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1 2 3 4 | User Manual | Users Manual | 5.62 MiB |
K5 UFO KOLIDA K5 UFO Positioning System User Manual
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K5 UFO Contents Contents..................................................................................................................................... - 2 -
Chapter Preface .................................................................................................................... - 4 -
1.1 Introduction ............................................................................................................... - 4 -
1.2 Applications ............................................................................................................... - 4 -
1.3 Main Features ............................................................................................................ - 5 -
Chapter Hardware Component ............................................................................................. - 8 -
2.1 Front Components ..................................................................................................... - 8 -
2.2 Rear Components ...................................................................................................... - 9 -
2.3 Bottom Components .................................................................................................. - 9 -
Chapter Hardware Operation .............................................................................................. - 11 -
3.1 Power on/off ............................................................................................................ - 11 -
3.2 Check working mode............................................................................................... - 11 -
3.3 Work mode and data link selection .......................................................................... - 12 -
3.4 USB and WIFI mode selection ................................................................................ - 14 -
3.5 Self-check..................................................................................................................-14 -
3.6 Factory reset ............................................................................................................ - 15 -
Chapter Web UI Management ............................................................................................ - 16 -
4.1 Overview ................................................................................................................. - 16 -
4.2 Access by WiFi ........................................................................................................ - 16 -
4.3 Access by USB ........................................................................................................ - 17 -
4.4 Web UI main interface ............................................................................................. - 22 -
4.4.1 Status ............................................................................................................ - 23 -
4.4.2 Configuration................................................................................................ - 24 -
4.4.3 Satellite Information ..................................................................................... - 33 -
4.4.4 Data Record .................................................................................................. - 36 -
4.4.5 Data Transfer ................................................................................................ - 37 -
4.4.6 Network Config ............................................................................................ - 45 -
4.4.7 Radio Config ................................................................................................ - 51 -
4.4.8 Firmware Update .......................................................................................... - 52 -
4.4.9 Track Manage ............................................................................................... - 55 -
4.4.10 Coordinate System(reserve) ....................................................................... - 57 -
4.4.11 Online Service(reserve) .............................................................................. - 58 -
4.4.12 User Management ....................................................................................... - 59 -
4.4.13 Help ............................................................................................................ - 59 -
Chapter Data Collector X11 ............................................................................................... - 60 -
5.1 Basic introduction to the handheld .......................................................................... - 60 -
5.2 Bluetooth Connection .............................................................................................. - 62 -
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K5 UFO 5.3 Software installation and connecting....................................................................... - 64 -
Chapter External Radio ...................................................................................................... - 66 -
6.1 Overview ................................................................................................................. - 66 -
6.2 Frequency Table ...................................................................................................... - 67 -
6.3 Radio Appearance.................................................................................................... - 67 -
6.4 Radio Interfaces ....................................................................................................... - 68 -
6.5 Transmitting Antenna .............................................................................................. - 69 -
6.6 Application Notice ................................................................................................... - 69 -
Chapter Accessories ........................................................................................................... - 70 -
7.1 Instrument Case ....................................................................................................... - 70 -
7.2 Batteries ................................................................................................................... - 70 -
7.3 Charger&Adapter .................................................................................................... - 71 -
7.3.1 Charger ......................................................................................................... - 71 -
7.3.2 Adapter ......................................................................................................... - 71 -
7.4 External power tool ................................................................................................. - 72 -
7.5 Differential Antennas............................................................................................... - 73 -
7.6 Cables ...................................................................................................................... - 73 -
7.7 Other Accessories .................................................................................................... - 74 -
Chapter Measuring Operation ............................................................................................ - 76 -
8.1 Static Operation ....................................................................................................... - 76 -
8.1.1 Static Measurements Profile ......................................................................... - 76 -
8.1.2 Operating Procedures ................................................................................... - 77 -
8.1.3 Field Operation Notes................................................................................... - 77 -
8.1.4 GPS Net Design ............................................................................................ - 78 -
8.1.5 Antenna Height Measurement ...................................................................... - 79 -
8.2 RTK measurement ................................................................................................... - 81 -
8.2.1 By using radio (Internal radio) ..................................................................... - 81 -
8.2.2 By using radio (external radio) ..................................................................... - 91 -
8.2.3 By using internet (Network) ......................................................................... - 94 -
8.2.4 By using internet (WIFI) .............................................................................. - 98 -
Chapter Hardware Registration ........................................................................................ - 101 -
Chapter Firmware Update ................................................................................................ - 102 -
Appendix A K5 UFO technical specifications ....................................................................... - 104 -
Appendix B Hx-U202 radio technical specifications ............................................................ - 107 -
Appendix C Technical Terms ................................................................................................ - 109 -
FCC Statement .......................................................................................................................- 111 -
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K5 UFO Chapter Preface Read this chapter, you will have a brief knowledge of KOLIDA Company and K5 UFO measurement system. 1.1 Introduction Welcome to KOLIDA Surveying Instruments Co., Ltd, which is Chinas leading manufacturer of surveying equipment including GNSS receivers and Total Stations. To know more about KOLIDA, please visit our official website http://www.kolidainstrument.com/
This manual takes K5 UFO positioning system for example, to explain how to install, set up and uses the RTK system as well as the use of the accessories. We recommend that you read these instructions carefully before using the instrument. 1.2 Applications Control Survey: dual-band (dual-frequency) system static measurements can accurately complete the high-precision deformation observation, photo-control point measurement. Highway Survey: quickly complete the encryption of the control points, road topographic mapping, cross-section measurement, profile measurement with EGStar. CORS Application: provide more stable and convenient data link for field operations. It is seamlessly compatible with all types of domestic CORS applications. Data acquisition measurement: perfect match KOLIDA various measurement software to do quick and easy data acquisition. Stakeout shot: large-scale point, line, plane lofting. Electric Power Measurement: power line measurement orientation, ranging, angle calculation. Marine application: oceanographic research, dredging, piling, inserted row, making the marine operations more convenient and easy.
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K5 UFO 1.3 Main Features Intelligent Platform New generation of embedded Linux operating system platform improves RTK performance and work efficiency. Its operating efficiency is higher; a unique core processing mechanism which can respond to more than one command at one time; it starts faster and more responsive in real time. While the stability of system is much higher, it can be adapt to the job of longer uninterrupted power. Internal Web UI management Embedded Web UI management platform supports WIFI and USB mode connection. Users can monitor the receiver status and configure it via the internal Web UI management platform. Bluetooth K5 UFO is equipped with dual-mode Bluetooth v4.0 standard which is able to connect the other smart devices and compatible with Bluetooth v2.1 standard. It not only enlarges the work range but also makes the data communication become more stable. WiFi As the new feature and technology adopted on K5 UFO, it not only can be used as data link to access to internet, but also can be as a hotspot which can be accessed by any other smart devices to configure the receiver. Advanced InBuilt UHF module K5 UFO adopts new and excellent datalink system, which is compatible with current radio protocols in the market, and realizes the random switching of the radio range 460.125~467.625MHz and the power level as well. Upgraded network module Standard 4G module is integrated which supports WCDMA
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K5 UFO network and downward compatible with 3G GPRS/EDGE. Also supports all kinds of network types to access CORS seamlessly. Dual battery hot swappable The new K5 UFO has two battery slots, which makes the working hours double than the previous mode. And the batteries are hot swappable. Speed Dial Smart PPP dialing technology can auto dial which makes the K5 UFO keeping online continuously during the survey. Intelligent Interaction Support to access the internal web UI manage page of receiver with WiFi and USB connection, monitor host state real-time, configure receiver freely. Smart Voice Guide The customizable iVoice technology is allowed to customize your local language. Multi-lingual and clear-tone messages enable users to understand the critical information and status of receiver such as network connection, solution status, working mode and more, which definitely helps to improve work efficiency by being acknowledged. Full Constellations Tracking Equipped with most advanced GNSS boards, K5 UFO can track most signal from all kinds of running satellite constellation, especially support B1,B2 and B3 signal from BeiDou, also get position result with only BeiDou signal. Huge capacity power support An useful external power package is supported which can load 4 standard batteries and provide up to 28 hours of power. It also can display the remaining power in real time.
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K5 UFO Intelligent Storage The raw data including STH, Rinex2.01 and Rinex3.02 not only can be saved in the internal memory (8G SSD), but also can be stored into an external USB device (OTG). The configurable sample frequency is really up to 50Hz. Amazing Housing K5 UFO, with and innovative design, is built with magnesium alloy materials. And the top edge is design to decrease harm for receiver in case of falling down onto ground. NFC Function The internal NFC module can make the complicated Bluetooth communication more easy and simple. Cloud Service The function enable realize online upgrade and register, remote diagnosis in real-time
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K5 UFO Chapter Hardware Component Reading this chapter, you can grasp the components, installation and the function of K5 UFO positioning system 2.1 Front Components Ref Component Description GNSS Antenna Grasps satellites signals Function Button Switch the working mode, data link and USB mode Power Button Power on/off receiver, mode switching button Satellites Indicator Flashes in red to indicate that the satellites are tracking Data Indicator UHF mode: Flashes in red to indicate that the signal is receiving/transmitting with the interval Network mode: 1) Rapidly flashes in red to indicate that the receiver is dialing; 2) Flashes in red with the signal receiving/transmitting interval when successful dial WiFi mode: 1) Rapidly flashes in red to indicate that the receiver is establishing WiFi connection; 2) Flashes in red with the signal receiving/transmitting interval when successful connection Bluetooth Indicator Glows in red to indicate that Bluetooth connection has WIFI Indicator It will show the receivers wifi status established between controller and receiver Power Indicator It will show the receivers power status
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K5 UFO 2.2 Rear Components Ref Component Description NFC label The place of NFC paired where we can stick controller to SN label Apply for a registration code, Bluetooth ID 2.3 Bottom Components
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K5 UFO Component Description Dual battery slot 1 Put battery and insert SIM card SIM card slot Dual battery slot 2 Put battery Antenna port Install UHF antenna and Network antenna Speaker Mode setting and working status prompt Screw hole Fix the mainframe to the tribrach or the pole 7-pin port USB port, OTG interface and Ethernet port 5-pin port 1), As a power port connected with an external power supply device; 2), as a differential transmission port connected with an external radio; 3), as a serial port to check data output and debug Ref
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K5 UFO Chapter Hardware Operation 3.1 Power on/off Power on Press the power button for once, all the indicators glow in red, after few seconds (around 10 seconds), the instrument completes initializing along with voice prompt about the working mode
(for example, Rover, internal radio mode). After a while, instrument starts to track satellites. Power off Press the power button and hold for a while, after 3 beeps and the Power off voice prompt at the third beeping, release power button, the instrument will switch off. 3.2 Check working mode Press the power button for once in the state of power-on, the instrument will prompt with voice message about current working mode (for example, Rover, internal radio mode).
