Nemo Outdoor · Nemo Outdoor Samsung Shannon-Based Terminals Measure and Monitor the Newest...

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D ATA S H E E T

Nemo OutdoorSamsung Shannon-Based Terminals

Measure and Monitor the Newest Wireless Network Technologies with Powerful Drive Testing

Nemo Outdoor from Keysight Technologies, Inc. is an unparalleled network

measurement and optimization solution for perfecting the air interface of wireless

networks. It collects measurement results and geographical coordinates,

and these measurement results further provide valuable information for

network planning, roll-out, tuning, verification, optimization, maintenance, and

benchmarking purposes. Nemo Outdoor is always among the first-to-market with

support for the very latest technologies. This data sheet lists parameters and

features available with Samsung chipset-based terminals (chipsets 333/335/355)

and Nemo Outdoor.


Technical SpecificationsDevice specific features1

Device LTE WCDMA GSM CDMA

Samsung Galaxy Note 5 SM-N920G

FDD bands 1-5, 7, 8, 12, 17, 18, 19, 26, 28

LTE TDD band 40

WCDMA 850, 900, 1900, 2100

Quad-band

Samsung Galaxy Note 5 SM-N920I (Samsung Shannon 333 chipset)

LTE FDD 7 bands 1-5, 7, 8, 12, 17, 18, 19, 26, 28

LTE TDD band 40

LTE Cat 4, 6, 9

WCDMA 850, 900, 1900, 2100

HSDPA UE Cat 24 HSUPA UE Cat 6

Quad-band

Samsung Galaxy S6 Edge+ SM-G928F (Samsung Shannon 333 chipset)

LTE FDD bands 1-5, 7, 8, 12, 17-20, 26

LTE Cat 4, 6, 9

WCDMA 850, 900, 1900, 2100

HSDPA UE Cat 24 HSUPA UE Cat 6

Quad-band

Samsung Galaxy S6 SM-G920F (Samsung Shannon 333 chipset)

LTE FDD bands 1-5, 7, 8, 12, 17-20, 26

LTE Cat 4, 6

WCDMA 850, 900, 1900, 2100

HSDPA UE Cat 24, HSUPA UE Cat 6

Quad-band

Samsung Galaxy S6 SM-G920A (AT&T) (Samsung Shannon 333 chipset)

LTE FDD bands 1-5, 7, 8, 12, 17, 20, 29, 30

LTE Cat 4

WCDMA 850, 1900, 2100

Quad-band

Samsung Galaxy S6 SM-G920T (T-Mobile) (Samsung Shannon 333 chipset)

LTE FDD bands 1-5, 7, 12, 17, 20

LTE Cat 4, 6

WCDMA 850, 1900, 2100, AWS

Quad-band

1 The test devices tested and sold by Keysight Nemo Wireless Network Solutions are intended for testing purposes only. Software changes in devices may limit their normal use. Keysight Nemo Wireless Network Solutions does its best to provide test devices without any l imitations but it is not always possible. Keysight Nemo Wireless Network Solutions assumes no liabil ity if any commercial application or feature is blocked or l imited due to software or other device-related modifications. If the test device is moved to another country or used in the network of another operator than initially ordered, it is possible that the device does not support all network features. Keysight Nemo Wireless Network Solutions assumes no liabil ity in any cases.



Samsung Galaxy S6 SM-G920I (APAC) (Samsung Shannon 333 chipset)

LTE FDD bands 1-5, 7, 8, 12, 17, 18, 19, 26, 28

LTE TDD

LTE Cat 4, 6

WCDMA 850, 900, 1900, 2100, AWS


Quad-band

Samsung Galaxy S6 SM-G920W8 (Bell) (Samsung Shannon 333 chipset)

LTE FDD bands 1-5, 7, 12, 13, 17, 20, 29

LTE Cat 4, 6

WCDMA 850, 1900, 2100, AWS

Quad-band

Samsung Galaxy 6 Edge+ (SM-G928K) (Samsung Shannon 333 chipset)

