User`s Guide - TRS RenTelco
Contents
1. LEC 1000 4 3 1995 Radiated Susceptibility EC 1000 4 4 1995 EFT Safety Information This product conforms to EN61010 1 1993 1EC 1010 1 1990 A1 1992 A2 1994 CSA C22 2 No 1010 1 1993 Safety requirements for Electrical Equipment for Measurement Control and Laboratory Use and has been supplied in a safe condition The instruction documentation contains information and warnings which must be followed by the user to ensure safe operation and to maintain the instrument in a safe condition Warranty This Agilent Technologies instrument product is warranted against defects in material and workmanship for a period of one year from date of shipment During the warranty period Agilent Technologies 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 Agilent Technologies Buyer shall prepay shipping charges to Agilent Technologies and Agilent Technologies shall pay shipping charges to return the product to Buyer However Buyer shall pay all shipping charges duties and taxes for products returned to Agilent Technologies from another country Agilent Technologies warrants that its software and firmware designated by Agilent Technologies for use with an instrument will execute its programming instructions when properly installed on that instrument Agilent Technologies does not warrant that the operation2. Select the test required follow the instructions as in the appropriate HP Agilent 8922 manual Make the measurement The information contained in this guide includes Accessories supplied Initial inspection Installation check list Preparation for use Installation overview Running the System Calibration routine DCS1800 P CS1900 configuration A General information The interface between the HP Agilent 8922 and the Agilent 83220A E is via a 15 way D Type connector and five BNC coaxial connectors m m m m 1 Fuses and power cords m m m NOTE DCS1800 Test System setup is shown for the HP Agilent 8922H DCS1800 Test System setup using any of the other HP Agilent 8922 Series will be similar The HP Agilent 8922 rear panel layout is slightly different for each model in the series NOTE If you have the Agilent 83220A E Option 010 Multi Band Test System refer tothe appropriate HP Agilent 8922 Multi Band User s Guidefor more details on connection and operating differences WARNING If this instrument is not used as specified the protection provided by the equipment could be impaired This instrument must only be used in anormal condition in which all means of protection are intact 2 Chapter 1 Accessories Supplied Installing Your Agilent 83220A E Introduction Table 1 1 Accessories Supplied with the DCS1800 Test System Description User s Guide 83220 90027 Interconnecting Cables See Table 1 2 Ag
3. Spectrum Analyzer Subsystem SANalyzer Spectrum ANalyzer functions A A A A enuator 1 enuator 1 enuator2 enuator2 Input ATTenuator 1 2 selection ATT 1 MODE HOLD or ATT2 MOD automatic attenuator selection ATTenuator 1 operates in 10 d ATTenuator2 operates in 5 dB s modes MODI MODI ATTenuator MODE selection Gl El T Chapter 5 0 dB 10 dB 20 dB 30 dB 40 dB 0 dB 5 dB 10 dB 15 dB 20 dB 25 dB 30 dB 35 dB This is only valid when E HOLD is selected otherwise is done B steps and is used in GSM900 mode teps and is used in DCS1800 and PCS1900 AUTO HOLD 85 GPIB Spectrum Analyzer Subsystem 86 Chapter5 6 Messages 87 Messages Introduction Introduction This chapter covers any messages which are specifictothe DCS1800 Test System Messages DCS1800 Test Set has changed Rereading cal data This message will be displayed whenever an HP Agilent 8922 detects the presence of an Agilent 83220A E which has a different serial number from the previous Agilent 83220A E that was recognized It will also be displayed the first time the Agilent 83220A E is accessed after performing a RAM Initialization operation on the SERVICE screen The Agilent 83220A E is accessed at power up if it is attached and also when DCS1800 or
4. particular the RF generator RF IN OUT or AUX RF OUT RF analyzer Level AUX RF IN and spectrum analyzer reference level AUX RF IN share the same limits in both modes The entry limits do not define the measurement or specified operation limits these arelistedinthesystem Specifications section of the Verifying Performance chapter in this manual 70 Chapter 3 Default Settings Most default settings are common for GSM 900 DCS1800 AND PCS1900 operation The following are new defaults for DCS1800 and PCS1900 200400000428 GENERATOR Frequency F ANALYZER Frequency F ANALYZER HopMeasFreq ELL CONFIGURATION Serv Cell ARFCN ELL CONFIGURATION Cont Chan ARFCN ELL CONTROL TCH Parms TCH1 ARFCN ELL CONTROL TCH Parms TCH2 ARFCN ELL CONTROL MS Parms TX Level F ANALYZER Amplitude RF IN OUT PECTRUM ANALYZER Ref Level RF IN OUT ELL CONFIGURATION MATO1 ELL CONFIGURATION MATO2 ELL CONFIGURATION BA CA MA1 MA2 Table 3 2 Default Settings O CO NI o OY B W N e ele el ele ela oO U A w Niej CA CA MS DCS1800 PCS1900 en 693 512 DCS1800 1806 0 MHz 1711 0 MHz 1711 0 MHz 698 605 512 885 10 32 dBm 35 dBm 0 1 As Table below 512 520 537 570 620 671 688 705 738 755 788 805 810 When PRESET is selected Radio Type will be set to GSM900 Chapter 3 CO r PP el Pl BP BP Oo BP BP B
5. 1 Supplemental Characteristics Frequency Overrange 1700 MHz to 1710 MHz and 1900 MHz to 1910 MHz with unspecified performance Offset Resolution 500 Hz for FM demodulation out CWRF Frequency Measurement Range 1710 MHz to 1900 MHz 1910 MHz to 1990 MHz Level Range RF In Out 13 to 432 dBm Aux RF IN 23 to 20 dBm Input Frequency Setting 500 kHz Error Accuracy 1 Hz reference accuracy a When setting up the RF analyzer for measurements you enter the expected fre quency and level for the incoming signal If the frequency is within the limits shown the specified performance will result Supplemental Characteristics Minimum Resolution 1Hz Frequency Overrange 1700 MHz to 1710 MHz and 1900 MHz to 1910 MHz with unspecified performance 42 Chapter 2 Verifying Performance RF Analyzer Specifications CW RF Power Measurement RF In Out only Range 5 to 32 dBm Input Frequency Setting 500 kHz Error Accuracy 0 5 dB noise effects 0 015 mW over the range 1710 MHz to 1880 MHz and 0 dBm to 32 dBm For gt 1880 MHZ 0 5 dB noise effects 0 015 mW For lt 0 dBm 0 5 dB noise effects 0 015 mW a To calculate accuracy add or subtract the 0 5 dB error 0 6 dB for Peak Trans mitter Carrier Power from the absolute power in dBm then convert to mW and add or subtract the 0 015 mW noise effect Supplemental Characteristics Minimum Resolutio
6. 56 Transit Proteins area rn ee ea blend De gr Dee ee 57 Transit CASES un i aha sn ens eee Rn En an en 57 Agilent Technologies Systems Engineering Assistance 0 000 een nn 58 Ordering Information 0 0 0 cc een 59 Agilent 83220A E DCS1800 Test Set 2 2 ett 59 3 Screens About This Chapter dat avenue eevee De ev ek eee eee ag wed Sates aay eek 62 Cell COnFQUEATION tree ee Sa Sew AG Pole edge 63 Call Control stars as Seige a tal re Cee tar Gee Oe ers Oa eka Fee 65 CONTQUES pe ra a Bice ee ban enh ia De bers deen lige OS mate a 66 Spectrum Analyzer ey zen A Re 68 MOSES aia a A A a aaa A aaah Sie ae ae 69 Entry Limit Modifications seie eer inana a eier 70 Contents 2 Contents Default Settings ciec nsis aa a ass an sad ee ede a nn nenne 71 4 Connectors Front Panel Connector S ur aa da a aw a a BOM was a ran 74 L REUNJOUT se ee ae ar a as 74 2 AUX RF OUT Agilent 83220A only 0 ccc eee eee e tenes 74 BOAU XE RE IN i444 tates E ia ced end a Goa Bae etd E cts erie Ailes Eee fo te A 75 4 CONNECT TO 8922 AUX RF OUT 0 0 ccc eee eee nes 75 5 CONNECT TO 8922 AUX RF IN ec ORE ENTEN AREE EE 75 Rear Panel Connectors jaisa i aoi aa iaoe ani ia ee eee nennen nennen 76 LLO MAZO WaT er res oe Mette een te BU ee all al aa Lasse le diame tote HAY 76 2 LO MIA ZAIN orate aii an ha Bi Be Stee DEI EL AR aia ane ha ee 76 BAM RO 77 AV SG ORES 32 0 8 wyatt dace a eh De a da ee zent hes Gast tS at
7. 8922E F G H 34 pk Tx carrier power 29 pk Tx carrier power HP Agilent 8922E F G H 34 pulse modulation HP Agilent 8922A B 32 pulse modulation HP Agilent 8922E F G H 34 RF port selection 22 verifying performance 18 90 Index
8. AUX RF OUT ports CAUTION Maximum reverse power on AUX RF OUT port is 200 mW See Also Screens RF Generator RF Analyzer RF Gen 74 Chapter 4 Connectors Front Panel Connectors 3 AUXRFIN The AUX RF IN port provides a direct connection to the DCS1800 PCS1900 DSP and spectrum analyzers Using the RF generator RF analyzer screen the analyzer input can be connected to either the RF IN OUT or AUX RF IN ports CAUTION Maximum AUX RF IN port input power is 200 mW See Also Screens RF Generator RF Analyzer RF Analyzer 4 CONNECT TO 8922 AUX RF OUT This port is always connected to the HP Agilent 8922 AUX RF OUT port using the BNC cable provided Model 10502A Part No 8120 2682 5 CONNECT TO 8922 AUX RF IN This port is always connected to the HP Agilent 8922 AUX RF IN port using the BNC cable provided Model 10502A Part No 8120 2682 Chapter 4 75 Connectors Rear Panel Connectors Rear Panel Connectors 1 10 MHz OUT This port replaces the 10 MHz OUT port fromtherear panel ofthe HP Agilent 8922 The signal is a general purpose 10 MHz reference output sine wave 10 MHz OUT is always active See Also Specifications Reference Specifications 2 10 MHz IN This port is always connected tothe HP Agilent 8922 rear panel 10 MHz OUT port and phase locks the down and up converter Local Oscillators in the Agilent 83220A E tothe 10 MHz reference from the HP Agilent 8922 Connect togethe
9. Maxwell Building Donibristle Industrial Park KY11 5LB Scotland United Kingdom Technical Report Number 6893 2200 CBR dated 23 September 1997 Supplementary Information The product conforms to the following safety standards EN 61010 1 1993 IEC 1010 1 1990 A1 1992 A2 1994 CSA C22 2 No 1010 1 93 The product herewith complies with the requirements of the Low Voltage Directive 73 23 EEC and carries the CE marking accordingly South Queensferry Scotland 17 November 1997 R A aia Location Date R M Evans Quality Manager ASIA PACIFIC Agilent Technologies 19 F Cityplaza One 1111 King s Road Taikoo Shing Hong Kong SAR tel 852 2599 7889 fax 852 2506 9233 CANADA Agilent Technologies Canada Inc 5150 Spectrum Way Mississauga Ontario L4W 5G1 tel 1 877 894 4414 J APAN Agilent Technologies J apan Ltd Measurement Assistance Center 9 1 Takakura Cho Hachioji Shi Tokyo 192 8510 tel 81 426 56 7832 fax 81 426 56 7840 AUSTRALIA NEW ZEALAND Agilent Technologies Australia Pty Ltd 347 Burwood Highway Forest Hill Victoria 3131 tel 1 800 629 485 Australia fax 61 3 9272 0749 tel O 800 738 378 New Zeal d REGIONAL SALES AND SERVICE OFFICES EUROPE Agilent Technologies Test amp Measurement European Marketing Org P O Box 999 1180 AZ Amstelveen The Netherlands tel 31 20 547 9999 UNITED STATES Agilent Technologie
10. available on an HP Agilent 8922E F This test checks transmission of the DC AM control voltage from the HP Agilent 8922 to the Agilent 83220E The resulting change in CW Power is checked using the HP Agilent 8922 CW AF analyzer and spectrum analyzer 1 Preset the HP Agilent 8922 to a known state press PRESET then configure the HP Agilent 8922 for DCS1800 operation N Set the OPERAT ING MOD W E field to DCS1800 and CW Generator Zero the power meter page 21 for power meter details and connect the power meter sensor to the Agilent 83220E RF IN OUT port 4 Inthe CONTROL section of the CELL STATUS screen set Amplitudes to 30 dBm and Frequency to 1805 MHz ul Verify the power meter displays 30 dBm 1 5 dB 6 In the measurements section select AUDIO and set the fields as follows Field Setting Frequency 0 Hz Amplitude IV Coupling DC 7 Select the RF GENERATOR RF ANALYZER screen press SHIFT RFG RFA and set the Mod Source DC AM field to Ext 8 Connect a BNC cable from the HP Agilent 8922 AUDIO OUT to AM IN SPEECH Gooodbosce Deosbasc qa Oloooou a ooog O ooog oo 00000 9 Verify that the power meter reading has increased by 6 dB to 24 dBm 1 5 dB Chapter 2 25 Verifying Performance DC AM Verification for the Agilent 83220A DC AM Verification for the Agilent 83220A NOTE Applicaabletothe HP Agilent 8922A B G H M only D
11. be set in 5 dB steps In GSM 900 mode the attenuator is set in 10 dB steps Table 3 1 Auxiliary Input Atten Choices pesimo osmoo Auto Auto Hold Hold 0 dB 0 dB 5 dB 10 dB 10 dB 20 dB 15 dB 30 dB 20 dB 40 dB 25 dB 30 dB 35 dB 68 Chapter 3 Screens Tests Tests TESTS Procedure Location Library Prorren Autsstort ACE RES CELA Ho Lied E05 Lonnent a El Test Execution Conditions On UOT Failure Run Made n artinya Stor FREETTETTEIITE Quirus Apsulis Quteut Headina Thereis an additional selection added to the Procedure field The new entry is SYS_CAL and invokes a system calibration program SYS_CAL is a user initiated calibration routine performed between the HP Agilent 8922 and the Agilent 83220A A system calibration should be initiated whenever a new combination of HP Agilent 8922 and Agilent 83220A are connected together or whenever the HP Agilent 8922 or Agilent 83220A are changed or after a RAM Initialize from the SERVICE screen NOTE Chapter 3 SYS_CAL can not be performed using the Agilent 83220E due to the absence of AUX ports 69 Screens Entry Limit Modifications Entry Limit Modifications When GSM900 is selected on the CONFIGURE screen entry fields are identical tothe HP Agilent 8922 Series When DCS1800 or PCS1900 is selected the following modifications to entry limits apply Q 11 ARFCN fields