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K5 UFO 3.3 Work mode and data link selection Work mode Press F key once, the bluetooth, data and satellites indicators will blink together, and K5 UFO will say start to set work mode, at this moment, press power key once to confirm, and then press F key one by one, K5 UFO will say base mode, rover mode and static mode one by one, when you hear the working mode you need, press power key to confirm. Data link After confirming the work mode, for example, we set the K5 UFO into base mode previously. Press F key once, the bluetooth, data and satellites indicators will blink together, and K5 UFO will say start to set work mode, at this moment, press F key once again, K5 UFO will say select data link, and then press power key once to confirm, and then press F key one by one, K5 UFO will say base internal radio mode, base gprs mode, base external mode and base wifi mode one by one, when you hear the data link you need, press power key to confirm.
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K5 UFO After that, press the power button for once to make sure if the working mode is correctly setup. 3.4 USB and WIFI mode selection USB mode Press F key once, the bluetooth, data and satellites indicators will blink together, and K5 UFO will say start to set work mode, at this moment, press F key one bye one until K5 UFO says start to set USB mode, and then press power key once to confirm, and then press F key one by one, K5 UFO will say USB disk, USB network port mode one by one, when you hear the USB mode you need, press power key to confirm. USB disk is used to connect K5 UFOs internal memory; USB network port mode is used to connect to K5 UFOs WEB UI by cable connection WIFI mode Press F key once, the bluetooth, data and satellites indicators will blink together, and K5 UFO will say start to set work mode, at this moment, press F key one bye one until K5 UFO says set WIFI working mode, and then press power key once to confirm, and then press F key one by one, K5 UFO will say Access point mode, Client mode one by one, when you hear the
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K5 UFO WIFI mode you need, press power key to confirm. Access point mode is for K5 UFO to allow other devices to connect K5 UFOs WEB UI by WIFI connection; Client mode is for K5 UFO to connect other WIFI hot spot so that itll have access to the internet. 3.5 Self-check Self-check is an useful operation to simply check the main hardware components if the instrument is abnormal or not working properly. Press and hold the power button for about 10 seconds and pass over the state of power off and mode selection (do not release the button even the instrument says power off and start to set work mode), then K5 UFO will say start to self-check, at this moment, release power button, the instrument will perform self-check automatically for the modules one by one. The sequence of modules checking is:
OEM board checking Network module checking (Network module checking) UHF module checking Sensors checking WiFi module checking Bluetooth module checking If all the modules are normal during self-check, the instrument will get into the state of power-on.
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K5 UFO 3.6 Factory reset Press and hold the power button for about 20 seconds and pass over the foregoing states (power off, self-check), K5 UFO will get into factory reset progress with voice message saying start to restore factory default, at this moment, release power button, the instrument will perform factory reset automatically. After this progress complete, the instrument will restart automatically with the factory default settings.
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K5 UFO Chapter Web UI Management 4.1 Overview Because of using the smart embedded Linux operating system and KOLIDA intelligent cloud technology, the web UI allows users to configure and monitor the status of K5 UFO in real-time. The accessing way is not only by WiFi connection, but also can be USB mode. 4.2 Access by WiFi The WIFI hotspot is default broadcasted by K5 UFO, search the WIFI hotspot which named with KOLIDA_xxxx using smartphone, tablet or laptop, then establish the WIFI connection, input the default IP (10.1.1.1) into broswer, on the login interface, apply admin for the username and password. For example, search the WIFI hotspot broadcasted by a K5 UFO receiver using a laptop PC, choose the WIFI hotspot and click on connect button to establish the connection without password.
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K5 UFO Run IE broswer on computer and input the default IP (10.1.1.1) into address bar, after a while, the system login interface is refreshed, then apply admin for username and password to login. IP Address: 10.1.1.1 Username: admin Password: admin 4.3 Access by USB On this mode, the USB port (7-pin) of K5 UFO must work as an Ethernet port, then internal web UI shall be accessed via USB cable connection with computer. First of all, a corresponding driver is required to install to the computer, then this function could be activated. Due to different operating system is installed on computer, the drivers should be applied to a suitable one. The file bugvista64.inf is applied to 64bit operating system, and linux.inf is for 32bit operating system. Make sure that the USB port (7-pin) is switched into USB network port (please refer to section 3.5, USB mode setting).
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K5 UFO Choose the folder which contains the drivers
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K5 UFO NOTE: The driver can be downloaded from official website automatically or please contact with us for more supports. If the driver has been successfully installed, the USB port of K5 UFO will be recognized as Linux USB Ethernet/RNDIS Gadget, and a local area connection will generate in Network Connections on the computer. For example, Local Area Connection 138 generates after connecting K5 UFO receiver to computer via USB Ethernet port. However, sometimes the computer cannot detect the receiver by USB Ethernet port because there is something wrong with acquiring IP automatically, therefore, we need to do something to avoid such problem, that is to set a fixed LAN IP for the connection:
Right click on the local area connection which newly generates, choose properties to call out the local area connection properties window.
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K5 UFO Then double click on Internet Protocol Version 4 (TCP/IPv4) option or click on properties button to call out Internet Protocol Version 4 (TCP/IPv4) properties window, set the fixed LAN IP address as shown in following, then click OK button and confirm the settings, return to the IE browser and use the IP address 192.168.155.155 to access the internal web UI. Run IE broswer on computer and input the default IP (192.168.155.155) into address bar, after a while, the system login interface is refreshed, then apply admin for username and password to login.
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K5 UFO IP Address: 192.168.155.155 Username: admin Password: admin Remote Login If users would like to remote login the web UI of K5 UFO, then K5 UFO has to connect to the internet and forward its 80 port to the public network. For example, if the IP address 222.196.35.76 is the public network IP which K5 UFO has connected, and the 80 port of K5 UFO has been bounded with 8000 in public network, then users can input the public network IP address into IE explorer along with the forwarding port for login. (http:// 222.196.35.76:8000) NOTE: The IE explorer is recommended to use for the Web UI login.
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K5 UFO 4.4 Web UI main interface After login the Web UI management of K5 UFO by WIFI or USB connection, the main interface appears with displaying configuration items and positioning. As shown at following figures. In the Web UI home page, the configuration items are listed at left side. And the positioning informaiton including coordinates information and satellites are diplayed at right side. Ref Component Description Status Positioning information, satellite tracking and the others will be displayed in this page Configuration It contains registration for receiver, base configuration, antenna configuration, satellite configuration, receiver configuration and system configuration. Satellite Information Display and control the satellites are used or not Data Record Configure the parameters for static mode and raw data download Data Transfer Contains NTRIP configuration, TCP/IP configuration and data transferring with PC Network Config Contains network parameters configuration, WIFI configuration and the other functions Radio Config Configure the parameters and frequency for radio modem
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K5 UFO Firmware Update It is used to upgrade the firmware for receiver and each modem Track Manage Record track file while doing measurement Coordinate System Setup a local coordinate system for K5 UFO Online Service Upload data onto a server in real-time User Management Add and manage the Web UI users Help Offers solutions 4.4.1 Status System Information, Work Status and Position Information are listed under Status menu. System Information In this page, all the information of K5 UFO is diplayed such as serial number, hardware ID, MAC address, firmware version and so on. Work Status The physical state of K5 UFO such as working mode, datalink, host temperature, remaining power and the free memory is obtained from this page
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K5 UFO Position Information In this page, users can be clear at a glance on current position information and satellite information 4.4.2 Configuration General Config, Base Setup, Antenna Setup, Satellite Tracking, Receiver Operate and Default Language are contained under Configuration menu. Users are able to configure all kinds of parameters for K5 UFO under Configuration menu, and all the settings are immediate effect
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K5 UFO after saving. General Config The registration for receiver working mode setting can be completed in this general configuration page. If the code of K5 UFOhas expired or is going to be run out, please provide the serial number of your K5 UFO for us to apply for another available code, then input the code into the blank or register the receiver online. K5 UFO allows users to setup the working mode and datalink from this Web UI that only need the mobile phone or tablet PC is able to connect the wifi hotspot of K5 UFO.
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K5 UFO Work Mode: There are Rover, Base and Static contained in this dropdown list Datalink: Pull down the list, there will be all kinds of options for datalink, such as radio, Network, External, Bluetooth, WIFI and CSD. Radio Route: This feature is used to transfer the correction which from the reference station to the other rover by radio, the rovers will have the same reference coordindates. This is in the case of working in some places where there is poor signals from reference station or there is only a SIM card for a few rovers. It is able to use internal radio or connect an external radio to transfer the correction. This feature is only available on Rover mode.