LTE FDD bands 1, 2, 3, 5, 7, 8, 17, 20, 26

LTE TDD bands 38, 39, 41

WCDMA 850, 1900, 2100

Quad-band

Samsung Galaxy S7 (SM-G930F) (Samsung Shannon 335 chipset)

LTE FDD bands 3, 7, 20)

LTE Cat 4, 6, 9

WCDMA 850, 900, 1900, 2100, AWS


Quad-band

Samsung Galaxy S7 Edge (SM-G935F) (Samsung Shannon 335 chipset)

LTE FDD bands 1-5, 7, 8, 12, 13, 17-20, 25, 26, 28

LTE TDD bands 38-41

LTE Cat 4, 6, 9

WCDMA 850, 900, 1900, 2100AWS, 2100

Quad-band

Samsung Galaxy S7 Edge (SM-G935FD)

(Samsung Shannon 335 chipset)

LTE FDD bands 1-5, 7, 8, 12, 13, 17-20, 25, 26, 28

LTE TDD bands 38-41

LTE Cat 9

WCDMA 850, 900, 1700, 1900, 2100

Quad-band

Samsung Galaxy S8 (SM-G950F)(Samsung Shannon 355 chipset)

LTE FDD bands 1-5, 7, 8, 12, 13, 17-20, 25, 26, 28, 32, 66

LTE TDD bands 38-41

LTE Cat 4, 6, 9

LTE-A (4 CA) Cat 16 (1024/150)

Note: Capabilities are market and operator specific.

WCDMA 850, 900, 1900, 2100, AWS


Quad-band



Samsung Galaxy S8+ (SM-G955F) (Samsung Shannon 355 chipset)

LTE FDD bands 1-5, 7, 8, 12, 13, 17-20, 25, 26, 28, 32, 66

LTE TDD bands 38-41

LTE Cat 4, 6, 9

LTE-A (4 CA) Cat 16 (1024/150)


WCDMA 850, 900, 1900, 2100AWS, 2100


Quad-band

Samsung Galaxy Note 8 SM-N950F (Samsung Shannon 355 chipset)

LTE FDD bands 1-5, 7, 8, 12, 13, 17-20, 25, 26, 28

LTE TDD bands 38-41

LTE Cat 16


WCDMA 850, 900, 1700, 1900, 2100

Quad-band

Samsung Galaxy S9 SM-G960F

LTE FDD bands 1, 3, 7, 8, 28

LTE TDD band 40

LTE Cat 18


WCDMA 850, 1700, 1900, 2100, 2600

Quad-band

Samsung Galaxy S9+ SM-G965F

LTE FDD bands 1-5, 7, 8, 12, 13, 17, 19, 20, 26, 28, 29, 32, 66

LTE TDD bands 38-41

WCDMA 800, 850, 900, 1700, 1900, 2100

Quad-band

Samsung Galaxy S10 SM-G973F

LTE FDD bands 1-5, 7, 8, 12, 13, 17-20, 25, 26, 28, 32, 66

LTE TDD bands 38-41


WCDMA 850, 900, 1900, 2100, 2100AWS

Quad-band


Forcing featuresForcing features vary depending on device model

and firmware version. Please see the table at the end

of this data sheet for detailed information about the

available forcing features per device.

• System lock (requires NMR with Samsung Shannon)

• Band lock (GSM, WCDMA, LTE) (requires NMR with Samsung Shannon)

• Enabling/disabling terminal radio

• Sending and logging custom AT commands and responses

• GSM channel lock1

• Setting preferred channel (UMTS)1

• UMTS channel and scrambling code lock1

• LTE channel and PCI lock1

• LTE-A carrier aggregation forcing (enable/disable)

Application protocols• ICMP ping

• Ping trace route testing

• FTP2

• SFTP

• HTTP/S2

• HTTP/S browsing including content encoding

• HTTP streaming (YouTube)

• Iperf service testing (for TCP and UDP)

• SMTP/S, POP3/S, and IMAP/S protocols (for email testing)

• SMS testing

• RTSP streaming

• Facebook, Twitter, Instagram (limited functionality), Dropbox, WhatsApp, Viber, BiP, Line, Snapchat

5G NRAvailable with Exynos 5100 modem-based devices.

