. Modules included in the system to ensure that needed elements are available.
\A" and \C" System Con guration Examples HP 71100C modular spectrum analyzer: Standard Standard with HP 70903A IF section added Standard with HP 70700A digitizer added Standard with HP 70903A IF section and HP 70700A digitizer added Standard with HP 70300A RF tracking generator added Figure 2-11 Figure 2-13 Figure 2-15 Figure 2-17 Figure 2-19 HP 71200C modular spectrum analyzer: Standard Standard with HP 70903A IF section added Standard deleting HP 70902A IF section, with HP 70903A IF section and HP 70907
HP 71100C Modular Spectrum Analyzer An HP 71100C modular spectrum analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70904A RF section (100 Hz { 2.9 GHz) HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70310A precision frequency reference Figure 2-10. Address Map for HP 71100C Modular Spectrum Analyzer The HP 70001A mainframe does not have an HP-MSIB address. The usual address for the HP 70004A color display is ROW 0, COLUMN 4.
To con gure an HP 71100C modular spectrum analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70904A 1st LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT 1 HP 70900B 100 MHZ IN HP 70900B VIDEO IN HP 70904A 21.
HP 71100C Modular Spectrum Analyzer with HP 70903A IF Section An HP 71100C modular spectrum analyzer with HP 70903A IF section, consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70902A IF section (10 Hz { 300 KHz) HP 70904A RF section (100 Hz { 2.9 GHz) HP 70004A color display HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference Figure 2-12.
To con gure an HP 71100C modular spectrum analyzer with HP 70903A IF section, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71100C Modular Spectrum Analyzer with HP 70700A Digitizer An HP 71100C modular spectrum analyzer with HP 70700A digitizer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70904A RF section (100 Hz { 2.9 GHz) HP 70700A digitizer HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70310A precision frequency reference Figure 2-14.
To con gure an HP 71100C modular spectrum analyzer with HP 70700A digitizer as a slave, connect the rear panel cables according the following table. Note that the HP-IB switch on the HP 70700A digitizer must be in the o position. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71100C Modular Spectrum Analyzer with HP 70903A IF Section and HP 70700A Digitizer An HP 71100C modular spectrum analyzer with HP 70903A IF section and HP 70700A digitizer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70904A RF section (100 Hz { 2.9 GHz) HP 70700A digitizer Figure 2-16.
From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70904A 1st LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT 1 HP 70900B 100 MHZ IN HP 70900B VIDEO IN * HP 70700A INPUT 2 HP 70900B HSWP IN/OUT * HP 70700A HI SWP HP 70904A 21.4 MHz OUT HP 70902A VIDEO OUT HP 70902A 21.4 MHz IN HP 70700A CLK IN HP 70904A 300 MHZ IN HP 70310A 100 MHZ * HP 70700A INPUT 2 HP 70903A VIDEO OUT * HP 70700A HI SWP HP 70700A EXT TRIG HP 70903A 21.4 MHz IN HP 70903A VIDEO IN HP 70903A 21.
HP 71100C Modular Spectrum Analyzer with HP 70300A RF Tracking Generator An HP 71100C modular spectrum analyzer with an HP 70300A RF tracking generator consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70904A RF section (100 Hz { 2.9 GHz) HP 70300A RF tracking generator HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70310A precision frequency reference Figure 2-18.
From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70904A 1st LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT 1 HP 70900B 300 MHZ OUT 2 HP 70900B 100 MHZ IN HP 70900B TUNE SPAN HP 70900B SWEEP HP 70900B VIDEO IN HP 70904A 21.4 MHz OUT HP 70900B HSWP IN/OUT HP 70904A 300 MHZ IN HP 70300A 300 MHZ IN HP 70310A 100 MHZ HP 70300A TUNE + SPAN HP 70300A SWEEP IN HP 70902A VIDEO OUT HP 70902A 21.
HP 71200C Modular Spectrum Analyzer An HP 71200C modular spectrum analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70905A RF section (50 KHz { 22 GHz) HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70310A precision frequency reference Figure 2-20. Address Map for HP 71200C Modular Spectrum Analyzer The HP 70001A mainframe does not have an HP-MSIB address. The usual address for the HP 70004A color display is ROW 0, COLUMN 4.
To con gure an HP 71200C modular spectrum analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70905A 1st LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT 1 HP 70900B 100 MHZ IN HP 70900B VIDEO IN HP 70905A 21.
HP 71200C Modular Spectrum Analyzer with HP 70903A IF Section An HP 71200C modular spectrum analyzer with HP 70903A IF section, consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70905A RF section (50 KHz { 22 GHz) Figure 2-22.
To con gure an HP 71200C modular spectrum analyzer with an HP 70903A IF section, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71200C Modular Spectrum Analyzer Deleting HP 70902A IF Section, with HP 70903A IF Section and HP 70907B External Millimeter Interface Module An HP 71200C modular spectrum analyzer deleting HP 70902A IF section, with HP 70903A IF section and HP 70907B external millimeter interface module consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70905A RF section (50 KHz { 22 GHz) HP 70907B external millimeter interface module HP 70004A color display HP 70903A IF secti
From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70905A 1ST LO OUT HP 70905A 1st LO IN HP 70907B LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 5021-5448 150 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT 1 HP 70900B 100 MHZ IN HP 70900B VIDEO IN HP 70905A 21.4 MHz OUT HP 70900B 300 MHZ OUT 2 HP 70907B 21.4 MHz OUT HP 70900B TUNE SPAN HP 70905A 300 MHZ IN HP 70310A 100 MHZ HP 70903A VIDEO OUT HP 70907B 21.4 MHz IN HP 70907B 300 MHZ IN HP 70903A 21.
HP 71200C Modular Spectrum Analyzer Deleting HP 70905A RF Section, with HP 70905B RF Section/HP 70600A Preselector An HP 71200C modular spectrum analyzer deleting HP 70905A RF section, with HP 70905B RF section/HP 70600A preselector consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70905B RF section (50 KHz { 22 GHz) HP 70310A precision frequency reference HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70600A preselector Figure 2-26.
To con gure an HP 71200C modular spectrum analyzer deleting HP 70905A RF section, with HP 70905B RF section/HP 70600A preselector connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71200C Modular Spectrum Analyzer Deleting HP 70905A RF Section, with HP 70905B RF Section/HP 70600A Preselector/HP 70301A Microwave Tracking Generator An HP 71200C modular spectrum analyzer deleting HP 70905A RF section, with HP 70905B RF section/HP 70600A preselector/HP 70301A microwave tracking generator consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70905B RF section (50 KHz { 22 GHz) HP 70600A preselector HP 70004A color display HP 70902A IF section (1
From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70905B 1ST LO OUT HP 70905B 1st LO IN HP 70301A LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 5021-5494 400 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT 1 HP 70900B 100 MHZ IN HP 70900B VIDEO IN HP 70905B 21.4 MHz OUT HP 70900B TUNE SPAN * HP 70301A TUNE SPAN HP 70900B 300 MHZ OUT 2 HP 70301A 21.4 MHz IN HP 70905A 300 MHZ IN HP 70310A 100 MHZ HP 70902A VIDEO OUT HP 70902A 21.
HP 71209A Microwave Spectrum Analyzer An HP 71209A microwave spectrum analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70909A RF section (100 Hz { 26.5 GHz) or HP 70910A RF section (100 Hz { 26.5 GHz) Figure 2-30.
To con gure an HP 71209A microwave spectrum analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71210C Microwave Spectrum Analyzer An HP 71210C microwave spectrum analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70908A RF section (100 Hz { 22 GHz) Figure 2-32. Address Map for HP 71210C Microwave Spectrum Analyzer The HP 70001A mainframe does not have an HP-MSIB address.
To con gure an HP 71210C microwave spectrum analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70908A 1st LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT 1 HP 70900B 100 MHZ IN HP 70900B VIDEO IN HP 70908A 21.
HP 71400C Lightwave Signal Analyzer An HP 71400C lightwave signal analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70908A RF section (100 Hz { 22 GHz) HP 70810B lightwave section Figure 2-34. Address Map for HP 71400C Lightwave Signal Analyzer The HP 70001A mainframe does not have an HP-MSIB address.
To con gure an HP 71400C lightwave signal analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70908A 1st LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT 1 HP 70900B 100 MHZ IN HP 70900B VIDEO IN HP 70908A 21.
HP 71400C Lightwave Signal Analyzer with HP 70300A RF Tracking Generator and HP 70301A Microwave Tracking Generator An HP 71400C lightwave signal analyzer with HP 70300A RF tracking generator and HP 70301A microwave tracking generator, consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70300A RF tracking generator HP 70310A precision frequency reference HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70905A
To con gure an HP 71400C lightwave signal analyzer with HP 70300A RF tracking generator and HP 70301A microwave tracking generator, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
Figure 2-37.
HP 71401C Lightwave Signal Analyzer An HP 71401C lightwave signal analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70904A RF section (100 Hz { 2.9 GHz) HP 70810B lightwave section HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference Figure 2-38. Address Map for HP 71401C Lightwave Signal Analyzer The HP 70001A mainframe does not have an HP-MSIB address.
To con gure an HP 71401C lightwave signal analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70904A 1st LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT (1) HP 70900B 100 MHZ IN HP 70900B VIDEO IN HP 70904A 21.
HP 71401C Lightwave Signal Analyzer with an HP 70300A RF Tracking Generator An HP 71401C lightwave signal analyzer with HP 70300A RF tracking generator consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70904A RF section (100 Hz { 2.9 GHz) HP 70300A RF tracking generator HP 70810B lightwave section HP 70004A color display HP 70902A IF section (10 Hz { 300 KHz) HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference Figure 2-40.
From Flexible LO I/O Cables To Cable HP 70900B LO OUT HP 70904A 1st LO IN HP 5061-9038 520 mm SMA(m) to SMA(m) HP 70900B 300 MHZ OUT (1) HP 70900B 300 MHZ OUT (2) HP 70900B 100 MHZ IN HP 70900B TUNE SPAN HP 70900B SWEEP HP 70900B VIDEO IN HP 70904A 21.4 MHz OUT HP 70900B HSWP IN/OUT * HP 70810A HSWP IN/OUT HP 70903A 21.4 MHz OUT HP 70903A VIDEO IN HP 70904A 300 MHZ IN HP 70300A 300 MHZ IN HP 70310A 100 MHZ HP 70300A TUNE + SPAN IN HP 70300A SWEEP IN HP 70903A VIDEO OUT HP 70903A 21.
System Con gurations for \P" Systems The gures in this section show the addressing order and cable connections for some common \P" system con gurations. The following information is provided for each con guration. A sample address map screen illustrating the addressing order. A partial view of the system rear panel illustrating cable connections. Modules included in the system to ensure that needed elements are available. A list of rear panel cables describing type, quantity, and HP part numbers.
A one mainframe system, containing all types of devices, has the standard con guration: Tracking Generators Frequency Reference IF modules Digitizer Local Oscillator Power Meter RF module Pre-RF modules A one mainframe system, in terms of speci c models of devices, has the standard con guration: Speci c Model1 Type of Device Tracking Generators [HP 70301A microwave tracking generator or HP 70300A RF tracking generator] Frequency Reference HP 70138A vector voltmeter or HP 70310A precision frequency refer
\P" System Con guration Examples HP 71100P modular spectrum analyzer: Standard Standard with HP 70903A IF section added Standard with HP 70700A digitizer added Standard with HP 70903A IF section and HP 70700A digitizer added Standard with HP 70300A RF tracking generator added Figure 2-43 Figure 2-45 Figure 2-47 Figure 2-49 Figure 2-51 HP 71200P modular spectrum analyzer: Standard Standard with HP 70903A IF section added Standard deleting HP 70902A IF section, with HP 70903A IF section and HP 70907B extern
HP 71100P Modular Spectrum Analyzer An HP 71100P modular spectrum analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70904A RF section (100 Hz { 2.9 GHz) HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70310A precision frequency reference Figure 2-42. Address Map for HP 71100P Modular Spectrum Analyzer The HP 70001A mainframe does not have an MSIB address. The usual address for the HP 70207A PC Display for MMS is ROW 0, COLUMN 2.
To con gure an HP 71100P modular spectrum analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Semi-Rigid LO I/O Cable To Cable HP 70900B LO OUT HP 70904A 1st LO IN HP 5021-5449 220 mm SMA(m) to SMA(m) HP 70900B 300 MHz OUT 1 HP 70900B 100 MHz IN HP 70900B VIDEO IN HP 70904A 21.
HP 71100P Modular Spectrum Analyzer with HP 70903A IF Section An HP 71100P modular spectrum analyzer with HP 70903A IF section, consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70902A IF section (10 Hz { 300 KHz) HP 70904A RF section (100 Hz { 2.9 GHz) HP 70207A PC Display for MMS HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference Figure 2-44.
To con gure an HP 71100P modular spectrum analyzer with HP 70903A IF section, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71100P Modular Spectrum Analyzer with HP 70700A Digitizer An HP 71100P modular spectrum analyzer with HP 70700A digitizer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70904A RF section (100 Hz { 2.9 GHz) HP 70700A digitizer HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70310A precision frequency reference Figure 2-46.
To con gure an HP 71100P modular spectrum analyzer with HP 70700A digitizer as a slave, connect the rear panel cables according the following table. Note that the HP-IB switch on the HP 70700A digitizer must be in the o position. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71100P Modular Spectrum Analyzer with HP 70903A IF Section and HP 70700A Digitizer An HP 71100P modular spectrum analyzer with HP 70903A IF section and HP 70700A digitizer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70904A RF section (100 Hz { 2.9 GHz) HP 70700A digitizer Figure 2-48.
To con gure an HP 71100P modular spectrum analyzer with HP 70903A IF section and HP 70700A digitizer as a slave, connect the rear panel cables according to the following table. Note that the HP-IB switch on the HP 70700A digitizer should be in the o position. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds ( nger tight).
HP 71100P Modular Spectrum Analyzer with HP 70300A RF Tracking Generator An HP 71100P modular spectrum analyzer with an HP 70300A RF tracking generator consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70904A RF section (100 Hz { 2.9 GHz) HP 70300A RF tracking generator HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70310A precision frequency reference Figure 2-50.
