JD745A
Contents
1. General Information Inputs and Outputs Battery RFin Spectrum analyzer 10 8 V 7200 mA hr Lithium ion Connector Type N female Operating time gt 3 hours typical Impedance 50 Q nominal Charge time A fully discharged Damage level gt 40 dBm gt 50 VDC battery takes about Nominal 2 5 hours to recharge Reflection RF out Cable and antenna analyzer to 80 4 hours to Connector Type N female 100 Impedance 50 Q nominal Storage temperature 10 to 60 C lt 85 RH Store battery pack in Damage level gt 37 dBm gt 50 VDC Nominal 14 to 140 F lt 85 RH low humidity envi RF in Cable and antenna analyzer ronment Extended Connector Type N female exposure to tem Impedance 50 Q nominal peratures above Maximum level gt 25 dBm gt 50 VDC 45 C could degrade External trigger GPS battery performance Connector SMA female and life Impedance 50 Q nominal External ref Data Storage Connector SMA female Internal Minimum 20 MB Up to 200 instrument Impedance 50 Q nominal states and trace Input frequency 10 13 15 MHz External Supports USB 2 0 Input range 5 dBm to 5 dBm compatible memory USB devices USB host Type A 1 port Connects flash drive and power sensor USB client Type B 1 port Environmental Connects to PC for data transfer Operating temperature 10 to 55 C 14 to 131 F LAN RJ45 10 100 Base T Maximum humidity 85 Connects to PC for data transfer Shock and vibration MIL PRF 28800F Class 2 E1 T1 RJ48C Storage te2. P SS S SS PBCH PCFICH PHICH PDCCH RS PDSCH QPSK 16 64QAM EVM relative or absolute power modulation type Subframe power OFDM symbol power Frequency error Time offset Data EVM RMS peak RS EVM RMS peak Antenna 0 RS EVM Antenna 1 RS power Antenna 1 RS EVM Auto measure Channel power Occupied bandwidth Spectrum emission mask ACLR IQ origin offset Time error EVM RMS Data EVM peak Frequency error RS power P SS power S SS power PBCH power PCFICH power Power statistics CCDF Longitude latitude and satellite in all screens P SS S SS Ec lo Multipath profile Cell group sector ID P SS Ec lo delay S SS Ec lo delay Control channel RS power trend Cell group sector ID Control channel table P SS S SS PCFICH RS PBCH Absolute power Relative power EVM RSM peak Frequency error Datagram Datagram Resource block power Data utilization 16 JD745A BASE STATION ANALYZER E1 Analyzer Option 004 Electrical Interface T1 Analyzer Option 005 Electrical Interface Connectors RX TX RJ48C 120 0 Connectors RX TX RJ48C 120 O Output 0 dB 6 dB ITU T Rec G 703 Output 0 7 5 and 15 dB Line code AMI HDB3 Line code AMI HDB3 Impedance Term monitor 120 O Impedance 100 O or 1000 O Bridge Bridge gt 1000 Q Input Input Term Bridge Monitor 0 to 20 dB Term Bridge Monitor 0 to 20 dB Transmitter and Receiver Transmitter and Receiver Framing D4 ESF Fr
3. PCDE Frequency error Max inactive power Scramble code Longitude latitude and satellite in all screens DwPTS power Pilot dominance Sync DL ID multipath Ec lo Tau DwPTS power Pilot dominance Sync DL ID analyzer DwPTS power Ec lo trend DwPTS power Pilot dominance EVM frequency error Ec lo CINR 12 JD745A BASE STATION ANALYZER Mobile WiMAX Signal Analyzer Option 026 General Parameters Frequency range Input signal level Channel power accuracy Supported bandwidth Frequency error Residual EVM RMS Measurements 2100 to 2700 MHz 3400 to 3850 MHz 40 to 20 dBm 1 0 dB 7 8 75 and 10 MHz 10 Hz ref freq accuracy 1 5 typical Typical 99 Confidence level Channel power Channel power Spectral density Peak to average power Occupied bandwidth Occupied bandwidth Integrated power Occupied power Spectrum emission mask Reference power Peak level at defined range Spurious emissions Peak frequency at defined range Peak level at defined range Option 026 Power vs time frame Channel power Frame average power Preamble power DL burst power UL burst power IQ origin offset Time offset Constellation Channel power RCE RMS RCE peak EVM RMS EVM peak Frequency error Time offset Segment ID cell ID Preamble index Spectral flatness Average subcarrier power Subcarrier Pwr variation Max min avg power EVM vs subcarrier RCE RMS RCE peak EVM RMS EVM peak Segm