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K5 UFO GPRS Rover UHF Rover Operation:
1, choose Inner Radio Route and click Enter button to confirm the settings. 2, go to Radio Config page, check the channel, communication protocol and the frequency point of each channel. 3, configure the datalink of the other rovers into internal UHF mode, then make sure the channel,
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K5 UFO protocol and frequency point are same as Route rover. RadioTransfer: This is the function that K5 UFO is able to transfer the correction from Base station to the other rovers with the internal UHF, definitely, K5 UFO can work as a radio repeater.
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K5 UFO UHF UHF Rover Rover UHF Operation:
1, check the box of RadioTransfer on General Config dialog for Base station. 2, open the same function for Rover in critical status (when the Rover is close to working distance of Base internal UHF). 3, configure the datalink of the other rovers into internal UHF mode, then make sure the channel,
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K5 UFO protocol and frequency point are same as Repeater rover. Note: please take in mind that the Repeater rover should keep away from Base station to avoid signal interference. RTK Record: This is used to enable raw data recording in base mode or rover mode for post-processing 1 PPS: This option is for the 1 pulse per second output EVENT: This option is for the EVENT marker input EVENT Polarity: EVENT input method. Base Setup When K5 UFO works as a base, the basic configuration for base can be setup in this page. Users can input the correct coordinates or capture a current position for the base. Also users can define what kind of correction format is transmitted. CMR ID/RTCM2.X ID/RTCM3.X ID: Users can specify the ID for transmitting correction. Position: Click this button to capture the coordinates for current position
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K5 UFO Spare: This is used to the repeat station Base Start Mode: Here contains 3 methods to start the Base, manually start base, automatically start base by fixed point, automatically start base by current point. Correction: Here contains the global general used correction formats including RTD,RTCM23, RTCM30, RTCM32, CMR and SCMRx POP Value: This value is setup for the PDOP limitation. Status: Here will display the status for base in real-time. Antenna Setup The antenna parameters are configured in this page including the antenna height, measuring method. Antenna Height: This is the value for height of antenna while surveying. Measuring Method: Here provides several methods for measuring the antenna height such as carrier phase center, slant height, antenna edge, height plate and to the bottom. Satellite Tracking In this page, users can define the mask angle for satellite tracking, and check on the box of corresponding band from the constellation that to use this band or not
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K5 UFO Receiver Operate The page provides all kinds of operations to control the receiver such as self-check operation, clean epochs, factory reset, reboot and power off. Self-check: Users can also do the self-check from this configuration page, click on the Check all button to check all the modems or click on the check button corresponding to the modem to check one by one. Clean EPH: Click this button to clear the remaining epochs to let recever track the satellites better. Factory Default: Click this button to bring the receiver back to factory default setting. Reboot: Click this button to restart the receiver.
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K5 UFO Power Off: Click this button to power off the receiver. System Setup This page is used to control Voice prompt, volume of voice, power saving, USB mode and the default language for receiver. Voice Prompt: Check on this box to turn on the voice guide for K5 UFO, uncheck it to turn off the voice guid. Voice Volume: Define the voice volume for K5 UFOs speaker. Power: Configure the receiver to use the power saving mode or not. USB: This is used to configure K5 UFO what kind of USB mode output from 7-pin port when connect the receiver with computer via USB cable. USB and network port for optional. Default Language: Configure the default language for K5 UFO which associates with voice guid. Note: This is not the language setup for web UI, the Web UI only supports Chinese and English. TimeZone(h): Use this to setup the corresponding time zone for your country or area. 4.4.3 Satellite Information The Satellite Information provides all kinds of tables, graph and the skyplot to view the information of tracking satellites. And it is allowed to configure to use which satellite in constellation on/off page by checking on the corresponding box. Tacking Table Here is the table to list all current used satellites and the other information for these satellites.
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K5 UFO Tracking Chart In this page, the histogram will indicate the signals from those used satellites, and allow to check each constellation separately. Skyplot In this page, all the tracking satellires are shown on the skypolt, this let users intuitively view and know where the current position of satellite is.
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K5 UFO GPS on/off For all the running GNSS constellations or the augmentation system, K5 UFO allows to configure to use which satellite or not. In gnss on/off page, all the running satellites are listed, and unselect the box corresponding to the satellite to not use it.
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K5 UFO 4.4.4 Data Record The Data Record performance is mainly used to configure all the parameters for receiver in static mode. Much more operations can be done on K5 UFO such as storage path, interval, data format and data files download. Recording Config The page provides more practical operations for raw data storage. Storage Option: Here are the options to be selected for where the raw data will be stored, internal memory or external memory. Interval: This is the sampling interval for data storage, 50Hz(0.02s) sampling interval now is available for K5 UFO. File Interval: This is used to define the data storage time for the static file. Data Format: Here are 3 options to select for K5 UFO to store what kind of format data, STH, Rinex2.0 and Rinex3.0. Point Name: A point name is required, the last 4 digits of SN is default setting for the point name. Auto Delete: This is used to configure K5 UFO to delete the previous data files automatically if the memory is full. Format: Click this button to format the internal memory for K5 UFO. Recording Mode: Here are 2 options to configure K5 UFO to record raw data automatically or not if it achieves the sampling conditions. Start/Stop: Click these buttons to start recording or strop recording the raw data. Recording Status: Here shows the status of static data storage.
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K5 UFO Data Download This page provides the data files to download Choose the storage where the static data recorded, and file type, then click on the blank of Select Date to choose what date the data was recorded and click Get Data button, all the files recorded in the date you choose will show in the table, tap download button to download the data files. 4.4.5 Data Transfer This performance contains General, Serial Port Config, TCP/IP Config, NTRIP Config and Data Flow Config. The Data Transfer allows to configure the output mode for raw observation data and differential data, as well as to the NTRIP performance configuration. General This page shows the service condition and the output contents of the ports, if the port item display in green, that means the port is being used, and the port is not used while the item display in red.
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K5 UFO Serial port Config This page is allowed to configure the baud rate, odd-even check and the data flow for serial port
(5-pin port) and Bluetooth. CAUTION: do not change the default value in this page for each item, if you want to change the settings, please contact with KOLIDA technician for further support. In the dropdown list of data flow, there shows 4 items for selection. Raw observation data: This is the raw observation data straight from OEM board. Correction Data: This is the correction data straight from OEM board. Navigation Data: This is the navigation data output from receiver such as NMEA-0183, GSV, AVR, RMC and so on. It is configured in Data Flow Config page. SIC Observation Data: This is the user-defined format observation data from KOLIDA. OpenSIC Observation Data: This is the open version of KOLIDA user-defined format observation data for secondary development.
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K5 UFO TCP/IP Config This is used to configured the raw data or navigation data to be uploaded or transferred to a server. And there are Caster and Server working mode for this performance. Caster: If this working mode is selected, K5 UFO will be a client to upload the data to a specify server if it connects to the internet by WIFI or Network connection with SIM card inserted. Input the specified IP and port for server, and the data format what is uploaded. Then users are able to see the uploaded data on server. Server: K5 UFO will upload the data onto internet by the static WIFI if server is selected, then users are able to obtain its dynamic data by accessing to K5 UFO through the IP from receiver. NTRIP Config This is used to configure the NTRIP performance while receiver is going to connect to internet. K5 UFO supports complete NTRIP performance including NTRIP Client, NTRIP Server and NTRIP Caster.
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K5 UFO NtripClient This is the general used function for rover set in network mode. At the field of NtripClient, the specify IP address, access port of reference station, as well as the assigned username and password shall be input for the NTRIP connection.
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K5 UFO Status: This field will display the status of NTRIP connection, connect or disconnect. Active: Check on this circle to activate this function. Authentication Mode: This includes Eagle Mode, TCP/IP Mode and LARK Mode. Eagle Mode is KOLIDA standard mode, usually, this mode is used on the case of both Base and Rover are using network mode. TCP/IP Mode is for private network use. LARK Mode, which is a new technology on network use, it is similar to GSM dial. This mode no longer rely on a CORS server that the corrections are transmitted by GPRS network. Besides, it is different from the feature of Caster. GPRS GPRS GPRS The other fields are the standard configuration for NTRIP connection, IP, port, username and password, after this information is input into the corresponding field, click on Get Point button to download the source table from server, then choose a proper mountpoint to access. NtripServer This configuration is used in Base+network mode that Base station will transfer its correction onto the server as long as it connects to internet, then Rover can download the bases correction from server for use. Or use the LARK mode. Ntrip Version: This field provides NTRIPv1.0 and NTRIPv2.0 for optional. Access Point: This field is allowed to user-defined the correction format which base will transfer to the server, such as HHHH_RTCM30
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K5 UFO Operation on LARK a) Setup the Base station on a known position or an unknown position. b) c) Insert SIM cards into both Base and Rover receiver Input the correct APN and the assigned username and password on Network Config page, then make sure both of them have connected to internet. d) Check the box of LARK for both Base and Rover, then we can notice that after checking LARK for Base, all the fields turn into grey and unable to input anything, and there is only
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K5 UFO Mountpoint field available for Rover. e) The key step is that input the Serial Number of Base into Mountpoint field, then click Enter button to confirm all the settings.
