Atec JD788A User Manual

COMMUNICATIONS TEST & MEASUREMENT SOLUTIONS

JD788A

CellAdvisor™ Signal Analyzer

Spectrum Analyzer: 9 kHz to 8 GHz

Power Meter: 10 MHz to 8 GHz

Specication* Conditions

e JD788A specications apply under these conditions:

• e instrument has been turned on for at least 15 minutes

• e instrument is operating within a valid calibration period

• Data with no tolerance are considered typical values

• Cable and antenna measurements apply aer calibration to the OSL standard

• Typical and nominal values are dened as:

– Typical: expected performance of the instrument operating under 20° to 30°C

aer being at this temperature for 15 minutes

– Nominal: a general, descriptive term or parameter

Spectrum Analyzer (Standard)

Frequency

Frequency range 9 kHz to 8 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 8 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

Fc 1 GHz, RBW 10 kHz, VBW 1 kHz, RMS detector

Carrier oset:

30 kHz
100 kHz
1 MHz

Measurement Range

DANL to +25 dBm

Input attenuator range 0 to 55 dB, 5 dB steps

Maximum Input Level

Average continuous power +25 dBm

DC voltage ±50 VDC

–100 dBc/Hz (–102 dBc/Hz, typical)
–105 dBc/Hz (–112 dBc/Hz, typical)
–115 dBc/Hz (–120 dBc/Hz, typical)

*All specifications are subject to change without notice.

WEBSITE: www.jdsu.com/test

2

JD788A CELLADVISOR SIGNAL ANALYZER

Displayed Average Noise Level (DANL)

1 Hz RBW, 1 Hz VBW, 50 Ω termination, 0 dB attenuation, RMS detector

Preamplier o:
10 MHz to 3 GHz
>3 GHz to 5 GHz
>5 GHz to 7 GHz
>7 GHz to 8 GHz

Preamplier on:
10 MHz to 3 GHz
>3 GHz to 5 GHz
>5 GHz to 7 GHz
>7 GHz to 8 GHz

–140 dBm (–145 dBm, typical)
–138 dBm (–142 dBm, typical)
–135 dBm (–138 dBm, typical)
–132 dBm (–135 dBm, typical)

–160 dBm (–165 dBm, typical)
–158 dBm (–162 dBm, typical)
–155 dBm (–158 dBm, typical)
–152 dBm (–155 dBm, typical)

Display Range

Log scale and units
(10 divisions displayed)

Linear scale and units
(10 divisions displayed)

Detectors Normal, positive peak, sample,

Number of traces 6

Trace functions Clear/write, maximum hold, mini-

1 to 20 dB/division in 1 dB steps
dBm, dBV, dBmV, dBµV

V, mV, mW, W

negative peak, RMS

mum hold, capture, load view on/o

Total Absolute Amplitude Accuracy

Preamplier o, power level >–50 dBm, auto-coupled

1 MHz to 8 GHz ±1.3 dB (±0.5 dB typical)

Add ±1.0 dB

20°C to 30°C
–10°C to 55°C after
60-minute warm up

Reference Level

Setting range –120 to +100 dBm

Setting resolution
Log scale
Linear scale

0.1 dB
1% of reference level

Markers

Marker types Normal, delta, delta pair, noise,

frequency count marker

Number of markers 6

Marker functions Peak, next peak, peak left, peak right,

minimum search marker to center/
start/stop

RF Input VSWR

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, preamplier o, RBW at 10 kHz
–90 dBm (nominal)

Exceptions –85 dBm @164.1 MHz, 1.95, 2.57264,

3.2, and 4.5 GHz
–80 dBm @4.8/7.8 GHz

Input-related spurious <–70 dBc (nominal)

Dynamic Range

2/3 (TOI-DANL) in 1 Hz RBW >104 dB @ 2 GHz

Sweep Time

Range 0.4 ms to 1000 s

24 µs to 200 s

Accuracy ±2% Span = 0 Hz (zero span)

Mode Continuous, single

Span = 0 Hz (zero span)

Gated Sweep

Trigger source External, video, and GPS

Gate length 1 µs to 100 ms

Gate delay 0 to 100 ms

Trigger

Trigger source Free run, video, external

Trigger delay
Range
Resolution

0 to 200 s
6 µs

Measurements*

Channel power

Occupied bandwidth

Spectrum emission mask

Adjacent channel power

Spurious emissions

Field strength

AM/FM audio demodulation

Route map

* CW signal generator (Option 003) can be set up simultaneously.

3

JD788A CELLADVISOR SIGNAL ANALYZER

RF Power Meter (Standard)

General Parameters

Display range –100 to +100 dBm

Oset range 0 to 60 dB

Resolution 0.01 dB or 0.1 x W (x = m, u, p)

Internal RF Power Sensor

Frequency range 10 MHz to 6 GHz

Span 1 kHz to 100 MHz

Dynamic range –120 to +25 dBm

Maximum power +25 dBm

Accuracy Same as spectrum analyzer

External RF Power Sensors

Directional Power Sensor JD731B

Frequency range 300 MHz to 3.8 GHz

Dynamic range 0.15 to 150 W (average)

4 to 400 W (peak)

Connector type Type-N female on both ends

Measurement type Forward/reverse average power,

forward peak power, VSWR

Accuracy ±(4% of reading + 0.05 W)