To con gure an HP 71100P modular spectrum analyzer with an HP 70300A RF tracking generator, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71200P Modular Spectrum Analyzer An HP 71200P modular spectrum analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70905A RF section (50 KHz { 22 GHz) HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70310A precision frequency reference Figure 2-52. Address Map for HP 71200P Modular Spectrum Analyzer The HP 70001A mainframe does not have an MSIB address. The usual address for the HP 70207A PC Display for MMS is ROW 0, COLUMN 2.
To con gure an HP 71200P modular spectrum analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Semi-Rigid LO I/O Cable To Cable HP 70900B LO OUT HP 70905A 1st LO IN HP 5021-5449 220 mm SMA(m) to SMA(m) HP 70900B 300 MHz OUT 1 HP 70900B 100 MHz IN HP 70900B VIDEO IN HP 70905A 21.
HP 71200P Modular Spectrum Analyzer with HP 70903A IF Section An HP 71200P modular spectrum analyzer with HP 70903A IF section, consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70905A RF section (50 KHz { 22 GHz) Figure 2-54.
To con gure an HP 71200P modular spectrum analyzer with an HP 70903A IF section, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71200P Modular Spectrum Analyzer Deleting HP 70902A IF Section, with HP 70903A IF Section and HP 70907B External Millimeter Interface Module An HP 71200P modular spectrum analyzer deleting HP 70902A IF section, with HP 70903A IF section and HP 70907B external millimeter interface module consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70905A RF section (50 KHz { 22 GHz) HP 70907B external millimeter interface module HP 70207A PC Display for MMS HP 70903A IF
To con gure an HP 71200P modular spectrum analyzer deleting HP 70902A IF section, with HP 70903A IF section and HP 70907B external millimeter interface module connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71200P Modular Spectrum Analyzer Deleting HP 70905A RF Section, with HP 70905B RF Section/HP 70600A Preselector An HP 71200P modular spectrum analyzer deleting HP 70905A RF section, with HP 70905B RF section/HP 70600A preselector consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70905B RF section (50 KHz { 22 GHz) HP 70310A precision frequency reference HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70600A preselector Figure 2-58.
To con gure an HP 71200P modular spectrum analyzer deleting HP 70905A RF section, with HP 70905B RF section/HP 70600A preselector connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
HP 71200P Modular Spectrum Analyzer Deleting HP 70905A RF Section, with HP 70905B RF Section/HP 70600A Preselector/HP 70301A Microwave Tracking Generator An HP 71200P modular spectrum analyzer deleting HP 70905A RF section, with HP 70905B RF section/HP 70600A preselector/HP 70301A microwave tracking generator consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70905B RF section (50 KHz { 22 GHz) HP 70600A preselector HP 70207A PC Display for MMS HP 70902A IF secti
To con gure an HP 71200P modular spectrum analyzer deleting HP 70905A RF section, with HP 70905B RF section/HP 70600A preselector/HP 70301A microwave tracking generator, connect the cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
Figure 2-61.
HP 71209P Microwave Spectrum Analyzer An HP 71209P microwave spectrum analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70909A RF section (100 Hz { 26.5 GHz) or HP 70910A RF section (100 Hz { 26.5 GHz) Figure 2-62.
To con gure an HP 71209P microwave spectrum analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Semi-Rigid LO I/O Cable To Cable HP 70900B LO OUT HP 70909A 1st LO IN HP 5021-5450 260 mm SMA(m) to SMA(m) HP 70900B 300 MHz OUT 1 HP 70900B 100 MHz IN HP 70900B VIDEO IN HP 70909A 21.
HP 71210P Microwave Spectrum Analyzer An HP 71210P microwave spectrum analyzer consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70908A RF section (100 Hz { 22 GHz) Figure 2-64. Address Map for HP 71210P Microwave Spectrum Analyzer The HP 70001A mainframe does not have an MSIB address.
To con gure an HP 71210P microwave spectrum analyzer, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds. From Semi-Rigid LO I/O Cable To Cable HP 70900B LO OUT HP 70908A 1st LO IN HP 5021-5450 260 mm SMA(m) to SMA(m) HP 70900B 300 MHz OUT 1 HP 70900B 100 MHz IN HP 70900B VIDEO IN HP 70908A 21.
HP 71210P Microwave Spectrum Analyzer with HP 70907B external millimeter interface module Added An HP 71210P microwave spectrum analyzer with HP 70907B external millimeter interface module consists of the following components: HP 70001A mainframe HP 70900B local oscillator source HP 70903A IF section (100 KHz { 3 MHz) HP 70310A precision frequency reference HP 70207A PC Display for MMS HP 70902A IF section (10 Hz { 300 KHz) HP 70908A RF section (100 Hz { 22 GHz) HP 70907B external millimeter interface modu
To con gure an HP 71210P microwave spectrum analyzer with HP 70907B external millimeter interface module, connect the rear panel cables according to the following table. CAUTION To ensure proper electrical connection and prevent connector damage, all APC 3.5 and SMA connectors must be torqued 5 to 8 inch-pounds ( nger tight). Do not exceed 8 inch-pounds.
System Replaceable Parts Tables of system-level part numbers and ordering information are included in this section. A list of standard systems including model numbers, modules, and system options can be found in Chapter 3. The replaceable parts table in this section lists system-level replacement parts, cable assemblies, and service accessories by part number.
HP Part Number Table 2-3. System Replacement Parts Listing CD Description 2110-0703 5061-9006 70001-40017 70001-60059 7 9 7 9 5061-9061 6 1420-0315 3 70001-60066 8 70310-60016 2 5061-9678 1 5062-3979 5 5062-4072 1 5062-4073 2 5062-0781 5062-0782 5062-7086 1 2 3 1494-0064 1494-0061 4 1 Miscellaneous System-Level Parts Fuse, 6.
HP Part Number Table 2-3.
HP Part Number Table 2-3.
3 Speci cations and Characteristics This chapter contains two types of speci cations: System speci cation information for HP 70000 Series modular spectrum analyzer systems which have an HP 70900B local oscillator source as the master. Module characteristics information related to the modules used in the prede ned systems. Tables in this chapter list speci cations, characteristics, typical performance, and nominal values.
System Components HP 70000 Series modular spectrum analyzer systems and lightwave signal analyzers consist of the following elements. Table 3-1.
HP 71100C Modular Spectrum Analyzer Speci cations and Characteristics The speci cations in this table apply to the HP 71100C modular spectrum analyzer. Table 3-2. HP 71100C Modular Spectrum Analyzer Speci cations and Characteristics FREQUENCY Frequency Range 100 Hz to 2.9 GHz (dc coupled) 100 kHz to 2.
Table 3-2. HP 71100C Modular Spectrum Analyzer Speci cations and Characteristics (continued) FREQUENCY (Continued) Frequency Span Range Accuracy Span 10 MHz Span > 10 MHz sweep 50 ms sweep 20 ms sweep 10 ms Frequency Drift 0 to 2.9 GHz, in 0.5% increments 6 (1% of span + (span 2 frequency reference error)) 6 (1.5% of span + (span 2 frequency reference error)) 6 (2.5% of span + (span 2 frequency reference error)) 6 (4.
Residual FM Table 3-2. HP 71100C Modular Spectrum Analyzer Speci cations and Characteristics (continued) FREQUENCY (Continued) Span > 10 MHz < 25 kHz peak-to-peak in 0.1 s (measurement BW = 100 kHz) Span 10 MHz In synthesized spans, residual FM is determined by noise sidebands. See Spectral Purity speci cations for values. Spectral Purity 0 to 2.
Display Range Table 3-2. HP 71100C Modular Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) Calibration Log Scale Linear Scale Reference Level Range Log Linear 0.01 to 20 dB/division in increments of 0.5% (10 division display) 10% of reference level/division (10 division display) 30 dBm to 0140 dBm 7.07 V to 22 nV (50 system) Nonsynthesis-Related Spurious Responses Second Harmonic Distortion 100 Hz to 10 MHz 10 MHz to 2.
Table 3-2. HP 71100C Modular Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) Out-of-Range Responses ( 10 dB input attenuation) 4 to 12 GHz <090 dBc <040 dBc 12 to 18 GHz Residual Responses (0 dB input attenuation with input terminated) <0100 dBm Frequency Responses (10 dB input attenuation) 61 dB 61.0 dB, 20{30 Cy 61.5 dB 10 MHz to 2.9 GHz 100 Hz to 2.5 GHz 100 Hz to 2.9 GHz 100 Hz to 2.9 GHz Referenced to 300 MHz, 010 dBm calibrator 100 Hz to 2.
Table 3-2. HP 71100C Modular Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) IF Gain Accuracy* 20 C to 30 C 0 C to 55 C 10 dB 60.2 dB 60.2 dB 20 dB 60.2 dB 60.2 dB 30 dB 60.2 dB 60.3 dB 40 dB 60.2 dB 60.5 dB 50 dB 60.2 dB 60.6 dB Scale Fidelity* Log Fidelity Using HP 70902A (Display Range is 0 to 90 dB) Bandwidth 10 Hz 30 Hz to 100 kHz 300 kHz 60.7 dB 60.5 dB 60.7 dB Uncorrected, 0 to 90 dB 63 dB (20 C to Incremental delity (corrected) 60.
Temperature Table 3-2. HP 71100C Modular Spectrum Analyzer Speci cations and Characteristics (continued) GENERAL SPECIFICATIONS Operation Storage EMI 0 C to +55 C 040 C to +75 C Conducted and radiated interference is in compliance with CISPR publication 11 (1975) and MessempfaengerPostverfuegung 526/527/79 (Kennzeichnung Mit F-Nummer/Funkschutzzeichen). Radiated interference is in compliance with MIL-STD 461B, Part 7, RE02.
HP 71200C Modular Spectrum Analyzer Speci cations and Characteristics [Including Option 001] The speci cations in this table apply to the HP 71200C modular spectrum analyzer [including Option 001]. Option 001 speci cations are in brackets [ ]. Table 3-3. HP 71200C Modular Spectrum Analyzer Speci cations and Characteristics FREQUENCY Frequency Range 50 kHz to 22.0 GHz [26.5 GHz] tunable in 1 Hz increments Band* 1H0 1L0 2L0 4L+ 50 kHz to 2.9 GHz 2.7 GHz to 6.2 GHz 6.0 GHz to 12.7 GHz 12.5 GHz to 19.
Table 3-3.
Table 3-3. HP 71200C Modular Spectrum Analyzer Speci cations and Characteristics (continued) FREQUENCY (Continued) Frequency Drift 61 kHz/s and 6150 kHz/ C. For spans > 10 MHz, frequency drift during one sweep. Errors due to drift are not cumulative from sweep to sweep. Resolution Bandwidths * 3 dB, synchronously-tuned approximately Gaussian shape Range 10 Hz to 300 kHz, adjustable in 1, 3, 10 sequence, and in 10% increments, except 3 kHz to 10 kHz.
Table 3-3. HP 71200C Modular Spectrum Analyzer Speci cations and Characteristics (continued) FREQUENCY (Continued) Spectral Purity 0 to 2.9 GHz Noise Sidebands at 10 kHz o set: <0108 dBc/Hz 2.7 to 22 GHz [26.
Display Range Table 3-3. HP 71200C Modular Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) Calibration Log Scale 0.01 to 20 dB/division in increments of 0.5% (10 division display) Linear Scale 10% of reference level/division (10 division display) Reference Level Range Log Linear 30 dBm to 0140 dBm 7.07 V to 22 nV (50 system) Nonsynthesis Related Spurious Responses* Second Harmonic Distortion 50 kHz to 10 MHz 10 MHz to 6.2 GHz 6.0 GHz to 12.7 GHz 12.5 GHz to 19.
Table 3-3. HP 71200C Modular Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) Residual Responses* (0 dB input attenuation with input terminated) 10 MHz to 6.2 GHz <0100 dBm <092 dBm 6.0 GHz to 12.7 GHz <088 dBm 12.5 GHz to 19.9 GHz 19.7 GHz to 22 GHz [26.5 GHz] <083 dBm Frequency Response* 50 kHz to 2.9 GHz 400 kHz to 2.9 GHz 2.7 GHz to 6.2 GHz 6.0 GHz to 12.7 GHz 12.5 GHz to 19.9 GHz 19.7 GHz to 22 GHz [26.5 GHz] (10 dB input attenuation) 62.7 dB 61.4 dB 61.4 dB 61.
Table 3-3. HP 71200C Modular Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) IF Gain Accuracy* 20 C to 30 C 0 C to 55 C 10 dB 60.2 dB 60.2 dB 20 dB 60.2 dB 60.2 dB 30 dB 60.2 dB 60.3 dB 40 dB 60.2 dB 60.5 dB 50 dB 60.2 dB 60.6 dB Scale Fidelity* Log Fidelity Using HP 70902A (Display Range is 0 to 90 dB) Bandwidth 10 Hz 30 Hz to 100 kHz 300 kHz 60.7 dB 60.5 dB 60.7 dB Uncorrected, 0 to 90 dB 63 dB (20 C to Incremental Fidelity (corrected) 60.
Temperature Table 3-3. HP 71200C Modular Spectrum Analyzer Speci cations and Characteristics (continued) GENERAL SPECIFICATIONS Operation Storage EMI 0 C to +55 C 040 C to +75 C Conducted and radiated interference is in compliance with CISPR publication 11 (1975) and MessempfaengerPostverfuegung 526/527/79 (Kennzeichnung Mit F-Nummer/Funkschutzzeichen). Radiated interference is in compliance with MIL-STD 461B, Part 7, RE02.
HP 71209A Microwave Spectrum Analyzer Speci cations and Characteristics The speci cations in this table apply to the HP 71209A microwave spectrum analyzer. Table 3-4. HP 71209A Microwave Spectrum Analyzer Speci cations and Characteristics FREQUENCY Frequency Range 100 Hz to 26.5 GHz tunable in 1 Hz increments Band* Signal Frequency in GHz First LO Frequency in GHz 1H0 0 to 2.9 3.6214 to 6.5214 1L0 2.7 to 6.2 3.0214 to 6.5214 2L0 6.0 to 12.8 3.1607 to 6.
