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Parameter

Base

Rover

Input

-

The same correction type as 

Base has

Output

Select the correction type. -

Period (sec)

Set the period of 

correction output 

-

Baud rate

Baud rate for the corresponding receiver port

RTS/CTS

Enable

10. Open Advanced tab, and then Multipath Reduction 

subtab. Activate Code multipath reduction (mpnew) on 

base and rover for DGPS mode. 

For RTK mode activate Carrier multipath reduction 

(mpnew) as well (mpnew).

Figure 14.  Multipath Reduction

 11. Click Apply, to save the made changes and set-

tings into receiver’s memory and close the dialog win-

dow. The receiver configuration will be kept in the re

-

ceiver till you will change them or will  clear NVRAM. 

Note: 

For detailed description of settings and parameters see 

NetView Software Manual..

TriPad Configuration

The DELTA-3’s simple user interface (TriPad) con-

sists of two keys (Power and Record) and two LEDs 

that control and display the receiver’s operation. 

Note: 

Use NetView to configure TriPad settings. Refer to the 

NetView Software Manual for all possible MinPad configurations.

Connect the receiver and PC as described above. 

Start NetView. Establish connection with the receiver. 

Open 

TriPad 

tab. Set the following parameters and 

click 

Apply

:

• 

“File a, File b”

• 

“Function Key” 

• 

“Automatic File Rotation Mode (AFRM)” 

File a, File b

In the fields File a, File b can be specified current 

log-file name, message output period, etc. 

• Current log-file edit box allows the user to specify 

the prefix of the log file, which will be saved into 

receiver memory during survey.

• 

In the Output Epochs Counter box the number of 

outputted epochs is shown.

• 

In the Implicit Message Output Period edit box the 

output period for the implicit messages can be spec-

ified. This parameter specifies the interval of output

-

ting messages into the log-file when data logging is 

activated with the TriPad or through the AFRM.

• 

Elevation Mask for Measurements Output (the 

minimum elevation angle for the satellites whose 

data  will  be  put  in  the  receiver  files  logged  when 

pressing FN). 

• 

Satellites Number Mask for Position computation 

- Satellites with elevations lower than this mask will 

be excluded from position computation.

• File Name Prefix - this setting specifies what prefix 

will be added to the names of the receiver files creat

-

ed via MinPad, (i.e., by pressing FN). The prefix can 

be up to 20 characters long. Default is log.

• Enable Implicit Management of Specific - enables/

disables the management of Implicit Message Out-

put Period.

Function Key

Figure 15.  Funktion Key

• 

TriPad “FN” Button Action - This drop-down list 

box is used to program how the receiver will react to 

clicking FN (i.e., keeping the button depressed for 

less than one (1) second). In led blink mode switch 

mode, clicking FN will toggle between the MinPad’s 

standard and extended information modes. In occu-

pation mode switch you click FN to get the receiver 

to insert into the corresponding log file a message 

indicating that the occupation type has been changed 

from static to kinematic, or vice versa.

• 

Turn Data Recording on at Startup - enables/dis-

ables data recording on at startup, 

• Initial Dynamic Mode - specifies the starting oc

-

cupation type descriptor that will be inserted at the 

beginning of each receiver files logged via the Min

-

Pad. You select static and kinematic to specify that 

the corresponding log file will start with a static and 

kinematic occupation, respectively.

Summary of Contents for DELTA-3

Page 1: ...erved 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 DELTA 3 GNSS Receiver User Manual Version 1 0 Last Revised January 26 2015 ...

Page 2: ... power ports 7 Turning On Off 7 Power supply requirements 7 Powering the receiver 8 Cables 8 Option Authorization File OAF 8 Managing and Operating Receiver using NetView 8 Configuring Receiver 9 TriPad Configuration 12 Setup and survey 13 Receiver and File Maintenance 15 Managing Receiver Options 16 Clearing the NVRAM 16 Checking Firmware Version 16 Troubleshooting 17 Safety Warnings 19 Storage P...

Page 3: ... GNSS Windows is a registered trademark of Microsoft Cor poration Bluetooth word mark is owned by the Blue tooth SIG Inc Product and company names mentioned herein may be trademarks of their respective owners DISCLAIMER OF WARRANTY EXCEPT FOR ANYWARRANTIES IN THIS MANUALORAWAR RANTY CARD ACCOMPANYING THE PRODUCT THIS MANUAL AND THE DELTA 3 RECEIVER ARE PROVIDED AS IS THERE ARE NO OTHER WARRANTIES ...

Page 4: ...may seek a protective order or other appropriate remedy WEBSITE OTHER STATEMENTS No statement contained at the JAVAD GNSS website or any oth er website or in any other advertisements or JAVAD GNSS literature or made by an employee or indepen dent contractor of JAVAD GNSS modifies these Terms and Conditions including the Software license war ranty and limitation of liability SAFETY Improper use of ...

