VIAVI CellAdvisor. Data Sheet. JD788B Signal Analyzer. Spectrum Analyzer (standard) VIAVI Solutions. Spectrum Analyzer: 9 khz to 8 GHz

Transcription

1 Data Sheet VIAVI CellAdvisor JD788B Signal Analyzer VIAVI Solutions Spectrum Analyzer (standard) Frequency Frequency accuracy Frequency ± (Readout frequency x Internal 10MHz Frequency reference accuracy + RBW centering + 2 Hz x Horizontal resolution) 9 khz to 8 GHz Internal 10 MHz Frequency Reference Aging Frequency Span Range Resolution Resolution Bandwidth (RBW) ±0.05 ppm + aging (0 to 50 C) ±0.01 ppm, after 15 minutes of GPS Lock (0 to 50 C) ±0.01 ppm, after 15 minutes of GPS Lock (0 to 50 C) 0 Hz (zero span) 10 Hz to 8 GHz 1 Hz 3 db bandwidth 1 Hz to 3 MHz sequence Video Bandwidth (VBW) ±10% (nominal) 3 db bandwidth 1 Hz to 3 MHz sequence Single Sideband (SSB) Phase Noise ±10% (nominal) Fc 1 GHz, RBW 10 khz, VBW 1 khz, RMS detector Carrier Offset 30 khz 100 khz 1 MHz Measurement Range DANL to +25 dbm Input attenuator Maximum Input Level Average continuous DC voltage 100 dbc/hz ( 102 dbc/hz, typical) 105 dbc/hz ( 112 dbc/hz, typical) 115 dbc/hz ( 120 dbc/hz, typical) 0 to 55 db, 5 db steps +25 dbm ±50 V DC *All specifications are subject to change without notice. Spectrum Analyzer: 9 khz to 8 GHz Power Meter: 10 MHz to 8 GHz Specification* Conditions The JD788B specifications apply under these conditions: ythe instrument has been turned on for at least 15 minutes ythe instrument is operating within a valid calibration period ydata with no tolerance are considered typical values ycable and antenna measurements apply after calibration to the OSL standard ytypical and nominal values are defined as: 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

2 Displayed Average Noise Level (DANL) 1 Hz RBW, 1 Hz VBW, 50 Ω termination, 0 db attenuation, RMS detector Preamplifier Off 10 MHz to 2.4 GHz >2.4 GHz to 6 GHz >6 GHz to 7 GHz >7 GHz to 8 GHz Preamplifier On 10 MHz to 3 GHz >3 GHz to 5 GHz >5 GHz to 7 GHz >7 GHz to 8 GHz Display Range Log scale and units (10 divisions displayed) Linear scale and units (10 divisions displayed) Detectors Number of traces 6 Trace functions 140 dbm ( 145 dbm, typical) 136 dbm ( 140 dbm, typical) -134 dbm ( 138 dbm, typical) 128 dbm ( 134 dbm, typical) 160 dbm ( 165 dbm, typical) 158 dbm ( 162 dbm, typical) 155 dbm ( 158 dbm, typical) 150 dbm ( 155 dbm, typical) 1 to 20 db/division in 1 db steps dbm, dbv, dbmv, dbµv V, mv, mw, W Total Absolute Amplitude Normal, positive peak, sample, negative peak, RMS Clear/write, maximum hold, minimum hold, capture, load view on/off Preamplifier off, level > 50 dbm, auto-coupled 1 MHz to 8 GHz ±1.3 db (±0.5 db typical) Reference Level Setting Setting Resolution Log scale Linear scale Markers Marker types Number of markers 6 Marker functions RF Input VSWR Add ±1.0 db 120 to +100 dbm 0.1 db 1% of reference level 20 to 30 C after 60-minute warm up 10 to 55 C after 60-minute warm up Normal, delta, delta pair, noise, frequency count marker Peak, next peak, peak left, peak right, minimum search marker to center/start/stop 1 MHz to 8 GHz 1.5:1 (typical) Atten >20 db Second Harmonic Distortion Mixer level 25 dbm 50 MHz to 2.6 GHz < 65 dbc (typical) >2.6 GHz to 8 GHz < 70 dbc (typical) Third-Order Inter-Modulation (third-order intercept: TOI) 200 MHz to 3 GHz +10 dbm (typical) >3 GHz to 8 GHz +12 dbm (typical) Spurious Inherent residual response Input terminated, 0 db attenuation, preamplifier off, RBW at 10 khz, Sweep mode 90 dbm (nominal) Exceptions 85 dbm at MHz, , 3.2, and 4.5 GHz 80 dbm at 4.8/7.8 GHz 75 dbm at 85.6 MHz and 428 MHz 70 dbm at MHz and MHz Input-related spurious Dynamic Range 2/3 (TOI-DANL) in 1 Hz RBW Sweep Time Range < 70 dbc (nominal) >104 db at 2 GHz 0.4 ms to 1000 s 24 µs to 200 s Span = 0 Hz (zero span) ±2% Span = 0 Hz (zero span) Mode Gated Sweep Trigger source Gate length Gate delay Trigger Trigger source Trigger Delay Range Resolution * Channel Occupied bandwidth Spectrum emission mask Adjacent channel Spurious emissions Field strength AM/FM audio demodulation Route map PIM detection Dual spectrum Continuous, single External, video, and GPS 1 µs to 100 ms 0 to 100 ms Free run, video, external 0 to 200 s 6 µs *High- CW signal generator (Option 003) can be set up simultaneously. 2 VIAVI CellAdvisor JD788B Signal Analyzer

3 RF PowerMeter(standard) Display Offset 100 to +100 dbm 0 to 60 db Resolution 0.01 db or 0.1 x W (x = m, u, p) Internal RF Power Sensor Frequency Span Dynamic Maximum External RF Power Sensors 10 MHz to 8 GHz 1 khz to 100 MHz 120 to +25 dbm +25 dbm Same as spectrum analyzer Directional JD731B JD733A Frequency Dynamic Connector type Measurement type 300 MHz to 3.8 GHz 0.15 to 150 W (average) 4 to 400 W (peak) 150 MHz to 3.5 GHz 0.1 to 50 W (average) 0.1 to 50 W (peak) Type-N female on both ends Forward/reverse average, forward peak, VSWR ±(4% of reading W) 1,2 Terminating JD732B JD734B JD736B Frequency Dynamic Connector type 20 MHz to 3.8 GHz 30 to +20 dbm Type-N male Measurement type Average Peak Average and peak ±7% 1 Optical Power Meter (standard) Optical Power Meter Display Offset Resolution External Optical Power Sensors Wavelength 100 to +100 dbm 0 to 60 db 0.01 db or 0.1 mw MP-60A MP-80A 780 to 1650 nm Max permitted input level +10 dbm +23 dbm Connector input Universal 2.5 and 1.25 mm ±5% 1. CW condition at 25 C ±10 C 2. Forward High-Power CW Signal Generator (Option 003) Frequency Frequency Frequency reference Frequency resolution 10 MHz to 5500 MHz <±1 ppm maximum 10 khz Output Power Range Step 10 MHz to 3.5 GHz, 60 to +10 dbm 3.5 GHz to 5.5 GHz, 60 to +5 dbm 1 db ±1.5 db (20 to 30 C) GPS Receiver and Antenna (Option 010) GPS Indicator Latitude, longitude, altitude High-Frequency Spectrum, interference, and signal analyzer GPS lock Hold over (for 3 days) Connector ±10 ppb ±50 ppb (0 to 50 C) SMA, female Interference Analyzer (Option 011) Spectrum analyzer Spectrogram RSSI Interference finder Spectrum replayer Dual spectrogram 15 minutes after satellite locked Sound indicator, AM/FM audio demodulation, interference ID, spectrum recorder Collect up to 72 hours of data Collect up to 72 hours of data Channel Scanner (Option 012) Frequency Range 1 MHz to 8 GHz Measurement Range -110 to +25 dbm Channel scanner Frequency scanner Custom scanner 1 to 20 channels 1 to 20 frequencies 1 to 20 channels or frequencies Bluetooth Connectivity (Option 013) Personal area network (PAN) File transfer profile (FTP) Web-based remote control Wi-Fi Connectivity (Option 016) Interface type Interface standard Chipset USB wireless mode Web-based remote control Internet protocol version USB LAN Card IEEE b/g/n RealTek, Ralink Infrastructure mode Internet Explorer, Chrome, Safari IPv4, IPv6 3 VIAVI CellAdvisor JD788B Signal Analyzer

