JD7105B/JD745A Base Station Analyzer
Contents
1. Mode UU e IEEE 802 16e 2005 mT wom Bandwidth y o i i j i Spee tein e WiBro Korean Mobile WIMAX OFDMA Service an ETETA Emission Mask 5 ms U e s Ratio SIA F i 20 0 f RF and modulation analysis OTA Analysis an a option 26 option 46 U UU us soo Aver aige Center 2 345 000 000 Gu frequency Span 30 000 000 MHz Channel power Constellation Preamble scanner ABW 100 kiz VOW 100 Kitz Sweep Time 1 5 sec Occupied bandwidth Spectral flatness Multipath profile i z _ lt _ Spectrum emission mask EVM vs subcarrier Preamble power lt a es ae Spurious emissions EVM vs symbol Trend 6 00 Mite 0 00 Miz Power vs time frame Auto measure Sistas Taare Power statistics CCDF Start Symbol Time Stop Symbol T mme Measurements WiMAX spectrum emission mask Channel power measures the total RF power spectral density and Spurious emissions identifies and determines the power level of peak to average ratio PAR of the signal in a Mobile WiMAX channel spurious emissions in certain frequency bands bandwidth Power vs time frame verifies that the transmitter output power FINE MARKMAN has the correct amplitude shape and timing according to the Thamel Power RF Analysis Center Frequency 27 345 000 000 SH Preamp on Freg Referee External 10 MHz Channel Power Sia n d a rd S Channel Attenuation 20 dB AI Irigger Source external i Channel Standard ProtR 1 252. e Creates user defined settings for channel power occupied BW spectrum emission mask and adjacent channel power measurements H Dovmloadit 2547 spa e Registers or edits user definable cable types into the instrument s Spectrum custom cable lists e Registers or edits user definable frequency bands into the instrument s custom bands lists e Creates or edits multisegment lines for insertion gain and loss Po D 1 i i 2135 10 2136 60 2138 10 213960 2144110 2142 60 2144 10 21456 60 2147 10 2148 60 2150 10 m ea S u re m e nts Dale 19700101 Time 000060 Model GCTt054 Femware 3 120 SN 0927G6342 Span 1500 input Aten O RBW kHz VBV 30bit Ext Offee 000 Domas t nti dey len ee e Superimposes up to 4 traces on one measurement graph H rde wtih dew e Creates Auto Measure scenarios for multicarrier signal analysis H ANu Pot PPL LAE ME pusis BEES i gt eee Te Pr saza ji 3 a Vera rii Sethe ew fe ae leet EDA ie RAS at 228 eS Aae tee ikam tius i i NWhomes Peay 2s Paap SLM Pree te SRE 5T H Downloadi532 ina Spectra Mt 2260 Wet BNB MEW ne 25 50 MERR AE MA PT Mk 08 WE DHE We a E n E Time Line AOGAS 1306 17 Coren Pose DOM Correct Paye 11 J Ds um ca ay a ed min i gt M wal a l E Cate AAN Te HAN kadi GOT HSA Frm 11 N Sean He iai Atlan RIN Sat VEW ier Ed sel 100 JDViewer spect
3. Delay nO us Preamble Index A 113 Search Type Subcarr ier Full Start Symbol 1 me Spectrum Flatoess Iragger Source External External 20 db Al Subcarr ier Aver aye Sule arrier Prewerr MAX Stop Symbol 1 ime WiMAX spectral flatness 24 JD7105B JD745A EVM Freq Reference External 10 MH Constellation Spectral Flatness 5 Sule arrive EVM vs sub carrier shows the error vector magnitude representing the average constellation error of WIMAX OFDMA subcarriers EVM vs symbol shows the error vector magnitude representing the average constellation error of WiMAX OFDMA symbols Mode WiMAX OTA Premnble Scanner Center Frequency 2345 G00 000 GHe Preamp on Freg Reference GPS Channel IAIISTIATI Attenuation Udb A I rigger Source Internal Channel Standard ProtR 1 2521 External Offset 40 00 dB Off Irigpger internal Helative Power dH Multipath Profile 1 Dandwidih 10 Milz Frame Length Proevwenle Power 9 ms ven CP Ralio 17A Delay Preamble 0 00 us Relative Power dB 0 26 or T a l otal Preamble Power 39 22 dim Preamble Index A Time Offset us Longitude Latitude Satellite Meee RRR WiMAX OTA preamble scanner The complementary cumulative distribution function CCDF characterizes the statistical power level distribution of WIMAX at any given time The over the air OTA analyzer provides three essential measurements preamble scanner
4. Provides the parameters of spectrogram and a multi signal RSSI required to properly monitor identify and located interference Signals In addition it is capable of generating an audible variable tone accordingly to the signal strength Cable and Antenna Analyzer 5 MHz to 4 GHz Channel Scanner option 012 Provides cable and antenna characterization for proper power transfer from the radio to the antenna Locates failures points for an effective troubleshooting Verifies cable conformance specifications Intuitive graphical representation of the signal s power for each of the 20 user definable carriers frequencies or channels allowing a fast identification of improper power levels Signal Analyzer option 020 to 029 Power Meter Integrated power meter eliminates the need of a separate instrument and provides power measurement with or without power sensors Provides 3GPP 3GPP2 IEEE802 16 conformance for testing for power and spectrum as well as modulation analysis from 2G to 4G wireless technologies 2 Port Transmission Measurements option 001 Performance verification of passive and active devices such as filters and amplifiers Bias Tee option 002 Over the Air Analyzer option 040 to 049 Supplies up to 32 VDC built in bias to active devices such as amplifiers CW Signal Generator option 003 Provides a sine wave or continuous wave CW source allowing m
5. quality service Measurements The spectrum analyzer with an audible indicator is especially useful during the process of locating the interferer source with a directional antenna Spectrogram Received signal strength indicator RSSI is a multiple signal tracking metric that is particularly useful for measuring power level variations over time The RSSI measurement also allows the assignment of power limit line for generating an audible alarm and increasing an alarm counter every time any signal goes beyond the limit line For long term analysis the spectrogram and RSSI measurements can be automatically saved into an external USB memory Post analysis can be done with the application software JDViewer Erin o Sey irr F25 A La Peet Foe Fd IL Ha ih ee The audible tone is proportional to the signal power strength In addition a built in AM FM audio demodulator it provides a convenient er es A identification of AM FM signals vers _ T RI T Interference ID allows an automatic classification of the interfering signal providing a list of possible signal types corresponding to the signal selected L IAN Bee Alem ial i The spectrogram captures spectrum activity over time indicating the power levels of the spectrum with different color identification Le ie Ereg br Bhar ain Min dka Ave un Pr q F F FEL ay Te ft Gy a i The spectrogram is an effective measurement to identify periodic o
6. 800 O00 GHe Preamp on Freq Referee External 10 Mee Channel Attenuation 15 db A rigger Source Internal Channel Standard FBN U External ttset 40 00 dB On rigger internal Constellation Midamble Power Scale Unit dB Detect Mode vu Auto Scramble A u Mas User 16 Cile Power 20 0 EPSE 30 0 pe s Threshold gt Code Error 27 00 dB 400 50 0 e walsh Code Shut Power DwPTS Power No of Active Code Scramble Code Max Active Code Power Max Inactive Code Power Avy At live Code Power Avy Inactive Conte Power TD SCDMA code power Code error shows the power data and error data for an individual code channel and layer for a specified time simultaneously 22 JD7105B JD745A Mobile WiMAX Signal Analyzer The spectrum emission mask SEM compares the total power level within the defined carrier bandwidth and the given offset channels The Mobile WiMAX Signal Analyzer performs power measurements according to the standards and spectrum measurements as well as modulation analysis in a simple and easy manner with just a few key strokes Morde Mobile WiMAX Specicum Emission Mask Center Frequency 2 345 000 000 SH Preamp on Freg Refermer External 10 MHz Channel Power It performs conformance testing according to the following standards Channel Standard _ProtR1 1 2521 Externat Offset 40 00 dB On Trigger External providing a simple Pass Fail indication on each test Scale Unit dim
7. Code pM 16 9 10 49 dD 1 93 Domain Power Scale Unit ob Detect Mode WCDMA ESDrA a ____a_s_ amp i 2 mr amn Heference Helative H Grr anble A IC te i J44 n Wakh Crh G at f I hreshold 33 00 dB E E ein f TE 5 CCPCH 4 I 178 7 0n atl Walsh Creche PICH 256 2 On Channel Porwet Pe atler del ion Fair rant Conkle Piewer FVM WCDMA code domain power The codogram displays the power variation for every code over time presenting a clear view of the traffic load per channels at any given time Moile WCDMA HSDPA Codogean Center Frequency 7 132 800 000 GHe Preamp on Freq Referee GPS Channel 10604 FWD Attenuation DdB A Iragger Source GPS Channel Standard Band 1 21U00 Ge External Offset 40 00 dB Ott Irigger GPS Scale Unit Sec Count 140 ae Power Detect Mode s WCDMA HSDPA Helerence Helative Ser mralele A 347 Comisie arn Ihreshold 2 7 00 db S CCPCH 256 N OTT PICH 256 0 OTT U 0o 100 H 20 0 ann Walsh Cade WCDMA codogram 16 JD7105B JD745A Received code signal indicator RCSI shows the power variation over time of WCDMA control channels CPICH PCCPCH SCCPCH PICH PSCH and SSCH For long term analysis the codogram and RCSI measurements can be automatically saved into an external USB memory post analysis can be done with the application software JDViewer The complementary cumulati
8. Internal Channel Standard Band U SU External Offset U U0 dB Off rigger Free Hun Channel Power 20 4 _ent Occupied Aw ow 60 0 uns 30 14 vow M x Specturm 100 kHz 9 g 5 T T JE T i T T Emission Mask Sweep ime LIL j T T i i fi T 5 26 sec 1104 Average 1 es Start 30 000 000 Miz rrequency Stop 1 000000 000 Ge Adjacent 1 Channel Power Moile Spectrn Analyzer Spur inus Emissions Measure Measurement Ramitwiilih Peak Frequency Peak Level 11 W fe frequency Hange E T3 i A Spur inas ETS Th 100 000 kite 150 000 kiiz Emissions 150 000 kHz 30 000 MHz AM FM Audio Demod 1 000 Giz 4 000 GHz 0 000 M 000 GHz eke BOD OT MER TAZ A Spurious emissions Field strength offers quick and convenient field strength measurement and analysis with the userdefinable multi segment line The field strength measurement is easy to make once the antenna factors are specified in the analyzer AM FM audio demodulation allows an easy identification of interfering signals The AM FM signal can be demodulated into the instrument s built in speaker or through a headset Spectrum analyzer can be simultaneously operated with CW signal generator It is easily fulfilling the guideline of gt 100 dB required for repeater and antenna isolation measurement Cable and Antenna Analyzer The Base Station Analyzers perform cable and antenna measurements for the verification of base stati
9. Lipping OI art Tire 1a a a Clap Tie Ce Tee Patiern yr Coe rer Pr ter re Coe rro Ho trae lire Coie Erno tes Com Leer Lippi O Patiern ayn Ce Sym Pr ter re Coe Error Frare rer Paliman ee Sart Dire 1a A fo oy hie he Fiame Tee E09 Irate lire Coe Erro Adare Comme 29 JD7105B JD745A Pare tre Pal See E1 BERT r T1RX signal level been Lippe OI art Dare A oP fap Tee W Tl Sail Frac yyre BAL Yeti Alain Patiern Syn APS fhe AL m ie mrs 4 Slama hna Pra re Lares Pattern yra i neve Mit irre Rate ni fora Co TI BERT 4 See ordering information section for detailed options Channel Scanner The channel scanner function option 12 can measure up to 20 independent channels of any cellular technology at any frequency channel or frequency The channel scanner function provides a simple view of the power level of each signal type Moile Se ancien Ashom Sammer SaSu Stat t Freir y Preamp on Freq Reference Internal Start Channel PXLUITOTIE Attenuation Udb A rigger Source internal Channel Standard rrsrzsrrs External Offset U U0 dB Off Irigger Free Hun Channel Scanner oe A Frequency 200 Scale Unit dm DI 991 61 MHz 42 09 dB Scanner Detect Mode Custom nN ouu Detector 00 0 fl HMS e ARW M 120 0 30 kHz Froegueni y MHz VOW A 30 kHz Custom Scarier inn Cu
10. WCDMA ACLR Spurious emissions identifies and determines the power level of spurious emissions in certain frequency bands The constellation measurement displays the I Q constellation diagram with modulation metrics to characterize the transmitter s modulation performance Moile WCDMA sSHSDPA Constellation Center Frequency 2 137 800 000 GHe Preamp on Channel 10664 FWD Attenuation 20 db Al I rigger Source External Channel Standard Band 1 2100 Ge External Offset 40 00 dB On rigger Freq Referee External 10 MHe Constellation External e Domain Power Detect Mode PIH Power WCDMA HSDPA Aho Comloge am Scramble A f EYM Peak CDE Freqwn y Frror CDP Tabte Average i Time Offl de Um Thru Ser mnble Cole WCDMA constellation WCDMA HSDPA Signal Analyzer cont d Code domain power CDP measures power levels of the spread code channels across WCDMA RF channel normalized to the total WCDMA power CDP shows the physical channels of the WCDMA signal and identifies the various spread factors by different color types making it easy to differentiate traffic types carried in the WCDMA signal Moile WCDMA HSDPA Cade Donin Center Frequency 2 162 400 000 GHe Preamp on Freq Reference External 10 MHz Constellation Channel 10608 FWD Attenuation 20 db Al I rigger Source External Channel Standard Band 1 21U00 Ge External Offset 39 40 dB IOn Irigger External D aena
11. a few key strokes It performs conformance testing according to the following standards providing a simple Pass Fail indication on each test e 3GPP2 C S0002 Physical Layer Standard for COMA2000 Spread Spectrum Systems e 3GPP2 C S0010 Recommended Minimum Performance Standards for CDMA2000 Spread Spectrum Base Station RF and modulation analysis OTA analysis option20 option 40 Channel power Constellation Channel scanner Occupied bandwidth Code domain power PN scanner Spectrum emission Codogram Multipath profile mask RCSI Code domain power ACPR CDP table Multi ACPR Auto measure Spurious emissions Power statistics CCDF Measurements Channel power measures the total RF power spectral density and peak to average ratio PAR of the signal in a cdmaOne or CDMA2000 channel bandwidth Occupied bandwidth measures the frequency bandwidth that contains 99 of the power measuring the total integrated power and the occupied power More COMA Occupied BH Cenier Dreguency 1 0607 Mile Preamp OTT Treg Reference Intemal hanmi ced FALI Aeration U dk Iraqger amare FRE Channel Standard Band KA PCS External Onset 000 08 Trigger Free Run Mode PFT Detector AMS HHA AIK vow JOkHe OU Sea az Treenime Step TOTIS MUltFACR Th d 4 Occupied Beads edt Integrated Power 24 dim y 25 Mt Emissions Ctupied Power jii n Spectrum emission mask SEM compares the total power level wit
12. multipath profile and preamble power trend The OTA provides cell ID sector ID and preamble at any point in the area served by the base station including multipath profile indicating the strength of reflected signals as well as carrier over interference histogram indicating the signal strength variation LTE FDD Signal Analyzer The LTE Signal Analyzer performs power measurements and spectrum measurements as well as modulation analysis in a simple and easy manner with just a few key strokes It performs conformance testing according to the following standards providing a simple Pass Fail indication on each test e 3GPP TS 36 104 Evolved Universal Terrestrial Radio Access E UTRA Base Station BS Radio Transmission and Reception e 3GPP TS 36 141 Evolved Universal Terrestrial Radio Access E UTRA Base Station BS Conformance Testing e 3GPP TS 36 211 Evolved Universal Terrestrial Radio Access E UTRA Physical Channels and Modulation e 3GPP TS 36 212 Evolved Universal Terrestrial Radio Access E UTRA Multiplexing and Channel Coding RF and Modulation Analysis OTA Analysis option 28 option 48 Channel power Data channel ID scanner Occupied bandwidth Summary Multipath profile Spectrum emission mask Control channel Control channel ACLR Summary Spurious emissions Power vs time Frame Subframe summary Frame summary Auto measure Power statistics CCDF Measurements Channel power measures
13. power 19 JD7105B JD745A Occupied bandwidth measures the frequency bandwidth that contains 99 of the power measuring the total integrated power and the occupied power Moike EY DO HE Analysis Center Frequency 1 865 000 000 GHe Preamp on Freq Reference External 10 Mee Channel Power Channel SOU FWD Attenuation 13 dB Al Irgger Source Internal Channel Standard Band 4 KR PCS External Offset 40 00 dB On rigger Internal Occupied Ow Scale Unit dBm Mode au ITT OF z T s F 1 mfe Detector Spee irum HMS L i Emission Mask ARW M 30 kHz VOW M J0 kHz Sweep ime YUU msec 6 y Aver age Center 1 065 000 000 Gliz 1 Frequency 11 4 2 ET3 ra TA Reference Power Frequency integration Offset Dandw idth Ugo KHz JUKHz 1 98 MHz JURHZ 2 24 MHz JUkHz Spurious Finissions The spectrum emission mask SEM compares the total power level within the defined carrier bandwidth and the given offset frequencies on both sides of the carrier frequency to levels allowed by the EV DO occupied bandwidth standards Adjacent channel power ratio ACPR measures the amount of interference or power in an adjacent frequency channel specified by the standard Spurious emissions measurement identifies and determines the power level of spurious emissions in certain frequency bands Power vs time slot verifies that the transmitter output power has the correct amplitude
14. scanner E1 and or T1 analysis GPS receiver Built in Bias Tee cdmaOne CDMA2000 EV DO GSM GPRS EDGE WCDMA HSDPA TD SCDMA Mobile WiMAX LTE FDD and LTE TDD signal analysis Data Sheet Easy User Interface The Base Station Analyzers have a consistent and intuitive interface through its multiple functions providing a common menu structure that is easy to use The Base Station Analyzers have a built in help capability which guides users through each measurement task A screenshot of any functions can be saved as a graphic file for report generation and traces can be saved for post analysis process into the instrument s internal memory or external USB memory device The stored data can be easily transferred to a PC using its USB or Ethernet port File name editing can be done with the instrument s rotary knob that also has the function of an enter button providing convenience to choose and select alohanumeric characters 2 JD7105B JD745A Field Useable Design The Base Station Analyzers are compact and lightweight especially convenient for users performing field measurements Its bright 8 color display provides visibility in daylight And its backlight keys provide visibility on the dark The Base Station Analyzers have an operating temperature range from 10 to 55 Celsius and its rugged bumper was designed to protect the instrument from drops or other external impacts exceeding the MIL PRF 28800F class 2 spe
15. shape and timing for EV DO format Moike EY DO Power vs Time khe Slot Power vs Tim Center Frequency 1 865 000 000 GHe Preamp on Channel 0U FWD Attenuation 15 dB A I rigger Source Internal Channel Standard Band 4 RR PCS External Offset 40 00 dB On rigger internal Scale Unit dBm Subtype Rev OvAs0 Heference Helative PN increment Slot Average Power Pilot Power On OTt Ratio Mac Power kile At tivily Dala Power EV DO power vs time idle slot EV DO Signal Analyzer cont d Received code signal indicator RCSI shows the power variation over time of EV DO channels Pilot MAC data and slot The constellation measurement displays the I Q constellation diagram with modulation metrics to characterize the transmitter s For long term analysis the codogram and RCS measurements can be modulation performance automatically saved into an external USB memory Post analysis can be done with the application software JDViewer Code domain power CDP measures power levels of the spread code channels across EV DO channels normalized to the total Bice EW Hesi Modulation EV DO powe r Cenier Tregency 1065 0 Milz Pr eamp oft Treg Reference Internal Constellation n Channel SEU EWE Al emnat inn U AK Iraqger Gainer FST Charmel Standard Band 1 EA PCS External Dirse 00 08 Trigger Extermal CDP pilot MAC displays the power of various demodulated codes in the pilot MAC channel Emde Domai E Mo
16. the following wireless technologies cdmaOne CDMA2000 option 020 EV DO option 021 GSM GPRS EDGE option 022 WCDMA HSDPA option 023 and 024 TD SCDMA option 025 Mobile WiMAX option 026 LTE FDD option 028 LTE TDD option 029 Available OTA analyses are cdmaOne CDMA2000 option 040 EV DO option 041 GSM GPRS EDGE option 042 WCDMA HSDPA option 043 TD SCDMA option 045 Mobile WiMAX option 046 LTE FDD option 048 LTE TDD option 049 GSM GPRS Edge Signal Analyzer The GSM GPRS EDGE Signal Analyzer performs power and spectrum measurements as well as modulation analysis in a simple and easy manner with just a few key strokes It makes conformance testing according to the specifications 3GPP TS 51 021 providing a simple Pass Fail indication on each test OTA analysis option 42 Channel scanner RF and modulation analysis option 22 Channel power Power vs time Occupied Slot Frequency scanner bandwidth Frame Multipath profile Spectrum emission Constellation Modulation analyzer mask Auto measure Spurious emissions Measurements Channel power measures the total RF power spectral density and peak to average ratio PAR of the signal in a GSM channel bandwidth Occupied bandwidth measures the frequency bandwidth that contains 99 of the power measuring the total integrated power and the occupied power The spectrum emission mask SEM compares the total power
17. 0363 35 JD7105B JD745A Ordering Information Optional Adapters Description Part Number Adapter N m to DIN f DC to 4 GHz 50 Q G710050571 Adapter DIN m to DIN m DC to 4 GHz 50 Q G710050572 Adapter N m to SMA f DC to 18 GHz 50 Q G710050573 Adapter N m to BNC f DC to 1 5 GHz 50 Q G710050574 Adapter N f to N f DC to 4 GHz 50 Q G710050575 Adapter N f to DIN f DC to 4GHz 50 Q G710050577 Adapter N f to DIN m DC to 4 GHz 50 Q G710050578 Adapter DIN f to DIN f DC to 4 GHz 50 Q G710050579 Optional E1 T1 Test Cables RJ45 to Y Bantam Cable G710050317 RJ45 to Y BNC Cable G710050318 RJ45 to 4 Alligator Clips G710050319 Miscellaneous Attenuator 40 dB 100 W DC to 4 GHz Unidirectional G710050581 JD740 Soft carrying case JD74050341 Hard carrying case JD71050342 JD7100 Back Pack carrying case JD71050343 JD740 Backpack carrying case JD74050343 External battery charger G710550324 JD7105B User s Manual Printed version JD7105B362 JD745A User s Manual Printed version JD745A362 y i Av i Contact Us 1 844 GO VIAVI 1 844 468 4284 To reach the Viavi office nearest you visit viavisolutions com contacts 2015 Viavi Solutions Inc Product specifications and d document are subject to cha JD7105B JD745A ds cpo tm ae 30168315 901 0511 escriptions in this nge without notice viavisolutions com
18. 10 MHz Cyr li Prefix Now eral Cell ID A 1 Canal Cell ID 1 Group ID U Antenna port U Channel Power dBm Power db EVM HMS Cell ID A F 5CH fu BU g u2 S SCH 75 77 300 PCrictt 75 09 0 3 39 HS fu BU 4 4 US PRCH 75 78 2 346 LTE control channel summary 0 63 liz 0 001 ppm Frequency Crror Longitude Latitude Satellite LTE OTA control channel 26 JD7105B JD745A LTE TDD Signal Analyzer The LTE Signal Analyzer performs power measurements and spectrum measurements as well as modulation analysis in a simple and easy manner with just a few key strokes It performs conformance testing according to the following standards providing a simple Pass Fail indication on each test e 3GPP TS 36 104 Evolved Universal Terrestrial Radio Access E UTRA Base Station BS Radio Transmission and Reception e 3GPP TS 36 141 Evolved Universal Terrestrial Radio Access E UTRA Base Station BS Conformance Testing e 3GPP TS 36 211 Evolved Universal Terrestrial Radio Access E UTRA Physical Channels and Modulation e 3GPP TS 36 212 Evolved Universal Terrestrial Radio Access E UTRA Multiplexing and Channel Coding RF and Modulation Analysis OTA Analysis option 29 option 49 Channel power Data channel ID scanner Occupied bandwidth Summary Multipath profile Spectrum emission mask Control channel Control channel ACLR Summary Subframe summary Auto measure Power statistics CC
19. 100 kHz to 7 2 GHz JD7105B 100 kHz to 4 0 GHz JD745A e DANL RBW 1 Hz fc lt 1 GHz 145 dBm 160 dBm with preamp e Sweep Time 80 ms to 1000 s 24 us to 200 s in zero span e RBW 1 Hz to 3 MHz e VBW 1 Hz to 3 MHz e SSB Phase Noise 100 dBc Hz at 30 kHz 102 dBc Hz at 100 kHz 115 dBc Hz at 1 MHz 1 JD7105B specifications 7 JD7105B JD745A Capabilities e Built in Preamplifier Zero Span with Gated Sweep AM FM Audio Demodulation e Multiple Detectors Normal RMS Sample Negative Peak e Advanced Marker Frequency counter Noise marker e Limit Line Up to 6 markers and 6 traces Measurements Channel power measures the power level spectral density and peak to average ratio PAR of the signal in a specified channel bandwidth showing a Pass or Fail condition according to the defined power Mite align Air Lkamri Soren Wr FAI es Pea nf bir tite LT Fei Fe L et G Cea roi Aj Te iT ae Buse Poet Channel power Spectrum Analyzer cont d Occupied bandwidth measures the frequency bandwidth that contains the specified percentage of the power the total integrated power and the occupied power showing a Pass or Fail condition according to the defined bandwidth Mole Spectrmn Analyzer Occupied BW Center Frequency 893 370 000 MHe Preamp on Freq Reference External 10 MH Channel 779 FWO Attenuation 25 db Al Trigger Source Internal Channel
20. 108B042 WCDMA HSDPA OTA Analyzer Requires options 10 and 23 24 JD7108B043 TD SCDMA OTA Analyzer Requires options 10 and 25 JD7108B045 Mobile WiMAX OTA Analyzer Requires options 10 and 26 JD7108B046 LTE FDD OTA Analyzer Requires options 10 and 028 JD7108B048 LTE TDD OTA Analyzer Requires options 10 and 029 JD7108B049 Standard Accessories Description Part Number AC DC Power Adapter G710550326 Cross LAN Cable 1 5m G710550335 USB A to B Cable 1 8m GC73050515 gt 1 GByte USB Memory GC72450518 Rechargeable Lithium lon Battery G710550325 Automotive Cigarette Lighter 12 VCD Adapter G710550323 JD745A User s Manual and Application Software CD JD7108B361 Requires Calibration Kit Requires Dual port Calibration Kit Highly recommends adding JD7108B010 mM KR WnN Standard accessories can be purchased separately 34 JD7105B JD745A Highly recommends adding G70005035x or and G7000 5036x Ordering Information cont d Optional Power Sensors Description Part Number Directional Power Sensor peak and average power JD731A Frequency 300 MHz to 3 8 GHz Power Average 0 15 to 150 W Peak 4 to 400 W Directional Power Sensor peak and average power JD733A Frequency 150 MHz to 3 5 GHz Power Average Peak 0 25 to 50 W Terminating Power Sensor average power JD732A Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm
21. DF Spurious emissions Power vs time slot Power vs time frame Measurements Channel power measures the total RF power spectral density and peak to average ratio PAR of the signal in a LTE channel bandwidth Occupied bandwidth measures the frequency bandwidth that contains 99 of the power measuring the total integrated power and the occupied power Moike LTE TOD Occupied Bandwitth Center Frequency 751 000 000 MH Preamp on Freq Reference External 10 MHe Channel Power Channel S230 FWD Attenuation 13 dB Al trigger Source Internal Channel Standard Band 13 7 00 External Offset 40 00 dB On Irigger Internal Scale Unit dBm Mode 300 ITT 40 07 Detector Sa ea lal HM 20 U ARW M s an kHz oor vow IM ee J0 kHz 20 0 ano Spec trun Emission Mask Sweep ime 1 9 Sec AUU w 50 0 Avara Center 751 000 000 MHz 1 Damdwidth 10 Miz Frequency Span 50 000 000 Mi iz Occupied Ranmdwidih Integrated Power Occupied Power LTE occupied bandwidth 27 JD7105B JD745A Spectrum emission mask SEM compares the total power level within the defined carrier bandwidth and the given offset frequencies on both sides of the carrier frequency to levels allowed by the standards Moile LTE TOD Spectrum Emission Mask Center Frequency 751 000 000 MH Preamp on Channel 9230 FWD Attenuation 13 dB A Channel Standard Band 13 700 Freq Reference External 10 MHe Irigger So
22. HSDP A Center Frequency 7 100 000 MHz Preamp oi Freq Reference External 10 MHz ae S Channel ooo AN praat inn 70 a Trigger Source External Channel Standard Rand 7 100 Ge External Girst 0 00 dE Trigger External 7 ji Miruj eat or LIFE AMS AE jm 1 kis fine A H khe E a p Chart FO 000 MH Chanel Prwer Ter al hens iby PAR WCDMA channel power 15 JD7105B JD745A Spectrum emission mask SEM compares the total power level within the defined carrier bandwidth and the given offset frequencies on both sides of the carrier frequency to levels allowed by the standards Adjacent channel leakage power ratio ACLR measures the amount of interference or power in an adjacent frequency channel according to the standards Moile WCDMA HSDPA Mull ALR HF Analysis _ Center Frequency 7 132 800 O00 GHe Preamp on Freg Referee External 10 MH Channel 10664 FWD Attenuation 20 db IA Irigger Source Internal Channel Standard Band 1 21U00 Ge External Offset 40 00 dB On I rigger Free Hun Channel Power Occupied Ow Spectrum Emission Mask Scale Unit dBm VOW M 30 kHz Sweep ime 1 33 sec 50 Aver aipe Center 1 2 132 000 000 Gliz frequency Span 40 000 000 Mi iz Highs Ref Free Highest Ref Power i 11 4 Z Lowri Ref Frer Lowest Ref Power Frequency Integration Lower Upper Offset Ranibwialth WE JR dRe Pan Spier inus Emissions SUUU MHZ 10 00U MHz
23. L Freg err Hz Frame No Burst Power Frame Time Mod Type satellite Longrtude Latitude GSM OTA modulation analyzer WCDMA HSDPA Signal Analyzer The WCDMA HSDPA Signal Analyzer perform power and spectrum measurements as well as modulation analysis in a simple and easy manner with just a few key strokes It performs conformance testing according to the following standards providing a simple Pass Fail indication on each test e 3GPP TS 25 104 Base station radio transmission and reception FDD e 3GPP TS 25 141 Base station BS conformance test FDD e 3GPP TS 25 211 Physical channel and mapping of transport channels onto physical channels FDD e 3GPP TS 25 212 Multiplexing and channel coding FDD e 3GPP TS 25 213 Spreading and modulation FDD OTA analysis option 43 Channel scanner Scramble scanner RF and modulation Analysis option23 24 Channel power Constellation Occupied bandwidth Code domain power Spectrum emission Codogram Multipath profile mask RCSI Code domain ACLR CDP table power Multi ACLR Auto measure Power statistics CCDF Spurious emissions Measurements Channel power measures the total RF power spectral density and peak to average ratio PAR of the signal in a WCDMA channel bandwidth Occupied bandwidth measures the frequency bandwidth that contains 99 of the power measuring the total integrated power and the occupied power hannel Power ode WCDMA J
24. Mitre Fahey Spak Cet Ae Lait Heis ar T FAF bee Piet am lirt Pe Cais Loews 1 Port Reflection return loss Migr i abi i Anir Aah Eii Hierta Loris i i ee ie HC ieee Sela et Pet T TA PITAR m Horn T AE CED Loews irar DTF return loss Cable and Antenna Analyzer cont d Cable loss 1 port measures the signal loss through a cable or other devices over a defined frequency range It is sufficient to connect one end of the cable to the instrument measurement port The other end of the cable is terminated with a short or left open Coie Lita fo earth Lai Shalin fen Calbate AONE NES Cal ene Da O Shei fre 2 Da Gimp Fare Ag HF Hami hame Cario PPF a r Ce i DIF iea Loss Lis ro Cable loss 1 port Smith charts and phase measures impedance and phase for proper tuning of RF devices Smith charts can be used to display impedance matching characteristics in cable and antenna system as well as filter and duplexers devices Tyi Shain Cal Due SO i rh Cal Tie be Giwi re 25 ieee Slop Freq DOC hee far iame Cele iLE 191 oe Pie o Smith chart 1 Port phase measures S11 phase in order to tune antennas and phase match cables 10 JD7105B JD745A ee Cal bate o Caie giei frear 7 p0 Me Sup Fe mD Hr Ej ie iE ADIA be 1 Port phase 2 Port transmission measurements which are insertion gain loss and 2 port phase provide real vector network analysis M
25. SM g Constellation Center Freeney 959 400 000 MH Preamp on Freq Reference External 10 MHz Spectrum Channel 122 FWD Attenuation 25 db Al Irigger Source Internal Channel Standard P 65M 900 External Offset 40 00 dB On rigger RF Hurst Dee ara EEE Detect Mode Durst Power ITT Morhilation Type Power vs Tim O Delay Frequency Error no us sae enatie Phase Error AMS sTeak PSK DC Remove On Constellation IQ Origin Offset HX Filter qUUK 1 j 1 PSK Constellalinn 5 Auto Measure On j Bs Average e J i l z f l The over the air OTA analyzer provides signal performance metrics at any point in the area served by the base station including multi path profile indicating the strength of reflected signals as well as carrier over interference histogram indicating the signal strength EVM HMS Peak EVM 95th GSM constellation variation OTA Modulation Analyzer Channel Scanner Frequency Scanner Center Frequency 959 400 000 MH Preamp on Channel 122 FWD Attenuation Udb A Channel Standard P 65M 900 External Offset U U0 dB On rigger Freq Referee GPS Iraqger Source Internal RF Burst Frame Average Power Irend Detect Mode TT Multipath Profile 110 0 130 0 Delay noo us PSK DC Remove Modulation C I trend an get trent Analyzer 40 0 mn AL _ E no Se nd I i 10 0 Average 00 l l Count Frame Avg Pwr Csi BSI
26. Standard Band O SUU External Offset U U0 dB Off rigger Free Hun Scale Unit dBm WU 00 100 20 U WU ae i Specturm 60 0 m Sl ET kop 7 Emtssion Mask 700 Sweep ime Pare 1 13 sec 30 0 30 0 Average 1 Center 093 370 000 MHz rrequency Span 3 000 000 Mitz Adjacent Channel Power Occupied Banelwidth Gpis inus Integrated Power Emissions Occupied Power Occupied bandwidth Adjacent channel power ACP measures the amount of interference or power in adjacent frequencies and its ratios showing a Pass or Fail condition according to the defined test condition Moile Spectr Analyzer Adjacent Channel Power Measure Center Frequency 2 132 800 000 GHe Preamp on Freq Reference External 10 MHe Measure Ott hannel ween Attenuation 20 db Al Irigger Source Internal Channel Standard Band O 800 External Offset U U0 dB Off Trigger Free Hun Channel Power Scale Unit dBm 100 0 0 ae 4 20 U wo 4 rs a wW U i VOW A iy Specturm kik 60 0 7 F Emission Mask A Sweep ime 2 44 sec Upee wom 30 0 1 E Average 1 Center 2 132 G00 000 Gliz Frequency Span 29 600 000 Mitz Adjacent Channel Power Reference Power Frequency Integration Lower Upper Spar itus Offset Rambwidih Ri wAm de Ran Emissions SOUU MHz 10 000 MHz More 172 Spectrum emission mask SEM compares the total power l
27. T qj C n E i bere 2 ey bandwidth J0 Sulsfr ari i 10 MHz ws ai PHICH Nig 10 TT HS Average 08 77 dim Peak 35 90 dem 17 j CETERI 2 Detect Mode i f A 7 k 4 Frame FDO Downlink IU i 3 i 5 1 7 Resource Block 9 Hand width Antenna port 10 MHz u Subframe 0 ABs O P 5CH fu BU U UU Nowerial ae Cyt li Prefix PDSCH MIMO orn Bw SS E SSH 7577 nan EVM Peak PCrICH 75 09 0 03 SE D A 5 HS 7980 0 00 25 PACH 7578 nn PDSCH Threshobkd J Frequency Error 0 63 liz 0 001 ppm Channel Standard Band 13 U0 Marker Kawu Control Channel Subframe s U Freg Reference GPS Detect Mode Stale Unit iin Measure a 4 Now eral Cell ID A RO Power Cell ID 1 20 00 dB Modulation Format Group IL U POCCH Ihreshoki 1U 00 dB ot Antenna port U Channel Power dBm Power db IQ Origin Offset Cyt lir Prefix 41 EVM RMS LTE data channel summary Longitude Latitude Satellite Control channel summary measures the constellation for the specified control channels as well as modulation accuracy of the control channels at the specified subframe LTE OTA control channel Subframe summary measures the modulation accuracy of all the data and control channels at the specified subframe Sahife acne Moike LTE TDD Center Frequeny 751 000 000 MH Preamp on Freq Reference External 10 MHe Channel S230 FWD Attenuation 13 dB Al Iregger Source I
28. Terminating Power Sensor peak power JD734A Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm Terminating Power Sensor peak and average power JD736A Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm Optional Calibration Kits Y Calibration Kit Type N m DC to 4 GHz 50 Q JD72450509 Y Calibration Kit DIN m DC to 4 GHz 50 Q JD72450510 Dual Port Type N Calibration Kit 50 Q JD71050507 Y Calibration Kit Type N m DC to 4 GHz 50 Q Two Adapters Type N f to Type N f DC to 4 GHz 50 Q Two 1m RF Test Cables Tyoe N m to Type N m DC to 18 GHz 50 Q Dual Port DIN Calibration Kit 50 O JD71050508 Y Calibration Kit DIN m DC to 4 GHz 50 Q Two 1m RF Test Cables Tyoe N m to Type N m DC to 18 GHz 50 Q Adapter Type N f to DIN f DC to 4 GHz 50 Q Adapter Type N f to DIN m DC to 4 GHz 50 Q Adapter DIN f to DIN f DC to 4 GHz 50 Q Adapter DIN m to DIN m DC to 4 GHz 50 Q Optional RF Cables 1 5 m 4 92 ft Precision RF Cable DC to 18 GHz N m N f 50 Q G710050531 3 0 m 9 84 ft Precision RF Cable DC to 18 GHz N m N f 50 Q G710050532 Optional Omni Antennas RF Omni Antenna 400 to 450 MHz G700050351 RF Omni Antenna 450 to 500 MHz G700050352 RF Omni Antenna 806 to 896 MHz G700050353 RF Omni Antenna 870 to 960 MHz G700050354 RF Omni Antenna 1710 to 2170 MHz G700050355 Optional Yaggi Antennas RF Yaggi Antenna 806 to 896 MHz 1700050364 RF Yaggi Antenna 866 to 960 MHz G700050365 RF Yaggi Antenna 1750 to 2390 MHz 170005
29. VIANVI Base Station Analyzer JD7105B JD745A The Base Station Analyzers JD7105B and JD 45A are optimal test tools for installing and maintaining cell sites They contain all the features and capabilities required to field test cell sites all 2G to 4G wireless technologies The Base Station Analyzers are equipped with one button standards based measurements for wireless signals and offers the full scope of BTS conformance tests Its combined functionality includes spectrum analysis cable and antenna analysis power meter interference analysis channel scanner E1 T1 analysis and signal analysis The Base Station Analyzers are the ideal field testing solutions that combine portability and performance due to its lightweight design and extended battery operation and its multifunction capability respectively In addition its strong enclosure withstands harsh environments and its backlit key panel enables maintenance tasks in poorly lit situations Instrument Spectrum Analyzer Cable and Antenna Analyzer Power Meter JD7105B 100 kHz to 7 2 GHz 25 MHz to 4 GHz 10 MHz to 7 2 GHz JD745A 100 kHz to 4 GHz 5 MHz to 4 GHz 10 MHz to 4 GHz fi E 1 VEAVE Base Station Analyzer JO745A a aes Mode WDN Co Doman d E re Amalen 2008 WM Trise toute Eran 7 s is a PUMAN Key Features Spectrum analyzer Cable and antenna analyzer Power meter Advanced features Interference analysis Channel
30. Z1 External Offset 40 00 dB On Iripger External Maoile Mobile WiMAX Power vs Time Frame Scale Unit dim Mode U U ITT 40 0 nn ss Center Frequency 2 345 000 000 GHe Preamp on Freq Reference External 10 MHe Channel Attenuation 20 dB Al Irigger Source External Channel Standard ProfHt 1 25 Z1 External Offset 40 00 dB On Irigger External bandwidth i Svele um 10 MHz 2U U Emission Mask Franse Length 10 0 Sms IEL CP Ratio 10u Spurious 120 20 0 B i Emissions Delay ann a es U UU us AU sj Aver aige 50 0 gt ow ano n mapa n wr ly Center 2 345 000 000 Giz frequency Span 15 000 000 Milz ABW 100 kHz VDW 100 ki Sweep Time 1 5 sec Pics Charmed Power Scale Unit dBm Detect Mode suU Auto 40 0 nae an 04 Hand width Power vs Time 10 MHz euu Fram 0 0 Franse ernigth 10 0 5 ms an mea Esati 10 0 n l CP Ratio om hmatmi Modulation o 10 20 0 z 7 Te T Analysis DL UL Symbots W0 i i i 29 18 40 0 50 0 aSU Delay 7 44 64 us Time us 5205 72 us Auto Measure N00 us Video filter Channel Power On Preamble Index LA Trame Average Power Preamble Power beers CCDF 113 5s Spectral Density PAR Start Symbol Time Stop Symbol Time o SS Seach Type WiMAX channel power Full IO Of igin Offset Time Offset Start Symbol 1 me Stop Symbol I ime DL Burst Power UL Burst Power Occupied bandw
31. annel power Power vs time Sync DL ID scanner Occupied bandwidth Slot frame Sync DL ID vs Tau Spectrum emission Mask timogram Sync DL ID multipath mask Constellation Sync DL ID analyzer ACLR Midamble power Multi ACLR Code power Spurious emissions Code error Auto measure Measurements Channel power measures the total RF power spectral density and peak to average ratio PAR of the signal in a TD SCDMA channel bandwidth Occupied bandwidth measures the frequency bandwidth that contains 99 of the power measuring the total integrated power and the occupied frequency Mode TO SCOMA Channel Power Center Trequency 2000 ilz PT eami ot Treg Reference internal Channel Alirmatinn UAK Traqqer harer Fetermai Channel Standard GSM 450 External Cifse 0 00 dE Trigger External Stale Unit dim 7 Mode FFT Detector oe Spectrum Peak mu amp 7 kmissinn Made ate i a nl E M vow JM DE aS a o A J TE e T Ad Si i L L sweep Time a fyb li eT ea ya all the SA a Ye ee A l TY pak 1343 41 msec a N iii ae E Average Start 995 000 Mhr Frequency Stop 2005 000 a 1 E Jee lz Chanel Paunaner Brt3 14 Sa pe a ie a s ST EF ETs ET Spectral Density Emissions The spectrum emission mask SEM compares the total power level within the defined carrier bandwidth and the given offset channels accord
32. atching and transmission characteristics of filter and amplifiers can be determined quickly and highly accuracy Insertion gain loss measures the characteristics of passive and active devices such as filters jumpers splitters and amplifiers as well as verifies antenna isolation or sector to sector isolation Cad Shatin Cal Dole SO ed ta o Cai Tie bee 1 ma Insertion loss 2 Port phase measures S21 phase in order to characterise transmitted device The optional built in bias tee supplies power to active devices through the instrument s RF In port eliminating the need of an external power supplies Power Meter ite Fer nir eterna eee se GPS Ce piy hierar iah Linii Titian oi tower lipia E WH Oe eae hammel Siaa iim i 10 20 fen The Base Station Analyzers perform two different methods of power measurement the first is an internal power measurement for standard cies i a power testing without the assistance of external power sensors and Abeal the second is interfacing with an external power sensor for high Dotector Mode accuracy power measurements Ertornal Olfsel Internal power measurement External power measurement Frequency range Terminating power Directional Through Line 10 MHz to 72 GHz Sensor JD732A power sensor Dynamic range Average power JD731A JD733A 120 to 30 dBm JD734A Forward average power Measurement type Peak power Forward peak power RMS JD736A Reverse average
33. ation Channel Attenuation 20 db Al Irigger Source Internal Channel Standard FBN O External Oftset_ 40 00 dB On rigger internal modulation performance Midamble Power Moile TD SCDMA Sync M1 ID Analyzer Center Frequemey 7 011 800 O00 GHe Preamp on Freq Referee GPS Sync DL Channel Attenuation DdB A I rigger Source Internal D Scammer Channel Standard FEN O External Offset 40 00 dB Off rigger Internal Detect Mode Auto Scrame tA gt n EVM KMS Cole Power u Man Unser 16 Sync DL EYM Peak Dommant Sync DVL Ibs ID vs Tau nn Detect Mode Auto Sync DL ID JAJ u Man User l ha MEREN ME Ge nop 79 78 277 7it 25 7 ee ee a 15 24 2f 2 5 Threshold 27 00 dB Threshold Fes t Code Error Fi sla 15 27 00 dD E T E a Peak CDE uA Gyi DI 1 Multipath Frequency Error a clo dB Synrc DL Scale Unit K551 dBm Sync Dt ID U Scale Unit tczo 0B iD Analyzer i IQ Offset n ee ee aA ee ee eee ee ee ee ery ba NEP eniinn a Da Aon eae TTT S Time Offal ANEN Seea 0 au us DwPTs Power Pilot Dominance FVM Frei y Fr rer Ec lo CINK TD SCDMA constellation Longitude Latitude Satellite Code power provides the power data for an individual code channel and layer for a specified time slot It displays the power of the 16 TD SCDMA OTA sync DL ID analyzer codes of a TD SCDMA signal Moile TD SCDMA Code Power Modulation Center Freeney 2 001
34. cal power level distribution of cdmaOne or CDMA2000 at any given time The OTA analyzer covers four key parameters channel scanner PN scanner multipath profile and code domain power The code domain power in OTA analyzer shows not only modulation performance metrics but also amplifier capacity and code utilization metrics Moile CDMA Center Freie y teverrerre Channel Channel Standard SITLELIITSELIS SLITSITELIS Detect Mode 1595 CDMA2000 PN Offset A 65 0 PN 70 increment Channel 70 Longitude E i26 U3 13 75 HA Channel Power ee OTA Channel Scanner Preamp on Attenuation DdB A External Oftset U U0 dB OTT Freq Referee GPS Irigger Source GPS I rigger oPs Pilot Power Channel Channel Power Pilot Power Offs dim PN Offset dm 44 16 Latitude N 37 283 47 93 CDMA OTA channel scanner Mi bh Satellite 10 OTA Channel Scanner PN Scanner Multgiath Profile Code Domain Power EV DO Signal Analyzer The EV DO Signal Analyzer performs power and spectrum measurements as well as modulation analysis in a simple and easy manner with just a few key strokes It performs conformance testing according to the following standards providing a simple Pass Fail indication on each test e 3GPP2 C S0024 B CDMA2000 High Rate Packet Data Air Interface Specification e 3GPP2 C S0032 B Recommended Minimum Performance Standards for CDMA2000 High Rate Packe
35. ce Helative PN Offset A aR PN increment Comisie am I hreshold 2 7 UU db Code Ores CDP Tabte Ail Reverse O P aq ing 120 00 Of Scale Unit dB Code Vtilization 47 7 WaishCode CDMA codogram Received code signal indicator RCSI shows the power variation over time of cdmaOne or CDMA2000 control channels Pilot page sync and quick page 18 JD7105B JD745A For long term analysis the codogram and RCSI measurements can be automatically saved into an external USB memory Post analysis can be done with the application software JDViewer Moile COMA Center Frequency 872 100 000 MHz Channel rU FWD Channel Standard Band O SUU A Scale Unit iB Detect Mode isssvcpmazoon Heference Helative PM Offset A IR PN EE Scale Unit dB Ihreshold 2 db Comer Oris Ail Reverse O Paq ing 120 00 Of Color Pilot IE Panpin Sync lt hdi Code Name oF RCSI Preamp on Attenuation Udb A External Offset U U0 dB Off Freq Reference rigger Source I rigger walsh Cre Cmmi Max dD 3 90 495 13 01 Min dD 8 38 943 18 4 AYG dB 9 43 49 15 37 W123 0 wd A wed 1 27 i Measure Setup Constellation Code Domain Power Comtlemye arm CDP Table Alarm On or ort CDMA received code strength indicator The complementary cumulative distribution function CCDF characterizes the statisti
36. cification Automatic Measurements The Base Station Analyzers Auto Measure function allows a complete signal profiling covering RF characterization and modulation quality parameters of up to 10 different carriers particularly useful on the base stations are transmitting in different frequencies Auto Measure can be easily executed and the instrument will automatically configure and test every aspect of all the carriers regardless of their frequency or modulation type The Base Station Analyzers configurable channel scanner can track the power level of 20 carriers in a single measurement screen tracking the power level of each carrier Multilanguage user interface The instruments architecture allows the graphical user interface to adapt into different languages permitting localization around the world JD7105B Integrated Functionality AUDIO JACK RF IN EXTERNAL IN 3 5 mm built in RF Out Reflection RF In for 2 Port RF In for Spectrum External Reference audio jack for Cable amp Antenna Transmission Input GPS Trigger Analysis Measurements Reference Freq o Cp isc doers oor e Faiano i rM aie M AE ii ad FAL WR lt 1 Host amp Client port to transfer data and to connect extemal power sensors J DISPLAY ri ais m 8 High Resolution Sound for alarms Color LCD key selections AMJ FM lt gt i T hot keys to a
37. ctivate specific functions STRAP Convenient strap easy to carry HARD KEYS DATA ENTRY KEYS BACKLIT KEYPAD 12 Function hard keys to activate Humeric keys to particular functions enter values for test Tums the keypad parameters backlight on amp off 3 JD7105B JD745A JD7105B Integrated Functionality cont d Spectrum Analyzer 100 kHz to 7 2 GHz Locates and identifies various signals over a frequency range up to 72 GHz Built in Pre amplifier Detects signal as low as 160 dBm with phase noise 100 dBc Hz at 30 kHz offset and measurement accuracy better than 1 dB Zero Span with Gate Sweep Triggers pulse or burst signal such as WiMAX GSM and TD SCDMA GPS Receiver and Antenna option 010 Provides geographical location and highly accurate frequency and time base enabling precise frequency measurements Interference Analyzer option 011 Provides the parameters of spectrogram and a multi signal RSSI required to properly monitor identify and located interference Signals In addition it is capable of generating an audible variable tone accordingly to the signal strength Cable and Antenna Analyzer 25 MHz to 4 GHz Channel Scanner option 012 Provides cable and antenna characterization for proper power transfer from the radio to the antenna Locates failures points for an effective troubleshooting Verifies cable conformance specifications Intuitive gra
38. de Prey i Pre TT CDP data displays the power of the 16 subchannels of the data aia e 0 0 a ai MAC Codogram PM obised f channel separately Aia PH Iiecrenent Threshati 27 00 dE aes ee ee oe Frey Step su i f i i MAC COP Table 1 HI MH binde EW Lath Dada Code Dianan Code Domain Cenier Trequency 1065 0 Mile Pr ean OMT Treg Reference intemal hand SPLIT Fa Atiembatinn U AE Traqger aree EXE Channel Standard Band 14 KA PCS External Girsel 000 08 Trigger Free Run Channel Step SS Ss A A Start Count Stop 479 Colar Channel Mag dm Min Em AG fm Alarm Set Slot 41 57 5509 4 7 04 Off AMT oe a Pilu 26 04 51 oF 41 40 On jor had 3h 11 nrg 4144 CH Data 30 11 32 19 41 43 O Scale Uni do Mode D Rev D Aefenenoe Relative PM obised At PH Itecrenment i i Threshold EV DO received codestrength indicator 27 00 06 pale as The complementary cumulative distribution function CCDF Channel Step ala Channel Power 6 2rdBmi i i i i a i characterizes the statistical power level distribution of EV DO at any Slot Average Power 0 2adEm Max Active 1 1 08 ae Data Alu D 999563 Ave Aclive 12 04 ue oe time 1 Time Offset 4 ms Mise Iman iinve i Frequency error A430e Awe Inactive The over the air OTA analyzer covers four key parameters channel scanner pilot scanner multipath profile and code domain power EV DO data code doma
39. easurements such as repeater s isolation E1 T1 Analyzer options 004 005 Comprehensive backhaul testing that isolates problems related to the incoming traffic from the fixed network 6 JD7105B JD745A Characterizes the transmission quality at any location providing reflective measurements and identifying signals providing from different sites Spectrum Analyzer The Base Station Analyzers have a general purpose spectrum analyzer which is the most flexible test tool for RF analysis including spectrum monitoring and analysis The spectrum analysis function provides the capability of one button standards based power measurements for wireless signals e Channel Power e Adjacent Channel Power e Occupied Bandwidth e Spurious Emissions e Spectrum Emission Mask e Field Strength Specifications The Base Station Analyzers have one of the best sensitivity and selectivity specifications With its builtin preamplifier measurements can be done as low as 160 dBm with a 1 Hz RBW Its low SSB phase noise allows detecting very low level spurs or noise signals which are close to the carrier Its narrow 1 Hz bandwidth ensures the identification of signals that are very close in frequency In addition the narrow RBW means that the displayed noise level can be reduced improving sensitivity Its Auto Sweep time and Auto RBW VBW allows an easy set up for a fast sweep time while ensuring accurate measurement e Frequency Range
40. equires Test Cable Highly recommends adding JD7108B010 Highly recommends adding G70005035x or and G7000 5036x Standard accessories can be purchased separately mM KR WN 33 JD7105B JD745A Ordering Information cont d JD745A Notes 100 kHz to 4 GHz Spectrum analyzer 5 MHz to 4 GHz Cable and Antenna Analyzer 10 MHz to 4 GHz Power meter Internal mode Options NOTE Upgrade options for the JD745A use the designation JD745AU before the respective last three digit option number Description Requirements Part Number 2 Port Transmission Measurements JD745A001 Bias Tee Requires option 02 JD745A002 CW Signal Generator JD745A003 E1 Analyzer JD745A004 T1 Analyzer JD745A005 GPS Receiver and Antenna JD7108B010 Interference Analyzer JD7108B011 Channel Scanner JD7108B012 cdmaOne CDMA2000 Signal Analyzer JD7108B020 EV DO Signal Analyzer Requires option 20 JD7108B021 GSM GPRS EDGE Signal Analyzer JD7108B022 WCDMA Signal Analyzer JD7108B023 HSDPA Signal Analyzer Requires option 23 JD7108B024 TD SCDMA Signal Analyzer JD7108B025 Mobile WiMAX Signal Analyzer JD7108B026 LTE Signal Analyzer JD7108B028 LTE TDD Signal Analyzer JD7108B029 cdmaOne CDMA2000 OTA Analyzer Requires options 10 and 20 JD7108B040 EV DO OTA Analyzer Requires options 10 and 21 JD7108B041 GSM GPRS EDGE OTA Analyzer Requires options 10 and 22 JD7
41. evel within the defined carrier bandwidth and the given offset frequencies to the defined mask limits with Pass or Fail result Adjacent Channel Power 8 JD7105B JD745A Moile Sperctrian Analyzer Spectrum Fmission Mask Measure Center Frequency 893 370 000 MH Preamp on Freq Reference External 10 MHe Channel 773 FWO Attenuation 25 dB Al Irigger Source Internal Channel Standard Band O SUU External Offset U U0 dB Oft Irigger Free Hun Channel Power Scale Unit dBm so owe o E Sweep 00 pam a a fT e x T gt T 1 5 1020 etecto p c A Detector Satin a a aa Occipimi Aw 20 0 30 0 400 T T e PT FEN W0 tu 60 0 5 p a Tt T 4 T 1 Emtssion Mask a 3 700 sweep ime E REL T 1 13 sec 30 0 a TES ond alt is Vie i La ers 30 0 Average 1 Center 093 370 000 Mhz Frequency Span 5 960 000 Mitz Adjacent A Channel Power 11 Z Reference Power OT3 a lt A t Spis inus BTS Frequency Offset Range Measurement Lower Peak Upper Peak Frrieestems Ranbwielth 9SHU UOU kHz 1 980 MHz 1 960 MHz 2 980 MHz More 1 2 Spectrum emission mask Spurious emissions identifies and determines the power level of Spurious emissions in certain frequency bands showing a Pass or Fail condition according to the defined mask limits Center Frequency 595 000 000 MH Preamp on Freq Reference External 10 MHe Measure Ott Channel Attenuation 25 db IM Irigger Source
42. hin the defined carrier bandwidth and the given offset frequencies on both sides of the carrier frequency to levels allowed by the CDMA occupied bandwidth standards 17 JD7105B JD745A Adjacent Channel Power Ratio ACPR measures the amount of interference or power in adjacent frequencies and its ratios specified by the standards Spectrum Emission Mask RF Analysis Center Frequency 872 100 000 MHe Preamp on Freon Refermer Falernal 10 MHz Channel Power Channel O FWD Attenuation 20 dB Al Irigger Source internal Channel Standard Band O 800 External Offset 40 00 dB On Trigger mah ehit entin hw te i eA At eben irene tae a a Sl bt a Scale Unit dim SUU Mode z Sweep 40 0 a j SEG A Se n a E E i 1 Detector Speeirum HMS 2U U rk Emission Mask ARW M 10 0 AN kH nn vow M 10 0 REPR J kitz 20 0 F a K i 5 Sweep Time SU T T EE i i i il pzz 09054 msec AUU TATT aie eae eal Pint rand yom 50 0 l Aver aige 1 Center 872 100 000 Miiz rrequency Span 6 000 000 Milz MUREACPR 1 Diiw 2 Reference Power ET3 WT4 a EN minus Bis T6 Frequency Offset Range Measurement Lower Peak Upper Peak Pemrians RAamiwidih 700V kHz 1 980 MHz 1 9930 MHz 3 2uU MHz 3 230 MHz 4 0UU MHz B CDMA ACPR Spurious emissions measurement identifies and determines the power level of spurious emissions in certain frequency bands The constellation measurement displays the l Q cons
43. idth measures the frequency bandwidth that contains 99 of the power measuring the total integrated power and WiMAX Power vs time frame the occupied power 23 JD7105B JD745A Mobile WiMAX Signal Analyzer cont d The constellation measurement displays the I Q constellation diagram with modulation metrics to characterize the transmitter s modulation performance Moile Mobile WiMAX Center Frequeney 2 345 000 O00 GHe Preamp on Attenuation Channel Standard ProfHi 1 25 Z1 External Offset 40 00 dB On Irigger Channel Detect Mode Auto Handwidth 10 MHz Frare Iernii Sms CP Ratio 1 0 DL Zone Auto Delay n 0 us Preamble Index A 113 Search Type Full Start Symbol 1 me Constellation Irigger Source External External 20 db Al bonm Channel Power RCE RMS Prak CYM RMS Peak Frequency trror Tinw Offset Segment ID Cell ID Preamble index Stop Symbol I ime WiMAX constellation Freq Referee External 10 MHe I ERI i on Spectral Flatress EVM vs Sule arrive EYM vs Symbol Spectral flatness measures the flatness energy of the constellation according to WiMAX specification IEEE 816e Male Mobile WiMAX Center Freeney 2 345 000 O00 GHz Preamp on Attenuation Channel Standard ProfHi 1 25 Z1 External Offset 40 00 dB On I rigger Channel Scale Unit dB Detect Mode Auto Bandwidth 10 MHz Frane I erngth Sms CP Ratio 1 0 DL Zone Auto
44. in Moile FY DO OTA PW Stamwer Center Frequeny t 865 000 000 GHe Preamp on Freq Referens GPS Channel Scanner The MAC codogram displays the power variation for every code over Channel Standard and 4 KR PCS externa Offset 0 0008 Oni Triper GPs time presenting a clear view of the traffic load per channels at any i i _ _ Scale Unit dB _ Scale Unit chip Hnrai given time Saas if Rev 07A 0 E Kelerence cilo Delay U Multipath Profile Helative PN Offset A 114 1 0 31 z U IOL iiz if 114 1 70 31 Z24U lob PN Increment PN Oftset PN Offset Code Domain Power Channel Power 30 57 dBm Pilot Dominance 8 7 9 dB Detected PN List Ihe Highest Ec lo Order Ec lo dB Pilot Power dim Delay chip 66 tid Longitude E i26 U3 12 40 Latitude amp 3 28 W Satellite EV DO OTA PN scanner 20 JD7105B JD745A TD SCDM Signal Analyzer The TD SCDMA Signal Analyzer performs power and spectrum measurements as well as modulation analysis in a simple and easy manner with just a few key strokes It performs conformance testing according to the following standards providing a simple Pass Fail indication on each test 3GPP TS 25 105 Base Station radio transmission and reception TDD 3GPP TS 25 142 Base Station conformance testing TDD 3GPP TS 25 222 Multiplexing and channel coding TDD 3GPP TS 25 223 Spreading and modulation TDD RF and modulation analysis OTA analysis option option 25 45 Ch
45. ing to the standards PAR TD SCDMA occupied bandwidth 21 JD7105B JD745A Moile TD SCDMA Spectrum Fmission Mask Center Frequeney 2 011 800 O00 GHe Preamp on Freq Referee External 10 MHe channel e Attenuation 20 dB IAL Iregger Source Internal Channel Standard FEN O External Oftset_ 40 00 dB On rigger internal OAS Sr Scale Unit dBm Mode wn ITT 40 0 er Detector Spee irum HMS 20 0 Aa ahs Emission Mask ARW Mi 10 0 30 kHe ay SL SN vow M 10 0 J0 kHz 20 0 Sweep ime 30 07 937 37 msec 40 0 j 50 0 Aver aipe Center 2 011 GOO 000 Gliz Frequency Span 10 000 000 Mi tz 1 11 4 2 Reference Power O13 ra noe p re Gpur ina Bis TA Frequency Offset Range gestae Lower Peak Upper Peak Eines 314 U0U kHz 1 015 MHz LUIS MHz 1 4615 MHz 1 8159 MHz 2 500 MHz 2300 MHz 4 UO MHz TD SCDMA spectrum emission mask Adjacent channel power ratio ACPR measures the amount of interference or power in an adjacent frequency channel according to the standards Spurious emissions identifies and determines the power level of spurious emissions in certain frequency bands Power vs time verifies that the transmitter output power has the correct amplitude shape and timing for TD SCDMA format The timogram displays and shows how power level changes over time making it easier to see UpPTS and DwPTS activity over time identifying interference on UpPTS by the DwPTS transmi
46. lation D 243 1930F TE INFETTAT il if ii tii FF Analysis Average 29 j j J G Cell iD Subfracwe Power EQ Origin Offset First Slot Power Timne Offset Ses col Siol Power LTE power vs time frame Power vs time slot measures the modulation envelope in the time domain showing the signal rise and fall shape of LTE signal The complementary cumulative distribution function CCDF characterizes the statistical power level distribution of LTE at any given time LTE TDD Signal Analyzer cont d Data Channel Summary measures the constellation for the specified resource block as well as the modulation accuracy of each PDSCH at the specified subframe The over the air OTA analyzer provides signal performance metrics at any point in the area served by the base station including multipath profile indicating the strength of reflected signals as well as RS histogram indicating the signal strength variation Moile LTE TOD Data Channel Center Frequency 751 000 000 MHz Preamp on Freq Reference External 10 MHe Data Channel Channel S230 FWD Attenuation 13 dB Al trigger Source Internal External Offset 40 00 dB On Irigger Internal f Moite LTE TOD OTA Control Channel Center Frequency 751 000 000 MH Preamp on Channel S230 FWD Attenuation DdB A I rigger Source Internal Channel Standard Band 13 700 External Offset 40 00 dB Ott rigger Internal Auto 50 7 E sae me 5 4 0
47. level within the defined carrier bandwidth and the given offset channels according to the standards Maile GSM RF Analysis Center Freien y 959 400 000 MH Preamp on Channel 122 FWD Attenuation 25 dB A Channel Standard P 65M 900 External Offset 40 00 dB On rigger Spectrum Emission Mask Freq Reference External 10 MH Channel power Iragger Source Internal RF Burst Scale Unit dBm Mode ITT Detector Gpe irum HMS ZUL J Emission Mask ARW M 10 kHe nf T gt FD a a Ee J t vow M Tiiz Spurious 10 kHz 2 p Ti ET ie _ 7 AE 5j i Emissions Sweep ime OOF ha an AAP T j TR A latin A an iA cal re ee a wile Vy 1 ey o y sya 268 22 msec AUU be ry i D tij aiil SSe SNA t Aver aige Center 959 400 000 Miz Frequency Span 3 600 000 Mi 1 AX Filter 5 Reference Power 400K Spurious emissions identifies and determines the power level of Delay a a Measurement 0 00 us Frequency Offset Range Rambwidih 10U kHz ZULU kHz 2UU kHz ZJU kHz Zvu kHz AUU kHz ADU kHz OUUU KHz GUU kHz Lower Peak Upper Peak GSM spectrum emission mask Spurious emissions in certain frequency bands 14 JD7105B JD745A Power vs time slot measures the modulation envelope in the time domain showing the signal rise and fall shape of GSM format I Q constellation verifies the modulation quality including phase errors and I Q origin offsets characterizing the modulation quality of G
48. n amp Signal nalysis Input GPS Trigger Analysis Measurements Reference Freq E1 Ti _EA T4 Input LAN Ethernet port to connect a PC with the application oftware Host amp Client port to transfer data and to connect external power sensors SPEAKER Sound for alarmis key selections AMU FAA demodulation DISPLAY 8 High Resolution Color LED J EF yI AYI Base iaon Arahe ITANE Rotary knob with enter button SOFT KEYS Screen menu selection keys HOT KEYS 11 hot keys to activate specific functions 9 ee 7 Function hard BACKLIT KEYPAD keys to activate particular functions Numeric keys to enter Values for test parameters Turns the keypad backlight on amp off 5 JD7105B JD745A JD745A Integrated Functionality cont d Spectrum Analyzer 100 kHz to 4 GHz Locates and identifies various signals over a frequency range up to 4 GHz Built in Pre amplifier Detects signal as low as 155 dBm with phase noise 90 dBc Hz at 30 kHz offset and measurement accuracy better than 1 dB Zero Span with Gate Sweep Triggers pulse or burst signal such as WiMAX GSM and TDSCDMA GPS Receiver and Antenna option 010 Provides geographical location and highly accurate frequency and time base enabling precise frequency measurements Interference Analyzer option 011
49. nd Antenna JD7108B010 Interference Analyzer JD7108B011 Channel Scanner JD7108B012 Bias Tee JD7105B013 cdmaOne CDMA2000 Signal Analyzer JD7108B020 EV DO Signal Analyzer Requires option 20 JD7108B021 GSM GPRS EDGE Signal Analyzer JD7108B022 WCDMA Signal Analyzer JD7108B023 HSDPA Signal Analyzer Requires option 23 JD7108B024 TD SCDMA Signal Analyzer JD7108B025 Mobile WiMAX Signal Analyzer JD7108B026 LTE FDD Signal Analyzer JD7108B028 LTE TDD Signal Analyzer JD7108B029 cdmaOne CDMA2000 OTA Analyzer Requires options 10 and 20 JD7108B040 EV DO OTA Analyzer Requires options 10 and 21 JD7108B041 GSM GPRS EDGE OTA Analyzer Requires options 10 and 22 JD7108B042 WCDMA HSDPA OTA Analyzer Requires options 10 and 23 24 JD7108B043 TD SCDMA OTA Analyzer Requires options 10 and 25 JD7108B045 Mobile WiMAX OTA Analyzer Requires options 10 and 26 JD7108B046 LTE OTA FDD Analyzer Requires options 10 and 028 JD7108B048 LTE OTA TDD Analyzer Requires options 10 and 029 JD7108B049 Standard Accessories Description Part Number JD 7100 Soft Carrying Case JD71050341 AC DC Power Adapter G710550326 Cross LAN Cable 1 5 m 1710550335 USB A to B Cable 1 8 m GC73050515 gt 1 GByte USB Memory GC72450518 Rechargeable Lithium lon Battery G710550325 Automotive Cigarette Lighter 12 VCD Adapter G710550323 JD7105B User s Manual and Application Software CD JD7108B361 Requires Calibration Kit R