4. 10 dBm Typical 2 to 4 GHz 12 dBm Typical Spurious Preamplifier off power level gt 50 dBm auto coupled 25 C 5 C 5MHzto4GHz 1 25 dB 0 5 dB typical Attenuation lt 40 dB 1 55 dB 1 0 dB typical Attenuation gt 40 dB Reference Level Inherent residual response Input terminated 0 dB attenuation preamplifier off RBW at 10 kHz Setting range Setting resolution Log scale Linear scale 120 dBm to 100 dBm 0 1 dB 1 of reference level 20 MHz to 3 GHz 90 dBm Nominal 3 to 4 GHz 85 dBm Nominal Exceptions lt 85 dBm at 2497 8 and 1599 0 MHz Input related spurious lt 70 dBc Dynamic Range gt 95 dB 2 3 TOI DANL in 1Hz RBW Sweep Time Range 80 ms to 1000 s 24 us to 200 s Span 0 Hz zero span Sweep mode Continuous single Gated Sweep Trigger source External Gate length 1 us to 100 ms Gate delay 0 to 100 ms Trigger Trigger source Free run video external Trigger delay Range 0 to 200s Resolution 6 us JD745A BASE STATION ANALYZER Measurements Measurements Spectrum analysis with CW signal generator Reflection VSWR Channel power VSWR range 1to 65 Occupied bandwidth Return loss range 0 to 60 dB Spectrum emission mask Resolution 0 01 Adjacent channel power Distance to Fault DTF Vertical VSWR range 1to65 Spurious emissions Field strength AM FM audio demodulation Cable and Antenna Analyzer Standard General Parameters Range 5 MHz to 4 GHz Resolution 1
5. FM audio demodulator interference ID spectrum recorder Spectrogram Collect data up to 72 hours RSSI Collect data up to 72 hours Received signal strength indicator Interference finder Spectrum player Channel Scanner Option 012 Frequency Range 100 kHz to 4 GHz Measurement Range 110 to 20 dBm Measurements Vector 5 MHz to 3 GHz 80 dB gt 3 to 4 GHz 75 dB Scalar 5 MHz to 4 GHz gt 100 dB Measurements Insertion Loss Gain Range 120 to 100 dB Resolution 0 01 dB 2 port Phase Range 180 to 180 Resolution o oi Bias Tee Option 002 Voltage Voltage range 12 to 32 V Voltage resolution 0 1V Power 8 W Max 10 MHz to 4 GHz CW Signal Generator Option 003 Frequency Frequency range 25 MHz to 4 GHz Frequency reference lt 25 ppm Frequency resolution 10 kHz Output Power Range 0 dBm 30 to 80 dBm Step 1dB Accuracy 1 5 dB Channel scanner 1 to 20 channels Frequency scanner 1 to 20 frequencies Custom scanner 1 to 20 channels or frequencies JD745A BASE STATION ANALYZER GSM GPRS EDGE Signal Analyzer Option 022 General Parameters Frequency range Input signal range Burst power Frequency error GMSK modulation quality Phase RMS accuracy 450 to 500 MHz 820 to 965 MHz 1705 to 1995 MHz 40 to 20 dBm 1 0 dB 10 Hz ref freq accuracy 1 0 degrees 99 Confidence level 0 lt Phase RMS lt 8 Residual error 0 7 degrees Typical Phase peak accu
6. JD745A BASE STATION ANALYZER WCDMA HSDPA Signal Analyzer Option 023 for WCDMA Option 024 for HSDPA General Parameters Frequency range Input signal range RF channel power accuracy Occupied bandwidth accuracy Adjacent channel leakage ratio ACLR WCDMA modulation HSDPA modulations Frequency error EVM accuracy Residual EVM Code domain power Band to Band XIV 40 to 20 dBm 1 0 dB 0 7 dB typical 100 kHz lt 56 dB 0 7 dB at 5 MHz offset lt 58 dB 0 8 dB at 10 MHz offset QPSK QPSK 16 QAM 64 QAM 10 Hz ref freq accuracy 2 0 2 lt EVM lt 20 2 5 0 5 dB relative power 1 5 dB absolute power 99 Confidence level Typical Code channel power gt 25 dB CPICH accuracy dBm 0 8 dB Typical Measurements Option 023 and 024 Option 043 Channel power Constellation Auto measure Channel scanner up to 6 Channel power CPICH power Channel power Frequencies or channels Spectral density Rho EVM Occupied bandwidth Channel power scramble Peak to average power Peak CDE Spectrum emission mask Code CPICH power Ec lo Occupied bandwidth Occupied bandwidth Integrated power Occupied power Spectrum emission mask Reference power Peak level at defined range ACLR Reference power Abs power at defined range Rel power at defined range Multi ACLR Lowest reference power Highest reference power Abs power at defined range Rel power at defined range Spurious emissions Peak Freq
7. Multi ACLR Pilot MAC data power On Off ratio Pvst mask idle slot Pvst mask active slot Frequency error Time offset Carrier feed through Pilot MAC data Rho PN offset Power statistics CCDF Longitude latitude and satellite in all screens Ec lo delay Code domain power Slot average power PN offset Pilot MAC data power Pilot MAC data Rho composite EVM Frequency error Time offset Carrier feed through Max active I Q power Avg active I Q power Code utilization Peak utilization Average utilization 10 JD745A BASE STATION ANALYZER TD SCDMA Signal Analyzer Option 025 General Parameters Frequency range Input signal level Channel power RRC accuracy Modulations Frequency error Residual EVM RMS Time error Tau Spreading factor 1785 to 2220 MHz 40 to 20 dBm 1 0 dB Typical QPSK 8 PSK 16 QAM 64 QAM 10 Hz ref freq accuracy 99 Confidence level 2 0 typical P CCPCH slot and 1 channel 0 2 us typical External trigger Auto DL UL 1 2 4 8 16 11 JD745A BASE STATION ANALYZER Measurements Option 025 Option 045 Channel power Power vs time slot Code error Sync DL ID scanner 32 Channel power Slot power Code power Scramble code group Spectral density DwPTS power Code error Ec lo Tau Peak to average power UpPTS power Individual code EVM DwPTS power Occupied bandwidth On Off slot ratio Individual code constellation Pilot dominance Occup