Table 3-4. HP 71209A Speci cations and Characteristics (continued) FREQUENCY (Continued) Resolution Bandwidths Bandwidth (03 dB) 10 Hz to 3 MHz* in 1, 3, 10 sequence (normal) and in 10% increments (except 3 kHz to 10 kHz).
Table 3-4. HP 71209A Speci cations and Characteristics (continued) FREQUENCY (Continued) Power Line and Display Related Sidebands Maximum Sideband Level (dBc/Hz) O set N 2 50, 60, 400 Hz <0 65 dBc + 20 log N 24 kHz <0 65 dBc + 20 log N 40 kHz <0 65 dBc + 20 log N 80 kHz <0 65 dBc + 20 log N Synthesis Related Maximum Level (dBc) 065 dBc + 20 Log N Residual FM Span > 10 MHz* < N 2 25 kHz p-p in 0.1 s Span 10 MHz In synthesized spans, residual FM is determined by noise sidebands.
Table 3-4. HP 71209A Speci cations and Characteristics (continued) AMPLITUDE (Continued) Frequency Response (Flatness) See amplitude table above. Amplitude Temperature Drift* 60.05 dB/ C at 300 MHzy (characteristic) Resolution Bandwidth Switching Corrected Uncorrected 60.
Table 3-4. HP 71209A Speci cations and Characteristics (continued) AMPLITUDE (Continued) Center Frequency* Input Attenuator Absolute 0.0 to 2.9 GHz Accuracy (characteristic) 61.2 dB 2.9 to 6.2 GHz 62.3 dB 6.2 to 12.7 GHz 62.3 dB 12.7 to 19.9 GHz 62.8 dB 19.9 to 26.5 GHz 64.8 dB Attenuator Repeatability <60.2 dB variation for any setting Preselector Bypass Switch Repeatabilityy <60.2 dB variation for any setting y , x Spurious Responses Inputs Response 10 MHz to 26.
Table 3-4. HP 71209A Speci cations and Characteristics (continued) AMPLITUDE (Continued) Spurious Responses (continued) Image Responses*,y (due to 21.4 MHz and 3 MHz IF) 6 MHz, 42.8 MHz 642.8 MHz Residual Responsesz Multiple and Out of Band Responsesy,# Gain Compression# Displayed Average Noise Level** Frequency <085 dBc Center Frequency Rejection 085 dBc 070 dBc 070 dBc 070 dBc 060 dBc Response 100 Hz to 2.9 GHz 2.7 GHz to 6.2 GHz 6.0 GHz to 12.8 GHz 12.7 GHz to 18.0 GHz 18.0 GHz to 26.
Table 3-4. HP 71209A Speci cations and Characteristics (continued) SWEEP Sweep Time Range Accuracy 10 ms to 1000 s (continuously adjustable) 62% indicated by HSWP Frequency Drift* 61 kHz/second and 6150 kHz/ C for spans > 10 MHz 2 N, frequency drift during one sweep. Trigger Free Run, Line, Video, External * Errors due to drift are not cumulative from sweep to sweep.
Table 3-5.
HP 71209A Microwave Spectrum Analyzer Speci cations and Characteristics with External Mixers The system speci cations* in the following tables apply to the HP 71209A microwave spectrum analyzer when used with HP 11970 and HP 11974 Series external mixers. Table 3-6.
Table 3-6.
Table 3-6. HP 71209A Microwave Spectrum Analyzer Speci cations and Characteristics When Used with HP 11970 and HP 11974 External Mixers (continued) AMPLITUDE (Continued) Nonsynthesis Related Spurious Responses IF Subharmonic Response Intercept* (characteristic) Used with HP 11970 Mixersy Used with HP 11974 Mixers 0 C to 55 C 20 C to 30 C 26.
Table 3-6. HP 71209A Microwave Spectrum Analyzer Speci cations and Characteristics When Used with HP 11970 and HP 11974 External Mixers (continued) AMPLITUDE (Continued) Multiple Responses* (Due to in-range applied signals mixing with LO harmonics other than order n.) Used with HP 11970 Mixersy Used with HP 11974 Mixers 26.5 to 40 GHz (n = 8) 33 to 50 GHz (n = 10) 40 to 60 GHz (n = 10) 50 to 67 GHz (n = 14) 67 to 75 GHz (n = 14) 063 dBc max. 060 dBc max. 060 dBc max. 060 dBc max. 055 dBc max.
Table 3-6. HP 71209A Microwave Spectrum Analyzer Speci cations and Characteristics When Used with HP 11970 and HP 11974 External Mixers (continued) AMPLITUDE (Continued) Frequency Response Uncorrected Used with HP 11970 Mixers 0 C to 55 C 20 C to 30 C 18 to 26.5 GHz 63.2 dB 62.3 dB 26.5 to 40 GHz 63.2 dB 62.3 dB 33 to 50 GHz 63.2 dB 62.3 dB 40 to 60 GHz 63.2 dB 62.3 dB 50 to 75 GHz 63.2 dB 62.5 dB 75 to 110 GHz 64.5 dB 63.5 dB Used with HP 11974 Mixers (characteristic) 26.
HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics The speci cations in this table apply to the HP 71210C microwave spectrum analyzer with HP 70908A RF section serial number pre x 2818A or later. Table 3-7.
Table 3-7. HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics (continued) FREQUENCY (Continued) Frequency Reference Accuracy Aging <5 2 10010 /day (7 day average) < 1 2 1007 /year Temperature Drift < 7 2 1009 Without HP 70310A Precision Frequency Reference Aging < 3 2 1006 /year Temperature Drift < 1 2 1005 Frequency Span Range Accuracy 0 to 22 GHz, in 0.5% increments Span 10 MHz 2 M* 6 (1% of span + (span 2 frequency reference error)) Span > 10 MHz 2 M* sweep 50 ms 6 (1.
Table 3-7. HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics (continued) FREQUENCY (Continued) Resolution Bandwidths* 3 dB, synchronously-tuned approximately Gaussian shape Range 10 Hz to 3 MHz, adjustable in 1, 3, 10 sequence, and in 10% increments, except 3 kHz to 10 kHz. Accuracy 620% Selectivity (060 dB/03 dB) 10 Hz to 3 kHz bandwidths 10 kHz to 300 kHz bandwidths < 12:1 < 16:1 Video Bandwidth* Range 3 Hz to 300 kHz in 1, 3, 10 sequence.
Table 3-7. HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE Spectral Purity 0 to 2.9 GHz Noise Sidebands at 10 kHz o set: <0108 dBc/Hz 2.
Table 3-7. HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continuted) Display Range Calibration Log Scale Linear Scale Reference Level Range Log Linear 0.01 to 20 dB/division in increments of 0.5% (10 division display) 10% of reference level/division (10 division display) 30 dBm to 0140 dBm 7.07 V to 22 nV (50 system) Nonsynthesis Related Spurious Responses* Second Harmonic Distortion 100 Hz to 20 MHz 20 MHz to 3.5 GHz 3.5 GHz to 22.
Table 3-7. HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) Residual Responses* (0 dB input attenuation with input terminated) 10 MHz to 22.0 GHz <0100 dBm Multiple and Out-of-Band Responses (RF 6ny 2 LO) Frequency Response 100 Hz to 2.9 GHz 2.7 GHz to 22.0 GHz 060 dBc For RF input level 0 dBm ( 10 dB attenuation) 010 dB input attenuation 20 C to 30 C 61.5 dB 62.0 dB 0 C to 50 C 62.0 dB 62.
Table 3-7. HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) IF Gain Accuracy HP 70902A HP 70902A HP 70903A Gain 10 dB 20 dB 30 dB 40 dB 50 dB 60 dB 20 C to 30 C 60.2 dB 60.2 dB 60.2 dB 60.2 dB 60.2 dB 60.4 dB 0 C to 55 C 60.2 dB 60.2 dB 60.3 dB 60.5 dB 60.6 dB 60.8 dB 0 C to 55 C 60.1 dB 60.3 dB Scale Fidelity Log Fidelity Using HP 70902A (Display Range is 0 to 90 dB) Bandwidth 10 Hz 30 Hz to 100 kHz 300 kHz 60.7 dB 60.5 dB 60.
Table 3-7. HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics (continued) AMPLITUDE (Continued) Marker Resolution 60.03 dB Input Attenuator Switching Repeatability 60.
Table 3-7. HP 71210C Microwave Spectrum Analyzer Speci cations and Characteristics (continued) GENERAL SPECIFICATIONS (Continued) Weight (characteristic) HP 71210C Spectrum Analyzer Modules HP 70001A Mainframe HP 70004A Display HP 70310A Precision Reference HP 70900B Local Oscillator HP 70902A IF Section HP 70903A IF Section HP 70908A RF Section 52.0 kg (114.8 lb) 14.5 kg (32 lb) 19.5 kg (43 lb) 2.2 kg (4.9 lb) 5.7 kg (12.6 lb) 2.4 kg (5.3 lb) 2.4 kg (5.3 lb) 5.4 kg (11.
System Speci cation Changes with HP 70620B Preampli er/ HP 70621A Preampli er Including an HP 70620B preampli er or HP 70621A preampli er with an HP 70000 Series modular measurement system may a ect the system speci catons. The following tables identify the system speci cations that are modi ed when a preampli er is added to a system: Speci cations that are changed when an HP 70620B preampli er is added to an existing system.
Table 3-8. Speci cations A ected When an HP 70620B Preampli er Is Added (continued) AMPLITUDE (Continued) Displayed Average Noise Level (continued) Preampli er Mode O Preampli er Mode On (0 C to 55 C) HP 71210C 1.0 GHz to 2.9 GHz 2.7 GHz to 12.8 GHz 12.6 GHz to 22.0 GHz (Bypass Mode) <0138 dBm <0132 dBm <0131 dBm <0155 dBm <0153 dBm <0150 dBm HP 71210C1 1.0 GHz to 2.0 GHz 2.0 GHz to 12.8 GHz 12.6 GHz to 22.0 GHz <0138 dBm <0132 dBm <0131 dBm <0155 dBm <0153 dBm <0150 dBm HP 71209A 1.0 GHz to 2.
Table 3-8. Speci cations A ected When an HP 70620B Preampli er Is Added (continued) AMPLITUDE (Continued) Frequency Response (continued) Preampli er Mode O Preampli er Mode On (10 dB attenuation) (Bypass Mode) (0 C to 55 C) (20 C to 30 C) HP 71200C (characteristic) 50 kHz to 1.0 GHz 1.0 GHz to 2.9 GHz 2.7 GHz to 6.2 GHz 6.0 GHz to 12.7 GHz 12.5 GHz to 19.9 GHz 19.7 GHz to 22.0 GHz 22.0 GHz to 26.5 GHz (Opt. 001 only) relative 61.3 61.3 61.3 61.7 62.2 62.6 62.6 absolute 61.5 61.5 62.4 62.9 63.4 63.
Table 3-8. Speci cations A ected When an HP 70620B Preampli er Is Added (continued) AMPLITUDE (Continued) Additional Amplitude Note that this contribution to the accumulated error is Temperature Drift (characteristic) not eliminated by recalibration. When a preampli er is added to a system, the following should be added to the system amplitude temperature drift: Preampli er Mode O 1 GHz to 26.5 GHz (Bypass Mode) no change Preampli er Mode On 00.
Table 3-9. Speci cations A ected When an HP 70620B Option 001 Preampli er Is Added AMPLITUDE Gain Compression (Characteristic) 0 dB attenuation Displayed Average Noise Level (0 C to 55 C) HP 71100C (characteristic) 10 MHz to 2.0 GHz 2.0 GHz to 2.9 GHz HP 71200C (characteristic) 10 MHz to 2.9 GHz 2.7 GHz to 6.2 GHz 6.0 GHz to 12.7 GHz 12.5 GHz to 19.9 GHz 19.7 GHz to 22.0 GHz 22.0 GHz to 26.5 GHz (Opt.
Table 3-9. Speci cations A ected When an HP 70620B Option 001 Preampli er Is Added (continued) AMPLITUDE (Continued) Displayed Average Noise Level (continued) HP 71210C 10 MHz to 2.9 GHz 2.7 GHz to 12.8 GHz 12.6 GHz to 22.0 GHz <0137 dBm <0156 dBm <0132 dBm <0153 dBm <0130 dBm <0150 dBm HP 71209A 10 MHz to 2.0 GHz 2.0 GHz to 2.9 GHz 2.7 GHz to 6.2 GHz 6.0 GHz to 12.8 GHz 12.6 GHz to 22.0 GHz 22.0 GHz to 26.
Table 3-9. Speci cations A ected When an HP 70620B Option 001 Preampli er Is Added (continued) AMPLITUDE (Continued) Frequency Response (continued) Preampli er Mode O Preampli er Mode On (10 dB attenuation) (Bypass Mode) (0 C to 55 C) (20 C to 30 C) HP 71200C (characteristic) 50 kHz to 100 kHz 100 kHz to 2.9 GHz 2.7 GHz to 6.2 GHz 6.0 GHz to 12.7 GHz 12.5 GHz to 19.9 GHz 19.7 GHz to 22.0 GHz 22.0 GHz to 26.5 GHz (Opt. 001 only) relative 61.3 61.3 61.3 61.7 62.2 62.6 62.6 absolute 61.5 61.5 62.4 62.
Table 3-10. Speci cations A ected When an HP 70621A Preampli er Is Added AMPLITUDE Gain Compression (Characteristic) 0 dB attenuation Displayed Average Noise Level (0 C to 55 C) HP 71100C 10 MHz to 2.0 GHz 2.0 GHz to 2.9 GHz Nonsynthesis Related Spurious Responses Second Harmonic Distortion (Characteristic) HP 71100C 100 kHz to 2.9 GHz Third-Order Intermodulation (Characteristic) Frequency Response (10 dB attenuation) HP 71100C (0 C to 55 C) 100 Hz to 100 kHz (characteristic) 100 kHz to 2.
System Speci cation and Characteristic Changes with HP 70903A IF Section The addition of an HP 70903A IF section to an HP 70000 Series modular measurement system will result in the following speci cation changes. Table 3-11. System Speci cations and Characteristics A ected by an HP 70903A IF Section FREQUENCY Resolution Bandwidths 3 dB, synchronously-tuned approximately Gaussian shape Range 100 kHz to 300 kHz, adjustable in 1, 3, 10 sequence, and in 10% increments, except 100 kHz to 300 kHz.