Directional Power Sensor

Frequency range

Dynamic range 0.1 to 50 W (average)

Connector type Type-N female on both ends

Measurement type Forward/reverse average power,

Accuracy ±(4% of reading + 0.05 W)

Terminating Power Sensor JD732B

Frequency range 20 MHz to 3.8 GHz

Dynamic range –30 to +20 dBm

Connector type Type-N male

Measurement type Average

Accuracy ±7%

Terminating Power Sensor JD734B

Frequency range 20 MHz to 3.8 GHz

Dynamic range –30 to +20 dBm

Connector type Type-N male

Measurement type Peak

Accuracy ±7%

Terminating Power Sensor JD736B

Frequency range 20 MHz to 3.8 GHz

Dynamic range –30 to +20 dBm

Connector type Type-N male

Measurement type Average and Peak

Accuracy ±7%

JD733A

150 MHz to 3.5 GHz

0.1 to 50 W (peak)

forward peak power, VSWR

1

1

1

1,2

1,2

Optical Power Meter (Option 13)

Optical Power Meter

Display range –100 to +100 dBm

Oset range 0 to 60 dB

Resolution 0.01 dB or 0.1 mW

External Optical Power Sensors

Optical Power Sensor

Wavelength range

Max permitted input level +10 dBm

Connector input Universal 2.5 and 1.25 mm

Accuracy ±5%

Optical Power Sensor

Wavelength range

Max permitted input level +23 dBm

Connector input Universal 2.5 and 1.25 mm

Accuracy ±5%

MP-60

780 to 1650 nm

MP-80

780 to 1650 nm

2-Port Transmission Measurements (Option 001)

Frequency

Frequency range 5 MHz to 6 GHz

Frequency resolution 10 kHz

Output Power

High 5 MHz to 5.5 GHz, 0 dBm (typical)

5.5 GHz to 6 GHz, –5 dBm (typical)

Low 5 MHz to 6 GHz, –30 dBm (typical)

Measurement Speed

Scalar 3.4 ms/point (typical)

Dynamic Range

Scalar 5 MHz to 4.5 GHz, >110 dB

4.5 GHz to 6 GHz, >105 dB

Measurements

Insertion Loss/Gain
Range
Resolution

–120 to 100 dB

0.01 dB

1. CW condition at 25°C ±10°C.

2. Forward power.

4

JD788A CELLADVISOR SIGNAL ANALYZER

CW Signal Generator (Option 003)

Frequency

Frequency range 25 MHz to 6 GHz

Frequency reference <±1 ppm maximum

Frequency resolution 10 kHz

Output Power

Range 5 MHz to 5.5 GHz, –60 to 0 dBm

>5.5 to 6 GHz, –60 to –5 dBm

Step 1 dB

Accuracy ±1.5 dB (20 to 30 °C)

GPS Receiver and Antenna (Option 010)

GPS Indicator

Latitude, longitude, altitude

High-Frequency Accuracy

Spectrum, interference, and signal analyzer

GPS lock ±25 ppb

Hold over (for 3 days) ±50 ppb (0 to 50°C) 15 minutes after

satellite locked

Connector SMA, female

Interference Analyzer (Option 011)

Measurements

Spectrum analyzer Sound indicator, AM/FM audio demodulation,

interference ID, spectrum recorder

Spectrogram Collect up to 72 hours of data

RSSI Collect up to 72 hours of data

Interference nder

Spectrum replayer

Channel Scanner (Option 012)

Frequency Range

1 MHz to 8 GHz

Measurement Range

–110 to +25 dBm

Measurements

Channel scanner 1 to 20 channels

Frequency scanner 1 to 20 frequencies

Custom scanner 1 to 20 channels or frequencies

JD788A CELLADVISOR SIGNAL ANALYZER

5

GSM/GPRS/EDGE Signal Analyzer (Option 022)

General Parameters

Frequency range 450 MHz to 500 MHz

820 MHz to 965 MHz

1.705 GHz to 1.995 GHz

Input signal range –40 to +25 dBm

Burst power ±1.0 dB

Frequency error ±10 Hz + ref freq accuracy 99% condence level

GMSK modulation quality

Phase RMS accuracy
Residual error
Phase peak accuracy
8 PSK modulation quality

EVM accuracy
Residual error
RF power vs. time

±1.0 degrees

0.7 degrees (typical)
±2.0 degrees

±1.5%

2.5%
±0.25 symbol

(0 < Phase RMS < 8)

(0 < Phase peak < 30)

(2% < EVM < 8%)

Measurements

Option 022 Option 042

Channel power Constellation Auto measure Channel/frequency scanner

Channel power Burst power Channel power Channels or frequencies

Spectral density Modulation type Occupied bandwidth Absolute power

Peak to average power Frequency error Spectrum emission mask Group (trac, control)

Occupied bandwidth Phase error RMS Spurious emission mask BSIC (NCC, BCC)

Occupied bandwidth Phase error peak Burst power Multipath prole

Integrated power I/Q origin oset* PvsT – Mask (10 strongest)

Occupied power TSC Frame average power Frame average power

Spectrum emission mask BSIC Frequency error SNR, delay

Reference power C/I* Phase error RMS Modulation analyzer

Peak level at dened range EVM RMS* Phase error peak Frame avg power trend

Spurious emissions EVM Peak* EVM RMS* C/I trend

Peak frequency at dened range EVM 95

Peak level at dened range I/Q origin oset BSIC, frame no. and time

Power vs. time (Slot) C/I* C/I, frequency error

Burst power Burst power

Max/min point Modulation type

Power vs. time (Frame)

Frame average power

Burst power (Slot 0 to 7)

TSC (Slot 0 to 7)

th

* EVM Peak* Frame average power

Longitude, latitude, and satellite in all screens

* Measurements performed for 8PSK modulation signals (EDGE) o nl y.

