CellAdvisor™ JD748A Signal Analyzer
Contents
1. External power 5 5 mm barrel connector Size and Weight standard configuration Weight with battery lt 4 kg 8 8 Ib Size W x H x D 295 x 195 x 82 mm 11 6 x 77 x 3 2 in Warranty 2 years Calibration Cycle 1 year Speaker Built in speaker Display Type Resistive touch screen as of serial number BEK11791 Size 8 inch LED backlight Resolution 800 x 600 Power External DC input 12 to 19 V DC Power consumption 32 5 W 45 W maximum when charging battery 12 CellAdvisor JD748A Signal Analyzer Connects flash drive and power sensor Connects to PC for data transfer 20 to 85 RH store battery pack in low humidity environment extended exposure to temperature above 45 C could significantly degrade battery performance and life Up to 700 traces Supports USB 2 0 compatible memory devices With the battery pack removed Ordering Information Description Part Number Description Part Number Standard CellAdvisor Signal Analyzer Optional RF Cables 100 kHz to 4 GHz Spectrum Analyzer JD748A 5 m 4 92 ft RF cable DC to 18 GHz Type N m to G71002. lute power modulation type subframe I Q origin offset Peak level at defined Cell ID 1 Q origin offset EVM RMS EVM peak Subframe power Resource block power Carrier aggregation Abs power at defined Transient period length Component carriers up to 5 ange Time offset Control channel OFDM symbol power Data utilization ACLR Power vs time slot Control channel sum Frequency time error Auto measure Reference power Slot average power mary Data EVM RMS peak Channel power Subframe power P SS S SS PBCH RS EVM RMS peak Occupied bandwidth P SS S SS PBCH RS ange Off power PCFICH PHICH PDCCH Cell group sector ID Spectrum emission power and EV RS MBSFN mask Rel power at defined Constellation EVM relative or abso Timealignmenterror ACLR PDSCH Data QPSK ange MBSFN lute power modulation Time alignment error Mult ACLR power and EV ype trend Multi ACLR RS TX power Each control channels Time alignment error Spurious emission mask PDSCH Data 16 QAM Lowest reference power PDSCH Data QPSK Q diagram RS power difference Slot average power power and E EVM Highest reference power PDSCH Data 16 QAM odulation format Antenna 0 RS power Off power PDSCH Data 64 QAM Abs power at defined EVM Frequency error and EVM Transition period power and EV ange PDSCH Data 64 QAM 1
3. Number of traces 6 Mode Continuous single Trace functions Clear write maximum hold minimum hold capture load view on off Gated Sweep Total Absolute Amplitu de Accuracy Trigger source External video and GPS Preamplifier off power level gt 50 dBm auto coupled 20 to 30 C 5 MHz to 4 GHz 1 25 dB 0 5 dB Attenuation lt 40 dB typical 1 55 dB 1 0 dB Attenuation 240 dB typical Reference Level Setting range 120 to 100 dBm Setting Resolution 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 Measurements Channel power Occupied bandwidth Spectrum emission mask Log scale 01 dB Linear scale 1 of reference level Markers Marker types Normal delta delta pair noise frequency count marker Adjacent channel power Spurious emissions Number of markers 6 Field strength Marker functions Peak next peak peak left peak right minimum search marker to center start stop AM FM audio demodulation Route map RF Input VSWR PIM detection 20 MHz to 4 GHz 1 5 1 typical Dual spectrum Second Harmonic Distortion Mixer level 25 dBm 10 MHz to 1 3 GHz lt 65 dBc typical gt 1 3 GHz to 4 GHz lt 70 dBc typical
4. CDE and peak active CDE Option 045 Sync DL ID scanner 32 Pilot dominance Pilot dominance Pilot dominance Pilot dominance DwPTS Power Scramble code group Sync DL ID vs Tau up to 6 Sync DL ID multipath Sync DL ID analyzer EVM frequency error Ec lo Tau ID power Ec lo Tau Ec lo Tau DwPTS power Ec lo CINR Ec lo trend DwPTS power DwPTS power DwPTS power DwPTS power Route map 8 CellAdvisor JD748A Signal Analyzer Longitude latitude and satellite in all screens Mobile WiMAX Signal Analyzer Options 026 and 046 General Parameters Frequency range 2 1 GHz to 2 7 GHz 3 4 GHz to 3 85 GHz Input signal level 40 to 20 dBm Channel power accuracy 1 0 dB typical Supported bandwidth 7 MHz 8 75 MHz and 10 MHz Frequency error 10 Hz reference frequency accuracy 99 confidence level Residual EVM RMS 1 5 typical Measurements Option 026 Channel power Spurious emissions Constellation Max min avg power Auto measure Spectral flatness Channel power Peak frequency at defined range Channel power EVM vs subcarrier Channel power Frequency error Spectral density Peak level at RCE RMS RCE peak RCE RMS RCE peak Occupied bandwidth RCE RMS defined range Peak to Power vs time EVM RMS EVM peak EVM RMS EVM peak Spectrum RCE peak average powe