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K5 UFO NtripCaster This feature is finally realized on K5 UFO, the receiver is equivalent to a CORS system that it generates and broadcasts the user-defined correction for rover if K5 UFO connects a static IP address. Port: This is the specify port for the access. Access Point: This is mountpoint which can be user-defined. Data Flow Config In this page, users can optionally to configure the content and the update rate of data flow that to output or not to output what kind of data format. Click on the dropdown list for each data format to define the update rate
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K5 UFO 4.4.6 Network Config The Network Config is able to configure the ways and the contents for internet access of K5 UFO. GSM/GPRS Config, CSD Config, WIFI Config, Bluetooth Config, Port Forwarding, Router and Network Testing are under the list of Network Config. GSM/GPRS Config In this page, all the information of receiver under network mode will be displayed including the hardware information and dialing status. Status: The dialing status and hardware information are displayed in this field that users can intuitively to view the signal of network, module model and the IMEI number of the module. Parameter Config: The parameters of SIM card are input in this field including APN, assigned username and password, dial mode. MSM Config On this configuration dialog, input a phone number into the blank, K5 UFO will send text message onto the phone which number is written.
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K5 UFO CSD Config CSD is the meaning of direct dial between Base and Rover with SIM card inserted (the CSD function should be activated on local SIM card), this function is mainly used in the area where there is very poor internet signal coverage. Status: This field displays the dialing status when CSD is used on K5 UFO. Parameter Config: To enable the CSD function with checking the box of Enable option in this field, then input the phone number for Rover and Base in CallNumber and LocalNumber. Tips: please choose CSD as datalink for receiver in General Config.
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K5 UFO WIFI Config This is mainly used on the WIFI configuration for K5 UFO, there are AP mode and Client mode for optional. AP:
This is used to enable the WIFI hotspot for K5 UFO to broadcast for mobile terminals such as smartphone or tablet to connect and access the Web UI. Check the box of AP in Work Mode to enable the WIFI hotspot for K5 UFO, and define the SSID, password, encryption method and broadcasting channel for WIFI connection. DHCP IP Range: This is allowed to user-defined the IP for Web UI login.
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K5 UFO Client:
This option enables K5 UFO to search and connect the other WIFI hotspot which connects to the internet, the receiver is able to download and use the mountpoint from reference station. Client_SSID: This is the WIFI hotspot which K5 UFO is going to connect Scan: Click this button to search the surrounding available WIFI hotspot. Password: This is the password which the WIFI hotspot requires. IP fields: If K5 UFO successfully connects to the WIFI, there will be an LAN IP address generated by K5 UFO. ClearSSID: Click this button to clear the SSID list. Bluetooth Config In this page, users can view the information and connection status of Bluetooth, such the MAC of Bluetooth, discoverable or not, the PIN code, and the connection devices in following table.
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K5 UFO Port Forwarding This page is mainly used to view and configure the internet transmission port for K5 UFO, customize and debug receiver. NOTE: Usually we will keep the default setting in this page, if you would like to modify it, please contact with KOLIDA technician for more supports. Router This is mainly used to view and configure the parameters for router, only under the condition of customize and debug receiver.
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K5 UFO NOTE: Usually we will keep the default setting in this page, if you would like to modify it, please contact with KOLIDA technician for more supports. Network Testing This function is mainly used to test network status for K5 UFO after logging on the internet. How to do:
Input the IP address which K5 UFO already connected, then click PING button, the testing information will be displayed in the following window.
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K5 UFO 4.4.7 Radio Config As the name implies, the parameters of radio can be done in Radio Config, it is divided into Radio Parameter and Radio Frequency. Radio Parameter This page is mainly used to configure the parameters for internal radio module of K5 UFO. Air Baud Rate: This represents the data transmission rate in the air of internal radio, the higher value, the bigger of data size transmitted per second, usually keep the default setting. Data Baud Rate: This represents the rate of data transmission port of internal radio, this rate should be the same in both Base and Rover. In general, the data baud rate of KOLIDA radio module has been unified to be 19200, keep it as default. Channel: This is the communication channels for internal UHF, the value of the channel must be the same both in Base and Rover. Power: This appears only in Base mode, the radio transmitting power is allowed to define in High, Middle or Low power. Protocol: This is radio communication protocol for data transmission, KOLIDA and TRIMTALK are optional in this page and KOLIDA is the default setting, if it is changed, Base and Rover must use the same protocol for communication. Factory Default: Click this button to restore the factory default for internal UHF module. Radio Frequency For K5 UFO, the powerful internal radio module supports much more radio channels apply to the legal frequency in different countries or areas. There are 16 radio channels listed in this page after clicking on radio frequency. Users are able to
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K5 UFO change the frequency freely in the channel spacing, click Restore button to bring the frequency of each channel back to default setting. 4.4.8 Firmware Update Update the latest firmware for receiver or for corresponding modems can be done in Firmware Update. Firmware Update This page displays all the information of the firmware which current installed on K5 UFO, and allows to update the latest version firmware for receiver. To get latest version firmware please contact with KOLIDA technician.
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K5 UFO Online Update: K5 UFO supports to update the firmware online anytime if there is something update or optimized. Local Update: Update the latest firmware by using a firmware file. How to upgrade the firmware with Local Update a) Click on Browse button to load firmware file (Please take in mind that the firmware is ended with .img as the extension name).
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K5 UFO b) And then click Installation button to start upgrading. c) After the firmware is completed upgrading, a dialog will appear saying Firmware updated successfully! Host reboot, please log in later, then the receiver will restart automatically.
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K5 UFO SPECIAL REMIND: K5 UFO doesnt support to update the firmware with the help of INstar program any more, in the future, update the firmware for K5 UFO shall be done through the Web UI. Module Update This page is used to update the firmware for corresponding modem such as OEM board, radio module and sensor. 4.4.9 Track Manage K5 UFO now supports to record the track while doing measurement, and upload the data onto the server.
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K5 UFO Parameter Setting Record Setting Check on the box of RecordEnable to activate track recording function, and choose a proper recording interval in dropdown list of RecordInterval. EchoEnable Setting This configuration dialog is used to upload the recording data to a server in real-time.
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K5 UFO Data Download On this page, users can download the track data file from receiver. Choose the recording date and click Get Data to load all the data files recorded at that day, then choose the files and click download button. 4.4.10 Coordinate System(reserve) K5 UFO allows users to setup the local coordinate system on internal web UI management. The instrument would output the local coordinates according to this coordinate system.
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K5 UFO 4.4.11 Online Service(reserve) This function is to upload the data onto a server real-time, including Navigation data, raw observation data, correction data, SIC observation data and open SIC observation data.
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K5 UFO 4.4.12 User Management This page is used to manage the authority of login Web UI for users, including the username, password and add users. 4.4.13 Help In this page, users can get help and check the log book of receiver (the log book can help to backtrack the working status of receiver). NOTE: Only the administrator can modify any parameters for receiver and manage users, and the ordinary users only have the right to view the relative parameters.
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K5 UFO Chapter Data Collector X11 5.1 Basic introduction to the handheld Here takes X11 for example (If you want to know more controller options, please contact local agency or KOLIDA team directly), appearance of X11:
Standard Configuration Description Li-ion Battery 7.2V/ 24.4Wh Size 193x91x42mm(L*W*D)
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K5 UFO Waterproof/Dustproof IP67 Display ROM X11 pro Blanview TFT, LED backlighted 8GB, up to 32GB 72 channel,5MP camera 1. Charging Connect the charger with collector by the USB Link cable to recharge. Main Screen (Upper right corner) will show the Charging Icon in power off (on) status.(Once you connect Collector with PC to recharge; the charging time will be longer). 2. Power on/off Make sure that the battery is fully charged or you can connect the Collector to PC via the USB Cable. (Collector should be with battery). Press Power Key for 3-5 seconds to power on/off.
(If there is no any response from Collector or other unusual situations happened, press the Reset Key besides the USB socket in the bottom of Collector with the Touch Screen Pen). 3. Connect to PC Make sure that youve installed Microsoft ActiveSync 4.5 or higher version, if your computer equipped with win7 or win8 system, please make sure that you have installed Windows Mobile Device Center program. Connect the Collector to PC via the Mini USB Data Cable. Connection will be preceded automatically by Microsoft ActiveSync. Icon will turn green and an interface of Setting will come out, you can just click Cancel. After this, you can manage and edit the data in Collector. 4. Installing Program Make sure that collector is synchronized with PC. Run the Installation file at PC side. If the installation program is also suitable for collector, you can copy the installation program into collector to install. You can just copy the folder into collector when you need.
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K5 UFO We suggest you installing programs into Flash Memory and save data into Storage Card. 5. Camera Get into the Camera Mode by pressing the Camera Key for 3 or more seconds. Press Camera Key to take a photo and click OK on the screen to save. Note: If you want to know more information about X11, Please refer to X11 manual. 5.2 Bluetooth Connection The short-range wireless Bluetooth communication facilities are for the wireless exchange of
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K5 UFO information among a variety of Bluetooth-enabled devices. Tap on the Start menu (Settings) (control panel) to open (Bluetooth Device Manager). tap on the(scanning device) after setting the Bluetooth device, and the surrounding Bluetooth devices will be listed in the search list. And then input the passcode 1234 to have pair between controller and receiver. As shown below:
After the pair, select an available com port for the receiver (usually COM 8 and COM 5 are OK). As shown below:
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K5 UFO After the establishment of the virtual serial port, other applications can use the serial port for data communication with a Bluetooth device. 5.3 Software installation and connecting Professional surveying and mapping software are made for measurement applications for different industry:"EGStar", "Power Star", "Mapping Star", "Navigation Star and so on. Here takes EGStar for example:
EGStar is the specific software for K5 UFO measuring system, mainly for the collection and calculation of the measuring points. Before installing of EGStar, you need to install Microsoft Active Sync. After installing it on your computer, connect handheld to computer with a cable, and install EGStar into the handheld, at the same time, keep the mainframe power on, then set as follows:
Open EGStar software and enter the main interface. Click OK on the "prompt" window.