8. lt gt JDSU JD745A Base Station Analyzer ETTE WEBSITE www jdsu com test OF J COMMUNICATIONS TEST amp MEASUREMENT SOLUTIONS Spectrum Analyzer 100 kHz to 4 GHz Cable and Antenna Analyzer 5 MHz to 4 GHz Power Meter 10 MHz to 4 GHz Specification Conditions The JD745A specifications apply under the following conditions e After instrument has been turned on for at least 15 minutes e The instrument is operating within a valid calibration period e Data with no tolerance is considered as typical values e The typical or nominal values are defined as follows Typical Expected performance of the instrument operating under 20 to 30 C after being at this temperature for 15 minutes Nominal A general descriptive term or parameter All specifications subject to change without notice Spectrum Analyzer Standard JD745A Frequency range 100 kHz to 4 GHz Internal 10 MHz Frequency Reference Accuracy 0 05 ppm 25 C 25 C aging Aging 0 5 ppm per year Frequency Span Range 0 Hz zero span 10 Hz to 4 GHz Resolution 1 Hz Resolution Bandwidth RBW 3 dB bandwidth 1 Hz to 3 MHz 1 3 10 sequence Accuracy 10 nominal Video Bandwidth VBW 3 dB bandwidth 1 Hz to 3 MHz 1 3 10 sequence Accuracy 10 nominal Single Sideband SSB Phase Noise RBW 10 kHz VBW 1 kHz RMS detector Carrier offset 30 kHz lt 90 dBc Hz Typical 100 kHz lt 95 dBc Hz 1 MHz lt
9. m to DIN m DC to 4 GHz 50 Q JD72450510 JD71050507 JD71050508 Optional RF Cables G710050571 G710050572 G710050573 G710050574 G710050575 G710050576 G710050577 G710050578 G710050579 Adapter N m to DIN f DC to 4 GHz 50 Q Adapter DIN m to DIN m DC to 4 GHz 50 Q Adapter N m to SMA f DC to 18 GHz 50 Q Adapter N m to BNC f DC to 1 5 GHz 50 Q Adapter N f to N f DC to 4 GHz 50 Q Adapter N m to DIN m DC to 4 GHz 50 Q Adapter N f to DIN f DC to 4 GHz 50 Q Adapter N f to DIN m DC to 4 GHz 50 Q Adapter DIN f to DIN f DC to 4 GHz 50 Q Optional E1 T1 Test Cables G710050317 G710050318 G710050319 RJ45 to Y Bantam Cable RJ45 to Y BNC Cable RJ45 to 4 Alligator Clips Optional Accessories G710050530 1 0 m 3 28 ft RF Cable DC to 18 GHz N m N m 50 Q G710050531 1 5 m 4 92 ft RF Cable DC to 18 GHz N m N f 50 Q G710050532 3 0 m 9 84 ft RF Cable DC to 18 GHz N m N f 50 Q Optional Omni Antennas G700050351 RF Omni Antenna 400 MHz to 450 MHz G700050352 RF Omni Antenna 450 MHz to 500 MHz G700050353 RF Omni Antenna 806 MHz to 896 MHz G700050354 RF Omni Antenna 870 MHz to 960 MHz G700050355 RF Omni Antenna 1710 MHz to 2170 MHz G700050356 RF Omni Antenna 720 to 800 MHz Optional Yaggi Antennas G700050364 RF Yaggi Antenna 806 MHz to 896 MHz G700050365 RF Yaggi Antenna 866 MHz to 960 MHz G700050363 RF Yaggi Antenna 1750 MHz to 2390 MHz G710050581 JD74
10. to 50 W Terminating Power Sensor average power Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm Terminating Power Sensor peak power Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm Terminating Power Sensor peak and average power Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm JD733A JD732A JD734A JD736A Optional Optical Power Sensors MP 60 Miniature USB 2 0 Optical Power Sensor Wavelength range 780 to 1650 nm 1300 1310 1490 1550 nm 50 to 10 dBm 850 nm 45 to 10 dBm MP 80 Miniature USB 2 0 Optical Power Sensor Wavelength range 780 to 1650 nm 1300 1550 nm 35 to 23 dBm 850 nm 30 to 23 dBm JD745A BASE STATION ANALYZER 19 Ordering Information cont d Optional Calibration Kits Optional Adapters JD72450509 One Port N Type Calibration Kit Open Short Load N m 40 dB 4 GHz 50 Q One Port DIN Type Calibration Kit Open Short Load DIN m 40 dB 4 GHz 50 Q Dual Port N Type Calibration Kit 50 Q e Open Short Load N m 40 dB 4 GHz 50 Q Two Adapters N f to N f DC to 4 GHz 50 Q Two 1 m 3 28 ft RF Test Cables N m to N m DC to 18 GHz 500 Dual Port DIN Type Calibration Kit 50 Q e Open Short Load DIN m 40 dB 4 GHz 50 Q Two 1 m 3 28 ft RF Test Cables N m to N m DC to 18 GHz 50 Q Adapter N f to DIN f DC to 4 GHz 50 Q Adapter 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