12. dB Level Accuracy 1 0 dB levels gt 127 dBm For gt 1880 MHz 1 0 dB levels gt 127 dBm 1 0 dB typically for levels gt 127 dBm while hopping Reverse Power 200 milliwatts SWR 2 0 1 lt 4 dBm For gt 1880 MHz 2 0 1 lt 4 dBm a When using 30 dB pulse modulation leva accuracy is typically 2 dB Leve accuracy is typically 1 5 dB with the HP Agilent 8922 Series Spectral Purity Spurious Signals for lt 1 dBm output level at AUX RF OUT or lt 25 dBm output level at RF IN OUT Harmonics lt 25 dBc Non H armonic Spurious lt 50 dBc gt kHz offset from carrier Level Accuracy Over Extended Frequency Range Agilent 83220A only Measurements taken at 127 dBm O 5 ad 0 3 O25 1 Acc dBi 0 0 1 7 1805 1845 1865 1825 1350 1875 1990 Frag MHz Chapter 2 39 Verifying Performance 0 3 GMSK Modulation 0 3 GMSK Modulation After onetimeslot 577 us from an isolated RF generator hop trigger PhaseError lt 1 rms Peak Phase Error lt 4 peak Frequency Error 0 01 ppm 22 Hz reference accuracy for normal bursts Typically 0 02 ppm 32 Hz reference accuracy for RACHs Amplitude F latness 0 25 dB peak Clock Input Frequency 270 833 kHz 2 Hz relative to reference Level TTL Data Input Format Non differentially encoded input Level TTL a Not available with HP Agilent 8922E Supplemental Characteristics After three timeslo
13. of the instrument or software or firmware will be uninterrupted or error free Limitation of Warranty Theforegoing 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 ofthe environmental specifications for the product or improper site preparation or maintenance NO OTHER WARRANTY IS EXPRESSED OR IMPLIED AGILENT TECHNOLOGIES SPECIFICALLY DISCLAIMS THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FORA PARTICULAR PURPOSE Limitation of Remedies and Liability THE REMEDIES PROVIDED HEREIN ARE BUYER S SOLE AND EXCLUSIVE REMEDIES AGILENT TECHNOLOGIES SHALL NOT BE LIABLE FOR ANY DIRECT INDIRECT SPECIAL INCIDENTAL OR CONSEQUENTIAL DAMAGES WHETHER BASED ON CONTRACT TORT OR ANY OTHER LEGAL THEORY Radio Frequency Interference Statement Deutsche Bundespost Federal Republic of Germany only Herstellerbescheinigung Hiermit wird bescheinigt da dieses Ger t System Agilent 83220A E in bereinstimmung mit den Bestimmungen von Postverf gung 526 527 funkentst rt ist Der Deutschen Bundespost wurde das Inverkehrbringen dieses Ger tes Systems angezeigt und die Berechtigung zur Uberprufungder Serie auf Einhaltung der Bestimmungen einger umt Zusatzinformation f r Me und Testger te Werden Me und Testger te mit ungeschirmten Kabeln und oder in offenen Me aufbauten verw
14. 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 DO NOT operate the product in an explosive atmosphere or in the presence of flammable gasses or fumes DO NOT use repaired fuses or short circuited fuseholders For continued protection against fire replace the line fuse s only with fuse s of the same voltage and current rating and type DO NOT perform procedures involving cover or shield removal unless you are qualified to do so Operating personnel must not remove equipment covers or shields Procedures involving the removal of covers and shields are for use by service trained personnel only DO NOT service or adjust alone Under certain conditions dangerous voltages may exist even with the equipment switched off To avoid dangerous electrical shock service personne must not attempt internal service or adjustment unless another person capable of rendering first aid and resuscitation is present DO NOT operate damaged equipment Whenever it is possible that the safety protection features built into this product have been impaired either through physical damage excessive moisture or any other reason REMOVE POWER and do not use the product until safe operation can be verified by service trained personnel If necessary return the product to an Agi
15. program is running Once the program has finished select the RF GENERATOR RF ANALYZER Screen press SHIFT RFG RFA and set as follows Amplitude Amplitude Ensurethat the Agilent 83220A AUX RF OUT port is connected tothe HP Agilent 83220A RF IN OUT port using a short cable 30cm Part No 10502A or similar and 2 BNC to N type adapters Part No 1250 0780 or similar gt e 9 ieee O sood ole e Cle oleo OOOO oo 000050 Chapter 2 Verifying Performance Phase Error Pulse Modulation amp Peak Transmitter Carrier Power Verification Agilent 83220A only 10 Fromthe To Screen field select the DSP ANALYZER Screen DSP ANL and alter the settings as follows Heading Field Setting DSP Analyzer View PhaseM ain 11 Press MEAS ARM 12 Verify the following Measurement Result RMS Phase Error lt 1 00 Peak Phase Error Frequency Error lt 32 Hz 13 Remove the connection to the Agilent 83220A RF IN OUT port 14 Alter the DSP ANALYZER screen as follows Heading Field Setting DSP Analyzer View Ampl Main 15 Zero the power meter by selecting ZeroPower from the View field 16 Reconnect the connection to the Agilent 83220A RF IN OUT port 17 Alter the DSP ANALYZER Screen as follows ICI NI 18 Verify that the Peak Transmitter Power measures 5 0 dB m 1 dB 2 dB Differences from ex
16. the same method as for DCS1800 but with the HP Agilent 8922 configured for PCS1900 operation and at one frequency of 1975 MHz Chapter 2 21 Verifying Performance RF Port Selection Verification Agilent 83220A only RF Port Selection Verification Agilent 83220A only This test checks thetransmission reception of RF signals to and from the Agilent 83220A CW frequency and power are checked using the HP Agilent 8922 spectrum analyzer On an HP Agilent 8922E F H the spectrum analyzer is only available with Option 006 fitted and CW AF analyzer Power measurements are not available from the AU X RF IN port Onthecw MEAS AF ANALYZER screen CW power will read 1 Preset the HP Agilent 8922 to a known state press PRESET then configure the HP Agilent 8922 for DCS1800 operation 1 2 Select the RF GENERATOR RF ANALYZER Screen press SHIFT RFG RFA and alter the settings as follows Heading Field Setting RF Gen RF Output Amplitude AUX RFOUT 5 0 dBm Mod Source GMSK Off RF Analyzer Frequency Amplitude 1806 MHz 5 0 dBm 3 Remove any connections to the Agilent 83220A RF IN OUT port 4 FromtheTo Screen field select the cW MEAS AF ANALYZER screen select More then CW AF ANL 5 Zero the power meter by selecting ZeroPower from the Meas Cntr1 field 6 On the Agilent 83220A using a short cable lt 30cm Part No 10502A or similar and 2 BNC toN type adapters Par
17. with fingers Rotate cam so that the desired line voltage appears at the Cover Door Window when the cam is reinserted Fuse Replacement 1 Remove Fuse Holder with fingers Replace Fuse in Fuse Holder and re insert into the Line Power Module 2 Close the Cover Door by pressing it firmly Chapier 1 5 Installing Your Agilent 83220A E Fuses and Power Cords Figure 1 1 Fuse Replacement and Line Voltage Selection Fuse y 7 use Holder lt F Hold Cover Door Window Cover Door Line Voltage Selection Cam Line Power Module WARNING For protection against fire hazard the line fuse should only be a 250V fuse with the correct current rating See Table 1 3 Table 1 3 Line Fuse Rating and HP Part Number Model Line Voltage Rating Type Part Number HP Agilent 100 120 Vac 5 0A 250V Normal blow 2110 0010 8922 220 240 Vac 2 5A 250V Normal blow 2110 0083 Agilent 100 120 Vac 2 0AT 250V Time delay 2110 0303 83220A E 220 240 Vac 1 5AT 250V Time delay 2110 0304 Power Cords The Agilent 83220A E and HP Agilent 8922 are each supplied with a three wire power cable When connected to an appropriate ac power receptacle these cables ground the DCS1800 Test System cabinets The type of Mains plug shipped with each instrument depends on the country of destination Refer to Table 1 4 on page 7 for the part numbers of the power cables and Mains plugs available 6 Chapter 1 Table 1 4 Line Cords Installing Y
18. 0 Freg MHz Pulse ON OFF Ratio Measurement ON power is averaged over the useful part of the burst OFF power is averagedover a 1 bit interval centered at a user specified time Non hopped mode only 1 Onan HP Agilent 8922E F H Pulse ON OFF Ratio Measurement is only available withOption 006 44 Chapter 2 Verifying Performance RF Analyzer Specifications Input Frequency Setting 10 kHz Error Input Level Setting Error 3 dB Timing Accuracy 1 7 us 1 1 us typical a When setting up the RF analyzer for measurements you enter the expected fre quency and level for the incoming signal If the frequency is within thelimits shown the specified performance will result Accuracy ON OFF gt 40 dB RF In Out only OFF Power dBm ON OFF Ratio Accuracy 48 to 19 2 4 dB 1 1 dB typically 55 to 48 1 3 dB typically Amplitude Envelope Measurement After one timeslot 577 us from an isolated receiver hop trigger Measurement Range RF In Out 13 to 32 dBm Aux RF In Agilent 23 to 20 dB m 83220A only Input Frequency Setting 10 kHz Error Inaccuracy dueto Noise Input Level Setting Error Relative Level 1dB 3 dB 3 dB w 5 averages OdB lt 0 15 dB pk lt t0 2 dB pk lt 0 2 dB pk 6 dB lt t0 2 dB pk lt 0 3 dB pk lt 0 3 dB pk 30 dB lt 3 0 dB lt H4 2 dB lt 2 2 dB 3 8 dB 7 5 dB 2 6 dB Phase and Frequency
19. 00 parameters being set MEAS ARM CELL CONFIG State BIT ERROR TEST Meas Cntl DIGITAL DEMOD Arm State RF GENERATOR Hop Trig RF GENERATOR Hop Mode RF ANALYZER Hop Trig RF ANALYZER Hop Mode HOP CONTROL Hop Freq Tables CELL CONTROL RF Anl Ampl Cont RF GENERATOR Output RF ANALYZER Input RF ANALYZER Control RF GENERATOR Atten Hold SPECTRUM ANALYZER Input Atten RF GENERATOR Freq RF ANALYZER Freq RF ANALYZER Hop Meas Freq 66 other screens and range limits to be modified as when in the active mode results in the following Disarmed Activated Stop Arm Arm Hop Arm Hop Cleared MS TX Lev RF IN OUT RF IN OUT MS TX Lev OFF AUTO Set to default Set to default Set to default HP 8922E G only Chapter 3 RF GENERATOR Amplitude RF ANALYZER Amplitude CELL CELL CELL CELL CELL NOTE Chapter 3 CONFIG Serv Cell ARFCN CONFIG Control Chan ARFCN CONTROL TCH Params TCH1 ARFCN CONTROL TCH Params TCH2 ARFCN CONTROL TX Level Set Set Set Set Set Set Set to default to to to to to to default default default default default default Default parameters depend on the Radio Type set Screens Configure 67 Screens Spectrum Analyzer Spectrum Analyzer When the analyzer attenuator hold feature has been activated usingtheAuxiliary Input Atten field the possible attenuator selections are different in GSM900 than in DCS1800 and PCS1900 mode In DCS1800 mode the attenuator can
20. 1 Index OFFset This defines where the hop sequence starts for MAl MA2 MA2 lt quoted string gt Sets queries the Mobile Allocation 2 This is a binary string representing which CA ARFCNs will be in Mobile Allocation number 2 This defines which of the first 16 entries in the CA will be part of the sequential hop sequence for MA2 NOTE all 16 entries must be input 7 TOFFset IOFFset lt value gt INUM Sets queries the Mobile Allocation 2 Index OFFset This defines where the hop sequence starts for MA2 GSM900 Controlling GSM900 CELL CONFIGURATION BA BA lt quoted string gt Sets queries the Broadcast control channel Allocation This is a binary string representing which ARFCNs are in the BCCH Allocation A 1 in the first entry represents the existence of ARFCN 1 NOTE all 124 entries must be input Chapter 5 81 GPIB Cell Configuration Subsystem CA CA lt quoted string gt Sets queries the Cell Allocation This is a binary string representing which ARFCNs are in the Cell Allocation A 1 in the first entry represents the existence of ARFCN 1 NOTE all 124 entries must be input MA1 MAl lt quoted string gt Sets queries the Mobile Allocation 1 This is a binary string representing which CA ARFCNs will be in Mobile Allocation number 1 This defines which of the first 64 entries of 1 s in the CA will be part of the s
21. 20 dBm 100 Hz lt 5 rms lt 20 peak 1 timeslot per frame Data Clock and Data Valid Clocked at 1 MHz rate Delay data lt 1 frame 4 62 ms Output Level TTL 46 Chapter 2 Verifying Performance RF Analyzer Specifications a When setting up the RF analyzer for measurements you enter the expectedfre quency and level for the incoming signal If the frequency is within thelimits shown the specified performance will result FM Demodulation Output Range RF IN OUT 13 to 432 dBm AUX RF IN Agilent 23 to 20 dBm 83220A only Sensitivity 20 uV Hz 5 into an open circuit Input Frequency Setting 50 kHz with lt 100 kHz pk deviation Error Input Level Setting Error 3 dB Supplemental Characteristics 3 dB Bandwidth DC to 270 kHz Ue 600 Q DC Offset lt 5 mV Pulse Demodulation Output Range RF In Out 13 to 32 dBm Aux RF In Agilent 83220A 23 to 20 dBm only Input Frequency Setting 50 kHz Error Input Level Setting Error 3 dB Rise time 10 90 lt 2 5 us Fall time 90 10 lt 2 5 us a When setting up the RF analyzer for measurements you enter the expected fre quency and level for the incoming signal If the frequency is within the limits shown the specified performance will result Supplemental Characteristics Output mpedance 600 Q DC coupled Output Level 2 Vpk into an open circuit Chapter 2 47 Verifying Performan
22. 24 2 aa hea an bn pte en tei bab AGRA Ae dd dade he wy Re bees 6 Operating Environment occccccc annann enaena nraka 8 Rack Mounting the Agilent 83220A E o cococcccccoccc ernennen 8 Installation OVERVIEW sac oe ue er bese ae bawau eee gla kaso ieee 9 Running the System Calibration Routine Agilent 83220A only ooooooooo 11 RAM Initialization Agilent 83220E Only 0 cc cece cnet cnet n eens 12 DCS1800 PCS1900 Configuration 0 tee 13 How to Return Your Agilent 83220A E for Service 2 2m nennen nn 14 General Information 2222er nennen een nn 15 Operation and Storage Environment 0 0 cette 15 Instrument Options cuota A Be AE gee a AE an bag Ee A 15 Specification Snae ar ns A erage bed helen 15 Lifting Carrying the Agilent 83220A E and HP Agilent 8922 005 16 Using both arms to lift instruments oooocococcccccnc 16 2 Verifying Performance IMEFOGUCELON A a RE N ER A Mn Bae ae 18 Setting Up ThE Tests au ars ne ae ee are en nie 19 System Connedion dadus io taia a ee eee nent eee n tenet i tenes 19 DCS1800 Configuration ao aaae A E E E E E O EE E SARE TIEA 19 Preset Condition S vb st ee A A en eh 20 RF OUTPUT Verfication Agilent 83220E only 2 22 aaa 21 RF Port Selection Verification Agilent 83220A only 0c ccc eee eee eee eens 22 DC AM Verification for the Agilent 83220E 00 0 ee cee ee 25 DC AM Verification for the A