Table 3-11. System Speci cations and Characteristics A ected by an HP 70903A IF Section (continued) AMPLITUDE (Continued) Scale Fidelity Log Fidelity (Display Range is 0 to 75 dB) Bandwidth 100 kHz to 1 MHz 3 MHz Weight (characteristic) HP 70903A IF Section 60.5 dB 60.7 dB GENERAL CHARACTERISTICS 2.4 kg (5.
System Speci cation and Characteristic Changes with HP 70907A External Millimeter Interface Module (EMIM) Including an HP 70907A external millimeter interface module (EMIM) in an HP 70000 Series modular spectrum analyzer system may a ect the system speci cations. All speci cations apply only to an HP 70907A external millimeter interface module used with an HP 11970 Series harmonic mixers.
Table 3-12.
Table 3-12. System Speci cations A ected When RF Section is Replaced by HP 70907A External Millimeter Interface Module (continued) AMPLITUDE (Continued) Nonsynthesis Related Spurious Responses Second Harmonic Distortion Third-Order Intermodulation Distortion Same as external mixer used Depends on external mixer usedy Image Responses (signals displayed 6 MHz and 42.8 MHz from the applied signal frequency) <080 dBc Residual Responses 0 dB input attenuation with input terminated HP 11970 Band 18 to 26.
Table 3-12. System Speci cations A ected When RF Section is Replaced by HP 70907A External Millimeter Interface Module (continued) AMPLITUDE (Continued) Resolution Bandwidth Switching Accuracy Corrected HP 70902A, 1, 3, and 10 bandwidths 300 Hz to 100 kHz 300 kHz 60.5 dB +1.2, 00.5 dB HP 70903A 100 kHz 300 kHz 1 MHz to 3 MHz 61.0 dB +1.0, 00.5 dB +2.0, 01.0 dB Uncorrected (all bandwidths) 63 dB GENERAL CHARACTERISTICS Weight (characteristic) HP 70907A EMIM 2.8 kg (6.
Table 3-13. System Speci cations A ected When One HP 70907A EMIM Is Added FREQUENCY Noise Sidebands O set 100 kHz > 100 kHz Line Related Sidebands EMIM Input RF Input no change no change Degraded by 1 dB Degraded by 2 dB no change Degraded by 1 dB AMPLITUDE Frequency Response EMIM Input Degraded by 0.2 dB RF Input no change 065 dBm 063 dBm 061 dBm 049 dBm no change no change no change no change Degraded by 1 dB Degraded by 2 dB Residual Responses (HP 71100A only) Band Frequency K 21.
System Speci cation and Characteristic Changes with HP 70907B External Millimeter Interface Module (EMIM) Including an HP 70907B external millimeter interface module (EMIM) in an HP 70000 Series modular measurement system may a ect the system speci catons.
Table 3-15. System Speci cations A ected When an RF Section Is Replaced by HP 70907B external millimeter interface module FREQUENCY Frequency Range Tunable in 1 Hz increments Used with: HP 11970 External Harmonic Mixers 18 to 110 GHz HP 11974 External Mixers 26.5 to 75 GHz Other Manufacturer's Mixers 2.7 to 325 GHz Frequency Span Range 0 Hz to full band of external mixer, or N 2 3.6 GHz in 0.5% increments.
Table 3-15.
Table 3-15. System Speci cations A ected When an RF Section Is Replaced by HP 70907B external millimeter interface module (continued) AMPLITUDE (Continued) Nonsynthesis Related Spurious Responses IF Subharmonic Response Intercept* (characteristic) Used with HP 11970 Mixersy Used with HP 11974 Mixers 26.5 to 40 GHz (n = 8) 33 to 50 GHz (n = 10) 40 to 60 GHz (n = 10) 50 to 75 GHz (n = 14) Third-Order Intermodulation Distortion Used with HP 11970 Mixersy Used with HP 11974 Mixers 26.
Table 3-15. System Speci cations A ected When an RF Section Is Replaced by HP 70907B external millimeter interface module (continued) AMPLITUDE (Continued) *, y Multiple Responses Used with HP 11970 Mixersz Used with HP 11974 Mixers 26.5 to 40 GHz (n = 8) 33 to 50 GHz (n = 10) 40 to 60 GHz (n = 10) 50 to 67 GHz (n = 14) 67 to 75 GHz (n = 14) 063 dBc max. 060 dBc max. 060 dBc max. 060 dBc max. 055 dBc max. Used with HP 11970 Mixers 18 to 26.5 GHz 26.
Table 3-15. System Speci cations A ected When an RF Section Is Replaced by HP 70907B external millimeter interface module (continued) AMPLITUDE (Continued) Frequency Response Uncorrected Used with HP 11970 Mixers 18 to 26.5 GHz 26.5 to 40 GHz 33 to 50 GHz 40 to 60 GHz 50 to 75 GHz 75 to 110 GHz Used with HP 11974 Mixers (characteristic) 26.5 to 40 GHz (n = 8) 33 to 50 GHz (n = 10) 40 to 60 GHz (n = 10) 50 to 75 GHz (n = 14) 62.3 dB 62.3 dB 62.3 dB 62.3 dB 62.5 dB 63.5 dB 0 C to 55 C 64.5 dB 64.0 dB 64.
Table 3-16. System Speci cations A ected When One HP 70907B EMIM Is added FREQUENCY EMIM Input RF Input Noise Sidebands O set 100 kHz > 100 kHz Line Related Sidebands Frequency Response no change no change Degraded by 1 dB Degraded by 2 dB no change Degraded by 1 dB AMPLITUDE EMIM Input RF Input Degraded by 0.
System Speci cation and Characteristic Changes with HP 70905B RF Section/HP 70600A Preselector or HP 70906B RF Section/HP 70601A Preselector The HP 71200C Option 002 modular spectrum analyzer, deletes the HP 70905A RF section and adds an HP 70905B RF section/HP 70600A preselector combination. HP 71200C Option 003 modular spectrum analyzer deletes the HP 70905A RF section and adds an HP 70906B RF section/HP 70601A preselector combination.
Table 3-18. HP 70905B RF Section/HP 70600A Preselector or HP 70906B RF Section/HP 70601A Preselector Speci cations and Characteristics FREQUENCY Frequency Range Option 002 [Option 003] Bypass Mode Low-Pass Filter Mode Preselected Mode Frequency Span Bypass Mode Preselected Mode Gain Compression Bypass Mode LPF Mode (50 kHz to 2.9 GHz) Preselected Mode Displayed Average Noise Level* Band 10 MHz to 2.9 GHz 2.7 GHz to 6.2 GHz 6.0 GHz to 12.7 GHz 12.5 GHz to 19.9 GHz 19.7 GHz to 22.0 GHz [22 GHz to 26.
Table 3-18. HP 70905B RF Section/HP 70600A Preselector or HP 70906B RF Section/HP 70601A Preselector Speci cations and Characteristics (continued) AMPLITUDE (Continued) Nonsynthesis Related Spurious Responses With 10 dB attenuation, for mixer input levels 040 dBm, or 030 dBm in preselected lter path, all spurious responses (except as listed below) are less than these values: 50 kHz to 10 MHz 10 MHz to 22.0 GHz [10 MHz to 26.
Table 3-18. HP 70905B RF Section/HP 70600A Preselector or HP 70906B RF Section/HP 70601A Preselector Speci cations and Characteristics (continued) AMPLITUDE (Continued) Image Response For RF input level 0 dBm Image Response ( 10 dB attenuation) 50 kHz to 2.9 GHz 2.7 to 12.7 GHz 12.5 to 22 GHz [12.5 to 26.5 GHz] 6 MHz <085 dBc <085 dBc <085 dBc [<085 dBc 42.8 MHz <085 dBc <085 dBc <085 dBc <085 dBc 642.
Table 3-18. HP 70905B RF Section/HP 70600A Preselector or HP 70906B RF Section/HP 70601A Preselector Speci cations and Characteristics (continued) AMPLITUDE (Continued) Frequency Response 10 dB input attenuation Bypass Preselected* 62.6 dB 50 kHz to 2.9 GHz 62.8 dB 61.3 dB 400 kHz to 2.9 GHz 61.5 dB 2.7 GHz to 6.2 GHz 61.5 dB 61.8 dB 6.0 GHz to 12.7 GHz 62.0 dB 62.3 dB 12.5 GHz to 19.9 GHz 63.2 dB 63.3 dB [19.7 GHz to 22 GHz 63.6 dB 63.7 dB [19.7 GHz to 26.5 GHz] [63.6 dB 63.
HP 71400C Lightwave Signal Analyzer Speci cations and Characteristics This table contains the speci cations and characteristics for an HP 71400C lightwave signal analyzer. Additional electrical speci cations apply at the RF input of the HP 70908A RF section. These speci cations are documented in Table 3-7 for the HP 71210C microwave spectrum analyzer. All amplitude speci cations are in optical dB units unless noted otherwise.
Table 3-19. HP 71400C Lightwave Signal Analyzer Speci cations and Characteristics Wavelength Range 1200 nm to 1600 nm (characteristic) Frequency Range (demodulated signal) Average Power Accuracy Modulated Power Amplitude Accuracy Modulated Power Frequency Responsez relative to 100 MHz RF Input Frequency Responsez 100 kHz to 22 GHz Factory-Calibrated User-Calibrated (At 1300 and 1550 nm) 60.65 dB 65 nW (By external power meter) 60.
Table 3-19.
Table 3-19. HP 71400C Lightwave Signal Analyzer Speci cations and Characteristics (continued) GENERAL SPECIFICATIONS (Continued) EMI Conducted and radiated interference is in compliance with CISPR publication 11 (1975) and MessempfaengerPostverfuegung 526/527/79 (Kennzeichnung Mit F-Nummer/Funkschutzzeichen). Radiated interference is in compliance with MIL-STD 461B, Part 7, RE02.
HP 71400C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics This table contains the speci cations and characteristics for an HP 71400C Option 850 lightwave signal analyzer. Additional electrical speci cations apply at the RF input of the HP 70908A RF section. These speci cations are documented in Table 3-7 for the HP 71210C microwave spectrum analyzer. All amplitude speci cations are in optical dB unless noted otherwise.
Table 3-20. HP 71400C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics Wavelength Range 750 nm to 870 nm (characteristic) Frequency Range (demodulated signal) Average Power Accuracy Modulated Power Amplitude Accuracy Modulated Power Frequency Responsez relative to 100 MHz RF Input Frequency Responsez 100 kHz to 22 GHz Factory-Calibrated User-Calibrated 60.65 dB 65 nW (At 830 nm) (By external power meter) 60.
Table 3-20. HP 71400C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics (continued) Electrical Input Flatness Frequency Amplitude Error Corrected* (characteristic) Displayed Average Optical Noise Level 10 Hz Res BW, 3 Hz Vid BW Ref Level 040 dBm Harmonic Distortion 100 kHz to 6 GHz 6 GHz to 12 GHz 12 GHz to 16 GHz 16 GHz to 22 GHz 1.4 dB y 1.6 dB y 2.0 dB y 2.
Table 3-20. HP 71400C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics (continued) GENERAL SPECIFICATIONS (Continued) Power Requirements HP 70001A Ratings 310 W maximum 570 VA maximum Voltage 90 to 132 V ac, 47 to 66 Hz 198 to 264 V ac, 47 to 66 Hz Option 400 103 to 132 V ac, 365 to 444 Hz HP 70004A Ratings Voltage Weight (characteristic) HP 71400C Option 850 260 W maximum 350 VA maximum 90 to 132 V ac, 47 to 66 Hz and 356 to 444 Hz 198 to 264 V ac, 47 to 66 Hz 53.8 kg (118.
HP 71401C Lightwave Signal Analyzer Speci cations and Characteristics This table contains the speci cations and characteristics for an HP 71401C lightwave signal analyzer. Additional electrical speci cations apply at the RF input of the HP 70904A RF section. These speci cations are documented in Table 3-2 for the HP 71100C modular spectrum analyzer. All amplitude speci cations are in optical dB unless noted otherwise.
Table 3-21. HP 71401C Lightwave Signal Analyzer Speci cations and Characteristics Wavelength Range 1200 nm to 1600 nm (characteristic) Frequency Range (demodulated signal) Average Power Accuracy Modulated Power Amplitude Accuracy Modulated Power Frequency Responsez relative to 100 MHz RF Input Frequency Responsez 100 kHz to 2.9 GHz Factory-Calibrated User-Calibrated (At 1300 and 1550 nm) 60.65 dB 65 nW (By external power meter) 60.
Table 3-21. HP 71401C Lightwave Signal Analyzer Speci cations and Characteristics (continued) Electrical Input Flatness Frequency Amplitude Error Corrected1 (characteristic) Displayed Average Optical Noise Level 10 Hz Res BW, 3 Hz Vid BW Ref Level 040 dBm Harmonic Distortion Input Return Loss3 with HMS-10/HP Input Return Loss4 (characteristic) with HMS-10/HP Maximum Safe Optical Input Power Optical Input Connectors5 (Option-dependent) 100 kHz to 2.9 GHz 1.
EMI Table 3-21. HP 71401C Lightwave Signal Analyzer Speci cations and Characteristics (continued) GENERAL SPECIFICATIONS (Continued) Conducted and radiated interference is in compliance with CISPR publication 11 (1975) and MessempfaengerPostverfuegung 526/527/79 (Kennzeichnung Mit F-Nummer/Funkschutzzeichen). Radiated interference is in compliance with MIL-STD 461B, Part 7, RE02.
HP 71401C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics This table contains the speci cations and characteristics for an HP 71401C Option 850 lightwave signal analyzer. Additional electrical speci cations apply at the RF input of the HP 70904A RF section. These speci cations are documented in Table 3-2 for the HP 71100C modular spectrum analyzer. All amplitude speci cations are in optical dB unless noted otherwise.
Table 3-22. HP 71401C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics Wavelength Range 750 nm to 870 nm (characteristic) Frequency Range (demodulated signal) Average Power Accuracy Modulated Power Amplitude Accuracy Modulated Power Frequency Responsez relative to 100 MHz RF Input Frequency Responsez 100 kHz to 2.9 GHz Factory-Calibrated User-Calibrated 60.65 dB 65 nW (At 830 nm) (By external power meter) 60.