5. Q origin offset Antenna 1 RS power and Time alignment error Cell ID Rel power at defined EVM EVM RMS EVM peak EVM MBSFN equency error range Data EVM RMS Antenna 2 RS power PDSCH Data QPSK Time alignment error and EVM EVM PDSCH Data 16 QAM _ Antenna port EVM Power statistics CCDF Option 049 Channel scanner ID scanner up to 6 Multipath profile Control channel EVM RSM phase Route map up to 6 RSRP RSRQ dominance Cell group sector ID RS power trend Frequency error RSRP Frequency or channels S SS RSSI dominance Ant 0 RS Ec lo delay Cell group sector ID PMCH subframe power RSRQ Cell group sector ID S SS Ec lo dominance Ant 1 RS Ec lo delay Control channel table Time alignment error RS SINR Channel power Cell group sector ID Ant 2 RS Ec lo P SS S SS PBCH PC Time offset S SS RSSI delay FICH RS 0 RS 1 RS 2 RSRP RSRQ RSRP RSRQ Ant 3 RS Ec lo RS 3 MBSFN RS Datagram P SS S SS power delay RS SINR RS SINR S SS RSSI Datagram S SS Ec lo Antenna port P SS S SS power Absolute power Resource block power S SS Ec lo Relative power Data utilization Measurement is performed when MBMS is enabled Measurement is performed when option 031 is enabled 11 CellAdvisor JD748A Signal Analyzer Longitude latitude and satellite in all screens Bluetooth Connectivity Option 006 Battery Personal Are
6. Supported bandwidths 14 MHz 3 MHz 5 MHz 10 MHz 15 MHz and 20 MHz Frequency error 10 Hz reference frequency accuracy 99 confidence level Residual EVM RMS 2 0 typical Data EVM Measurements Option 028 030 Channel power Power vs time frame Control channel Data EVM RMS peak Antenna 1 RS power and PDSCH Data 64 QAM Channel power Frame average power Control channel sum RS EVM RMS peak EVM EVM Spectral density Subframe power mary Cell group sector ID Antenna 2 RS power Data EVM RMS peak Peak to average power First slot power ee age ee Frame and EVM RS P SS S SS EVM Occupied bandwidth Second slot power MBSFN Antenna 3 RS power RS P SS S SS power RS MBSFN and EVM Occupied bandwidth Cell ID I Q origin offset EVM relative or ab Frame summary table PBCH power Integrated power Time offset solute P SS S SS PBCH Data allocation map Subframe power power modulation type PCFICH PHICH PDCCH Occupied power Constellation Each control channels RS MBSFN PDSCH Data allocation vs frame OFDM power Spectrum emission BSFN Q diagram Data QPSK PDSCDH Resource block power __ Time error mask RS TX power odulation format Data 16 QAM PDSCH OFDM symbol power I Q origin offset Reference power PDSCH Data QPSK Frequency error Data 64 QAM Data
7. confidence level GMSK modulation quality Phase RMS Accuracy Residual error 1 0 degrees 0 lt Phase RMS lt 8 Phase peak accuracy 0 7 degrees typical 8 PSK modulation quality 2 0 degrees 0 lt Phase peak lt 30 EVM Accuracy 1 5 2 lt EVM lt 8 Residual error 2 5 RF power vs time 0 25 symbol Measurements Option 022 Channel power Reference power Frame average power I Q origin offset Occupied bandwidth EVM RMS Channel power Peak level at Burst power TSC Spectrum EVM Peak defined range Slot O to 7 emission mask Spectral density Spurious emissions TSC Slot 0 to 7 BSIC Spurious I Q origin offset emission mask Peak to Peak frequency at Constellation C I Burst power CA average power defined range Occupied bandwidth Peak level at defined Burst power EVM RMS PvsT Mask range Occupied bandwidth Power vs time slot Modulation type EVM Peak Frame average power Integrated power Burst power Frequency error EVM 95th Frequency error Occupied power ax min point Phase error RMS Auto measure Phase error RMS Spectrum Power vs time Phase error peak Channel power Phase error peak emission mask frame Option 042 Channel frequency Group traffic control 10 strongest Modulation analyzer Frame average power Burst power scannera Channels or BSIC NCC BCC Frame average power Frame avg BSIC fr
8. 0005036x a E F 4 Requires option 9 Adapter Type N f to Type N f DC to 18 GHz 50 Q G700050575 S Reade onions Sania Adapter Type N m to DIN m DC to75 GHz 50 Q G700050576 6 Requires option 28 Adapter Type N f to DIN f DC to 75 GHz 50 Q G700050577 7 Requires option 29 Adapter Type N f to DIN m DC to 75 GHz 50 Q G700050578 8 Requires options ane 10 9 Standard accessories that can be purchased separately Adapter DIN f to DIN f DC to 75 GHz 50 Q G700050579 10 Requires RF cable G700050530 Adapter Type N m to Type N m DC to 11 GHz 50 Q G700050580 1 Requires RF cable G710050533 Adapter N m to QMA f DC to 6 0 GHz 50 Q G700050581 12 Recommended for LTE testing 13 Recommended for LTE Advanced testing Adapter N m to QMA m DC to 6 0 GHz 50 Q G700050582 Optional Miscellaneous Attenuator 40 dB 100 W DC to 4 GHz G710050581 unidirectional Soft carrying case JD74050341 Hard carrying case JD71050342 Hard carrying case with wheels JD70050342 CellAdvisor backpack carrying case JD70050343 14 CellAdvisor JD748A Signal Analyzer 15 CellAdvisor JD748A Signal Analyzer Contact Us 1844 GO VIAVI 2015 Viavi Solutions Inc 1 844 468 4284 Product specifications and descriptions in this a document are subject to change without notice To reach the Viavi office nearest you jd748asa ds cpo tm ae visit viavisolutions com contacts 30173458 904 0614 viavisolutions com
9. 31 and 049 General Parameters Frequency range Band 33 to 43 Input signal level 40 to 20 dBm Channel power accuracy 1 0 dB typical Supported bandwidth 1 4 MHz 3 MHz 5 MHz 10 MHz 15 MHz and 20 MHz Frequency error 10 Hz reference frequency accuracy 99 confidence level Residual EVM RMS 2 0 typical Data EVM Measurements Option 029 031 Channel power Spurious emissions Data EVM peak Subframe Antenna 3 RS power and PDSCH Data 64 QAM Channel power Peak frequency at Frequency error MBSFN EVM EVM Spectral density defined range Time error Subframe summary Cell group sector ID Data EVM RMS peak Peak to average power Peak level at defined Data channel table Data allocation map RS P SS S SS EVM Occupied bandwidth range BSFN P SS S SS PBCH Data allocation vs frame RS P SS S SS power Occupied bandwidth Power vs time frame Resource block power PCFICH PHICH PDCCH Resource block power PBCH power Integrated power Frame average power Q diagram RS MBSFN PDSCH OFDM symbol power Subframe power Occupied power Subframe power RB power Data Data utilization OFDM power QPSK PDSCH Data 16 QAM PDSCH Data 64 QAM Spectrum emission First slot power odulation format EVM relative or abso Data allocation vs Time error mask Reference power Second slot power Q origin offset
10. 50533 10 MHz to 4 GHz RF Power Meter internal mode SMA m 50 Q Options 5 m 4 92 ft RF cable DC to 18 GHz Type N m to G710050534 NOTE Upgrade options for the JD748A use the designation JD748AU before the QMA m 50 Q respective last three digit option number 4 92 ft RF cable DC to 18 GHz T Non t CHOO Sa 5m 4 cable oO z Type N m to aca ani a SMB m 50 Q ae a a er RF cable DC to 6 GHz Type N m to DIN f 1 5 m G710050536 nterference analyzer JD74 Ch y D7ASA0 RF cable DC to 8 GHz Type N m to Type N m 1 0 m G700050530 annel scanner JD74 cdmaOne cdma2000 signal analyzer JD748A020 RF cable DC to 8 GHz Type N m to Type N f 1 5m G700050531 EV DO signal analyzer D748A021 RF cable DC to 8 GHz Type N m to Type N f 30 m G700050532 GSM GPRS EDGE signal analyzer JD748A022 Phase stable RF cable with grip DC to 6 GHz G700050540 WCDMA HSPA signal analyzer JD748A023 ype N m to Type N f 1 5 m TD SCDMA signal analyzer D748A025 Phase stable RF cable with grip DC to 6 GHz G700050541 Type to DIN f 1 5 obile WiMAX signal analyzer JD748A026 ules me e LTE FDD signal analyzer JD748A028 Optional Omni Antennas LTE TDD signal analyzer JD748A029 RF omni antenna Type N m 806 MHz to 896 MHz G700050353 LTE Advanced FDD signal analyzer JD748A030 RF omni antenna Type N m 870 MHz to 960 MHz G700050354 LTE Advanced TDD signal analyzer JD748A031 RF omni antenna Type N m 1 71 GHz to 217 GHz G700050355 cdm
11. CH power delay Individual code EVM Frequency error Peak amplifier capacity Channel power scram Multipath profile Channel power Time offset Rho Average amplifier ble code CPICH power capacity Ec lo Scramble scanner Channel Scramble code Carrier feed through Code peak utilization up to 6 multipath power Channel power Ec lo delay CPICH P CCPCH Composite EVM Average utilization S CCPCH PICH P SCH S SCH CPICH dominance Code domain power Max avg active power CPICH EVM P CCPCH Route map EVM 5 CellAdvisor JD748A Signal Analyzer Longitude latitude and satellite in all screens cdmaOne cdma2000 Signal Analyzer Options 020 and 040 General Parameters Frequency range Band 0 to 10 Input signal level 40 to 20 dBm RF channel power accuracy 1 0 dB typical CDMA compatibility cdmaOne and cdma2000 Frequency error 10 Hz ref freq accuracy 99 confidence level Rho accuracy 0 005 0 9 lt Rho lt 1 0 Residual Rho gt 0 995 typical PN offset 1x 64 chips Code domain power 0 5 dB relative power 1 5 dB absolute power Code channel power gt 25 dB Code channel power gt 25 dB Pilot power accuracy 1 0 dB typical Time offset 1 0 Us 0 5 ps typical External trigger Measurements Option 020 Channel power Reference power Pilot powe
12. D734B Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm Terminating power sensor peak and average power JD736B Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm 13 CellAdvisor JD748A Signal Analyzer Ordering Information Continued Description Part Number Description Part Number Optional Optical Power Meters RF directional coupler 700 MHz to 4 GHz 30 dB G710050585 USB optical power meter with software MP 60A input output Type N m to Type N f tap off i T i 12 2 5 and 1 25 mm interfaces 30 inch USB extender ype N f and carrying pouch RF Combiner 700 MHz to 4 GHz Type N f to G710050586 USB optical power meter high power with MP 80A ype N m software 2 5 and 1 25 mm interfaces 30 inch USB 4x1 RF combiner 700 MHz to 4 GHz Type N f to G710050587 extender and carrying pouch Type N m Optional RF Adapters External battery charge G710550324 Adapter Type N m to DIN f DC to 75 GHz 50 Q G700050571 JD740A series user s manual printed version JD740A362 Adapter DIN to DIN m DC to 75 GHz 50 Q G700050572 1 Includes a pair of Bluetooth USB dongles with 5 dBi dipole antenna JD70050006 Adapter Type N m to SMA f DC to 18 GHz 50 Q G700050573 2 Recommend adding GPS receiver JD748A010 Adapter Type N m to BNC f DC to 4 GHz 50 Q G700050574 3 Recommend adding antennas G70005035x and or G7
13. Third Order Inter Modulation Third Order Intercept TOI 200 MHz to 2 GHz 10 dBm typical gt 2 GHz to 4 GHz 12 dBm typical 2 CellAdvisor JD748A Sign al Analyzer RF Power Meter Standard GPS Receiver and Antenna Option 010 General Parameters GPS Indicator Display range 100 to 100 dBm Latitude longitude altitude Offset range O to 60 dB High Frequency Accuracy Resolution 0 01 dB or 01 x W x m u p Spectrum interference and signal analyzer Internal RF Power Sensor GPS lock 25 ppb Frequency range 10 MHz to 4 GHz Hold over for 3 days 50 ppb 15 minutes after Span 100 kHz to 100 MHz 0 to 50 C satellite locked Connector SMA female Dynamic range 120 to 20 dBm Maximum power 20 dBm Accuracy Same as spectrum analyzer Interference Analyzer Option 011 External RF Power Sensors Measurements Spectrum analyzer Sound indicator AM FM audio demodulation interference ID spectrum recorder Directional JD731B JD733A Frequency range 300 MHz to 150 MHz to 3 5 GHz 3 8 GHz Dynamic range 015 to 150 W 01 to 50 W average average 4 to 400 W peak 0 1 to 50 W peak Spectrogram Collect up to 72 hours of data RSSI Collect up to 72 hours of data Connector type Type N female on both ends Interference finder Measurement type Forward reverse average pow
14. Time offset Code error Allocation channel Carrier feed type through Peak to Lowest Carrier feed through Individual code EVM EVM CPICH absolute average power reference power RCDE and modulation type power its constellation Occupied bandwidth Highest reference power Scramble code Channel power Relative absolute CPICH relative power power Occupied bandwidth Abs power at Code domain power Power bar graph Auto measure Max inactive defined range Abs Rel Delta power power CPICH P CCPCH S CCPCH PICH P SCH S SCH Integrated power Rel power at Abs Rel code power Avg RCDE QPSK Channel power Scramble code defined range 16 QAM 64 QAM Occupied power Spurious emissions Individual code EVM Codogram Occupied bandwidth Power and its constellation statistics CCDF Spectrum Peak frequency at defined Channel power Code utilization Spectrum emission mask range emission mask Reference power Peak level at Power bar graph Abs RCSI ACLR defined range Rel Delta power CPICH P CCPCH S CCPCH PICH P SCH S SCH Peak level at defined Constellation ax avg active power CPICH P CCPCH Multi ACLR range S CCPCH PICH P SCH S SCH ACLR CPICH power ax avg inactive power CDP table Spurious emission mask Reference power Rho EVM Scramble code Reference power Frequency error Option 043 Channel scanner Scramble code Abs Rel code power Max avg inactive power Amplifier capacity CPICH power up to 6 Ec lo Frequencies or channels Ec lo CPI
15. VIAN I CellAdvisor JD748A Signal Analyzer Spectrum Analyzer Standard Frequency Frequency range 100 kHz to 4 GHz Internal 10 MHz Frequency Reference Accuracy 0 05 ppm aging 0 to 50 C Aging 0 5 ppm year Frequency Span Range 0 Hz zero span 10 Hz to 4 GHz Resolution 1Hz 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 Fc 1 GHz RBW 10 kHz VBW 1k Hz RMS detector Carrier Offset 30 kHz 100 kHz 1 MHz lt 90 dBc Hz typical lt 95 dBc Hz typical lt 102 dBc Hz typical Measurement Range DANL to 20 dBm Input attenuator range 0 to 50 dB 5 dB steps Maximum Input Level Average continuous power 20 dBm DC voltage 50 V DC il h amd hilii Spectrum Analyzer 100 kHz to 4 GHz Power Meter 10 MHz to 4 GHz Specification Conditions The JD748A specifications apply under these conditions e The 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 are considered typical values e Cable and antenna measurements apply after calibration to the OSL standard Typical and nominal values are define
16. a Network PAN Type 10 8 V 7800 mA hr Lithium ion File Transfer Profile FTP Operating time gt 3 hours typical General Information Charge time 2 5 hours 80 4 hours 100 Charging temperature O to 45 C 32 to 113 F lt 85 RH Inputs and Outputs Discharging temperature 10 to 60 C 14 to 140 F lt 85 RH RF In Connector Impedance Damage level Spectrum analyzer Type N female 50 Q nominal gt 40 dBm 50 V DC nominal Storage temperature 20 to 50 C 4 to 122 F lt 85 RH noncondensing Data Storage External Trigger GPS Internal Minimum 20 MB External Limited by size of USB flash drive Environmental Operating Temperature AC Power 0 to 40 C 32 to 104 F with no derating Battery 0 to 40 C 32 to 104 F at charging 10 to 55 C 14 to 131 F at discharging Maximum humidity 85 RH noncondensing Shock and vibration MIL PRF 28800F class 2 Storage temperature 30 to 71 C 22 to 160 F EMC Connector SMA female Impedance 50 Q nominal External Ref Connector SMA female Impedance 50 Q nominal Input frequency 10 MHz 13 MHz 15 MHz Input range 5 to 5 dBm USB USB host Type A 1 port USB client Type B 1 port LAN RJ45 10 100Base T GPIO RJ45 Audio jack 3 5 mm headphone jack EN 61326 2 1 complies with European EMC
17. aOne cdma2000 OTA analyzer JD748A040 RF omni antenna Type N m 720 MHz to 800 MHz G700050356 EV DO OTA analyzer 8 JD748A041 RF omni antenna Type N m 2 3 GHz to 2 7 GHz G700050357 GSM GPRS EDGE OTA analyzer JD748A042 Optional Yagi Antennas 3 8 A 4 uaa dale esta CLI Ee 107484043 RF Yagi antenna Type N f 806 MHz to 896 MHz G700050364 TD SCDMA OTA analyzer 8 JD748A045 0 2 dBde Mobile WiMAX OTA analyzer JD748A046 RF Yagi antenna Type N f 866 MHz to 960 MHz G700050365 LTE FDD OTA analyzer 8 JD748A048 0 2 dBd LTE TDD OTA analyzer JD748A049 RF Yagi antenna Type N f 175 GHz to 2 39 GHz G700050363 Standard Accessories 9 8 dBd AC DC power adapter G710550326 RF Yagi antenna Type SMA f 700 MHz to 4 GHz G700050366 Cross LAN cable 1 5 m G710550335 85 dBd USB A to B cable 1 8 m GC73050515 Optional RF Power Sensors gt 1 GB USB memory GC72450518 Directional power sensor peak and average power JD731B IAAI Frequency 300 MHz to 3 8 GHz Rechargeable lithium ion battery G710550325 Power average 015 to 150 W peak 4 to 400 W Automotive cigarette lighter 12 V DC adapter G710550323 Directional power sensor peak and average power JD733A Stylus G710550316 Frequency 150 MHz to 3 5 GHz JD740A series user s manual and application JD740A361 Power average peak 0 1 to 50 W software CD Terminating power sensor average power JD732B Frequency 20 MHz to 3 8 GHz Power 30 to 20 dBm Terminating power sensor peak power J
18. ame no Modulation type frequencies power trend and time Absolute power Multipath profile SNR delay C I trend C I frequency error Longitude latitude and satellite in all screens Measurements performed for 8PSK modulation signals edge only 4 CellAdvisor JD748A Signal Analyzer WCDMA HSPA Signal Analyzer Options 023 and 043 General Parameters Frequency range Band 1 to 14 19 to 22 25 26 Input signal range 40 to 20 dBm RF channel power accuracy 1 0 dB 07 dB typical Occupied bandwidth accuracy 100 kHz Adjacent channel leakage ratio ACLR lt 56 dB 0 7 dB at 5 MHz offset lt 58 dB 0 8 dB at 10 MHz offset WCDMA modulation QPSK HSPA modulations QPSK 16 QAM 64 QAM Frequency error 10 Hz reference frequency accuracy 99 confidence level EVM accuracy 2 0 2 lt EVM lt 20 Residual EVM 2 5 typical Code domain power 0 5 dB relative power 1 5 dB absolute power Code channel power gt 25 dB Code channel power gt 25 dB CPICH power accuracy 0 8 dB typical Measurements Option 023 Channel power Abs power at defined Peak CDE Relative code Code utilization EVM range domain error Channel power Rel power at defined range Frequency error Abs Rel code power Code spreading factor Peak CDE Spectral density Multi ACLR
19. d as Typical expected performance of the instrument operating at 20 to 30 C after being at this temperature for 15 minutes Nominal a general descriptive term or parameter Data Sheet Displayed Average Noi se Level DANL Spurious 1 Hz RBW 1 Hz VBW 50 Q termination 0 dB attenuation Inherent residual response RMS detector Input terminated 0 dB attenuation preamplifier off RBW at 10 kHz Preamplifier Off 20 MHz to 3 GHz 90 dBm nominal 10 MHz to 2 3 GHz 40 dBm 146 dBm typical 3 GHz to 4 GHz 85 dBm nominal gt 2 3 GHz to 3 GHz 38 dBm 144 dBm typical A gt 3 GHz to 4 GHz 135 dBm 140 dBm typical Exceptions lt 80 dBm at 311 94 MHz lt 84 dBm at 415 92 MHz Preamplifier On lt 85 dBm at 519 90 1599 00 and 10 MHz to 2 3 GHz 55 dBm 160 dBm typical 249780 MHz gt 2 3 GHz to 3 GHz 53 dBm 158 dBm typical 3 GHz to 4 GHz 150 dBm 156 dBm typical Input related spurious lt 70 dBc nominal Display Range Dynamic Range Log scale and units 1 to 20 dB division in 1 dB steps 2 3 TOI DANL gt 95 dB 10 divisions displayed dBm dBV dBmV dBuV in 1 Hz RBW Linear scale and units V mV mW W Sweep Time 10 divisions displayed Range 80 ms to 1000 s Detectors Normal positive peak sample 24 us to 200 s Span 0 Hz zero span negative peak RMS Accuracy 2 Span 0 Hz zero span
20. equency error Max inactive Occupied bandwidth defined range DwPTS UpPTS code power Peak to Rel power at Midamble power Q origin offset Avg inactive Spectrum average power defined range code power emission mask Occupied bandwidth Spurious emissions TS 0 to 6 Time offset Code error ACLR DwPTS UpPTS Occupied bandwidth Peak frequency at Data power right Midamble power Code power and error Multi ACLR defined range Integrated power Peak level at TS 0 to 6 Slot power Individual code EVM Slot power defined range DwPTS UpPTS and its constellation Occupied power Power vs time slot Time offset DwPTS power Data format DwPTS power Spectrum Slot power TS 0 to 6 Midamble power Slot DwPTS power UpPTS power emission mask DwPTS UpPTS 1 to 16 Reference power DwPTS power Power vs time Code power No of active code On off slot ratio mask Peak level at UpPTS power Slot power Abs Rel code power Scramble code Frequency error defined range ACLR On off slot ratio On off slot ratio Individual code EVM_ Max active EVM RMS and its constellation code power Reference power Slot PAR Off power Data format Avg active Peak CDE code power Abs power at DwPTS code Timogram Slot power Max inactive ax inactive power defined range DwPTS power code power Rel power at Power vs time Constellation No of active code Avg inactive Scramble code defined range frame code power Multi ACLR Slot power Rho Scramble code Peak
21. er forward peak power VSWR Spectrum replayer Dual spectrogram Channel Scanner Option 012 Frequency Range 10 MHz to 4 GHz Measurement Range 110 to 20 dBm Measurements Accuracy 4 of reading 0 05 W Terminating JD732B JD734B JD736B Frequency range 20 MHz to 3 8 GHz Dynamic range 30 to 20 dBm Connector type Type N male Measurement type Average Peak Average and peak Accuracy 7 Channel scanner 1 to 20 channels Optical Power Meter Standard Frequency scanner 1 to 20 frequencies Custom scanner 1 to 20 channels or frequencies Optical Power Meter Display range 100 to 100 dBm Offset range 0 to 60 dB Resolution 0 01 dB or 01 mW External Optical Power Sensors MP 60A MP 80A Wavelength range 780 to 1650 nm Max permitted input level 10 dBm 23 dBm Connector type Type N female on both ends Connector input Universal 2 5 and 1 25 mm Accuracy 5 1 CW condition at 25 C 10 C 2 Forward power 3 CellAdvisor JD748A Signal Analyzer GSM GPRS EDGE Signal Analyzer Options 022 and 042 General Parameters Frequency range 450 MHz to 500 MHz 820 MHz to 965 MHz 1705 GHz to 1 995 GHz Input signal range 40 to 20 dBm Burst power 0 dB I Frequency error I 0 Hz reference frequency accuracy 99