11. 0 kHz Accuracy 25 ppm Data Points 126 251 501 1001 Measurement speed 1 Port measurements 1 65 ms point Nominal Measurement Accuracy Corrected directivity Reflection uncertainty 40 dB typical 0 3 20log 1 10 EP Directivity Measured return Vertical return loss range 1 to 60 dB Vertical resolution 0 01 loss Output Power High 0 dBm Typical Low 30 dBm Typical Dynamic Range Reflection 60 dB Maximum Input Level Average continuous power 25 dBm Nominal DC voltage 50 VDC 17 dBm on channel Nominal 0 dBm on frequency Interference immunity Horizontal range 0 to of data Maximum 1500 m points 1 x 4921 ft horizontal reso lution Horizontal resolution 1 5x108 x Vp _ Vp Propagation velocity Delta x 0 95 Delta Stop Freq Start Freq Hz Cable Loss 1 port Range 0 to 30 dB Resolution 0 01 dB 1 port Phase Range 180 to 180 Resolution 0 01 Smith Chart Resolution 0 01 Power Meter Standard General Parameters Display range 100 to 100 dBm Offset range 0 to 60 dB Resolution 0 01 dB or 0 1xW x m u p Internal Power Sensor Frequency range 10 MHz to 4 GHz Span 100 kHz to 100 MHz Dynamic range 120 to 20 dBm Maximum power 20 dBm Accuracy Same as spectrum analyzer JD745A BASE STATION ANALYZER External Power Sensors Directional power sensors JD731A JD733A Frequency range 300 to 3800 MHz 150 to 3800 MHz Dynamic range Average 0 15 to 150 W Av
12. 050341 JD71050342 JD71050343 G710550324 JD745A362 G710050585 G710050586 Attenuator 40 dB 100 W DC to 4 GHz Unidirectional Soft Carrying Case Hard Carrying Case Backpack Carrying Case External Battery Charger JD745A User s Manual Printed Version RF Directional Coupler 700 to 4000 MHz 30 dB Input N m Output N f Tap N f RF Combiner 700 to 4000 MHz Input N f Output N m Test amp Measurement Regional Sales NORTH AMERICA LATIN AMERICA ASIA PACIFIC EMEA www jdsu com test TEL 1 866 228 3762 TEL 1 954 688 5660 TEL 852 2892 0990 TEL 49 7121 86 2222 FAX 1 301 353 9216 FAX 1 954 3454668 FAX 852 2892 0770 FAX 49 7121 86 1222 Product specifications and descriptions in this document subject to change without notice 2012 JDS Uniphase Corporation 30173184 001 0512 JD745ABSA DS CPO TM AE May 2012
13. 102 dBc Hz JD745A BASE STATION ANALYZER Measurement Range Markers DANL to 20 dBm Input attenuator range Maximum Input Level 0 to 50 dB 5 dB steps Average continuous power DC voltage 20 dBm 50 VDC Displayed Average Noise Level DANL Marker types Normal delta delta pair noise frequency count marker Number of markers 6 Peak next peak peak left peak right minimum search marker to center start stop Marker functions RF Input VSWR 1 Hz RBW 1 Hz VBW 50 termination 0 dB attenuation RMS detector Preamplifier Off 10 MHz to 2 3 GHz gt 2 3 to 3 0 GHz gt 3 0 to 4 0 GHz Preamplifier On 10 MHz to 2 3 GHz gt 2 3 to 3 0 GHz gt 3 0 to 4 0 GHz Display Range 140 dBm 138 dBm 135 dBm 155 dBm 153 dBm 150 dBm 1 51 Typical 20 MHz to 4 0 GHz Second Harmonic Distortion Second Harmonic Intercept SHI Mixer level 25 dBm 10 MHz to 1 3 GHz 1 3 to 4 0 GHz lt 65 dBc Typical lt 70 dBc Typical Third order Inter modulation Third order Intercept TOI Log scale and units Linear scale and units Detectors Number of traces Trace functions 1 to 20 dB division in 1 dB steps 10 divisions displayed dBm dBV dBmvV dBuV 10 divisions displayed V mV mW W Normal positive peak sample negative peak RMS 6 Clear write maximum hold minimum hold capture load View On Off Total Absolute Amplitude Accuracy 200 MHz to 2 GHz
14. Channel power Power bar graph Abs Rel Pilot sync Page Q page Max avg active power Max avg inactive power PN offset Codogram Code Utilization RCSI Pilot paging sync Q page CDP table Code utilization Code spreading factor Allocation channel type Relative absolute power Pilot power Max inactive power Power statistics CCDF Longitude latitude and satellite in all screens Channel power Multipath power Ec lo delay Code domain power Abs Rel code power Channel power Pn offset Pilot sync power Page Q page power Max avg active power Max avg inactive power Frequency error Time offset Rho EVM Carrier feed through Amplifier capacity Peak amplifier capacity Average amplifier capacity Code peak utilization Peak utilization Average utilization JD745A BASE STATION ANALYZER EV DO Signal Analyzer Option 021 General Parameters Frequency range Input signal level RF channel power accuracy EV DO compatibility Frequency error Rho accuracy Residual Rho PN offset Code domain power Pilot power accuracy Band 1 to Band 10 40 to 20 dBm 1 0 dB Rev 0 Rev A and Rev B 10 Hz ref freq accuracy 0 005 0 9 lt Rho lt 1 0 gt 0 995 1 x 64 chips 0 5 dB relative power 1 5 dB absolute power 1 0 dB Typical 99 Confidence level Typical Time offset 1 0 us 0 5 us typical External trigger Measurements Option 021 Option 041 Channel power Pow