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K5 UFO 1. "Configure" "Port Config", in the "Port Configuration dialog box, select the port COM8
", with the same serial number which you use to connect the Bluetooth serial port service. Click
"OK." If the connection is successful, the status bar will display related data. If there is barrier, exit EGStar to reconnect (If the above settings are correct, then link directly). Handheld connecting with the host PC can do the follow-up measurement. 2. Or go to Bluetooth Manager, in this interface tap on Search button and the controller will search the surrounding Bluetooth devices, select the correct serial number from the list and click on Connect button, controller will connect to receiver without setting any COM port. If the prompt message Bluetooth connect success appears, that means that controller has successfully connected with receiver, then please check the Bluetooth indicator on receiver.
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K5 UFO Chapter External Radio 6.1 Overview The radio Hx-U202 is a high-speed semi-manual wireless data transmission radio, whose air transfer rate can be up to 19200 bps and the RF transmitter power is larger, used in KOLIDA RTK measurement system. Radio Hx-U202 adopts GMSK modulation, 19200bps transfer rate, low bit error rate. RF frequency can cover 450-470MHz band. Data transmission mode of Hx-U202 is transparent
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K5 UFO mode, that is, the received data is sent to the RTK GPS system unchanged. Radio Hx-U202 data interface is a standard RS-232 interface, which can be connected to any RS-232 terminal equipment for data exchange. Hx-U202 digital radio research employs advanced radio frequency technology, digital signal processing technology and baseband processing technology, carefully selected high quality components to organize production, to ensure the long-term stable and reliable operation;
Have a forward error correction control, digital error correction function. It has eight transmitting and receiving channels. Can be changed according to the actual use of the channel frequency, transmit power adjustable interval is 0.5MHz. 6.2 Frequency Table Channel number Frequency450-470MHz Channel 1 Channel 2 Channel 3 Channel 4 Channel 5 Channel 6 Channel 7 Channel 8 463.125 464.125 465.125 466.125 463.625 464.625 465.625 466.625 6.3 Radio Appearance Control panel SN number
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K5 UFO Control Panel Control panel lights display the status of the radio, the key operation is simple and convenient, one-to-one interface can effectively prevent connection errors. Channel indicator light. Power indicator light, ON / OFF power key: This key controls the unit's power switch. The red light on the left indicates the power status of the machine. TX red light indicator: This indicator flashes once per second means that the radio is transmitting data with the transmitting interval in 1 second;
AMP PWR indicator: Indicates the level of radio power, light on indicates low-power, light off indicates high-power CHANNEL button: By pressing this switch, you can switch channels 1-8. 6.4 Radio Interfaces Mainframe Interface: 5-pin jack for connecting a GPS receiver and power supply Antenna interfaceFor connecting the transmitter antenna
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K5 UFO Power switch (Shown in picture below): switch to adjust the radio power, AMP PWR lights on the panel indicate the radio power level, light on indicates low power, lights off high power. 6.5 Transmitting Antenna The UHF transmitting antenna is particularly suitable for field use, the receiving antenna is 450MHz Omni-directional antenna, light and durable. 6.6 Application Notice The battery power is too low: When the flashing channel indicator appears on the control panel, which means the lack of battery power, replace the battery in time, otherwise there would be data link unstable or unable to launch. Hx-U202 radio power supply: voltage 12-15V (typical 13.8V) RF transmitter power 25W, current 7.0A. Radio transmits power: radio transmits power based on the voltage of the power supply, check the voltage before use. High and low power use: use low-power transmitter when low power can satisfy the operation as high-power transmitter will exponentially consume battery power, excessive use will reduce battery life. Install the radio station as high as possible. Power corrugated coefficient: power ripple coefficient must be less than 40mV, the smaller the ripple factor is, the smaller will the beam spectrum be and the higher communication quality will be. Power Connection: Power of positive and negative connected correctly. Electromagnetic environment: Before using the radio, it is better to perform electromagnetic environment measurement, to avoid the communications blackout. Radio match antenna: the basic parameters of the antenna selection are the band width, frequency, gain, directivity, impedance, VSWR and other indexes .Usually the effective
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K5 UFO bandwidth of the antenna is 3-5MHz,antenna selecting should be based on the frequency bands used by the to be selected channel. For the long-distance transmission, it is better to use a directional antenna and high-gain antenna, and pay attention to the impedance of the antenna and feeder to match with the Radio Hx-U202 antenna interface (50 ohms). We recommend:
Recommend that you use plug-in battery which is more than 12/36Ah,the use of maintain a regulated current of 10A during the operation. Recommend that you charge it in time, do not overuse the battery, otherwise it will reduce battery life. Recommend that you replace the batteries after six months to a year, to ensure the radio distance. Chapter Accessories 7.1 Instrument Case The instrument case for K5 UFO contains two layers of packing: the inner layer is filled with anti-collision foam, the host and other accessories can be dispersed and embedded; the outer layer is a hard instrument case, sealing-strong, wear-resistant anti-wrestling. Compact, durable, can effectively prevent the impact, easy to clean 7.2 Batteries 2 pcs of large capacity Li-ion batteries are the standard configuration for K5 UFO that to make sure K5Plus has enough power for whole day work. Specifications of battery
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K5 UFO Model: BTNF-L7408W Capacity: 7.4V3400mAh 7.3 Charger&Adapter 7.3.1 Charger Model: CH-SA4012 INPUT: 12VDC-3A OUTPUT: 1/2/3/4*8.4VDC---670mA Please use the standard battery. 7.3.2 Adapter Model: RJT-AS120300C301 INPUT: 100-240V~50/60Hz 1.0A OUTPUT: +12V---3A
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K5 UFO NOTE: If CHARGE indicator glows in red, it indicates the battery is being charged, If FULL indicator glows in green, it indicates the battery is full charged. 7.4 External power tool (Optional) K5 UFO is equipped with a professional battery package that ensures a long time continuous work. Indicators, the indicators indicates how much power remain by pressing the power button. The combination batteries of K5 UFO installed into the portable power source Hang buckle, hang the battery package onto tripod 7-pin port, connect the cable with receiver for power supply. Power supply cable, this cable is used to connect the power source to receiver.
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K5 UFO 7.5 Differential Antennas GPRS Antenna UHF Antenna The differential antennas are as shown above;
If the receiver is set up to use network mode, the network antenna is required to install to the interface at the bottom of the receiver. The UHF differential antenna is required to install to the interface at the bottom of receiver if K5 UFO is set up into internal UHF mode. 7.6 Cables 7-pin to USB cable This cable is used to connect the receiver with computer for static data transmission, Web UI accessing and firmware update. USB, connect to computer 7-pin end, connect to receiver
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K5 UFO 7-pin to OTG cable L7U50 This cable is used to connect an external storage directly to K5 UFO for static data storage and copy. USB interface L7U40 Communication cable This cable is used to connect the receiver to computer for receiver debugging, differential data checking and firmware update. 5-pin port, connect to receiver Serial port, connect to computer L5930B 7.7 Other Accessories Other accessories include rover station centering rod, handheld bracket, base point, connectors, measuring plate and measuring tape. Measuring plate Measuring tape Support pole
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K5 UFO Bracket for controllers Carbon fiber pole NOTE: The models and types of accessories will vary with the instrument upgrade.
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K5 UFO Chapter Measuring Operation Reading this chapter, you can grasp in detail how to use the K5 UFO measurement to do system static, RTK operations. GPS measurement operation scheme refers to the operating scheme used to determine the relative position between the stations with the help of GPS technology. Point coordinate precision obtained is not the same; its operating methods and observation time are also different, thus having different range of applications. GNSS receiver operating program is divided into two types: static measurement and RTK dynamic measurement (including the base station and rover station). Test environment requirements:
(1) Observation stations (ie, the receiving antenna settlements) should stay away from high-power radio transmitters and high voltage transmission lines in order to avoid the magnetic field around the GPS satellite signal interference. Receiver antenna and its distance shall not be less than 200 m;
(2) Observation stations should not be near to the large area waters or objects which can strongly reflect (or absorb) electromagnetic wave to weaken the effects of multi-path;
(3) Observation stations should be located in places where the receiving device can be installed easily, and good vision available. Elevation angle of obstacles in view should generally be greater than 10 to 15, in order to weaken the effects of troposphere refraction;
(4)Observation stations should be selected in a convenient place, and easy to use other means of measuring, joint measurement and expansion;
(5) For the long baseline GPS network, should also consider the vicinity good communication facilities (telephone and telegraph, post and telecommunications) and power supply, for power between the stations and equipments. 8.1 Static Operation 8.1.1 Static Measurements Profile Static measurements GPS positioning measurement by installed three (or more) GNSS receivers to perform simultaneous observation and determine the relative position between the stations. Scope The establishment of a national geodetic control network (second or less);
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K5 UFO The establishment of precision engineering control network, such as bridge measurement, tunnel measurements, etc;
The establishment of a variety of encryption control network, such as city measurements, Drawing Point measurement, road surveying, demarcation measurements. For the GPS measurements of small and medium-sized cities, towns, as well as mapping, cadastral, land information, real estate, geophysical exploration, surveying, construction and other control measurement, should meet the accuracy requirements of the D, E grade GPS measurements. 8.1.2 Operating Procedures Pre-measurement Project approval Program design Construction design Surveying and mapping data collection and arrangement Instrument test, test Reconnaissance, choice of site, buried stone Measurement Operating team stationed in Satellite status Forecast Observation planning Dispatch of operation and field work observation After the measurement Data transmission, dump, backup, Baseline Solution and quality control Network adjustment (data processing, analysis) and quality control Finishing results, technical summary Project acceptance 8.1.3 Field Operation Notes 1)Static mode of K5 UFO receiver is able to be set on receiver, and also can be set on software
(Such as EGStar3.0), please refer to the EGStar manual for more information. 2)Set up a tripod on the control point, leveling and centering strictly on the measuring point. 3)Measure the instrument height three times, the difference of the results shall not be more than 3 mm, and average the results. The instrument height should be measured from the center of the control point to the mark line on the instrument. 4)Record instrument number, point name, instrument height, and start time.