Cell measurement• Cell type

• Channel

• Band

• NR-ARFCN

• PCI

• Beam index

• RSRP

• RSRQ

• SINR

Physical channel information (for each serving cell)• PDSCH throughput (for each serving cell)

• PDSCH scheduled throughput (for each serving cell)

• PUSCH throughput (for each serving cell)

• PUSCH scheduled throughput (for each serving cell)

• PUSCH TX power

• PUCCH TX power

Link adaptation (for each serving cell)• Scheduled rank (DL)

• Scheduled PRBs (UL)

• Scheduled MCS per codeword (UL/DL)

• Scheduled TBS per codeword (UL/DL)

• Slot utilization (UL/DL)

CSI• RI

• WB CQI

1. Supported with l imited set of handsets and may require NATA (formerly NMR) installed to test handset

2. Multi-thread, download/upload


Current cell information (for each serving cell)• Band

• SSB NR-ARFCN

• Physical cell identity

• BWP ID

• BWP numerology

• BWP bandwidth

• SSB GSCN

• BWP NR-ARFCN

MAC (for each serving cell)• MAC downlink throughput

• MAC downlink scheduled throughput

• MAC downlink and uplink block rate

• MAC downlink BLER (total, 1st, 2nd, and 3rd+)

• MAC uplink retransmission rate (total, 1st, 2nd, and 3rd+)

• MAC downlink and uplink new block rate

RLC/PDCP• RLC downlink BLER

• RLC downlink block rate

• RLC uplink throughput

• RLC uplink block rate

• RLC uplink retransmission rate

• PDCP downlink throughput

• PDCP uplink throughput

Upper layers• RRC signaling

LTECell measurement (for each cell)• Cell type (serving, secondary serving, listed,

detected)

• Band

• Channel number (EARFCN)

• Physical cell identity

• RSSI

• RSRP

• RSRQ

• RSRP, RSRQ, RSSI, cell frame timing, and cell frame offset per antenna port (not available with 333)

• Pathloss (not available with 333)

• Inter-system cell measurements

• Logging LTE inter-system neighbor cell list

Physical channel information • PDSCH throughput1

• PDSCH BLER1

• PUSCH throughput

• PUSCH TX power

• PUSCH TX power headroom (not available with 333)

• PUCCH TX power

• SNR1

• SNR per antenna1

• LTE SRS power (not available with 333)

Radio access bearer (RAB) information• RAB type (PS)

• RAB ID

• RAB RB ID

• RAB allocation attempts

• RAB allocation success

• RAB allocation failure with failure cause type

• RAB release with release type

1. For primary and secondary serving cells


Link adaptation (for primary and secondary serving cells, reported for one modulation/PRB allocation per sample duration)• PDSCH rank

• PDSCH modulation and MCS per code word

• PDSCH PRB allocation

• LTE precoding matrix indicator (PMI)

• PUSCH rank

• PUSCH modulation and MCS

• PUSCH PRB allocation

Current cell information• Physical cell identity1

• Physical layer identity1

• Cell specific frequency shift1

• Channel number (EARFCN)1

• Cell ID

• Tracking area code

• Mobile country code

• Mobile network code

• MME group ID

• MME code

• M-TMSI

• RRC state

• Cell bandwidth1

• Transmission mode1

• Detected downlink antenna ports1

• Service status

• Cyclic prefix1

• Automatic neighbor relations (ANR) CGI reporting

• C-RNTI

• Number of secondary serving cells

• Secondary serving cell activity state

CQI (for primary and secondary serving cells)• Wideband CQI per code word

• Requested rank

• Periodic and aperiodic CQI reporting mode

RACH parameters• RACH type

• Reason

• Preamble ID

• RACH result

• Maximum allowed preambles

• Number of transmitted preambles

• Number of received preamble responses (success and backoff cases separated)