Page 5: ...tes of the Russian Federation the QZSS is a proposed three satellite regional time transfer system and Satellite Based Augmentation System for the Global Positioning System that would be receivable within Japan and the Beidou Compass Chinese Global Navigation Satellite System increas ing the number of satellites your receiver can detect thus improving the accuracy of your measuring points increasi...

Page 6: ... Two LEDs two function keys TriPad Memory and Recording Internal Memory Up to 16 GB of on board non removable memory for data storage Raw Data Recording Up to 100 times per second 100Hz Real Time Data Input Output JPS RTCM SC104 v 2 x and 3 x CMR Output NMEA 0183 v 2 x and 3 0 BINEX Environmental Enclosure Aluminum extrusion waterproof IP66 Operating Storage Temperature 40 C to 70 C 45 C to 85 C H...

Page 7: ...ceiver press and hold the power button for more than one and less than four seconds until both the SAT and the REC LEDs are off This delay about 1 second will prevent the receiver from being turned off by mis take DELTA 3 saves the last power status and restore it after voltage loss Power supply requirements The socket outlet shall be installed near the equip ment and shall be easily accessible A ...

Page 8: ... DELTA 3 receivers ship with a tem porary OAF that allows the receiver to be used for a predetermined period of time When the receiver is purchased a new OAF activates desired purchased op tions permanently Receiver options remain intact when clearing the NVRAM or resetting the receiver Managing and Operating Receiver using NetView This software is available on the JAVAD GNSS web site If downloadi...

Page 9: ...ts current location to accu rately calculate one or more points Rovers are mobile GNSS receivers on a survey pole or bipod that com pares the information from the Base station to the data it logs from satellites and applies correction algorithms to accurately calculate a new point In applications intended for post processing the re ceivers typically log code phase and or carrier phase measurements...

Page 10: ... ID such as the last 3 digits of receiver s serial number By deafault the prefix is log FN key mode starts stops the data recording when FN button is used Select LED blink mode switch for Static data Select Occupation mode switch for RTK Initial dynamic mode Select Dynamic for trajectory survey ClickApply every time after the parameter was changed otherwise the receiver won t save the changes Clic...

Page 11: ...n computing the rover s current RTK position If Delay is selected the rover will not extrapolate the base station s carrier phase measurements to com pute the current rover position Instead the RTK en gine will compute either a delayed RTK position for the epoch to which the newly received RTCM CMR message corresponds or the current stand alone po sition while waiting for new RTCM CMR messag es co...

Page 12: ...hs is shown In the Implicit Message Output Period edit box the output period for the implicit messages can be spec ified This parameter specifies the interval of output ting messages into the log file when data logging is activated with the TriPad or through the AFRM Elevation Mask for Measurements Output the minimum elevation angle for the satellites whose data will be put in the receiver files l...

Page 13: ...in which the elevation of the points is important and in surveys for horizontal location only Horizontal surveys are of ten larger in area than can reliably fit on a flat plane therefore the antenna adjustment must be done in three dimensions and then projected onto a two dimensional plane The receiver calculates the coordinates of the anten na s phase center To determine the coordinates of the st...

Page 14: ...equency receivers Dual frequency receivers have two major benefits First dual frequency receivers can estimate and remove 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 far less observation time to reach the de sired acc...

Page 15: ...n percentage Time in seconds elapsed since the last re ceived message Total number of received correct messages de pendent 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 receiv ing differential corrections or if none of the ports has been configured to receive differential correc tions the LQ fie...

Page 16: ...on The NVRAM also keeps the current receiver s set tings 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 com mon nor normally a recommended operation there are times when clearing the NVRAM can eliminate communication or tracking problems Clearing the NVRAM in your receiver can be ...

Page 17: ...Reset Restore default settings using NetView Receiver name on the left panel 4Actions4Initial parameters Clear the NVRAM If the problem persists see the following sections for other solutions Receiver Problems The following are some of the most commonly en countered receiver problems Cable specific problems The cable is not properly plugged in Check that the cable connector is attached to the cor ...

Page 18: ...ting and or receiving antenna may be improperly connected Check that the radio modem s antenna is securely and properly connected to the antenna connector Check that the radio modem s antenna is undamaged If damaged contact your JAVAD GNSS dealer to re place 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...

Page 19: ... 40 to 85 C and no exposure to direct sunlight Use a clean cloth moistened with a neutral detergent or water to clean the receiver Never use an abrasive cleaner ether thinner benzene or other solvents Always make sure the instrument is completely dry before storing Dry the receiver with a soft clean cloth General Warnings JAVAD GNSS receivers are designed for measuring and measuring related uses t...

Page 20: ...ted without care erroneous measurements may oc cur Do not connect or disconnect equipment with wet hands you are at risk of electric shock if you do The owner should periodically test this product to en sure it provides accurate measurements Inform JAVAD GNSS immediately if this product does not function properly Only allow authorized JAVAD GNSS warranty ser vice centers to service or repair this ...

Page 21: ...www javad com 21 ...

Page 22: ...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 2015 ...

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