Table 3-22. HP 71401C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics (continued) Electrical Input Flatness Frequency Amplitude Error Corrected* (characteristic) Displayed Average Optical Noise Level 10 Hz Res BW, 3 Hz Vid BW Ref Level 040 dBm Harmonic Distortion 100 kHz to 2.9 GHz 1.4 dB* Frequency Displayed Noise Level 100 kHz to 1 MHz 1 MHz to 10 MHz 10 MHz to 100 MHz 100 MHz to 2.
Table 3-22. HP 71401C Option 850 Lightwave Signal Analyzer Speci cations and Characteristics (continued) GENERAL SPECIFICATIONS (Continued) Power Requirements HP 70001A Ratings 310 W maximum 570 VA maximum Voltage 90 to 132 V ac, 47 to 66 Hz 198 to 264 V ac, 47 to 66 Hz Option 400 103 to 132 V ac, 365 to 444 Hz HP 70004A Ratings Voltage Weight (characteristic) HP 71401C Option 850 260 W maximum 350 VA maximum 90 to 132 V ac, 47 to 66 Hz and 356 to 444 Hz 198 to 264 V ac, 47 to 66 Hz 49 kg (108.
Physical Dimensions of the HP 70004A Color Display and HP 70001A Mainframe Figure 3-1. HP 70004A Color Display Physical Dimensions Figure 3-2.
Module Input and Output Characteristics The following section covers the input and output speci cations and characteristics of modules used in HP 70000 Series modular spectrum analyzer system. The data in this section is a characteristic unless identi ed as a speci cation. For information on elements not covered in this section (for example, HP 70300A RF tracking generator or HP 70004A color display) refer to the installation and veri cation manual for the element of interest.
HP 70310A Precision Frequency Reference HP 70310A Precision Frequency Reference 10 MHz Output Power (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 dBm 3 dB, 02 dB Harmonics (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . <020 dBc Spurious (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70310A Precision Frequency Reference EXT REF Frequencies (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1, 2, 5, or 10 MHz Power Range (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 05 to 15 dBm Damage Level (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 W ( 30 dBm) Impedance . . . . . . . . . . . . . . . . . . . . . . . .
HP 70600A Preselector/HP 70601A Preselector HP 70600A Preselector/HP 70601A Preselector RF INPUT Frequency Range Bypass Path . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 to 22.0/26.5 GHz Low-Pass Filter Path . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 to 2.9 GHz YIG-Tuned Filter (YTF) Path . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.
HP 70810B Lightwave Section and HP 70810B Option 850 Lightwave Section LIGHTWAVE INPUT HP 70810B Wavelength Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1200 nm to 1600 nm HP 70810B Option 850 Wavelength Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .750 nm to 870 nm Frequency Range (demodulated signal) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 kHz to 22 GHz Maximum Input Average Optical Power . . . . . . . . . . . . . .
HP 70900B Local Oscillator Source HP 70900B Local Oscillator Source 100 MHz IN Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .100 MHz Power required . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 dBm 63 dB Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70902A IF Section 21.4 MHz IN Center Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21.4 MHz Nominal Input Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 05 dBm VSWR at 21.4 MHz 6500 kHz . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.5 Impedance . . . . . . . . . . . . . . . .
HP 70903A IF Section HP 70903A IF Section 21.4 MHz IF Center Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21.4 MHz Output Amplitude (with 05 dBm input in 300 kHz Res. BW) . . . . . . . . . . . . . . . 015 dBm 61 dB VSWR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.5 Impedance . . . . . . . . . . . . . . . .
HP 70904A RF Section 1st LO IN Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.0 GHz to 6.6 GHz Amplitude . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 00.5 dBm to +19.0 dBm Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 (nominal) 1st LO OUT Frequency . . . . . . . . . . .
HP 70905A RF Section HP 70905A RF Section 1st LO IN Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.0 to 6.6 GHz Amplitude . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 00.5 dBm to +19.0 dBm Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70905A RF Section RF INPUT Frequency Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 kHz to 22.0 GHz Maximum Input Level ac (continuous, > 10 dB attenuation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30 dBm ac (peak power) . . . . . . . . . . . . . . . . . . . . . . . . . 100 W at 10 s pulse with 50 dB attenuation dc ( 10 dB attenuation) . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70906A RF Section HP 70906A RF Section 1st LO IN Frequency Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.0 to 6.6 GHz Amplitude . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 00.5 dBm to +19.0 dBm Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70906A RF Section RF INPUT Frequency Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 kHz to 26.5 GHz Maximum Input Level ac (continuous) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30 dBm ac (peak power) . . . . . . . . . . . . . . . . . . . . . . . . . 100 W at 10 s pulse with 50 dB attenuation dc ( 10 dB attenuation) . . . . . . . . . . . . . . . . . .
HP 70905B RF Section and HP 70906B RF Section HP 70905B RF Section and HP 70906B RF Section 1st LO IN Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.0 to 6.6 GHz Amplitude . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 00.5 dBm to +19.0 dBm Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70907A External Millimeter Interface Module MIXER BIAS OUTPUT Maximum Voltage (characteristic) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3 V Current Range, 02 V < Vout < 2 V Range (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 010 to +10 mA Resolution (characteristic) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . < 20 A Accuracy (speci cation) . . . . . . . . . . .
HP 70907B External Millimeter Interface Module HP 70907B External Millimeter Interface Module Front-Panel Inputs and Outputs PRESEL TUNE + SPAN INPUT Voltage Range (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . < 4.5 to > 9.9 V Tuning Sensitivity (speci cation) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.5 V/GHz Load Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70908A RF Section 1st LO IN Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.0 to 6.6 GHz Input Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . +4.0 to +12.0 dBm VSWR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.4 Impedance . . . . .
HP 70908A RF Section TUNE + SPAN INPUT Input Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.5 V to 9.9 V Sensitivity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.5 V/GHz Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70909A RF Section and HP 70910A RF Section 1st LO IN Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.0 to 6.6 GHz Input Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 00.5 to 19 dBm Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
HP 70909A RF Section and HP 70910A RF Section Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 (nominal) TUNE + SPAN INPUT (with external mixer selected) Voltage Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 to 13.5 V Tuning Sensitivity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.
4 System Operation Veri cation This chapter describes how to install, con gure, and operate the System Operation Veri cation Software. In addition, this chapter gives a description of each operation veri cation test, and lists the error and status messages that may occur. The tests documented in this section verify the electrical performance of a system that has an HP 70900A/B local oscillator source as the master element.
Note Make a working copy of each disk before installing any of the software, then store the master disks in a safe place. Software Version The System Operation Veri cation Software version and the HP part number of the program will be needed if you contact Hewlett-Packard about this software. The HP part number of the System Operation Veri cation Software is printed on the disk labels.
The software program runs on HP BASIC 5.0, or later, with the following BIN les in RAM.
Typographic Conventions This chapter uses the following conventions: 4KEY5 Text that looks like this represents the key label of a key physically located on the computer or the front panel of an analyzer. menu key Text that looks like this represents a menu key, a key whose label is determined by the instrument's rmware. When key labels are written in lowercase letters, a sub-level menu exists for that particular menu key.
Required Test Equipment External test equipment required for operation veri cation is listed in Table 4-1. A list of accessories required for operation veri cation is given in Table 4-2. Note A technical computer is necessary. Refer to \Computer Hardware Compatibility" for requirements. Category Table 4-1.
Table 4-2. Required Accessories Accessory Adapters HP Model or Part Number 1250-0077 Type N (f)-to-BNC (m) Type N (m)-to-BNC (f) HP 70904A RF section only 1250-07801 APC 3.5 (f)-to-Type N (m) 1250-1744 BNC (f)-to-dual banana plug 1251-2277 APC 3.5 (f)-to-APC 3.5 (f) HP 70906A RF section only 1250-17491 or 5061-5311 Cables BNC (m)-to-SMB (m), 122 cm (48 in.) 85680-600931 BNC (m)-to-BNC (m), 122 cm (48 in.) HP 10503A SMA (m)-to-SMA (m), 61 cm (24 in.) 8120-3124 APC 3.5(m)-to-APC 3.
1. Get to the Main Menu. 2. Press RESTART , then press HP-MSIB map . NNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN 3. Place the cursor to indicate the desired RF module. 4. Press SELECT MODULE to select the desired RF section module. (The SELECT MODULE menu key is only present when more than one RF section module is present.) 5. Press main menu .
The title page lists the following data: System Operation Veri cation Software used, version code for the user interface software, and the test date. Model number, serial number, and rmware version of the modules tested. Test person's identi cation. Ambient temperature. Ambient humidity. Test equipment names, model numbers, addresses, and ID or serial number.
2. Connect the HP-IB cables from the test equipment to the computer's HP-IB SELECT CODE 7 port. 3. Use a 0.5 meter HP-IB cable (HP 10833D, or similar cable) to connect any external disk drive's HP-IB to the HP-IB SELECT CODE 7 port. Note Occasionally disk drives exhibit unpredictable behavior when sharing the HP-IB with instruments. If you nd this occurring, connect the disk drive to a separate HP-IB interface. 4.
edits made to the locations of the other volumes will be overwritten by old information unless the OPERATING Volume location is edited before you exit the Mass Storage Menu. (Once mass storage data is stored, the message will not reappear.) 7. Load the Operating Disk as directed. Unless the mass storage information was changed in Step 7 above, the Operating Disk should remain in the drive speci ed as the MSI default drive. 8.
Menus This section contains information about the user interface menus. Menu Structure The rst menu presented allows you to go to the Main Menu, to begin Limited Cal (Quick Test), or to return to the Equipment Menu. From the Main Menu you can access all of the other menus. Figure 4-1 through Figure 4-4 at the end of this section show the menu structure.
NNNNNNNNNNNNNNNNNNNN appears if the correct Operating Disk containing calibration or menu data is not in the disk drive. This key allows you to insert the correct Operating Disk into the disk drive and try again. NNNNNNNNNNNNNNNNN displays the Main Menu screen. ABORT is available in various special task screens. In general, pressing this key a time or two will display the Main Menu, which has a quit menu key.
Main Menu From the Main Menu screen you can access all other menus. There is no edit screen for this menu. Figure 4-1 illustrates the Main Menu key organization. NNNNNNNNNNNNNN NNNNNNNNNNNNNN In addition to the ve menu selection keys and two common keys HELP and quit , the following three keys are present in the Main Menu. runs Limited Cal, a prede ned sequence of Operation Veri cation tests.
Mass Storage Menu The Mass Storage Menu has both an edit screen and a command screen. The edit screen displays a list of mass storage information and allows you to assign the areas where the program stores system and operation data. This is done by assigning Volume Labels to a mass storage unit speci er (msus). An msus is a string expression that points to a mass storage location. The command screen allows you to save the mass storage information after it is entered.
Parameter Menu The Parameter Menu has both an edit and a command screen. The edit screen displays a list of parameter items and allows you to determine some of the operating conditions of the software program. NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN Use SELECT/TOGGLE to select the parameter item and enter data, or to toggle to a prede ned state. After you have nished editing the Parameter Menu items, press DONE to display the command screen.
Ambient temperature: Valid Celsius temperature entries are 0 to 55. Press SELECT/TOGGLE . Type a number from 0 to 55, then press 4ENTER5, This provides the program with the test environment temperature in Celsius, allowing the test limits to re ect temperature-drift guard-bands, if necessary. NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN Ambient humidity: Valid entries for ambient humidity are 0% to 105%. Press SELECT/TOGGLE . Type a number from 0 to 105, then press 4ENTER5.
Equipment Menu The Equipment Menu has both an edit screen and a command screen. The edit screen displays a list of all the equipment required to test your device under test (DUT) completely, and allows you to enter device model numbers, addresses, serial numbers, and information about the availability of passive devices. \Equipment Menu Edit Screen," below, gives more information about entering test equipment data. After you have nished editing the Equipment Menu, press DONE to enter the command screen.
SERIAL OR ID NO. device is stored on Operating Disk.) If a passive device has Not Available in the address column, any tests that require that passive device will not be performed. Missing ETE will be printed next to the test names on the test menu for any procedures that require a device listed as Not Available. Locate the cursor beside the serial or ID number that you want to edit. Press SELECT , enter the new serial or ID number (10 digits or less), then press 4ENTER5.
NNNNNNNNNNNNNNNNNNNN device's calibration data, press CREATE , then use the procedure given later in this section to enter the appropriate information. If you edit the factory default frequency or calibration factor values, you must enter valid calibration factors for each frequency edited. For power sensors, you must enter a frequency and calibration factor for 300 MHz even if the device has no factor listed at 300 MHz. Not all frequencies are listed on the screen at once.
Test Menu The Test Menu does not have an edit screen. The command screen allows you to select and run system performance tests. If Missing ETE is listed next to a test, additional test equipment is required to perform that test. To review which additional test equipment is required, locate the cursor beside the test name, then press SINGLE TEST . The Missing ETE screen displays the missing test equipment for that test.
NNNNNNNNNNNNNNNNNNNNNNNNNNNNN ALL TESTS begins a factory-de ned sequence that includes all of the tests displayed in the Test Menu. For Operation Veri cation, ALL TESTS is the same as LIMITED CAL . During the test sequence, the keys listed below are also available. END SEQUENCE interrupts the test sequence at the end of the test in progress. The Test Menu is displayed with an additional menu key labeled RESUME TESTING . Press this key to resume the test sequence where the program left o .
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN repeat mult. allows you to select a test sequence (you determine the quantity and order). The tests loop through this sequence until you decide to stop them. Locate the cursor beside the test you want to run, press SELECT , move the cursor to the next test, press SELECT , and so on. Continue selecting tests until you are ready to begin testing. It is acceptable to select the same test for repeated testing. Press END LIST to start the test sequence.
Figure 4-1.
Figure 4-2.
Figure 4-3.
Figure 4-4.
Test Descriptions This section contains the following information: Operation Veri cation list and describe the individual tests that appear in the Test Selection Menu. Table 4-3 lists the Operation Veri cation Tests and indicates the Tests page where the test description can be found. Test Limit Changes indicate changes in the test limits that may not exist in the software version being used.
Test Description List Some test descriptions apply to more than one test, since many of the tests use the same algorithm but have di erent data values. For example, the Log Fidelity test description is valid for the HP 70902A IF section and HP 70903A IF section Log Fidelity tests. Table 4-3 lists operation veri cation tests described in this section and included on Test Disks 1 and 2. Table 4-3.