JD788A CELLADVISOR SIGNAL ANALYZER

6

WCDMA/HSPA+ Signal Analyzer (Option 023)

General Parameters

Frequency range Band 1 to 14, 19 to 22, 25, 26

Input signal range –40 to +25 dBm

RF channel power accuracy ±1.0 dB, ±0.7 dB (typical)

Occupied bandwidth accuracy ±100 kHz

Adjacent channel leakage ratio
(ACLR)

WCDMA modulation QPSK

HSPA+ modulations QPSK, 16 QAM, 64 QAM

Frequency error ±10 Hz + ref freq accuracy 99% condence level

EVM accuracy ±2.0% 2% ≤ EVM ≤ 20%

Residual EVM 2.5% (typical)

Code domain power ±0.5 dB relative power

CPICH power accuracy ±0.8 dB (typical)

Measurements

Channel power Constellation CDP table Channel scanner (up to 6)

Channel power CPICH power Reference power Frequencies or channels

Spectral density Rho, EVM Code utilization Channel power, scramble

Peak to average power Peak CDE Code, spreading factor code, CPICH power, Ec/Io

Occupied bandwidth Frequency error Allocation (channel type) Scramble scanner (up to 6)

Occupied bandwidth Time oset EVM, modulation type Channel power

Integrated power Carrier feed-through Relative, absolute power CPICH dominance

Occupied power Scramble code Auto measure Scramble code

Spectrum emission mask Code domain power Channel power Ec/Io, CPICH power, delay

Reference power Abs/Rel code power Occupied bandwidth Multipath prole

Peak level at dened range Individual code EVM Spectrum emission mask Channel, multipath power

ACLR and its constellation ACLR Ec/Io, delay

Reference power Channel power Multi-ACLR Code domain power

Abs power at dened range Power bar graph Spurious emission mask Abs/Rel code power

Rel power at dened range (Abs/Rel/Delta power) Frequency error Individual code EVM

Multi-ACLR CPICH, P-CCPCH, S-CCPCH EVM Channel power

Lowest reference power PICH, P-SCH, S-SCH Peak CDE Scramble code

Highest reference power Max, avg active power Carrier feed-through CPICH, P-CCPCH, S-CCPCH,

Abs power at dened range Max, avg inactive power CPICH absolute power PICH, P-SCH, S-SCH

Rel power at dened range Scramble code CPICH relative power Max, avg active power

Spurious emissions Codogram Max inactive power Max, avg inactive power

Peak frequency at dened range Code utilization Scramble code Frequency error

Peak level at dened range RCSI Power statistics CCDF Time oset, Rho

<–56 dB, ±0.7 dB at 5 MHz oset
<–58 dB, ±0.8 dB at 10 MHz oset

Code channel power >–25 dB

±1.5 dB absolute power

Option 023 Option 043

CPICH, P-CCPCH, S-CCPCH, Carrier feed-through

PICH, P-SCH, S-SCH (Composite) EVM

Longitude, latitude, and satellite in all screens

Code channel power >–25 dB

CPICH EVM, P-CCPCH EVM

Amplier capacity

Peak amplier capacity

Average amplier capacity

Code, peak utilization

Average utilization

Route map

CPICH power, Ec/Io

JD788A CELLADVISOR SIGNAL ANALYZER

7

cdmaOne/cdma2000® Signal Analyzer (Option 020)

General Parameters

Frequency range Band 0 to 10

Input signal level –40 to +25 dBm

RF channel power accuracy ±1.0 dB (typical)

CDMA compatibility cdmaOne and cdma2000

Frequency error ±10 Hz + ref freq accuracy 99% condence level

Rho accuracy ±0.005 0.9 < Rho < 1.0

Residual Rho >0.995 (typical)

PN oset 1 x 64 chips

Code domain power ±0.5 dB relative power

±1.5 dB absolute power

Pilot power accuracy ±1.0 dB (typical)

Time oset ±1.0 μs, ±0.5 μs (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 oset

Peak to average power EVM Spectrum emission mask Pilot power, Ec/Io

Occupied bandwidth Frequency error ACPR PN scanner (up to 6)

Occupied bandwidth Time oset Multi-ACPR Channel power

Integrated power Carrier feed-through Rho Pilot dominance

Occupied power PN oset Frequency error PN oset

Spectrum emission mask Code domain power Time oset Ec/Io, pilot power, delay

Reference power Abs/Rel code power Carrier feed-through Multipath prole

Peak level at dened range Channel power Pilot power Channel power

ACPR Power bar graph (Abs/Rel) Max inactive power Multipath power

Reference power Pilot, Paging, Sync, Q-Paging PN oset Ec/Io, delay

Abs power at dened range Max, avg active power Power statistics CCDF Code domain power

