Skytraq Px1172r User manual

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PX1172R

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Features

 Centimeter‐levelaccuracyRTKreceiver

 Multi‐Band,Quad‐GNSS

 17mmx22mmsize

 NMEA‐0183andRTCM3.xprotocol

 Easytointegrate

 Operatingtemperature‐40~+85ºC 

 RoHScompliant

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Applications

 Machinecontrol&automation

 Unmannedaerialvehicle

 Precisionagriculture

 GISdatacollection

 Precisionheading&attitude

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Compact‐SizeMulti‐BandGNSS

ReceiverforCentimeter‐Level

AccuracyApplications

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The PX1172R offers centimeter‐level accuracy based on carrier

phase RTK technique and can be used for a wide range of

high‐accuracypositioningapplications.Its17mmx22mmstamp

size makes it ideal for mobile precision positioning application

requiringcompactformfactor.

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ThereceiverreceivesRTCM3.xdatafromalocalbasestation,a

virtualreferencestation(VRS)inaNetworkRTKconfiguration,

oranotherSkyTraqRTKreceiversetupasinbasestationmode

toperformcarrierphaseRTKprocessing,achievingcentimeter

levelaccuraterelativepositioning.

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The PX1172R receiver is based on SkyTraq’s high‐performance

Phoenix GNSS chipset, featuring fast signal acquisition search

engineandhigh‐sensitivitytrackengine.Searchengineperforms

16 million time‐frequency hypothesis testing per second,

offeringindustry‐leadingsignalacquisitionperformance.

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Thereceiverisoptimizedformassmarketapplicationsrequiring

high‐precisioncentimeter‐levelaccuracy,high‐performance,low

power,andlowercost.

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TECHNICALSPECIFICATIONS

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ReceiverType   230channelPhoenixGNSSengine

GPS/QZSSL1/L2C,BeiDouB1I/B2I,GalileoE1/E5b,GLONASSL1OF/L2OF

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AccuracyPosition1.5mCEPautonomousmode

1cm+1ppmRTKmode

Velocity0.05m/sec*

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Time12ns

MovingBaseHeading0.13degree*

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TimetoFirstFix   1secondhot‐startunderopensky(average)

28secondwarm‐startunderopensky(average)

29secondcold‐startunderopensky(average)

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RTKConvergence  <10sec 

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Reacquisition   1s

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MaxUpdateRate  

 GPS/GLO/GAL/BDS GPS/GLO/GAL GPS/GLO GPS/GAL GPS/BDS GPS

RTK 10Hz 10Hz 20Hz 20Hz 20Hz 25Hz

RAW 25Hz     

MB/AMBRTK 8Hz     

RTK:forprecisepositioning.Moving‐Base(MB)RTKforpreciseheading.AdvancedMovingBase

(AMB)RTKforprecisepositioning&heading.

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OperationalLimits  Altitude<80,000mandvelocity<515m/s

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SerialInterface   3.3VLVTTLlevel

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ProtocolNMEA‐0183V4.1

GGA,GLL,GSA,GSV,RMC,VTG

115200baud,8,N,1

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RTCM3.xorSkyTraqrawdatabinary

115200baud,8,N,1

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DatumDefaultWGS‐84anduserdefinableinstand‐alonemode

DependsonbasereferenceframewheninRTKmode

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InputVoltage   3.3VDC+/‐10%

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CurrentConsumption  100mA

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Dimension17mmLx22mmWx2.9mmH

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Weight:1.7g

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OperatingTemperature ‐40oC~+85oC 

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StorageTemperature  ‐55oC~+100oC

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Humidity5%~95%non‐condensing

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*150%@30m/sfordynamicoperation

*2(1‐sigma)headingaccuracyusing1meterbaseline

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FUNCTIONALDESCRIPTION

ActiveantennaisrequiredtousewithPX1172R.Thereceivedsignalgoesthroughasignalsplitter,

toindividualL1andL2/L5SAWfilterstoremoveout‐bandinterference,thentothePX100GNSS

receiverchipforRTKsignalprocessing.UsingcorrectiondatafromanRTKbasestation,therover

PX1172Rcomputesitspositiontocentimeter‐levelaccuracyrelativetothebasestation. 