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K5 UFO 5)Power on, confirm the static mode, the mainframe begins to search satellites and satellite lights begin to flash. Recording condition reached, the status light flashes in accordance with the set sampling interval, flashing once indicates the acquisition of an epoch. 6)After the test, the mainframe shut down, and then begins data transmission and data processing. 8.1.4 GPS Net Design The net design mainly subject to the users requirement, but outlay, time interval of observation, type of receiver and the receiver amount, etc also relate to the net design. In order to satisfy the users requirement, we should keep the principle as follows:
1. GPS net normally forms closed graph by independent observation borders, such as triangle, polygon or connecting traverse, etc, to add checking conditions and to improve the net consistency. 2. When designing the net, the net point should be superposition with the original ground net points. The superposition points are generally no less than three and distribute evenly on the net in order to ensure the changing parameters between GPS net and local net. 3. GPS net point should be superposition with the level points, and the other points are normally unitedsurveyed with level surveying way or the equivalent way. You can also set some level unitedsurveying points in order to offer geoids information. 4. In order to observe and level united survey, we often set GPS net points at a clear and easy arriving field. 5. We often distribute some well eyeshot azimuth points around GPS net to ensure united survey direction. The distance from azimuth to observation station should be more than 300 meters. According to different purpose of GPS surveying, independent observation borders of GPS net should compose definite geometry graph. The basic graphs are as follows:
Triangle net The triangle in GPS net is composed of independent observation borders, it has strong geometry structure and well self-checking ability, it can also find out the coarse difference of result and to share the difference to each baseline with adjustment. But this net need a lot of observation, especially when receivers are lacking it will greatly prolong the observation time. So only when accuracy and security are required very high, and receivers are more than three, we can use this graph. Circle net Circle net is composed of many loops which are formed of many independent observation borders. This net is similar with one of the classical surveying-- lead net. Its structure is a little worse than triangle net. The amount of baselines in closed loop decides the self--checking ability and consistency. General speaking, the amount of baselines has such limit as follows:
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K5 UFO The advantage of circle net is the small workload, good self-checking and consistency. But the main disadvantage is that the accuracy of indirect-observed border is lower than that of direct-observed border, and the baseline accuracy of neighbor points distributes unevenly. In field surveying, we usually use annexed traverse as special example according to practical situation and the net usage. This requirement for this traverse is the high accuracy for the known vectors between two point ends. Furthermore, the amount of annexed traverses cannot exceed the limits. Star shape net Star net has simple geometry graph, but the baselines of it mostly dont compose a closed graph, so it has a bad checking ability and consistency. The advantage of this net is that it only needs two receivers, the work is very simple, so it is mostly used in the quick surveying as quick static orientation and kinematical orientation. This working mode is widely used in project layout, border surveying and GIS surveying, etc. 8.1.5 Antenna Height Measurement After fixed the instrument, user should measure antenna height at the beginning and the end of every period of time to ensure the accuracy mm level. We usually measure from the center point on the ground to the center waterproof loop of antenna. That is an inclined height. Please refer to the following figure.
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K5 UFO Measuring plate h We use a formula to calculate antenna height. h is the inclined height that measure from point on the ground to the measuring plate edge. is the distance from middle of antenna to the edge of measuring plate. is the distance from antenna phase center to the bottom of receiver (measuring plate). H is the calculation result. We usually measure antenna height twice and adopt the average. Attention: We input the inclined height as the antenna height, which is the inclined distance from point on the ground to the waterproof loop of antenna.
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R0h0 K5 UFO 8.2 RTK measurement RTK is the abbreviation of Real-Time Kinematic measurements. RTK technology is the real-time dynamic differential carrier phase positioning technology, combining global satellite navigation and positioning technology with data communication technology which includes base station and rover station. Base station transmits the data by radio or network to the rover station, which will perform differential analysis, thus providing real-time coordinates of the measurement point in the specified coordinate system. Depending on the different ways of differential signals transmission, there are two methods for RTK operation by using the radio and internet (network). 8.2.1 By using radio (Internal radio) Base Station UHF antenna Tripod 8.2.1.1 Base Station Set up Base station shall be set up in the broad view, unobscured and higher places; avoid the vicinity of the high-voltage power transmission equipment and the transmitting and receiving antennas of radio communication equipment, the shade of trees, and the sides of waters, all of which will
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K5 UFO produce different degrees of impact on the GPS signal reception and emission of radio signals 1) Set a tripod to the location with known coordinates (or unknown), attach base receiver to the tribrach adapter set (the measuring plate is recommended to install under base receiver). 2) Install the transmitting antenna onto the receiver. 3) Make sure all connections are alright, then power on receiver. 4) The receiver is set as base with internal radio mode. (set on the control panel, or on internal Web UI or on the software installed on data collector). 8.2.1.2 Start the Base station First time to start the base station, all the relative parameters are completely configured before starting. Using EGStar3.0 1) Run EGStar3.0 program on data collector;
2) Go to ConfigDevice ConfigInstrument Config page to configure the working mode and datalink for base receiver. 3) Tap on Work mode setting and then check the box of Set work mode, then click on Next to continue;
4) Check the box of Base option and click OK and return to Instrument setting page. At this moment, K5 UFO prompts the correct working mode with voice guide.
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K5 UFO 5) Then tap on Work mode setting and then check the box of Set data link, then click on Next to continue;
6) Check the box of Internal radio option and click OK to complete the settings. 7) Return to the main interface and again get into instrument config page, tap on Base setting to get into Base configuration page. 8) Choose the correction format in Msg,Type, choose the antenna measuring method and input correct antenna height in Ant,H, input the proper value for Interval time, Mask angle and PDOP limit. 9) Then tap on the symbol to save and complete the parameters. 10) Input the coordinates for base location or tap on the symbol to obtain a single
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K5 UFO position for base. 11) After all the parameters are completely set, click on Start button to start the base station. REMIND: If the base station is still set up on the same position next time, check the box of repeated station option and the base station will start automatically with known coordinates. Radio channels setting 1) Go to ConfigDevice ConfigRadio Config page. 2) In radio channel field, click on Read button to read the current channel value, or select a radio channel from the list and click on Switch button to change the radio channel. 3) In radio power field, click on Read button to read the current radio power, or select high/low from the list and click on Setup button to apply power for radio.
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K5 UFO Using internal Web UI 1) Connect K5 UFO with computer via 7-pin to USB cable and set the USB port to output as Ethernet on K5 UFO. (a driver is required to installed on computer to enable this function). 2) Login the internal Web UI of K5 UFO with the default username and password
(admin/admin). 3) Get into General Config interface under Configuration;
4) Choose Base in Work Mode and Radio for Datalink, then click Enter button to save configurations;
5) Get into Base Setup interface, and input known coordinates or click Position button to obtain a single coordinates for base station;
6) Choose the correction format in Corrections, then click StartBase button to start the base station.
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K5 UFO 7) Get into Radio Parameters interface under Radio Config, configure the radio parameters for base station such air baud rate, channel value, power and protocol. 8.2.1.3 Rover station set up After verifying the successful transmitting of the Base station, the rover station shall be set up at this moment.
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K5 UFO 1) Install the bracket holder onto the carbon fiber pole, and fix the controller into the bracket, then power on the controller. 2) Install the receiving antenna onto the rover receiver, and screw the receiver into the carbon fiber pole, then power on the receiver. 3) Set the receiver as rover with internal radio mode. (set on the control panel, or on internal Web UI or on the software installed on data collector). Rover receiver GPRS/UHF receiving antenna Carbon fiber pole Data collector 8.2.1.4 Rover settings Using EGStar3.0 1) Run EGStar3.0 program on data collector;
2) Go to ConfigDevice ConfigInstrument Config page to configure the working mode and datalink for rover receiver. 3) Tap on Work mode setting and then check the box of Set work mode, then click on Next to continue;
4) Check the box of Rover option and click OK and return to Instrument setting page. At this moment, K5 UFO prompts the correct working mode with voice guide.
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K5 UFO 5) Then tap on Work mode setting and then check the box of Set data link, then click on Next to continue;
6) Check the box of Internal radio option and click OK to complete the settings.
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K5 UFO 7) Radio channels setting 8) Go to ConfigDevice ConfigRadio Config page. 9) In radio channel field, click on Read button to read the current channel value;
10) Select the same radio channel value as set on base station from the list and click on Switch button to apply this channel value. Using Web UI 1) Connect K5 UFO with computer via 7-pin to USB cable and set the USB port to output as Ethernet on K5 UFO. (a driver is required to installed on computer to enable this function).
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K5 UFO 2) Login the internal Web UI of K5 UFO with the default username and password
(admin/admin). 3) Get into General Config interface under Configuration;
4) Choose Rover in Work Mode and Radio for Datalink, then click Enter button to save configurations;
5) Get into Radio Parameters interface under Radio Config, configure the same radio parameters as set on base station for rover station such air baud rate, channel value, power and protocol
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K5 UFO 8.2.2 By using radio (external radio) 8.2.2.1 Base station setup 1) Set a tripod to the location with known coordinates (or unknown), attach base receiver to the tribrach adapter set (the measuring plate is recommended to install under base receiver). 2) Mount the UHF antenna set onto a tripod, and connect it to the external radio which is linked with the external power supply via the multi-function cable.