Rel power at dened range Max, avg inactive power Abs/Rel code power

Multi-ACPR PN oset Channel power

Lowest reference power Codogram PN oset

Highest reference power Code utilization Pilot, Paging, Sync, Q-Paging power

Abs power at dened range RCSI Max, avg active power

Rel power at dened range Pilot, Paging, Sync, Q-Paging Max, avg inactive power

Spurious emissions CDP table Frequency error

Peak freq at dened range Reference power Time oset, Rho, EVM

Peak level at dened range Code utilization Carrier feed-through

Code, spreading factor Amplier capacity

Allocation (channel type) Peak amplier capacity

Relative, absolute power Average amplier capacity

Longitude, latitude, and satellite in all screens

Code channel power >–25 dB
Code channel power >–25 dB

Code utilization

Peak utilization

Average utilization

Route map

Pilot power

Ec/Io

JD788A CELLADVISOR SIGNAL ANALYZER

8

EV-DO Signal Analyzer (Option 021)

General Parameters

Frequency range Band 0 to 10

Input signal level –40 to +25 dBm

RF channel power accuracy ±1.0 dB (typical)

EV-DO compatibility Rev 0, Rev A and Rev B

Frequency error ±10 Hz + ref freq accuracy 99% condence level

Rho accuracy ±0.005 0.9 < Rho < 1.0

Residual Rho >0.995 (typical)

PN oset 1 x 64 chips

Code domain power ±0.5 dB relative power

±1.5 dB absolute power

Pilot power accuracy ±1.0 dB (typical)

Time oset ±1.0 μs, ±0.5 μs (typical) External trigger

Measurements

Option 021 Option 041

Channel power Constellation MAC codogram Channel scanner (up to 6)

Channel power (Composite 64/128) Code utilization Frequencies or channels

Spectral density Channel power RCSI PN oset

Peak to average power Rho, EVM, Peak CDE Slot, pilot, MAC, data Pilot, MAC, data power

Occupied bandwidth Frequency error MAC CDP table PN scanner (up to 6)

Occupied bandwidth Time oset Reference power Channel power

Integrated power Carrier feed-through Code utilization Pilot dominance

Occupied power PN oset Code, spreading factor PN oset

Spectrum emission mask Pilot, MAC, data power Allocation (channel type) Ec/Io, pilot power, delay

Reference power Pilot, MAC, data EVM Relative, absolute power Multipath prole

Peak level at dened range Constellation Auto measure Channel power

ACPR (Pilot, MAC 64/128, and data) Channel power Multipath power

Reference power Channel power Occupied bandwidth Ec/Io, delay

Abs power at dened range Rho, EVM, peak CDE Spectrum emission mask Code domain power

Rel power at dened range Frequency error ACPR Slot average power

Multi-ACPR Time oset Multi-ACPR PN oset

Lowest reference power Carrier feed-through Pilot, MAC, data power Pilot, MAC, data power

Highest reference power PN oset On/o ratio Pilot, MAC, data Rho

Abs power at dened range Modulation type* PvsT mask (idle slot) or (Composite) EVM

Rel power at dened range Code Domain Power PvsT mask (active slot) Frequency error

Spurious emissions (Pilot and MAC 64/128) Frequency error Time oset

Peak frequency at dened range Pilot/MAC channel power Time oset Carrier feed-through

Peak level at dened range Slot average power Carrier feed-through Max active I/Q power

Power vs. Time Max active I/Q power Pilot, MAC, data Rho Avg active I/Q power

(Idle and Active Slot) Avg active I/Q power Max inactive I/Q power Code utilization

Slot average power Max inactive I/Q power PN oset Peak utilization

On/o ratio Avg inactive I/Q power Power statistics CCDF Average utilization

Idle activity PN oset Route Map

Pilot, MAC, data power Code Domain Power (Data) Pilot power

Data channel power Ec/Io

Slot average power

Max, avg active power

Max, avg inactive power

PN oset

Longitude, latitude, and satellite in all screens

*Measurement is performed in Data Constellation only.

Code channel power >–25 dB
Code channel power >–25 dB

JD788A CELLADVISOR SIGNAL ANALYZER

9

TD-SCDMA Signal Analyzer (Option 025)

General Parameters

Frequency range 1.785 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% condence 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

Measurements

Option 025 Option 045

Channel power Midamble power Code error Sync-DL ID scanner (32)

Channel power (TS [0 to 6], DwPTS, UpPTS) Code power and error Scramble code group

Spectral density Data power right Individual code EVM Ec/Io, Tau

Peak to average power (TS [0 to 6], DwPTS, UpPTS) and its constellation DwPTS power

Occupied bandwidth Time oset Data format Pilot dominance

Occupied bandwidth (TS [0 to 6], DwPTS, UpPTS) Slot, DwPTS power Sync-DL ID vs. Tau (up to 6)

