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1. HP 71100A C HP 71200A C HP 71201A C HP 71210A C or HP 71300A C Digital Voltmeter crer ara a aaa HP 3456A 500 Termination ele eee el les Le ea n an a be ane ane se an aa kase HP 909D Adapters BNC f to BNC f barrel oooo oon nananana HP 1250 0080 2 reguired Cables BNC m to dual banana plug HP 11001 60001 BNC m to SMB f ecc HP 85680 60093 2 reguired MODULAR SPECTRUM ANALYZER DIGITAL VOLTMETER 50 2 LOAD BNC BANANA PLUG CABLE Figure 3 3 Discrete Fault Indicator Test Setup 3 6 Verification 3 Discrete Fault Indicator DFI Procedure Connect equipment as shown in Figure 3 3 Set the digital voltmeter to read out in ohm units resistance Turn the power on to the modular spectrum analyzer system 1 2 3 4 Note the resistance on the digital voltmeter and record in Table 3 5 5 Turn the power off to the modular spectrum analyzer system 6 Note the resistance on the digital voltmeter and record in Table 3 5 Table 3 5 Discrete Fault Indicator Readings Power Setting Resistance Test Limit ohms Power ON OPEN Power OFF 5002 Verification 3 7 Programming Adding the HP 70590A Option H69 or Option H72 TMA to an HP Modular Spectrum Analyzer allows operation of the spectrum analyzer using eith2. MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP lt value gt SAMPLE AVG lt value gt TRIG SOURCE EXT INT lt connection field gt CIIL Example CIIL FNC TAC AMSH CHOO SET AMSH lt value gt SRN AMSH lt value gt SRX AMSH lt value gt SRN VOLT lt value gt SRX VOLT lt value gt SET NVLT lt value gt SET XVLT lt value gt SET XVLT lt value gt SET VOLT lt value gt SRN POWR lt value gt SRX POWR lt value gt SET NPOW lt value gt SET XPOW lt value gt SET XPOW lt value gt SET POWR lt value gt SRN FRQW lt value gt SRX FRQW lt value gt SET FRES lt value gt SET ATTN lt value gt SET SWPT lt value gt SET RESB lt value gt SET VBAN lt value gt Programming 4 39 Measuring AM Shift SET XSAM SAMP SAMN SMPL SMPP lt value gt SAMA lt value gt SET TRSC EXT INT CLS CHOO lt cr lf gt INX AMSH lt cr lf gt ATLAS Response 1 lt value gt lt error message text gt lt cr lf gt FTH AMSH lt cr 1f gt CIIL Response lt value gt lt error message text gt lt cr lf gt OPN CHOO lt cr lf gt RST TAC AMSH CHOO lt cr 1f gt 4 40 Programming Measurements Returning Multiple Values Measurements Returning Multiple Values ATLAS Example ATLAS MEASURE SAMPLE POWER VOLTAGE lt noun gt RESP lt list gt lt list range gt
3. HP Part Number CD Qty Description 1 70590 00016 4 1 PANEL FRONT DRESS 2 70700 20006 8 1 FRONT FRAME 3 5021 3290 7 1 LATCH MOD 4 0510 1244 9 1 RETAINER PUSH ON CIRCULAR EXT 5 0900 0012 4 1 O RING 364 IN ID 07 IN XSECT DIA 6 0515 1146 0 2 SCREW MACK SMM3 0 6LWPNPDS 7 70700 40002 6 1 GUIDE PC BOARD BLOCK 8 0515 1146 0 2 SCREW MACK SMM3 0 6LWPNPDS HP 70590A OPT H69 TEST MODULE ADAPTER STATUS ACT ERR HP IB EN OT 7 12 Replaceable Parts Figure 7 2 H69 Front Panel Item HP Part Number CD Qty Description 1 70590 00016 4 1 PANEL FRONT DRESS 2 BNC CONNECTOR PART OF W5 3 0590 1251 6 1 NUT SPCLY 15 43 THD 1 IN THK 562 WD 4 2190 0104 0 1 WASHER LK T 1 2IN 505 IN IB 5 86290 60005 7 2 RF CONNECTOR ASSEMBLY TYPE N F 6 70700 20006 8 1 FRONT FRAME 7 5021 3290 7 1 LATCH MOD 8 0510 1244 9 1 RETAINER PUSH ON CIRCULAR EXT 9 0900 0012 4 1 O RING 364 IN ID 07 IN XSECT DIA 10 0515 1146 0 2 SCREW MACK SMM3 0 6LWPNPDS 11 2190 0104 0 2 WASHER LK EXT 7 16 IN 0 438 IN ID 12 2950 0132 6 2 NUT HEX DBL CHAM 7 16 28 THD 0 094 IN THK 13 2190 0104 0 1 WASHER LK T 1 2IN 505 IN ID 14 70700 40002 6 1 GUIDE PC BOARD BLOCK 15 0515 1146 0 2 SCREW MACK SMM3 0 6LWPNPDS P 70590A OPT Hf2
4. J1 A2W1 J2 J 3 WS A6 SW1 W7 WG Figure 8 2 H72 Major Assembly and Cable Locations Major Assembly and Cable Locations 8 1 Component Level Information Chapter 9 contains component level repair information for all versions of field repairable assemblies Refer to Table 9 1 The repair information is grouped by assembly version and contained in repair packets Each packet contains a parts list component location illustration and schematic diagram The repair packets are organized in numerical order by HP part number To locate the correct repair packet match the assembly s HP part number etched on the circuit board to the packet documenting that part number Note Make sure that the HP part number printed on the parts list component location or schematic diagram matches the HP part number of the assembly being repaired There may be several versions of the assembly Table 9 1 Assemblies Documented in This Chapter Assembly Reference Designation H69 Assemblies H72 Assemblies Al Status 70700 60009 70590 60022 A2 Motherboard 70590 60001 70590 60029 A5 Processor 70590 60002 70590 60028 A6 Switch Control not assigned 70590 60023 Component Level Information 9 1 GRAPHIC SYMBOLS USED ON SCHEMATIC AND BLOCK DIAGRAMS BASIC COMPONENT SYMBOLS VARIABLE RESISTOR CIRCUIT ASSEMBLY Nro FUSE WIPER MOVES TOWARD CW BORDERL INE WHEN SHAFT IS RO
5. or disconnection of the protective earth terminal can result in personal injury Before this instrument is switched on make sure its primary power circuitry has been adapted to the voltage of the ac power source Failure to set the ac power input to the correct voltage could cause damage to the instrument when the ac power cable is plugged in Contents 1 General Information Compatibility 2 e 1 2 Safety Considerations ke 1 2 Front Panel Features A 1 3 Rear Panel Features Ke 1 4 Input Output Characteristics Ke 1 5 Discrete Fault Indicator DFI L 1 5 Modules Covered by Manual a a a a a a 1 5 Serial Numbers Ke 1 5 Manual Updating Supplement LOL L ee YOY LV VL 1 6 Electrostatic Discharge Information 1 6 Reducing ESD Damage Ke 1 6 Handling of Electronic Components Ke 1 6 Test Equipment L Yo L L 1 7 Returning Modules for Service e 1 9 Packaging deu ee ee eee ee 1 9 Instrument Shipping Preparation Procedure LOU L L eee ee ee ee 1 9 Sales and Service Offices ee 1 10 2 Installation Checking the Local Oscillator Firmware 2 1 Method 1 2 1 Method 2 2 1 Installing the Module lt e 2 2 Removing Modules 2 3
6. 0 3 Channels 4 7 Channels 8 11 Channels 12 15 Channels 16 19 4 20 Programming specify the input port to be used if multiple ports are available select input ports 0 3 and enable currently stored pathloss data to be applied to the measurments Once enabled this correction will continue until the next RST is received select input ports 0 3 and perform a preselector peak function as part of the measurement if a tunable preselector is available on the input selected select input ports 0 3 enable currently stored pathloss data and perform the preselector peak function select input ports 0 3 and perform the internal calibration procedure takes approximately 2 3 minutes The appropriate calibration signal must be present at the selected input STA STA Syntax STA Description Requests the current operation status Normal return is lt sp gt lt crlf gt Error Messages FO5ASA MOD Measurement Timeout FO7ASA MOD CIIL HPIB Syntax Error FO7ASA MOD HARDWARE Error FO7ASA MOD INVALID RESPONSE LENGTH FOZASA MOD INVALID MEASUREMENT CHARACTERISTIC FO7ASA MOD UNRECOGNIZED MEASUREMENT CHARACTERISTIC FOTASA MOD CNF IST Error HHHH N N LM Error Message Digits The hex digits H represent the results of tests run by the TMA on the TMA A word is 16 bits Bit O is the least significant bit The error codes reported by the ASA tests 5 possible are appended a
7. 4 37 modulation frequency measurement 4 35 module installation 2 2 removal 2 3 N note adjustment procedures 1 1 noun modifiers 4 2 nouns 4 46 Index 1 o OPN command 4 15 ordering information 7 2 P power measurement 4 25 power on sequence 5 2 R rear panel features 1 4 removing modules 2 3 returning multiple values 4 41 RF connectors 1 3 1 4 RF IN 1 3 RF OUT 1 3 RMT LED 1 3 RST command 4 16 S safety 1 2 sales and service offices 1 10 self test 5 2 Index 2 serial numbers 1 5 service 1 9 service accessories 5 1 SET command 4 17 shipping containers 1 9 spectrum measurement 4 33 SRN command 4 17 SRO LED 1 3 SRX command 4 17 STA command 4 21 static safe accessories 1 6 sweep 4 2 4 4 switches 2 2 T torque values 6 1 trace transfers 4 23 V voltag measurement 4 27 W wire routing 6 1
8. 6 PNPDS 3 2190 0584 0 2 WASHER LOCK M3 0 ID 4 3050 0891 7 2 WASHER FLAT M3 0 ID 5 0515 1146 0 5 SCREW MACK 5MM3 0 6LWPNPDS 6 70700 20008 1 MODULE BODY 7 0515 0886 3 2 SCREW MACH M3 X 0 5 6MM LG PAN HD O 7 10 Replaceable Parts 9 O COMPONENT SIDE O amp YO O Figure 7 1 H69 Right Side View Item HP Part Number CD Qty Description 70590 00001 1 1 COVER MODULE not shown 0515 0886 3 10 COVER SCREW M3 X 0 5 6MM LG PAN HD not shown 1 0515 1146 0 2 SCREW MACK SMM3 0 6LWPNPDS 2 70590 00013 1 1 SWITCH ASSEMBLY BRACKET 3 70590 00018 6 1 SWITCH BOARD SPACER 4 70700 00004 4 1 CORE BRACKET 5 0515 1146 0 3 SCREW MACK SMM3 0 6LWPNPDS 6 0515 1079 8 3 SCREW MACHINE ASSEMBLY M3 X 0 5 8MM LG 7 0515 1373 5 2 SCREW MACH M2 5 X 0 45 16MM LG PAN HD 8 70700 20008 0 1 MODULE BODY 9 0515 0886 3 2 SCREW MACH M3 X 0 5 6MM LG PAN HD 10 0515 0924 0 2 SCREW MACH 5MM3 0 6 PNPDS 11 2190 0584 0 2 WASHER LOCK M3 0 ID 12 3050 0891 7 2 WASHER FLAT M3 0 ID 2 PLACES TON IN 2 5 2 6 9 3 PLACES 3 PLACES 2 PLACES H72 Right Side View Replaceable Parts 7 11 Item
9. Frequency Face Feedthrough Female Fillister Head Flash Flat Fluid Flat Point Front Frequency FT FXD GEN GND GP HDW HEX HLCL HP IC INCL INT J FET Current Gain Bandwidth Product Transition Freguency Feet Foot Fixed G General Generator Ground General Purpose Group H Henry High Hardware Hexadecimal Hexagon Hexagonal Helical Hewlett Packard Company High Pass Collector Current Integrated Circuit Identification Inside Diameter Forward Current Intermediate Freguency Inch Including Integral Intensity Internal Junction Field Effect Transistor JFET KNRLD KVDC LED LG LIN LK LKG LUM MA MACH MAX MC MET MHZ MINTR MIT MLD MM MOM MTG MTLC MW Junction Field Effect Transistor K Kelvin Key Kilo Potassium Knurled Kilovolts Direct Current Light Emitting Diode Length Long Linear Linearity Link Lock Leakage Locking Luminous M Male Maximum Mega Mil Milli Mode Milliampere Machined Maximum Molded Carbon Composition Metal Metallized Megahertz Miniature Miter Mold Molded Magnetized Material Millimeter Momentary Mounting Metallic Milliwatt Replaceable Parts 7 5 Table 7 1 Reference Designations Abbreviations and Multipliers continued REFERENCE DESIGNATIONS N N CHAN NH NM NO NOM NPN OA OD OP AMP OPT PA
10. MAX lt value gt HZ FREQ CAR FREQ RANGE lt value gt HZ TO lt value gt HZ VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP value SAMPLE AVG lt value gt TRIG SOURCE EXT INT lt connection field gt CIIL Example CIIL FNC lt noun gt FREQ CFRQ CHOO SET FREQ CFRQ lt value gt SRN FRQW lt value gt SRX FRQW lt value gt SRN FREQ CFRQ lt value gt SRX FREQ CFRQ lt value gt SRN VOLT lt value gt SRX VOLT lt value gt SET NVLT lt value gt SET XVLT lt value gt SET XVLT lt value gt SET VOLT lt value gt SRN POWR lt value gt SRX POWR lt value gt SET NPOW lt value gt SET XPOW lt value gt SET XPOW lt value gt SET POWR lt value gt SET FRES lt value gt SET ATTN lt value gt Programming 4 29 Measuring Frequency SET SWPT lt value gt SET RESB lt value gt SET VBAN
11. MAXT sets maximum delay until trigger PRDF sets the signal peak recognition criterion used in SPEC This is the power difference that a response must exhibit in order to be classified as a signal The default value is 6 dB This parameter affects the following measurments AMFQ AMOD FSTA FSTE FSTO MAMP MODF PERM AMMC AMMF AMSH DDMD DMDS HMDF LMDF MMOD SBCF SBCM Note PRDF specifies the amplitude correction value which is to be added to the measurement result to correct for test ASA path loss for the CAL noun PREF sets the display line SGTH sets the signal threshold used for SPEC measurements A signal must exceed this threshold by PRDF in order to be classified as a signal response The default value is nine divisions below the reference level This parameter affects the following measurements AMFQ AMOD FSTA FSTE FSTO MAMP MODF PERM AMMC AMMF AMSH DDMD DMDS HMDF LMDF MMOD SBCF SBCM REFO enables the signal conditioning mode of operation It is assumed that the video output will be digitized by a high speed ADC This is required in order to use the ASA as a signal conditioning or stimulus device This mnemonic causes the ASA to be setup when the CLS command is received RESB sets the resolution bandwidth filter 1 3 sequence The lt value gt AUTO sets the resolution bandwidth as a function of frequency span RESP specifies the number of items to be returned as measurement data SWPT sets the sweep time
12. MIN lt value gt PC MOD AMPL MAX lt value gt PC MOD AMPL RANGE lt value gt PC TO lt value gt PC VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ POWER DIFF lt value gt DBM SIGNAL THRESHOLD lt value gt DBM FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP m TRIG SOURCE EXT INT value SAMPLE AVG lt value gt L lt connection field gt CIIL Example CIIL FNC lt noun gt MAMP CHOO SET MAMP lt value gt SRN MAMP lt value gt SRX MAMP lt value gt SRN VOLT lt value gt SRX VOLT lt value gt SET NVLT lt value gt SET XVLT lt value gt SET XVLT lt value gt SET VOLT lt value gt SRN POWR lt value gt SRX POWR lt value gt SET NPOW lt value gt SET XPOW lt value gt SET XPOW lt value gt SET POWR lt value gt SRN FRQW lt value gt SRX FRQW lt value gt SET PRDF lt value gt SET SGTH lt value
13. MOD FREQ HMDF HZ LO MOD FREQ LMDF HZ Programming 4 47 Table 4 2 Corresponding Atlas and CIIL Noun Modifiers continued Atlas Modifiers CIIL Modifiers and lt value gt Units max power XPOW DBM max sample XSAM integer MAX TIME MAXT SEC max voltage XVLT V MEAN MOD MMOD PC min power NPOW DBM min voltage NVLT V MOD AMPL MAMP V MOD FREQ MODF HZ neg sample SAMN integer NOISE AMPL DENS NOAD V sgrt HZ NOISE PWR DENS NOPD DBM HZ percent mod PERM PC PERIOD PERI SEC pos sample SAMP integer POWER POWR DBM POWER DIFF PRDF DB POWER REF PREF DBM ref out REFO no value field resolution bandwidth RESB HZ RESP RESP integer RMS VOLT RMSV V SAMPLE SMPL integer sample avg SAMA integer 4 48 Programming Table 4 2 Corresponding Atlas and CIIL Noun Modifiers continued Atlas Modifiers CIIL Modifiers and lt value gt Units sample pp SMPP integer SAMPLE WIDTH SMPW SEC signal threshold SGTH DBM signal search SIGS DBM spectrum SPEC DBM SUB CAR FREQ SBCF HZ SUB CAR MOD SBCM PC sweep time SWPT SEC trig level TRLV V trig source TRSC literal string video bandwidth VBAN HZ VOLTAGE VOLT V VOLTAGE P VLPK V Programming 4 49 5 Troubleshooting This chapter provides troubleshooting information including information on the module s self test the error indicators and error codes A module s block diagram is located at the end of this chapter Additional troublesh
14. ON SCHEMATIC AND BLOCK DIAGRAMS BASIC COMPONENT SYMBOLS CONTINUED TP1 INDICATES A PLUG IN a TEST POINT TERMINAL CONNECTION F TO M PROVIDED FOR TEST PROBE CONNECTION CONNECTION SYMBOL INDICATING MEASUREMENT POINT USED PLUG MOVABLE TO INDICATE A CONVENIENT POINT FOR MEASUREMENT NO TERMINAL PROVIDED FOR TEST PROBE CONNECTION SYMBOL INDICATING JACK STATIONARY INDICATES WIRE OR CABLE COLOR CODE COLOR SAME AS RESISTOR COLOR CODE FIRST NUMBER INDICATES BASE COLOR SECOND AND THIRD NUMBERS INDICATE COLORED STRIPES MULTI CONDUCTOR CABLE OR BUS INDICATES A SINGLE PIN OF A PC BOARD EDGE EARTH GROUND SYMBOL CONNECTOR USUALLY INSTRUMENT CHASSIS GROUND MAY BE ACCOMPANIED BY A NUMBER OR LETTER TO SPECIFY A PARTICULAR GROUND SCREWDRIVER ADJUSTMENT ENCLOSES REAR PANEL DESIGNATION D FRONT OR REAR PANEL CONTROL COMMONLY USED ASSEMBLY AND CIRCUIT SYMBOLS OSCILLATOR RPG PHASE FREGUENCY ROTARY PULSE DETECTOR GENERATOR LOW PASS BAND REJECT FILTER FILTER SERVICE FAN MOTOR DETECTOR ATTENUATOR OR PAD HIGH PASS FILTER AMPLIFIER BUFFER VARIABLE ATTENUATOR BANDPASS FILTER SAMPLER eee eee eve TRANSMISSION LINE BASIC LOGIC SYMBOLS AMPLIFIER BUFFER 3 STATE be AND GATE Lo NAND GATE BUFFER INVERTER OR GATE gt NOR GATE BUFFER SCHMITT TRIGGER DD gt E
15. Read the electrostatic discharge information in Chapter 1 before removing any assemblies Caution When replacing an assembly avoid bending or distorting any semi rigid cables Before removing an assembly always loosen both ends of any semi rigid cable attached to the assembly This reduces the chance of cable damage Table 6 1 Required Hand Tools Tool HP Part Number Phillips screwdriver 0 8710 0978 Small Pozi drive screwdriver 8710 0899 Wire cutter 8710 0012 Long nose pliers 8710 0030 5 16 inch combination wrench 8720 0015 5 8 inch open end wrench 8720 0010 7 mm combination wrench 8710 1258 Assembly Replacement 6 1 A5U21 PIN 14 A5TP18 A5TP19 YELLOW WIRE RED WIRE BLACK WIRE O E 75 COMPONENT SIDE 2 Q BLUE WIRE SW1 2 RED WIRE SWI C YELLOW WI RE GREEN WIRE SW1 1 9 amp RED A WIRE p le BLACK WIRE Figure 6 1 H72 Wire Routing Diagram 6 2 Assembly Replacement Table 6 2 Torque Values Item Description Tool Size Torque 1 Screws securing board assemblies small Pozi drive 6 IN LB 2 Screws securing frame parts small Pozi drive 6 IN LB 3 Nuts securing N connectors 5 8 inch 75 IN LB 4 Nut securing BNC
16. Service Accessories L 5 1 Front Panel Operation oo n 5 1 Self Test a a a a 4 5 2 Power On 4 4 4 W L VL ee ee 5 2 Error Codes L 5 3 6 Assembly Replacement 7 Replaceable Parts Replaceable Parts List Format 0 7 1 Ordering Information 7 2 Direct Mail Order System e 7 2 Direct Phone Order System ee 7 2 Regular Orders W A 7 2 Hotline Orders e 7 2 8 Major Assembly and Cable Locations 9 Component Level Information Index Contents 2 Figures 1 1 Front Panel Features 1 3 1 2 Rear Panel Features 1 4 1 3 Typical Serial Number Label 1 5 1 4 Example of a Static Safe Work Station 1 7 1 5 Factory Packaging Material 1 11 3 1 Calibration Switch Signal Test Setup 3 2 3 2 Calibration Switch Path Test Setup 3 4 3 3 Discrete Fault Indicator Test Setup 3 6 6 1 H72 Wire Routing Diagram 6 2 7 1 H69 Right Side View 7 10 7 2 H69 Front Panel 7 12 7 3 H72 Front Panel 7 13 7 4 Rear Panel 7 14 8 1 H69 Major Assembly and Cable Locations 8 1 8 2 H72 Major Assembly and Cable Locations 8 1 9 1 Graphic Symbols 1 of 2 9 2 9 2 Graphic Symbols 2 of 2 9 3 Tables 1 1 Static Safe Accessories 1 8 1 2 Hewlett Packard Sales and Service Offices 1 12 3 1 Verification Procedures According to Option 3 1 3 2 Calibration Switch Signal Vol
17. Spectrum SET TRSC EXT INT CLS CHOO lt cr lf gt INX SPEC lt cr lf gt ATLAS Response 1 lt value gt lt error message text gt lt cr lf gt FTH SPEC lt cr lf gt CIIL Response lt error message text gt lt freq 1 value gt lt amp 1 value gt lt freq 2 value gt lt amp 2 value gt lt freg N value gt amp N value gt lt cr lf gt Note N RESP 2 OPN CHOO lt cr 1f gt RST noun SPEC CHOO lt cr lf gt 4 34 Programming Measuring Modulation Frequency Measuring Modulation Frequency ATLAS Example ATLAS MEASURE MOD FREQ lt noun gt MOD FREQ lt value gt HZ MOD FREQ MIN lt value gt HZ MOD FREQ MAX lt value gt HZ MOD FREQ RANGE lt value gt HZ TO lt value gt HZ VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM gt FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ POWER DIFF lt value gt DBM SIGNAL THRESHOLD lt value gt DBM FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ lt value gt SAMPLE AVG lt value
18. Switch Position ROM Checksums Non destructive RAM Test 8041 Peripheral Processor Pixel RAM Bit slice Processor Peripheral to Bit slice Interface Dot Generator Character ROM Checksum 4 6 Programming FNC FNC Syntax FNC lt noun gt lt mchar gt CH00 Description This command signifies the beginning of an instrument setup string The noun and mchar are saved for later use in determining which measurement algorithm is to be initiated Validation of the lt noun gt or lt mchar gt is performed and an error message is sent if an invalid item is found Except as noted below all lt noun gt s and lt mchar gt s are treated the same This is done to facilitate the instrument s use as a signal conditioning module Note Setups are cumulative and are only reset by an RST command The FNC op code is followed by an arbitrary number of SET SRN and or SRX op codes The purpose of the FNC op code and its collection of SET SRN and SRX op codes is to indicate which are to affect changes in the module state in transitioning from the current state to the next state Those not included in the FNC setup are to remain as defined in the current state of the module ILS and TACAN measurements imply a time domain setup and the use of a Fourier transform Unless specifically overridden in the SET commands the default conditions are ILS SWPT ec nn 200 ms RESB mn 1 kHz TACAN SWPT ec a 200 ms RESB ee e a wa aa e a a ae a eu ae e
19. frequency order lowest frequency first An alternative form for convenience of the ATLAS programmer FNC CAL POWR CHOO SET FREQ lt value gt lt value gt lt value gt lt value gt lt value gt SET PRDF lt value gt lt value gt lt value gt lt value gt lt value gt lt cr 1f gt Note In this case the arrays will be matched in order on a one to one basis An equal number of values must be received for FREQ and PRDF The data must be in ascending frequency order lowest frequency first Programming 4 45 Implemented Nouns and Noun modifiers 4 46 Programming Table 4 1 Corresponding Atlas and CIIL Nouns Atlas Nouns CIIL Nouns AC SIGNAL ACS AM SIGNAL AMS calibration CAL DME DME DOPPLER DOP FM SIGNAL FMS IFF IFF ILS ILS PAM Pulsed Amplitude Modulation PAM PM SIGNAL PMS PULSED AC SIGNAL PAC PULSED AC TRAIN PAT RANDOM NOISE RDN SUP CAR SIGNAL SOS TACAN TAC VOR VOR WAVEFORM WAV Table 4 2 Corresponding Atlas and CIIL Noun Modifiers Atlas Modifiers CIIL Modifiers and lt value gt Units am freq AMFQ HZ AM SHIFT AMSH DEG AMP MOD AMOD PC AMPL MOD C AMMC PC AMPL MOD F AMMF PC ATTEN ATTN DB BANDWIDTH BAND HZ CAR AMPL CAMP V CAR FREQ CFRQ HZ DDM DDMD ratio DOMINANT MOD SIG DMDS HZ FREQ FREQ HZ FM COMP FMCP HZ freq ref FREF HZ freq resolution FRES HZ freq start FSTA HZ freq step FSTE HZ freq stop FSTO HZ FREQ WINDOW FRQW HZ HI
20. gt TRIG SOURCE EXT INT 1 lt connection field gt MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP CIIL Example CIIL FNC lt noun gt MODF CHOO SET MODF lt value gt SRN MODF lt value gt SRX MODF lt value gt SRN VOLT lt value gt SRX VOLT lt value gt SET NVLT lt value gt SET XVLT lt value gt SET XVLT lt value gt SET VOLT lt value gt SRN POWR lt value gt SRX POWR lt value gt SET NPOW lt value gt SET XPOW lt value gt SET XPOW lt value gt SET POWR lt value gt SRN FRQW lt value gt SRX FRQW lt value gt SET PRDF lt value gt SET SGTH lt value gt SET FRES lt value gt SET ATTN lt value gt Programming 4 35 Measuring Modulation Frequency SET SWPT lt value gt SET RESB lt value gt SET VBAN lt value gt SET 4 XSAM SAMP SAMN SMPL SMPP lt value gt SAMA lt value gt SET TRSC EXT INT CLS CHOO lt cr lf gt INX MODF lt cr lf gt ATLAS Response 1 lt value gt lt error message text gt lt cr lf gt FTH MODF lt cr lf gt CIIL Response 1 lt value gt lt error message text gt lt cr lf gt OPN CHOO lt cr 1f gt RST lt noun gt MODF CHOO lt cr lf gt 4 36 Programming Measuring Modulation Amplitude Measuring Modulation Amplitude ATLAS Example ATLAS MEASURE MOD AMPL lt noun gt MOD AMPL lt value gt PC MOD AMPL
21. lt value gt SET 4 XSAM SAMP SAMN SMPL SMPP lt value gt SAMA lt value gt SET TRSC 4 EXT INT CLS CHOO lt cr lf gt INX FREQ CFRQ lt cr lf gt ATLAS Response lt value gt lt error message text gt lt cr lf gt FTH FREQ CFRQ lt cr 1f gt CIIL Response lt value gt lt error message text gt lt cr lf gt OPN CHOO lt cr 1f gt RST noun FREQ CFRQ J CHOO lt cr 1f gt 4 30 Programming Measuring Bandwidth Measuring Bandwidth ATLAS Example ATLAS MEASURE BANDWIDTH lt noun gt BANDWIDTH lt value gt HZ BANDWIDTH MIN lt value gt HZ BANDWIDTH MAX lt value gt HZ BANDWIDTH RANGE lt value gt HZ TO lt value gt HZ VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ 1 MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP value SAMPLE AVG lt value gt TRIG SOURC
22. of the ASA The ASA is being used as a signal conditioner in this case Otherwise this command causes no action The CLS command will also put the analyzer in continuous sweep mode Again REFO must be sent as part of the setup string 4 4 Programming CNF CNF Syntax CNF Description The following tests are executed by this command After execution the ASA will be left in its instrument preset state Note Always wait approximately three minutes after power on to execute this command If this command is executed too early not all of the following test will be run Note This command assumes a 300 MHz 10 dBm signal is present at the ASA s input port TMA Tests ROM Checksums Non destructive RAM test Internal I O bus check System Tests HP MSIB Slave Addressing Order Signal Path Integrity ROM Checksums Non destructive RAM test Video Processor 100 MHz Reference 300 MHz Reference Fractional N Synthesizer Idler Phase lock Loop Frequency Control Board Adjust Tune DAC Decade Span Attenuator Binary Span Attenuator Sweep DAC Correction DAC YTO Limits Input Attenuator uncalibrated Step Gain s uncalibrated Resolution Bandwidths uncalibrated includes 3 dB points center frequency amplitude Switching uncalibrated Calibration Attenuator s uncalibrated Log Amplifier s uncalibrated Programming 4 5 CNF Display Tests if present HP MSIB Interface Test
23. of the ASA The lt value gt AUTO sets the sweep time as a function of frequency span resolution bandwidth and video bandwidth SMPW sets the sweep time of the ASA zero span waveforms This mnemonic is provided as a convenience to the ATLAS user Its function is identical to SWPT including the lt value gt AUTO TRLV sets the trigger level for video trigger TRSC sets trigger source INT EXT LINE VID 4 18 Programming VBAN SAMN SAMP SMPL SMPP SAMA SAM SET SRN and SRX sets the video bandwidth of the ASA 1 3 10 sequence The lt value gt AUTO sets the video bandwidth as a function of resolution bandwidth selects negative peak detector and can specify the number of sweeps to be taken Value field is optional selects positive peak detector and can specify the number of sweeps to be taken Value field is optional selects the sample detector and can specify the number of sweeps to be taken Value field is optional selects the detector to the normal negative peak and positive peak mode of operation and can specify the number of sweeps to be taken Value field is optional selects the sample detector and specifies the number of sweeps to be averaged together This mode is reset by selecting any of SAMN SAMP SMPL or SMPP with a lt value gt lt 1 or lt value gt not specified The accumulated data will be cleared if a state change in the ASA invalidates the measurement data This occurs when any
24. of the following are SET NPOW XPOW NVLT XVLT FSTA FROW FSTO FSTE FREQ FRES ATTN SMPP XSAM SAMN SAMP RESB SMPL SAMA SWPT VBAN NOAD NOPD sets max hold and can specify the number of sweeps to be taken Value field is optional This mode is reset by selecting any of SAMN SAMP SMPL or SMPP with a lt value gt lt 1 or lt value gt not specified The accumulated data will be cleared if a state change in the ASA invalidates the measurement data This occurs when any of the following are SET NPOW XPOW NVLT XVLT FSTA FRQW FSTO FSTE FREQ FRES ATTN SMPP XSAM SAMN SAMP RESB SMPL SAMA SWPT VBAN NOAD NOPD This mode is suspended during autozoom operations specifying FRES User Defined Function Any lt noun modifier gt used in the setup string can be interrogated by sending the lt noun modifier gt followed by a question mark If the channel number is greater than 19 when the setup is activated CLS and REFO or INX it is assumed that a user defined function downloaded into the analyzer at test station initialization is to be executed The function is the last item in the setup to be done and the channel will then be reset to zero so that the function will only be executed once Function naming convention CH20 CH21 CH45 CH46 CH71 USERA USERB USERZ USERAA USERAZ Programming 4 19 SET SRN and SRX CH72 USERBA CH97 USERBZ CH98 USERCA CH99 USERCB Channels
25. packaging material When ordering packaging material to ship modules it is necessary to order the proper number of foam inserts a A 3 8 width module requires no foam inserts a A 2 8 width module requires one foam insert a A 1 8 width module requires two foam inserts Caution Instrument damage can result from using packaging materials other than those specified Never use styrene pellets as packaging material They do not adequately cushion the instrument or prevent it from shifting in the carton They also cause instrument damage by generating static electricity Instrument Shipping Preparation Procedure 1 Fill out a blue repair tag located at the end of this chapter and attach it to the instrument Include any error messages or specific performance data related to the problem If a blue repair tag is not available the following information should be returned with the instrument Type of service required Description of the problem Whether problem is constant or intermittent Name and phone number of technical contact person Return address Model number of returned instrument Full serial number of returned instrument List of any accessories returned with instrument qo san ce Caution Inappropriate packaging of instruments may result in damage to the instrument during transit 2 Pack the instrument in the appropriate packaging materials Refer to Figure 1 5 Original shipping materials or the e
26. 08A 70590 60019 3 1 BOARD ASSEMBLY PROCESSOR 28480 70590 60019 SERIAL PREFIX 2708A 70590 60032 0 1 BOARD ASSEMBLY PROCESSOR 28480 70590 60032 SERIAL PREFIX 3133A AND ABOVE H72 MAJOR ASSEMBLIES Al 70590 60022 8 1 BOARD ASSEMBLY STATUS 28480 70590 60022 A2 70590 60029 5 1 BOARD ASSEMBLY MOTHERBOARD 28480 70590 60029 A3 A4 NOT ASSIGNED A5 70590 60028 4 1 BOARD ASSEMBLY PROCESSOR 28480 70590 60028 A6 70590 60023 9 1 BOARD ASSEMBLY COAX SWITCH DRIVER 28480 70590 60023 SWI 3106 0029 2 1 COAX RF SWITCH ASSEMBLY 28480 3106 0029 H69 CABLE ASSEMBLIES wi 5062 1933 7 1 CABLE ASSEMBLY MSIB REAR PANEL TO 28480 5062 1933 A5J4 AND A5J1 H72 CABLE ASSEMBLIES WI 5062 1933 7 1 CABLE ASSEMBLY MSIB REAR PANEL TO 28480 5062 1933 A5J4 AND A5J1 W2 W3 NOT ASSIGNED amp W4 W5 70590 60026 2 1 CABLE ASSEMBLY COAX 6 FRONT PANEL 28480 70590 60026 J1 TO SWI IN W6 70590 20024 6 1 CABLE ASSEMBLY SEMI RIGID FRONT 28480 70590 20024 PANEL J2 TO SWI OUT W7 70590 20025 7 1 CABLE ASSEMBLY SEMI RIGID FRONT 28480 70590 20025 PANEL J3 TO SWI IN Replaceable Parts 7 9 Item HP Part Number CD Qty Description 70590 00001 1 1 COVER MODULE not shown 0515 0886 3 10 COVER SCREW M3 X 0 5 6MM LG PAN HD not shown 1 70700 00004 4 1 CORE BRACKET 2 0515 0924 0 2 SCREW MACH SMM3 0
27. 3 Verification System Verification LOL L L ee de ee ee ee eo ee 3 1 1 Calibration Switch Signal 1169 Ke 3 2 2 Calibration Switch Path H72 w L 3 4 3 Discrete Fault Indicator DFI 2 un 3 6 4 Programming Measurement System Lou 4 2 Noun Modifiers deu ee ee ee eee ee ee ee 4 2 Compatibility with Native Operation LOL L L ee de ee ee ee eo ee 4 2 Calibration e 4 3 Measurement Modes 4 3 Contents 1 GAL 2 a 4 11 IST oaoa ee ee eee ee 4 13 OPN a 4 15 RST PPP 4 16 SET SRN and SRX PPP 4 17 STA PPP 4 21 Programming Examples PPP 4 22 Syntax LOU L L YOY VL YN 4 22 Trace Transfers Using CIL Ca e 4 23 Measuring Power e 4 25 Measuring Voltage 4 27 Measuring Frequency lt e n 4 29 Measuring Bandwidth 4 31 Measuring Spectrum 4 33 Measuring Modulation Frequency 4 35 Measuring Modulation Amplitude 4 37 Measuring AM Shift Ke 4 39 Measurements Returning Multiple Values PP 4 4 Setting Up a Conditioner ke 4 43 Setting Up Calibration Data ke 4 45 Implemented Nouns and Noun modifiers 4 46 5 Troubleshooting
28. AS TX US 79265 04222 AVX CORP GREAT NECK NY US 11021 04713 MOTOROLA INC ROSELLE IL US 60195 12014 CHICAGO RIVET amp MACHINE CO NAPERVILLE IL US 60540 16428 COOPER INDUSTRIES INC HOUSTON TX US 77210 18873 DUPONT E I DE NEMOURS amp CO WILMINGTON DE US 19801 19701 MEPCO CENTRALAB INC WEST PALM BEACH FL US 33407 25403 NV PHILIPS ELCOMA EINDHOVEN NE 02876 27014 NATIONAL SEMICONDUCTOR CORP SANTA CLARA CA US 95052 30161 AAVID ENGINEERING INC LACONIA NH US 03247 32159 WEST CAP ARIZONA SAN FERNANDO CA US 91340 34335 ADVANCED MICRO DEVICES INC SUNNYVALE CA US 94086 56289 SPRAGUE ELECTRIC CO LEXINGTON MA US 02173 71744 GENERAL INSTRUMENT CORP CLIFTON NJ US 07012 72962 ELASTIC STOP NUT DIV OF HARVARD UNION NJ US 07083 81073 GRAYHILL INC LA GRANGE IL US 60525 88245 LITTON PRECISION PROD INC VAN NUYS CA 91409 91637 DALE ELECTRONICS INC COLUMBUS NE US 68601 91833 KEYSTONE ELECTRONICS CORP NEW YOURK NY 10012 9M011 INTL RECTIFIER CORP LOS ANGELES CA US 90069 9N171 UNITRODE CORP LEXINGTON MA US 02173 7 8 Replaceable Parts Table 7 4 Assembly Level Replaceable Parts Reference HP Part C Oty Description Mfr Mfr Part Desig Number D Code Number nation H69 MAJOR ASSEMBLIES Al 70700 60009 5 1 BOARD ASSEMBLY STATUS 28480 70700 60009 A2 70590 60001 3 1 BOARD ASSEMBLY MOTHERBOARD 28480 70590 60001 A3 A4 NOT ASSIGNED A5 70590 60002 4 1 BOARD ASSEMBLY PROCESSOR 28480 70590 60002 SERIAL PREFIX BELOW 27
29. About this Manual We ve added this manual to the Agilent website in an effort to help you support your product This manual is the best copy we could find it may be incomplete or contain dated information If we find a more recent copy in the future we will add it to the Agilent website Support for Your Product Agilent no longer sells or supports this product Our service centers may be able to perform calibration if no repair parts are needed but no other support from Agilent is available You will find any other available product information on the Agilent Test amp Measurement website www tm agilent com HP References in this Manual This manual may contain references to HP or Hewlett Packard Please note that Hewlett Packard 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 In other documentation to reduce potential confusion the only change to product numbers and names has been in the company name prefix where a product number name was HP XXXX the current name number is now Agilent XXXX For example model number HP8648A is now model number Agilent 8648A Installation Verification Operation Programming and Service Manual HP 70590A Options H62 and H72 Test Module Adapters a HEWLETT C PACKARD HP Part No 70590 90023 Printed in USA November 1989 Notice The information contained in this document
30. E EXT INT lt connection field gt CIIL Example CIIL FNC lt noun gt BAND CHOO SET BAND lt value gt SRN BAND lt value gt SRX BAND lt value gt SRN VOLT lt value gt SRX VOLT lt value gt SET NVLT lt value gt SET XVLT lt value gt SET XVLT lt value gt SET VOLT lt value gt SRN POWR lt value gt SRX POWR lt value gt SET NPOW lt value gt SET XPOW lt value gt SET XPOW lt value gt SET POWR lt value gt SRN FRQW lt value gt SRX FRQW lt value gt SET FRES lt value gt SET ATTN lt value gt SET SWPT lt value gt Programming 4 31 Measuring Bandwidth SET RESB lt value gt SET VBAN lt value gt SET XSAM SAMP SAMN SMPL SMPP lt value gt SAMA lt value gt gt SET TRSC 4 EXT INT CLS CHOO lt cr lf gt INX BAND lt cr lf gt ATLAS Response 1 lt value gt lt error message text gt lt cr lf gt FTH BAND lt cr lf gt CIIL Response 1 lt value gt lt error message text gt lt cr lf gt OPN CHOO lt cr 1f gt RST lt noun gt BAND CHOO lt cr lf gt 4 32 Programming Measuring Spectrum Measuring Spectrum ATLAS Example ATLAS MEASURE SPECTRUM lt noun gt RESP lt list gt lt list range gt VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V P
31. Hotline orders are normally delivered the following business day 7 2 Replaceable Parts Table 7 1 Reference Designations Abbreviations and Multipliers REFERENCE DESIGNATIONS AT BT CP CR DC DL DS Assembly Attenuator Isolator Limiter Termination Fan Motor Battery Capacitor Coupler Diode Diode Thyristor Step Recovery Diode Varactor Directional Coupler Delay Line Annunciator Lamp Light Emitting Diode LED Signaling Device Visible Miscellaneous Electrical Part F FL HY J mi MP Fuse Filter Circulator Electrical Connector Stationary Portion Jack Relay Coil Inductor Meter Miscellaneous Mechanical Part Electrical Connector Movable Portion Plug Silicon Controlled Rectifier SCR Transistor Triode Thyristor Resistor RT S T TB TC TP VR p Thermistor Switch Transformer Terminal Board Thermocouple Test Point Integrated Circuit Microcircuit Electron Tube Breakdown Diode Zener Voltage Regulator Cable Wire Jumper Socket Crystal Unit Piezoelectric Quartz Tuned Cavity Tuned Circuit Replaceable Parts 7 3 Table 7 1 Reference Designations Abbreviations and Multipliers continued REFERENCE DESIGNATIONS ADJ ANSI ASSY AWG BCD BD BE CU BNC BRG BRS A Across Flats Acrylic Air Dry Method Ampere Adjust Adjustment American National Standards Institute formerly
32. INX commands will trigger one more sweep unless an FNC SET SRN or SRX command has been received Refer to the description for XSAM for the conditions which clear the accumulated data When in the SAMA mode of data collection multiple sweeps averaged together successive INX commands will average one more sweep of data unless a SET SRN or SRX command has been received which invalidates the collected data Refer to the description for SAMA for details Validation of the lt mchar gt is performed and an error message is issued if an invalid lt mchar gt is received Except as noted elsewhere all lt mchar gt s are treated the same by this command 4 12 Programming IST IST Syntax IST Description IST Instrument Self Test is available only in CIIL it is not available in ATLAS After execution the ASA will be left in its instrument preset state The following tests are executed by this command Note Always wait approximately three minutes after power on to execute this command If this command is executed to early not all of the following test will be run Note This command assumes a 300 MHz 10 dBm signal is present at the ASA s input port TMA Tests ROM Checksums Non destructive RAM Test Internal I O Bus Check System Tests HP MSIB Slave Addressing Order Signal Path Integrity ROM Checksums Non destructive RAM Test Video Processor 100 MHz Reference 300 MHz Reference Fractional N S
33. L VOLTAGE TEST LIMITS Calibration Switch OFF lt 0 7 V Calibration Switch ON gt 24V Verification 3 3 2 Calibration Switch Path H72 Description This test checks the calibration switch path for proper operation Equipment Test Equipment Controller ooo HP 9000 Series 200 300 Modular Measurement System HP 71100A C HP 71200A C HP 71201A C HP 71210A C or HP 71300A C Digital Voltmeter elle l ne HP 3456A 500 termination ll ele e l ek l ll e ek e e e kane a anana na nen HP 909D Adapters Banana Plug to BNC f eee eee ee elle eee eee eras 1251 2277 Cables BNC m to SMB f HP 85680 60093 CONTROLLER MODULAR SPECTRUM ANALYZER TERMINATION DIGITAL VOLTMETER ADAPTER BNC BANANA PLUG BNC SMB CABLE CABLE Figure 3 2 Calibration Switch Path Test Setup 3 4 Verification 2 Calibration Switch Path H72 Procedure 1 Connect equipment as shown in Figure 3 2 Connect the DVM to the HP 70590A s CAL IN connector Set the DVM to measure ohms and record the measured value in Table 3 3 before CNF The value recorded must be within the limi
34. MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE EXCLUSIVE REMEDIES THE REMEDIES PROVIDED HEREIN ARE BUYER S SOLE AND EXCLUSIVE REMEDIES HEWLETT PACKARD SHALL NOT BE LIABLE FOR ANY DIRECT INDIRECT SPECIAL INCIDENTAL OR CONSEQUENTIAL DAMAGES WHETHER BASED ON CONTRACT TORT OR ANY OTHER LEGAL THEORY Assistance Product maintenance agreements and other customer assistance agreements are available for Hewlett Packard products For any assistance contact your nearest Hewlett Packard Sales and Service Office 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 WARNING The WARNING sign denotes a hazard It calls attention to a procedure which if not correctly performed or adhered to could result in injury to the user Do not proceed beyond a WARNING sign until the indicated conditions are fully understood and met DANGER The DANGER sign denotes an imminent hazard to people It warns the reader of a procedure which if not correctly performed or adhered to could result in injury
35. OWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ POWER DIFF lt value gt DBM lt value gt HZ MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP lt value gt SIGNAL THRESHOLD lt value gt DBM FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH TRIG SOURCE 4 EXT INT lt connection field gt CIIL Example CIIL SRN VOLT lt value gt SRX VOLT lt value gt SET SET SET SRN SET SET SET FNC lt noun gt SPEC CHOO SET RESP lt value gt NVLT XVLT VOLT POWR NPOW XPOW POWR lt value gt lt value gt lt value gt lt value gt lt value gt lt value gt lt value gt SET XVLT lt value gt SRX POWR lt value gt SET XPOW lt value gt SRN FRQW lt value gt SRX FRQW lt value gt SET SET SET SET SET SET SET SET meoE HD P 1 2 O rtr PRDF SGTH FRES ATTN SWPT RESB VBAN lt value gt lt value gt lt value gt lt value gt lt value gt lt value gt lt value gt LI LI LI L LI SAMPLE AVG lt value gt XSAM SAMP SAMN SMPL SMPP lt value SAMA lt value gt Programming 4 33 Measuring
36. PAN HD PAR PB PC PCB P CHAN PD PF PKG N N N A 22222222 AAA O O O O A O O P P A P P ano None Channel anohenry anometer onmetallic ormally Open umber ominal egative Positive egative Transistor anosecond on Shorting Nose umeric ylon Polyamide ver All utside Diameter perational mplifier ptical Option ptional icoampere Power mplifier an Head arallel Parity Lead Metal P P P B ushbutton rinted Circuit rinted Circuit oard P Channel P D P ad Power issipation icofarad Power Factor Package PLSTC PNL PNP POLYC POLYE POT POZI PREC PRP PSTN PT PW REF RES RF RGD RND RR RVT SAWR SEG SGL SI SL SLT Plastic Panel Positive Negative Positive Transistor Polycarbonate Polyester Potentiometer Pozidriv Recess Precision Purple Purpose Piston Part Point Pulse Time Pulse Width Q Figure of Merit R Range Red Resistance Resistor Right Ring Reference Resistance Resistor Radio Frequency Rigid Round Rear Rivet Riveted Surface Acoustic Wave Resonator Segment Single Silicon Square Inch Slide Slow Slot Slotted SMA SMB SMC SPCG SPDT SPST SQ SST STL SUBMIN SZ TA TC THD THK TO TPG TR HD TRMR TRN TRSN Subminiature A Type Threaded Connector Subminiature B Type Slip on Connector Submi niatur
37. T ST MODULE ADAPTER 2 PLACES Figure 7 3 H72 Front Panel Replaceable Parts 7 13 Item HP Part Number CD Qty Description 1 0515 1146 0 4 SCREW MACK SMM3 0 6LWPNPDS 2 70700 20007 9 1 REAR FRAME 3 70590 00017 5 1 PANEL REAR DRESS 4 2190 0124 4 2 WASHER LK INTL T NO 10 195 IN ID 5 2950 0078 9 2 NUT HEX DBL CHAM 10 32 THD 067IN THK 6 0515 0886 3 2 SCREW MACH M3 X 0 5 6MM LG PAN HD 7 1460 2095 4 4 SPRING CPRSN 5 49 MM OD 16 8 MM OA LG 8 0535 0042 5 4 NUT HEX PLSTC LKG M3 X 0 5 4MM THK 9 5001 5840 5 1 SPRING GROUNDING 10 0515 1717 1 2 SCREW MACHINE M2 5 X 0 45 11 5001 5835 8 2 BAR CONNECTOR 12 0515 1146 0 2 SCREW MACK SMM3 0 6LWPNPDS 13 70700 40002 6 1 GUIDE PC BOARD BLOCK 4 PLACES 8 1 2 PLACES 2 PLACES 4 PLACES Figure 7 4 Rear Panel 7 14 Replaceable Parts 8 Major Assembly and Cable Locations The figures in this chapter identifies the module s assemblies and cables Refer to Chapter 9 for component location diagrams for each board assembly A5J2 A5JS COMPONENT SIDE ASJS W1 Figure 8 1 H69 Major Assembly and Cable Locations A2 AS A1
38. TATED IN A CLOCKWISE DIRECTION HEAVY LINE WITH ARROWS EEN ER INDICATES PATH AND CONNECTION DIRECTION OF MAIN SIGNAL THERMISTOR INDICATES A SOLDERED HEAVY DASHED LINE WITH CONNECTION ARROWS INDICATES PATH AND DIRECTION OF MAIN FEEDBACK ELECTROLYTIC CAPACITOR SURFACE ACOUSTIC WAVE SAW CAPACITOR DIGITAL BUS JUMPER WIRE VARIABLE CAPACITOR LIGHT EMITTING DIODE SLIDE TOGGLE OR PIN DIODE ROCKER SWITCH FEEDTHROUGH CAPACITOR FERROUS CORE INDUCTOR FERRITE BEAD SLUG TUNED INDUCTOR STEP RECOVERY DIODE INDICATES SHIELDING CONDUCTOR FOR CABLES TEMPERATURE COMPENSATED VOLTAGE REFERENCE DIODE RELAY BOX OFTEN OMITTED GROUNDED COAXIAL SHIELDING SILICON CONTROLLED RECTIFIER SCR INDICATES FACTORY SELECTED COMPONENT ALTERNATE RELAY TRANSISTOR PNP PUSHBUTTON SWITCH NORMALLY CLOSED CRYSTAL PUSHBUTTON SWITCH TRANSISTOR NPN NORMALLY OPEN AIR CORE TRANSFORMER JUNCTION FET N CHANNEL FERROUS CORE JUNCTION FET P CHANNEL TRANSFORMER MOS FET N CHANNEL Aine MOS FET N CHANNEL ENHANCEMENT MODE DEPLETION MODE SPEAKER GENERAL PURPOSE DIODE BREAKDOWN DIODE ZENER SCHOTTKY DIODE VARACTOR DIODE ENHANCEMENT MODE DEPLETION MODE GAS A ADS MOS FET P CHANNEL MOS FET P CHANNEL Figure 9 1 Graphic Symbols 1 of 2 9 2 Component Level Information GRAPHIC SYMBOLS USED
39. The marker is left at the peak of the signal found and the marker frequency is returned The search direction is decreasing frequency finds the first sideband in increasing frequency relative to the carrier the largest signal on screen and returns the modulation Refer to the descriptions for PRDF and SGTH for their effect on what constitutes a signal response finds the first sideband in increasing frequency relative to the carrier the largest signal on screen and returns the frequency difference between the carrier and the sideband returns the noise amplitude density of the data trace in units of volts square root Hz returns the noise amplitude density of the data trace in units of volts square root Hz returns the noise power density of the data trace in units of dBm Hz is the same as AMOD Programming 4 9 FTH PERI PRDF PREF RMSV SBCF SBCM returns the period of a signal inverse of FREQ returns the value of the user defined variable UN TMP which may be loaded by a user defined function specified by CHnn executes a probability density function in amplitude and returns the amplitude having the greatest number of signal responses This is a convenient way of determining where the noise floor is returns the RMS value of 800 data points of the data trace returns frequency for VOR subcarrier 9960 Hz returns modulation of VOR subcarrier 30 Time Domain Setup The following measurem
40. USASI ASA Assembly American Wire Gage B Binary Coded Decimal Board Bundle Beryllium Copper Type of Connector Bearing Boring Brass BSC BTN CCP CD CER CHAM CHAR CMOS Basic Button C Capacitance Capacitor Center Tapped Cermet Cold Compression Carbon Composition Plastic Cadmium Card Cord Ceramic Chamfer Character Characteristic Charcoal Complementary Metal Oxide Semiconductor CNDCT CONT CONV CPRSN CUP PT CW DA Conducting Conductive Conductivity Conductor Contact Continuous Control Controller Converter Co mpression Cup Point Clockwise Continuous Wave D Deep Depletion Depth Diameter Direct Current Darlington 7 4 Replaceable Parts Table 7 1 Reference Designations Abbreviations and Multipliers continued REFERENCE DESIGNATIONS DAP GL DBL DCDR DEG D HOLE DIA DIP DIP SLDR D MODE DO DP DP3T DPDT DWL E R EXT FC FDTHRU FEM FIL HD FL FLAT PT FR FREQ Diallyl Phthalate Glass Double Decoder Degree D Shaped Hole Diameter Dual In Line Package Dip Solder Depletion Mode Package Type Designation Deep Depth Dia metric Pitch Dip Double Pole Three Throw Double Pole Double Throw Dowell E E Ring Extended Extension External Extinguish F Fahrenheit Farad Female Film Resistor Fixed Flange Frequency Carbon Film Composition Edge of Cutoff
41. VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP lt value gt SAMPLE AVG lt value gt TRIG SOURCE EXT INT 5 lt connection field gt CIIL Example CIIL FNC lt noun gt SMPL POWR VOLT CHOO SET RESP lt value gt SRN VOLT lt value gt SRX VOLT lt value gt SET NVLT lt value gt SET XVLT lt value gt SET XVLT lt value gt SET VOLT lt value gt SRN POWR lt value gt SRX POWR lt value gt SET NPOW lt value gt SET XPOW lt value gt SET XPOW lt value gt SET POWR lt value gt SRN FRQW lt value gt SRX FRQW lt value gt SET FRES lt value gt SET ATTN lt value gt SET SWPT lt value gt SET RESB lt value gt SET VBAN lt value gt SET XSAM SAMP SAMN SMPL SMPP lt value gt SAMA lt value gt SET TRSC EXT INT CLS CHOO l
42. XCLUSIVE SAFETY SYMBOL OR GATE OPEN COLLECTOR OUTPUTS ARE INDICATED BY THE PRESENCE OF DANGEROUS VOLTAGES PRESENT THE OPEN COLLECTOR SYMBOL lt gt BE EXTREMELY CAREFUL 3 STATE INVERTER BUFFER Figure 9 2 Graphic Symbols 2 of 2 Component Level Information 9 3 Index A accessories service 5 1 static safe 1 6 ACT LED 1 3 addressing 2 2 adjustment procedures 1 1 AM shift measurement 4 39 bandwidth measurement 4 31 c calibration 4 3 data 4 45 calibration switch 1 1 1 5 3 2 CAL IN 1 3 CAL SIG ENABLE 1 4 3 3 characteristics 1 5 CLS command 4 4 CNF command 4 5 commands compatibility 4 2 native language 4 1 compatibility modules 1 2 systems 1 2 conditioners 4 43 D device clear 4 2 DISCRETE FAULT IND 1 4 discrete fault indicator 1 5 display assignment 2 2 E electrostatic discharge 1 6 ERR LED 1 3 5 2 error codes 5 3 F factory packaging 1 9 FNC command 4 7 frequency measurement 4 29 front panel features 1 3 FTH command 4 8 G GAL command 4 11 H hand tools 6 1 HP IB switch 2 2 HP MSIB address 2 2 HP MSIB COLUMN switch 2 2 installation 2 1 IST command 4 13 K keyboard assignment 2 2 L language at power up 4 2 switching between 4 2 LEDs 1 3 local oscillator firmware checking 2 1 requirements 1 2 LSN LED 1 3 manual updating 1 6 measurement system 4 2 modulation amplitude measurement
43. al oscillator s firmware version must be 861015 or later To display the firmware you must use one of the two methods listed below The method you use depends on the vintage of the local oscillator module and the keys that are available Method 1 1 Press MENU 2 Press Misc 3 Press more 4 Press service 5 Press ROM VERSION The version date appears in the general annotation block of the display Method 2 1 Press MENU 2 Press CONFIG 3 Press ROM VERSION The version date appears in the general annotation block of the display Installation 2 1 Installing the Module After completing the following procedure the TMA module s HP MSIB address will meet the following criteria m TMA s row address will be 0 m TMA s column address will be equal to the local oscillator module s column address 1 Turn the system mainframe s power OFF 2 Remove the local oscillator module from the system mainframe For information on how to remove modules from the mainframe refer to Removing Modules in this chapter 3 Set the local oscillator module s HP IB switch to OFF 4 Set the local oscillator module s HP MSIB row address switches to a value of 1 Note The HP IB switch HP MSIB ROW switches and HP MSIB COLUMN switches are located on the top of the module 5 Because the local oscillator module s row address is now 1 address values of other modules in the system may have to be increased R
44. connector 7 16 75 IN LB 5 Nuts securing rear panel connectors 1 4 inch 6 IN LB 6 ISMA cable connections 5 16 inch 10 IN LB 7 Screws securing S1 small Pozi drive 6 IN LB 8 Spring Grounding Screws small Pozi drive 6 IN LB Assembly Replacement 6 3 7 Replaceable Parts This section contains information for ordering replacement parts The parts list documents all assembly versions produced up to the time that the manual is printed Replaceable Parts List Format The following information is listed for each part 1 The part number check digit CD The Hewlett Packard part number 2 3 The description of the part 4 5 A five digit code indicating a typical manufacturer of the part The manufacturer part number Replaceable Parts 7 1 Ordering Information To order a part listed in the replaceable parts table quote the Hewlett Packard part number include the check digit and indicate the quantity required Address and mail the order to the HP Sales and Service Office nearest you The check digit ensures accurate and timely processing of your order To order a part that is not listed in the replaceable parts table include the model number of the module the function and description of the part and the number of parts required Address and mail the order to the HP Sales and Service Office nearest you Direct Mail Order System In the USA Hewlett Packard can supply parts through a direct ma
45. d 9 divisions below the reference level respectively Output is frequency and amplitude in that order for each signal found largest signal level first In the event that the response list is greater than the number of signals found the remaining elements will be filled with zeroes SIGS returns the sorted spectrum by frequency to a response vector PRDF and SGTH should be included in the setup string the default values are 6 dB and 9 divisions below the reference level respectively Output is frequency and amplitude in that order for each signal found lowest frequency first In the event that the response list is greater than the number of signals found the remaining elements will be filled with zeroes RESP 1 or not specified This value indicates that a single data item is being requested lt mchar gt argument definitions FREQ executes a peak search and returns marker frequency XPOW executes a peak search and returns marker amplitude in dBm XVLT executes a peak search and returns marker amplitude in volts VLPK executes a peak search and returns marker amplitude in volts 4 8 Programming FREF POWR VOLT NPOW AMFQ AMOD BAND CAMP CFRQ FMCP FRQW FSTA FSTE FSTO MAMP MODF NOAD NOAD NOPD PERM FTH returns marker frequency returns marker amplitude in dBm returns marker amplitude in volts and NVLT execute a marker minimum search and return marker amplitude returns the freque
46. de as to exactly which measurement the user is attempting to make ATLAS examples and their CIIL implications are provided to illustrate what measurements will be done and which NOUN MODIFIERS trigger which actions Compatibility with Native Operation After receiving a GAL command the analyzer responds to all commands in the native mode Any pending setup information will be programmed into the ASA before the completion of the GAL command In the native mode the CIIL command will switch from native mode to CIIL mode This is the only way to return to CIIL mode CIIL will be defined as a dummy command in the CIIL mode and will not generate a syntax error Note When the PROGRAM MESSAGE method is used to switch between languages there is no change in the POWER UP language state Note Device Clear Group Execute Trigger Serial Poll and other device dependent ATN TRUE commands will function as defined by the language that is active A Device Clear does NOT cause the language mode to be changed 4 2 Programming Calibration The ASA is calibrated by providing a suitable signal at the selected input and specifying CH16 through CH19 for inputs 0 3 This calibrates the insertion loss differences of the resolution bandwidth filters their frequency offsets step gain offsets etc The calibration will remain in effect until another calibration is performed In addition path loss correction may be performed by sending t
47. done to facilitate the instrument s use as a signal conditioning module 4 16 Programming SET SRN and SRX SET SRN and SRX Syntax SET lt noun modifier gt lt value gt SRN lt noun modifier gt lt value gt SRX lt noun modifier gt lt value gt Description These three commands specify the setup conditions of the ASA for making a measurement SRN and SRX set minimum and maximum values respectively while SET specifies a nominal value SRN expects to set the algebraically lesser value and SRX expects to set the algebraically larger value Incorrect operation will result if the SRN value is greater than the SRX value SRN and SRX are relevant to the lt noun modifier gt POWR VOLT and FREQ or FROW when used with other lt noun modifier gt s they are the equivalent to the SET command The following equivalences are in effect SRX POWR is equivalent to SET XPOW SRN POWR is equivalent to SET NPOW SRX VOLT is equivalent to SET XVLT SRN VOLT is equivalent to SET NVLT SRX FROW is equivalent to SET FSTO SRN FROW is equivalent to SET FSTA SRX FREQ is equivalent to SET FSTO SRN FREQ is equivalent to SET FSTA Amplitude scaling is derived from the combination of NPOW and XPOW for dBm readouts and NVLT and XVLT for voltage readouts All measurements will be made in log mode The lt noun modifier gt s ATTN FSTE RESB SWPT SMPW VBAN can be set automatically or to specific values The automatic selection mode is enabled b
48. driver Remove the module Installation 2 3 3 Verification The three procedures provided in this chapter verify the electrical performance of HP 70590A Option H69 and Option H72 Modules If the module passes this verification its operation is assured within the Modular Measurement System Table 3 1 lists the verification procedures that should be performed for each option Table 3 1 Verification Procedures According to Option MODULE PERFORM THESE PROCEDURES Option H69 1 Calibration Switch Signal H69 3 Discrete Fault Indicator DFT Option H72 2 Calibration Switch Path H72 3 Discrete Fault Indicator DFT System Verification To perform System Operation Verification or HP 11990A System Performance Tests on the HP 70000 Modular Spectrum Analyzer System the HP 70590A Option H69 or Option H72 Test Module Adapter must be bypassed or removed from the system To bypass the TMA connect a remote controller to the system and type the following program line where XX is the TMA s address OUTPUT 7XX GAL If the TMA is removed from the system the row address of the local oscillator must be set to 0 and its HP IB switch must be set to ON The slave module row addresses do not need to change The System Operation Verification or HP 11990A System Performance Tests software can then be run in the normal manner Verification 3 1 1 Calibration Switch Signal H69 Descri
49. e C Type Threaded Connector Spacing Single Pole Double Throw Single Pole Single Throw Square Stainless Steel Steel Subminiature Size T Teeth Temperatu re Thickness Time Timed Tooth Typical Ambient Temperature Tantalum Temperature Coeffi cient Thread Threaded Thick Package Type Designation Tapping Truss Head Trimmer Turn Turns Torsion 7 6 Replaceable Parts Table 7 1 Reference Designations Abbreviations and Multipliers continued REFERENCE DESIGNATIONS U VAR Variable Y VDC Volts Direct Current UCD Microcandela YIG Yttrium Iron UF Microfarad Garnet UH Microhenry W UL Microliter Underwriters W Watt Wattage Z Laboratories Inc White Wide Width UNHDND Unhardened W SW With Switch ZNR Zener WW Wire Wound V X V Variable Violet Volt Voltage X By Used with VAC Vacuum Volts Dimensions Alternating Current Reactance Table 7 2 Multipliers MULTIPLIERS Abbreviation Prefix Multiple Abbreviation Prefix Multiple T tera 101 m milli 1078 G giga 10 p micro 1078 M mega 108 n nano 107 k kilo 103 p pico 10712 da deka 10 f femto 10715 d deci 107 a atto 10718 c centi 107 Replaceable Parts 7 7 Table 7 3 Manufacturers Code List Mfr Code Manufacterer Name Address Zip Code 00779 AMP INC HARRISBURG PA US 17111 01121 ALLEN BRADLEY CO INC EL PASO TX US 79935 01295 TEXAS INSTRUMENTS INC DALL
50. e gt SAMPLE AVG lt value gt TRIG SOURCE EXT INT 5 lt connection field gt CIIL Example CIIL FNC lt noun gt VOLT CAMP CHOO SRN VOLT CAMP lt value gt SRX VOLT CAMP lt value gt SET NVLT lt value gt SET XVLT lt value gt SET XVLT lt value gt SET VOLT CAMP lt value gt SRN POWR lt value gt SRX POWR lt value gt SET NPOW lt value gt SET XPOW lt value gt SET XPOW lt value gt SET POWR lt value gt SRN FRQW lt value gt SRX FRQW lt value gt SET FRES lt value gt SET ATTN lt value gt SET SWPT lt value gt SET RESB lt value gt SET VBAN lt value gt SET XSAM SAMP SAMA lt value gt SET TRSC EXT CLS CHOO lt cr lf gt INX 4 VOLT CAMP 5 mor po me D maa D INT cr lf SAMN SMPL SMPP lt value gt Programming 4 27 Measuring Voltage ATLAS Response lt value gt lt error message text gt lt cr lf gt FTH VOLT CAMP lt cr 1f gt CIIL Response lt value gt lt error message text gt lt cr lf gt OPN CHOO lt cr 1f gt RST noun VOLT CAMP CHOO lt cr 1f gt 4 28 Programming Measuring Frequency Measuring Frequency ATLAS Example ATLAS MEASURE FREQ CAR FREQ lt noun gt FREQ CAR FREQ lt value gt HZ FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ FREQ CAR FREQ MIN lt value gt HZ FREQ CAR FREQ
51. e gt SRN FRQW lt value gt SRX FRQW lt value gt SET FRES lt value gt SET ATTN lt value gt SET SWPT lt value gt SET RESB lt value gt SET VBAN lt value gt SET XSAM SAMP SAMN SMPL SMPP lt value gt SAMA lt value gt SET TRSC EXT INT LS CHOO lt cr lf gt NX POWR lt cr 1f gt Programming 4 25 Measuring Power ATLAS Response 1 lt value gt lt error message text gt J lt cr lf gt FTH POWR lt cr lf gt CIIL Response 1 lt value gt lt error message text gt J lt cr lf gt OPN CHOO lt cr 1f gt RST lt noun gt POWR CHOO lt cr lf gt 4 26 Programming Measuring Voltage Measuring Voltage ATLAS Example ATLAS MEASURE VOLTAGE CAR AMPL lt noun gt VOLTAGE CAR AMPL RANGE lt value gt V TO lt value gt V VOLTAGE CAR AMPL MIN lt value gt V VOLTAGE CAR AMPL MAX lt value gt V VOLTAGE CAR AMPL lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP lt valu
52. efer to the local oscillator module s installation manual to properly set the addresses of these modules 6 Set the TMA module s HP IB switch to ON 7 Set the TMA module s row address switches to 0 8 Set the TMA module s column address switches to the same value as the local oscillator module s column address 9 Install the TMA module the local oscillator module and all other system modules into the mainframe 10 Turn the power on 11 Press the DISPLAY and address map keys 12 Use the front panel knob to move the box to the TMA module Note If the system does not work locks up then an HP MSIB address is likely duplicated 13 Press the Adjust Row softkey 14 Use the front panel knob to move the box to the LO module 15 Press the ASSIGN DISPLAY softkey Some displays may have the ALLOC DISPLAY softkey Note The display s Next INSTR and Select INSTR softkeys will not locate the TMA or local oscillator modules 2 2 Installation Note The TMA does not require rear panel inter module connections Removing Modules To remove a module from the system mainframe perform the following steps 1 2 3 Set the instrument LINE switch to OFF Remove the rear panel inter module cables Swing the mainframe front door down Note that the door will not open unless the LINE switch is OFF For any module requiring an address change loosen its latch using an 8 mm hex ball
53. either the CAL IN or RF IN connector RF IN This connector is for input of the RF signal ERR LED If this light is on one of the following conditions has occurred the spectrum analyzer has an error present an incorrect syntax was encountered or the module s self test failed ACT LED The active ACT indicator is a standard HP IB status indicator When illuminated it does not represent an error condition RMT LED If the module is addressed by a computer the remote RMT indicator lights and the LST TLK or SRQ indicators will light depending on the computer instructions LSN LED Lights when the analyzer is receiving data or instructions SRQ LED Lights when the analyzer has requested computer service General Information 1 3 Rear Panel Features O 7 DISCRETE FAULT IND O j AN CAL SIG O ENABLE 090000000 00 o voo Figure 1 2 Rear Panel Features Figure 1 2 illustrates Option H69 s rear panel features Option H72 modules do not have the CAL SIG ENABLE connector DISCRETE This SMB m type connector is half of the normally closed relay of the FAULT IND 1 discrete fault indicator DISCRETE This SMB m type connector is half of the normally closed relay of the FAULT IND 2 discrete fault indicator CAL SIG ENABLE This SMB m type connector is the calibration switch signal Available on Option H69 modules only 1 4 General Information Input Output Characteristics Characteristics prov
54. ents imply a time domain setup refer to FNC AMMC AMMF AMSH DDMD DMDS HMDF LMDF MMOD returns the modulation of the 15 Hz tacan signal returns the modulation of the 135 Hz tacan signal returns the AM shift of a tacan signal returns the difference in depth of modulation of ILS signals returns frequency of dominant modulating signal ILS returns measured frequency of 150 Hz ILS signal returns measured frequency of 90 Hz ILS signal returns mean modulation of ILS signal 4 10 Programming GAL GAL Syntax GAL Description GAL Go to Alternate Language is available only in CIIL it is not available in ATLAS Points all succeeding commands to the native code parser This condition will remain in effect until the CIIL command is encountered Programming 4 11 INX Syntax INX lt mchar gt Description This command initiates the programming of the ASA to acquire the signal s of interest INX as a minimum always triggers a sweep in the case of multiple INX FTH sequences This command formats an output of the anticipated measurement time in seconds The noun modifiers RESP and FREF do not require an INX to effect a change in the ASA The next FTH will take into account their current value This is done to facilitate data interrogation An INX command will force the analyzer into the single sweep mode of operation When in the XSAM mode of data collection multiple sweeps in max hold successive
55. er CIIL or its native language command set This chapter contains the following information Detailed information on the native language commands can be found in the HP 70000 Modular Spectrum Analyzer Programming Manual The CIIL operation codes are described in this manual They are followed by several ATLAS CIIL examples Finally there is a list of all of the ATLAS nouns and noun modifiers that are implemented with their CIIL equivalent The ASA responds to the following CIL operation codes CLS CNF FNC FTH GAL INX IST OPN RST SET SRN SRX and STA Unless otherwise stated all lt mchar gt and lt noun mod gt will have one lt value gt associated with them Programming 4 1 Measurement System The measurement system will hereafter be referred to as the ASA Automatic Spectrum Analyzer The ASA contains two separate parsers one for CHL and one for the native mode The language selected at power up will be CIIL The ASA operates as both a STIM device for signal conditioning purposes and a SENSOR device for measurements At the end of each measurement the ASA is left with the sweep enabled to facilitate ASA integration until RST occurs Noun Modifiers The ASA reads into variables all of the NOUN MODIFIERS and marks a flag for each modifier that is encountered an RST function performs an instrument preset and clears all modifier flags From the collection of flags and the ATLAS NOUN an inference will be ma