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K5 UFO 3) Power on the base receiver and set the receiver as base with external radio mode. (set on the control panel, or on internal Web UI or on the software installed on data collector). At least 2m away NOTE: place the 2 tripods at least 2m away from each other against signal interference. Using EGStar3.0 Set the base receiver as base working mode from ConfigDevice ConfigInstrument ConfigWork mode settingSet work mode--Base, choose the External option in Set data link.
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K5 UFO 8.2.2.2 Radio settings 1) Make sure all connections are alright, then power on the radio by pressing power button, and then press C button to define the channel for data transmission. 2) Please keep in mind the channel is selected to match the settings in controller later on. 3) Radio starts to transmit when TX LED is flashing. 8.2.2.3 Start Base Station (Please refer to 8.2.1.2)
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K5 UFO 8.2.3 By using internet (network) 1) 2) In this mode, base station is no longer to set up as CORS is permanently installed. Insert a SIM card into the SIM card slot in battery component. 3) Power on the rover receiver and connect with controller via Bluetooth. EGStar3.0 settings 1) Go to ConfigDevice ConfigInstrument ConfigWork mode settingSet data link interface to choose GPRS/GSM option for rover station. 2) Then return to main interface and go to ConfigDevice ConfigNetwork Config page. 3) Add a new NTRIP connection in this page or select the existed one to re-edit/use directly.
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K5 UFO 4) Input a name for NTRIP connection and choose NTRIP-VRS for Mode and choose GPRS/CDMA for Connect. 5) Then click on Change button to define the ANP for your local SIM card. 6) Input the IP address and port, then input the assigned username and password for your NTRIP connection. 7) Press Get Sourcetable button to obtain mountpoint list, then select the appropriate one from the list in Access option, press OK button to confirm and return to Network Setting interface.
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K5 UFO 8) Press Connect button to access CORS network and obtain corrections from selected mountpoint. 9) After the message Uplink GPGGA data success appears in the status bar, click OK button to return to main interface, and check the general info at the bottom. NOTE; the parameters would be automatically saved up once input, the receiver would track the CORS info most recently input and connect when it gets started next time. Web UI settings 1) Login the web UI of K5 UFO and go to General Config interface, then choose Network
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K5 UFO in Datalink option, click on Enter button to confirm and save the settings. 2) Then go to GSM/GPRS Config interface under Network Config to check if the SIM card is detected, and input the APN information at the bottom. 3) Go to NTRIP Config interface under Data Transfer, and input the CORS server information including IP, Port, User and password, then click Get Point button to download mountpoint list from server. Then select the appropriate one from the list and click on Enter button at the bottom to access.
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K5 UFO 8.2.4 By using internet (WIFI) WiFi datalink is a new feature and new technology adopted on K5 UFO, it is more faster and stable in network RTK job. Set the receiver as rover with WIFI mode on the control panel or on Web UI. Web UI settings 1) Login the web UI of K5 UFO and go to General Config interface, then choose WIFI in Datalink option, click on Enter button to confirm and save the settings.
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K5 UFO 2) Then go to WIFI Config interface under Network Config, there the option of Client is activated if WIFI used as datalink. 3) Click on the Scan button to search the surrounding available WIFI hotspot, then select a proper one and input the password, click the Enter button at the bottom to confirm and access 4) If the WIFI connection is successfully connected, go to NTRIP Config interface under Data Transfer, and input the CORS server information including IP, Port, User and password, then click Get Point button to download mountpoint list from server. Then select the appropriate one from the list and click on Enter button at the bottom to access.
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K5 UFO
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K5 UFO Chapter Hardware Registration Users can get the point how to register the instrument in this chapter. Registering on K5 UFO is easier than operating on K5Plus. Login the web UI management of K5 UFO with WiFi or USB network connection. Go to ConfigGeneral Config configuration page, the registration section is located at the top of this interface. Enter the registration code and click on Register button, a prompt message will appear. And the ExpiredDate would be changed.
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K5 UFO Chapter Firmware Update This chapter will explain how to update the firmware for KOLIDA K5 UFO, detail steps are written below. Login the web UI management of K5 UFO with WiFi or USB network connection. Go to Firmware UpdateFirmware Update configuration page, all the information of the firmware which current installed on K5 UFO would be displayed here. Click on Browse button to load firmware file (Please take in mind that the firmware is ended with .img as the extension name).
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K5 UFO And then click Installation button to start upgrading. After the firmware is completed upgrading, a dialog will appear saying Firmware updated successfully! Host reboot, please log in later, then the receiver will restart automatically. SPECIAL REMIND: K5 UFO doesnt support to update the firmware with the help of INstar program any more, in the future, update the firmware for K5 UFO shall be done through the Web UI.
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K5 UFO Appendix A K5 UFO technical specifications Signals Tracked Simultaneously Channels BDS GPS GLONASS SBAS GALILEO QZSS 15 Channels 1561.098MHz, 1207.52MHz 1575.42MHz, 1227.6MHz, 1176.45MHz 1602.5625MHz, 1246.4375MHz 1575.42MHz, 1176.45MHz 1589.74MHz, 1176.45MHz, 1207.14MHz 1575.42MHz, 1227.6MHz, 1176.45MHz GNSS Features Positioning output rate 1Hz~50Hz Initialization time Initialization reliability Positioning Precision Code Differential GNSS Positioning
< 10s
>99.99%
Horizontal: 0.25 m + 1 ppm Vertical: 0.50 m + 1 ppm SBAS positioning accuracy typically<5m 3DRMS Static GNSS Surveying Horizontal: 2.5 mm + 0.5 ppm Vertical: 5 mm + 0.5 ppm Real-Time Kinematic Surveying Horizontal: 8 mm + 1 ppm
(Baseline<30km) Vertical: 15 mm + 1 ppm Network RTK Horizontal: 8 mm + 0.5 ppm Vertical: 15 mm + 0.5 ppm RTK initialization time 2~8s Physical Dimension Weight Material Environmental Operating Storage Humidity Waterproof/Dustproof Shock and Vibration 17.5cm17.5cm8.3cm 1.3kg (battery included) Magnesium aluminum alloy shell
-10~+55
-55~+85 100% Non-condensing IP67 standard, protected from long time immersion to depth of 1m IP67 standard, fully protected against blowing dust Withstand 3 meters pole drop onto the cement ground naturally Withstand 40G 10 milliseconds sawtooth wave impact test
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K5 UFO Electrical Power Consumption 2W Power Supply 9-25V DC, overvoltage protection Battery Two units of rechargeable, removable Lithium-ion battery, allow to check remaining power Single battery: 8h (static mode) Battery Life 5h (internal UHF base mode) 6h (rover mode) Communications I/O Port Wireless Modem 5PIN LEMO external power port + RS232 7PIN LEMO +external USB(OTG)+Ethernet 1 UHF/ network antenna interface SIM card slot Integrated internal radio receiver and transmitter, 1W/2W/3W optional External radio transmitter 5W/25W Frequency Range 410-470MHz Communication Protocol TrimTalk450s, TrimMark3, PCC EOT, KOLIDA, SOUTH Cellular Mobile Network WCDMA3.5G network communication module, downward compatible with GPRS/EDGE Double Module Bluetooth BLEBluetooth 4.0 standard, support for android, ios cellphone connection Bluetooth 2.1 + EDR standard NFC Communication UFO and controller (controller equipped NFC wireless communication Realizing close range (shorter than 10cm) automatic pair between K5 External Devices WIFI Modem WIFI hotspot WIFI Client Data Storage/Transmission module needed) Optional external GPRS/EDGE dual-mode communication module, switchable; allow to connect external WLAN card 802.11 b/g/n standard The WIFI hotspot allows any mobile terminal to connect and access to the internal webserver for the control and moditor receiver To work as the datalink that receiver is able to broadcast and receive differential data through WIFI 8GB SSD internal storage Storare Automatical cycle storage (The earliest data files will be removed while the memory is not enough)
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K5 UFO Data Transmission Support external USB storage The customizable sample internal is up to 50Hz Plug and play mode of USB data transmission Support FTP/HTTP data download Differential data format: CMR+, CMRx, RTCM 2.1, RTCM 2.3, RTCM 3.0, RTCM 3.1, RTCM 3.2 Data Format GPS output data format: NMEA 0183, PJK plane coordinates, Binary code, Trimble GSOF Network model support: VRS, FKP, MAC, fully support NTRIP protocol Inertial Sensing System Electronic Bubble User Interaction Operaing system Buttons Indicators Webserver Voice guide Open platform Controller software display electronic bubble, checking leveling status of the centering rod real time Linux One-button operation, visual operation, convenien t and efficient Convenient to view and understand mode settings and status Allows to control and moditor the receiver in webserver through WIFI or Bluetooth, freely to configure receiver Status and operation voice guide, support to customize local language, Chinese/English/Korean/Spanish/Portuguese/Russian/Turkish supported The OpenSIC observation data format and interative interface support secondary development
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K5 UFO Appendix B Hx-U202 radio technical specifications General specifications Frequency bands Channel interval Channel transfer rate 460.125~467.625MHz 0.5MHz 19200bps Protocol TrimTalk450s, TrimMark3, PCC EOT, KOLIDA Channel number 8 Frequency Stability 2.0ppm Modulation mode Antenna impedance GMSK 50 Ambient temperature