Integrated power Power vs. time (mask) No. of active code ID, power, Ec/Io, Tau

Occupied power Slot power Scramble code DwPTS power

Spectrum emission mask On/o slot ratio Max active code power Pilot dominance

Reference power O power Avg active code power Sync-DL ID multipath

Peak level at dened range Timogram Max inactive code power Ec/Io, Tau

ACLR Constellation Avg inactive code power DwPTS power

Reference power Rho Peak CDE and peak active CDE Pilot dominance

Abs power at dened range EVM RMS, EVM peak Auto measure Sync-DL ID analyzer

Rel power at dened range Peak CDE Channel power DwPTS power, Ec/Io trend

Multi-ACLR Frequency error Occupied bandwidth DwPTS power

Lowest reference power I/Q origin oset Spectrum emission mask Pilot dominance

Highest reference power Time oset ACLR EVM, frequency error

Abs power at dened range Midamble power Multi-ACLR Ec/Io, CINR

Rel power at dened range Slot power Slot power Route Map

Spurious emissions DwPTS power DwPTS power DwPTS Power

Peak frequency at dened range Midamble power (1 to 16) UpPTS power

Peak level at dened range Code power On/o slot ratio

Power vs. time (slot) Abs/Rel code power Frequency error

Slot power Individual code EVM EVM RMS

DwPTS power and its constellation Peak CDE

UpPTS power Data format Max inactive power

On/o slot ratio Slot power, DwPTS power Scramble code

Slot PAR No. of active code

DwPTS code Scramble code

Power vs. time (frame) Max active code power

Slot power Avg active code power

(TS [0 to 6], DwPTS, UpPTS) Max inactive code power

Data power left Avg inactive code power

(TS [0 to 6], DwPTS, UpPTS)

Longitude, latitude, and satellite in all screens

JD788A CELLADVISOR SIGNAL ANALYZER

10

Mobile WiMAX Signal Analyzer (Option 026)

General Parameters

Frequency range 2.1 GHz to 2.7 GHz

Input signal level –40 to +25 dBm

Channel power accuracy ±1.0 dB (typical)

Supported bandwidth 7 MHz, 8.75 MHz, and 10 MHz

Frequency error ±10 Hz + ref freq accuracy 99% condence level

Residual EVM (RMS) 1.5% (typical)

Measurements

Channel power Constellation Auto measure Preamble scanner (up to 6)

Channel power Channel power Channel power Total preamble power

Spectral density RCE RMS, RCE peak Occupied bandwidth Preamble, relative power

Peak to average power EVM RMS, EVM peak Spectrum emission mask Cell ID, sector ID

Occupied bandwidth Frequency error Spurious emission mask Time oset

Occupied bandwidth Time oset Preamble power Multipath prole

Integrated power Segment ID, cell ID DL burst power Total preamble power

Occupied power Preamble index UL burst power Multipath power

Spectrum emission mask Spectral atness Frame average power Relative power, delay

Reference power Average subcarrier power Time oset Preamble power trend

Peak level at dened range Subcarrier power variation I/Q origin oset Preamble power trend

Spurious emissions Max, min, avg power Spectral atness Relative power trend

Peak frequency at dened range EVM vs. subcarrier Frequency error Preamble power

Peak level at dened range RCE RMS, RCE peak RCE RMS Frame avg power

Power vs. time (frame) EVM RMS, EVM peak RCE peak Relative power

Channel power Segment ID, cell ID EVM RMS C/I

Frame average power Preamble index EVM peak Preamble

Preamble power EVM vs. symbol Power statistics CCDF Cell ID, sector ID

DL burst power RCE RMS, RCE peak Time oset

UL burst power EVM RMS, EVM peak Route map

I/Q origin oset Segment ID, cell ID Preamble power

Time oset Preamble index

3.4 GHz to 3.85 GHz

Option 026 Option 046

Longitude, latitude, and satellite in all screens

JD788A CELLADVISOR SIGNAL ANALYZER

11

LTE-FDD Signal Analyzer (Option 028)

General Parameters

Frequency range Band 1 to 14, 17 to 26

Input signal level –40 to +25 dBm

Channel power 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 + ref freq accuracy 99% condence level