22. erage power PvsT mask idle slot or PvsT mask active slot Slot pilot MAC data Occupied bandwidth Rel power at Carrier feed through Max active Q power MAC CDP table Frequency error defined range Occupied bandwidth Spurious emissions PN offset Avg active I Q power Reference power Time offset Integrated power Peak frequency at Pilot MAC Max inactive Code utilization Carrier feed through defined range data power 1 Q power Occupied power Peak level at Pilot MAC data EVM Avg inactive Code spreading factor Pilot MAC data Rho defined range 1 Q power Spectrum Power vs time Constellation PN offset Allocation Max inactive I Q power emission mask idle and active slot pilot MAC 64 128 and channel type data Reference power Slot average power Channel power Code domain Relative PN offset power data absolute power Peak level at On off ratio Rho EVM peak CDE Data channel power Auto measure Power defined range statistics CCDF ACPR Idle activity Frequency error Slot average power Channel power Reference power Peak level at Time offset ax avg active power Occupied bandwidth defined range Abs power at Pilot MAC Carrier feed through ax avg inactive power Spectrum defined range data power emission mask Rel power at Constellation PN offset PN offset ACPR defined range composite 64 128 Option 041 Channel scanner Channel power Channel power PN offset Time o
23. ffset Peak utilization up to 6 Frequencies Pilot dominance Multipath power Pilot MAC Carrier feed through Average utilization or channels data power PN offset PN offset Ec lo delay Pilot MAC data Rho Max active Q power Route map Pilot MAC Ec lo pilot power delay Code domain power Composite EVM Avg active I Q power Pilot power data power PN scanner up to 6 Multipath profile Slot average power Frequency error Code utilization Ec lo Measurement is performed in Data Constellation only 7 CellAdvisor JD748A Signal Analyzer Longitude latitude and satellite in all screens TD SCDMA Signal Analyzer Options 025 and 045 General Parameters Frequency range 1785 GHz to 2 22 GHz Input signal level 40 to 25 dBm Channel power RRC accuracy 1 0 dB typical Modulations QPSK 8 PSK 16 QAM 64 QAM Frequency error 10 Hz ref freq accuracy 99 confidence level Residual EVM RMS 2 0 typical P CCPCH slot and 1 channel Time error Tau 0 2 us typical External trigger Spreading factor Auto DL UL 1 2 4 8 16 Measurements Option 025 Channel power Lowest reference TS 0 to 6 EVM RMS EVM peak Max active Auto measure power DwPTS UpPTS code power Channel power Highest reference Data power left Peak CDE Avg active Channel power power code power Spectral density Abs power at TS 0 to 6 Fr
24. r Frequency error Peak frequency at EVM RMS EVM peak OFDM symbol power RS power difference BSFN Time alignment error defined range Frequency time error Antenna 0 RS power PDSCH Data QPSK Antenna port and EVM EVM Peak level at defined PDSCH Data 16 QAM _ Power statistics CCDF range EVM Option 048 Channel scanner up ID scanner up to 6 Multipath profile Control channel table PMCH subframe power Route map to 6 Frequency or channels RSRP RSRQ dominance_ Cell group sector ID P SS S SS PBCH PC Time alignment error RSRP Cell group sector ID S SS RSSI dominance Ant 0 RS Ec lo delay FICH RS 0 RS 1 RS 2 Time offse RSRQ Channel power S SS Ec lo dominance Ant 1 RS Ec lo delay RS 3 MBSFN RS Datagram RS SINR RSRP RSRQ Cell group sector ID Ant 2 RS Ec lo delay Absolute power Datagram S SS RSSI RS SINR RSRP RSRQ Ant 3 RS Ec lo delay Relative power Resource block power P SS S SS Power Antenna port RS SINR S SS RSSI Control channel EVM RSM phase Data utilization S SS Ec lo P SS S SS Power RS power trend Frequency error S SS Ec lo Cell group sector ID Measurement is performed when MBMS is enabled Measurement is performed when option 030 is enabled 10 CellAdvisor JD748A Signal Analyzer Longitude latitude and satellite in all screens LTE LTE Advanced TDD Signal Analyzer Option 029 0
25. r frame emission mask Occupied bandwidth Channel power Frequency error Segment ID cell ID Spurious EVM RMS emission mask Occupied bandwidth Frame average power Time offset Preamble index Preamble power EVM peak Integrated power Preamble power Segment ID cell ID EVM vs symbol DL burst power Power statistics CCDF Occupied power DL burst power Preamble index RCE RMS RCE peak UL burst power Spectrum UL burst power Spectral flatness EVM RMS EVM peak Frame average power emission mask Reference power 1 Q origin offset Average Segment ID cell ID Time offset subcarrier power Peak level at Time offset Subcarrier Preamble index I Q origin offset defined range power variation Option 046 Preamble scanner Time offset Relative power delay Preamble power Preamble Preamble power up to 6 Total preamble power Multipath profile Preamble power trend Frame avg power Cell ID sector ID Preamble relative Total preamble power Preamble Relative power Time offset power power trend Cell ID sector ID Multipath power Relative power trend C I Route map 9 CellAdvisor JD748A Signal Analyzer Longitude latitude and satellite in all screens LTE LTE Advanced FDD Signal Analyzer Options 028 030 and 048 General Parameters Frequency range Band 1 to 14 17 to 26 Input signal level 40 to 20 dBm Channel power accuracy 1 0 dB typical
26. r Max avg Relative Max inactive power active power absolute power Channel power Abs power at Rho Max avg Auto measure PN offset defined range inactive power Spectral density Rel power at EVM PN offset Channel power Power defined range statistics CCDF Peak to Multi ACPR Frequency error Codogram Occupied bandwidth average power Occupied bandwidth Lowest Time offset Code utilization Spectrum reference power emission mask Occupied bandwidth Highest Carrier feed through RCSI ACPR reference power Integrated power Abs power at PN offset Pilot Paging Sync Multi ACPR defined range Q Paging Occupied power Rel power at Code domain power CDP table Rho defined range Spectrum Spurious emissions Abs Rel code power Reference power Frequency error emission mask Reference power Peak freq at Channel power Code utilization Time offset defined range Peak level at Peak level at Power bar graph Code spreading factor Carrier feed through defined range defined range Abs Rel ACPR Constellation Pilot Paging Sync Allocation Pilot power Q Paging channel type Option 040 Channel scanner Pilot dominance Ec lo delay Max avg Peak amplifier Pilot power up to 6 active power capacity Frequencies PN offset Code domain power Max avg Average amplifier Ec lo or channels inactive power capacity Channel power Ec lo Abs Rel code power Frequency error Code utilization PN offset pilot power delay Pilot power Ec lo Multipath profile Channel power Time offse
27. t Rho EVM Peak utilization PN scanner up to 6 Channel power PN offset Carrier feed through Average utilization Channel power Multipath power Pilot Paging Sync Q Paging power Amplifier capacity Route map 6 CellAdvisor JD748A Signal Analyzer Longitude latitude and satellite in all screens EV DO Signal Analyzer Options 021 and 041 General Parameters Frequency range Band 0 to 10 nput signal level 40 to 20 dBm nD F channel power accuracy 1 0 dB typical V DO compatibility Rev 0 Rev A and Rev B Frequency error 10 Hz ref freq accuracy 99 confidence level Rho accuracy 0 005 0 9 lt Rho lt 10 Residual Rho gt 0 995 typical PN offset 1x 64 chips Code domain power 0 5 dB relative power 1 5 dB absolute power Code channel power gt 25 dB Code channel power gt 25 dB Pilot power accuracy 1 0 dB typical Time offset 1 0 us 0 5 us typical External trigger Measurements Option 021 Channel power Multi ACPR Channel power Modulation type MAC codogram Multi ACPR Channel power Lowest reference power Rho EVM Peak CDE Code domain power Code utilization Pilot MAC pilot and MAC 64 128 data power Spectral density Highest reference power Frequency error Pilot MAC RCSI On off ratio channel power Peak to average power Abs power at defined range Time offset Slot av
28. utilization Carrier aggregation EVM Peak level at defined PDSCH Data 16 QAM Q origin offset EVM relative or abso Data allocation vs Component carriers ange EVM lute power modulation subframe up to 5 ACLR PDSCH Data 64 QAM EVM RMS EVM peak type Resource block power EVM Reference power Data EVM RMS Subframe Frame average power Data utilization Subframe power Abs power at defined Data EVM peak BSFN OFDM symbol power Auto measure P SS S SS PBCH RS ange Frequency error Subframe summary Frequency error Channel power power and EVM Rel power at defined Time error table 1 Q origin offset Occupied bandwidth PDSCH Data QPSK ange Multi ACLR Data channel P SS S SS PBCH PCFICH PHICH PDCCH RS MBSFN PDSCH EVM RMS peak Spectrum emission mask power and EVM PDSC Data 16 QAM power and EVM Rel power at defined range Modulation format power modulation type trend Lowest reference power MBSFN Data QPSK PDSCH Data EVM RMS peak ACLR Highest reference power Resource block power G oe Cell group sector ID ulti ACLR Abs power at defined 1 Q diagram aa Time alignment error Spurious emission mask range RB power EVM relative or absolute Time alignment error Frame average power PDSCH Data 64 QAM power and EVM Time alignment error Cell ID Spurious emissions 1 Q origin offset Subframe power Time alignment error Frequency erro
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