15. Hz 10 Hz Ref freq accuracy Typical 99 Confidence level Residual EVM RMS 2 0 Typical Data EVM Measurements Option 029 Option 049 Channel power Constellation Time alignment error ID scanner up to 6 Channel power RS TX power Time alignment error trend P SS dominance Spectral density PDSCH QPSK EVM Time alignment error S SS dominance Peak to average power PDSCH QPSK EVM RS power difference Cell group sector ID Occupied bandwidth PDSCH QPSK EVM Antenna 0 RS power P SS S SS power Occupied bandwidth Integrated power Occupied power Spectrum emission mask Reference power Peak level at defined range ACLR Reference power Abs power at defined range Rel power at defined range Spurious emissions Peak frequency at defined range Peak level at defined range Power vs time frame Frame average power Subframe power First slot power Second slot power Cell ID IQ origin offset Time offset Power vs time slot Slot average power Transient period length Off power Data EVM RMS Data EVM peak Frequency error Time error Data channel Resource block power IQ diagram RB power Modulation format IQ origin offset EVM RMS EVM peak Control channel Control channel table P SS S SS PBCH PCFICH PHICH PDCCH RS EVM relative or absolute power modulation type Each control channels IQ diagram Modulation format Frequency error IQ origin offset EVM RMS EVM peak Subframe summary Summary table
16. aming PCM 30 PCM 30 with CRC Channel formats Full E1 Channel formats Test pattern Additional Functions Reference clock Event log capability Error insertion Error rate count PCM 31 PCM 31 with CRC Full E1 1 4 1 8 ALL1 ALLO 0101 Received or internal Internal memory 1 1E 3 1E 4 1E 5 CRC frame code bit Test pattern Additional Functions Reference clock Event log capability Error insertion Alarm insertion Error alarm count 1 8 1 16 ALL1 ALLO 0101 2E 24 QRSS 2E 23 2E 15 2E 23 Inverse 2E 15 Inverse Received or internal Internal memory 1 1E 3 1E 4 1E 5 AIS RAI Bit RAI AIS BPV BER Measurements Loopback modes Self CSU NIU line network Option 002 Monitoring error injection Measurements Indicators Option 003 E1 signal Monitoring BERT oop test Frame sync Indicators ee T1 signal loss Red alarm FAS RAI Frame sync RAI yellow alarm AIS Pattern sync AIS blue alarm HDBs B8ZS BPV indicator Loss count Error count rate CRC error When CRC 4 is set to On aes se Ds Fatter eynalos Frame error Gage aiier Alarm count Bit error When PCM31 is set to On RAI BPV Alarm count AIS FAS Error rate AIS Bit error rate Bit error count Loss count RX signal level Frame sync Indicators Pattern sync T1 signal loss AIS blue alarm Frame sync BPV indicator Pattern sync Vp p B8ZS Vp p Max Red alarm Vp p Min RAI yellow alarm dBasx 17 JD745A BASE STATION ANALYZER
17. ange ACLR Reference power Abs power at defined range Rel power at defined range Spurious emissions Peak frequency at defined range Peak level at defined range Multi ACLR Lowest reference power Highest reference power Abs power at defined range Rel power at defined range Spurious emissions Peak frequency at defined range Peak level at defined range Power vs time frame Frame average power Subframe power First slot power Second slot power Cell ID IQ origin offset Time offset Constellation RS TX power PDSCH QPSK EVM PDSCH QPSK EVM PDSCH QPSK EVM Data EVM RMS Data EVM peak Frequency error Time error Option 028 Data channel Resource block power IQ diagram RB power Modulation format IQ origin offset EVM RMS EVM peak Control channel Control channels table P SS S SS PBCH PCFICH PHICH PDCCH RS EVM relative or absolute power mod type control channel metrics IQ diagram modulation format frequency error IQ origin offset EVM RMS EVM peak Subframe summary Subframe summary table P SS S SS PBCH PCFICH PHICH PDCCH RS PDSCH QPSK 16 64QAM EVM relative or absolute power mod type Subframe power OFDM symbol power Frequency error Time offset Data EVM RMS peak RS EVM RMS peak Frame summary Frame summary table P SS S SS PBCH PCFICH PHICH PDCCH RS PDSCH QPSK 16 64QAM EVM relative or absolute power modulation type Frame average power OFDM symbol power Frequ
18. at defined range Peak Level at defined range Frequency error Time offset Carrier feed through Scramble Code Code domain power Abs Rel code power Individual code EVM Constellation Channel power Power bar graph Abs Rel delta power CPICH PCCPCH SCCPCH PICH P SCH S SCH Max avg active power Max avg inactive power Scramble code Codogram Code utilization RCSI CPICH P CCPCH S CCPCH PICH P SCH S SCH CDP table Code utilization Code spreading exactor Allocation channel type EVM modulation type Relative absolute power ACLR Multi ACLR Frequency error EVM Peak CDE Carrier feed through CPICH absolute power CPICH relative power Max inactive power Power statistics CCDF Longitude latitude and satellite in all screens Scramble scanner up to 6 Channel power CPICH dominance Scramble code Ec lo CPICH power delay Multipath profile Channel multipath power Ec lo delay Code domain power Abs Rel code power Individual code EVM Channel power Scramble code CPICH PCCPCH SCCPCH PICH P SCH S SCH power Max avg active power Max avg inactive power Frequency error Time offset Rho Carrier feed through Composite EVM CPICH EVM P CCPCH EVM Amplifier capacity Peak amplifier capacity Average amplifier capacity Code peak utilization Average utilization JD745A BASE STATION ANALYZER cdmaOne CDMA2000 Signal Analyzer Option 020 General Parameters Frequency ra
19. ency error IQ origin offset EVM RMS peak Data EVM RMS peak Time alignment error Time alignment error trend Time alignment error RS power difference Antenna 0 RS power Antenna 0 RS EVM Antenna 1 RS power Antenna 1 RS EVM Data allocation map Data allocation vs frame Resource block power OFDM symbol power Data utilization Data allocation vs subframe Resource block power Data utilization Auto measure Channel power Occupied bandwidth Spectrum emission mask ACLR IQ origin offset Time error EVM RMS Data EVM peak Frequency error RS power P SS power S SS power PBCH power PCFICH power Power statistics CCDF Longitude latitude and satellite in all screens Option 048 ID scanner up to 6 P SS dominance S SS dominance Cell group sector ID P SS S SS power P SS S SS Ec lo Multipath profile Cell group sector ID P SS Ec lo delay S SS Ec lo delay Control channel RS power trend Cell group sector ID control channel table P SS S SS PCFICH RS 0 RS 1 Absolute power Relative power EVM RSM peak Frequency error Time alignment error Datagram Datagram Resource block power Data utilization 15 JD745A BASE STATION ANALYZER LTE FDD Signal Analyzer Option 029 General Parameters Frequency range Input signal level Channel power accuracy Supported bandwidth Frequency error Band 33 to band 40 40 to 20 dBm 1 0 dB 1 4 3 5 10 15 and 20 M
20. ent ID cell ID Preamble index EVM vs symbol RCE RMS RCE peak EVM RMS EVM peak Segment ID cell ID Preamble index Auto measure Channel power Occupied bandwidth Spectrum emission mask Preamble power DL Burst power UL Burst power Frame average power Time offset IQ origin offset Spectral flatness Frequency error RCE RMS RCE peak EVM RMS EVM peak Power statistics CCDF Longitude latitude and satellite in all screens Option 046 Preamble scanner up to 6 Total preamble power Preamble relative power Cell ID sector ID Time offset Multipath profile Total preamble power Multipath power Preamble power delay Preamble power trend Preamble power trend Relative power trend Preamble power Frame avg power Relative power C I Preamble Cell ID sector ID Time offset 13 JD745A BASE STATION ANALYZER LTE FDD Signal Analyzer Option 028 General Parameters Frequency range Input signal level Channel power accuracy Supported bandwidth Frequency error Residual EVM RMS Band 1 to 19 40 to 20 dBm 1 0 dB Typical 1 4 3 5 10 15 and 20 MHz 10 Hz ref freq accuracy 99 Confidence level 2 0 typical Data EVM 14 JD745A BASE STATION ANALYZER Measurements Channel power Channel power Spectral density Peak to average power Occupied bandwidth Occupied bandwidth Integrated power Occupied power Spectrum emission mask Reference power Peak level at defined r