Residual EVM (RMS) 2.0% (typical) Data EVM

Measurements

Option 028 Option 048

Channel power Data channel I/Q origin oset ID scanner (up to 6)
Channel power Resource block power EVM RMS, peak RSRP/RSRQ dominance
Spectral density I/Q diagram Data EVM RMS, peak S-SS RSSI dominance
Peak to average power RB power Cell, group, sector ID S-SS Ec/Io dominance
Occupied bandwidth Modulation format Time alignment error Cell, group, sector ID
Occupied bandwidth I/Q origin oset Time alignment error trend RSRP/RSRQ
Integrated power EVM RMS, EVM peak Time alignment error RS-SINR/S-SS RSSI
Occupied power Control channel RS power dierence P-SS/S-SS Power
Spectrum emission mask Control channel summary Antenna 0 RS power S-SS Ec/Io
Reference power (P-SS, S-SS, PBCH, PCFICH, PHICH, Antenna 0 RS EVM Multipath prole
Peak level at dened range PDCCH, RS) Antenna 1 RS power Cell, group, sector ID
ACLR EVM, relative or absolute Antenna 1 RS EVM Ant 0 RS Ec/Io, delay
Reference power power, modulation type Cell, group, sector ID Ant 1 RS Ec/Io, delay
Abs power at dened range Each control channels’ Data allocation map Ant 0 Sync Ec/Io, delay
Rel power at dened range I/Q diagram Data allocation vs frame Ant 1 Sync Ec/Io, Delay
Multi-ACLR Modulation format Resource block power Control channel
Lowest reference power Frequency error OFDM symbol power RS power trend
Highest reference power I/Q origin oset Data utilization Cell, group, sector ID
Abs power at dened range EVM RMS, EVM peak Data allocation vs subframe Control channel table
Rel power at dened range Subframe Resource block power (P-SS, S-SS, PBCH, PCFICH, RS 0, RS 1)
Spurious emissions Subframe summary table Data utilization Absolute power
Peak frequency at dened range (P-SS, S-SS, PBCH, PCFICH, PHICH, Auto measure Relative power
Peak level at dened range PDCCH, RS, PDSCH QPSK, Channel power EVM RSM, phase
Power vs. time (frame) PDSCH 16 QAM, PDSCH 64 QAM) Occupied bandwidth Frequency error
Frame average power EVM, relative or absolute power, Spectrum emission mask Time alignment error
Subframe power modulation type ACLR Time oset
First slot power Subframe power Multi-ACLR Datagram
Second slot power OFDM symbol power Spurious emission mask Datagram
Cell ID, I/Q origin oset Frequency, time error Frame average power Resource block power
Time oset Data EVM RMS, peak Time alignment error Data utilization
Constellation RS EVM RMS, peak Frequency error Route Map
RS TX power Cell, group, sector ID PDSCH QPSK EVM RSRP
PDSCH QPSK EVM Frame PDSCH 16 QAM EVM RSRQ
PDSCH 16 QAM EVM Frame summary table PDSCH 64 QAM EVM RS-SINR
PDSCH 64 QAM EVM (P-SS, S-SS, PBCH, PCFICH, PHICH, Data EVM RMS, peak S-SS RSSI

Data EVM RMS PDCCH, RS, PDSCH QPSK, RS, P-SS, S-SS EVM P-SS, S-SS power
Data EVM peak PDSCH 16 QAM, PDSCH 64 QAM) RS, P-SS, S-SS power S-SS Ec/Io
Frequency error EVM, relative or absolute power, PBCH power

Time error modulation type Subframe power

Frame average power OFDM power
OFDM symbol power Time error
Frequency error I/Q origin oset

Power statistics CCDF

Longitude, latitude, and satellite in all screens

JD788A CELLADVISOR SIGNAL ANALYZER

12

LTE-TDD Signal Analyzer (Option 029)

General Parameters

Frequency range Band 33 to 43
Input signal level –40 to +25 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 + ref freq accuracy 99% condence level
Residual EVM (RMS) 2.0% (typical) Data EVM

Measurements

Option 029 Option 049

Channel power Data EVM RMS Time alignment error ID scanner (up to 6)
Channel power Data EVM peak Time alignment error trend RSRP/RSRQ dominance
Spectral density Frequency error Time alignment error S-SS RSSI dominance
Peak to average power Time error RS power dierence S-SS Ec/Io dominance
Occupied bandwidth Data channel Antenna 0 RS power Cell, group, sector ID
Occupied bandwidth Resource block power Antenna 0 RS EVM RSRP/RSRQ
Integrated power I/Q diagram Antenna 1 RS power RS-SINR/S-SS RSSI
Occupied power RB power Antenna 1 RS EVM P-SS/S-SS power
Spectrum emission mask Modulation format Cell, group, sector ID S-SS Ec/Io
Reference power I/Q origin oset Data allocation map Multipath prole
Peak level at dened range EVM RMS, EVM peak Data allocation vs frame Cell, group, sector ID
ACLR Control channel Resource block power Ant 0 RS Ec/Io, delay
Reference power Control channel summary OFDM symbol power Ant 1 RS Ec/Io, delay
Abs power at dened range (P-SS, S-SS, PBCH, PCFICH, PHICH, Data utilization Ant 0 Sync Ec/Io, Delay
Rel power at dened range PDCCH, RS) Data allocation vs subframe Ant 1 Sync Ec/Io, Delay
Multi-ACLR EVM, relative or absolute power, Resource block power Control channel
Lowest reference power modulation type Data utilization RS power trend
Highest reference power Each control channels’ Auto measure Cell, group, sector ID
Abs power at dened range I/Q diagram Channel power Control channel table
Rel power at dened range Modulation format Occupied bandwidth (P-SS, S-SS, PBCH,
Spurious emissions Frequency error Spectrum emission mask PCFICH, RS 0, RS 1)
Peak frequency at dened range I/Q origin oset ACLR Absolute power
Peak level at dened range EVM RMS, EVM peak Mult-ACLR Relative power
Power vs. time (frame) Subframe Spurious emission mask EVM RSM, phase
Frame average power Subframe summary table Slot average power Frequency error
Subframe power (P-SS, S-SS, PBCH, PCFICH, PHICH, O power Time alignment error
First slot power PDCCH, RS, PDSCH QPSK, Transition period Time oset
Second slot power PDSCH 16 QAM, PDSCH 64 QAM) Time alignment error Datagram
Cell ID, I/Q origin oset EVM, relative or absolute power, PDSCH QPSK EVM Datagram
Time oset modulation type PDSCH 16 QAM EVM Resource block power
Power vs. time (slot) Subframe power PDSCH 64 QAM EVM Data utilization
Slot average power OFDM symbol power Data EVM RMS, peak Route Map
Transient period length Frequency, time error RS, P-SS, S-SS EVM RSRP
O power Data EVM RMS, peak RS, P-SS, S-SS power RSRQ
Constellation RS EVM RMS, peak PBCH power RS-SINR
RS TX power Cell, group, sector ID Subframe power S-SS RSSI
PDSCH QPSK EVM OFDM power P-SS, S-SS power
PDSCH 16 QAM EVM Time error S-SS Ec/Io
PDSCH 64 QAM EVM I/Q origin oset

Power statistics CCDF

Longitude, latitude, and satellite in all screens

13

General Information

JD788A CELLADVISOR SIGNAL ANALYZER

Inputs and Outputs

RF in Spectrum analyzer

Connector
Impedance
Damage level

Type-N, female
50 Ω (nominal)
>+33 dBm, ±50 VDC (nominal), 3 min

RF out

Connector
Impedance
Damage level

Type-N, female
50 Ω (nominal)
>+40 dBm, ±50 VDC (nominal), 3 min

External trigger, GPS

Connector
Impedance

SMA, female
50 Ω (nominal)

External ref

Connector
Impedance
Input frequency
Input range

SMA, female
50 Ω (nominal)
10 MHz, 13 MHz, 15 MHz
–5 to +5 dBm

USB

1

USB host
USB client

2

Type A, 1 port
Type B, 1 port

LAN RJ45, 10/100Base-T

GPIO RJ45

Audio jack 3.5 mm headphone jack

External power 5.5 mm barrel connector

Speaker Built-in speaker

Data Storage

4

Internal

External

5

Maximum 100 MB

Limited by size of USB ash 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) @charging

–10° to 55°C (14° to 131°F) @discharging

Maximum humidity 85% RH (non-condensing)

Shock and vibration MIL-PRF-28800F Class 2

6

Storage temperature

–55° to 71°C (–67° to 160°F)

EMC

IEC/EN 61326-1:2006 (complies with European EMC)
CISPR11:2009 +A1:2010

ESD

IEC/EN 61000-4-2

Size and Weight (standard configuration)

Weight (with battery) <3.9 kg (8.6 lb)

Size (W x H x D) 295 x 195 x 82 mm

(11.6 x 7.7 x 3.2 in)

Display

Type Resistive touch screen

Size 8 inch, LED backlight, transective LCD

with anti-glare coating

Resolution 800 x 600

Power

External DC input 12 to 19 VDC

Power consumption 37 W 49 W maximum

(when charging battery)

Battery

Type 10.8 V, 7800 mA/hr (Lithium ion)

Operating time >3 hours (typical)

Charge time 2.5 hours (80%), 5 hours (100%)

Charging temperature 0° to 45°C (32° to 104°F) ≤85% RH

Discharging temperature –20° to 55°C (4° to 131°F) ≤85% RH

3

Storage temperature

0° to 25°C (32° to 77°F)

≤85% RH (non-condensing)

Warranty

2 years

Calibration Cycle

1 year

1. Connects flash drive and power sensor.

2. Connects to PC for data transfer.

3. 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.

4. Up to 3800 traces.

5. Supports USB 2.0 compatible memory devices.

6. With the battery pack removed.

14

Ordering Information

JD788A CELLADVISOR SIGNAL ANALYZER

Standard

JD788A 9 kHz to 8 GHz spectrum analyzer

10 MHz to 8 GHz RF power meter (internal mode)

Options

NOTE: Upgrade options for the JD788A use the designation JD788AU
before the respective last three-digit option number.

JD788A001 2-port transmission measurement

1

JD788A003 CW signal generator

JD788A009 20 MHz demodulation hardware

JD788A010 GPS receiver and antenna

JD788A011 Interference Analyzer

2, 3

JD788A012 Channel Scanner

JD788A013 Optical Power Meter

JD788A020 cdmaOne/cdma2000 Signal Analyzer

JD788A021 EV-DO Signal Analyzer

JD788A022 GSM/GPRS/EDGE Signal Analyzer

JD788A023 WCDMA/HSPA+ Signal Analyzer

JD788A025 TD-SCDMA Signal Analyzer

JD788A026 Mobile WiMAX Signal Analyzer

JD788A028 LTE-FDD Signal Analyzer

JD788A029 LTE-TDD Signal Analyzer

JD788A040 cdmaOne/cdma2000 OTA Analyzer

JD788A041 EV-DO OTA Analyzer

JD788A042 GSM/GPRS/EDGE OTA Analyzer

JD788A043 WCDMA/HSPA+ OTA Analyzer

JD788A045 TD-SCDMA OTA Analyzer

JD788A046 Mobile WiMAX OTA Analyzer

JD788A048 LTE-FDD OTA Analyzer

JD788A049 LTE-TDD OTA Analyzer

4

5

6

5

5

5

5

5

5

3, 7

3, 7

3, 7

3, 7

3, 7

3, 7

3, 7

3, 7

Standard Accessories (can be purchased separately)

G710550326 AC/DC power adapter

G710550335 Cross LAN cable (1.5 m)

GC73050515 USB A to B cable (1.8 m)

GC72450518 >1 GB USB memory

G710550325 Rechargeable lithium ion battery

G710550323 Automotive cigarette lighter 12 VDC adapter

G710550316 Stylus pen

8

8

8

8

8

8

8

JD780A361 JD780A Series user’s manual and application

software — CD

1. Requires dual-port calibration kit.

2. Highly recommend adding JD788A010.

3. Highly recommend adding G70005035x and/or G70005036x.

4. Requires MP-60 or MP-80.

5. Requires Option 9.

6. Requires Options 9 and 20

7. Requires Options 9 and 10.

8. Standard accessories can be purchased separately.

Optional RF Cables

G710050530 1.0 m (3.28 ft) RF cable, DC to 18 GHz, Type-N(m) to

Type-N(m), 50 Ω

G710050531 1.5 m (4.92 ft) RF cable, DC to 18 GHz, Type-N(m) to

Type-N(f), 50 Ω

G710050532 3.0 m (9.84 ft) RF cable, DC to 18 GHz, Type-N(m) to

Type-N(f), 50 Ω

G710050533 1.5 m (4.92 ft) RF cable, DC to 18 GHz, Type-N(m) to

SMA(m), 50 Ω

G710050534 1.5 m (4.92 ft) RF cable, DC to 18 GHz, Type-N(m) to

QMA(m), 50 Ω

G710050535 1.5 m (4.92 ft) RF cable, DC to 18 GHz, Type-N(m) to

SMB(m), 50 Ω

Optional Omni Antennas

G700050351 RF omni antenna Type-N(m), 400 MHz to 450 MHz

G700050352 RF omni antenna Type-N(m), 450 MHz to 500 MHz

G700050353 RF omni antenna Type-N(m), 806 MHz to 896 MHz

G700050354 RF omni antenna Type-N(m), 870 MHz to 960 MHz

G700050355 RF omni antenna Type-N(m), 1.71 GHz to 2.17 GHz

G700050356 RF omni antenna Type-N(m), 720 MHz to 800 MHz

G700050357 RF omni antenna Type-N(m), 2.3 GHz to 2.7 GHz

Optional Yagi Antennas

G700050364 RF Yagi antenna Type-N(f ), 806 MHz to 896 MHz, 10.2 dBd

G700050365 RF Yagi antenna Type-N(f ), 866 MHz to 960 MHz, 10.2 dBd

G700050363 RF Yagi antenna Type-N(f ), 1.75 GHz to 2.39 GHz, 9.8 dBd

G700050366 RF Yagi antenna Type-SMA(f), 700 MHz to 4 GHz, 1.85 dBd

Optional RF Power Sensors

JD731B 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

JD733A Directional Power Sensor (peak and average power)

Frequency: 150 MHz to 3.5 GHz
Power: average/peak 0.1 to 50 W

JD732B Terminating Power Sensor (average power)

Frequency: 20 MHz to 3.8 GHz
Power: –30 to +20 dBm

JD734B Terminating Power Sensor (peak power)

Frequency: 20 MHz to 3.8 GHz
Power: –30 to +20 dBm

JD736B Terminating Power Sensor (peak and average power)

Frequency: 20 MHz to 3.8 GHz
Power: –30 to +20 dBm

15

Ordering Information (cont'd)

JD788A CELLADVISOR SIGNAL ANALYZER

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

Optional RF Adapters

G710050570 Adapter Type-N(f) to Type-N(f ), DC to 6 GHz, 50 Ω

G710050571 Adapter Type-N(m) to DIN(f), DC to 4 GHz, 50 Ω

G710050572 Adapter DIN(m) to DIN(m), DC to 4 GHz, 50 Ω

G710050573 Adapter Type-N(m) to SMA(f), DC to 18 GHz, 50 Ω

G710050574 Adapter Type-N(m) to BNC(f), DC to 1.5 GHz, 50 Ω

G710050576 Adapter Type-N(m) to DIN(m), DC to 4 GHz, 50 Ω

G710050577 Adapter Type-N(f) to DIN(f), DC to 4 GHz, 50 Ω

G710050578 Adapter Type-N(f) to DIN(m), DC to 4 GHz, 50 Ω

G710050579 Adapter DIN(f ) to DIN(f ), DC to 4 GHz, 50 Ω

Optional Miscellaneous

G710050581 Attenuator 40 dB, 100 W, DC to 4 GHz

JD74050341 Soft carrying case

JD71050342 Hard carrying case

JD74050343 Backpack carrying case

G710050585 RF directional coupler, 700 MHz to 4 GHz, 30 dB,

G710050586 RF Combiner, 700 MHz to 4 GHz, Type-N(f) to

G710550324 External battery charger

JD780A362 JD780A series user’s manual – printed version

9. Highly recommended for LTE testing.

(unidirectional)

input/output; Type-N(m) to Type-N(f), tap o;
Type-N(f)

Type-N(m)

9

9

JD788A CELLADVISOR SIGNAL ANALYZER

Test & Measurement Regional Sales

NORTH AMERICA

ToLL FrEE: 1 855 ASK-JDSU

1 855 275-5378

Product specifications and descriptions in this document subject to change without notice. © 2013 JDS Uniphase Corporation 30173459 000 0613 JD788A.DS.CPO.TM.AE June 2013

LATIN AMERICA

TEL: +1 954 688-5660
FAX: +1 954 3454668

ASIA PACIFIC

TEL:+852 2892 0990
FAX:+852 2892 0770

EMEA

TEL:+49 7121 86 2222
FAX:+49 7121 86 1222

www.jdsu.com/test