56. gt SET FRES lt value gt Programming 4 37 Measuring Modulation Amplitude SET ATTN lt value gt SET SWPT lt value gt SET RESB lt value gt SET VBAN lt value gt SET 4 XSAM SAMP SAMN SMPL SMPP lt value gt SAMA lt value gt SET TRSC EXT INT CLS CHOO lt cr lf gt INX MAMP lt cr lf gt ATLAS Response 1 lt value gt lt error message text gt lt cr lf gt FTH MAMP lt cr 1f gt CIIL Response lt value gt lt error message text gt lt cr lf gt OPN CHOO lt cr 1f gt RST lt noun gt MAMP CHOO lt cr lf gt 4 38 Programming Measuring AM Shift Measuring AM Shift ATLAS Example ATLAS MEASURE AM SHIFT TACAN AM SHIFT lt value gt DEG AM SHIFT MIN lt value gt DEG AM SHIFT MAX lt value gt DEG AM SHIFT RANGE lt value gt DEG TO lt value gt DEG VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ
57. he setup string FNC CAL POWR CHnn SET FREQ lt value gt SET PRDF lt value gt SET FREQ lt value gt SET PRDF lt value gt lt cr 1f gt Up to 20 points may be supplied The PRDF values are correction factors to be added to the measurements This correction will remain effective until the next RST command For further information refer to the AMPCOR command in the ASA command reference manual Note The frequency amplitude pairs MUST be sent in ascending frequency order lowest frequency first Measurement Modes The ASA is intended to be used with both multiple action ATLAS verbs such as MEASURE and with single action verbs such as INITIATE and FETCH The ASA is specifically set up to gather data and be able to return multiple measurements through a series of FETCH commands Therefore INITIATE will always as a minimum trigger another sweep and FETCH will perform data reduction on the gathered data allowing the return of several parameters from the same INITIATE This interaction between FETCH and INITIATE allows the MONITOR statement to function correctly It is expected that the measurement throughput will be better using single action verbs because it is possible to avoid multiple setups to accomplish related measurements Programming 4 3 CLS Syntax CLS CH00 Description This command closes the sensor connection When REFO has been sent as part of the setup this command will trigger the programming
58. ice Road Trans Canada Highway Kirkland Quebec H9J 2X8 514 697 4232 IN FRANCE Hewlett Packard France F 91947 Les Ulis Cedex Orsay 6 907 78 25 IN GERMAN FEDERAL REPUBLIC Hewlett Packard GmbH Vertriebszentrale Frankfurt Berner Strasse 117 Postfach 560 140 D 6000 Frankfurt 56 0611 50 04 1 IN GREAT BRITAIN Hewlett Packard Ltd King Street Lane Winnersh Wokingham Berkshire RG11 5AR 0734 784774 IN OTHER EUROPEAN COUNTRIES Hewlett Packard Schweiz AG Allmend 2 CH 8967 Widen Zurich 0041 57 31 21 11 IN JAPAN Yokogawa Hewlett Packard Ltd 29 21 Takaido Higashi 3 Chome Suginami ku Tokyo 168 03 331 6111 IN PEOPLE S REPUBLIC OF CHINA China Hewlett Packard Ltd P O Box 9610 Beijing 4th Floor 2nd Watch Factory Main Bldg Shuang Yu Shu Bei San Huan Rd Beijing PRC 256 6888 IN SINGAPORE Hewlett Packard Singapore Pte Ltd 1150 Depot Road Singapore 0410 273 7388 Telex HPSGSO RS34209 Fax 65 2788990 IN TAIWAN Hewlett Packard Taiwan 8th Floor Hewlett Packard Building 337 Fu Hsing North Road Taipei 02 712 0404 IN ALL OTHER LOCATIONS Hewlett Packard Inter Americas 3495 Deer Creek Rd Palo Alto California 94304 1 12 General Information 2 Installation The following paragraphs provide instructions on installing the HP 70590A Option H69 and Option H72 TMA modules Checking the Local Oscillator Firmware If an HP 70900A Local Oscillator is used the loc
59. ide useful information by giving functional but non warranted performance parameters The calibration switch will operate upon issuance of the following CIIL control intermediate interface language commands CNF IST CH 16 through 19 Discrete Fault Indicator DFI The DFI is implemented as a normally closed relay whose coil is connected across the TMA s power supply The contacts open when power is applied The contacts close when power is removed from the system the power supply shuts itself down or the HP MSIB loop is broken Maximum current carrying capability eee eect eee ee 100 mA Modules Covered by Manual The contents of this manual apply to HP 70590A Option H69 and Option H72 modules with the serial number prefixes listed under Serial Numbers on the manual title page Serial Numbers Attached to the front frame of the module is a mylar serial number label The serial number is divided into two parts The first four digits and letter are the serial number prefix the last five digits are the suffix Refer to Figure 1 3 The prefix is the same for all identical modules a prefix break or change only occurs when a significant modification is made to the product The suffix however is assigned sequentially and is different for each module CY Er 27 50A00827 MADE IN USA N AN na YO PREF IX SUFF IX A a SERIAL NUMBER Figure 1 3 Typical Serial Number Label General Informati
60. il order system Advantages of using the system are as follows m Direct ordering and shipment from the HP Parts Center in Mountain View California m No maximum or minimum quantity requirement on any mail order There is a minimum order quantity imposed on orders made through the HP Sales and Service Offices when the orders require billing and invoicing m Prepaid transportation There is a handling charge added to each order m No invoices A check or money order must accompany direct mail orders Mail order forms and specific ordering information are available from HP Sales and Service Offices Direct Phone Order System A phone order system is available within the U S A for regular and hotline replacement parts service Hewlett Packard has provided a toll free telephone number and accepts Mastercard or Visa for orders Regular Orders The toll free telephone number is 800 227 8164 It is available from 6 a m to 5 p m Pacific time Monday through Friday Regular orders require a four day delivery time Hotline Orders The hotline service for ordering emergency parts is available 24 hours a day 365 days a year There is an additional charge on hotline orders to cover the cost of freight and special handling The toll free hotline telephone number is 800 227 8164 available from 6 a m to 5 p m Pacific time Monday through Friday The telephone number for after hours weekends and holidays is 415 968 2347
61. 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 fitness 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 Use duplication or disclosure by the U S Government is subject to restrictions as set forth in subparagraph c 1 ii of the Rights in Technical Data and Computer Software clause at DFARS 252 227 7013 for DOD agencies and subparagraphs c 1 and c 2 of the Commercial Computer Software Restricted Rights clause at FAR 52 227 19 for other agencies Copyright Hewlett Packard Company 1989 All Rights Reserved Reproduction adaptation or translation without prior written permission is prohibited except as allowed under the copyright laws 1400 Fountaingrove Parkway Santa Rosa CA 95403 1799 USA Certification Hewlett Packard Company certifies that this product met its published specifications at the time of shipment from the factory Hewlett Packard further certifies 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 Sta
62. lacement parts contact the nearest Hewlett Packard Sales and Service Office listed in Table 1 2 In any correspondence be sure to include the pertinent information about model numbers serial numbers and or assembly part numbers 1 10 General Information o ITEM QTY HP PART NO DESCRIPTION 1 1 9211 5118 CARTON OUTER 2 1 9211 5119 CARTON INNER 3 1 5180 2369 CARTON SLIDER 4 2 4208 0495 FOAM INSERT 5 2 5180 2570 FOAM PADS Figure 1 5 Factory Packaging Material General Information 1 11 Table 1 2 Hewlett Packard Sales and Service Offices IN THE UNITED STATES California Hewlett Packard Co 1421 South Manhattan Ave P O Box 4230 Fullerton CA 92631 714 999 6700 Hewlett Packard Co 301 E Evelyn Mountain View CA 94039 415 694 2000 Colorado Hewlett Packard Co 24 Inverness Place East Englewood CO 80112 303 649 5000 Georgia Hewlett Packard Co 2000 South Park Place P O Box 105005 Atlanta GA 30339 404 955 1500 Illinois Hewlett Packard Co 5201 Tollview Drive Rolling Meadows IL 60008 312 255 9800 New Jersey Hewlett Packard Co 120 W Century Road Paramus NJ 07653 201 265 5000 Texas Hewlett Packard Co 930 E Campbell Rd Richardson TX 75081 214 231 6101 IN AUSTRALIA Hewlett Packard Australia Ltd 31 41 Joseph Street Blackburn Victoria 3130 895 2895 IN CANADA Hewlett Packard Canada Ltd 17500 South Serv
63. le CIIL SET SET SET SRN SET SET SET SRN SET mins ns FNC lt noun gt MODF CHOO SRN VOLT lt value gt SRX VOLT lt value gt NVLT XVLT VOLT POWR NPOW XPOW POWR FRQW REFO lt value gt lt value gt lt value gt lt value gt lt value gt lt value gt lt value gt lt value gt SET XVLT lt value gt SRX POWR lt value gt SET XPOW lt value gt SRX FRQW lt value gt SET ATTN lt value gt SET SWPT lt value gt SET RESB lt value gt SET VBAN lt value gt SET XSAM SAMP SAMN SMPL SMPP lt value gt SAMA lt value gt SET TRSC EXT INT CLS CHOO lt cr lf gt OPN CHOO lt cr 1f gt Programming 4 43 Setting Up a Conditioner RST noun FREQ POWR VOLT CHOO lt cr lf gt 4 44 Programming Setting Up Calibration Data Setting Up Calibration Data This example sets up amplitude frequency calibration data for accuracy enhancement of the measurement device path loss correction ATLAS Example ATLAS SETUP CALIBRATION POWER FREQUENCY lt value gt POWER DIFF lt value gt up to twenty pairs of calibration data may be sent FREQUENCY lt value gt POWER DIFF lt value gt CIIL Example CIIL FNC CAL POWR CHOO SET FREQ lt value gt SET PRDF lt value gt SET FREQ lt value gt SET PRDF lt value gt lt cr 1f gt Note The frequency amplitude pairs MUST be sent in ascending
64. method results in the transfer of that portion of the trace specified by the RESP parameter If SET RESP 10 is used in a setup then the first 10 points of the trace will be returned The valid noun modifiers for multiple point RESP gt 1 raw trace transfers are POWR returns items in dBm units VOLT returns items in volt units SMPL returns items in volt units The following is an example CIIL setup string for raw trace transfers FNC ACS POWR CHO response SET FREQ 1E9 SET FRQW 2E9 SET RESP 800 CLS CHO lt cr gt lt 1f gt INX POWR lt cr gt lt 1f gt FTH POWR lt cr gt lt lf gt response 800 data items Ordered Signal Pairs Transfers A spectrum may be processed to yield only signal responses above a specified threshold and meeting a power difference criteria The noun modifier SIGS returns signal data as freguency amplitude pairs sorted by freguency low to high The noun modifier SPEC returns signal data as freguency amplitude pairs sorted by amplitude highest response first The following is an example CIIL setup string for sorted signal transfers FNC ACS SPEC CHO SET PRDF 6 a signal must be 6 dB higher than adjacent spectrum SET SGTH 70 0 a signal must have a minimum response of 70 dBm Programming 4 23 Trace Transfers Using CIIL SET FREQ 1E9 response SET FRQW 2E9 SET RESP 20 CLS CHO lt cr gt lt 1f gt INX SPEC lt cr gt lt 1f gt FTH SPEC lt cr gt lt lf gt response 20 data item
65. ncy difference of the signal found by doing a peak search followed by a next peak function normally this will find the largest sideband Refer to the descriptions for PRDF and SGTH for their effect on what constitutes a signal response returns modulation of the signal found by doing a peak search followed by a next peak function normally this will find the amplitude of the largest sideband Refer to the descriptions for PRDF and SGTH for their effect on what constitutes a signal response returns the 3 dB bandwidth of the largest signal on screen is the same as XVLT same as FREQ returns the 99 power bandwidth of the signal s on screen returns the frequency window at the power level specified by POWR in the setup string executes a signal search beginning with the start frequency and terminating with the first signal found meeting the search criteria SGTH and PRDF The marker is left at the peak of the signal found and the marker frequency is returned The search direction is increasing frequency executes a signal search beginning at the marker frequency and terminating with the first signal found meeting the search criteria SGTH and PRDF The marker is left at the peak of the signal found and the marker frequency is returned The search direction is increasing frequency executes a signal search beginning with the stop frequency and terminating with the first signal found meeting the search criteria SGTH and PRDF