23. 61083 CAUTION Before connecting this cable it is advisable to switch off the DCS1800 Test System Chapter 4 77 Connectors Rear Panel Connectors 78 Chapter 4 5 GPIB 79 GPIB Introduction Introduction GPIB is available via the HP Agilent 8922 No separate control of the Agilent 83220AJE is necessary Most GPIB commands are unchanged for DCS1800 and PCS1900 operation Refer to the GPIB chapter in the relevant HP Agilent 8922 Series User s Guide or HP Agilent 8922 Programming Reference Guide for programming format conventions NOTE If you have the Agilent 83220A E Option 010 Multi Band Test System refer to the appropriate Agilent 8922 Multi Band User s Guidefor more details on GPIB programming differences New GPIB Commands A small number of new commands have been added to the existing HP Agilent 8922 set Refer to the Relevant Subsystem description in the GPIB chapter of the relevant HP Agilent 8922M S Programming Reference Guide for a fuller explanation NOTE These are extended versions of existing commands to allow compatibility with the new DCS1800 and PCS1900 codes On the HP Agilent 8922E F G H all spectrum analyzer output RF spectrum and pulse on off ratio commands are only available with Option 006 In addition most settings affecting cell configuration are not settable cannot be changed while Activated subsequently the commands for BA CA MAL MA2 M
24. 7779 1988 EN 27779 1991 DIN 45635 pt 19 Typpr fung Responsibilities of the Customer The customer shall provide 1 Access to the products during the specified periods of coverage to perform maintenance 2 Adequate working space around the products for servicing by Agilent Technologies personnel 3 Access to and use of all information and facilities determined necessary by Agilent Technologies to service and or maintain the products In so far as these items may contain proprietary or classified information the customer shall assume full responsibility for safeguarding and protection from wrongful use 4 Routine operator maintenance and cleaning as specified in the Agilent Technologies Operating and Service Manuals 5 Consumables such as paper disks magnetic tapes ribbons inks pens gases solvents lamps filters fuses seals etc General Safety Considerations The following general safety precautions must be observed during all phases of operation service and repair of this instrument Failure to comply with these precautions or with specific warnings elsewhere in this manual violates safety standards of design manufacture and intended use of the instrument Agilent Technologies Inc assumes no liability for the customer s failure to comply with these requirements WARNING This is a Safety Class I instrument provided with a protective earthing ground incorporated in the power cord The mains plug shall
25. AIO1 MAIO2 and Aux BCCH are not available on an HP 8922E The new commands are as follows 80 Chapter5 GPIB Cell Configuration Subsystem Cell Configuration Subsystem CCONfigure Cell CONfiguration commands DCS1800 Controlling DCS1800 CELL CONFIGURATION BA lt n gt BA lt n gt 0 512 885 Where lt n gt 1 to 16 Sets queries the Broadcast control channel Allocation Entries in BA table must be in contiguous ascending order The allocation must begin at BAl and continue through BA lt m gt Zeros 0 are used to fill unallocated entries Where lt m gt the highest number allocated in the range 1 to 16 CA lt n gt CA lt n gt 0 512 885 Where lt n gt 1 to 16 Sets queries the Cell Allocation Entries in CA table must be in contiguous ascending order The allocation must begin at CAl and continue through CA lt m gt Zeros 0 are used to fill unallocated entries Where lt m gt the highest number allocated in the range 1 to 16 MA1 MA1 lt quoted string gt Sets queries the Mobile Allocation 1 This is a binary string representing which CA ARFCNs will be in Mobile Allocation number 1 This defines which of the first 16 entries in the CA will be part of the sequential hop sequence for MA1 NOTE all 16 entries must be input IOFFset IOFFset lt value gt INUM Sets queries the Mobile Allocation
26. C AM is not available on an HP Agilent 8922E F This test checks transmission of the DC AM control voltage from the H P Agilent 8922 to the Agilent 83220A The resulting change in CW Power is checked using the HP Agilent 8922 CW AF analyzer and spectrum analyzer 1 Preset the HP Agilent 8922 to a known state press PRESET then configure the HP Agilent 8922 for DCS1800 operation 2 Selectthe RF GENERATOR RF ANALYZER Screen press SHIFT RFG RFA and set as follows Setting RF Gen RF Output Amplitude AUX RF OUT 0 0 dBm Mod Source GMSK Off AF Gen Frequency Amplitude 0 0 Hz 1 0 V AC DC Coupling RF Analyzer Frequency Amplitude 1806 MHz 0 0 dBm 3 Remove any connections to the Agilent 83220A RF IN OUT port 4 FromtheTo Screen field select the cW MEAS AF ANALYZER screen select More then CW AF ANL 5 Zero the power meter by selecting ZeroPower from the Meas Cntr1 field 6 On the Agilent 83220A using a short cable lt 30cm Part No 10502A or similar and 2 BNC toN type adapters Part No 1250 0780 or similar link the AUX RF OUT tothe RF IN OUT port Boooobood jae O Bess ooog ooog D ooooo 7 Verify that the CW power measures 0 dBm 1 dB 2 dB 26 Chapter 2 Verifying Performance DC AM Verification for the Agilent 83220A 8 Select the RF GENERATOR RF ANALYZER Screen press SHIFT RFG RFA and alter the settings as follows H
27. DSP ANL and alter the settings as follows DSP Analyzer View PhaseM ain 7 Press MEAS ARM 8 Verify the following Measurement Result RMS Phase Error lt 1 00 Peak Phase Error lt 4 00 Frequency Error lt 32 Hz 9 Alter the DSP ANALYZER screen as follows DC e O e 10 Remove the connection to the Agilent 83220A RF IN OUT port 11 Zero the power meter by selecting ZeroPower from the view field 12 Reconnect the connection to the Agilent 83220A RF IN OUT port 30 Chapter 2 Verifying Performance Phase Error amp Peak Transmitter Carrier Power Verification Agilent 83220A only 13 Verify that the Peak Transmitter Power measures 5 0 dBm 1 dB 2 dB Differences from expected values should be mainly due to losses in the external RF cables Check that the reading is consistent with the cable being used 10502A has approx 0 5 dB loss 14 Remove the cable from the AUDIO OUT and TRIGGER IN ports NOTE PCS1900 The Phase Error and Peak Transmitter Carrier Power Verification test should also be carried out on Agilent 83220As which support PCS1900 The test for PCS1900 is carried out using the same method as for DCS1800 but with the HP Agilent 8922 configured for PCS1900 operation and in step 2 an RF Generator and RF Analyzer frequency of 1975 MHz should be selected Chapter 2 31 Verifying Performance Pulse Modulation Verification Agilent 83220A only Pulse Modulation Ver
28. Measurement As described in GSM recommendation 11 10 After one timeslot 577 us from an isolated receiver hop trigger Chapter 2 45 Verifying Performance RF Analyzer Specifications Range RF In Out Aux RF In Agilent 83220A only Input Frequency Setting Error Input Level Setting Error RMS PhaseError Accuracy Peak Phase Error Accuracy Frequency Error Accuracy 13 to 32 dBm 23 to 20 dBm 10 kHz 3 dB lt 1 rms lt 4 peak 0 01 ppm 22 Hz reference accuracy for normal bursts Typically 0 02 ppm 32 Hz reference accuracy for RACHS a When setting up the RF analyzer for measurements you enter the expected fre quency and level for the incoming signal If the frequency is within the limits shown the specified performance will result Supplemental Characteristics After three timeslots 1 73 ms from an isolated rece ver hop trigger RMS Phase Error Accuracy Peak Phase Error Accuracy Frequency Error Accuracy lt 0 5 rms lt 2 peak 0 005 ppm 9 Hz reference accuracy for normal bursts 0 01 ppm 18 Hz reference accuracy for RACH bursts 0 3 GMSK Data Recovery After one timeslot 577 us from an isolated receiver hop trigger Range RF In Out Aux RF In Agilent 83220A only Input Frequency Setting Error Required Phase Input Accuracy Demodulation Duty Cycle Outputs Data Output Clock 13 to 32 dBm 23 to
29. P el Hal elo Screens Default Settings PCS1900 1967 4 MHz 1850 2 MHz 1887 4 MHz 698 605 512 810 10 32 dBm 35 dBm 0 As Table below MA2 e O O O O O O O r O O O O O Oj me 71 Screens Default Settings 72 Chapter 3 A Connectors 73 Connectors Front Panel Connectors Front Panel Connectors NOTE If you have the Agilent 83220A E Option 010 Multi Band Test System refer to the appropriate HP Agilent 8922 Multi Band User s Guidefor more details on connection and operating differences 1 RF IN OUT Using an internal power combiner the RF IN OUT port connects directly to the DCS1800 PCS1900 GMSK signal generator DSP and spectrum analyzers and RF peak and CW power meters This port will often be the only connection needed to the device under test DUT to make a full range of transmitter and receiver measurements The RF IN OUT port is designed to connect directly to the antenna connector of most DCS1800 and PCS1900 mobiles CAUTION The maximum Agilent 83220A E RF IN OUT port input power is 2W Never connect a GSM 900 radio to the Agilent 83220A E or irreparable damage may occur See Also Screens RF Generator RF Analyzer 2 AUX RF OUT Agilent 83220A only The AUX RF OUT port provides a direct connection to the DCS1800 PCS1900 GMSK signal generator Using the RF generator RF analyzer screen the signal generator can be routed to either the RF IN OUT or
30. PCS1900 mode is selected DCS1800 Test Set is not connected or not powered on An attempt has been made to select DCS1800 or PCS1900 mode with the PCN Interface incorrectly attached or the Agilent 83220A E not powered up or non operational This may also indicate a fault with the Agilent 83220A E or HP Agilent 8922 Cal file checksum incorrect File reset to default values This message will be displayed following a RAM Initialization from the SERVICE screen It will also be displayed if there has been a problem reading the calibration data from the Agilent 83220A E into the HP Agilent 8922 This could be caused if the PCN Interface cable is not properly connected If the problem persists it may mean that the Agilent 83220A E or HP Agilent 8922 is faulty Facility is not available in Agilent 83220E Test Set The Agilent 83220E cannot perform any operations associated with the AUX RF OUT or AUX RF IN connectors they do not exist on the Agilent 83220E This includes the System Calibration Routine as shown in the TESTS screen of the Screens chapter in this manual 88 Chapter 6 Index Numerics 0 3 GMSK Data Recovery 46 Modulation 40 10 MHZIN connectors 76 10 MHz OUT connectors 76 A AM IN connectors 77 assistance engineering assistance 58 Audio Analyzer Specifications 51 Audio Source Specifications 50 AUX RF IN connectors 75 AUX RF IN link connectors 75 AUX RF OUT connectors 74 AUX RF OUT li
31. RF GENERATOR Frequency RF ANALYZER Frequency ELL CONTROL MS Parms TX Level F ANALYZER Amplitude RF IN OUT PECTRUM ANALYZER Ref Level R S RF IN OUT 44 to Auxiliary Input Attenuator A 0 to 15 0 to 15 47 to for 30 33 dl 36 dl 31 Bm aH DCS1800 for PCS1900 0 to 35 dB is steps of 5 dB 512 to 885 for DCS1800 512 to 810 for PCS1900 1700 to 1890 MHz for DCS1800 1700 to 1990 MHz for PCS1900 1700 to 1890 MHz for DCS1800 1700 to 1990 MHz for PCS1900 CELL CONFIGURATION BA table entries 0 or 512 0 or 512 CELL CONFIGURATION CA table entries 0 or 512 0 or 512 CELL CONFIGURATION MAIO1 table entries 0 to 15 CELL CONFIGURATIO IAIO2 table entries O to 15 This is the entry limit HP Agilent 8922A B E G the 2 This is the entry limit E G the entry limit is 48 3 This is the entry limit E G the entry limit is 45 to 32 d for an HP Agil greater than B 06 00 For earlier versions of HP Agile entry limit is 0 to 13 for for an HP Agil Bm for an HP Agi EO 35 ad Bm ent 8922H wit ent 8922F H lent 8922F H to Co to to 885 810 885 810 for DCS1800 for PCS1900 for DCS1800 for PCS1900 h firmware revision nt 8922H firmware or an DCS1800 only For an HP Agilent 8922A B For an HP Agilent 8922A B All other limits are the same for GSM900 DCS1800 AND DCS1900 operation In
32. S1900 measurements usetheRF IN OUT port AUX RF OUT port or AUX RF IN port on the Agilent 83220A E Making measurements in DCS1800 mode is identical to making measurements in GSM 900 mode Follow the instructions in the Making Measurements chapter in the appropriate HP Agilent 8922 Series User s Guide When making GSM 900 measurements disconnect the connections to the Agilent 83220A E and use the RF IN OUT port AUX RF OUT port or AUX RF IN port on the HP Agilent 8922 The maximum Agilent 83220A E RF IN OUT port input power is 2W Never connect a GSM 900 radio to the Agilent 83220A E or irreparable damage may occur 13 Installing Your Agilent 83220A E How to Return Your Agilent 83220A E for Service How to Return Your Agilent 83220A E for Service If you need to return your Agilent 83220A E to Hewlett Packard first obtain the correct Service Center shipping address from your local sales office and carry out the following procedure CAUTION Instrument damage can result from using packaging materials other than the original shipping materials or equivalent Never use styrene pellets as packaging materials They do not adequately cushion the instrument do not prevent it from shifting in thecarton and can cause instrument damage due toESD 1 Please send the following information with the returned instrument Type of service required Description of the problem and whether it is constant or intermittent Name and phone n
33. User s Guide Agilent 83220A E DCS1800 Test Set u a y Agilent Technologies E 83220 90027 J anuary 1998 Printed in UK Copyright Agilent Technologies 1998 All Rights Reserved Reproduction adaptation or translation without prior written permission is prohibited except as allowed under the copyright laws Notices Subject Matter The material contained in this document is subject to change without notice AGILENT TECHNOLOGIES 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 Agilent Technologies 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 Agilent Technologies assumes no responsibility for the use or reliability of its software on equipment that is not furnished by Agilent Technologies Restricted Rights Legend If Software is for use in the performance of a U S Government contract or subcontract Software is delivered and licensed as Comercial computer software as defined in DFAR 252 227 7014 J une 1995 or asa commercial item as defined in FAR 52 227 19 J une 1987 or any equivalent agency regulation or contract clause Use duplication of Software is subject to Agilent Technologies standard commercial license terms and non DOD Department and Agencies of the U S Gov
34. Woe Pate 77 OPEN INTERFACES rare ee nein Buon a gist choad a EE Oe 77 5 GPIB Introduction a A I EA BL IH AA 80 New GPIB Commands 0 0 00 ccc cee ee eee eee eee e eens 80 Cell Configuration Subsystem 0 00 tte 81 Configure Subsystem 2 0 cee een een 84 Spectrum Analyzer Subsystem 0 cette ee 85 6 Messages IHtrodUctION nn ar gene ee a ee 88 Messages a cies e E inne ale east Geeta coats te th Paella A 88 Contents 3 Declaration Of Conformity Declaration of Conformity according to ISO IEC Guide 22 and EN45014 Manufacturer s Name Agilent Technologies Manufacturer s Address South Queensferry West Lothian EH30 9TG Scotland United Kingdom Declares that the product Product Name DCS1800 Test Set DCS PCS MS Test Set Agilent Technologies 83220A and 83220E Model Numbers Product Options This declaration covers all options of the above products as detailed in TCF A 5951 9852 02 Conforms with the protection requirements of European Council Directive 89 336 EEC on the approximation of the laws of the member states relating to electromagnetic compatibility Against EMC test specifications EN 55011 1991 Group 1 Class A and EN 50082 1 1992 As Detailed in Electromagnetic Compatibility EMC Technical Construction File TCF No A 5951 9852 02 Assessed by Dti Appointed Competent Body EMC Test Centre i GEC Marconi Avionics Ltd
35. a ee A A EA E O PRA On de fo PS SD Jar os a H or pr ae a sor mon ae ore mp oe WALOL MAIdE og uu This screen has a different layout from the GSM900 CELL CONFIGURATION Screen While positioned differently on the screen the following areas have the same function and method of operation in GSM900 DCS1800 and PCS1900 mode Serv Cell Aux BCCH RF Gen Amplitude Control Ch LAI Settable Activated To Screen With the exception of the ARFCN fields under Serv Cell and the Control Ch SD 8 mode each field retains its value after a GSM900 DCS1800 mode change The ARFCN fields are reset to the defaults for each mode when the mode changes The DCS1800 and PCS1900 mode CELL CONFIGURATION Screens BA CA MAT MA2 MAIO1 and MAIO exist as separate fields from the GSM 900 mode equivalents In DCS1800 and PCS1900 mode these fields operate differently Values entered during any one of the three modes GSM DCS1800 or PCS1900 will not affect the fields of the other two modes In DCS1800 and PCS1900 mode the BA n gt and CA an gt tables are defined by a list of ARFCN in contiguous ascending order The allocation must begin at BA1 and CAl and continue through BA lt m gt and CA lt m gt Normal ARFCN limits of 512 to 885 for DCS1800 and 512 to 810 for PCS1900 are allowed zeros 0 are used to indicate no ARF CN set Each Chapter 3 63 Screens Cell Configuration entry in th
36. are given in the Verifying Performance chapter of the appropriate HP Agilent 8922 Series User s Guide If the Chapter 1 Installing Your Agilent 83220A E Introduction contents are incomplete if there is mechanical damage or defect or if the DCS1800 Test System does not pass the electrical performance tests notify the nearest Agilent Technologies office If the shipping container is damaged or the cushioning material shows signs of stress notify the carrier as well as the Agilent Technologies office Keep the shipping material for the carrier s inspection WARNING To avoid hazardous electrical shock do not apply power to the Agilent 83220A E when there are any signs of shipping damage to any part of the Agilent 83220A E If the shipping materials are in good condition retain them for possible future use You may wish to ship the Agilent 83220A E to another location or to return it to Agilent Technologies for service See How to Return Your Agilent 83220A E for Servicing in this chapter Installation Check List Before connecting the Agilent 83220A E or HP Agilent 8922 to the line mains voltage ensure the following steps are taken 1 Read the warning in this chapter see Preparation for Use 2 Check that the line voltage setting on the rear panel power line modules are set to the correct voltage see Fuses and Power Cords 3 Ensure that the rating of the line mains fuse is appropriate for the line voltag
37. ation Agilent 83220A only Phase Error amp Peak Transmitter Carrier Power Verification Agilent 83220A only This test checks the phase stability of the Agilent 83220A and operation ofthe Agilent 83220A Peak TX Power Meter 1 Preset the HP Agilent 8922 to a known state press PRESET then configurethe HP Agilent 8922 for DCS1800 operation 2 Select the RF GENERATOR RF ANALYZER Screen press RFG RFA and set as follows Heading Field Setting RF Gen RF Output Amplitude Frequency AUX RFOUT 5 0 dBm 1806 MHz AF Gen Frequency Amplitude Coupling 100 Hz 5 0 V AC DC RF Analyzer RF Input Frequency Amplitude RF IN OUT 1806 MHz 5 0 dBm 3 Select the MEASUREMENT SYNC screen press MEAS ARM and alter the settings as follows Meas Trig Trig Source Ext Meas 4 On the Agilent 83220A using a short cable lt 30cm Part No 10502A or similar and 2 BNC toN type adapters Part No 1250 0780 or similar link the AUX RF OUT tothe RF IN OUT port Chapter 2 29 Verifying Performance Phase Error amp Peak Transmitter Carrier Power Verification Agilent 83220A only 5 On the HP Agilent 8922 using a short cable 30cm Part No 10502A or similar link the AUDIO OUT port in the AUDIO section tothe TRIGGER IN port in the MEASURE section Booocobood ee ek O Bees ooog ooog obooo 6 FromtheTo Screen field select the DSP ANALYZER Screen
38. ation routine should be run whenever an Agilent 83220A is first connected to an HP Agilent 8922 or whenever a different Agilent 83220A is connected to an HP Agilent 8922 and after a RAM Initialize from the SERVICE screen To perform a System Calibration 1 Power down the DCS1800 Test System Agilent 83220A and HP Agilent 8922 achieved by powering down the HP Agilent 8922 2 On the Agilent 83220A using a short cable lt 30cm Part No 10502A or similar and 2 BNC toN type adapters Part No 1250 0780 or similar link the AUX RF OUT tothe RF IN OUT port 3 On the HP Agilent 8922 using a short cable lt 30cm Part No 10502A or similar link the AUDIO OUT port tothe TRIGGER IN port Power up the DCS1800 Test System Fromthe HP Agilent 8922 front panel select the MESSAGE Screen SHIFT MSSG Look for any error message N ODO U A There should be no error messages before starting the System Calibration Procedure if any errors occur error messages are listed in the Messages chapter in this manual and in the appropriate HP Agilent 8922 Series User s Guide 8 Fromthe HP Agilent 8922 front panel select the TESTS Screen TESTS 9 Using the knob move the cursor to the Location field and select Rom from the Choices field 10 Move the cursor to the Procedure field and select SyS_CAL from the Choices field 11 Using the knob select Run Test 12 Follow the instructions on the s
39. ations Spectrum Analyzer Specifications Frequency Range 1710 MHz to 1900 MHz and 1910 MHz to 1990 MHz Frequency Span Resolution Bandwidth coupled Span Bandwidth lt 50kHz 300 Hz lt 200 kHz 1kHz lt 1 5MHz 3kHz lt 4 MHz 30 kHz lt 10 MHz a30kHz a Supplemental Characteristic Display Log 10 dB div Display Range 80 dB Log Linearity 1 1 dB Reference Level Range RF In Out 35 to 45 dBm Aux RF In Agilent 83220A 23 to 55 dBm only Non harmonic Spurious Responses 50 dBc max for inputs lt 30 dBm Residual Response lt 70 dBm no input signal O dB attenuation Image Rejection gt 50 cB Supplemental Characteristics Level Accuracy 2 5 dB Frequency Overrange 10 MHz with unspecified performance Displayed Average Noise lt 116 dBm Ref Leva lt 10 dBm RF IN OUT or Level lt 20 dBm Aux RF IN lt 50 kHz spans 1 On an HP Agilent 8922E F H the Spectrum Analyzer is only available with Option 006 Chapter 2 49 Verifying Performance Audio Source Specifications Audio Source Specifications Frequency Range DC to 25 kHz Accuracy 0 025 of setting Supplemental Characteristics Minimum Resolution Output Level 0 1 Hz Range Maximum Output Current Output Impedance Accuracy Residual Distortion THD Moise amplitude gt 200 MV rms Supplemental Characteristics Minimum Reso
40. ave the Agilent 83220A E Option 010 Multi Band Test System refer tothe appropriate HP Agilent 8922 Multi Band User s Guidefor more details on system specification differences Chapter 2 37 Verifying Performance RF Generator Specifications RF Generator Specifications Frequency Range 1710 MHz to 1785 MHz 1805 MHz to 1990 MHz Resolution 1 Hz Accuracy Reference Accuracy 0 5 Hz Stability Same as Reference Supplemental Charateristics Frequency Will underrange to 1700 MHz with uncalibrated output and modulation Underrange Switching Speed 577 usin hop mode refer to 0 3 GMSK modulation specifications RF In Out Connector Level Range 19 to 127 dBm For gt 1880 MHz 19 to 127 dBm Level Resolution 0 1 dB Level Accuracy 1 0 dB levels gt 127 dBm For gt 1880 MHz 1 0 dB levels gt 127 dBm 1 0 dB typically for levas gt 127 dBm while hopping Reverse Power 2 watts continuous SWR lt 1 5 1 For gt 1880 MHz lt 1 5 1 a When using 30 dB pulse modulation leve accuracy is typically 2 dB Level accuracy is typically 1 5 dB with the HP Agilent 8922 series b Level accuracy degrades 0 2 dB when usingthe RF IN OUT connector for both RF generator and RF analyzer 38 Chapter2 Verifying Performance RF Generator Specifications Aux RF Out Connector Agilent 83220A only Level Range 7 to 127 dBm For gt 1880 MHz 7 dBm Level Resolution 0 1
41. azard It calls attention toa procedure which if not correctly performed or adhered to could result in injury or loss of life Do not proceed beyond a warning note until the indicated conditions are fully understood and met CAUTION Caution denotes a hazard It calls attention toa procedure which if not correctly performed or adhered to could result in damage to or destruction of the instrument Do not proceed beyond a warning note until the indicated conditions are fully understood and met The CE mark shows that the product complies with all C relevant European Legal Directives ISM 1 A This is a symbol of an Industrial Scientific and Medical Group 1 Class A product The CSA mark is a registered trademark of the Canadian S pe Standards Association and indicates compliance to the standards defined by them manual for specific Warning or Caution information to Indicates that a laser is fitted The user must refer to the A avoid personal injury or damage to the product ch ELIE AH Contents Agilent 83220A E CapabilitY ooococcccocncncn iii DES1800 Base Station rorta en a the et See Ben iii Where to Start e Se ey iv 1 Installing Your Agilent 83220A E IER OGUCELON 92 2 t E aj adhe seeks Sh gate bee ata Meh 2 Using this Chapter wos acer enge ran 2 Fuses and Power Cords zn sn Pols BEERS Se ewes ne ee 5 Line Voltage Selection and Fuse Selection 0 0 0 cece ects 5 Power Cords
42. ce RF Analyzer Specifications Output RF Spectrum Measurement 1 After onetimeslot 577 us from an isolated receiver hop trigger When using Output RF Spectrum dueto Ramping measurement thedynamicrangeis decreased by 12 dB dueto Peak Hold Range RF In Out 13to 432 dBm Aux RF IN Agilent 83220A 23 to 20 dBm only Input Levels for Optimum Dynamic Range RF In Out 3 42 7 12 17 22 427 32 dBm Aux RF IN Agilent 83220A 13 8 3 2 7 12 17 22 dBm only Input Frequency Setting 10 kHz Error Input Level Setting Error 3 dB a When setting up the RF analyzer for measurements you enter the expected fre quency and level for the incoming signal If the frequency is within the limits shown the specified performance will result Supplemental Characteristics Log Linearity 0 4 dB Amplitude Flatness 1 0 dB Amplitude Resolution 0 4 dB Dynamic Range dB This describes the spectrum analyzer resolution bandwidth filter used when measuring output RF spectrum The dynamic range of the measurement will bea combination of this filter response and the modulation spectrum of theincoming signal Offset kHz 100 200 300 400 600 800to 1800 Range 29 45 51 63 73 75 dB 1 On an HP Agilent 8922E F H Output RF Spectrum Measurement is only available with Option 006 48 Chapter 2 Verifying Performance Spectrum Analyzer Specific
43. creen 13 When the System Calibration Routine has finished Cycle the DCS1800 Test System power Chapter 1 11 Installing Your Agilent 83220A E RAM Initialization Agilent 83220E Only RAM Initialization Agilent 83220E Only NOTE A RAM Initialize from the SERVICE screen should be run whenever an Agilent 83220E is first connected to an HP Agilent 8922 or whenever a different Agilent 83220E is connected to an HP Agilent 8922 To perform a RAM Initialize 1 From the home screen select the CONFIG Screen From the CONFIG Screen select the SERVICE Screen Movethe cursor next tothe RAM Initialize field Select YES Theinstruments will then follow a restart cyde after which calibration information will be down loaded and the instruments will be ready to use mn Bb W N 12 Chapter 1 Installing Your Agilent 83220A E DCS1800 PCS1900 Configuration DCS1800 PCS1900 Configuration 1 Access then set up the CONFIGURE Screen with the cursor Refer to the Screens chapter in this manual and in the appropriate HP Agilent 8922 Series User s Guide 2 Select the Radio Type field From thelist of choices select either pcs1800 or PCS1900 depending on the radio type you are testing NOTE CAUTION Chapier 1 COHF LGURE Radia Troe Reference Losnbatible Pen Arien Volta OPT 001 Heas Intl REF OUT Firnuire 04 28 95 i 051800 P 051900 When making DCS1800 PC
44. d select the SPECTRUM ANALYZER screen select More then SPEC ANL 14 Verify the presence of an 1806 MHz signal at a level of 5 dBm 3 dB 4 dB 15 FromtheTo Screen field select the cw MEAS AF ANALYZER Screen select More then CW AF ANL 16 Verify that the CW frequency is 1806 MHz 32 Hz 17 Select the RF GENERATOR RF ANALYZER Screen press SHIFT RFG RFA and alter the settings as follows Chapter 2 23 Verifying Performance RF Port Selection Verification Agilent 83220A only Setting IC RF Gen RF Output Amplitude RF IN OUT 20 0 dBm RF Analyzer Amplitude 20 0 dBm 18 On the Agilent 83220A using a short cable lt 30cm Part No 10502A or similar and 2 BNC toN type adapters Part No 1250 0780 or similar link the AUX RF IN tothe RF IN OUT port Gonsaesad SNE 3 podpodo T or 00 coool ale e loo ocon oo 00000 19 Fromthe To Screen field select the SPECTRUM ANALYZER screen select More then SPEC ANL 20 Verify the presence of an 1806 MHz signal at a level of 20 dBm 3 dB 4 dB 21 FromtheTo Screen field select the CW MEAS AF ANALYZER screen select More then CW AF ANL 22 Verify that the CW frequency is 1806 MHz 32 Hz 24 Chapter 2 Verifying Performance DC AM Verification for the Agilent 83220E DC AM Verification for the Agilent 83220E NOTE Applicaable to the HP Agilent 8922A B G H M only DC AM is not
45. dB 0 5 to 100 distortion Residual THD Noise The greater of 60 dB or175 uV 15 kHz BW Supplemental Characteristics Minimum Resolution 0 01 Distortion Audio Filters Deemphasis 750 us Audio Detectors RMS Pk Pk Pk hold Pk hold Pk 2 Pk 2 hold Pk max Pk max hold 52 Chapter2 Verifying Performance Oscilloscope Specifications Oscilloscope Specifications Frequency Range 3 dB 2 Hz to 50 kHz Scale Division 10 mV to 10 V in 1 2 5 10 steps Amplitude Accuracy 20 Hz to 10 kHz 1 5 of reading 0 1 division Time Division 10 us to 100 ms in 1 2 5 10 steps External Trigger Level TTL Supplemental Characteristics 3 dB Bandwidth Typically gt 100 kHz Internal DC Offset lt 0 1 division for gt 50 uV div sensitivity Chapter 2 53 Verifying Performance Remote Programming Remote Programming GPIB IEEE Standard 488 2 Functions Implemented SH1 AH1 T6 L4 SR1 RL1 LEO TEO PPO DC1 DT1 C4 C11 E2 RS 232 3 wire RJ 11 connector used for serial data in and out Baud Rates 300 1200 2400 4800 9600 and 19200 selectable 54 Chapter 2 Verifying Performance General Specifications General Specifications Agilent 83220A E Agilent 83220A E HP Agilent 8922 Weight Agilent 83220A E Agilent 83220A E HP Agilent 8922 Operating Temperature Storage Temperature Humidity Power A EMC Safety Acoustics Co
46. dBm TX Level 31 analyzer ampl 32 dBm TX Level O analyzer ampl 30 dBm TX Level 1 analyzer ampl 28 dBm TX Level 2 analyzer ampl 26 dBm TX Level 3 analyzer ampl 24 dBm TX Level 4 analyzer ampl 22 dBm TX Level 5 analyzer ampl 20 dBm TX Level 6 analyzer ampl 18 dBm TX Level 7 analyzer ampl 16 dBm TX Level 8 analyzer ampl 14 dBm TX Level 9 analyzer ampl 12 dBm TX Level 10 analyzer ampl 10 dBm TX Level 11 analyzer ampl 8 dBm TX Level 12 analyzer ampl 6 dBm TX Level 13 analyzer ampl 4 dBm TX Level 14 analyzer ampl 2 dBm TX Level 15 analyzer ampl O dBm The spectrum analyzer reference level will be set 3 dB above the analyzer amplitude setting as with GSM 900 Chapter 3 65 Screens Configure Configure COEF GERI Radja Teese Referenta Intenujbr El pelas PEI Offset dB Ca tatibl Barral TOCE TE FEERLEIEERET oe a A o R PEN B f siti EEE a W Aus EFdui EM rise Aus BF Ln Hanea Held PH He finty beta JFT 401 Screen Apis Cael SEF JUT Frib ro Firmuir EE A mE Betts 07 A new field has been added Radio Type Possible values are GSM900 DCS1800 PCS1900 Selecting DCS1800 or PCS1900 without a n Agilent 83220A E attached and powered on results in an error message This field will default to GSM 900 after instrument preset or power cycle Selecting DCS1800 or PCS1900 causes all described in this chapter Selecting DCS1800 PCS1900 or GSM 9
47. dence test from a known start position each time To achieve this press PRESET and then configure the HP Agilent 8922 for DCS1800 operation 20 Chapter 2 Verifying Performance RF OUTPUT Verfication Agilent 83220E only RF OUTPUT Verfication Agilent 83220E only This test checks transmission of RF signals from the Agilent 83220E CW Power at the Agilent 83220E RF OUT is checked using the HP Agilent 437B power meter and HP Agilent 8482A power sensor or appropriate alternatives Signals are checked in the frequency range 1805 MHz to 1885 MHz in 10 MHz steps 1 Preset the HP Agilent 8922 to a known state press PRESET 2 Set the OPERATING MODE field to DCS1800 and CW Generator 3 Inthe CONTROL section of the CELL STATUS screen set Amplitude to 20 dBm and Frequency to 1805 MHz 4 With the cursor still at the Frequency field press the H P Agilent 8922 ncr SET key and enter 10 MHz 5 Zero and calibrate the power meter Connect the power sensor to the Agilent 83220E RF IN OUT port 6 Verify that the power meter displays 20 dBm 1 5 dB 7 IntheHP Agilent 8922 DATA FUNCTIONS keyboard section press the up arrow key to increment frequency in 10 MHz steps from 1805 MHz to 1885 MHz 8 At each step verify that power meter reading is 20 dBm 1 5 dB NOTE PCS1900 TheRF Output verification test should also be carried out on Agilent 83220E s which support PCS1900 The test for PCS1900 is carried out using
48. e BA n gt and CA n gt table behaves as a separate field Values can be entered using the knob or data keys MA1 and MA2 are each single boolean arrays Values of O or 1 can be entered in each position of the array to point to CA table entries MA1 and MA2 use the same data entry method in GSM900 DCS1800 and PCS1900 modes MAIO1 and MAIO2 are independent fields for GSM900 DCS1800 and PCS1900 operation NOTE Where lt n gt 1 to 16 Where lt m gt the highest number allocated in the range 1to16 On the HP Agilent 8922E the fields for BA CA MAT MA2 MAIO1 MAIO2 and Aux BCCH are no displayed and cannot be changed from their default settings 64 Chapter 3 Screens Cell Control Cell Control This screen appears unmodified from GSM 900 to DCS1800 and PCS1900 However the TX Level field has a different relationship to RF analyzer amplitude in DCS1800 and PCS1900 than for GSM 900 For DCS1800 Operation RF IN OUT analyzer ampl 30 2x TX Level dBm that is TX Level 0 analyzer amp 30 dBm TX Level 13 analyzer amp 4 dBm For the HP Agilent 8922H with firmware B 06 00 or greater the TX levels are extended for DCS1800 The additional levels are TX Level 14 analyzer ampl 2 dBm TX Level 15 analyzer ampl O dBm For the HP Agilent 8922H with firmware B 06 00 or greater TX levels are available for PCS1900 TX Level 30 analyzer ampl 33
49. e Introduction Introduction Thetests in this chapter verify the electrical performance of the DCS1800 Test System The basic functionality of the Agilent 83220A E DCS1800 Test Set is checked usingthe internal capabilities of the host HP Agilent 8922 The User Confidence Test will only be valid if the host HP Agilent 8922 is functioning within its specification If any of the Confidence Tests fail verify the performance of the host HP Agilent 8922 refer to the Appropriate HP Agilent 8922 Series User s Guideand HP Agilent 8922 Series Assembly Level Repair manuals Because of the specialized nature of the DCS1800 Test System and the equipment required to support it it is recommended that calibration and repair be performed only by specially equiped Agilent Technologies service centers A list of system specifications is found at the end of this chapter 18 Chapter2 Verifying Performance Setting up the Tests Setting up the Tests This chapter contains the following information A System Connection LI Confidence Tests e RF Output Verification Agilent 83220E only e RF Port Selection Verification Agilent 83220A only e DC AM Verification HP Agilent 8922A B G H M only e Phase Error and Peak Transmitter Carrier Power Verification e Pulse Modulation Verification HP Agilent 8922A B only Agilent 83220A only e Phase Error Pulse Modulation and Peak Transmitter Carrier Power Verification HP Agilent 8922E F G H M S
50. e being used see Table 1 3 on page 6 4 Ensurethat the power cable is the correct type see Power Cords Preparation for Use WARNING The Agilent 83220A E and HP Agilent 8922 Series are Safety Class 1 products provided with a protective earth terminal An uninterruptible safety earth ground must be provided from the mains power source to the product input wiring terminals power cord or supplied power cord set Whenever it is likely that the protection has been impaired the DCS1800 Test System must be made inoperative and be secured against any unintended operation If the Agilent 83220A E or HP Agilent 8922 are to be energized via an external autotransformer for voltage reduction make sure that the common terminal is connected to the neutral pole of the power source Before connecting the Agilent 83220A E or HP Agilent 8922 the protective earth terminal of the Agilent 83220A E and HP Agilent 8922 must be connected to the protective conductor of the mains power cord The mains plug shall only be inserted in a socket outlet provided with a protective earth contact The protective action must not be negated by the use of an extension cord power cable without a protective conductor grounding Grounding one conductor of a two conductor outlet is not sufficient protection 4 Chapter 1 Installing Your Agilent 83220A E Fuses and Power Cords Fuses and Power Cords Line Voltage Selection and Fuse Selection CAUTION Before con
51. eading Field Setting Mod Source DC AM Ext 9 On the HP Agilent 8922 using a short cable 30cm Part No 10502A or similar link the AUDIO OUT port in the AUDIO section tothe IN AM SPEECH port in the MODULATION section 7 Esocoloood ofsodpsodod F O pees DODO DODO ooooo 10 FromtheTo Screen field selettthecw MEAS AF ANALYZER Screen select More then CW AF ANL 11 Verify that the CW power has increased by approximately 6 dB 12 Select the RF GENERATOR RF ANALYZER screen press SHIFT RFG RFA and alter the settings as follows farcen F requency Amplitude 0 1 Hz 0 707 V 13 FromtheTo Screen field select the CW MEAS AF ANALYZER Screen select More then CW AF ANL 14 Verify that the CW power varies between 6 dBm 1 dB 2 dB and 25 dBm or lower Differences from the expected value includes a loss of 0 5 dB typically for the external 10502A RF cable 15 FromtheTo Screen field select the SPECTRUM ANALYZER screen select More then SPEC ANL 16 Alter the SPECTRUM ANALYZER screen as follows Chapter 2 27 Verifying Performance DC AM Verification for the Agilent 83220A Ref Level 7 0 dBm 17 Verify that the CW power varies between 6 dBm 3 dB 4 dB and 60 dBm or lower 18 Remove the cable from the AUDIO OUT and IN AM SPEECH ports 28 Chapter 2 Verifying Performance Phase Error amp Peak Transmitter Carrier Power Verific
52. ement Accuracy Over Extended Frequency Range Agilent 83220A only 44 Pulse ON OFF Ratio Measurement oocococcoccc eee 44 Amplitude Envelope Measurement cocococcccc eee 45 Phase and Frequency Measurement 0000 cece teeta ee 45 0 3 GMSK Data Recovery 2 2 onen nennen 46 FM Demodulation Output 0000 ccc tte 47 Pulse Demodulation Output 0 0 47 Output RF Spectrum Measurement 000 ete 48 Spectrum Analyzer Specifications 0 0 tte 49 Supplemental Characteristics 2 0 tees 49 Audio Source Specifications 00 0c ete 50 EFEQUENCY za an ee 50 Output Level eee ecg cade ae ee OE ew Rn ek ge edd a 50 Audio Analyzer Specifications 222222 cette 51 Frequency Measurement reanna en EAEE N te tte 51 AC Voltage Measurement 000 cece tenets 51 DC Voltage Measurement 00 00 c cc nennen 52 Distortion Measurement 0 000 cece teens 52 Audio Filters ains Deeds sides ese beta bebe doe cee ete nen 52 Audio Detector S d fe etic Aga Pak a ada ae a ie ee gag egy 52 Oscilloscope Specifications 0 0 0 nennen 53 Supplemental CharacteristicS 0 0 teens 53 Remote Programming 2 0 ce teens 54 General Specifications a fibers gay aa Geely i Peg ds See pel ee bee an 55 Reference Specifications 2 0 0 cc tte nenn 56 Fixed Reference Moden isune renra aaa T S E AE a a E E N a 56 TunableReferenceMode 222 2020er nennen een nennen