• Number of contention resolution failures

• RA-RNTI

• RACH response window size

• RACH timing advance

• RACH access delay

Mobility parameters• Cell reselections events

• Handover events (attempt/success/failure)

• Handover type

• Tracking area update events (attempt/success/failure)

• Tracking area update events (attempt/success/failure)

• Tracking area update type

• Tracking area update failure cause

• Handover duration

• Handover U-plane interruption time (VoLTE/ViLTE)

• Handover to preamble time

RLC/PDCP• RLC downlink throughput

• RLC downlink throughput per RB

• RLC uplink throughput

• RLC uplink throughput per RB1. For primary and secondary serving cells


• RLC downlink BLER

• RLC downlink BLER per RB


• RLC uplink retransmission rate per RB

• PDCP downlink throughput

• PDCP downlink throughput per RB

• PDCP uplink throughput

• PDCP uplink throughput per RB

Radio resource connections (RRC)• RRC connection attempts

• RRC establishment cause

• RRC connection success/failures

• Number of RRC connection requests before RRC connection

• Number of RRC connection requests before abort

• RRC rejection status

• RRC connection release

• RRC connection release status

• RRC connection release cause

• RRC re-establishment status

• RRC re-establishment cause

• LTE measurement events A1-A6 and B1-B2

MAC• MAC uplink retransmission rate (total)

Upper layers• RRC signaling

• NAS signaling

• RRC state

• EMM state

• LTE EPS bearer events

VoLTE, ViLTE, VoWiFi, and ViWiFi information• AMR rate and EVS rate

RTP signaling messages

With Samsung Shannon, RTP signaling messages are

only logged for VoLTE, VoWiFi/ViLTE video and ViWiFi

audio and video packets.

• Direction (DL/UL)

• Message name

• Message sequence number

• Message data

RTP packet information• Jitter

• RTP inter arrival jitter based on RFC 3550 subclause 6.4.1

• RTP PER (number of lost packets based on sequence number before de-jitter buffer)

• IAT DL RTP inter-arrival time downlink (maximum time between RTP packets)

• RTP DL/UL bytes

• RTP DL/UL packets

• RTP burst error length

SIP registration events• Attempt

• Failure with cause code

• Completed

• Deregistered

• SIP server re-registration result

IMS SIP Signaling Messages• Direction (DL/UL)

• Message name

• Message data

WCDMAServing cell information• Cellular system

• Channel number for primary and secondary channels


• Service information

• RAC, MCC

• MNC, LAC

AMR information• AMR mode UL/DL (not available with 333)

WCDMA signaling messages• Layer 3

• RRC messages

• Logical subchannels for all messages

RACH parameters• Random access maximum preamble count

• Random access preamble count

• Random access message TX power

• UL interference level

RLC• RLC uplink throughput

• RLC downlink throughput


• Number of RBs

• RB ID

• RLC uplink throughput per RB

• RLC downlink throughput per RB

HSDPA parameters• HS-PDSCH throughput

• HS-PDSCH scheduled throughput

• Distribution of used modulation scheme

• HSDPA UE category

• Current HSDPA serving scrambling code

• CQI

HSUPA parameters• HSUPA UE category

• TTI

• Primary and secondary E-RNTI

• Distribution of used E-TFCI (not available with 333)

• Happy bit status (not available with 333)

• MAC-e throughput (not available with 333)

Physical layer parameters• BLER, RSSI, RSCP for primary and secondary

channels

• TX power

• Ec/No and RSCP for active/neighbor/detected set

• FER (voice) (not available with 333)

Radio access bearer (RAB) information• RAB type (CS/PS)

• RAB ID

• RAB RB ID

• RAB allocation attempts

• RAB allocation success

• RAB allocation failure with failure cause type

• RAB release with release type

Power control parameters• BLER

• SIR

• SIR target

• TX power control algorithm

• TX power control step size

• Number of increase/decrease UL/DL power commands

Soft handover parameters• Ec/No for active/neighbor/detected set

• Soft handover status

• Soft handover event

• Addition window

• Drop window

• Replacement window

• Time to trigger 1A

• Time to trigger 1B

• Time to trigger 1C


• Added scrambling code number

• Removed scrambling code number

• Cell count active

• Cell count monitored

Additional 3G information• Compressed mode indication

• RRC state

• WCDMA neighbor list with GSM neighbors

• Neighbor cell index

• Inter-system GSM neighbor measurement results

• Results of inter-frequency neighbor measurements

• Measurement events

• Used AMR codec (not available with 333)

• WCDMA pilot pollution analysis

- Source system

- Source band

- Source channel number

- Pilot pollution scr code

- Pilot pollution Ec/N0

- Pilot pollution RSCP

- Cell name of polluting pilot (if cell site file is used)

- Cell ID of polluting pilot (if cell site file is used)

GSMGSM interference analysis parameters

Scanner required simultaneously for measurements.

• User adjustable thresholds: RX level sub and RX quality sub

• Interference analysis channel type: serving channel, co-channel or adjacent channel

• Band

• Channel number

• BSIC

• RX level

• Cell name (requires cell site file)

GSM signaling messages• Layer 3

• RLC/MAC control messages

• Logical subchannels for all messages

GSM serving cell RF parameters• RXLEV (full and sub)

• RXQUAL (full & sub)

• C1 & C2

• TXPOWER

• Timing advance

• Signal variance

• Mean BEP (8-PSK & GMSK)

• Mean BEP coefficient variance (8-PSK & GMSK)

GSM serving channel information• BSIC

• TCH (HR, FR, EFR)

• Timeslot number

• Channel number

GSM neighbor information• BCCH

• BSIC

• RXLEV

• C1 & C2

• GSM neighbor list with WCDMA neighbors

• Inter-system WCDMA neighbor measurement results

RLC/MAC information• Number of timeslots UL/DL

• EDGE modulation and coding scheme UL/DL

• GPRS/EDGE indication

• RLC data throughput UL/DL


Call information• Call type

• Number of calls

• Call connecting status

• Call connection time from attempt to connected state

• Call attempt time

• Call failure time

• Call failure cause

• Call duration

• Call disconnect cause

• Call direction (MOC/MTC)

Packet data information• PDP activation attempt time

• PDP active duration

• PDP activation failure time

• PDP activation failure cause

• PDP context deactivation time

• PDP context deactivation cause

• Packet state

• Packet protocol address

• Attach failure time

• Attach failure cause

• Attach attempt time

• Attach duration

• Detach time

• GMM/SM state

• QoS settings

WLAN cell measurements• Channel number

• SSID and BSSID

• IP address

• RSSI

• Quality

• Security mode and link speed

• WLAN state information

User level data information• Data transfer protocol

• Data transfer direction

• Data transfer attempt number

• Data transfer host address

• Data transfer host port

• Application data throughput UL/DL

• Application packet error rate

• Transferred bytes UL/DL

• PPP layer data throughput

• Data connection establishment time

• Data connection rate UL/DL

• Data connection duration

• Data connection failure time

• Data connection failure cause

• Data transfer failure cause

• Data size UL/DL

• Data disconnect cause

• Ping rate Ping timeout

• Ping time (application data round trip travel time)

• IP access and termination time (when TCP/IP packet capturing enabled from the OS)

• DNS query address

• DNS query latency

• DNS query result

• DNS resolved address

Video quality metricsVideo quality is measured passively from media

streams carried over packet-based networks. Factors

that affect quality include delay variations, packet

losses and other distortions which may be visible in

the video. Also factors, such as the video codec itself

are included in the final result. However, end-to-end

and round-trip delays are not taken into account.

• Video quality MOS absolute (video quality is normally displayed as mean opinion score (MOS), which is expressed as a single number. The range varies from 1 to 5, where 1 is poor quality and 5


is perfect. Usually the MOS value does not reach 5, the practical maximum being most commonly between the values 3 and 4.)

• Video quality MOS relative (relative MOS is calculated similar to absolute MOS except without using resolution; video streams with different resolutions should get comparable MOS results.)

• Video/audio quality MOS absolute (combined audio and video MOS)

• Video/audio quality MOS relative (combined audio and video MOS excluding resolution from the calculation)

• Video quality average bitrate

• Video codec (defines the video codec used in the container format, usually this is H.263, H.263+, H.264 (MPEG4 Part 10) or MPEG4 visual (MPEG4 Part 2) when streaming mobile content)

Audio quality metrics• Audio quality MOS-LQ (estimated listening quality

MOS is calculated from the listening quality R-factor that ignores effect of delay and recency, the value should be comparable with PESQ score)

• Audio quality MOS-CQ (estimated conversation quality MOS is calculated from the conversation quality R-factor)

• Audio quality R-factor LQ (listening quality R-factor is calculated from E-model by ignoring the effect of delay and recency)

• Audio quality R-factor CQ (conversation quality R-factor is calculated including delay and recency to the result)

VoLTE voice statistics• VoLTE calls (number of VoLTE calls)

• VoLTE calls alerting (number of alerting VoLTE calls)

• VoLTE call attempt failures (number of call attempt failures)

• LTE call accessibility, % (ratio of call attempt failures/call attempts in LTE)

• Overall call connects, answered (number of all answered calls)

• Overall call accessibility (ratio of all call attempt failures/all call attempts in all systems)

• Overall call attempt failures, system failure (number of call attempt failures)

• Overall call attempt failures, incoming call not received (number of call attempt failures)

• Overall call connects, TCH (number of call all connected calls)

• Overall call setup time, TCH (time between call attempt to call connection)

• Overall call setup time, alerting (time between call attempt to call alert)

• Overall call setup time, answered (time between call attempt to call answer)

• LTE call setup time, ms (time between call attempt to call connection when in LTE

• IMS registration failure rate (ratio of IMS registration attempts/failures)

• VoLTE calls answered (number of answered VoLTE calls

• VoLTE call disconnects, dropped (number of dropped VoLTE calls)

• Overall calls (number of all voice calls)

• Overall calls received (number of all received voice calls)

• Overall call disconnects, normal (number of all disconnected voice calls)

• Overall call disconnects, dropped (number of all dropped calls in all systems

• Overall call disconnects, early release (number of all calls released early in all systems)

• Overall call drop rate, % (ratio of all disconnects (drops)/all call connections with alerting state)

• Overall call success rate (ratio of all successful calls)

• Overall call attempt success rate (ratio of all successful call attempts)

• Overall call duration, TCH (total duration of all calls)

• Overall call duration, alerting (total duration of all alerting calls)

• Overall call duration, answered (total duration of all answered calls

• VoLTE intra LTE handover failures (number of


handover failures during intra LTE HO)

• VoLTEe intra LTE handover failure rate, % (ratio of Volte intra LTE HO failures/VoLTE intra HO attempts)

• SRVCC failures, RAN view (number of failed Inter-system handovers from LTE)

• SRVCC failure rate, RAN view (%) (ratio of inter-system handovers failures/inter-system handover attempts from LTE)

• VoLTE POLQA DL average (average POLQA DL score per VoLTE call)

• VoLTE POLQA DL average before SRVCC, to match Nemo Outdoor naming convention (average POLQA DL score per VoLTE call before SRVCC)

WLAN (VoWiFi and ViWiFi) statistics• WLAN IMS registration attempts

• WLAN IMS registration success

• WLAN IMS registration failures

• WLAN IMS registration success rate

• WLAN IMS registration failure rate

• WLAN IMS voice call attempt failures

• WLAN IMS voice call attempt failures (system failure)

• WLAN IMS voice call connects

• WLAN IMS voice calls alerting

• WLAN IMS voice calls answered

• WLAN IMS voice call disconnects (normal)

• WLAN IMS voice call disconnects (dropped)

• WLAN IMS voice calls received

• WLAN IMS video call attempt failures

• WLAN IMS video call attempt failures (system failure)

• WLAN IMS video call connects

• WLAN IMS video calls alerting

• WLAN IMS video calls answered

• WLAN IMS video call disconnects (normal)

• WLAN IMS video call disconnects (dropped)

• WLAN IMS video calls received

• IMS voice call LTE to WLAN handover success

• IMS voice call LTE to WLAN handover rejected

• IMS voice call LTE to WLAN handover failed

• IMS voice call LTE to WLAN handover timeout

• IMS voice call WLAN to LTE handover success

• IMS voice call WLAN to LTE handover rejected

• IMS voice call WLAN to LTE handover failed

• IMS voice call WLAN to LTE handover timeout

• IMS video call LTE to WLAN handover success

• IMS video call LTE to WLAN handover rejected

• IMS video call LTE to WLAN handover failed

• IMS video call LTE to WLAN handover timeout

• IMS video call WLAN to LTE handover success

• IMS video call WLAN to LTE handover rejected

• IMS video call WLAN to LTE handover failed

• IMS video call WLAN to LTE handover timeout

Statistics• Call statistics

• Handover/handoff statistics

• Soft handover statistics

• Intersystem handover statistics

• Intersystem cell reselections

• Location area statistics

• Attach statistics

• PDP context statistics

• Routing area statistics

• User level data statistics

• Video streaming statistics:

- Streaming setup success rate

- Streaming setup delay

- Streaming completion success rate

• CSFB voice call statistics:

- CSFB voice call attempts

- CSFB voice call attempt failures

- CSFB voice call attempt failures (system failure)

- CSFB voice call connects

- CSFB voice calls received

- CSFB voice call attempt success rate


- CSFB voice call setup time

• Virtual statistics parameters:

- Average application data throughput DL

- Average application data throughput UL (The calculation is made between data request (DREQ) to data completed event (DCOMP) weighted by time. The result is shown for each data transfer context ID separately.)

- Average PPP data throughput DL

- Average PPP data throughput UL

- Average video streaming quality MOS (average value is calculated real time during the video streaming over the one video streaming session)

Real-time statisticsReal-time statistics are virtual parameters that are not

written in the measurement file. Real-time statistics

can be displayed in different views in Nemo Outdoor

and they are written in the csv. file.

• Distribution statistics

• GPRS coding scheme distribution (DL/UL)

• EDGE coding scheme distribution (DL/UL)

• Data throughput statistics including min/max/average values

• Application data throughput (DL/UL)

• UMTS L1 statistics including min/max/average values

• Ec/N0 best active

• RSCP best active

• TX power

• BLER

• Counter statistics for measurement events (MEI event)

• GSM L1 statistics including min/max/average values

• RXL full/sub

• RXQ full/sub

• TX power

• Timing advance

• LTE L1 statistics

• RSRQ serving measurement average

• RSRP serving measurement average


Ordering Information

License options

Order number Handler/license

NTA50159A Handler for Samsung Shannon 333/335/355 GSM/UMTS

NTA50160A Handler for Samsung Shannon 333/335/355 GSM/UMTS/LTE

NTA50161A Handler for Samsung Shannon 333/335/355 GSM/UMTS/LTE-A 2CC




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AP

)

XN

MR

Op

erat

or

spec

ific

FW a

nd

NM

R

xx

1

Sam

sung

Gal

axy

S6

SM

-G92

0T

(T-M

obile

)

XN

MR

xx

x4

pcs

1

Sam

sung

Gal

axy

S6

SM

-

G92

0W8

(Bel

l)

XN

MR

xx

4 p

cs1

Sam

sung

Gal

axy

S6

SM

-G92

0A

(AT&

T)

Xx

4 p

cs1

Sam

sung

Gal

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S6

Ed

ge+

SM

-

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8F

XN

MR

Op

erat

or

spec

ific

FW a

nd

NM

R

xN

MR

NM

RW

CD

MA

/

LTE

(NM

R)

xx

xx

1

Sam

sung

Gal

axy

6

Ed

ge+

(SM

-

G92

8K)

XN

MR

xx

x1

1.

FTP

, HT

TP, e

-mai

l, IC

MP

ping

2.

Veri

fied

num

ber

of s

imul

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devi

ces

in m

ulti

conf

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Dev

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Vide

o

call

VoLT

EPS

dat

a1SM

SM

MS

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Syst

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lock

(GSM

,

WCD

MA,

LTE)

Band

lock

(GSM

,

WCD

MA,

LTE,

CDM

A,

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O)

GSM

chan

nel

lock

WCD

MA

ch lo

ck

(UAR

FCN)

WCD

MA

scr.

code

lock

(sec

tor

lock

)

LTE

ch

lock

(EAR

FCN

)

LTE

PCI

lock

CA

enab

le/

disa

ble

Airl

ine

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io o

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Ext.

ant.

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Sam

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Not

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Op

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ific

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NM

R

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NM

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SM

/

WC

DM

A/

LTE

(NM

R)

xx

xx

1

Sam

sung

Gal

axy

S7

(SM

-G93

0F)

XN

MR

(EN

G F

W

req

uire

d)

NM

R

(EN

G F

W

req

uire

d)

xx

WC

DM

A/

LTE

1

Sam

sung

Gal

axy

S7

Ed

ge (S

M-

G93

5F)

XN

MR

(EN

G F

W

req

uire

d)

NM

R

(EN

G F

W

req

uire

d)

xx

xW

CD

MA

/

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xx

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1

Sam

sung

Gal

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ge (S

M-

G93

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sung

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nnon

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XN

MR

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req

uire

d)

NM

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G F

W

req

uire

d)

xx

WC

DM

A/

LTE

1

Sam

sung

Gal

axy

S8

(SM

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0F)

xN

MR

(EN

G F

W

req

uire

d)

NM

R

(EN

G F

W

req

uire

d)

xx

(sin

gle

syst

em)

x (s

ingl

e

ban

d)

xx

xx

xx

9

Sam

sung

Gal

axy

S8+

(SM

-G95

5F)

xN

MR

(EN

G F

W

req

uire

d)

NM

R

(EN

G F

W

req

uire

d)

xx

(sin

gle

syst

em)

x (s

ingl

e

ban

d)

xx

xx

xx

9

Sam

sung

Gal

axy

S9

SM

-G96

0F

xN

MR

(UM

TS

and

VoLT

E)

NM

Rx

xx

x (s

ingl

e

syst

em)

x (s

ingl

e

ban

d)

xx

xx

xx

x9

Sam

sung

Gal

axy

S9+

SM

-G96

5F

xN

MR

(UM

TS

and

VoLT

E)

NM

Rx

x (s

ingl

e

syst

em)

x (s

ingl

e

ban

d)

xx

xx

xx

1

Sam

sung

Gal

axy

S10

SM

-G97

3F

xx

xx

xx

xx

xx

xx

1

1.

FTP

, HT

TP, e

-mai

l, IC

MP

ping

2.

Veri

fied

num

ber

of s

imul

tane

ous

devi

ces

in m

ulti

conf

igur

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n w

ith

sing

le C

PU

This information is subject to change without notice. © Keysight Technologies, 2018-2019, Published in USA, June 20, 2019, 5992-2034EN


Learn more at: www.keysight.com

For more information on Keysight Technologies’ products, applications or services,

please contact your local Keysight office. The complete list is available at:

www.keysight.com/find/contactus

http://www.keysight.com/find/dmm

Nemo Outdoor · Nemo Outdoor Samsung Shannon-Based Terminals Measure and Monitor the Newest...

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