66. ndards Organization members Warranty This Hewlett Packard instrument product is warranted against defects in material and workmanship for a period of one year from date of shipment During the warranty period Hewlett Packard Company will at its option either repair or replace products which prove to be defective For warranty service or repair this product must be returned to a service facility designated by Hewlett Packard Buyer shall prepay shipping charges to Hewlett Packard and Hewlett Packard shall pay shipping charges to return the product to Buyer However Buyer shall pay all shipping charges duties and taxes for products returned to Hewlett Packard from another country Hewlett Packard warrants that its software and firmware designated by Hewlett Packard for use with an instrument will execute its programming instructions when properly installed on that instrument Hewlett Packard does not warrant that the operation of the instrument or software or firmware will be uninterrupted or error free LIMITATION OF WARRANTY The foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by Buyer Buyer supplied software or interfacing unauthorized modification or misuse operation outside of the environmental specifications for the product or improper site preparation or maintenance NO OTHER WARRANTY IS EXPRESSED OR IMPLIED HEWLETT PACKARD SPECIFICALLY DISCLAIMS THE IMPLIED WARRANTIES OF
67. ng contains information on programming the module using CUL operation codes Chapter 5 Troubleshooting contains troubleshooting information Chapter 6 Assembly Replacement gives instructions for replacing all major assemblies Chapter 7 Replaceable Parts contains information necessary to order assembly level parts for the module Refer to Chapter 9 for ordering component level parts for board assemblies Chapter 8 Major Assembly and Cable Locations contains illustrations identifying all major assemblies and cables Chapter 9 Component Level Information contains component locations and schematic diagrams for all major assemblies General Information 1 1 Compatibility The HP 70590A Option H69 and Option H72 TMAs are compatible with the following systems HP 71201A HP 71100A C HP 71200A C HP 71210A C HP 71400A C The HP 70590A Option H69 and Option H72 TMAs are compatible with the following HP 70000 modules HP 70300A Tracking Generator Range 100 Hz to 2 9 GHz HP 70301A Tracking Generator Range 2 7 18 GHz HP 70310A Frequency Reference Module FR HP 70600A Preselector Section Range 0 22 GHz HP 70601A Preselector Section Range 0 26 5 GHz HP 70810A Lightwave Section Range 1200 1600 nm wavelength HP 70900A Local Oscillator firmware version 861015 or later HP 70900B Local Oscillator HP 70902A IF Section RES BW 10 Hz to 300 KHz HP 70903A IF Section RES BW 100 KHz to 3 MHz HP 70904A RF Secti
68. on Range 100 Hz to 2 9 GHz HP 70905A B RF Section Range 50 KHz to 22 GHz HP 70906A RF Section Range 50 KHz to 26 5 GHz HP 70906B RF Section Range 50 KHz to 22 GHz HP 70907A External Mixer Interface EMIM HP 70907B External Mixer Interface EMIM HP 70908A Preselected Microwave Front End YTFMD Note The firmware revision appears on the instrument display at power on Safety Considerations Refer to the summary of safety considerations at the front of this manual Additional safety information is found in the chapters describing specific use of the modules Before servicing this module familiarize yourself with the safety markings on the module and the safety instructions in this manual This module has been manufactured and tested according to international safety standards To ensure safe operation of the module and personal safety of the user and service personnel the cautions and warnings in this manual must be heeded 1 2 General Information Front Panel Features HP 70590A OPT H72 TEST MODULE ADAPTER STATUS T ERR P 1B Figure 1 1 Front Panel Features Figure 1 1 illustrates Option H72 s front panel features Option H69 modules do not have the RF connectors The front panel LEDs indicate the status of the module CAL IN This connector is for input of the calibration signal RF OUT This connector provides RF output This output is switched from
69. on 1 5 Manual Updating Supplement A module manufactured after this manual was printed may have a serial number prefix other than that listed under Serial Numbers on the manual title page A higher serial number prefix than stated on the title page indicates changes have been made to the module since the manual was printed Any changes that affect information in this manual are documented in the Manual Updating Supplement for this manual The Manual Updating Supplement may also contain information for correcting errors in the manual To keep the manual as current and accurate as possible periodically request the latest Manual Updating Supplement for this manual from your nearest Hewlett Packard Sales and Service Office Electrostatic Discharge Information Electrostatic discharge ESD can damage or destroy electronic components All work on electronic assemblies should be performed at a static safe work station Figure 1 4 shows an example of a static safe work station using two types of ESD protection 1 conductive table mat and wrist strap combination 2 conductive table mat and heel strap combination The two types must be used together to ensure adequate ESD protection Refer to Table 1 1 for a list of static safe accessories and their part numbers Reducing ESD Damage Handling of Electronic Components m Perform work on these items at a static safe work station m Store or transport these items in static shielding containe
70. ooting information can be found in the HP 71000A C Modular Spectrum Analyzer Installation and Verification Manual Service Accessories Module Service Extender HP Part Number 70001 60013 Board Extender 2 0 0 ccc ccc cc ccc cee eee eee ene HP Part Number 70900 60058 Connector Pin Straightener HP Part Number 5021 7445 Front Panel Operation Check the HP MSIB Address Matrix to ensure that the system is configured properly Be sure to assign the display and keyboard to the local oscillator module Refer to the installation procedure in Chapter 2 Troubleshooting 5 1 Self Test At power on the TMA module and the spectrum analyzer perform built in self test routines The self test routine for the HP 70000 Modular Spectrum Analyzer is referred to as Analyzer Test in the spectrum analyzer manuals Refer to Analyzer Test in Chapter 5 of the HP 70900A Local Oscillator Installation and Verification Manual for more information on modular spectrum analyzer self test routines More complete tests are performed if either the CNF Confidence Test or IST Instrument Self Test remote commands are executed Refer to the CNF and IST commands in Chapter 4 for a complete list of the tests run by these commands Note Prior to executing either the CNF or IST command it is assumed that a 300 MHz 10 dBm signal is present at the input of the spectrum analyzer After
71. or loss of life Do not proceed beyond a DANGER sign until the indicated conditions are fully understood and met General Safety Considerations WARNING The instructions in this document are for use by qualified personnel only To avoid electrical shock do not perform any servicing unless you are qualified 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 five seconds after disconnecting the plug from its power supply This is a Safety Class 1 Product provided with a protective earthing ground incorporated in the power cord The mains plug shall only be inserted in a socket outlet provided with a protective earth contact Any interruption of the protective conductor inside or outside of the instrument is likely to make the instrument dangerous Intentional interruption is prohibited For continued protection against fire hazard replace fuse only with same type and ratings type nA nV The use of other fuses or materials is prohibited WARNING Before this instrument is switched on make sure it has been properly grounded through the protective conductor of the ac power cable to a socket outlet provided with protective earth contact Any interruption of the protective grounding conductor inside or outside the instrument
72. ption This test checks the calibration switch for proper operation Equipment Test Equipment Controller ooo HP 9000 Series 200 300 Modular Measurement System HP 71100A C HP 71200A C HP 71201A C HP 71210A C or HP 71300A C Digital Voltmeter elle l ne HP 3456A Adapters BNC f BNC f barrel 2 ooo mon nee 1250 0080 Banana Plug to BNC f 2 nokkaan nana 1251 2277 Cables Ken HP 85680 60093 BNC m to SMB f CONTROLLER MODULAR SPECTRUM ANALYZER CAL SIG ENABLE DIGITAL VOLTMETER ADAPTER BNC SMB BNC BANANA PLUG CABLE CABLE Figure 3 1 Calibration Switch Signal Test Setup 3 2 Verification 1 Calibration Switch Signal H69 Procedure 1 Connect equipment as shown in Figure 3 1 Connect the DVM to the HP 70590A s rear panel CAL SIG ENABLE connector 2 Note the voltage on the voltmeter and record the value in Table 3 2 This is the voltage when the switch is OFF 3 Send the CNF programming command to the HP 70590A module OUTPUT 7XX CNF 4 Note the voltage on the voltmeter and record the value in Table 3 2 This is the voltage when the switch is ON Table 3 2 Calibration Switch Signal Voltages SWITCH SETTING ACTUA
73. quivalent should be used If the original or equivalent materials cannot be obtained instruments can be packaged for shipment using the following instructions a Wrap the instrument in anti static plastic to reduce the possibility of damage caused by ESD General Information 1 9 b For instruments that weigh less than 54 kg 120 Ib use a double walled corrugated cardboard carton of 159 kg 350 1b test strength c The carton must be large enough to allow three to four inches on all sides of the instrument for packing material and strong enough to accommodate the weight of the instrument d Surround the equipment with three to four inches of packing material to protect the instrument and prevent it from moving in the carton e If packing foam is not available the best alternative is S D 240 Air Cap from Sealed Air Corporation Commerce California 90001 Air Cap looks like a plastic sheet filled with air bubbles f Use the pink anti static Air Cap to reduce static electricity Wrapping the instrument several times in this material will protect the instrument and prevent it from moving in the carton 3 Seal the carton with strong nylon adhesive tape 4 Mark the carton FRAGILE HANDLE WITH CARE 5 Retain copies of all shipping papers Sales and Service Offices Hewlett Packard Sales and Service Offices provide complete support for Hewlett Packard products To obtain servicing information or to order rep
74. rs m Use proper handling techniques Caution PC board traces are easily damaged Do not touch traces with the bare hands Always handle board assemblies by the edges 1 6 General Information Building Ground 1 MegOhm Resistor s d N Fim Table Mat Wrist Strap Building Ground Wrist Strap Cord A 1 MegOhm W c Resistor WS Strap Floor Mat Figure 1 4 Example of a Static Safe Work Station Test Equipment m Before connecting any coaxial cable to an instrument connector for the first time each day momentarily short the center and outer conductors of the cable together m Personnel should be grounded with a resistor isolated wrist strap before touching the center pin of any connector and before removing any assembly from the instrument m Be sure that all instruments are properly earth grounded to prevent build up of static charge General Information 1 7 Table 1 1 Static Safe Accessories Accessory Description HP Part Number Static control mat and ground Set includes 9300 0797 wire 3M static control mat 0 6 m x 1 2 m 2 ft x 4 ft ground wire 4 6 m 15 ft The wrist strap and wrist strap cord are not included They must be ordered separately Wrist strap cord 1 5 m 5 ft 9300 0980 Wrist strap Black stainless steel with four adjustable 9300 1383 links and 7 mm post type connector The wri
75. s 10 signals Note PRDF and SGTH are critical parameters for this setup If fewer than RESP 2 signals meeting the PRDF and SGTH criteria are found then the response will be padded with 0 0 pairs 4 24 Programming Measuring Power Measuring Power ATLAS Example A TLAS MEASURE POWER lt noun gt VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ FREQ RESOLUTION lt value gt HZ ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ 4 MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP lt value gt SAMPLE AVG lt value gt TRIG SOURCE 4 EXT INT connection field gt CIIL Example C mo G muas G uaua ns C I IIL FNC lt noun gt POWR CHOO SRN VOLT lt value gt SRX VOLT lt value gt SET NVLT lt value gt SET XVLT lt value gt SET XVLT lt value gt SET VOLT lt value gt SRN POWR lt value gt SRX POWR lt value gt SET NPOW lt value gt SET XPOW lt value gt SET XPOW lt value gt SET POWR lt valu