4 GSM/GPRS/EDGE Signal Analyzer (Options 022 and 042) Frequency Input signal Burst 450 MHz to 500 MHz 820 MHz to 965 MHz GHz to GHz 40 to +25 dbm ±1.0 db Frequency error ±10 Hz + ref freq accuracy 99% confidence level GMSK modulation quality Phase RMS ±1.0 degrees (0 < Phase RMS < 8) Residual error 0.7 degrees (typical) Phase peak accuracy ±2.0 degrees (0 < Phase peak < 30) 8 PSK modulation quality EVM ±1.5% (2% < EVM < 8%) Residual error 2.5% RF vs. time Channel Power Peak level at defined ±0.25 symbol Option 022 TSC (Slot 0 to 7) C/I* PvsT Mask Channel Spurious Emissions Constellation EVM RMS* Frame average Spectral density Peak to average Peak frequency at defined Peak level at defined Burst EVM Peak* Frequency error Modulation type EVM 95th* Phase error RMS Occupied Bandwidth Power vs. Time (slot) Frequency error Auto Measure Phase error peak Occupied bandwidth Burst Phase error RMS Channel EVM RMS* Integrated Max/min point Phase error peak Occupied bandwidth EVM Peak* Occupied Spectrum Emission Mask Reference Channel/Frequency Scanner Channels or frequencies Power vs. Time (frame) I/Q origin offset* Spectrum emission mask Frame average TSC Spurious emission mask Burst (Slot 0 to 7) BSIC Option 042 Burst I/Q origin offset BSIC (NCC, BCC) SNR, delay Frame average Modulation type Multipath Profile Modulation Analyzer BSIC, frame no. and time Absolute (10 strongest) Frame avg trend C/I, frequency error Group (traffic, control) Frame average C/I trend Burst Longitude, latitude and satellite in all screens * performed for 8PSK modulation signals (EDGE) only. C/I* 4 VIAVI CellAdvisor JD788B Signal Analyzer

5 WCDMA/HSPA + Signal Analyzer (Options 023 and 043) Frequency Band 1 to 14, 19 to 22, 25, 26 Input signal RF channel accuracy Occupied bandwidth accuracy Adjacent channel leakage ratio (ACLR) WCDMA modulation HSPA+ modulations 40 to +25 dbm ±1.0 db, ±0.7 db (typical) ±100 khz < 56 db, ±0.7 db at 5 MHz offset < 58 db, ±0.8 db at 10 MHz offset QPSK QPSK, 16 QAM, 64 QAM Frequency error ±10 Hz + ref. freq accuracy 99% confidence level EVM accuracy ±2.0% 2% EVM 20% Residual EVM 2.5% (typical) Code domain ±0.5 db relative Code channel > 25 db CPICH accuracy ±1.5 db absolute Code channel > 25 db ±0.8 db (typical) Option 023 Channel Power ACLR Constellation Max, avg active Channel Reference CPICH Max, avg inactive Codogram Code utilization Auto measure Channel Spectral density Abs at defined Rho, EVM Scramble code RCSI Occupied bandwidth Peak to average Peak CDE Relative Code Domain Error CPICH, P-CCPCH, S-CCPCH, PICH, Spectrum emission mask Occupied Bandwidth Rel at defined Frequency error P-SCH, S-SCH ACLR Occupied bandwidth Time offset Abs/Rel code CDP table Multi-ACLR Integrated Multi-ACLR Carrier feed-through Code error Reference Spurious emission mask Occupied Lowest reference Scramble code Individual code Code utilization Spectrum Emission Highest reference Code Domain Power EVM, RCDE, and its Code, spreading Mask constellation factor Reference Peak level at defined Channel Scanner (up to 6) Abs at defined Rel at defined Spurious Emissions Peak frequency at defined Peak level at defined Scramble Scanner (up to 6) Abs/Rel code Individual code EVM and its constellation Channel Power bar graph (Abs/Rel/Delta ) CPICH, P-CCPCH, S-CCPCH PICH, P-SCH, S-SCH Option 043 Channel Power bar graph (Abs/Rel/Delta ) CPICH, P-CCPCH, S-CCPCH, PICH, P-SCH, S-SCH Avg RCDE QPSK, 16 QAM, 64 QAM Allocation (channel type) EVM, modulation type Relative, absolute Multipath Profile Code Domain Power Max, avg active Channel, multipath Abs/Rel code Max, avg inactive Frequency error EVM Peak CDE Carrier feed-through CPICH absolute CPICH relative Max inactive Scramble code Power Statistics CCDF Amplifier capacity Peak amplifier capacity Frequencies or channels Channel Ec/Io, delay Individual code EVM Frequency error Average amplifier Channel, CPICH dominance Channel Time offset, Rho capacity scramble code, CPICH, Ec/Io Scramble code Scramble code Carrier feed-through Code, peak utilization Ec/Io, CPICH, delay Longitude, latitude, and satellite in all screens CPICH, P-CCPCH, S-CCPCH, PICH, P-SCH, S-SCH (Composite) EVM CPICH EVM, P-CCPCH EVM Average utilization Route Map CPICH, Ec/Io 5 VIAVI CellAdvisor JD788B Signal Analyzer

6 cdmaone/cdma2000 Signal Analyzer (Options 020 and 040) Frequency Band 0 to 10 Input signal level RF channel accuracy CDMA compatibility 40 to +25 dbm ±1.0 db (typical) cdmaone and cdma2000 Frequency error ±10 Hz + ref freq accuracy 99% confidence level Rho accuracy ± < Rho < 1.0 Residual Rho PN offset >0.995 (typical) 1 x 64 chips Code domain ±0.5 db relative Code channel > 25 db Pilot accuracy ±1.5 db absolute Code channel > 25 db ±1.0 db (typical) Time offset ±1.0 µs, ±0.5 µs (typical) External trigger Option 020 Channel Power ACPR Peak level at defined Channel Reference Rho Channel Reference Constellation Power bar graph (Abs/ Rel) Spectral density Peak to average Abs at defined Rel at defined Pilot Pilot, Paging, Sync, Q-Paging Code utilization Code, spreading factor Rho Max, avg active Allocation (channel type) Occupied Bandwidth Multi-ACPR EVM Max, avg inactive Relative, absolute Occupied bandwidth Integrated Occupied Spectrum Emission Mask Lowest reference Highest reference Abs at defined Rel at defined Frequency error Time offset Carrier feedthrough Pilot Frequency error PN offset Auto Measure Max inactive Time offset Codogram Channel PN offset Carrier feed-through Code utilization Occupied bandwidth PN offset RCSI Spectrum emission mask Reference Spurious Emissions Code Domain Power Pilot, Paging, Sync, Q-Paging Peak level at defined Channel Scanner (up to 6) Frequencies or channels Channel, PN offset Peak freq at defined Ec/Io, pilot, delay Multipath Profile ACPR Abs/Rel code CDP Table Multi-ACPR PN offset Option 040 Pilot, Paging, Sync, Q-Paging Peak amplifier capacity Average amplifier capacity Channel Max, avg active Code utilization Pilot, Ec/Io Multipath Max, avg inactive Peak utilization PN Scanner (up to 6) Ec/Io, delay Frequency error Average utilization Channel Code Domain Power Time offset, Rho, EVM Route Map Pilot dominance Abs/Rel code Carrier feed-through Pilot PN offset Channel Amplifier capacity Ec/Io Longitude, latitude, and satellite in all screens Power Statistics CCDF 6 VIAVI CellAdvisor JD788B Signal Analyzer

7 EV-DO Signal Analyzer (Options 021 and 041) Frequency Band 0 to 10 Input signal level RF channel accuracy EV-DO compatibility 40 to +25 dbm ±1.0 db (typical) Rev 0, Rev A and Rev B Frequency error ±10 Hz + ref freq accuracy 99% confidence level Rho accuracy ± < Rho < 1.0 Residual Rho PN offset >0.995 (typical) 1 x 64 chips Code domain ±0.5 db relative Code channel > 25 db Pilot accuracy ±1.5 db absolute Code channel > 25 db ±1.0 db (typical) Time offset ±1.0 µs, ±0.5 µs (typical) External trigger Option 021 Channel Power ACPR Power vs. Time Constellation (pilot, Code Domain Power Auto Measure Channel Reference (idle and active slot) MAC 64/128, and (data) Channel data) Spectral density Abs at defined Slot average Channel Data channel Occupied bandwidth Peak to average On/off ratio Rho, EVM, peak CDE Slot average Spectrum emission mask Occupied Bandwidth Occupied bandwidth Rel at defined Idle activity Frequency error Max, avg active ACPR Pilot, MAC, data Integrated Multi-ACPR Constellation (composite 64/128) Occupied Spectrum Emission Mask Reference Peak level at defined Channel Scanner (up to 6) Lowest reference Highest reference Abs at defined Rel at defined Time offset Max, avg inactive Multi-ACPR Carrier feed-through PN offset Pilot, MAC, data PN offset MAC Codogram On/off ratio Channel Rho, EVM, Peak CDE Modulation type* Code Domain Power (pilot and MAC Code utilization RCSI PvsT mask (idle slot) or PvsT mask (active slot) Frequency error 64/128) Slot, pilot, MAC, data Frequency error Time offset Pilot/MAC channel MAC CDP Table Time offset Carrier feed-through Slot average Reference Carrier feed-through Spurious Emissions PN offset Max active I/Q Code utilization Pilot, MAC, data Rho Peak frequency at defined Peak level at defined Pilot, MAC, data Pilot, MAC, data EVM Option 041 Avg active I/Q Code, spreading factor Max inactive I/Q Max inactive I/Q Allocation (channel type) Avg inactive I/Q Relative, absolute PN offset PN offset Power Statistics CCDF PN Scanner (up to 6) Multipath Profile Code Domain Power Frequency error Peak utilization Channel Channel Slot average Time offset Average utilization Frequencies or channels Pilot dominance Multipath PN offset Carrier feed-through Route Map PN offset PN offset Ec/Io, delay Pilot, MAC, data Max active I/Q Pilot Pilot, MAC, data Ec/Io, pilot, delay Pilot, MAC, data Rho Avg active I/Q Ec/Io Longitude, latitude, and satellite in all screens *Measurement is performed in Data Constellation only. (Composite) EVM Code utilization 7 VIAVI CellAdvisor JD788B Signal Analyzer

8 TD-SCDMA Signal Analyzer (Options 025 and 045) Frequency GHz to 2.22 GHz Input signal level 40 to +25 dbm Channel (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 µs (typical) External trigger Spreading factor Auto (DL, UL), 1, 2, 4, 8, 16 Option 025 Channel Power Spurious Emissions Timogram Avg active code Multi-ACLR Channel Peak frequency at defined Constellation Max inactive code Slot Spectral density Peak level at Rho Avg inactive code DwPTS defined Peak to average Power vs. Time (slot) EVM RMS, EVM peak Code Error UpPTS Occupied Bandwidth Slot Peak CDE Code and error On/off slot ratio Occupied bandwidth DwPTS Frequency error Individual code EVM Frequency error and its constellation Integrated UpPTS I/Q origin offset Data format EVM RMS Occupied On/off slot ratio Time offset Slot, DwPTS Peak CDE Spectrum Slot PAR Midamble Power No. of active code Max inactive Emission Mask Reference DwPTS code Slot Scramble code Scramble code Peak level at defined Power vs. Time (frame) DwPTS Max active code ACLR Slot (TS [0 to 6], Midamble Avg active code DwPTS, UpPTS) (1 to 16) Reference Data left (TS [0 to 6], DwPTS, UpPTS) Code Power Max inactive code Abs at defined Rel at defined Midamble (TS [0 to 6], DwPTS, UpPTS) Data right (TS [0 to 6], DwPTS, UpPTS) Multi-ACLR Time offset (TS [0 to 6], DwPTS, UpPTS) Abs/Rel code Individual code EVM and its constellation Data format Avg inactive code Peak CDE and peak active CDE Auto Measure Lowest reference Power vs. Time (mask) Slot, DwPTS Channel Highest reference Slot No. of active code Occupied bandwidth Abs at defined On/off slot ratio Scramble code Spectrum emission mask Rel at defined Off Max active code ACLR Option 045 Sync-DL ID Scanner (32) Sync-DL ID vs. Tau Ec/Io, Tau DwPTS DwPTS Power (up to 6) Scramble code group ID,, Ec/Io, Tau DwPTS Pilot dominance Ec/Io, Tau DwPTS Pilot dominance EVM, frequency error DwPTS Pilot dominance Sync-DL ID Analyzer Ec/Io, CINR Pilot dominance Sync-DL ID Multipath DwPTS, Ec/Io trend Route Map Longitude, latitude, and satellite in all screens 8 VIAVI CellAdvisor JD788B Signal Analyzer

9 Mobile WiMAX Signal Analyzer (Options 026 and 046) Frequency Input signal level Channel accuracy Supported bandwidth 2.1 GHz to 2.7 GHz 3.4 GHz to 3.85 GHz 40 to +25 dbm ±1.0 db (typical) 7 MHz, 8.75 MHz, and 10 MHz Frequency error ±10 Hz + ref freq accuracy 99% confidence level Residual EVM (RMS) 1.5% (typical) Option 026 Channel Power Spurious Emissions Constellation Auto Measure Time offset Channel Peak frequency at defined Channel Channel I/Q origin offset Spectral density RCE RMS, RCE peak Occupied bandwidth Spectral flatness Peak to average Peak level at defined EVM RMS, EVM peak Spectrum emission mask Frequency error Occupied Bandwidth Power vs. Time (frame) Frequency error Spurious emission mask RCE RMS Occupied bandwidth Channel Time offset Preamble RCE peak Integrated Frame average Segment ID, cell ID DL burst EVM RMS Occupied Preamble Preamble index UL burst EVM peak Spectrum Emission Mask DL burst Spectral Flatness Frame average Power Statistics CCDF Reference UL burst Average subcarrier Peak level at defined I/Q origin offset Subcarrier variation Preamble Scanner (up to 6) Time offset Max, min, avg Option 046 Multipath Profile Preamble Power Trend Route Map Total preamble Total preamble Preamble trend C/I Preamble Preamble, relative Multipath Relative trend Preamble Cell ID, sector ID Relative, delay Preamble Cell ID, sector ID Time offset Frame avg Time offset Longitude, latitude, and satellite in all screens Relative 9 VIAVI CellAdvisor JD788B Signal Analyzer

10 LTE/LTE-Advanced FDD Signal Analyzer (Options 028/030/032 and 048) Frequency Band 1 to 14, 17 to 26 Input signal level 40 to +20 dbm Channel accuracy ±1.0 db (typical) Supported bandwidths 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 Option 028/030/032 Channel Power Power vs. Time (frame) Control Channel Data EVM RMS, peak RS EVM RMS, peak Antenna 1 RS and EVM Channel Frame average Control channel summary (P-SS, S-SS, PBCH, PDSCH/Data* 64 QAM EVM PDSCH 256QAM EVM Spectral density Subframe Cell, group, sector ID Antenna 2 RS Data EVM RMS, peak PCFICH, PHICH, PDCCH, Peak to average First slot Frame and EVM** RS, P-SS, S-SS EVM RS, MBSFN*) Occupied Bandwidth Second slot MBSFN* Antenna 3 RS RS, P-SS, S-SS Occupied bandwidth Cell ID, I/Q origin offset EVM, relative or Frame summary table and EVM** PBCH Integrated Time offset absolute (P-SS, S-SS, PBCH, Data Allocation Map Subframe, modulation type PCFICH, PHICH, PDCCH, Occupied Constellation Each control channels RS, MBSFN*, PDSCH/ Data allocation vs frame OFDM Spectrum Emission MBSFN* I/Q diagram Data* QPSK, PDSCDH/ Resource block Time error Mask RS TX Modulation format Data* 16 QAM, PDSCH/ OFDM symbol I/Q origin offset Reference PDSCH/Data* QPSK Frequency error Data* 64 QAM, PDSCH Data utilization Carrier Aggregation** EVM 256QAM) Peak level at defined PDSCH/Data* 16 QAM I/Q origin offset Data allocation vs Component carriers: EVM subframe up to 5 ACLR PDSCH/Data* 64 QAM EVM EVM RMS, EVM peak EVM, relative or absolute, modulation type Resource block Reference PDSCH 256QAM EVM Data EVM RMS Subframe Frame average Data utilization Subframe Abs at defined Data EVM peak MBSFN* OFDM symbol Auto Measure P-SS, S-SS, PBCH, RS Frequency error Subframe summary Frequency error Channel and EVM Rel at defined Time error table (P-SS, S-SS, PBCH, I/Q origin offset Occupied bandwidth PDSCH/Data* QPSK and EVM Multi-ACLR Data Channel PCFICH, PHICH, PDCCH, RS, MBSFN*, PDSCH/ EVM RMS, peak Spectrum emission mask Lowest reference MBSFN* Data* QPSK, PDSCH/ Data EVM RMS, peak ACLR PDSCH/Data* 16 QAM Data* 16 QAM, PDSCH/ Highest reference Resource block Cell, group, sector ID Multi-ACLR and EVM Data* 64 QAM, PDSCH Abs at defined I/Q diagram Time Alignment Error Spurious emission mask PDSCH/Data* 64 QAM 256QAM) and EVM RB EVM, relative or Time alignment error Frame average PDSCH 256QAM EVM absolute trend Rel at defined Modulation format Time alignment error Cell ID, modulation type Spurious Emissions I/Q origin offset Subframe Time alignment error Frequency error Frequency error Peak frequency at defined Peak level at defined Channel Scanner (up to 6) EVM RMS, EVM peak OFDM symbol RS difference MBSFN* Time alignment error Frequency, time error Antenna 0 RS and EVM PDSCH/Data* QPSK EVM Antenna port PDSCH/Data* 16 QAM Power Statistics CCDF EVM Option 048 ID Scanner (up to 6) Multipath Profile Control channel table PMCH subframe * Route Map Frequency or channels RSRP/RSRQ dominance Cell, group, sector ID (P-SS, S-SS, PBCH, Time alignment error RSRP Cell, group, sector ID S-SS RSSI dominance Ant 0 RS Ec/Io, delay PCFICH, RS 0, RS 1, RS Time offset RSRQ Channel S-SS Ec/Io dominance Ant 1 RS Ec/Io, delay 2**, RS 3**, MBSFN RS*) Datagram RS-SINR RSRP/RSRQ Cell, group, sector ID Ant 2 RS Ec/Io**, delay** Absolute Datagram S-SS RSSI RS-SINR RSRP/RSRQ Ant 3 RS Ec/Io**, delay** Relative Resource block P-SS/S-SS Power Antenna port RS-SINR/S-SS RSSI Control Channel EVM RMS, phase Data utilization S-SS Ec/Io P-SS/S-SS Power RS trend Frequency error S-SS Ec/Io Cell, group, sector ID Longitude, latitude, and satellite in all screens *Measurement is performed when MBMS is enabled. **Measurement is performed when option 030 is enabled. 10 VIAVI CellAdvisor JD788B Signal Analyzer

11 LTE/LTE-Advanced TDD Signal Analyzer (Options 029/031/033 and 049) Frequency Band 33 to 43 Input signal level Channel accuracy Supported bandwidth 40 to +20 dbm ±1.0 db (typical) 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 Option 029/031/033 Channel Power Channel Spurious Emissions Data EVM peak Frequency error Subframe MBSFN* Antenna 3 RS and EVM** Peak frequency at defined PDSCH/Data* 64 QAM EVM PDSCH 256QAM EVM Spectral density Time error Subframe summary Cell, group, sector ID Data EVM RMS, peak Peak to average Peak level at defined Data Channel table Data Allocation Map RS, P-SS, S-SS EVM Occupied Bandwidth MBSFN* (P-SS, S-SS, PBCH, Data allocation vs frame RS, P-SS, S-SS Occupied bandwidth Power vs. Time (frame) Resource block PCFICH, PHICH, PDCCH, Resource block PBCH Integrated Frame average I/Q diagram RS, MBSFN*, PDSCH/ OFDM symbol Subframe Occupied Subframe RB Data* QPSK, PDSCH/Data* 16 QAM, PDSCH/Data* 64 QAM, PDSCH 256QAM) Data utilization OFDM Spectrum Emission Mask First slot Modulation format EVM, relative or absolute, modulation type Data allocation vs subframe Time error Reference Second slot I/Q origin offset I/Q origin offset Peak level at defined Cell ID, I/Q origin offset EVM RMS, EVM peak Subframe Resource block Carrier Aggregation** Time offset Control Channel OFDM symbol Data utilization Component carriers: ACLR Power vs. Time (slot) Control channel Frequency, time error Auto Measure up to 5 Reference Slot average summary Data EVM RMS, peak Channel Subframe Abs at defined Transient period length (P-SS, S-SS, PBCH, RS EVM RMS, peak Occupied bandwidth P-SS, S-SS, PBCH, RS Off PCFICH, PHICH, PDCCH, RS, MBSFN*) Cell, group, sector ID Spectrum emission mask and EVM Rel at defined Constellation EVM, relative or Time Alignment Error ACLR PDSCH/Data* QPSK MBSFN* absolute, modulation type Time alignment error trend Mult-ACLR and EVM Multi-ACLR RS TX Each control channels Time alignment error Spurious emission mask PDSCH/Data* 16 QAM Lowest reference PDSCH/Data* QPSK I/Q diagram RS difference Slot average and EVM EVM Highest reference PDSCH/Data* 16 QAM Modulation format Antenna 0 RS Off PDSCH/Data* 64 QAM Abs at defined EVM Frequency error and EVM Transition period and EVM PDSCH 256QAM EVM PDSCH/Data* 64 QAM I/Q origin offset Antenna 1 RS and Time alignment error Cell ID Rel at defined EVM EVM RMS, EVM peak EVM MBSFN* Frequency error PDSCH 256QAM EVM Antenna 2 RS and EVM** PDSCH/Data* QPSK EVM Time alignment error Data EVM RMS PDSCH/Data* 16 QAM EVM Antenna port Power Statistics CCDF Option 049 Channel Scanner ID Scanner (up to 6) Multipath Profile Control Channel EVM RMS, phase Route Map (up to 6) RSRP/RSRQ dominance Cell, group, sector ID RS trend Frequency error RSRP Frequency or channels S-SS RSSI dominance Ant 0 RS Ec/Io, delay Cell, group, sector ID PMCH subframe * RSRQ Cell, group, sector ID S-SS Ec/Io dominance Ant 1 RS Ec/Io, delay Control channel table Time alignment error RS-SINR Channel Cell, group, sector ID Ant 2 RS Ec/Io**, delay** (P-SS, S-SS, PBCH, Time offset S-SS RSSI RSRP/RSRQ RSRP/RSRQ Ant 3 RS Ec/Io**, delay** PCFICH, RS 0, RS 1, RS Datagram P-SS, S-SS RS-SINR RS-SINR/S-SS RSSI 2**, RS 3**, MBSFN RS*) Datagram S-SS Ec/Io Antenna port P-SS/S-SS Absolute Resource block S-SS Ec/Io Relative Data utilization Longitude, latitude, and satellite in all screens *Measurement is performed when MBMS is enabled. **Measurement is performed when option 031 is enabled. 11 VIAVI CellAdvisor JD788B Signal Analyzer

12 NB-IoT Signal Analyzer (Option 034) Operation Mode Input signal level Channel accuracy Supported bandwidths Anchor Carrier definition Measurement Type Frequency error Residual EVM (RMS) In Band, Guard band, and Standalone -40 to +25 dbm Channel accuracy ±1.0 db (typical) 180 khz PRBS Index or frequency Type Frame, Subframe ±10 Hz + ref freq accuracy 99% confidence level 2.0% (typical) Data EVM Frequency error ±10 Hz + ref freq accuracy 99% confidence level Residual EVM (RMS) 2.0% (typical) Data EVM Measurement RF Analysis Option 034 Modulation Analysis Channel Power Spectrum Emission Mask IQ Diagram Channel Power Reference Power Constellation diagram, Modulation Format, Frequency error, IQ Origin offset, EVM RMS/Peak Spectral density Peak level at defined Peak to average Power ACLR Occupied bandwidth Reference Power Channel Summary Occupied Bandwidth Abs. at defined EVM, Power (dbm), and Modulation type of: Frame (Subframe) Power, NPSS, NSSS, NPBCH, NPDSCH, NRS0 (NRS1), PCI Integrated Power Rel. at defined Occupied EMF Analyzer (Option 050) Supported Antenna Mode Trace Limit lines Dwell Time Spurious Emission Peak frequency at defined Peak level at defined Isotropic Antenna G MHz to 3 GHz Sweep / FFT X-Axis, Y-Axis, Z-Axis, Current, Isotropic, Isotropic Accumulated MSL, ICNIRP 1 to 60s Measurement Time 1 to 30 min (# of measurement= Measurement Time / (Dwell Time x 3) Units dbμv/m, dbmv/m, dbv/m, V/m, W/m 2, dbm/m 2, dbw/m 2, A/m, dba/m, and Watt/cm 2. Miscellaneous Measurement Trace: X-Axis, Y-Axis, Z-Axis, Current, Isotropic, Isotropic Accumulated Spectrum logging and Replay Export to CSV PDF Report Generation Option 050 and G Isotropic EMF Power: AVG, Max, Min Accumulated Isotropic EMF Power: AVG, Max, Min 12 VIAVI CellAdvisor JD788B Signal Analyzer

13 RFoCPRI/Interference Analyzer (Option 008, 060, 061, 062, 063, 064, and 065) Optical interface Dual SFP/SFP+ (supports all MSA compliant SFP modules) Line rates Mbps (1x), Mbps (2x) Option 008 and 060 Resolution Bandwidth (RBW) 3 db bandwidth VBW Mbps (4x) Option 008 and Mbps (5x) Option 008 and Mbps (8x) Option 008 and Mbps (10x) Option 008 and Mbps (16x) Option 008 and khz to 10 khz (span 3.84 MHz) 1 KHz to 100 khz (3.84 MHz < span < MHz) ±10% (nominal) sequence 3 db bandwidth 1 Hz to 100 KHz sequence ±10% (nominal) IQ Sample width 4 20 (step 1) Mapping method 1 and 3 TX clock Port type Map position Bandwidth Internal/external/recovered Master/slave AxC#0 AxC#7 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, 15 MHz, 20 MHz Layer-2 Monitoring Layer-2 Term Interference analyzer Port 1 Port 2 Port 1 or 2 (exclusive) Spectrum Sound indicator, LOS LOS LOS SDI AM/FM audio demodulation, LOF LOF LOF RAI interference ID, SDI SDI Optic RX level dbm spectrum recorder RAI RAI Protocol version 1 to 10 Spectrogram Collect up to 72 hr of data Optic RX level Optic RX level C and M HDLC rate (kbps) No HDLC, 240, 480, 960, 1920, 2400 RSSI Collect up to 72 hr of data SFP Information SFP Information Spectrum replay X1, x2, x4, x8 Wavelength Wavelength C and M Ethernet 20 to 63 PIM Detection Vendor Vendor subchannel number Single carrier Vendor PN Vendor PN Alarm Injection Multi carrier Vendor rev Vendor rev R-LOS Single PIM calculator Power level type Power level type R-LOF Single Diagnostic byte Diagnostic byte Error Injection Nominal rate Nominal rate Code Single/rate Min rate Min rate K30.7 Single/rate Max RX level Max RX level Error rate 1E-3 to 1E-9 Max TX level Max TX level 13 VIAVI CellAdvisor JD788B Signal Analyzer

14 RFoCPRI GSM (Option 068) Optical interface Line rates Resolution Bandwidth (RBW) Video Bandwidth (RBW) Dual SFP/SFP+ (supports all MSA compliant SFP modules) Mbps (1x) Mbps (2x) Mbps (4x) Mbps (5x) Mbps (8x) Mbps (10x) Mbps (16x) 1 KHz to 30 khz (Span 960 khz) 1 Hz to 30 KHz IQ Sample Width 4 20 (step 1) Sample Rate Mapping TX clock Port type 960 KHz NA=1, S=1, K=4, NC=1 Internal/external/recovered Master/slave ±10% (nominal) ±10% (nominal) Layer-2 Monitoring Layer-2 Term Layer-2 Term (cont.) Port 1 Port 2 Port 1 or 2 (exclusive) Error LOS LOS LOS Error rate Code Single/rate LOF LOF LOF K30.7 Error rate Single/rate RAI RAI Optic RX level dbm K30.7 SDI SDI Optic TX level dbm Interference analyzer Optic RX level Optic RX level Port Type Master Spectrum SFP Information SFP Information Protocol Version 1 to 10 Sound indicator Wavelength Wavelength C&M HDLC rate (kbps) Vendor Vendor C&M Ethernet Subchannel number No HDLC, 240, 480, 960, 1920, 2400 AM/FM audio demodulation 20 to 63 Interference ID, Vendor PN Vendor PN Spectrum recorder Vendor rev Vendor rev Word Sync Loss Event Spectrogram Power level type Power level type Code Violation RSSI Diagnostic byte Diagnostic byte K30.7 words Spectrum replay Nominal rate Nominal rate Frame Sync Loss Events PIM Detection Min rate Min rate Alarm Injection Single Carrier Max RX level Max RX level R-LOS SDI Multi Carrier Max TX level Max TX level R-LOF RAI PIM Calculator 14 VIAVI CellAdvisor JD788B Signal Analyzer

15 RFoOBSAI TM Interference Analyzer (Option 070, 071, 072, 073) Optical interface Line rates 768 Mbps (1x) Option 070 Resolution Bandwidth (RBW) Video Bandwidth (RBW) RP3 Type RP3 Address TX clock Port type Bandwidth RP3 Address List Dual SFP/SFP+ (supports all MSA compliant SFP modules) 1536 Mbps (2x) Option Mbps (4x) Option Mbps (8x) Option khz to 10 khz (span 3.84 MHz) 1 KHz to 100 khz (3.84 MHz < span MHz) 1 Hz to 100 KHz ±10% (nominal) ±10% (nominal) LTE (FDD/TDD), UMTS (FDD) Hexadecimal Internal/external/recovered Master/slave Scrambler Seed Nx7 Index: 0 17, step 1 LTE-FDD/TDD: 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, 15 MHz, 20 MHz UMTS: 3MHz for downlink, 5MHz for Uplink RP3 Address, Technology, Scrambler seed*, Message Count* Layer-2 Monitoring Layer-2 Term Interference analyzer Port 1 Port 2 Port 1 or 2 Spectrum Sound indicator, AM/FM LOS LOS LOS audio demodulation, interference ID, spectrum LOF LOF LOF recorder Code Violation Code Violation Optic RX level dbm K30.7 words K30.7 words Optic TX level dbm Spectrogram Collect up to 72 hr of data Optic RX level Optic RX level Port Type Master RSSI Collect up to 72 hr of data Optic TX level Optic TX level TX State State machine Spectrum replay x1, x2, x4, x8 Messages Address Message Address RX State State machine PIM Detection Single carrier Multi carrier PIM calculator Message Counter Message Counter TX Address RP3 Address (Hexadecimal) SFP Information SFP Information RX Address RP3 Address (Hexadecimal) Wavelength Wavelength Word Sync Loss Event Vendor Vendor Code Violation Vendor PN Vendor PN K30.7 words Vendor rev Vendor rev Frame Sync Loss Events Power level type Power level type Alarm Injection Diagnostic byte Diagnostic byte K30.7 Single Nominal rate Nominal rate Error Injection Min rate Min rate Code Single/rate Max RX level Max RX level Error rate 1E-3 to 1E-9 Max TX level Max TX level * Available only when the link rate is 6.1Gbps 15 VIAVI CellAdvisor JD788B Signal Analyzer

16 RFoCPRI TM LTE-FDD Signal Generator (Option 081) Optical interface Link Rate IQ Sample width Mapping method Waveform Bandwidth Dual SFP/SFP+ (supports all MSA compliant SFP modules) Mbps (1x), Mbps (2x), Mbps (4x), Mbps (5x), Mbps (8x), Mbps (10x), Mbps (16x) 8 20 bits Packed and Flexible Off: CW On: LTE-FDD E-TM1.1, E-TM1.2, E-TM2, E-TM3.1, E-TM3.2, E-TM3.3 5 MHz, 10MHz, 15MHz, 20MHz Sampling Frequency N x 3.84MHz (N=2, 4, 6, 8) Gain dynamic 0 to -50 db Frequency error ±10 Hz + ref freq accuracy 99% confidence level Residual EVM (RMS) 0.2% (typical) Data EVM RFoCPRI TM LTE-TDD Signal Generator (Option 082) Optical Hardware (Option 008) Interface Line coding Two SFP/SFP+ ports (supports all MSA compliant SFP modules), One Ethernet port 8B/10B Line rates Mbps, Mbps (Option 060) Mbps (Option 061) Mbps (Option 062) IQ Sample width 4 20 (step 1) Mapping method 1 and 3 Waveform Bandwidth Mbps (Option 063) Mbps (Option 064) Mbps (Option 065) CW, LTE-TDD E-TM1.1, E-TM1.2, E-TM2, E-TM3.1, E-TM3.2, E-TM3.3 5 MHz, 10 MHz, 15 MHz, 20 MHz Sampling Frequency N x 3.84 MHz (N=2, 4, 6, 8) Gain dynamic Frequency error Residual EVM (RMS) 0 to 50 db ±10 Hz + ref freq accuracy, 99% confidence level 0.02% (typical), Data EVM 16 VIAVI CellAdvisor JD788B Signal Analyzer

17 RFoCPRI LTE-FDD Multi Carrier Signal Generator (Option 083) Optical Hardware (Option 008) Interface Max TX Line coding Line rates Two SFP/SFP+ ports (supports all MSA compliant SFP modules) 4 carriers / SFP port, Dual port operation is available 8B/10B Mbps Mbps Mbps Mbps Mbps Mbps Mbps IQ Sample width 8 20 (step 1) Waveform mapping Waveform Bandwidth Carrier / TX Container Map Position CW, CW (two tone), LTE-FDD E-TM1.1, E-TM1.2, E-TM2, E-TM3.1, E-TM3.2, E-TM3.3 5 MHz, 10 MHz, 15 MHz, 20 MHz Sampling Frequency N x 3.84 MHz (N=2, 4, 6, 8) Gain dynamic Frequency error Residual EVM (RMS) 0 to 50 db ±10 Hz + ref freq accuracy, 99% confidence level 0.02% (typical), Data EVM RFoCPRI LTE-TDD Multi Carrier Signal Generator (Option 084) Optical Hardware (Option 008) Interface Max TX Line coding Line rates Two SFP/SFP+ ports (supports all MSA compliant SFP modules) 4 carriers / SFP port, Dual port operation is available 8B/10B Mbps Mbps Mbps Mbps Mbps Mbps Mbps IQ Sample width 8 20 (step 1) Waveform mapping Waveform Bandwidth Carrier / TX Container Map Position CW, CW (two tone), LTE-TDD E-TM1.1, E-TM1.2, E-TM2, E-TM3.1, E-TM3.2, E-TM3.3 5 MHz, 10 MHz, 15 MHz, 20 MHz Sampling Frequency N x 3.84 MHz (N=2, 4, 6, 8) Gain dynamic Frequency error Residual EVM (RMS) 0 to 50 db ±10 Hz + ref freq accuracy, 99% confidence level 0.02% (typical), Data EVM 17 VIAVI CellAdvisor JD788B Signal Analyzer

18 RFoOBSAI TM LTE-FDD Signal Generator (Option 086) Optical Hardware (Option 008) Interface OBSAI Parameter Line coding Two SFP/SFP+ ports (supports all MSA compliant SFP modules), One Ethernet port 8B/10B Line rates 768 Mbps (Option 070) 1536 Mbps (Option 071) RP3 Type RP3 Address Waveform Bandwidth LTE Hexadecimal 3072 Mbps (Option 072) 6144 Mbps (Option 073) CW, LTE-FDD E-TM1.1, E-TM1.2, E-TM2, E-TM3.1, E-TM3.2, E-TM3.3 5 MHz, 10 MHz, 15 MHz, 20 MHz Sampling Frequency N x 3.84 MHz (N=2, 4, 6, 8) Gain dynamic Frequency error Residual EVM (RMS) 0 to 50 db ±10 Hz + ref freq accuracy, 99% confidence level 0.02% (typical), Data EVM 18 VIAVI CellAdvisor JD788B Signal Analyzer

19 RFoCPRI TM LTE-FDD Analyzer (Option 091) Optical Hardware (Option 008) Interface Line coding Two SFP/SFP+ ports (supports all MSA compliant SFP modules), One Ethernet port 8B/10B Line rates Mbps, Mbps (Option 060) Mbps (Option 061) Mbps (Option 062) Resolution Bandwidth (RBW) 3 db bandwidth 100kHz ±10% (nominal) IQ Sample width 4 20 (step 1) Mapping method 1 and 3 TX clock Port type Map Position Bandwidth Span Frequency error Residual EVM (RMS) Internal/External/Recovered Master/slave AxC#0 AxC#7 5 MHz, 10 MHz, 15 MHz, 20 MHz Fixed and equal to sampling frequency of LTE signal ±10 Hz + ref freq accuracy, 99% confidence level 0.02% (typical), Data EVM : Option 008, 060, 061, 062, 063, 064, and 065 Channel Power Channel Spectral density Peak to average Occupied bandwidth Occupied Bandwidth Integrated Power Occupied Power vs. Time (Frame) Frame average Subframe First Slot Second Slot Cell ID, I/Q origin offset Time offset Power Statistics CCDF Average Power Peak Power Crest Factor * Longitude, latitude, and satellite in all screens Constellation MBSFN* RS TX Power PDSCH/Data* QPSK EVM PDSCH/Data* 16QAM EVM PDSCH/Data* 64QAM EVM Data EVM RMS, Peak Frequency error Time Error Control Channel Control Channel Summary EVM, Rel or Abs of each control channel IQ Diagram Modulation format Frequency Error I/Q origin offset Control EVM RMS, Peak Data Channel MBSFN* Resource block I/Q diagram RB Modulation format I/Q origin offset EVM RMS, Peak Mbps (Option 063) Mbps (Option 064) Mbps (Option 065) Subframe MBSFN* Subframe Summary EVM, Abs. and Rel. Power Subframe Power OFDM Symbol Power Frequency Error Time Error Data EVM RMS, Peak RS EVM RMS, Peak Cell, Group, Sector ID Time Alignment Error Time alignment error trend Time alignment error RS difference Antenna 0 RS, EVM Antenna 1 RS, EVM Antenna 2 RS, EVM ** Antenna 3 RS, EVM ** Cell, Group, Sector ID Frame MBSFN* Frame Summary EVM, Abs. and Rel. Power Frame Average Power OFDM Symbol Power Frequency Error IQ Origin Offset Data EVM RMS, Peak Control EVM RMS, Peak Cell, Group, Sector ID Data Allocation Map Data Allocation vs. Frame Resource Block Power OFDM Symbol Power Data Utilization Data Allocation vs Subframe Resource block Data Utilization 19 VIAVI CellAdvisor JD788B Signal Analyzer

20 RFoCPRI TM LTE-TDD Analyzer (Option 092) Optical Hardware (Option 008) Interface Line coding Two SFP/SFP+ ports (supports all MSA compliant SFP modules), One Ethernet port 8B/10B Line rates Mbps, Mbps (Option 060) Mbps (Option 061) Mbps (Option 062) Resolution Bandwidth (RBW) 3 db bandwidth 100kHz ±10% (nominal) IQ Sample width 4 20 (step 1) Mapping method 1 and 3 TX clock Port type Map Position Bandwidth Span Frequency error Residual EVM (RMS) Internal/External/Recovered Master/slave AxC#0 AxC#7 5 MHz, 10 MHz, 15 MHz, 20 MHz Fixed and equal to sampling frequency of LTE signal ±10 Hz + ref freq accuracy, 99% confidence level 0.02% (typical), Data EVM : Option 008, 060, 061, 062, 063, 064, and 065 Channel Power Channel Spectral density Peak to average Occupied bandwidth Occupied Bandwidth Integrated Power Occupied Power vs. Time (Frame) Frame average Subframe First Slot Second Slot Cell ID, I/Q origin offset Time offset Power vs. Time (Slot) Slot average Transient period length Off * Longitude, latitude, and satellite in all screens Constellation MBSFN* RS TX Power PDSCH/Data* QPSK EVM PDSCH/Data* 16QAM EVM PDSCH/Data* 64QAM EVM Data EVM RMS, Peak Frequency error Time Error Control Channel Control Channel Summary EVM, Rel or Abs of each control channel IQ Diagram Modulation format Frequency Error I/Q origin offset Control EVM RMS, Peak Data Channel MBSFN* Resource block I/Q diagram RB Modulation format I/Q origin offset EVM RMS, Peak Mbps (Option 063) Mbps (Option 064) Mbps (Option 065) Subframe MBSFN* Subframe Summary EVM, Abs. and Rel. Power Subframe Power OFDM Symbol Power Frequency Error Time Error Data EVM RMS, Peak RS EVM RMS, Peak Cell, Group, Sector ID Time Alignment Error Time alignment error trend Time alignment error RS difference Antenna 0 RS, EVM Antenna 1 RS, EVM Antenna 2 RS, EVM ** Antenna 3 RS, EVM ** Cell, Group, Sector ID Data Allocation Map Data Allocation vs. Frame Resource Block Power OFDM Symbol Power Data Utilization Data Allocation vs Subframe Resource block Data Utilization Power Statistics CCDF Average Power Peak Power Crest Factor 20 VIAVI CellAdvisor JD788B Signal Analyzer

21 RFoOBSAI TM LTE-FDD Analyzer (Option 096) Optical Hardware (Option 008) Interface Line coding Two SFP/SFP+ ports (supports all MSA compliant SFP modules), One Ethernet port 8B/10B Line rates 768 Mbps (Option 070) 1536 Mbps (Option 071) Resolution Bandwidth (RBW) 3 db bandwidth OBSAI Parameter RP3 type RP3 address TX clock Port type Bandwidth RP3 address list 100kHz ±10% (nominal) LTE (FDD/TDD), UMTS (FDD) Hexadecimal Internal/external/recovered Master/slave Scrambler seed Nx7 Index: 0 17, step 1 Channel Power Channel Spectral density Peak to average Occupied bandwidth Occupied Bandwidth Integrated Power Occupied Power vs. Time (Frame) Frame average Subframe First Slot Second Slot Cell ID, I/Q origin offset Time offset Power Statistics CCDF Average Power Peak Power Crest Factor * Longitude, latitude, and satellite in all screens 3072 Mbps (Option 072) 6144 Mbps (Option 073) LTE-FDD/TDD: 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, 15 MHz, 20 MHz UMTS: 3 MHz for downlink, 5 MHz for uplink RP3 address, Technology, Scrambler seed*, Message Count* Constellation MBSFN* RS TX Power PDSCH/Data* QPSK EVM PDSCH/Data* 16QAM EVM PDSCH/Data* 64QAM EVM Data EVM RMS, Peak Frequency error Time Error Control Channel Control Channel Summary EVM, Rel or Abs of each control channel IQ Diagram Modulation format Frequency Error I/Q origin offset Control EVM RMS, Peak Data Channel MBSFN* Resource block I/Q diagram RB Modulation format I/Q origin offset EVM RMS, Peak Subframe MBSFN* Subframe Summary EVM, Abs. and Rel. Power Subframe Power OFDM Symbol Power Frequency Error Time Error Data EVM RMS, Peak RS EVM RMS, Peak Cell, Group, Sector ID Time Alignment Error Time alignment error trend Time alignment error RS difference Antenna 0 RS, EVM Antenna 1 RS, EVM Antenna 2 RS, EVM ** Antenna 3 RS, EVM ** Cell, Group, Sector ID Frame MBSFN* Frame Summary EVM, Abs. and Rel. Power Frame Average Power OFDM Symbol Power Frequency Error IQ Origin Offset Data EVM RMS, Peak Control EVM RMS, Peak Cell, Group, Sector ID Data Allocation Map Data Allocation vs. Frame Resource Block Power OFDM Symbol Power Data Utilization Data Allocation vs Subframe Resource block Data Utilization 21 VIAVI CellAdvisor JD788B Signal Analyzer

22 RFoCPRI BBU Emulation for Alcatel-Lucent (Option 101) Optical Hardware (Option 008) Interface Max TX Line coding Dual SFP/SFP+ (supports all MSA-compliant SFP modules) 4 Carrier/SFP port (Option 083 or 084), Dual port operation 8B/10B Line rates Mbps, Mbps (Option 060) Mbps (Option 061) Mbps (Option 062) Mbps (Option 063) Mbps (Option 064) Mbps (Option 065) Resolution Bandwidth (RBW) 3 db bandwidth CPRI parameter 1 khz to 10 khz (span 3.84 MHz) 1 KHz to 100 khz (3.84 MHz < span MHz) ±10% (nominal) IQ Sample width 4 20 (step 1) Mapping method 1 and 3 TX clock Port type Bandwidth Span Internal/external Master 5/10/15/20 MHz Adjustable (max span= sampling frequency) Option 101 Carrier Configuration SFP Information Spectrum Clearance Coverage Range RRH description RRH description Spectrum Spectrum Carrier information SFP information Spectrogram Carrier information CPRI and Active SW RTD Information RSSI VSWR RRH description Round Trip Delay Dual spectrum Tilt CPRI state Round Trip Delay (avg/min/max) Dual active trace PIM Analysis Active SW PIM Analysis with two sweep tones from a single SFP port. PIM Analysis with two sweep tones from each SFP port under dual BBU emulation mode Dual spectrogram Option 101/083/084 PIM Detection with up to 4 LTE carriers Single radio Spectrum flatness PIM Detection with up to 8 LTE carriers (2 SFP ports x 4 carriers) under dual BBU emulation mode 22 VIAVI CellAdvisor JD788B Signal Analyzer

23 Layer-2 BERT (Option 110) Optical interface Line rates TX clock Port Port type Alarm / Error Injection Bit Pattern Bit Pattern Mapping mode Round Trip Delay Common Dual SFP/SFP+ (supports all MSA compliant SFP modules) Mbps (1x), Mbps (2x), Mbps (4x), Mbps (5x), Mbps (8x), Mbps (10x), Mbps (16x) Internal/external/recovered SFP Port 1 and Port 2 (Dual independent operation) Master/Slave Alarm Error Insert Type R-LOS/R-LOF/RAI/SDI Code/ K30.7/ Bit Single/ Rate Live, Digital Word, ANSI , ANSI Inv, ANSI , ANSI Inv, ANSI , ANSI Inv, ANSI , ANSI Inv, ANSI , ANSI Inv, ITU , ITU Inv, ITU , ITU Inv, ITU , ITU Inv, ITU , ITU Inv Bulk mode for whole payload Channelized mode for AxC Group Resolution: ns (min step: 1ns) Bandwidth: 5MHz, 10MHz, 15MHz, 20MHz Map Position: AxC 0-7 LOS RAI Pattern Sync Optic Rx level LOF SDI Optic Tx level BERT Count L1 Inband Code Violation Rx Code Words RX Protocol Version Code Violation Rate Tx Code Words Rx C&M HDLC Rate (kbps) RX K30.7 Words Rx Frame Rx C&M Eth Subchannel Number Word Sync Loss Events Tx Frame TX Protocol Version Frame Sync Loss Events Round Trip Delay TX C&M HDLC Rate (kbps) Bit Errors Round Trip Delay (Offset) TX C&M Eth Subchannel Number Bit Error Rate Round Trip Delay (avg) Port Type Svc Disruption (ms) Round Trip Delay (min) Start-up State Round Trip Delay (max) 23 VIAVI CellAdvisor JD788B Signal Analyzer

24 General Information Frequency RF in Connector Impedance Damage level RF out Connector Impedance Damage level External trigger, GPS Connector Impedance External ref Connector Impedance Input frequency Input USB USB host 1 USB client 2 SFP Cage Port 1 Port 2 LAN 3 Audio jack External Speaker Display Type Size Power External DC input Spectrum analyzer Type-N, female 50 Ω (nominal) >+33 dbm, ±50 V DC (nominal), 3 min Type-N, female 50 Ω (nominal) >+40 dbm, ±50 V DC (nominal), 3 min SMA, female 50 Ω (nominal) SMA, female 50 Ω (nominal) 10 MHz, 13 MHz, 15 MHz 5 to +5 dbm Type A, 1 port Type B, 1 port RFoFiber (with option 008) SFP/SFP+ compatible RJ45, 10/100Base-T 3.5 mm headphone jack 5.5 mm barrel connector Built-in speaker Resistive touch screen 8 inch, LED backlight, transflective LCD with anti-glare coating 18 to 19 V DC Power consumption 42 W 49 W maximum (when charging battery) Battery Type Operating time Charge time Charging temperature Discharging temperature Storage temperature V, 7800 ma/hr (lithium ion) >3 hr (typical) >1.4 hr (RFoCPRI) 3 hr (while not operating) 9 hr (while operating) 0 to 45 C (32 to 104 F) 85% RH 20 to 55 C (4 to 131 F) 85% RH 0 to 25 C (32 to 77 F) Data Storage Internal External 5 Environmental Operating Temperature AC Power Battery Operation Maximum humidity Maximum 512 MB Limited by size of USB flash drive 0 to 40C (without derating on battery charging) -10 to 55C (with derating on battery charging) 0 to 40C (without derating on battery operating time) -10 to 55C (with derating on battery operating time) 95% RH (noncondensing) Shock and vibration MIL-PRF-28800F class 2 Storage temperature 6 EMC 30 to 71 C ( 22 to 160 F) IEC/EN :2006 (complies with European EMC) CISPR11:2009 +A1:2010 ESD IIEC/EN Size and Weight (standard configuration) Weight (with battery) Size (W x H x D) Warranty 3 years Calibration Cycle 1 year <4.0 kg (8.8 lb) 295 x 195 x 82 mm 1. Connects flash drive, sensor, EZ-Cal kit, and fiber microscope. 2. Data transfer and PC Application based remote control. 3. Data transfer or PC Application/Web-based remote control to 85% RH, store battery pack in low-humidity environment; extended exposure to temperature above 45 C could significantly degrade battery performance and life. 5. Supports USB 2.0 compatible memory devices. 6. With the battery pack removed. 24 VIAVI CellAdvisor JD788B Signal Analyzer

25 Ordering Information Standard CellAdvisor RF Analyzer RF analyzer includes: Spectrum analyzer 9 khz to 8 GHz RF meter 10 MHz to 8 GHz JD788B 1 Options NOTE: Upgrade options for the JD788B use the designation JD788BU before the respective last three-digit option number 2 Port transmission measurements for JD788B 2 JD788B001 High Power CW signal generator for JD788B 2 Signal Generator hardware for JD788B 3 Optical hardware for JD788B 4 JD788B003 JD788B007 JD788B MHz demodulation hardware for JD788B ⁵ JD788B009 GPS receiver and antenna for JD788B Interference analyzer for JD788B 6,7 Channel scanner for JD788B Bluetooth connectivity for JD788B 8 LTE-FDD RAN performance indicator for JD788B 9,10 LTE-TDD RAN performance indicator for JD788B 10,11 Wi-Fi connectivity for JD788B 12 cdmaone/cdma2000 analyzer for JD788B 10 EV-DO analyzer for JD788B 10,13 GSM/GPRS/EDGE analyzer for JD788B 10 WCDMA/HSPA+ analyzer for JD788B 10 TD-SCDMA analyzer for JD788B 10 Mobile WiMAX analyzer for JD788B 10 LTE - FDD analyzer for JD788B 10,14 LTE - TDD analyzer for JD788B 10,14 LTE Advanced - FDD analyzer for JD788B 10,15,16 LTE Advanced - TDD analyzer for JD788B 10,16,17 LTE-FDD 256 QAM Demodulator for JD788B 10,18 LTE-TDD 256 QAM Demodulator for JD788B 10,19 NB-IoT Analyzer for JD788B 10,15 cdmaone/cdma2000 OTA analyzer for JD788B 10,20 EV-DO OTA analyzer for JD788B 10,20 GSM/GPRS/EDGE OTA analyzer for JD788B 10,20 WCDMA/HSPA+ OTA analyzer for JD788B 10,20 TD-SCDMA OTA analyzer for JD788B 10,20 Mobile WiMAX OTA analyzer for JD788B 10,20 LTE - FDD OTA analyzer for JD788B 10,20 LTE - TDD OTA analyzer for JD788B 10,20 EMF analyzer for JD788B 21 RFoCPRI 614M & 1.2G interference analyzer for JD788B 22,23 RFoCPRI 2.4G interference analyzer for JD788B 22,23 RFoCPRI 3.1G interference analyzer for JD788B 22,23 RFoCPRI 4.9G interference analyzer for JD788B 22,23 RFoCPRI 6.1G interference analyzer for JD788B 22,23 RFoCPRI 9.8G interference analyzer for JD788B 22,23 RFoCPRI GSM interference analyzer for JD788B 21,22,23 RFoOBSAI 768M Interference analyzer for JD788B 22,23 JD788B010 JD788B011 JD788B012 JD788B013 JD788B014 JD788B015 JD788B016 JD788B020 JD788B021 JD788B022 JD788B023 JD788B025 JD788B026 JD788B028 JD788B029 JD788B030 JD788B031 JD788B032 JD788B033 JD788B034 JD788B040 JD788B041 JD788B042 JD788B043 JD788B045 JD788B046 JD788B048 JD788B049 JD788B050 JD788B060 JD788B061 JD788B062 JD788B063 JD788B064 JD788B065 JD788B068 JD788B070 Description RFoOBSAI 1.5G interference analyzer for JD788B 22,23 RFoOBSAI 3.1G interference analyzer for JD788B 22,23 RFoOBSAI 6.1G interference analyzer for JD788B 22,23 RFoCPRI LTE-FDD signal generator for JD788B 22,23,24 RFoCPRI LTE-TDD signal generator for JD788B 22,23,24 RFoCPRI LTE-FDD multi carrier signal generator for JD788B 22,23,25 RFoCPRI LTE-TDD multi carrier signal generator for JD788B 22,23,26 RFoOBSAI LTE-FDD signal generator for JD788B 2,23,27 RFoCPRI LTE-FDD signal analyzer for JD788B 22,23,24 RFoCPRI LTE-TDD signal analyzer for JD788B 22,23,24 RFoOBSAI LTE-FDD signal analyzer for JD788B 22,23,27 ALU BBU emulation for JD788B 22,23 CPRI Layer-2 BERT for JD788B 22,23,24 2 port transmission measurements floating license for GPS receiver and antenna floating license for JD740B/ JD780B Interference analyzer floating license for JD740B/ JD780B Channel scanner floating license for Bluetooth connectivity floating license for JD740B/ JD780B LTE-FDD RAN performance indicator floating license for LTE-TDD RAN performance indicator floating license for Wi-Fi connectivity floating license for cdmaone/cdma2000 analyzer floating license for EV-DO analyzer floating license for GSM/GPRS/EDGE analyzer floating license for WCDMA/HSPA+ analyzer floating license for JD740B/ JD780B TD-SCDMA analyzer floating license for JD740B/ JD780B Mobile WiMAX analyzer floating license for JD740B/ JD780B LTE - FDD analyzer floating license for JD740B/ JD780B LTE - TDD analyzer floating license for JD740B/ JD780B LTE Advanced - FDD analyzer floating license for LTE Advanced - TDD analyzer floating license for LTE-FDD 256 QAM Demodulator floating license for Part Number JD788B071 JD788B072 JD788B073 JD788B081 JD788B082 JD788B083 JD788B084 JD788B086 JD788B091 JD788B092 JD788B096 JD788B101 JD788B110 JD780B001- JD780B010- JD780B011- JD780B012- JD780B013- JD780B014- JD780B015- JD780B016- JD780B020- JD780B021- JD780B022- JD780B023- JD780B025- JD780B026- JD780B028- JD780B029- JD780B030- JD780B031- JD780B VIAVI CellAdvisor JD788B Signal Analyzer