50. nternal Channel Standard Band 13 700 External Offset 40 00 dB On rigger Subtrame U Control Channel Detect Mode Cerne t EVM Power Bm Modalkation Type REG ARs Auto P SCH n Ad if7t 7 Chu S SCH 118 1672 RPSK PECH 1m4 1671 QPSK PCFICH 079 1672 OPSK PHICH nan 1669 RPSK PDCCH mAs int QPSK CFI A RS nAg 1671 QPSK Bandwidth 10 MHz PHICH Ny 17 Gubfr aane 1 Antenna port u PDSCH MIMO Or POSCH Threshold 20 00 dB POCCH Ihreshoki 10 00 dB Cyt li Prefix Now arial Cell ID A PDSCH_QPSK QPSK PDSCH_QAM 16 QAMIA PDSCH_OAMA4 NAMAS Urab att Frequency Error time trror Subtrame Power HS 1 Power Data EVM RMS Data LYM Peak HS EVM RMS HS EVM Peak Cell ID Group ID Sector ID LTE subframe summary 28 JD7105B JD745A E1 T1 Analyzer Resi Leen Loney art Tere A oe Se Chapt Tee A Or The JD7105B and JD745A perform a simple E1 T1 testing solution for the cell site s circuit based backhaul The E1 T1 Analyzer provides enough flexibility to configure the PDH Signal including its framing and coding as well as the pattern that the instrument will be transmitting RAL Trke Alain AF like Arm In addition the JD7105B and JD745A are capable of automatically logging events E1 Analyzer T1 Analyzer Monitoring Monitoring Signal sync loss Signal sync loss Alarm Alarm Error Error BERT PCM 31 only RX signal level BERT Loop Leer
51. on s infrastructure including feed lines connectors antennas cables jumpers amplifiers and filters The distance to fault DTF function is capable of locating transmission problems up to 1 500 m 4 921 ft at a measurements speed of 2 ms data The Base Station Analyzers offer a superior analysis tools including a trace overlay feature allowing a comparison analysis of up to 6 traces and supporting up to 6 individual markers allocated to any trace In addition it includes a user configurable marker bands enabling visual identification of uplink and downlink frequencies for compliance verification with a single measurement trace Capabilities Reflection e VSWR e Return Loss DIP e VSWR e Return Loss Cable Loss 1 port e 1 Port Phase e Smith Chart 2 Port Transmission Measurements Insertion e Loss e High Gain e Low Gain 2 Port Phase 2 JD7105B specifications 9 JD7105B JD745A Measurements Reflection measures the complete cell site transmission line impedance performance across the frequency range of interest in voltage standing wave ratio VSWR or return loss Distance to fault DTF measures fault locations in the transmission system of the cell site indicating signal discontinuities in VSWR or return loss Use this measurement to precisely pinpoint the location of damaged or degraded antennas connectors amplifiers filters and duplexers etc Mieke Coie 8 Aeterna Abe Get een Sele Loi
52. phical representation of the signal s power for each of the 20 user definable carriers frequencies or channels allowing a fast identification of improper power levels Signal Analyzer option 020 to 029 Power Meter Integrated power meter eliminates the need of a separate instrument and provides power measurement with or without power sensors 2 Port Transmission Measurements Performance verification of passive and active devices such as filters and amplifiers Provides 3GPP 3GPP2 IEEE802 16 conformance for testing for power and spectrum as well as modulation analysis from 2G to 4G wireless technologies Over the Air Analyzer option 040 to 049 Bias Tee option 013 Supplies up to 32 VDC built n bias to active devices such as amplifiers CW Signal Generator Provides a sine wave or continuous wave CW source allowing measurements such as repeater s isolation E1 T1 Analyzer options 002 003 Comprehensive backhaul testing that isolates problems related to the incoming traffic from the fixed network 4 JD7105B JD745A Characterizes the transmission quality at any location providing reflective measurements and identifying signals providing from different sites JD745A Integrated Functionality AUDIO JACK FF IH EXTERHAL IH 3 5 mm built in RF Out Reflection RF In for 2 Port RF In for Spectrum External Reference audio jack for Cable amp Antenna Transmissio
53. power Peak Average and peak VSWR power Internal power measurement The Power Meter function also provides a Pass Fail condition with user definable limits The test results are displayed in dBm and Watts Mocks Freer rte The power measurement can be set as an absolute measurement pc ORLY Mate nce cite sawed ayesha displayed in dBm or as a relative measurement displayed in dB The JD7105B and JD745A display the power level in two formats as a ria ie real time power level value in an analog meter and as a power level Netoctar Bode trend through time in a histogram chart External Offset For high precision power measurements the JD7105B and JD745A sas interface with external power sensors through a USB connection There are two types of power sensors e Termination power Power sensor JD 32A JD 34A or JD736B For out of service testing e Directional power or through line Power sensor JD731A or JD733A Having the advantage to perform in service power testing External power measurement VIAVI 3 JD7105B specifications 11 JD7105B JD745A Intererence Analyzer eet ae Hat 1 DE Bae i i L FPI FI Al il fii Paj The Interference Analyzer option 11 is the most effective way eee care ssereal Offset 1 00 JON to locate and identify periodic or intermittent RF interferences The presence of interference signals are derived from licensed or unlicensed transmitters of many kinds causing dropped calls and poor
54. r intermittent signals Post processing analysis can be done for each measurement over time using a time cursor Received signal strength indicator 12 JD7105B JD745A Signal Analyzer The signal analyzer performs 3GPP 3GPP2 IEEE802 16 standard compliance testing for power and spectrum as well as modulation analysis making RF parametric analysis as well as modulation quality performance of modern wireless communication systems It performs standard based measurements with a single button action indicating a Pass Fail condition according to the standard based or userdefined limits The auto measure capability in the signal analyzer lets users easily set up testing scenarios including the programming of measurement schedules such as start time duration intervals and measurement parameters Based on the user defined conditions the JD7105B and JD745A perform the tests of up to 10 carriers and automatically store the results The over the air OTA analyzer function provides over the air measurements for quick performance characterization of the base station This measurement capability is especially useful in testing cell sites which are not easily accessible or the cell site proactively without interrupting service The signal analyzer provides following measurement capabilities e Spectrum analysis e RF analysis e Modulation analysis e Auto measure 13 JD7105B JD745A The modulation analysis can be performed in any of
55. rogram RSSI 31 JD7105B JD745A Base Station Analyzer Specifications Features JD7105B JD745A Spectrum Analyzer 100 kHz to 7 2 GHz 100 kHz to 4 0 GHz Cable and Antenna Analyzer 25 MHz to 4 0 GHz 5 MHz to 4 0 GHz 2 Port Transmission Measurements Standard Option 001 Bias Tee Internal Option 013 Option 002 Power Meter RF Power Meter Internal Standard Standard RF Power Meter External Required External Power Sensors Required External Power Sensors CW Signal Generator Standard Option 003 3 dBm 20 to 70 dBm 10 dB steps O dBm 30 to 80 dBm 1 GB steps GPS Receiver and Antenna Option 010 Option 010 Interference Analyzer Option 011 Option 011 Channel Scanner Option 012 Option 012 E1 Analyzer Option 002 Option 004 T1 Analyzer Option 003 Option 005 Signal Analyzer 20 MHz Demodulation Hardware 20 MHz Demodulation Hardware 32 JD7105B JD745A Ordering Information JD7105B Notes 100 kHz to 72 GHz Spectrum analyzer 25 MHz to 4 GHz Cable and Antenna Analyzer 10 MHz to 7 2 GHz Power meter Internal mode NOTE Upgrade options for the JD7105B use the designation JD7105BU before the respective last two digit option number Options Description Requirements Part Number E1 Analyzer JD7105B002 T1 Analyzer JD7105B003 GPS Receiver a
56. stom Table ntegratson BW Level dom Mixed AAS G4 1842 SN Gramer No 870 8 2 1843 79 20 Average 1862 SN 1860 Uu 2137 RN 2152 0U Channel scanner GPS Receiver and Antenna The GPS Receiver option 11 provides position location latitude longitude and altitude as well as timing for highly accurate frequency measurement allowing an independent verification of base station timing KERESEL Sa e maparinan JD745A with GPS antenna 30 JD7105B JD745A Application Software ion saseegoaua The JD7105B and JD745A communicate with the PC application Trace Pow Time 16 146 software JDViewer to retrieve measurements and perform post mm sh abaecston Rhe 0 9953 j Star Freq 510 00 processing analysis and reporting Shop Freq 910 00 Cadie Name MS 120012 Phase 0 37 degree SRT impedance tar ace Veloce 055 Features paare ien 202 ao i Limit Level 100 VSWR 4268708 1 j l LewiUne OF Baa Vil ReumLoss 0007 dh Bas Tee Ott e Communicates with the JD7105B and JD745A via LAN or USB O Drastet MMI Scie e Retrieves measured or saved measurements e Exports measurement results e Generates and prints configurable reports e Edits measurement charts e Creates a composite file of multiple spectrogram traces e Analyzes measurement results allowing the assignment of multiple markers and limit lines
57. t Data Access Network OTA analysis option 41 RF and modulation analysis option21 Channel scanner PN scanner Multipath profile Constellation Composite 64 Composite 128 Channel power Occupied bandwidth Spectrum emission mask Pilot MAC 64 MAC Code domain power ACPR 128 data Multi ACPR Code domain power Pilot MAC 64 MAC 128 data Spurious emissions Power vs time Idle slot MAC codogram Active slot RCSI MAC CDP table Auto measure Power statistics CCDF Measurements Channel power measures the total RF power spectral density and peak to average ratio PAR of the signal in a EV DO channel bandwidth Mode TD SCDMA Center Frequency 7 011 800 000 SHz Preamp on Freon Referencer Felernal 10 MH Channel Power Channel Attenuation 20 dB IAI Trigger Source internal Channel Standard FEN U External Offset 40 00 dB On Irigger Internal Occupied Bandwidth Occupied Ow Scale Unit dom Mode yU U ITT d E i Detector Spee trum HMS 2u Emission Mask ARW Mi f ry i i 30 kHz j j gi E wa j j vow M i AT 30 kHz 7 T f Sweep ime 3 ane rae Aaah ahs a aa SA PF i Thing re live T u3 3 msec mnn A da hn riain el di bail ial HERAN PA wily Wis 50 Aver age Center 2 011 000 000 Git Frequency Span 10 000 000 Milz MURFACLR 1 Diiw 2 Onvcupied Bach alt F Sjur inus Frniss ives Integrated Power Occupied Power EV DO channel