76. s decimal numbers N If a display is present and reports an error its error code is appended to the end of the message as a decimal number M For further information of ASA error codes refer to the HP 70900A Local Oscillator Installation and Verification Manual In all cases a zero means test passed The bits for word 1 are as follows bit 0 ROM msb checksum error bit 1 ROM lsb checksum error bit 2 RAM msb checksum error bit 3 RAM lsb checksum error bit 4 MSIB 1 0 fail bit 5 Timer fail bit 6 Configuration error no LO module found bit 15 Processor fail Programming 4 21 Programming Examples The Atlas CIIL examples included in this section are illustrative only they are not inclusive Syntax 1 select one of list encloses optional items separates alternative selections 4 22 Programming Trace Transfers Using CIIL Trace Transfers Using CIIL There are two methods of acquiring trace data multiple responses using CHL commands 1 Raw trace transfers 2 Ordered signal pairs transfers Raw Trace Transfers The initiate INX portion of the setup results in a signal spectrum trace of amplitude versus frequency The trace is transferred starting with the lowest frequency The number of points transferred is defined by SET RESP lt number gt In HP 70000 systems the practical limit on the trace length is 800 points In HP 8566B systems this limit is 1001 points Note The raw
77. st strap cord is not included ESD heel strap Reusable 6 to 12 months 9300 1169 Hard surface static control mat Large black 1 2 m x 1 5 m 4 ft x 5 ft 92175A Small black 0 9 m x 1 2 m 3 ft x 4 ft 92175C Soft surface static control mat Brown 1 2 m x 24m 4ft x 8 ft 92175B Tabletop static control mat 58 cm x 76 cm 23 in x 30 in 92175T Antistatic carpet Small 1 2 m x 1 8 m 4 ft x 6 ft natural color 92176A russet color 92176C Large 1 2 m x 2 4 m 4 ft x 8 ft natural color 92176B russet color 92176D These accessories can be ordered either through a Hewlett Packard Sales Office or through HP DIRECT Phone Order Service In the USA the HP DIRECT phone number is 800 538 8787 Contact your nearest Hewlett Packard Sales Office for more information about HP DIRECT availability in other countries 1 8 General Information Returning Modules for Service If a module is being returned to Hewlett Packard for servicing fill in and attach a blue repair tag Repair tags are provided at the end of this chapter Please be as specific as possible about the nature of the problem Include copies of error messages data related to module performance type of system etc along with the module being returned Packaging The original shipping containers should be used If the original materials were not retained identical packaging materials are available through any Hewlett Packard office Figure 1 5 illustrates the factory
78. t cr lf gt mrarairirar1r7 Programming 4 41 Measurements Returning Multiple Values INX SMPL POWR VOLT lt cr lf gt ATLAS Response 1 lt value gt lt error message text gt lt cr lf gt FTH SMPL POWR VOLT lt cr 1f gt CIIL Response lt error message text gt lt amp 1 value gt lt amp 2 value gt lt amp N value gt lt cr lf gt Note N RESP OPN CHOO lt cr lf gt RST noun 4 SMPL POWR VOLT CHOO lt cr lf gt 4 42 Programming Setting Up a Conditioner Setting Up a Conditioner Sets up signal conditioner receiver to feed another measurement device ATLAS Example ATLAS SETUP lt noun gt FREQ POWER VOLTAGE VOLTAGE RANGE lt value gt V TO lt value gt V VOLTAGE MIN lt value gt V VOLTAGE MAX lt value gt V VOLTAGE MAX lt value gt V VOLTAGE lt value gt V POWER RANGE lt value gt DBM TO lt value gt DBM POWER MIN lt value gt DBM POWER MAX lt value gt DBM POWER MAX lt value gt DBM POWER lt value gt DBM FREQ WINDOW RANGE lt value gt HZ TO lt value gt HZ REF OUT ATTEN lt value gt DB SWEEP TIME lt value gt SEC RESOLUTION BANDWIDTH lt value gt HZ VIDEO BANDWIDTH lt value gt HZ 1 MAX SAMPLE POS SAMPLE NEG SAMPLE SAMPLE SAMPLE PP lt value gt SAMPLE AVG lt value gt L TRIG SOURCE EXT INT gt lt connection field gt CIIL Examp
79. tage measurements for DS9 D510 DS11 and D512 5 2 Troubleshooting Table 5 1 A5 Processor Test Point Measurements LED Test Point Voltage DS9 TP18 12 V DS10 TP19 12 V DS11 TP17 5 2 V DS12 TP16 5 V Error Codes Errors must be gueried remotely by using the STA Status command which reguests the current operation status Following is a list of all the possible error codes and corresponding messages FOSASA FOTASA MOD MOD FOTASA MOD Measurement Timeout CHL HPIB Syntax Error FOTASA MOD HARDWARE Error INVALID RESPONSE LENGTH FOZASA MOD INVALID MEASUREMENT CHARACTERISTIC FO7ASA MOD UNRECOGNIZED MEASUREMENT CHARACTERISTIC FOTASA MOD CNF IST Error HHHH N N M For more information on the error messages refer to the STA command description in Chapter 4 Troubleshooting 5 3 6 Assembly Replacement Due to the simplicity of module design no replacement procedures are provided Instead this chapter supplies a wire routing diagram for Option H72 modules Option H69 modules do not require wire routing information Table 6 2 lists the hardware torque values for Option H72 modules Table 6 2 can also be used to determine torque values for Option H69 In addition to the required hand tools listed in Table 6 1 you ll need torque wrenches covering the values in Table 6 2 Caution This module contains static sensitive components
80. tages 3 3 3 3 Calibration Switch s CAL IN Path 3 5 3 4 Calibration Switch s RF IN Path 3 5 3 5 Discrete Fault Indicator Readings 3 7 4 1 Corresponding Atlas and CIIL Nouns 4 46 4 2 Corresponding Atlas and CIIL Noun Modifiers 4 47 5 1 A5 Processor Test Point Measurements 5 3 6 1 Required Hand Tools 6 1 6 2 Torque Values 6 3 7 1 Reference Designations Abbreviations and Multipliers 7 3 7 2 Multipliers 7 7 7 3 Manufacturers Code List 7 8 7 4 Assembly Level Replaceable Parts 7 9 9 1 Assemblies Documented in This Chapter 9 1 Contents 3 General Information The HP 70590A Options H69 and H72 TMAs Test Module Adapters are MATE modules for HP 70000 Series spectrum analyzers The modules translate CHUL control intermediate interface language into the HP 70000 Series native code Option H69 modules provide a calibration switch signal at the rear panel Option H72 modules switch the RF and Calibrator signals to the analyzer s RF input Note There are no adjustment procedures for either the Option H69 or Option H72 Test Module Adapters The manual is divided into nine chapters as follows Chapter 1 General Information covers manual organization module versions electrostatic discharge and packaging information Chapter 2 Installation contains instructions on installing the module Chapter 3 Verification provides tests necessary to verify electrical operation of the module Chapter 4 Programmi
81. the tests are completed the spectrum analyzer is left in its instrument preset state Power On At power on one or more ERR error status lights may be flashing at a 1 Hz rate This is an indication that a module cannot communicate over the HP MSIB and is probably faulty or the HP MSIB cables are faulty or not connected correctly The error may be caused by any module and must be identified before continuing If more than one module error indicator flashes at a 1 Hz rate either the mainframe HP MSIB is faulty or a faulty module is disrupting the entire HP MSIB communication Refer to the HP 71000A C Modular Spectrum Analyzer Installation and Verification Manual Note It is possible that a module may disrupt all HP MSIB communication without its own error indicator flashing Note The completion of the TMA module s power on sequence is indicated by the following message being displayed MATE MSA c 871217 CIIL ADRS xx If the TMA module cannot complete its power on sequence check the power supplies Remove the module from the HP 70001A Mainframe install it on the module service extender and remove the module s top cover Verify that the four green LEDs on the A5 Processor board assembly are lit The module can be powered on with the A5 Processor board assembly on extenders Refer to Replacement Procedures in Chapter 6 for detailed information on removal of the A5 Processor board assembly Table 5 1 lists the vol
82. ts listed in the table Send the CNF programming command to the HP 70590A module OUTPUT 7XX CNF Measure the resistance with the DVM and record the value in Table 3 3 after CNF The value recorded must be within the limits listed in the table Table 3 3 Calibration Switch s CAL IN Path RESISTANCE TEST LIMITS Before CNF open After CNF 5002 Wait for CNF to complete and move the DVM cable from the CAL IN connector to the RF IN connector Record the resistance measured on the DVM in Table 3 4 before CNF The value recorded must be within the limits listed in the table Send the CNF programming command to the HP 70590A module OUTPUT 7XX CNF Measure the resistance with the DVM and record the value in Table 3 4 after CNF The value recorded must be within the limits listed in the table Table 3 4 Calibration Switch s RF IN Path RESISTANCE TEST LIMITS Before CNF 5002 After CNF open Verification 3 5 3 Discrete Fault Indicator DFI Description The DFI is normally implemented as a closed relay whose coil is connected across the power supply of the HP 70590A Option H69 Test Module Adapter The relay opens when power is applied and closes when power is removed from the system The relay also closes when either the power supply shuts itself down or the HP MSIB loop is broken Equipment Test Equipment Modular Measurement System
83. wa a ae a ba e a e a aa en aa en 1 kHz VOR XSAM Loe ccc cee N 15 RESB lle cc eee a wa a ae a ae ee eee e w a a a e a secs 1 kHz FRQW coc e see ere ana ka ke ke an 30 kHz An lt mchar gt of NOPD or NOAD will place the ASA in sample detection mode The noun CAL is used to transfer path loss correction data Refer to the FREQ and PRDF descriptions Programming 4 7 FTH Syntax FTH lt mchar gt Description After the data has been gathered this command is used to fetch various characteristics of the data syntax error is generated if an lt mchar gt is requested that is not specified in this section If the channel number is greater than 19 when the FTH is executed it assumes that a user defined function downloaded into the analyzer at test station initialization is to be executed The function is executed before the lt mchar gt is evaluated and the channel is then reset to zero so that the function will only be executed once RESP gt 1 This value indicates that an entire data set is to be transferred RESP indicates the number of data items to be sent to the computer lt mchar gt argument definitions POWR returns RESP items from trace A in dBm VOLT returns RESP items from trace A in volts SMPL returns RESP items from trace A in volts SPEC returns the sorted spectrum by signal amplitude to a response vector PRDF and SGTH should be included in the setup string the default values are 6 dB an
84. y sending the lt value gt AUTO in place of a numeric lt value gt The automatic selection mode is disabled by sending a numeric lt value gt All lt noun modifier gt s expecting numeric values will default to zero if the value field is not present Specifving a lt noun modifier gt not contained in this document will result in a syntax error Noun modifiers ATTN sets the RF attenuator to the specified value 0 70 dB in 10 dB steps The lt value gt AUTO will maintain the RF attenuator setting such that a signal at the reference level will be less than or equal to 10 dBm at the input mixer CAMP is the same as VOLT CFRQ is the same as FREQ XPOW is used to set the reference level of the ASA XVLT is used to set the reference level of the ASA POWR sets the marker amplitude at the specified POWR when making FRQW measurements at a specific power level FSTA specifies start frequency Programming 4 17 SET SRN and SRX FSTO specifies stop frequency FREQ specifies center frequency Note FREQ specifies the frequency for an amplitude correction value which would be used to correct for test ASA path loss for the CAL noun FRQW specifies frequency span FSTE sets center frequency step size for step keys and steps the center frequency up one step The lt value gt AUTO sets the step size to one tenth the span FREF sets the marker frequency FRES sets the final span for an autozoom operation
85. ynthesizer Idler Phase lock Loop Frequency Control Board Adjust Tune DAC Decade Span Attenuator Binary Span Attenuator Sweep DAC Correction DAC YTO Limits Input Attenuator uncalibrated Step Gain s uncalibrated Resolution Bandwidths uncalibrated includes 3 dB points center frequency amplitude Switching uncalibrated Calibration Attenuator s uncalibrated Programming 4 13 IST Log Amplifier s uncalibrated Display Tests if present HP MSIB Interface Test Switch Position ROM Checksums Non destructive RAM Test 8041 Peripheral Processor Pixel RAM Bit slice Processor Peripheral to Bit slice Interface Dot Generator Character ROM Checksum 4 14 Programming OPN OPN Syntax OPN CH00 Description The ASA does not have the ability to isolate itself from the rest of the test station However to facilitate ASA integration this command will set the analyzer to continuous sweep mode Programming 4 15 RST Syntax RST lt noun gt lt mchar gt CH00 Description The ASA returns to its instrument preset condition upon receiving this command and clears its service request mask This command sets the initial conditions for all FNC commands to follow The marker will be set to center screen Validation of the lt noun gt or lt mchar gt is performed and an error message is issued if an invalid item is encountered All lt noun gt s and lt mchar gt s are treated the same This is
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