Calibrator Frequency Accuracy Calibrator Frequency Accuracy (for HP 70900A/B Local Oscillator Source) Tested Speci cation FREQUENCY: Frequency Reference Error Equipment Frequency Counter Equipment Setup The CALIBRATOR output of the HP 70900A/B local oscillator sourceis connected to the input of the frequency counter. Description With the spectrum analyzer (DUT) set to its internal frequency reference, the frequency counter is used to measure the 300 MHz CALIBRATOR frequency.
Calibrator Amplitude Accuracy Calibrator Amplitude Accuracy (for HP 70900A/B Local Oscillator Source) Tested Speci cation 300 MHz Calibrator Amplitude Equipment Power Meter RF Power Sensor or MW Power Sensor Equipment Setup Connect the power sensor to the spectrum analyzer (DUT) CALIBRATOR output connector. Description After zeroing and calibrating the power meter, the power sensor is connected to the DUT CALIBRATOR output.
Frequency Response Frequency Response (for HP 70904A RF Section) Tested Speci cation AMPLITUDE ACCURACY: Frequency Response Equipment Microwave Source Power Meter RF Power Sensor or MW Power Sensor Power Splitter Equipment Setup Note A low-loss cable such as HP part number 8120-3124 must be used to connect the microwave source to the spectrum analyzer (DUT). Connect the RF OUTPUT of the microwave source to the input port of the power splitter.
Frequency Response Frequency Response (for HP 70905A RF Section, HP 70906A RF Section) Tested Speci cation AMPLITUDE ACCURACY: Frequency Response Equipment Microwave Source Power Meter MW Power Sensor Power Splitter Equipment Setup Note A low-loss cable such as HP part number 8120-3124 must be used to connect the microwave source to the spectrum analyzer (DUT). Connect the RF OUTPUT of the microwave source to the input port of the power splitter.
Frequency Response Frequency Response (for HP 70600A Preselector/HP 70601A Preselector, HP 70905B RF Section/HP 70906B RF Section) Tested Speci cation AMPLITUDE ACCURACY: Frequency Response (absolute and relative in all bypassed and preselected bands) Equipment Microwave Source Power Meter MW Power Sensor Power Splitter Equipment Setup Note A low-loss cable such as HP part number 8120-3124 must be used to connect the microwave source to the spectrum analyzer (DUT).
Frequency Response In Case of Failure If this test fails, the following modules may need repair or adjustment: Preselector RF section 4-34 System Operation Veri cation
Frequency Response Frequency Response (for HP 70908A RF Section) Tested Speci cation AMPLITUDE: Frequency Response Equipment Microwave Source Power Meter MW Power Sensor Power Splitter Equipment Setup Note A low-loss cable such as HP part number 8120-3124 must be used to connect the microwave source to the spectrum analyzer (DUT). Connect the RF OUTPUT of the microwave source to the input port of the power splitter. Connect one output of the power splitter to the RF INPUT of the DUT.
Frequency Response Frequency Response (for HP 70908A RF Section and HP 70620B Preampli er) Tested Speci cation AMPLITUDE: Frequency Response Equipment Microwave Source Power Meter MW Power Sensor Power Splitter Equipment Setup Note A low-loss cable such as HP part number 8120-4921 must be used to connect the microwave source to the spectrum analyzer (DUT). Connect the power sensor to the power meter. Connect the RF OUTPUT of the microwave source to the input port of the power splitter.
Frequency Response A minimum of 30 measurements are then made in each frequency band above 50 MHz. After the measurements are taken with the preampli er o , the preampli er is turned on and the above procedure is repeated over the preampli er frequency range. The frequency response data is available in graph mode.
Frequency Response Frequency Response (for HP 70909A or HP 70910A RF Section ) Tested Speci cation AMPLITUDE ACCURACY: Frequency Response Equipment Microwave source Power meter Microwave power sensor Directional coupler External mixer (HP 11970K harmonic mixer) Equipment Setup Connect the source to the input of the directional-coupler main guide. Connect the microwave power sensor to the power meter, then connect the sensor to the output of the directional-coupler main guide.
Frequency Response Description This test measures amplitude variation of the HP 71209A microwave spectrum analyzer from 18 to 26 GHz. The microwave power sensor is selected and the system is interrogated for an IF section. This step allows an optimum resolution bandwidth to be used to minimize measurement errors due to log delity. The signal is centered on the display using a span that is ve times greater than the resolution bandwidth.
Frequency Response Frequency Response (for HP 70600A Preselector/HP 70601A Preselector, HP 70905A/B RF Section or HP 70906A/B RF Section, and HP 70620B Preampli er) Tested Speci cation AMPLITUDE: Frequency Response Equipment Microwave Source Power Meter MW Power Sensor Power Splitter Equipment Setup Note A low-loss cable such as HP part number 8120-4921 must be used to connect the microwave source to the spectrum analyzer (DUT). Connect the power sensor to the power meter.
Frequency Response A minimum of 30 measurements are then made in each frequency band above 50 MHz. For frequencies above 2.7 GHz, the preselector must be peaked before the measurement is taken. After the measurements are taken with the preampli er o , the preampli er is turned on and the above procedure is repeated over the preampli er frequency range. The frequency response data is available in graph mode.
Frequency Response Frequency Response (for HP 70904A RF Section and HP 70621A Preampli er) Tested Speci cation AMPLITUDE: Frequency Response Equipment Microwave Source Power Meter MW Power Sensor Power Splitter Equipment Setup Note A low-loss cable such as HP part number 8120-4921 must be used to connect the microwave source to the spectrum analyzer (DUT). Connect the power sensor to the power meter. Connect the RF OUTPUT of the microwave source to the input port of the power splitter.
Frequency Response The frequency response is then measured at 57 points over the 50 MHz to 2.9 GHz range. After the measurements are taken with the preampli er o , the preampli er is turned on and the above procedure is repeated over the preampli er frequency range. The frequency response data is available in graph mode.
GSM System Calibration GSM System Calibration (for HP 71150C GSM Transmitter Tester or HP 71250C GSM Transmitter Tester) Tested Speci cation Not Applicable Equipment Microwave Source Power Meter RF Power Sensor or MW Power Sensor Power Splitter Equipment Setup Note A low-loss cable such as HP Part Number 8120-3124 must be used to connect the microwave source to the GSM system input. Connect the RF OUTPUT of the microwave source to the input port of the power splitter.
Frequency Span Accuracy Frequency Span Accuracy Tested Speci cation FREQUENCY: Frequency Span: Accuracy Equipment Synthesized Source Equipment Setup Connect the RF OUTPUT of the synthesized source to the spectrum analyzer (DUT) RF INPUT. Description The DUT center frequency is set to 1.5 GHz, and spans of 10 kHz, 100 kHz, 1 MHz, 10 MHz, 10.01 MHz, 101 MHz, and 1.01 GHz are tested. The synthesizer frequency is adjusted until a signal appears near the left edge of the display.
Displayed Average Noise Displayed Average Noise (using HP 70902A IF Section or HP 70903A IF Section) Tested Speci cation AMPLITUDE: Displayed Average Noise Level Equipment 50 Termination Equipment Setup Connect the 50 termination to the spectrum analyzer (DUT) RF INPUT. Description The average displayed noise level is measured at the frequency of the displayed peak in each band, except below 10 MHz where 10 data points are taken (for the HP 70900A local oscillator source only).
GSM System Displayed Average Noise Level GSM System Displayed Average Noise Level (using HP 70902A IF Section) Tested Speci cation AMPLITUDE: Displayed Average Noise Level Equipment 50 Termination Equipment Setup Connect the 50 ohm termination to the HP 70912B downconverter High-Power RF INPUT. If the HP 70621A preampli er-H50 Preampli er is present in the system, connect the termination to its RF INPUT instead.
Log Fidelity Log Fidelity (for HP 70902A IF Section or HP 70903A IF Section) Tested Speci cation AMPLITUDE: Scale Fidelity: Log Fidelity Equipment Level Generator Equipment Setup Connect the 50 output of the level generator to the RF INPUT of the spectrum analyzer (DUT). Description This test measures the relative on-screen log scale delity (that is, the display screen's upper eight divisions for the HP 70903A IF section, or upper nine divisions for the HP 70902A IF section).
Resolution Bandwidth Tests Resolution Bandwidth Tests (for HP 70902A IF Section or HP 70903A IF Section) Tested Speci cations AMPLITUDE: Resolution Bandwidth Switching Accuracy FREQUENCY: Resolution Bandwidths (03 dB), Accuracy FREQUENCY: Resolution Bandwidths (03 dB), Selectivity Equipment Level Generator Equipment Setup Connect the RF OUTPUT of the level generator to the RF INPUT of the spectrum analyzer (DUT).
Calibrator Amplitude Accuracy Calibrator Amplitude Accuracy (using HP 70907A External Millimeter Interface Module) Tested Speci cation AMPLITUDE: Internal 321.4 MHz Calibrator Accuracy Equipment General Source Measuring Receiver Sensor Module Equipment Setup Setup A: Connect the general source through an appropriate cable to the sensor module of the measuring receiver. Setup B: Connect the general source output to the IF INPUT of the HP 70907A external millimeter interface module.
Calibrator Amplitude Accuracy Calibrator Amplitude Accuracy (using HP 70907B External Millimeter Interface Module) Tested Speci cation AMPLITUDE: Internal 321.4 MHz Calibrator Accuracy Equipment General Source Measuring Receiver Sensor Module Hybrid Combiner Equipment Setup Note Before this test can be performed accurately, the measuring receiver and the HP 70000 Series system under test (DUT), which includes the HP 70907B external millimeter interface module, must both be calibrated.
LO Output Amplitude LO Output Amplitude (from HP 70907A/B External Millimeter Interface Module) Tested Speci cation HP 70907A/B external millimeter interface module LO OUTPUT Equipment Power Meter MW Power Sensor Equipment Setup Setup A: Connect the MW power sensor to the power meter POWER REF OUTPUT. Setup B: Connect the MW power sensor to the LO OUTPUT of the HP 70907A/B external millimeter interface module. Description If the power meter needs calibration, connect the equipment using setup A.
Log Fidelity Log Fidelity | Using HP 70907A/B External Millimeter Interface Module (for HP 70902A IF Section and HP 70903A IF Section) Tested Speci cation AMPLITUDE: Scale Fidelity: Log Fidelity Equipment General Source Measuring Receiver Sensor Module Hybrid Combiner Equipment Setup Connect the general source to the input of the hybrid combiner. Connect one output of the hybrid combiner to the IF INPUT of the HP 70907A/B external millimeter interface module.
Resolution Bandwidth Resolution Bandwidth | Using HP 70907A External Millimeter Interface Module (for HP 70902A IF Section or HP 70903A IF Section) Tested Speci cations AMPLITUDE: Resolution Bandwidth Switching Accuracy FREQUENCY: Resolution Bandwidths (03 dB), Accuracy FREQUENCY: Resolution Bandwidths (03 dB), Selectivity Equipment General Source Measuring Receiver Sensor Module Hybrid Combiner Equipment Setup Connect the general source to the input of the hybrid combiner.
Resolution Bandwidth In Case of Failure Note The switching speci cation is primarily determined by the preceding Calibrator Amplitude Accuracy test speci cation. Should the Resolution Bandwidth test fail, perform the Calibrator Amplitude Accuracy test to verify that it passes before assuming that the resolution bandwidths are out of speci cation.
Resolution Bandwidth Resolution Bandwidth | Using HP 70907B External Millimeter Interface Module (HP 70902A IF Section or HP 70903A IF Section) Tested Speci cations AMPLITUDE: Resolution Bandwidth Switching Accuracy FREQUENCY: Resolution Bandwidths (03 dB), Accuracy FREQUENCY: Resolution Bandwidths (03 dB), Selectivity Equipment General Source Measuring Receiver Sensor Module Hybrid Combiner Equipment Setup Connect the general source to the input of the hybrid combiner.
Resolution Bandwidth In Case of Failure Note The switching speci cation is primarily determined by the preceding Calibrator Amplitude Accuracy test speci cation. Should the Resolution Bandwidth test fail, perform the Calibrator Amplitude Accuracy test to verify that it passes before assuming that the resolution bandwidths are out of speci cation.
Test Limit Changes Test Limit Changes Revision D.01.00 There are no test limit changes as of this printing.
Error and Status Messages Error and Status Messages User interface messages used with HP 70000 Series software products are alphabetized in this section. The messages are designed to provide information about test results, operator errors, system conditions, and so on. Refer to your HP BASIC Language Reference for system error information. <<<< The indicated result of the test is outside the test limit. <**> The indicated result of the test far exceeds the expected result.
Error and Status Messages ERROR: Address matches system disk drive. You entered an HP-IB address matching that of the computer's external disk drive. HP-IB protocol allows only one instrument per address. ERROR: Address not in acceptable range. You entered an HP-IB address outside the range 700 to 730, inclusive. ERROR: Non-responding HP-IB address. You attempted to exit the Equipment Menu after assigning an HP-IB address to an instrument that is not responding on HP-IB.
Error and Status Messages ERROR MESSAGE: Bad instrument address in equipment list. Address matches controller. You entered an HP-IB address matching that of the controller. HP-IB protocol allows only one instrument per address and only one controller per HP-IB system. (The factory preset controller address is 21.) ERROR MESSAGE: Calibration data frequency exceed acceptable limits. Return to the Cal Data edit screen in the Equipment Menu and correct the data entries that are ashing.
Error and Status Messages ERROR MESSAGE: DUT was not at address in the equipment list. DUT was expected at address ____. The DUT is not at the speci ed address, or HP-IB is at fault, or main power on the DUT is o . Press ABORT , then return to the Equipment Menu to verify the address. ERROR MESSAGE: DUT was not found at address in equipment list. NNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNN The address speci ed for the DUT is not valid. Press ABORT , then return to the Equipment Menu to verify the address.
Error and Status Messages ERROR MESSAGE: Parameter Menu data not found on ____. The program could not nd Parameter Menu data le on the Operating Disk. Possible Fix instructions appear with the on-screen error message. If the data le is available in a location other than the one currently speci ed in the Mass Storage Menu,return to that menu and change the msus and/or the directory path of the Operating Disk.