21. er vs time MAC codogram Channel scanner up to 6 Channel power idle and active slot Code utilization Frequencies or channels Spectral density Slot average power RCSI Pn offset Peak to average power On Off Ratio Slot pilot MAC data Pilot MAC data power Occupied bandwidth Idle activity MAC CDP table PN scanner up to 6 Occupied bandwidth Pilot MAC data power Code utilization Channel power Integrated power Constellation Code spreading factor Pilot dominance Occupied power Composite 64 128 pilot Allocation channel type PN offset Spectrum emission mask MAC 64 128 data Relative absolute power Ec lo pilot power delay Reference power Channel power Multipath profile Peak level at defined range Rho EVM Auto measure Channel power ACPR Peak CDE Channel power Multipath power Reference power Abs power at defined range Rel power at defined range Multi ACPR Lowest reference power Highest reference power Abs power at defined range Rel power at defined range Spurious emissions Peak frequency at defined range Peak level at defined range Frequency error Time offset Carrier feed through PN offset Data modulation type Code domain power Pilot and MAC 64 128 Pilot power MAC power Slot average power Max Avg Active I Q pwr Max Ave Inactive I Q pwr PN offset Code domain power data Data power Slot average power Max avg active power Max avg inactive power PN offset Occupied bandwidth Spectrum emission mask ACLR
22. erage 0 1 to 50 W Peak 4 to 400 W Peak 0 1 to 50 W Connector type Type N f on both ends Measurement type Forward reverse average power forward peak power VSWR Accuracy 4 0 05 W Terminating power sensors JD732A JD734A JD736A Frequency range 20 to 3800 MHz 20 to 3800 MHz 20 to 3800 MHz Dynamic range 30 to 20 dBm 30 to 20 dBm 30 to 20 dBm Connector type Type N m Type N m Type N m Measurement type Average Peak Average and peak Accuracy 7 7 7 Optical power meter Display range 100 to 100 dBm Offset range 0 to 60 dB Resolution External optical power sensors Optical power sensors Wavelength range Max permitted input level Connector input Accuracy 1CW condition at 25 C 10 C 0 01 dB or 0 1 mW MP 60 10 dBm Universal 2 5 and 1 25 mm connectors MP 80 780 to 1650 nm 23 dBm 5 JD745A BASE STATION ANALYZER 2 Port Transmission Measurements Option 001 GPS Receiver and Antenna Option 010 Frequency GPS Indicator Frequency range 5 MHz to 4 GHz Latitude Longitude Altitude Frequency resolution 10 kHz High frequency Accuracy Output Power Spectrum interference and High 0 dBm Typical signal analyzer Low 30 dBm Typical GPS lock 25 ppb Hold over 50 ppb 15 minutes after locking to GPS Measurement Speed Connector SMA female 2 2 ms point Nominal Dynamic Range Interference Analyzer Option 011 Measurements Spectrum analyzer Sound indicator AM
23. ied bandwidth Slot pAR Data Format Sync DL ID vs Tau up to 6 Integrated power DwPTS code Slot DwPTS power ID power Ec lo Tau Occupied power Spectrum emission mask Reference power Peak Level at defined range ACLR Reference power Abs Power at defined range Rel Power at defined range Multi ACLR Lowest reference power Highest reference power Abs power at defined range Rel power at defined range Spurious emissions Peak frequency at defined range Peak level at defined range Power vs time frame Slot power TS 0 to 6 Data power left TS 0 to 6 Midamble power TS 0 to 6 Data power right TS 0 to 6 Time offset TS 0 to 6 Power vs time mask Slot power On Off slot ratio Off power Timogram Constellation Rho EVM RMS EVM peak Peak CDE Frequency error IQ origin offset Time Offset Midamble power Slot power DwPTS power Midamble power 1 to 16 Code power Abs Rel code power Individual code EVM Individual code constellation Data format Slot power DwPTS power No of active code Scramble code Max active code power Avg active code power Max inactive code power Avg inactive code power No of active code Scramble code Max active code power Avg active code power Max inactive code power Avg inactive code power Peak CDE Peak active CDE Auto measure Channel power Occupied bandwidth Spectrum emission mask ACLR Multi ACLR Slot power DwPTS power UpPTS power On Off slot ratio EVM RMS
24. mperature 55 to 71 C 67 to 160 F Audio jack 3 5 mm headphone jack With the battery pack External power 5 5 mm barrel connector removed Speaker Built in speaker EMC Display EN 61326 2 1 Complies with European EMC Size 8 in LED backlight Resolution 800 x 600 Safety EN 61010 1 2nd Power External DC input 12 to 19 VDC Size and Weight Standard configuration Power consumption 32 5 W 45 W maximum when charging bat tery Weight with battery lt 4 kg 8 8 Ibs Size W x H x D 295 x 195 x 82 mm 11 6 x 7 7 x 3 2 in Warranty 2 years Calibration Cycle 1 year JD745A BASE STATION ANALYZER 18 Ordering Information JD745A Base Station Analyzer Standard Accessories 100 kHz to 4GHz Spectrum Analyzer G710550322 AC DC Power Adapter 5 MHz to 4 GHz Cable and Antenna Analyzer G710550335 Cross LAN Cable 1 5 m 10 MHzto4GHz RF Power Meter internal mode GC73050515 USB A to B Cable 1 8 m GC72450518 gt 1G Byte USB Memory Options G710550325 Rechargeable Lithium lon Battery NOTE Upgrade options for the JD745A use the designation JD745AU 6710550323 Automotive Cigarette Lighter 12 VDC Adapter before the respective last three digit option number JD745A361 JD745A User s Manual and Application Software CD JD745A001 2 Port Transmission Measurement JD745A002 Bias Tee Requires option 01 JD745A003 CW Signal Generator JD745A004 E1 Analyzer JD745A005 T1 Analyzer JD745A010 GPS Receive