SUPPORTEDRTCMMESSAGES

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Whenoperatinginrovermode,PX1172RcandecodefollowingRTCM3.3messages:

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RTCMMessageType Description

1004 ExtendedL1/L2GPSRTKobservables

1005 StationaryRTKreferencestationantennareferencepoint

1006 StationaryRTKreferencestationARPwithantennaheight

1012 ExtendedL1/L2GLONASSRTKobservables

1033 Receiverandantennadescription

1074 GPSMSM4

1075 GPSMSM5

1076 GPSMSM6

1077 GPSMSM7

1084 GLONASSMSM4

1085 GLONASSMSM5

1086 GLONASSMSM6

1087 GLONASSMSM7

1094 GalileoMSM4

1095 GalileoMSM5

1096 GalileoMSM6

1097 GalileoMSM7

1114 QZSSMSM4

1115 QZSSMSM5

1116 QZSSMSM6

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1117 QZSSMSM7

1124 BeiDouMSM4

1125 BeiDouMSM5

1126 BeiDouMSM6

1127 BeiDouMSM7

1230 GLONASSCode‐PhaseBiases

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Whenoperatinginbasemode,PX1172RcanoutputfollowingRTCM3.3messages:

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RTCMMessageType Description

1005 StationaryRTKreferencestationantennareferencepoint

1074 GPSMSM4

1077 GPSMSM7

1084 GLONASSMSM4

1087 GLONASSMSM7

1094 GalileoMSM4

1097 GalileoMSM7

1114 QZSSMSM4

1117 QZSSMSM7

1124 BeiDouMSM4

1127 BeiDouMSM7

1230 GLONASSCode‐PhaseBiases

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PINOUT

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PINOUTDESCRIPTION

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PinNo. Name Description

1

GND

Ground

2

RF_IN

RFinput 

3

GND

Ground

4,5,6

Noconnection,emptypin

7

VCC_RF

VoltageforexternalLNA

8,9,10,11

Noconnection,emptypin

12

GND

Ground

13

Noconnection,emptypin

14

GND

Ground

15,16,17,18,19

NC

Noconnection,emptypin

6

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20

RTK_STAT

Status signal

0:RTKFix

Blink  :RTKFloat

1:otherwise

21,22,23,24,25

NC

Noconnection,emptypin

26

RXD2

UARTserialdatainput,3.3VLVTTL.

OnesimplexasynchronousserialUARTportisimplemented.ThisUARTinputis

normallyforsendingRTCM‐SC104correctiondataorbasestationSkyTraqraw

measurementdatatothereceiver at115200baudrate.In the idlecondition,

thispinshouldbedrivenHIGH.Ifthedrivingcircuitryispoweredindependently

ofPX1172R,ensurethatthispinisnotdriventoHIGHwhenPX1172Risputto

sleep,ora10K‐ohmseriesresistorcanbeaddedtominimizeleakagecurrent.

27

TXD2

UARTserialdataoutput,3.3VLVTTL.

Notused.

28,29,30,31

NC

Noconnection,emptypin

32

GND

Ground

33,34

VDD33

Powersupply,3.3VDC

35

NC

Noconnection,emptypin

36

V_BCKP

Backupsupplyvoltage forinternal RTC andbackupSRAM, 1.3V ~ 3.6V. VBAT

must be applied whenever VCC is applied. This pin should be powered

continuously to minimize the startup time. If VCC and V_BCKP are both

removed,thereceiverwillbeinfactorydefaultmodeuponpowerup,alluser

configurationsetislost.Forapplicationsthedoesnotcarecoldstartingevery

time,thispincanbeconnecttoVCC.

37

GND

Ground

38,39,40

Noconnection,emptypin

41

GND

Ground

42

TXD

UARTserialdataoutput,3.3VLVTTL.

One full‐duplex asynchronous serial UART port is implemented. This UART

output is normally used for sending position, time and velocityinformation

fromthereceiverinNMEA‐0183format.Whenidle,thispinoutputHIGH.

43

RXD

UARTserialdatainput,3.3VLVTTL.

Onefull‐duplexasynchronousserialUARTportisimplemented.ThisUARTinput

is normally for sending commands or information to the receiver in SkyTraq

binary protocol. In the idle condition, this pin should be driven HIGH. If the

drivingcircuitryis powered independently of PX1172R,ensurethat this pin is

notdriventoHIGHwhenPX1172Risputtosleep,ora10K‐ohmseriesresistor

canbeaddedtominimizeleakagecurrent.

RTCM‐SC104correctiondataorbasestationSkyTraqrawmeasurement data

canalsobesenttothisUARTinput.

44

SDA

Notused,leaveunconnected

45

SCL

Notused,leaveunconnected

46,47

NC

Noconnection,emptypin

48

GND

Ground

49

RSTN

Externalactive‐lowresetinputtothebaseband.

Onlyneededwhenpowersupplyrisetimeisverysloworsoftwarecontrolled

resetisdesired.

50

BOOT_SEL

Noconnectionfornormaluse.Pull‐lowforloadingfirmwareintoemptyor

corruptedFlashmemoryfromROMmode.

51

TRIG

Externalinterrupttriggerinput

52

Noconnection,emptypin

7

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53

1PPS

One‐pulse‐per‐second (1PPS) time mark output, 3.3V LV‐TTL. The rising edge

synchronizedtoUTCsecondwhengetting3Dpositionfix.Thepulsedurationis

about100msecatrateof1Hz.

54

Noconnection,emptypin

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TheRTCMcorrectiondatacanbeinputfromeitherpin‐43RXDorpin‐26RXD2,butnotboth.

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MECHANICALDIMENSION

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Symbol Dimension(mm)

A 17.00

B 22.00

C 3.85

D 1.05

E 1.90

F 1.10

G 0.80

H 1.50

K 3.65

L 3.25

M 2.10

N 1.10

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ELECTRICALSPECIFICATIONS

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ABSOLUTEMAXIMUMRATINGS

Parameter Minimum Maximum Condition

SupplyVoltage(VCC) ‐0.5 3.6 Volt

BackupBatteryVoltage(V_BCKP) ‐0.5 3.6 Volt

InputPinVoltage ‐0.5 VCC+0.5 Volt

InputPoweratRF_IN  +5 dBm

StorageTemperature ‐55 +100 degC

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OPERATINGCONDITIONS

Parameter Min Typ Max Unit

SupplyVoltage(VDD33) 3 3.3 3.6 Volt

AcquisitionCurrent(excludeactiveantennacurrent)  100  mA

TrackingCurrent(excludeactiveantennacurrent)  100  mA

BackupVoltage(V_BCKP) 1.3  3.6 Volt

BackupCurrent(VDD33voltageapplied)  54  uA

BackupCurrent(VDD33voltageoff)  13  uA

OutputLowVoltage   0.4 Volt

OutputHIGHVoltage 2.4   Volt

InputLOWVoltage   0.8 Volt

InputHIGHVoltage 2   Volt

InputLOWCurrent ‐10  10 uA

InputHIGHCurrent ‐10  10 uA

RFInputImpedance(RF_IN)  50  Ohm

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APPLICATIONCIRCUIT

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ForPrecisePositioning,RoverModeConfiguration1

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ForPrecisePositioning,RoverModeConfiguration2 

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ForPreciseHeading,MovingBaseModeConfiguration