53. endet so ist vom Betreiber sicherzustellen da die F unk E ntst rbestimmungen unter Betriebsbedingungen an seiner Grundst cksgrenze eingehalten werden Manufacturer s Declaration This is to certify that the equipment Agilent 83220A E meets the radio frequency interference requirements of Directive FTZ 526 527 The German Bundespost has been notified that this equipment was put into circulation and has been granted the right to check the product type for compliance with these requirements Additional Information for Test and Measurement Equipment If test and measurement equipment is operated with unscreened cables and or used for measurements on open set ups the user has to assure that under operating conditions the Radio Interference Limits are still met at the border of the user s premises Sound Emission Manufacturer s Declaration This statement is provided to comply with the requirements of the German Sound Emission Directive from 18 J anuary 1991 This product has a sound pressure emission at the operator position lt 70 dB A Sound Pressure Lp lt 70 dB A At Operator Position Normal Operation According to ISO 7779 1988 EN 27779 1991 DIN 45635 pt 19 Type Test Herstellerbescheinigung Diese Information steht im Zusammenhang mit den Anforderungen der Maschinenlarminformationsverordnung vom 18 J anuar 1991 Schalldruckpegel Lp lt 70 dB A Am Arbeitsplatz Normaler Betrieb Nach ISO
54. equential hop sequence for MAl NOTE all 64 entries must be input IOFFset IOFFset lt value gt INUM Sets queries the Mobile Allocation 1 Index OFFset This defines where the hop sequence starts for MAI MA2 MA2 lt quoted string gt Sets queries the Mobile Allocation 2 This is a binary string representing which CA ARFCNs will be in Mobile Allocation number 2 This defines which of the first 64 entries of 1 s in the CA will be part of the sequential hop sequence for MA2 NOTE all 64 entries must be input IOFFset IOFFset lt value gt INUM Sets queries the Mobile Allocation 2 Index OFFset This defines where the hop sequence starts for MA2 PCS1900 Controlling PCS1900 CELL CONFIGURATION BA lt n gt BA lt n gt 0 512 810 Where lt n gt 1 to 16 Sets queries the Broadcast control channel Allocation Entries in BA table must be in contiguous ascending order The allocation must begin at BAl and continue through BA lt m gt Zeros 0 are used to fill unallocated entries Where lt m gt the highest number allocated in the range 1 to 16 CA lt n gt CA lt n gt 0 512 810 Where lt n gt 1 to 16 Sets queries the Cell Allocation Entries in CA table must be in contiguous ascending order The allocation must begin at CAl and continue through CA lt m gt Zeros 0 are used to fill unallocated entries Wh
55. ere lt m gt the highest number allocated in the range 1 to 16 MA1 MAl lt quoted string gt Sets queries the Mobile Allocation This is a binary string representing which CA ARFCNs will be in Mobile Allocation number 1 This defines which of the first 16 entries in the CA will be part of the sequential hop sequence for MA1 NOTE all 16 entries must be input IOFFset IOFFset lt value gt INUM Sets queries the Mobile Allocation 1 Index OFFset 82 Chapter5 GPIB Cell Configuration Subsystem This defines where the hop sequence starts for MAl MA2 MA2 lt quoted string gt Sets queries the Mobile Allocation 2 This is a binary string representing which CA ARFCNs will be in Mobile Allocation number 2 This defines which of the first 16 entries in the CA will be part of the sequential hop sequence for MA2 NOTE all 16 entries must be input TOFF set IOFFset lt value gt INUM Sets queries the Mobile Allocation 2 Index OFFset This defines where the hop sequence starts for MA2 Chapter 5 83 GPIB Configure Subsystem Configure Subsystem CONFigure CONFigure subsystem setting commands RADio RADio 84 Selecting the mode of operation GSM900 DCS1800 PCS1900 as in the CONFIGUR E Screen Chapter 5 GPIB Spectrum Analyzer Subsystem
56. ernment will receive no greater than Restricted Rights as defined in FAR 52 227 19 c 1 2 J une 1987 U S Government users will receive no greater than Limited Rights as defined in FAR 52 227 14 J une 1987 or DFAR 252 227 7015 b 2 November 1995 as applicable in any technical data Copyright 200X Agilent Technologies Inc All Rights Reserved Certification Agilent Technologies certifies that this product met its published specifications at the time of shipment from the factory Agilent Technologies further certifies that its calibration measurements are traceable to the United States National Bureau of Standards to the extent allowed by the Bureau s calibration facility and to the calibration facilities of other International Standards Organization members Assistance Product maintenance agreements and other customer assistance agreements are available for Agilent Technologies products For any assistance contact your nearest Agilent Technologies Sales and Service Office Statement of Compliance Electromagnetic Compatibility EMC Information This product has been designed to meet the protection requirements of the European Communities Electromagnetic Compatibility EMC directives In order to preserve the EMC performance of the product any cable which becomes worn or damaged must be replaced with the same type and specification EN55011 1991 Group 1 Class A EN50082 1 1992 EC 1000 4 2 1995 ESD
57. face except the rear panel Spurious leakagelevds aretypically uV in a resonant dipole antenna 1 inch away from any surface except the rear pand 55 Verifying Performance Reference Specifications Reference Specifications Testing DCS1800 radios require the HP Agilent 8922 to be operated with the High Stability Reference Opt 001 or an external high stability reference Accuracy after warm up External Reference Input Frequency Level Nominal Impedance Supplemental Characteristics 10 MHz OUT rear panel BNC Level Impedance 13 MHz OUT rear panel BNC Level Impedance Time since calibration x Agingrate Temperature effects Accuracy of calibration 13 10 5 2 or 1 MHz 30 ppm Oto 10 dBm 50 gt 9 0 dBm nominal 50 Q nominal gt 9 0 dBm nominal 50 Q nominal Fixed Reference Mode Aging lt 2 ppm year 1 ppm 0 to 455 C lt 30 seconds 2 ppm of final frequency Temperature Stability Warm up Time Tunable Reference Mode Allows offsetting the internal reference by a selected amount relative to the high stability reference Opt 001 REF OUT or an external reference Required External Reference Accuracy Tune Range 0 5 ppm 30 ppm Reference Accuracy after calibration 1 ppm accuracy ofexternal reference or high stability reference Opt 001 REF OUT lt 4ppm for selected offsets of up to 30 ppm Temperature Stabili
58. figured for PCS1900 operation HP Agilent 8922A B require firmware revision B 05 04 or greater HP Agilent 8922E G do not support PCS1900 HP Agilent 8922F require firmware revision B 05 02 or greater to support PCS1900 HP Agilent 8922H require firmware revision B 06 00 or greater to support PCS1900 How to Use This Manual Where to Start If you have just received the Agilent 83220A E and want to get it ready to use for the first time Thoroughly read the Installing Your Agilent 83220A E chapter in this manual and follow its instructions for Unpacking the Test Set e Preparing it for use e Installation Overview e System Calibration e DCS1800 PCS1900 Configuration If you need to verify the unit is operating within its specifications perform the confidence tests in the Verifying Performance chapter in this manual Making measurements in DCS1800 PCS1900 mode is identical to making measurements in GSM 900 mode Follow the instructions in the Making Measurements chapter in the appropriate HP Agilent 8922 Series U ser s Guideto learn how to make measurements using the DCS1800 Test System To find more detailed information about the Test Set its applications and key descriptions consult the Screens Connectors and GPIB chapters in this manual and in the appropriate HP Agilent 8922 Series User s Guide To learn how to program the Test Set read the GPIB chapter in this man
59. gilent 83220A ooocococcocccn 26 Phase Error amp Peak Transmitter Carrier Power Verification Agilent 83220A only 29 Pulse Modulation Verification Agilent 83220A only 0 00 ccc eee eee 32 Phase Error Pulse Modulation amp Peak Transmitter Carrier Power Verification Agilent 83220400 Viv 23 0 a a A oy aes Dew ede eae a ge a eR 34 System SpecificationS 6 cee a EARE PE E a e EAN 37 Specifications vs Characteristics s s s esasa saaana anen 37 RF Generator Spedifications 0 cc tte nn 38 FREQUENCY ita Boe chet earn Oe Ae A ee Bee ae ek 38 Spectkal PUrt Ya rea 39 Level Accuracy Over Extended Frequency Range Agilent 83220A only 39 0 3 GMSK M odu lations cr Siig de it ed eae Sal Cao Ee Be eae ha 40 Supplemental Characteristics 0 ccc eet nenne rennen 40 P lse ModUlation zu res ee on 40 30 dB Pulse Modulation 00 0 ccc nennen een nn 41 Contents 1 Contents AM for A ROM en na ehe aaah in ade a ied 41 Supplemental CharacteristiCS ooococooccccc o 41 RF Analyzer Specifications oooococccoocone nennen nn 42 FREQUENCY Rai A Ad de dead 42 CW RF Frequency Measurement ococcococorc nennen 42 CW RF Power Measurement RF In Out only 0 0 0 c ccc eee een eens 43 Peak Transmitter Carrier Power Measurement RF In Out only o o o 43 Power Measurement Accuracy Over Extended Power range Agilent 83220A only 44 Power Measur
60. ification Agilent 83220A only NOTE Applicable to the HP Agilent 8922A B only This test checks the operation of the Agilent 83220A pulse modulator using the HP Agilent 8922A B spectrum analyzer 1 Preset the HP Agilent 8922 to a known state press PRESET then configure the HP Agilent 8922 for DCS1800 operation 2 Select the RF GENERATOR RF ANALYZER Screen press RFG RFA and set as follows Heading Field Setting RF Gen RF Output Amplitude AUX RFOUT 5 0 dBm Mod Source GMSK Pulse Off Ext Normal AF Gen Frequency Amplitude Coupling 0 5 Hz 5 0V AC DC RF Analyzer Frequency Amplitude 1806 MHz 5 0 dBm 3 Remove any connections to the Agilent 83220A RF IN OUT port 4 FromtheTo Screen field select the Cw MEAS AF ANALYZER screen select More then CW AF ANL 5 Zero the power meter by selecting ZeroPower from the Meas Cntr1 field 6 On the Agilent 83220A using a short cable lt 30cm Part No 10502A or similar and 2 BNC toN type adapters Part No 1250 0780 or similar link the AUX RF OUT tothe RF IN OUT port 32 Chapter 2 Verifying Performance Pulse Modulation Verification Agilent 83220A only 7 OntheHP Agilent 8922 using a short cable 30cm Part No 10502A or similar link the AUDIO OUT port inthe AUDIO section tothe PULSE port intheMODULATION section Goosodbascde afepodjsond ala Oloooo O oooo o OODO oo 00000 8 FromtheTo Screen field se
61. ilent Part Number Comments 1 copy shipped with Agilent 83220A E Shipped with DCS1800 Test System Shipped with DCS1800 Test System Power Cord See Figure 1 2 Rackmount Flange Kit 5062 4071 GSM DCS1800 Mobile 83212D Station Test Software Table 1 2 Supplied Cables Part Number 8120 1838 Shipped with Option AX4 Available separately Agilent 83220A E Port HP Agilent 8922 Port CONNECT TO 8922 AUX RF OUT Front panel AUX RF OUT Front panel CAUTION 8120 1838 CONNECT TO 8922 AUX RF IN AUX RF IN Front panel Front panel 83220 61025 10 MHz IN 10 MHz OUT Rear panel Rear panel 83220 61025 SCOPE SCOPE Rear panel Rear panel 83220 61025 AM AM Rear panel Rear panel 08922 61083 PCN INTERFACE PCN INTERFACE Rear panel Rear panel It is advisable to connect all the cables as shown in the Installation Overview section before switching on the DCS1800 Test System Initial Inspection Inspect the shipping container for damage If the shipping container or cushioning material is damaged it should be kept until the contents of the shipment have been checked for completeness and the Agilent 83220A E has been checked mechanically and electrically Procedures for checking the electrical performance of the DCS1800 Test System are given in the Verifying Performance chapter of this manual Procedures for checking the electrical performance of the HP Agilent 8922
62. lect the SPECTRUM ANALYZER screen select More then SPEC ANL 9 Verify the CW power alternates between 5 dBm 3 dB 4 dB and 70 dBm or lower Differences from expected values should be mainly due to losses in the external RF cables Check that the reading is consistent with the cable being used 10502A has approx 0 5 dB loss 10 Remove the cable from the AUDIO OUT and PULSE ports Chapter 2 33 Verifying Performance Phase Error Pulse Modulation amp Peak Transmitter Carrier Power Verification Agilent 83220A only Phase Error Pulse Modulation amp Peak Transmitter Carrier Power Verification Agilent 83220A only NOTE Applicable to the HP Agilent 8922E F G H M S only This test checks the phase stability of the Agilent 83220A and operation ofthe Agilent 83220A pulse modulator and Peak Tx Power Meter 1 2 3 Cycle the DCS1800 Test System power Select the TESTS screen press TESTS Using the knob move the cursor to the Location field and select ROM from the Choices field If you are using an HP Agilent 8922E move the cursor to the Procedure field and select EDCSDIAG from the Choices field If you are using an HP Agilent 8922G move the cursor to the Procedure field and select GDCSDIAG from the Choices field Select Run Test Or press L1 7 Follow the instruction given on the HP Agilent 8922E G screen Ignore all pass fail 34 results shown on the screen while the
63. lent Technologies Sales and Service Office for service and repair to ensure the safety features are maintained DO NOT substitute parts or modify equipment Because of the danger of introducing additional hazards do not install substitute parts or perform any unauthorized modification to the product Return the product to a Agilent Technologies Sales and Service Office for service and repair to ensure the safety features are maintained WARNING There are many points in the instrument which can if contacted cause personal injury Be extremely careful Any adjustments or service procedures that require operation of the instrument with protective covers removed should be performed only by trained service personnel Safety Symbols The following symbols on the instrument and in the manual indicate precautions which must betaken to maintain safe operation of the instrument Safety Symbols The Instruction Documentation Symbol The product is N marked with this symbol when it is necessary for the user to refer tothe instructions in the supplied documentation Indicates the field wiring terminal that must be connected to earth ground before operating the equipment protects against electrical shock in case of fault Frame or chassis ground terminal typically connects to m OR I the equipment s metal frame I ey Alternating current AC Direct current DC Warning risk of electric shock WARNING Warning denotes a h