-10C55C Humidity 10-90% relative humidity, non-condensing Receiver Specifications Receiver sensitivity 0.25V(12dB SINAD) Adjacent Channel Selectivity 65dB Modulation signal frequency deviation Intermodulation Rejection Ratio Audio distortion Transmitter indicators 5.1KHz 65dB 3%
RF output power 10W/25W Switchable Adjacent Channel Rejection Ratio 65dB Spurious frequency components 4W Residual FM Remaining AM Carrier frequency modulation mode
-35dB 2%
TWO PIN
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K5 UFO RS-232 interface rate Data stream power voltage 19200bps can be set 1 start bit, 8 data bits, no parity (parity bit can be set), 1 stop bit DC power supply 12-15V, the typical of 13.8V, the voltage of the power supply will affect the size of the RF power of the transmitter Power consumption Receiver standby current 100mA The machine operating current of the transmitter voltage power 8A 13.8V 10W/25W
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K5 UFO Appendix C Technical Terms Ambiguity: unknown quantity is the integer number of cycles of the carrier phase measured from the satellite to the receiver. Baseline: The connection line of the two measurement points, on which to receive GPS signals and collect observation data simultaneously. Broadcast ephemeris: message released by the satellite demodulator satellite orbit parameters. SNR (Signal-to-noise ratio): an endpoint signal power to noise power ratio. Cycle skipping: interfere loop skips a few cycles from a balanced point, and stabilize in the new equilibrium point, this make the phase integer number of cycles to generate an error. Carrier: As the carrier, Frequency, amplitude or phase modulation of the modulated wave by a known reference value. C / A code: GPS coarse / acquisition code, modulate the pseudo-random binary code for the 1023 bit duplex, the bit rate of which is 023MHz, and code repetition period of 1ms. Difference measurement: GPS measurements employ cross-satellite cross-receiver and cross-epoch. Difference Positioning: the method of determining the relative coordinates between two or more receiver by tracking the same GPS signal. Geometric dilution of precision: Describe the contribution of satellite geometry errors factor in dynamic positioning Eccentricity:
where a, b of the semi-major axis and semi-minor axis. Ellipsoid: mathematical graphics formed when an ellipse moves around the minor axis of rotation in Geodetic Survey. Ephemeris: the position of celestial bodies over time parameters. Flattening:
a is the semi-major axis, b is the semi-minor axis, e is the eccentricity. Geoid: similar to the mean sea level and extends to the mainland special planes. Geoid everywhere perpendicular to the direction of gravity. Ionosphere delay: delay of radio waves through the ionosphere (non-uniform dispersion medium)
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eabb222 K5 UFO L-band: The radio frequency range of 390-1550MHz. Multipath error: the positioning error caused by the interference between two or more radio signal propagation path. Observing session: the use of two or more receivers at the same time to collect GPS data period. Pseudo Range: GPS receiver in the time required to copy the code aligned with the received GPS code offset and multiplied by the speed of light to calculate the distance. This time offset is the difference between the signal reception time (time series of the receiver) and the signal emission time (satellite time series). Receiver channel: GPS receiver RF mixer and IF channel, can receive and track satellites two carrier signals. Satellite configuration: the configuration status of the satellite with respect to a specific user or a group of users within a specific time. Static position: do not consider the point of measurement of the movement of the receiver.
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K5 UFO FCC Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Caution: Any changes or modications to this device not explicitly approved by manufacturer could void your authority to operate this equipment. This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment. The antenna(s) used for this transmitter must be installed and operated operating to provide a separation distance of at least 100 cm from all persons and must not be collocated or operating in conjunction with any other antenna or transmitter. Installer must ensure that 100cm separation distance will be maintained between the device
(excluding its handset) and users. Caution: The user is cautioned that changes or modifications not expressly approved by theparty responsible for compliance could void the user's authority to operate the equipment.
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frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2019-05-16 | 2412 ~ 2462 | DTS - Digital Transmission System | Original Equipment |
2 | 2506 ~ 2680 | PCB - PCS Licensed Transmitter | ||
3 | 460.125 ~ 467.625 | TNB - Licensed Non-Broadcast Station Transmitter | ||
4 | 2019-05-15 | 2402 ~ 2480 | DSS - Part 15 Spread Spectrum Transmitter |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 3 4 | Effective |
2019-05-16
|
||||
1 2 3 4 |
2019-05-15
|
|||||
1 2 3 4 | Applicant's complete, legal business name |
South Surveying & Mapping Technology Co., Ltd.
|
||||
1 2 3 4 | FCC Registration Number (FRN) |
0025896564
|
||||
1 2 3 4 | Physical Address |
No.39, Sicheng Road
|
||||
1 2 3 4 |
Guangzhou,, N/A
|
|||||
1 2 3 4 |
China
|
|||||
app s | TCB Information | |||||
1 2 3 4 | TCB Application Email Address |
c******@micomlabs.com
|
||||
1 2 3 4 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
1 2 3 4 |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
|||||
1 2 3 4 |
B2: General Mobile Radio And Broadcast Services equipment in the following 47 CFR Parts 22 (non-cellular) 73, 74, 90, 95, 97, & 101 (all below 3 GHz)
|
|||||
app s | FCC ID | |||||
1 2 3 4 | Grantee Code |
2AJTU
|
||||
1 2 3 4 | Equipment Product Code |
K5
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 3 4 | Name |
S******** W********
|
||||
1 2 3 4 | Title |
vice president
|
||||
1 2 3 4 | Telephone Number |
+86-1********
|
||||
1 2 3 4 | Fax Number |
+86-2********
|
||||
1 2 3 4 |
w******@southgnss.com
|
|||||
app s | Technical Contact | |||||
1 2 3 4 | Firm Name |
South Surveying & Mapping Technology Co., Ltd.
|
||||
1 2 3 4 | Physical Address |
China
|
||||
1 2 3 4 |
w******@southgnss.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 3 4 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 3 4 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 3 4 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 3 4 | Equipment Class | DTS - Digital Transmission System | ||||
1 2 3 4 | PCB - PCS Licensed Transmitter | |||||
1 2 3 4 | TNB - Licensed Non-Broadcast Station Transmitter | |||||
1 2 3 4 | DSS - Part 15 Spread Spectrum Transmitter | |||||
1 2 3 4 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | GNSS RECEIVER | ||||
1 2 3 4 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 3 4 | Modular Equipment Type | Does not apply | ||||
1 2 3 4 | Purpose / Application is for | Original Equipment | ||||
1 2 3 4 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 3 4 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 3 4 | Grant Comments | Output power listed is conducted power. The antenna used with this transmitter must be installed to provide a minimum separation distance of at least 100 cm from all persons. End-users must be provided with operating procedures for satisfying RF exposure compliance. | ||||
1 2 3 4 | Power output listed is ERP for frequencies below 1GHz and EIRP for frequencies above 1GHz. The antenna used with this transmitter must be installed to provide a minimum separation distance of at least 100 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with FCC multi- transmitter product procedures. End-users must be provided with operating procedures for satisfying RF exposure compliance. This device also contains functions that are not operational in U.S. Territories. This filing is only applicable for US operations. | |||||
1 2 3 4 | Output power listed is conducted at antenna terminals. The maximum antenna gain for this device as reported to the FCC is 5.0dBi. The antenna used with this transmitter must be installed to provide a minimum separation distance of at least 100 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with FCC multi- transmitter product procedures. End-users must be provided with operating procedures for satisfying RF exposure compliance. | |||||
1 2 3 4 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 3 4 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 3 4 | Firm Name |
Shenzhen LCS Compliance Testing Laboratory Ltd.
|
||||
1 2 3 4 | Name |
G******** L******
|
||||
1 2 3 4 | Telephone Number |
0755-********
|
||||
1 2 3 4 | Fax Number |
0755-********
|
||||
1 2 3 4 |
g******@lcs-cert.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | CC | 2402 | 2480 | 0.0017 | |||||||||||||||||||||||||||||||||||
1 | 2 | 15C | CC | 2412 | 2462 | 0.0538 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 22H | 824.2 | 848.8 | 1.076 | 2.5 ppm | 247KGXW | ||||||||||||||||||||||||||||||||||
2 | 2 | 22H | 824.2 | 848.8 | 0.222 | 2.5 ppm | 250KG7W | ||||||||||||||||||||||||||||||||||
2 | 3 | 24E | 1850.2 | 1909.8 | 0.649 | 2.5 ppm | 247KGXW | ||||||||||||||||||||||||||||||||||
2 | 4 | 24E | 1850.2 | 1909.8 | 0.232 | 2.5 ppm | 250KG7W | ||||||||||||||||||||||||||||||||||
2 | 5 | 24E | 1852.4 | 1907.6 | 0.186 | 2.5 ppm | 4M18F9W | ||||||||||||||||||||||||||||||||||
2 | 6 | 27 | 1712.4 | 1752.6 | 0.238 | 2.5 ppm | 4M18F9W | ||||||||||||||||||||||||||||||||||
2 | 7 | 22H | 826.4 | 846.6 | 0.107 | 2.5 ppm | 4M17F9W | ||||||||||||||||||||||||||||||||||
2 | 8 | 27 | 2501 | 2685 | 0.178 | 2.5 ppm | 9M19G7D | ||||||||||||||||||||||||||||||||||
2 | 9 | 27 | 2506 | 2680 | 0.162 | 2.5 ppm | 18M0G7D | ||||||||||||||||||||||||||||||||||
2 | 1 | 27 | 2506 | 2680 | 0.136 | 2.5 ppm | 17M0W7D | ||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
3 | 1 | 90 | EF ES | 460.12500000 | 467.62500000 | 6.6570000 | 2.5000000000 ppm | 16K5G1D | |||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
4 | 1 | 15C | CC | 2402.00000000 | 2480.00000000 | 0.0014400 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC