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ly depends upon the satellite geometry (Geometric 

Dilution of Precision, or GDOP) and the measurement 

(ranging) errors.

– Differential positioning (DGPS and RTK) strong-

ly mitigates atmospheric and orbital errors, and 

counteracts Selective Availability (SA) signals the US 

Department of Defense transmits with GPS signals.

– The more satellites in view, the stronger the sig-

nal, the lower the DOP number, the higher position-

ing accuracy.

Availability – The availability of satellites affects 

the calculation of valid positions. The more visible 

satellites available, the more valid and accurate the 

position. Natural and man-made objects can block, 

interrupt, and distort signals, lowering the number 

of available satellites and adversely affecting signal 

reception. 

Integrity – Fault tolerance allows a position to have 

greater integrity, increasing accuracy. Several factors 

combine to provide fault tolerance, including:

– Receiver Autonomous Integrity Monitoring (RAIM) 

detects faulty GNSS satellites and removes them from 

the position calculation.

– Five or more visible satellites for only GPS or only 

GLONASS; six or more satellites for mixed scenarios.

– Satellite Based Augmentation Systems (WAAS, 

EGNOS, etc.) creates and transmit, along with DGPS 

corrections, data integrity information (for example, 

satellite health warnings).

– Current ephemerides and almanacs.

Specifications

Main Features*

•  GPS L1/L2/L5

•  GLONASS L1/L2/L3                              

•  QZSS L1/L2/L5/LEX

•  Galileo E1/E5A/E5B/E5/E6                                                      

•  BeiDou B1/B1-2/B5A/B2/B3                                         

•  SBAS L1/L5

•  IRNSS L5

•  Update rate 1Hz, 5Hz, 10Hz, 20Hz, 50Hz, 100Hz

•  RTK rate 1Hz, 5Hz, 10Hz, 20Hz, 50Hz, 100Hz

•  Real-time Data Input/Output JPS, RTCM SC104  

    v. 2.x and 3.x, CMR

•  Real-time Data Output NMEA 0183 v. 2.x and  

   3.0, BINEX, RINEX

•  RAIM

•  Data recording up to 16GB

•  IEEE 1588 protocol support

•  In-Band Interference Rejection

•  Multi-Base Code Differential Rover

•  Code Differential Base

•  Advanced Multipath Reduction

•  Event marker

•  1 PPS timing strobe

•  CAN port

•  External Reference Frequency Input/Output 

•  Up to 2 high-speed RS232/RS422 serial ports

•  2 USB Ports (Host and Device)

•  Ethernet

•  WiFi 5 GHz and 2.4 GHz

•  Bluetooth and Bluetooth LE

•  Internal 4G LTE Mini Card

•  Internal Radio Modem

•  External GNSS Antenna TNC Female connector

GNSS Receiver

•  Signals Tracked 

•  GPS C/A, L1C(P+D), P1, P2, L2C(L+M), L5(I+Q)

•  GLONASS C/A, P1, P2, L2C, L3(I+Q)

•  Gallileo E1(B+C), E5A(I+Q), E5B(I+Q), AltBoc, 

E6(B+C)

•  QZSS C/A, L1C(P+D), L2C(L+M), L5(I+Q), SAIF, LEX-

(P+D)

•  BeiDou B1, B1-2, B1C(P+D), B5A(I+Q), B2, B5B(I+Q), 

B3

•  SBAS L1, L5

•  IRNSS L5

•  Autonomous Accuracy (rms) 

<2 m

•  Static, Fast Static Accuracy (rms):

•  Horizontal: 0.3 cm + 0.1 ppm * base_line_length**

•  Vertical: 0.35 cm + 0.4 ppm * base_line_length

•  Kinematic Accuracy (rms):

•  Horizontal: 1 cm + 1 ppm * base_line_length

•  Vertical: 1.5 cm + 1 ppm * base_line_length

•  RTK (OTF) Accuracy (rms):

•  Horizontal: 1 cm + 1 ppm * base_line_length

•  Vertical: 1.5 cm + 1 ppm * base_line_length

•  DGPS Accuracy (rms) 

•  < 0.25 m (post-processing)

* For the full list of standard and optional features see www.javad.com
** For good observation conditions and proper length of observation session
 ***Li-Ion batteries are the temperature limiting factor

Содержание TRIUMPH-3

Страница 1: ...rved The information contained herein may not be used accessed copied stored displayed sold modified published or distributed or otherwise reproduced without express written consent from JAVAD GNSS TRIUMPH 3 GNSS Receiver User Manual Version 1 2 Last Revised November 12 2019 ...

Страница 2: ... JAVAD GNSS Inc 2018 www javad com ...

Страница 3: ...luetooth word mark is owned by the Bluetooth SIG Inc Product and company names mentioned herein may be trademarks of their respec tive owners DISCLAIMER OF WARRANTY EXCEPT FOR ANY WAR RANTIES IN THIS MANUAL OR A WARRANTY CARD AC COMPANYING THE PRODUCT THIS MANUAL AND THE TRIUMPH 3 RECEIVER ARE PROVIDED AS IS THERE ARENOOTHERWARRANTIES JAVADGNSSDISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY OR F...

Страница 4: ... JAVAD GNSS website or any other web site or in any other advertisements or JAVAD GNSS literature or made by an employee or independent contractor of JAVAD GNSS modifies these Terms and Conditions including the Software license warranty and limitation of liability SAFETY Improper use of TRIUMPH 3 can lead to injury to persons or property and or malfunction of the product The TRIUMPH 3 receiver sho...

Страница 5: ...sired op eration This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful in terference when the equipment is operated in a com mercial environment This equipment generates uses and can radiate ra dio frequency energy and if not installed and used i...

Страница 6: ...6 www javad com ...

Страница 7: ...tionality accuracy avail ability and integrity needed for fast and easy data collection When calculating an absolute position a stationary or moving receiver determines its three dimensional position with respect to the origin of an Earth Center Earth Fixed coordinate system To calculate this po sition the receiver measures the distance called pseudoranges between it and at least four satellites T...

Страница 8: ...S L1 L2 L5 LEX Galileo E1 E5A E5B E5 E6 BeiDou B1 B1 2 B5A B2 B3 SBAS L1 L5 IRNSS L5 Update rate 1Hz 5Hz 10Hz 20Hz 50Hz 100Hz RTK rate 1Hz 5Hz 10Hz 20Hz 50Hz 100Hz Real time Data Input Output JPS RTCM SC104 v 2 x and 3 x CMR Real time Data Output NMEA 0183 v 2 x and 3 0 BINEX RINEX RAIM Data recording up to 16GB IEEE 1588 protocol support In Band Interference Rejection Multi Base Code Differential...

Страница 9: ...www javad com 9 UNC 3 8 16 10 5 16 91 2 95 2 64 77 8 4 165 9 181 5 181 8 TRIUMPH 3 ...

Страница 10: ...ion Recording statuses Buttons On Off button Bluetooth On Off Wi Fi On Off Recording On Off Power management Battery Rechargeable Lightweight Li Ion bat tery 42 5 Wh nom Operation time 12 hours on one charge External Power Input 10 40 V DC Charging Power management notifies user when battery needs charging and protects battery from overcharging Turning On Off To turn ON the receiver press and hold...

Страница 11: ...otherwise subjected to damage or stress Do not operate equipment with a damaged cord or plug replace immediately To re duce the risk of damage to the equipment pull by the plug body rather than the output cord when discon necting the equipment Warning Do not operate the supply if it has received a sharp blow been dropped or otherwise damaged Do not disassem ble the supply Before connecting the ext...

Страница 12: ...ect the receiver to local network USB is used for high speed data transfer and communication between the receiver and an ex ternal device Attaching an external UHF GSM antenna Depending upon which options you chose when you purchased your TRIUMPH 3 the type of exter nal UHF antenna shown in this discussion may differ from yours but the procedure presented will remain the same When doing RTK survey...

Страница 13: ...e computer controller you will be able to configure the receiver and its components send commands to the receiver download files from the receiver s memory as well as upload new firm ware upload an OAF and upload configuration files to a receiver using NetView Establishing an USB connection Using the USB cable connect the USB port on the receiver to a USB port on the computer Press the power butto...

Страница 14: ...er as a Base station and the other receiver as a Rover Set up the Base receiver over a known point to begin collecting static observation data Set up the Rover receiver to begin collecting static or kine matic observation data Both Base and Rover receivers must be configured according to the desired survey method In applications where real time positioning results are required the Base receiver pr...

Страница 15: ... changed parameters and new configuration are saved Figure 4 Log Files tab Figure 5 TriPad tab 5 Open Positioning tab and set the Elevation mask to 15 degrees Figure 6 Elevation mask 6 To set up the base station open the Base tab and set the following parameters Antenna Phase Center Position APC enter latitude longitude and alti tude ellipsoidal height values of the antenna posi tion Do one of the...

Страница 16: ...s or the current stand alone position while waiting for new RTCM CMR messages coming from the base Confidence Level for Ambiguity list box governs the process of the RTK engine fixing integer ambi guities The RTK engine uses the ambiguity fix indi cator when making a decision whether to fix ambi guities or not Low Medium and High correspond to the indicator s 95 99 5 and 99 9 states respectively T...

Страница 17: ...lates the coordinates of the an tenna s phase center To determine the coordinates of the station marker the user must specify the follow ing Measured height of the antenna above the sta tion marker Method of measuring the antenna height Model of the antenna used Antennas have two types of measurements Vertical measured from the marker to the an tenna reference point ARP located on the bottom of th...

Страница 18: ...r baselines of 15 kilometers or greater use dual frequency receivers Dual frequency receivers have two major benefits First dual frequency receivers can estimate and re move almost all ionospheric effect from the code and carrier phase measurements providing much greater accuracy than single frequency receivers over long baselines or during ionospheric storms Secondly dual frequency receivers need...

Страница 19: ...on Data link quality in percentage Time in seconds elapsed since the last received message Total number of received correct messages depen dent on the message type received Total number of received corrupt messages de pendent on the message type received If the receiver is not for some reason receiving dif ferential corrections or if none of the ports has been configured to receive differential co...

Страница 20: ...red for satellite tracking such as almanac and ephemeris data and receiver position The NVRAM also keeps the current receiv er s settings such as active antenna input elevation masks and recording interval and information about the receiver s internal file system Even though clearing the NVRAM is not a common nor normally a recommended operation there are times when clearing the NVRAM can eliminat...

Страница 21: ...nel 4Actions4Initial param eters Clear the NVRAM If the problem persists see the following sections for other solutions Receiver Problems The following are some of the most commonly encountered receiver problems The receiver port used for connection is not in Command mode Connect your receiver and a computer using a free port and start NetView Change the Input for the port used for connec tion to ...

Страница 22: ...aler to replace the antenna The specified baud rate is incompatible with the baud rates the receiver supports The baud rate is the rate at which the receiver transmits differential messages to the receiver and vice versa Change the baud rate to that which your receiver supports The Base and Rover receivers use different radio link parameters Configure the Base and Rover radio receivers ac cording ...

Страница 23: ...www javad com 23 ...

Страница 24: ...900 Rock Avenue San Jose CA 95131 USA Phone 1 408 770 1770 Fax 1 408 770 1799 www javad com All rights reserved JAVAD GNSS Inc 2019 ...

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