64. lug E Earth Ground L Line N Neutral Chapter 1 Installing Your Agilent 83220A E Operating Environment Operating Environment Temperature The Agilent 83220A E may be operated in environments with temperatures from 0 to 55 C Humidity The Agilent 83220A E may be operated in environments with humidity from O to 95 non condensing However protect the Agilent 83220A E from temperature extremes which can cause condensation within the Agilent 83220A E Cooling The Agilent 83220A E obtains cooling airflow by forced ventilation from the fan on its rear panel CAUTION Ensure that all airflow passages at the rear and side of the Agilent 83220A E are clear before installing the Agilent 83220A E This is especially important in arack mount configuration Rack Mounting the Agilent 83220A E If the Agilent 83220A E is to be rack mounted ensure that all airflow passages at the rear and sides of the Agilent 83220A E are not obstructed Full instructions for rack mounting the Agilent 83220A E are included with the rack mounting kit 8 Chapter 1 Installing Your Agilent 83220A E Installation Overview Installation Overview NOTE DCS1800 Test System setup is shown for the HP Agilent 8922H and Agilent 83220A DCS1800 Test System setup using any of the other HP 8922 Series will be similar The HP Agilent 8922 rear panel layout is slightly different for each model in the series 1 Unpack the Agilent 83220A E 2 On the fro
65. lution 0 1 mV to 4 Vrms 20 mA peak IQ 2 of setting resolution 0 1 20 Hz to 25 kHz in 80 kHz BW Minimum Resolution lt 0 01 V 50 uV lt 0 1 V 0 5 mV lt 1 V 5 mV gt 1V 50 mV Level DC Coupled Offset lt 50 mV 50 Chapter 2 Verifying Performance Audio Analyzer Specifications Audio Analyzer Specifications Frequency Measurement Range 20 Hz to 400 kHz Accuracy 0 02 1 count reference accuracy External Input 20 MV rms to 30 Vims Supplemental Characteristics Minimum Resolution Minimum Frequency Resolution lt 10 kHz 0 01 Hz lt 100kH z 0 1Hz gt 100 kHz 1 Hz AC Voltage Measurement Voltage Range 0 to 30 Vims Accuracy 20 Hz to 15 kHz 3 of reading input gt 1 MV ms Residual Noise THD 175 uV 15 kHz BW Supplemental Characteristics 3 dB Bandwidth 2 Hz to 100 kHz Input Impedance 1 MQ 145 pF at AUDIO IN Minimum Resolution 4 digits for inputs gt 100 mV 3 digits for inputs lt 100 mV Chapter 2 51 Verifying Performance Audio Analyzer Specifications DC Voltage Measurement Voltage Range 100 mV to 42 V Accuracy 1 0 of reading DC offset DC Offset 45 mV Supplemental Characteristics Minimum Resolution 1 mv Distortion Measurement Fundamental Frequency 1kHz 5 Hz Input Level Range 30 MV rms tO 30 V rms Display Range 0 1 to 100 Accuracy 1
66. n 0 01 dB Peak Transmitter Carrier Power Measurement RF In Out only After one timeslot 577 us from an isolated receiver hop trigger Range 5 to 32 dBm Input Frequency Setting 10 kHz Error Input Level Setting Error 3 dB Accuracy 0 6 dB noise effects 0 015 mW over the range 1710 MHz to 1880 MHz and 0 dBm to 32 dBm For gt 1880 MHz 0 6 dB noise effects 0 015 mW For lt dBm 0 6 dB noise effects 0 015 mW a When setting up the RF analyzer for measurements you enter the expected fre quency and level for the incoming signal If the frequency is within the limits shown the specified performance will result b To calculate accuracy add or subtract the 0 5 dB error 0 6 dB for Peak Trans mitter Carrier Power from the absolute power in dBm then convert to mW and add or subtract the 0 015 mW noise effect Supplemental Characteristics Minimum Resolution 0 2 dB Chapter 2 43 Verifying Performance RF Analyzer Specifications Power Measurement Accuracy Over Extended Power range Agilent 83220A only Measurements taken at 1880 MHz 0 06 gt 0 04 gt 0 02 Acc dB 0 0 02 Li l L 1 E 5 5 10 15 20 25 30 35 Power dBm Power Measurement Accuracy Over Extended Frequency Range Agilent 83220A only Measurements taken at 0 dBm 0 2 LL 0 1 LL Acc dB 0 0 1 LL 1710 1744 1778 1812 1846 1880 1925 1950 1975 199
67. necting the DCS1800 Test System to the mains line voltage ensure that the correct operating voltages and fuses have been selected for each instrument A rear panel line power module permits operation from 100 120 220 or 240 Vac The HP Agilent 8922 power module is documented in the Fuses and Power Cords section of Installing Your HP Agilent 8922 in the appropriate HP Agilent 8922 Series User s guide On the Agilent 83220A E the number visible in the window located on the module indicates the nominal line voltage to which the Agilent 83220A E must be connected Verify that the Line Voltage Selection Cam is matched to the power source see Figure 1 1 Table 1 3 lists the ratings and the Agilent part numbers of the line fuses Internal Fuses The fuses used within this instrument are listed below and are non operator replaceable These fuses are fast blow type F Fuse Current Voltage Type Fl 3 0A 250V F F2 6 0A 250V F NOTE The line voltage and line fuse ratings are selected at the factory according to the line voltage specified when the Agilent 83220A E and HP Agilent 8922 were ordered If the voltage was not specified the line voltage and line fuse rating are selected according to the country of destination Line Voltage Selection 1 Open the Cover Door by placing a small standard screwdriver between the Cover Door and the Line Power Module and pry open 2 Remove the Line Voltage Selection Cam
68. nk connectors 75 0 cell configuration screen 63 cell configuration subsystem 81 cell control screen 65 confidence tests 18 configuration DCS1800 PCS1900 13 configure screen 66 radio type 66 configure subsystem 84 connectors 10 MHZIN 76 10 MHz OUT 76 AM IN 77 AUXRFIN 75 AUXRF IN link 75 AUX RF OUT 74 AUX RF OUT link 75 PCN INTERFACE 77 RF IN OUT 74 SCOPE 77 D Data Recovery 0 3 GMSK 46 DC AM verification HP Agilent 8922A B G H 25 26 DCS1800 default settings 71 Index entry limit modifications 70 GPIB commands 80 messages 88 DCS1800 PCS1900 configuration 13 DCS1900 default settings 71 default settings DCS1800 PCS1900 71 entry limit modifications DCS1800 PCS1900 70 environment operating 15 storage 15 equipment supplied power cords 6 F FM Demodulation Output 47 fuse 5 fuse rating 6 fuse replacement 5 fuse selection 5 G General Specifications 55 general information 15 GPIB commands 80 cell configuration subsystem 81 configure subsystem 84 spectrum analyzer subsystem 85 GPIB programming 79 information general 15 initial inspection 3 installation overview 9 installation check list 4 installing your Agilent 83220A 1 L line voltage selection 5 M messages 88 Modulation 0 3 GMSK 40 O operating environment 15 options 15 ordering information 59 Oscilloscope Specifications 53 Output FM Demodulati
69. nt panel connect the Agilent 83220A E to the HP Agilent 8922 as shown using the cables provided Part No 8120 2682 T Gocooloood ojsodjsooa oo Ola O ooog oooo oo 000009 3 On the rear panel connect AM to AM and SCOPE to SCOPE as shown using the cables provided Part No 83220 61025 Chapier 1 9 Installing Your Agilent 83220A E Installation Overview 4 On the rear panel connect Agilent 83220A E 10 MHz IN to HP Agilent 8922 10 MHz OUT and connect the PCN INTERFACE cable as shown using the cables provided Part No 83220 61025 and 08922 61083 5 Connect a 1 2 5 10 or 13 MHz signal to HP Agilent 8922 R 001 connect as shown using the cable provided Refer tothe 1 EF IN If you have OPT Installation Overview section in the Installing Your HP Agilent 8922 chapter of the appropriate HP Agilent 8922 Series User s Guide for information on configuring the reference 6 Connect the supplied power cords to the Agilent 83220A E and HP Agilent 8922 and power up the instruments 10 Chapter 1 Installing Your Agilent 83220A E Running the System Calibration Routine Agilent 83220A only Running the System Calibration Routine Agilent 83220A only The System Calibration is a user initiated calibration routine performed between the HP Agilent 8922 and the Agilent 83220A NOTE The System Calibr
70. oling Requirements Supplemental Characteristics Leakage Chapter 2 Dimensions height x width x length 133 mm x 426 mm x 574 mm 5 25 x 16 75 x 23 in nominal 310 mm x 426 mm x 574 mm 12 25 x 16 75 x 23 in nominal 16 3 kg 36 Ibs nominal 48 3 kg 106 Ibs nominal 0 to 55 C 40 to 70 C Up to 95 Relative Humidity to 40 C Operating Voltage Range 100 120 220 240V Operating Frequency 48 440 Hz 200 VA max Agilent 83220A E 640 VA Agilent 83220A E HP Agilent 8922 CAUTION Before switching on this instrument make sure that the line voltage selector switch is set to the voltage of the power supply and the correct fuse is installed Ensure the power supply voltage is in the specified range WARNING Normal operating position must allow access to the appliance coupler mains input via power cord so that it may be used as a power disconnect For continued protection against fire hazard only replace the line fuse with the same type and line rating F2 0A 250V 100V and 120V or F1 5A 250V 220V and 240V The use of other fuses or materials is prohibited Meets CISPR11 Level A and EN50082 1 Meets IEC 1010 1 1990 A1 1992 A2 1994 LpA lt 70 dB at 0 5m To provide adequate cooling an air gap of approximately 75mm should be maintained around the instrument At RF generator output levas lt 40 dBm typical leakageis lt 1 uV induced in a resonant dipole antenna 1 inch away from any sur
71. on 47 Pulse Demodulation 47 Output RF Spectrum Measurement 48 P PCN INTERFACE connectors 77 PCS1900 entry limit modifications 70 GPIB commands 80 messages 88 phase error verification 29 HP Agilent 8922E F G H 34 pk Tx carrier power verification 29 HP Agilent 8922E F G H 34 power cord 6 preparation for use 4 Programming Remote 54 programming GPIB 79 Pulse Demodulation Output 47 pulse modulation verification HP Agilent 8922A B 32 HP Agilent 8922E F G H 34 R Reference Specifications 56 Remote Programming 54 GPIB 54 RS 232 54 RF Analyzer Specifications 42 RF Generator Specifications 38 RF IN OUT connectors 74 RF port selection verification 22 S SCOPE connectors 77 screen cell configuration 63 cell control 65 configure 66 89 Index spectrum analyzer 68 tests 69 Specifications Audio Analyzer 51 Audio Source 50 General 55 Oscilloscope 53 Reference 56 RF Analyzer 42 RF Generator 38 Spectrum Analyzer 49 Spectrum Analyzer Specifications 49 spectrum analyzer screen 68 spectrum analyzer subsystem 85 Spectrum Measurement Output RF 48 SYS CAL 11 19 system calibration SYS CAL 11 19 system calibration routine Agilent 83220A only 11 T tests screen 69 sys cal 69 Transit Protection Transit Case 57 U user confidence tests 18 vV verification DC AM HP Agilent 8922A B G H 25 26 phase error 29 phase error HP Agilent
72. only Agilent 83220A only U System Specifications System Connection Connect the Agilent 83220A E and HP Agilent 8922 together as shown in the Installation Overview section of the Installing Your Agilent 83220A E chapter in this manual Cycle the DCS1800 Test System power If the message DCS1800 Test Set has changed Rereading cal data is displayed then perform the System Calibration routine Instructions for performing the System Calibration routine are described in the Running the System Calibration Rout ine section of the Installing Your Agilent 83220A E chapter in this manual DCS1800 Configuration Configure the HP Agilent 8922 for DCS1800 operation Refer to the Dcs1800 Configuration section of the Installing Your Agilent 83220A E chapter in this manual Chapter 2 19 Verifying Performance Setting up the Tests Preset Conditions The confidence tests can be run in any order but are shown in the preferred order of test Before running the confidence tests in the preferred order it is important to cydethe DCS1800 Test System power and then configurethe HP Agilent 8922 for DCS1800 operation If you wish to run the confidence tests in a different sequence or if you wish to run one or more of the confidence tests in isolation it is important to start each confi
73. our Agilent 83220A E Fuses and Power Cords Length Cable Part C ae Cable For Use In PlugType Number D Plug Description inches Color Country mm 8120 1351 0 90 Straight BS1363A 90 229 Mint Gray United Kingdom 8120 1703 4 90 90 229 Mint Gray Cyprus Nigeria Rhodesia Singapore TS 8120 1369 0 Straight 79 201 Gray Australia VA 8120 0696 NZSS198 ASC112 87 221 Gray Argentina Straight 90 New Zealand Mainland China 8120 1689 7 Straight 79 201 Mint Gray East and West a 8120 1692 gt 90 79 201 Mint Gray Europe Central African Republic Arabia Egypt 8120 1378 Straight United States SS 8120 4753 NEMA5 15P2 Canada Mexico 8120 1521 Philippines 8120 4754 Taiwan J apan 8120 1348 80 203 8120 1538 80 203 8120 2104 Straight SEV 1011 79 201 Switzerland 1959 24507 Type 12 8120 2296 Straight 90 79 201 8120 3997 Straight 90 177 402 United States Canada 8120 2956 90 Strai ght 79 201 Denmark 8120 2957 8120 3997 8120 4211 8120 4600 90 90 Straight Straight Straight IEC83 B1 Straight 90 79 201 79 201 South Africa India 8120 1860 8120 1575 8120 2191 8120 4379 Straight CEE 22 V1 Systems Cabinet Use Straight Straight Straight 90 90 90 59 150 31 79 59 150 80 203 a Part number shown for plug is industry identifier for plug only Number shown for cable is Agilent Part Number for complete cable including p