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ForPrecisePositioning&Heading,AdvancedMovingBaseModeConfiguration#1

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ForPrecisePositioning&Heading,AdvancedMovingBaseModeConfiguration#2

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RECOMMANDEDREFLOWPROFILE

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Thereflowprofileshownaboveshouldnotbeexceeded,sinceexcessivetemperaturesortransporttimesduring

reflowcandamagethemodule.Coolingtemperaturefallrate:max3°C/sec

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ANTENNACONSIDERATIONS

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ThePX1172RisdesignedtobeusedwithGPSL1/L2C,GLONASSL1/L2,BeidouB1I/B2I,GalileoE1/E5bmulti‐frequency

activeantenna.Antennawithgainupto40dBandnoisefigurelessthan2dBcanbeused.Itisimportanttoselecta

high‐performanceantennatoachieveoptimalRTKperformance. 

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POWERSUPPLYREQUIREMENT

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PX1172R requires a stable power supply, avoid ripple on VCC pin (<50mVpp). Power supply noise can affect the

receiver’ssensitivity.BypasscapacitorsshouldbeplacedclosetothemoduleVCCpin,withvaluesadjusteddepending

ontheamountandtypeofnoisepresentonthesupplyline.

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BACKUPSUPPLY 

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The purpose of backup supply voltage pin (V_BCKP) is to keep the SRAM memory and the RTC powered when the

moduleispowereddown.Thisenablesthemoduletohaveafastertime‐to‐first‐fixwhenthemoduleispoweredon

again.Thebackupcurrentdrainislessthan55μA.Innormalpoweredonstate,theinternalprocessoraccesstheSRAM

andcurrentdrainishigherinactivemode

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1PPSOUTPUT 

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A1pulsepersecondsignal(100msecHIGHduration)isgeneratedon1PPSpinwhenthereceiverhas3Dpositionfix

using4ormoresatellites.TherisingedgeofthepulseisalignedwithUTCsecond,withaccuracyofabout10nsec.It

outputsconstantLOWwhennopositionfixisavailableinitially. 

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LAYOUTGUIDELINES 

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SeparateRFanddigitalcircuitsintodifferentPCBregions. 

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Itisnecessarytomaintain50‐ohmimpedancethroughouttheentireRFsignalpath.TrykeepingtheRFsignalpathas

shortaspossible. 

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DonotroutetheRFsignallinenearnoisysourcessuchasdigitalsignals,oscillators,switchingpowersupplies,orother

RFtransmittingcircuit.DonotroutetheRFsignalunderoroveranyothercomponents(includingPX1172R),orother

signaltraces.DonotroutetheRFsignalpathonaninnerlayerofamulti‐layerPCBtominimizesignalloss.

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AvoidsharpbendsforRFsignalpath.Maketwo45‐degbendsoracircularbendinsteadofasingle90‐degreebendif

needed.

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Avoid vias with RF signal path whenever possible. Every via addsinductiveimpedance.Viasareacceptablefor

connectingtheRFgroundsbetweendifferentlayers.Eachofthemodule’sgroundpinsshouldhaveshorttracetying

immediatelytothegroundplanebelowthroughavia.

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ThebypasscapacitorsshouldbelowESRceramictypesandlocateddirectlyadjacenttothepintheyarefor.

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HANDLINGGUIDELINE

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ThePX1172RmodulesareratedMSL4,mustbeusedforSMTreflowmountingwithin72hoursaftertakenoutfrom

the vacuumed ESD‐protective moisture barrier bag in factory condition < 30degC / 60% RH. If this floor life time is

exceeded,orifthereceivedESD‐protectivemoisturebarrierbagisnotinvacuumedstate,thenthedeviceneedtobe

pre‐bakedbeforeSMTreflowprocess.Bakingistobedoneat85degCfor8to12hours.Oncebaked,floorlifecounting

beginsfrom0,andhas72hoursoffloorlifeatfactorycondition<30degC/60%RH.

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PX1172RmoduleisESDsensitivedeviceandshouldbehandledwithcare.

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RTKUsageGuideline

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BelowconditionsarerequiredforgettingRTKfixsolution.Iftheconditionsarenotmet,PX1172Rwillonlyhavefloator

DGPS/3DsolutionandbehavelikeanormalGNSSreceiver.

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*Baseandroverdistanceunder30Km

*Openskyenvironmentwithoutinterference

*Signalover37dB/Hz 

*8ormoresatellitesabove15degreeelevationanglewithgoodsatellitegeometryorlowDOPvalue;generallymore

satelliteswillhavefasterRTKfix

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NMEAOutputDescription

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TheoutputprotocolsupportsNMEA‐0183standard.TheimplementedmessagesincludeGGA,GLL,GSA,GSV,VTG,

RMC,ZDAandGNSmessages.TheNMEAmessageoutputhasthefollowingsentencestructure:

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$aaccc,c–c*hh<CR><LF>

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ThedetailofthesentencestructureisexplainedinTable1.

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Table1:TheNMEAsentencestructure

character HEX Description

“$” 24 Startofsentence.

Aaccc  Addressfield.“aa”isthetalkeridentifier.“ccc”identifiesthesentencetype.

“,” 2C Fielddelimiter.

–

c  Datasentenceblock.

“*” 2A Checksumdelimiter.

Hh  Checksumfield.

<CR><LF> 0D0A Endingofsentence.(carriagereturn,linefeed)

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Table2:OverviewofSkyTraqreceiver’sNMEAmessages 

$GPGGA Time,position,andfixrelateddataofthereceiver.

$GNGLL Position,timeandfixstatus.

$GNGSA UsedtorepresenttheID’sofsatelliteswhichareusedforpositionfix.WhenGPSsatellitesareusedfor

positionfix,$GNGSAsentenceisoutputwithsystemID1.WhenGLONASSsatellitesareusedfor

positionfix,$GNGSAsentenceisoutputwithsystemID2.WhenBDSsatellitesareusedforposition

fix,$GNGSAsentenceisoutputwithsystemID4.

$GPGSV

$GLGSV

$GAGSV

$GBGSV

Satelliteinformationaboutelevation,azimuthandCNR,$GPGSVisusedforGPSsatellites,$GLGSVis

usedforGLONASSsatellites,$GAGSVisusedforGALILEOsatellites,while$GBGSVisusedforBDS

satellites

$GNRMC Time,date,position,courseandspeeddata.

$GNVTG Courseandspeedrelativetotheground.

$GNZDA UTC,day,monthandyearandtimezone.

$GNTHS TrueHeadingandStatus.

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TheformatsofthesupportedNMEAmessagesaredescribedasfollows:

GGA–GlobalPositioningSystemFixData

Time,positionandfixrelateddataforaGPSreceiver. 

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Structure:

$GPGGA,hhmmss.sss,ddmm.mmmmmmm,a,dddmm.mmmmmmm,a,x,xx,x.x,x.x,M,x.x,M,x.x,xxxx*hh<CR><LF>

123456789101112

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Example: 

$GPGGA,033010.000,2447.0895508,N,12100.5234656,E,4,12,0.7,94.615,M,19.600,M,,0000*66<CR><LF>

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Field Name Example Description

1 UTCTime 033010.000 UTCofpositioninhhmmss.sssformat,(000000.000~235959.999)

2 Latitude 2447.0895508 Latitudeinddmm.mmmmmmmformat

Leadingzerostransmitted

3 N/SIndicator N Latitudehemisphereindicator,‘N’=North,‘S’=South

4 Longitude 12100.5234656 Longitudeindddmm.mmmmmmmformat

Leadingzerostransmitted

5 E/WIndicator E Longitudehemisphereindicator,‘E’ =East,‘W’=West

6 GPSquality

indicator

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4 GPSqualityindicator

0:positionfixunavailable

1:validpositionfix,SPSmode 

2:validpositionfix,differentialGPSmode

3:GPSPPSMode,fixvalid

4:RealTimeKinematic.SystemusedinRTKmodewithfixedintegers

5:FloatRTK.SatellitesystemusedinRTKmode.,floatingintegers

6:Estimated(deadreckoning)Mode

7:ManualInputMode

8:SimulatorMode

7 SatellitesUsed 12 Numberofsatellitesinuse,(00~12)

8 HDOP 0.7 Horizontaldilutionofprecision,(0.0~99.9)

9 Altitude 94.615 meansealevel(geoid),(‐9999.9~17999.9)

10 GeoidalSeparation 19.600 Geoidalseparationinmeters

11 AgepfDifferential

GPSdata

AgeofDifferentialGPSdata

NULLwhenDGPSnotused

12 DGPSStationID 0000 DifferentialreferencestationID,0000~1023

13 Checksum 66

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GLL–Latitude/Longitude

Latitudeandlongitudeofcurrentposition,time,andstatus.

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Structure:

$GNGLL,ddmm.mmmmmmm,a,dddmm.mmmmmmm,a,hhmmss.sss,A,a*hh<CR><LF>

12345678

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Example: 

$GNGLL,2447.0895508,N,12100.5234656,E,033010.000,A,D*48<CR><LF>



Field Name Example Description

1 Latitude 2447.0895508 Latitudeinddmm.mmmmmmmformat

Leadingzerostransmitted

2 N/SIndicator N Latitudehemisphereindicator

‘N’=North

‘S’=South

3 Longitude 12100.5234656 Longitudeindddmm.mmmmmmmformat

Leadingzerostransmitted

4 E/WIndicator E Longitudehemisphereindicator

‘E’=East

‘W’=West

5 UTCTime 033010.000 UTCtimeinhhmmss.sssformat(000000.000~235959.999)

6 Status A Status,‘A’= Datavalid,‘V’=Datanotvalid

7 ModeIndicator D Modeindicator

‘A’=Autonomousmode

‘D’=Differentialmode

‘E’=Estimated(deadreckoning)mode

‘M’=Manualinputmode

‘S’=Simulatormode

‘N’=Datanotvalid

8 Checksum 48

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GSA–GNSSDOPandActiveSatellites

GNSSreceiveroperatingmode,satellitesusedinthenavigationsolutionreportedbytheGGAorGNSsentenceand

DOPvalues.



Structure:

$GNGSA,A,x,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,x.x,x.x,x.x,x*hh<CR><LF>

1233333333333345678



Example: 

$GNGSA,A,3,05,12,13,15,20,21,24,193,,,,,1.2,0.7,1.0,1*08<CR><LF>

$GNGSA,A,3,01,03,04,06,07,13,16,21,26,,,,1.2,0.7,1.0,4*34<CR><LF>



Field Name Example Description

1 Mode A Mode

‘M’=Manual,forcedtooperatein2Dor3Dmode

‘A’=Automatic,allowedtoautomaticallyswitch2D/3D

2 Mode 3 Fixtype

1=Fixnotavailable

2=2D 

3=3D

3 Satelliteused1~12 05,12,13,15,20,2

1,24,193

01~ 32areforGPS;33 ~ 64areforWAAS(PRNminus87);193

~197areforQZSS;65~88areforGLONASS(GLPRN);01~36

areforGALILEO(GAPRN);01~37areforBDS(BDPRN).GPS,

GLONASS,GALILEOandBDSsatellitesaredifferentiatedbythe

GNSSsystemIDintable3.Maximally12satellitesareincluded

ineachGSAsentence.

4 PDOP 1.2 Positiondilutionofprecision(0.0to99.9)

5 HDOP 0.7 Horizontaldilutionofprecision(0.0to99.9)

6 VDOP 1.0 Verticaldilutionofprecision(0.0to99.9)

7 GNSSSystemID 1 GNSSsystemID*

1=GPS

2=GLONASS

3=GALILEO

4=BDS

5=IRNSS

8 Checksum 08



*GNSSSystemIDidentifiestheGNSSsystemIDaccordingtoTable3.



19

www.skytraq.com.tw



*GNSSSignalIDidentifiestheGNSSsignalnameaccordingtoTable3.



Table3:GNSSIdentificationTableforGSA,GSV

System SystemID(Talker) SignalID SignalName

GPS 1(GP) 0

1

2

3

4

5

6

7

8

Allsignals

L1C/A

L1 P(Y)

L1C

L2 P(Y)

L2C‐M

L2C‐L

L5‐I

L5‐Q

GLONASS 2(GL) 0

1

2

3

4

All signals

G1 C/A

G1P

G2 C/A

GLONASS (M) G2P

GALILEO 3(GA) 0

1

2

3

4

5

6

7

All signals

E5a

E5b

E5 a+b

E6‐A

E6‐BC

L1‐A

L1‐BC

BDS 4(BD) 0

1

5

B

8

3

All signals

B1

B2A

B2

B3

B1C

IRNSS 5(GI) 0

4

All signals

L5



20

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GSV–GNSSSatellitesinView

Numberofsatellites(SV)inview,satelliteIDnumbers,elevation,azimuth,andSNRvalue.Foursatellitesmaximumper

transmission. 



Structure:

$GPGSV,x,x,xx,xx,xx,xxx,xx,…,xx,xx,xxx,xx,x*hh<CR><LF>

1234567456789



Example: 

$GPGSV,3,1,10,24,83,125,48,193,66,057,44,21,53,277,45,15,43,034,47,1*58<CR><LF>

$GPGSV,3,2,10,20,40,325,43,05,16,113,40,13,15,050,39,12,14,146,42,1*6E<CR><LF>

$GPGSV,3,3,10,10,13,314,,32,06,261,,1*62<CR><LF>

$GPGSV,2,1,05,24,83,125,49,193,66,057,44,15,43,034,45,05,16,113,36,6*5B<CR><LF>

$GPGSV,2,2,05,12,14,146,37,6*57<CR><LF>

$GBGSV,3,1,09,13,65,247,45,06,60,334,43,03,59,204,41,26,58,153,47,1*7E<CR><LF>

$GBGSV,3,2,09,16,57,325,45,01,53,142,42,21,52,046,47,04,38,118,,1*7A<CR><LF>

$GBGSV,3,3,09,07,20,169,37,1*40<CR><LF>

$GBGSV,2,1,07,13,65,247,47,06,60,334,47,03,59,204,47,16,57,325,47,3*7C<CR><LF>

$GBGSV,2,2,07,01,53,142,49,04,38,118,45,07,20,169,43,3*44<CR><LF>



Field Name Example Description

1 Numberofmessage 3 TotalnumberofGSV messagestobetransmitted(1‐5)

2 Sequencenumber 1 SequencenumberofcurrentGSVmessage

3 Satellitesinview 10 Totalnumberofsatellitesinview(00~20)

4 SatelliteID 24 01~ 32areforGPS;33 ~ 64areforWAAS(PRNminus87);193

~197areforQZSS;65~88areforGLONASS(GLPRN);01~36

areforGALILEO(GAPRN);01~37areforBDS(BDPRN).GPS,

GLONASS,GALILEOandBDSsatellitesaredifferentiatedbythe

GNSSsystemIDintable3.Maximally4satellitesareincludedin

eachGSVsentence.

5 Elevation 83 Satelliteelevationindegrees,(00~90)

6 Azimuth 125 Satelliteazimuthangleindegrees,(000~359)

7 SNR 48 C/NoindB(00~99)

Nullwhennottracking

8 SignalID 1 SignalID*

9 Checksum 58



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