25. nge Input signal level RF channel power accuracy CDMA compatibility Frequency error Rho accuracy Residual Rho PN offset Code domain power Pilot power accuracy Band 1 to Band 10 40 to 20 dBm 1 0 dB cdmaOne and CDMA2000 10 Hz ref freq accuracy 0 005 0 9 lt Rho lt 1 0 gt 0 995 1 x 64 chips 0 5 dB relative power 1 5 dB absolute power 1 0 dB Typical 99 Confidence level Typical Time offset 1 0 us 0 5 Us typical External trigger Measurements Option 020 Option 040 Channel power Constellation Auto measure Channel scanner up to 6 Channel power Pilot power Channel power Frequencies or channels Spectral density Rho Occupied bandwidth Channel power PN offset Peak to average power EVM Spectrum emission mask Pilot power Ec lo Occupied bandwidth Frequency error ACLR PN scanner up to 6 Occupied bandwidth Time offset Multi ACLR Channel power Integrated power Carrier feed through Rho Pilot dominance Occupied power Pn offset Frequency error PN offset Spectrum emission mask Code domain power Time offset Ec lo pilot power delay Reference power Abs Rel code power Carrier feed through Multipath profile Peak level at defined range ACPR Reference power Abs power at defined range Rel power at defined range Multi ACPR Lowest reference power Highest reference power Abs power at defined range Rel power at defined range Spurious emissions Peak freq at defined range Peak level at defined range
26. r and Antenna JD745A011 Interference Analyzer 34 JD745A012 Channel Scanner JD745A013 Optical Power Meter Requires optical power sensor JD745A020 cdmaOne CDMA2000 Signal Analyzer JD745A021 EV DO Signal Analyzer Requires option 20 JD745A022 GSM GPRS EDGE Signal Analyzer JD745A023 WCDMA Signal Analyzer JD745A024 HSDPA Signal Analyzer Requires option 23 JD745A025 TD SCDMA Signal Analyzer JD745A026 Mobile WiMAX Signal Analyzer JD745A028 LTE FDD Signal Analyzer JD745A029 LTE TDD Signal Analyzer JD745A040 cdmaOne CDMA2000 OTA Analyzer Requires option 10 JD745A041 EV DO OTA Analyzer Requires option 10 JD745A042 GSM GPRS EDGE OTA Analyzer Requires option 10 JD745A043 WCDMA HSDPA OTA Analyzer Requires option 10 JD745A045 TD SCDMA OTA Analyzer Requires option 10 JD745A046 Mobile WiMAX OTA Analyzer Requires option 10 JD745A048 LTE FDD OTA Analyzer Requires option 10 JD745A049 LTE TDD OTA Analyzer Requires option 10 Requires Calibration Kit Requires Dual Port Calibration Kit 3 Requires Test Cable 4 Highly recommend adding JD745A010 Highly recommend adding G70005035x and or G70005036x Standard accessories can be purchased separately Optional Power Sensors JD731A Directional Power Sensor peak and average power 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 Frequency 150 MHz to 3 5 GHz Power Average Peak 0 1
27. racy 2 0 degrees 0 lt Phase peak lt 30 8 PSK modulation quality 1 5 2 lt EVM lt 8 EVM accuracy Residual error 2 5 RF power vs time 0 25 symbol Measurements Option 022 Option 042 Channel power Power vs time Slot Auto measure Channel scanner Channel power Burst power Channel power Frequency scanner Spectral density Peak to average power Occupied bandwidth Occupied bandwidth Integrated power Occupied power Spectrum emission mask Reference power Peak level at defined range Spurious emissions Peak frequency at defined range Peak level at defined range Max Min point Power vs time Frame Frame average power Burst power Slot 0 to 7 TSC Slot 0 to 7 Constellation Burst power Modulation type Frequency error Phase error RMS Phase error peak IQ origin offset TSC BSIC c EVM RMS EVM Peak EVM 95th The measurements are performed for 8 PSK modulation signals EDGE only Longitude latitude and satellite in all screens Occupied bandwidth Spectrum emission mask Burst power Frame average power PvsT Mask Frequency error Phase error RMS Phase error peak EVM RMS EVM Peak IQ origin offset C I Absolute power Group Traffic Control BSIC NCC BCC Multipath profile Ten strongest Frame average power SNR delay Modulation analyzer Frame avg power trend C I trend Frame average power BSIC frame No and time C I frequency error Burst power Modulation type
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