74. pected values should be mainly due to losses in the external RF cables Check that the reading is consistent with the cable being used 10502A has approx 0 5 dB loss 19 Verify the presence of a rising pulse within the limits of the amplitude mask on the DSP Analyzer screen 20 Alter the DSP ANALYZER screen as follows Chapter 2 35 Verifying Performance Phase Error Pulse Modulation amp Peak Transmitter Carrier Power Verification Agilent 83220A only En N 21 Verify the presence of a falling pulse within the limits of the amplitude mask on the DSP Analyzer screen 22 Cycle the DCS1800 Test System power 36 Chapter 2 Verifying Performance System Specifications System Specifications This section contains the system specifications and supplemental characteristics that apply to the Agilent 83220A E DCS1800 Test Set when used in conjunction with any of the HP Agilent 8922 Series Specifications vs Characteristics Specifications Specifications describe the instrument s warranted performance and apply after a 30 minute warm up over the temperature range 0 to 55 C unless otherwise stated Supplemental Characteristics Shown in italics are intended to provide additional information useful in applying the instrument by giving typical expected but not warranted performance parameters These characteristics are shown in italics or labeled as typical usable to or nominal NOTE If you h
75. r using the BNC cable provided Part No 83220 61025 NOTE An independent 10 MHz reference should not be connected to the Agilent 83220A E since the HP Agilent 8922 can tune its 10 MHz reference for some applications The H P Agilent 8922 10 MHz OUT and the Agilent 83220A E 10 MHz IN should always be linked together 76 Chapter 4 Connectors Rear Panel Connectors 3 AM This port is always connected to the HP Agilent 8922 rear panel AM port it allows AM from the HP Agilent 8922 front panel AM IN connector or internally generated AM signals to put AM onto the Agilent 83220A E leveling loop to produce AM signals at DCS1800 and PCS1900 frequencies Connect together using the BNC cable provided Part No 83220 61025 See Also Screens RF Generator RF Analyzer RF Gen 4 SCOPE This port is always connected to the HP Agilent 8922 rear panel SCOPE port it carries the detected video signal from the Agilent 83220A E peak detector to the HP Agilent 8922 oscilloscope display This is used during Peak TX power measurements Connect together using the BNC cable provided Part No 83220 61025 See Also Screens Oscilloscope 5 PCN INTERFACE This multipin D type connector is always connected to the HP Agilent 8922 rear panel PCN INTERFACE connector It carries various analog and digital signals to allow the HP Agilent 8922 to control the internal settings of the Agilent 83220A E Connect together using the cable provided Part No 08922
76. rance and feel as the HP Agilent 8922 Series Control of the system is carried out using the HP Agilent 8922 keyboard and display The HP Agilent 8922 Series has been enhanced to allow operation with the Agilent 83220A E to test DCS1800 PCS1900 equipment The HP Agilent 8922 is controlled by using menu selections to move from one display screen to another Within each screen data can be entered by editing fields using keys or by adjusting the knob The following chapter describes the enhancements to each screen new fields changed limits on existing fields and default settings for DCS1800 and PCS1900 operation For each screen changes are indicated with reference to the HP Agilent 8922H Enhancements to the other members of the HP Agilent 8922 Series will be identical where functions exist in all products of the family Affected screens are e CELL CONFIGURATION screen e CELL CONTROL screen e CONFIGURE screen e SPECTRUM ANALYZER screen e TESTS screen NOTE On an HP Agilent 8922E F H the Spectrum Analyzer screens Output RF Spectrum screens and Pulse ON OFF Ratio screens are only available with Option 006 NOTE If you have the Agilent 83220A E Option 010 Multi Band Test System refer tothe appropriate HP Agilent 8922 Multi Band User s Guidefor more details on screen differences 62 Chapter 3 Screens Cell Configuration Cell Configuration CELL COWFIGUSAT OOM Seru Cel HEE 4 BEL ARF CH q EN E La Py m
77. s Test and Measurement Call Center P O Box 4026 Englewood CO 80155 4026 tel 1 800 452 488 LATIN AMERICA Agilent Technologies Latin America Region Head quarters 5200 Blue Lagoon Drive Suite 950 Miami Florida 33126 U S A tel 305 267 4245 fax 305 267 4286 Agilent 83220A E Description Agilent 83220A E Capability The Agilent 83220A E expands the capabilities of the HP Agilent 8922 GSM Test Set family to comprehensively test DCS1800 mobile radios across the band 1710 MHz to 1880 MHz and PCS1900 mobile radios across the band 1850 MHz to 1990 MHz All the features of the RF generator RF analyzer and general instrumentation of the HP Agilent 8922 series are retained DCS1800 Base Station The Agilent 83220A E when configured with the HP Agilent 8922 can now emulatea DCS1800 PCS1900 base station and establish and maintain a DCS1800 PCS1900 link Once a link has been established comprehensive tests can be sequenced across the full DCS1800 PCS1900 band without interrupting the link NOTE PCS1900 is configured as a standard on all Agilent 83220Es with serial prefix 3524U 00479 or greater Prior to this serial break PCS1900 was available on the Agilent 83220E as options K19 PCS1900 is configured as a standard on all Agilent 83220As with serial prefix 3524U 00424 or greater Prior to this serial break PCS1900 was available on the Agilent 83220A as options K 19 Your HP Agilent 8922 must also be con
78. t No 1250 0780 or similar link the AUX RF OUT tothe RF IN OUT port OOOO OOOO oc OOOO Eosbaso oe ole o ooo Cleo olo 7 FromtheTo Screen field select the SPECTRUM ANALYZER screen select More then SPEC ANL 1 Toselect the RF GENERATOR RF ANALYZER screen on an HP Agilent 8922A B simply press RFG RFA 22 Chapter 2 Verifying Performance RF Port Selection Verification Agilent 83220A only 8 Verify the presence of an 1806 MHz signal at a level of 5 dBm 3 dB 4 dB Differences from the expected value includes a loss of 0 5 dB typically for the external 10502A RF cable 9 FromtheTo Screen field select the cw MEAS AF ANALYZER Screen select More then CW AF ANL 10 Verify that the signal frequency is 1806 MHz 32 Hz and that the signal level is 5 dBm 1 dB 2 dB Differences from the expected value includes a loss of 0 5 dB typically for the external 10502A RF cable 11 Select the RF GENERATOR RF ANALYZER screen press SHIFT RFG RFA and alter the settings as follows RF Analyzer RF Input Amplitude AUX RF IN 5 0 dBm 12 On the Agilent 83220A using a short cable lt 30cm Part No 10502A or similar and 2 BNC toN type adapters Part No 1250 0780 or similar link the AUX RF IN tothe AUX RF OUT port 7 Bocodesod y or gt T Oloooo coool ele e o ojo OOOO oo 000090 13 Fromthe To Screen fiel
79. tected from temperature extremes which may cause condensation CAUTION This instrument is designed for use in Installation Category II and Pollution Degree 2 per IEC1010 and 644 respectively To clean the instrument Use a soft clean damp cloth to clean the front panel and side covers Refer toSystem Specifications In the Verifying Performance chapter in this manual for information about the operation or storage environment Instrument Options Refer to System Specifications in the Verifying Performance chapter in this manual for information about instrument options Specifications Refer to the Verifying Performance chapter in this manual for system specifications Chapter 1 15 Installing Your Agilent 83220A E Lifting Carrying the Agilent 83220A E and HP Agilent 8922 Lifting Carrying the Agilent 83220A E and HP Agilent 8922 To avoid potential injuries ensure that two people are employed in lifting the HP Agilent 8922x from it s packaging and at all other times Before attempting to lift or carry the combined instruments consider the following basic lifting techniques employing two people to help avoid personal injury Using both arms to lift instruments e Reach for the instruments bend your knees and waist and keep your back straight GRASP the lowermost instrument firmly e LIFT with your legs e KEEP your shoulders level 16 Chapter 1 2 Verifying Performance Verifying Performanc
80. ts 1 73 ms from an isolated RF generator hop trigger Phase Error lt 0 5 rms Peak Phase Error lt 2 0 peak Frequency Error 0 005 ppm 9 Hz reference accuracy for normal bursts 0 01 ppm 18 Hz reference accuracy for RACH bursts Pulse Modulation Input Levels TTL Rise Fall Time 10 90 lt 5 us Supplemental Characteristics On Off Ratio gt 80 dB 40 Chapter 2 Verifying Performance 0 3 GMSK Modulation 30 dB Pulse Modulation Supplemental Characteristics All timeslots 30 dB higher than desired active timeslot to test adjacent timeslot rgection Input Levels TTL Rise Fall Time 10 90 lt 5 us AM for Level Control For output levels lt 1 dBm at AUX RF OUT Agilent 83220A only or lt 25 dBm atRF IN OUT Supplemental Characteristics Input Range 1 0V to 0 6 V mpedance 600 Q nominal DC coupled Sensitivity 100 AM pe volt nominal Calibration 0 VDC input produces calibrated output from the RF generator Rise Fall Time 10 90 lt 20 us 1 Not available with HP 8922E Chapter 2 41 Verifying Performance RF Analyzer Specifications RF Analyzer Specifications Frequency Range 1710 MHz to 1900 MHz 1910 MHz to 1990 MHz Resolution 1 Hz Hop Mode Resolution 100 kHz Offset Frequency lt 50 kHz Offset Resolution 1 Hz for digital data recovery and modulation accuracy measurements RF In Out SWR lt 1 5
81. ty after calibration 0 to 55 C 1 Not available with HP Agilent 8922E 56 Chapter 2 Verifying Performance Transit Protection Transit Protection Transit Cases Part Number 9211 2661 Transit case for Agilent 83220A E Part Number 9211 1163 Operating case for Agilent 83220A E HP Agilent 8922 system Chapter 2 57 Verifying Performance Agilent Technologies Systems Engineering Assistance Agilent Technologies Systems Engineering Assistance Extra assistance from Agilent Technologies in the form of system installation productivity assistance programmer or user training or solution consultingare available on a consulting basis Call Agilent Technologies for a quote 58 Chapter 2 Verifying Performance Ordering Information Ordering Information Agilent 83220A E DCS1800 Test Set Option 0B1 Option AX4 Option W30 HP Agilent 83212B or C Chapter 2 Provides a total of two sets of User s Guides 83220 90027 Rack Mount FlangeKit 5062 4071 Extended repair service GSM 900 DCS1800 Mobile Station Test Software 59 Verifying Performance Ordering Information 60 Chapter 2 3 Screens 61 Screens About This Chapter About This Chapter This chapter describes the enhanced HP Agilent 8922 Series user interface which allows operation with the Agilent 83220A E The DCS1800 Test System Agilent 83220A E and HP Agilent 8922 is designed to have the same appea
82. ual and the GPIB Programming Examples and Programmer s Reference chapters of the appropriate Agilent 8922M S Programming Reference Guide NOTE If you have the Agilent 83220A E Option 010 Multi Band Test System refer tothe appropriate HP Agilent 8922 Multi Band User s Guidefor more details on connection and operating differences WARNING If this instrument is not used as specified the protection provided by the equipment could be impaired This instrument must only be used in a normal condition in which all means of protection are intact 1 Installing Your Agilent 83220A E Installing Your Agilent 83220A E Introduction Introduction This section provides installation instructions for the DCS1800 Test System Agilent 83220A E and Agilent HP 8922 The Agilent 83220A E User s Guide covers the operation of the Agilent 83220A E in conjunction with an appropriate HP Agilent 8922 Series GSM Test Set extending the capabilities of the HP Agilent 8922 Series to cover the DCS1800 PCS1900 frequency bands The Agilent 83220A E and HP Agilent 8922 together constitute a DCS1800 PCS1900 Test System Using this Chapter Use the following procedure to power up the Agilent 83220A E HP Agilent 8922 DCS1800 Test System correctly After completion of this procedure refer to Making Measurements in the appropriate HP Agilent 8922 Series User s Manual for an introduction to operating the appropriate HP Agilent 8922
83. umber of technical contact person Return address Model number of returned instrument Full serial number of returned instrument O hopo an co List of any accessories returned with instrument 2 Send copies of any performance data recorded for the instrument 3 Pack the instrument in the original shipping materials or the equivalent 4 Iftheoriginal shipping materials are not available follow these steps to repackage the instrument for shipment a Wrap the instrument in antistatic plastic to reduce the possibility of ESD caused damage b Obtain a double walled corrugated cardboard carton of 159 kg 350 Ib test strength The carton must be large enough and strong enough to accommodate the instrument Allow at least 7 to 10 cms on all sides of the instrument for packing material c Surround the instrument with 7 to 10 cms of packing material to protect it and prevent it from moving in the carton 5 Seal the carton with strong nylon adhesive tape 6 Mark the carton FRAGILE HANDLE WITH CARE 7 Retain copies of all shipping papers 14 Chapter 1 Installing Your Agilent 83220A E General Information General Information Operation and Storage Environment This instrument is designed for Indoor use only The instrument may be operated at temperatures from 0 C to 55 C at altitudes up to 4600m 15 000 ft The instrument may be operated in environments up to 95 relative humidity to 40 C but it should be pro
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