Error and Status Messages ERROR MESSAGE: ____ was not located. NNNNNNNNNNNNNNNNNNNN The program cannot access the listed Volume. If the Volume is correct, press REPEAT to retry. If the Volume is incorrect, press mass storage to return to the Mass Storage Menu. From here you can indicate a di erent mass storage medium for the Volume in question. ERROR MESSAGE: Write ____ data to file ____ failed. There is a problem with the data le on the Operating Disk.
Error and Status Messages No disk copy of output found. NNNNNNNNNNNNNNNNNNNNNNN You pressed REPRINT in the Main Menu, but the program cannot nd a data le in the current DATA Volume. If you saved the data, return to the Mass Storage Menu and edit the location of the DATA Volume. Passed The spectrum analyzer meets the tested speci cations. PAUSED. PRESS CONTINUE. You pressed 4PAUSE5 on the computer keyboard. Press 4CONTINUE5 to resume program execution. PRGM ERROR The program detected an error within itself.
The _____ at address ____ was not found on HP-IB. When Yes is selected for Verify equipment on HP-IB: in the Parameter Menu, this error message displays the test equipment with the address that is either missing or not set to on. The 436A is in lowest range, waiting 10 seconds. The current power measurement requires the lowest power-meter range. Program execution will resume in 10 seconds. The 8902A needs repair (Error 6). There is a problem related to the HP 8902A.
5 Error Messages Representative error messages for HP 70000 Series modular spectrum analyzer systems are listed on the following pages. For information about error messages not listed here, refer to the installation and veri cation manual for the element that is generating the error. These error messages are grouped by functional category each category has its own series of numbers. A de nition of the functional category is given at the beginning of each error message listing.
User Application Errors 0001 { 0999 The numbers 0001|0999 are reserved for error messages that are created for user-application programs and loaded into RAM. Error Messages for System Diagnostics One example of a user-application program is \System Diagnostics," a down-loadable program (DLP) designed by Hewlett-Packard. The system diagnostics error messages are listed below. These diagnostic error messages range from 0001 { 0070.
User Application Errors 0001 { 0999 *0005 HP-MSIB addr 70905/6 Cause: The HP-MSIB address of the HP 70905A RF section or HP 70906A RF section does not follow addressing rules. Cure: The recommended address of the HP 70905A RF section or the HP 70906A RF section is in row 6 and the same column as the HP 70900B local oscillator source. *0007 21.4MHz daisy chain Cause: The IF Section's 21.4 MHz rear panel daisy-chain cables are incorrectly connected. Cure: The 21.4 MHz OUT of the 70903A connects to the 21.
User Application Errors 0001 { 0999 *0012 HP-MSIB addr 70600 Cause: The HP-MSIB address of the Preselector does not follow the addressing rules. Cure: The recommended address of the Preselector is in row 2 and the column immediately to the right of the HP 70900B local oscillator source. *0013 No PRESELECTOR? Cause: The program cannot nd a Preselector con gured to the HP 70900B local oscillator source.
User Application Errors 0001 { 0999 *0021 Video output cable Cause: The rear panel VIDEO OUT signal from the HP 70902A IF section is not getting to the VIDEO input of the HP 70900B local oscillator source or 70903A. Cure: Check the rear panel VIDEO OUT connection on the HP 70902A IF section. Be sure it is routed properly and the cable is not defective. 0022 LC bandwidths Cause: The signal amplitude of the HP 70902A IF section is too low when it is set to the LC bandwidths (10 to 300 kHz).
User Application Errors 0001 { 0999 0027 Res BW-amplitude Cause: The amplitude variation between the resolution bandwidths of the HP 70902A IF section is too large. Cure: The bandwidth lter adjustments in the HP 70902A IF section should be performed. If this does not remedy the problem, repair the HP 70902A IF section LC or crystal bandwidth lters. 0028 Calibration atten Cause: The calibration attenuator of the HP 70902A IF section is not functioning correctly.
User Application Errors 0001 { 0999 0033 Log board Cause: The 70903A IF Section log board signal amplitude is too low. Cure: Perform the HP 70903A IF section log ampli er adjustments. If this does not remedy the problem, the A2 Log Ampli er Assembly requires repair. 0034 Problem/ampl low? Cause: The HP 70903A IF section internal 21.4 MHz IF signal amplitude is too low. The program stops testing the HP 70903A IF section when this error is generated.
User Application Errors 0001 { 0999 0039 Log amplifier Cause: The log ampli er of the HP 70903A IF section is not functioning correctly. Cure: Perform the HP 70903A IF section log ampli er adjustment. If this does not remedy the problem, refer to the HP 70903A IF section Service Manual for procedures to repair the log ampli er. 0040 Tune+Span Cause: The Tune + Span level is incorrect or the system cable is missing.
User Application Errors 0001 { 0999 0044 Low/high band switch Cause: The low/high band switch of the RF section is not functioning correctly. Cure: This error occurs when a signal is detected in one setting of the high-low band coaxial switch but not the other. This switch is the most likely cause of this error. Test and replace if necessary. 0045 RF attenuator Cause: The RF attenuator of the RF section is not functioning correctly.
User Application Errors 0001 { 0999 0053 Res BW -- CF ampl Cause: The resolution bandwidth of one or more of the HP 70903A IF sections is out of adjustment. Cure: Perform the HP 70903A IF section Resolution Bandwidth Filter adjustments. 0060 RF attenuator Cause: The RF attenuator of the HP 70600A preselector or the HP 70601A preselector is not functioning correctly. Cure: Check and replace the RF Attenuator in the HP 70600A preselector or HP 70601A preselector.
User Application Errors 0001 { 0999 0064 RF Switch 1 Cause: This RF switch in the HP 70600A preselector or the HP 70601A preselector is not functioning properly. Cure: Check A3S1 and replace if required. 0065 RF Switch 2 Cause: This RF switch in the HP 70600A preselector or the HP 70601A preselector is not functioning properly. Cure: Check A4S2 and replace if required. 0066 RF Switch 3 Cause: This RF switch in the HP 70600A preselector or the HP 70601A preselector is not functioning properly.
User Application Errors 0001 { 0999 0070 RF Preamplifier Cause: The HP 70621A preampli er or HP 70620B preampli er Option 001 RF preampli er has failed its diagnostic test. This error will occur if the signal level gain through the RF preampli er path at 300 MHz is less than or equal to 0 dB. Cure: The most likely failure is the RF preampli er microcircuit. Troubleshoot and repair this component and its power supply.
Operating Errors 2000 { 2999 Operating Errors 2000 { 2999 Operating errors occur when the spectrum analyzer is operated incorrectly. 2000 No errors Cause: This message is returned from querying the system when no error is present in the system. 2001 Illegal command Cause: The remote command sent over the bus or executed as part of a DLP was not a legal remote command. This error could also occur if a User Variable (VARDEF), which did not exist, was used as a parameter in a remote command.
Operating Errors 2000 { 2999 2007 Missing terminator 2008 Output unleveled 2009 Protocol error Cause: Internal error due to illegal communication. Due to hardware failure. Cure: Please document all details possible that lead up to the error and contact your HP representative 2010 Cmd out of sequence Cause: Internal error due to process synchronization. Possible hardware failure. Cure: Please document all details possible that lead up to the error and contact your HP representative.
Operating Errors 2000 { 2999 2013 Item not found or XXXXX not found The XXXXX will be replaced by the name of the item that was not found. Cause: A request was made to operate on an item in memory that was not located. Cure: Use the DEBUG command to locate the programming error. Refer to the HP 70000 Modular Spectrum Analyzer Programming Manual. 2014 Duplicate identifier Cause: A variable, trace, or DLP name matches a reserved spectrum analyzer command.
Operating Errors 2000 { 2999 2019 Illegal marker type Cause: The command executed does not apply to the marker mode of the markers on the display. For example, if a normal marker is on screen, and the \Marker delta into span" function is activated, the function cannot be executed, and the error will occur. Cure: Refer to the programming or operation manual for the function being executed to determine the proper marker type for the operation.
Operating Errors 2000 { 2999 Contact the nearest HP Sales and Service O ce for assistance. 2026 Check mixer bias 2027 Service mode -- do IP Cause: This is a user-generated system protocol error. The bandwidth or reference select is not in their AUTO modes. (For service use only.) 2028 Idler is unlocked 2029 Command syntax error Cause: This error is generated when MSIB packet syntax is incorrect, or when a BDLP call is does not have the proper syntax.
Operating Errors 2000 { 2999 2033 Single band only Cause: The SIGID command requires that the trace be in a single microwave band. Cure: Adjust the start or the stop frequency so that the trace does not span more than a single band. 2034 Test switch on Cause: The module test switch is in the \test" position. All RAM is erased at each power cycle. Cure: Set the module test switch to the \normal" position.
Operating Errors 2000 { 2999 2040 Partial USTATE data Cause: A recalled user state is not complete. 2041 CAL POWER lvl err CAL power level error Cause: The calibration signal level is not su cient for system calibration. Cure: Increase the signal level. 010 dBm is optimum. 2042 Not stored, A0X->A on Cure: Use the DEBUG command to locate the programming error. Refer to the HP 70000 Modular Spectrum Analyzer Programming Manual.
Operating Errors 2000 { 2999 2047 Preselector disabled Cause: The preselector was bypassed while the peak command was executed. Cure: Select the preselector path before executing the peak command. 2048 Userdef protected Cause: User-de ned function or 4USER5 key is protected. Cure: Use the DEBUG command to locate the programming error. Refer to the DEBUG command description in the HP 70000 Modular Spectrum Analyzer Programming Manual. 2049 Battery failed Cause: The battery backed up RAM was not valid.
Operating Errors 2000 { 2999 2055 bad file Cause: File can not be read. 2056 bad revision Cause: A recalled state is from a di erent rmware revision and cannot be used. 2057 volume full Cause: The mass storage device is full. Cure: Remove some les from the mass storage device. 2058 bad volume 2059 directory full Cause: The directory of the mass storage device is full. Cure: Remove some les from the mass storage device.
Hardware Warning Errors 6000 { 6999 Hardware-warning errors occur when the hardware is faulty. The spectrum analyzer can still make measurements, but the accuracy of the measurement cannot be guaranteed. 6000 EAROM unprotected Cause: The memory-enable write switch is set to the WRITE position. It is not set to the PROTECT position. Cure: Set the memory-enable write switch to the PROTECT position.
Hardware Warning Errors 6000 { 6999 6008 Confidence test failed 6009 No module label 6010 Err in MDOC response Cause: An error in module-output capabilities response has occurred. Cure: Return to Hewlett-Packard for servicing. 6011 RBW hardware error Resolution bandwidth hardware error Cause: The resolution bandwidth lters were not able to be calibrated. Cure: Return to Hewlett-Packard for servicing. 6012 Gain hardware error Cause: The ampli ers were not able to be calibrated.
Hardware Warning Errors 6000 { 6999 the external power pack is not properly connected the external power pack is faulty the HP 70310A precision frequency reference module has faulty hardware Note At ambient temperatures below the speci ed operating range of the module, the oven may not be able to generate enough power to keep itself at approximately 85 C. 6016 freq reference No internal oven/oscillator is present and no external frequency reference is applied.
Hardware Broken Errors 7000 { 7999 Hardware Broken Errors 7000 { 7999 Hardware-broken errors occur when the spectrum analyzer might have faulty hardware. 7000 ROM Check error Cause: The programmed checksum of the ROM does not agree with the computed checksum. Cure: This could only be caused by a hardware failure. Return to Hewlett-Packard for servicing. 7001 LO unleveled 7002 First LO unleveled 7003 Second LO unlocked 7004 300 MHz error 7005 321.4 MHz error 7006 21.
Hardware Broken Errors 7000 { 7999 7009 ROM 2 check error 7010 FFS is unlocked Fractional-frequency-source is unlocked Cause: The frequency synthesizer is not able to acquire phase lock. If an external frequency reference is being used, verify that the frequency is accurate. If not, it is likely that the LO hardware has failed. Cure: Correct external frequency reference accuracy or return to Hewlett-Packard for servicing.
Hardware Broken Errors 7000 { 7999 7014 12.5 MZ to YTO LK BD 12.5 MHz to YIG-tuned oscillator lock board error Cause: The internal 12.5 MHz reference signal is not at the correct power level on the YTO phase lock board. This error will only occur on power up of the system, or when the TEST command is invoked, either from the front panel or remotely. Cure: Return to Hewlett-Packard for servicing.
Hardware Broken Errors 7000 { 7999 7019 300 MZ post fltr det 300 MHz post- lter detector error Cause: The internal 300 MHz reference signal is not at the correct power level after the lter stage. This error will only occur on power up of the system, or when the TEST command is invoked, either from the front panel or remotely. Cure: Return to Hewlett-Packard for servicing. 7020 300 MZ AGC 300 MHz automatic gain control error Cause: The gain control voltage on the 300 MHZ signal has reached a limit.
Hardware Broken Errors 7000 { 7999 7024 Tune DAC Tune the digital-to-analog converter Cause: The DAC that tunes the YIG oscillator is not operating properly. This error will only occur on power up of the system, or when the TEST command is invoked, either from the front panel or remotely. Cure: Return to Hewlett-Packard for servicing. 7025 Decade span atten Decade spanwidth attenuator error Cause: The DAC that generates the scaled voltage for sweeping the YIG oscillator is not operating properly.
Hardware Broken Errors 7000 { 7999 7029 Video proc: 0 volt Video processor: 0 volt error Cause: The video processor is not able to be properly calibrated to the 0 volt reference. This error will only occur on power up of the system, or when the TEST command is invoked, either from the front panel or remotely. Cure: Return to Hewlett-Packard for servicing. 7030 Video proc: 2 volt Video processor: 2 volt error Cause: The video processor is not able to be properly calibrated to the 2 volt reference.
Hardware Broken Errors 7000 { 7999 7035 Dist amp B error Either the input to the HP 70310A precision frequency reference Distribution Ampli er \B" board assembly is beyond the speci ed operating range, or a hardware failure exists. The most probable causes are either: (a) one or more outputs are unleveled due to faulty HP 70310A precision frequency reference hardware, or (b) an input that is too low in power.
Hardware Broken Errors 7000 { 7999 7044 YTO tuning range YIG-tuned oscillator tuning range Cause: The YIG oscillator is not able to be tuned over the necessary range. This error will only occur on power up of the system, or when the TEST command is invoked, either from the front panel or remotely. Cure: Return to Hewlett-Packard for servicing. 7045 10 MHz out error The HP 70310A precision frequency reference 10 MHz OUT signal is absent or too low.
Hardware Broken Errors 7000 { 7999 7073 Tune+Span disconnect 7074 Discriminator unlock 7075 LOLA unleveled 7076 MULT unleveled 7077 YTF drive error 7078 Tune/Span error 7079 EEPROM check error Cause: This hardware error occurs when the controller has determined that the EEPROM memory is invalid. Either the EEPROM is defective or the data in the EEPROM must be reloaded. Cure: Return to Hewlett-Packard for servicing.
Hardware Broken Errors 7000 { 7999 7803 Power meter failed Cause: The power meter circuitry has failed during the self test. Cure: Return to Hewlett-Packard for servicing. 7804 Self test failed Cause: The self test checks the functionality of the power meter and optical attenuator. Cure: Return to Hewlett-Packard for servicing. 7805 Zeroing error Cause: Photodiode dark current cannot be nulled.
Computation Errors 8000 { 8999 Computation Errors 8000 { 8999 Computation errors occur during illegal math operations. For all of these computation errors, use the DEBUG command to locate the programming error. Refer to the HP 70000 Modular Spectrum Analyzer Programming Manual. 8000 Divide by zero 8001 Float pt overflow Floating-point over ow. Absolute value of number exceeds 1.797,693,134,862,315 2 10308.
Factory-Use Only Errors 9000 { 9999 These errors are for factory use only. If any of the 9000 { 9999 errors occurs, 1. Record the error number and the hexadecimal code. 2. Record all events that led up to the occurrence of the error message. 3. Record the HP model numbers of the modules in the system. 4. Record the rmware version. 5. Contact the nearest HP Sales and Service O ce for assistance.
Index 1 100 MHz HP 70310A precision frequency reference, 3-85 100 MHz IN HP 70900B local oscillator source, 3-89 100 MHz IN, HP 70900B local oscillator source, 1-6 10 MHz HP 70310A precision frequency reference, 3-85 10 MHz out error, hardware broken error, 7045, 5-32 125 KZ to FFS, hardware broken error, 7011, 5-26 12.
HP 70905B RF section, 3-97 HP 70906A RF section, 3-95 HP 70906B RF section, 3-97 HP 70908A RF section, 3-100 HP 70909A RF section, 3-102 HP 70910A RF section, 3-102 3478A MULTIMETER requires calibration.
HP 71200C modular spectrum analyzer deleting HP 70905A RF section, 2-36, 2-38 HP 71200C modular spectrum analyzer with HP 70903A IF section, 2-32 HP 71200P modular spectrum analyzer, 2-66 HP 71200P modular spectrum analyzer deleting HP 70902A IF section, 2-70 HP 71200P modular spectrum analyzer deleting HP 70905A RF section, 2-72, 2-74 HP 71200P modular spectrum analyzer with HP 70903A IF section, 2-68 HP 71209A microwave spectrum analyzer, 2-40 HP 71209P microwave spectrum analyzer, 2-77 HP 71210C microwav
HP 71100P modular spectrum analyzer with an HP 70300A RF tracking generator, 2-65 HP 71100P modular spectrum analyzer with HP 70700A digitizer, 2-61 HP 71100P modular spectrum analyzer with HP 70903A IF section, 2-59 HP 71100P modular spectrum analyzer with HP 70903A IF section and HP 70700A digitizer, 2-63 HP 71200C modular spectrum analyzer, 2-31 HP 71200C modular spectrum analyzer deleting HP 70902A IF section, 2-35 HP 71200C modular spectrum analyzer deleting HP 70905A RF section, 2-37, 2-39 HP 71200C m
HP 70810B lightwave section, 3-88 HP 70810B Option 850 lightwave section, 3-88 HP 70900B local oscillator source, 3-89 HP 70902A IF section, 3-90 HP 70903A IF section, 3-91 HP 70904A RF section, 3-92 HP 70905A RF section, 3-93 HP 70905B RF section, 3-97 HP 70906A RF section, 3-95 HP 70906B RF section, 3-97 HP 70907A external millimeter interface module, 3-98 HP 70907B external millimeter interface module, 3-99 HP 70908A RF section, 3-100 HP 70909A RF section, 3-102 HP 70910A RF section, 3-102 module inputs
0035, Step gain amplifier, 5-7 0036, Res BW-accuracy, 5-7 0037, Res BW-amplitude, 5-7 0038, Calibration atten, 5-7 0039, Log amplifier, 5-8 0040, Tune+Span, 5-8 0041, RF attenuator, 5-8 0042, Cal/I.F.
Err in MDOC response, hardware warning error, 6010, 5-23 ERR LED, HP 70900B local oscillator source, 1-4 <**>, error and status message, 4-59 <<<<, error and status message, 4-59 error and status messages <**>, 4-59 <<<<, 4-59 3478A MULTIMETER requires calibration., 4-59 Aborted, 4-59 Address is HP-IB controller address., 4-60 Address matches system disk drive., 4-60 Address not in acceptable range., 4-60 Adjust Inst, 4-59 Attempt to close le failed., 4-60 failed.
The 8902A needs repair (Error 6)., 4-66 The at address was not found on HP-IB., 4-66 The controller does not have su cient memory., 4-65 The correct Power Sensor has not been detected. Connect the or Abort the test., 4-63 The DUT must have an HP-IB address., 4-66 The Operating Disk is write protected., 4-63 THIS COLUMN CAN NOT BE EDITED., 4-66 This test can not be selected because of missing ETE., 4-66 Timed Out , 4-66 Too many Cal Data frequencies were eliminated. There must be at least two frequencies.
2029, operating error, 5-17 2030, operating error, 5-17 2031, operating error, 5-17 2032, operating error, 5-17 2033, operating error, 5-18 2034, operating error, 5-18 2035, operating error, 5-18 2036, operating error, 5-18 2037, operating error, 5-18 2038, operating error, 5-18 2039, operating error, 5-18 2040, operating error, 5-19 2041, operating error, 5-19 2042, operating error, 5-19 2043, operating error, 5-19 2044, operating error, 5-19 2045, operating error, 5-19 2046, operating error, 5-19 2047, op
7802, hardware broken error, 5-33 7803, hardware broken error, 5-34 7804, hardware broken error, 5-34 7805, hardware broken error, 5-34 8000, computation error, 5-35 8001, computation error, 5-35 8002, computation error, 5-35 8003, computation error, 5-35 8004, computation error, 5-35 8005, computation error, 5-35 8006, computation error, 5-35 8999, computation error, 5-35 computation, 8000 { 8999, 5-35 factory-use only, 9000 { 9999, 5-36 hardware broken, 7000 { 7999, 5-25 hardware warning, 6000 { 6999, 5-2
function keys DISPLAY, 1-4 instrument keypad, 1-11 REPORT ERRORS, 1-4 fuse replacement, system, 1-18 G Gain hardware error, hardware warning error, 6012, 5-23 GSM System Calibration for HP 71150C GSM transmitter tester, 4-28, 4-44 for HP 71250C GSM transmitter tester, 4-28, 4-44 GSM System Displayed Average Noise Level using HP 70902A IF section, 4-28, 4-47 H hard reset, TEST position, 2-12 hardware broken errors 7000 { 7999, 5-25 interconnect, 1-15 warning errors 6000 { 6999, 5-22 hardware broken error
heterodyning, 1-6 hex-nut latch, 1-4 High idler range, hardware broken error, 7023, 5-28 How to connect the MSIB Y-Cable, 2-17 HP 11990A system performance test software, 1-10 HP 70001A mainframe cabling to HP 70004A color display, 2-16 physical dimensions, 3-83 HP 70004A color display address switches, 2-14 physical dimensions, 3-83 HP 70206A system graphics display address switches, 2-14 HP 70300A RF tracking generator addressing criteria, 2-9 HP 70301A microwave tracking generator addressing criteria, 2-
SRQ LED, 1-4 SW1/MEM, switches, 2-11 SWEEP, 1-6, 3-89 TLK LED, 1-4 TUNE + SPAN OUT, 1-6, 3-89 VIDEO IN, 1-6, 3-89 YTO Loop Unlock LED, 1-4 HP 70902A IF section 21.4 MHz IN, 3-90 addressing criteria, 2-8 AUX OUT, 3-90 characteristics, 3-90 Displayed Average Noise, test, 4-28, 4-46 GSM System Displayed Average Noise Level, test, 4-28, 4-47 IF 3 MHz, 3-90 LIMITED IF OUT, 3-90 Log Fidelity, test, 4-28, 4-48 Resolution Bandwidth Tests, test, 4-28, 4-49 VIDEO 0-1V, 3-90 VIDEO OUT, 3-90 HP 70903A IF section 21.
Calibrator Amplitude Accuracy, test, 4-28, 4-51 characteristics, 3-99 front-panel, 3-99 IF INPUT, 3-99 LO OUTPUT, 3-99 MIXER BIAS, 3-99 PRESEL TUNE + SPAN INPUT, 3-99 rear-panel, 3-99 Resolution Bandwidth, test, 4-28, 4-56 system speci cation changes with, 3-55 HP 70908A RF section 1st LO IN, 3-100 1st LO OUT, 3-100 21.4 MHz OUT, 3-100 300 MHz IN, 3-100 321.
cabling, deleting HP 70902A IF section, 2-71 cabling, deleting HP 70905A RF section, 2-73 cabling, with HP 70903A IF section, 2-69 deleting HP 70902A IF section, 2-70 deleting HP 70905A RF section, 2-72, 2-74, 2-76 with HP 70903A IF section, 2-68 HP 71209A microwave spectrum analyzer, 2-40 address map, 2-40 cabling, 2-41 speci cations, 3-18 speci cations, with external mixers, 3-26 speci cations with HP 11970, 3-30 speci cations with HP 11974, 3-30 HP 71209P microwave spectrum analyzer, 2-77 address map, 2-
Idler tuning range, hardware warning error, 6005, 5-22 IDL Loop Unlock LED, HP 70900B local oscillator source, 1-4 IF 21.
Log Fidelity for HP 70902A IF section, 4-28, 4-48 for HP 70903A IF section, 4-28, 4-48 using HP 70907A/B external millimeter interface module, 4-28, 4-53 Logging errors to ERRORLOG failed. Operating Disk is write protected.
N New 70810 ROMs req, operating error, 2060, 5-21 No active marker, operating error, 2020, 5-16 No case for the sensor in the 8902A driver!, error and status message, 4-64 No DAC in this band, operating error, 2046, 5-19 No disk copy of output found., error and status message, 4-65 No Element Present, in address map, 2-6 No EMIM Section?, diagnostics error, 0011, 5-3 No errors, operating error, 2000, 5-13 NO I.F.
Optical atten failed, hardware broken error, 7801, 5-33 Option 910, HP 70900B local oscillator source, 1-8 Option 915, HP 70900B local oscillator source, 1-8 options HP 70900B local oscillator source, 1-8 mainframe rear-fan lter, 1-19 ordering information, 2-83 rack ange kit, 1-13 rack mount with slides, 1-13 side support, 1-13 Output unleveled, operating error, 2008, 5-14 Oven cold, hardware warning error, 6015, 5-23 Oven RF error, hardware broken error, 7032, 5-30 P packaging damage, 1-3 parameter menu,
line fuse, 1-18 module, 2-15 REPEAT/UNTIL error, operating error, 2022, 5-16 replacement parts listing, 2-86 REPORT ERRORS, display menu key, 2-4 REPORT ERRORS, function keys, 1-4 reporting errors, 2-4 required accessories, 4-6 requirements addressing order, 2-7 system operation, 1-9 test equipment, 4-5 Res BW-accuracy, diagnostics error, 0026, 5-5 Res BW-accuracy, diagnostics error, 0036, 5-7 Res BW-amplitude, diagnostics error, 0027, 5-6 Res BW-amplitude, diagnostics error, 0037, 5-7 Res BW -- CF ampl, di
contents, of software, 4-1 Short Pass, error and status message, 4-65 side support, what to order, 1-13 Single band only, operating error, 2033, 5-18 single tests de ned, 4-7 slave address switches, 2-12 area boundaries, 2-6 de nition, 2-3 element address switches, 2-12 elements, 2-5 MMS term, 2-2 slave area, 2-3, 2-4 boundaries, setting, 2-6 of master, 2-10 slave modules, 1-3 software/hardware compatibility, 4-2 software version, 4-2 Some devices listed as \Available" require serial numbers.
NRML/TEST, 2-12 ROWs 1|3, 2-12 SW1/MEM, 2-11 SYSTEM CONTROLLER, 2-13 TALK ONLY, 2-13 TEST MODE, 2-13 system calibration certi cation, 1-10 component, de nition, 2-1 components, 3-2 con guration examples, 2-19, 2-55 con gurations for A and C systems, 2-18 con gurations for P systems, 2-53 diagnostics, error messages, 5-2 line fuse replacement, 1-18 operating requirements, 1-9 operation veri cation, accessories, 4-5 operation veri cation, error messages, 4-7 operation veri cation, installation, 4-9 operation
Resolution Bandwidth using HP 70907B external millimeter interface module, 4-28, 4-56 tests, 4-28 system speci cation changes HP 70620B preampli er, 3-40 HP 70621A preampli er, 3-40 T TALK ONLY, switches, 2-13 test description list, 4-28 descriptions, 4-27 disk, 4-1 equipment, external, 4-5 limit changes, 4-58 menu, 4-20 menu keys, 4-26 results, 4-7 Test can not be done., error and status message, 4-65 Testing dd mmm yyyy.
The 8902A needs repair (Error 6)., error and status message, 4-66 The at address was not found on HP-IB., error and status message, 4-66 The controller does not have su cient memory., error and status message, 4-65 The correct Power Sensor has not been detected. Connect the or Abort the test., error and status message, 4-63 The DUT must have an HP-IB address., error and status message, 4-66 The Operating Disk is write protected., error and status message, 4-63 THIS COLUMN CAN NOT BE EDITED.
YTO unleveled, hardware broken error, 7015, 5-27 Z Zeroing error, hardware broken error, 7805, 5-34 Index-25