58. tellation diagram with modulation metrics to characterize the transmitter s modulation performance Constellation Center Frequeney 872 100 000 MH Preamp on Freq Reference External 10 MHe Channel rU FWD Attenuation 25 d8 IM I rigger Source External Channel Standard Band O 800 External Offset 40 00 dB On Irigger External Constellation Code Domain Power Detect Mode Pilot Power 595 CDMA2000 Comleaye ann PM Offset A n PN increment at oe ees ea eee Frequency Error lime Ofiset CDP Table Carrier tFeedthru PN Offset CDMA constellation cdmaOne CDMA2000 Signal Analyzer cont d Code domain power CDP measures power levels of the spread code channels across cdmaOne or CDMA2000 RF channel normalized to the total CDMA power CDP shows the physical channels of the cdmaOne or COMA2000 and identifies the various spread factors by different color types making it easy to differentiate traffic types carried in the CDMA signal The codogram displays the power variation for every code over time presenting a clear view of the traffic load per channel at any given time Moile COMA Codogran Modulation Center Frequenmy 872 100 000 MH Preamp on Channel U FWD Attenuation Udb A Channel Standard Band U 800 External Offset U U0 dB Ott Freg Referenca GPS Irgger Source GPS I rigger oPs Constellation Code Domain Power Scale Unit Sec Count 11 Detect Mode F 595 CDMA2000 Heferen
59. ternal Offset 40 00 dB On rigger internal Freg Referens Channel Power Occupied Ow Scale Unit dBm Mode v0 ITT 40 0 Detector an n HMS ARW M 100 kH Spit irum Finission Mask VOW M 100 kHz Sweep ime 1 9 Sec Aver aige rrequency Span 50 000 000 Mitz Spurious Center 751 000 000 MHz 1 Emissions Dard width 10 Mitz Reference Power Frequency integration Lower Upper Offset Rarmbw idih EA JRM dRe Ran 1U U MHz Z2U U MHz LTE adjacent channel leakage power ratio Spurious emissions identifies and determines the power level of Spurious emissions in certain frequency bands Power vs time frame measures the modulation envelope in the time domain showing the power of each time slot in an LTE signal Sub frame summary measures the modulation accuracy of all the data and control channels at the specified sub frame LTE Signal Analyzer cont d Data channel summary measures the constellation for the specified resource block as well as the modulation accuracy of each PDSCH at the specified sub frame Mode LTE FDD Frame Center Frequeney 751 000 000 MH Preamp on Freq Referee External 10 MH Data Channel Channel S230 FWD Attenuation 13 db Al Iragger Source Internal Channel Standard Band 13 U0 External Offset 40 00 dB On rigger Internal Control Channel Sulbfr agri Subtrame Mode LTE FOD Data Channel Center Frequenmey 751 000 000 MH Preamp on Freq Reference E
60. the power level and spectral density of the signal in a LTE channel bandwidth Chane Power Mode LTE FDD Center Frequency 751 000 000 MH Preamp on Faternal 10 MH Channel SZJ FWD Attenuation 15 db A Iregger Source internal Channel Standard Band 13 U0 External Offset 40 00 dB On rigger internal Freq Reference Channel Power Occupied Ow Scale Unit dBm Mode 3 0 ITT 40 0 Detector m HM 20 Uu ARW M 10 0 100 kHe on vow M 100 100 kHz 20 0 Spic irum Fission Mask aan m nn Sweep ime 30 0 1 0 sec AUU 7 Aver aipe 30 05 3 an n aerae aaa _ gt F Spurious ag Center 751 000 000 MHz Frequency Span 50 000 000 Mi iz pur ious 1 Emissions Dandwidth 10 ME Channel Prrwer Spectral Density PAH LTE channel power 25 JD7105B JD745A Occupied bandwidth measures the frequency bandwidth that contains 99 of the power measuring the total integrated power and the occupied frequency The spectrum emission mask SEM compares the total power level within the defined carrier bandwidth and the given offset channels according to the standards Adjacent channel leakage power ratio ACLR measures the amount of interference or power in an adjacent frequency channel according to the standards Mode LTE FDD ACLR Center Frequency 751 000 000 MHz Preamp on Faternal 10 MH Channel 2230 FWD Attenuation 15 db A I rgger Source Internal Channel Standard Band 13 U0 Ex
61. tted from adjacent base stations Moile TD SCDMA P vs T Frame Center Frequeney 2 011 800 ONA GHe Preamp on Freq Reference External 10 MHe Power vs Time hannel Attenuation 15 dB A Irigger Source Internal Slot Channel Standard FEN O External Offset 40 00 dB On rigger Internal Power vs Time Scale Unit dBm Frame Detect Mode O00 Auto 30 0 4056 ar y E hiaan ihe AA r ma r a halan TAE rnd Power ws Tine 16 JUUN Musk Slot Murder 20 0 ie fa ji 7i Ii H an i if q TSA 100 Tii i j F i 5 a uu Delay Tamogram 0 00 us 10 0 ano ry re are we i E 1 30 U 40 0 52 7 us Time Sto Slot Slot Pwr Data PwrL Midamble Pwr DatarwrR Time offset TSO A UprTs TS 152 TS3 TS4 TD SCDMA power vs time frame TD SCDM Signal Analyzer cont d The over the air OTA analyzer provides four essential measurements sync DL ID scanner sync DL ID multipath and sync DL The constellation measurement displays the I Q constellation ID analyzer diagram with modulation metrics to characterize the transmitter s The OTA provides signal performance metrics at any point in the area served by the base station including multipath profile indicating RERET EA REEERE the strength of reflected signals as well as carrier over ID histogram Center Frequency 7 011 A00 ONO GHe Preamp ofr Freq Reference External 1O MH Constellation indicating the sig nal strength Vari
62. urce internal External Offset 40 00 dB On Irigger Internal Scale Unit dBm Mode U ITT 40 0 Detector moa HMS 20 0 ARW M 10 0 100 kH an VOW IM 10 0 100 kHz Spet irum Emission Mask Sweep ime 3 sec Aver aipe Center 751 000 000 MHz 1 Dandwidth 10 Matz frequency Reference Power integration Frequency Offset Range Rarnbwieltt Upper U MHz y vu MHz v MHz 5 10 MHz IU MHz 20 0 MHz LTE spectrum emission mask Adjacent channel leakage power ratio ACLR measures the amount of interference or power in adjacent frequencies and its ratios specified the standards Spurious emissions identifies and determines the power level of Spurious emissions in certain frequency bands Power vs time frame measures the modulation envelope in the time domain showing the power of each time slot in an LTE signal Moile LTE TOD P vs T Frame aA meedsure Center Frequency 751 000 000 MH Preamp on Freq Reference External 10 MH Channel Z309 FWD Attenuation 12 db Al I rigger Source Internal Channel Standard Band 13 U0 External Offset 40 00 dB On Irigger internal Spectrum RF Analysis n Scale Unit dBm l Detect Mode Auto Bandwidth Mf as J i yH Frame Cyr lir Prefix rh TT ot Trt oh H Now trial i 49 Delay 26 dus 10 17ms Auto Measure nO us Frame Aver aye Power Sihfranw No Power Statistics CCDF Cell ID A g j i H U H IWaj Modu
63. ve distribution function CCDF characterizes the statistical power level distribution of WCDMA at any given time The OTA analyzer covers three key parameters scramble scanner multipath profile and code domain power The code domain power in OTA analyzer shows not only modulation performance metrics but also amplifier capacity and code utilization metrics Moile WCDMA OTA Code Domain Power Center Frequency 7 132 800 000 GHe Preamp on Freq Referee GPS Channel 1004 FWD Attenuation DdB A I rigger Source GPS Channel Standard Band 1 2100 Ge External Offset 40 00 dB Off Irigger oPS Channel Scanner Scale Unit dE Scramble Scanner CU POES S Detect Mode WCDMA HSDPA 20 0 Helerence m0 Helative AUU Ser smrilele A MME 347 0 Scramble Code 10 0 Channel Power hreshold 27 00 dB CPKH Max Ac live Frey Error S CCPCH P LCPCH Avg Active Time Offset 256 N OTT S CcPcH Max Inactive Rho PICH PICH Avi linn tive Cae Feritu ie P SCH EVM 256 0 Off CAET S SCH PICH EVM PCCPCH FVM Cole liliz iam Peak Utilization Average Utilization Amplifier Cair tly Peak Ampliteer Capacity Average Amplifier Capacity CPICH Dominance Multipath Power Satellite Lanugitacte t abitiale WCDMA OTA code domain power cdmaOne CDMA2000 Signal Analyzer The cdmaOne CDMA2000 Signal Analyzer performs power and spectrum measurements as well as modulation analysis in a simple and easy manner with just
64. xternal 10 MH Gata Channel Channel oZ3U FWD Attenuation 15 dB Al Irgger Source internal Channel Standard Band 13 700 External Offset 40 00 dB On rigger Internal subframe U Control Channel Detect Mode St ale Unit iin Auto 50 T T T T 1 J Detect Mode ETE EVM Power dBm Modulation Type RFG RRs Auto P SCH 106 1662 Z Chu S SCH 125 1662 RPSK PRCH 1 01 16 62 QPSK PCFICH 075 1662 QPSK PHICH nag 16AN APSK PDCCH 070 if Al OPSK Crt A RS nss 166I QPSK Bandwidth 10 MHz PHICH Ny 17 j PDSCH_QPSK QPSK Antenna port PDSCH_QAM16 DAMIA U PDSCH_QAMA4 mat QOAMG4 PNSCH MIMO Unallocated Or PDSCH Threshold Frequency Error IQ Origin Oftset Frame Avg Power OFDM Symbol Power CFI A J Antenna port U PDSCH MIMO on POSCH Threshold 20 00 dB PDOCCH Threshoki 10 00 dB yili Prefix Now eral Bandwidth 0S Se i Subir ami 10 MHz PHICH Ny fi ae JU Resource Diack Subframe 0 ADs 0D RO Power Modulation Format IQ Origin Offset 41 EVM AMS EVM Peak LTE data channel summary Control channel summary measures the constellation for the specified control channel as well as modulation accuracy of the control channel at the specified sub frame Mode LTE FOD Center Freqieney 751 000 000 MH Preamp on oZdU FWD Channel Standard Band 13 700 Channel Detect Mode Auto Bandwidth 10 MHz PHICH N
65. y 17 CFI A l Antenna port u PDSCH MIMO on PDSCH Threshobd 20 00 dB POCCH Threshoki 10 00 db Cyi lin Prefix Nowerial Control Channel Freq Referee External 10 MH Data Channel Iragger Source Internal Internal Attenuation 15 db A External Offset 40 00 dB On Irigger Cell ID 1 IS P SCH S 5CH Group ID 0 EVM 35 Modukilion Fesrarat Freue y Fr rear IO Origin Offset EYM KMS CYM Peak 20 00 dB PDCCH Threshold 1U U0 dB Cyt li Prefix Now eral Cell ID A EYM RMS EVM Peak Data EVM HMS Data EVM Peak Cell ID Group ID Sector LTE frame summary Frame summary measures the modulation accuracy of all the data and control channels at of the frame The complementary cumulative distribution function CCDF characterizes the statistical power level distribution of LTE at any given time The over the air analyzer provides signal performance metrics at any point in the area served by the base station including multipath profile indicating the strength of reflected signals as well as RS histogram indicating the signal strength variation Mode LTE FDD OTA Conirol Channel Center Frequency 751 000 000 MH Preamp on Channel S230 FWD Attenuation Udb A Channel Standard Band 13 700 External Offset 40_00 de 10M I rigger Freq Referee GPS Irigger Source Internal Internal f Average 08 77 dim Peak 35 9U dbm Detect Mode TDO Downlink Hand width
Download Pdf Manuals
Related Search