SP80 GNSS Receiver User Guide
Legal Notices ©2014 Trimble Navigation Limited. All rights reserved. All product and brand names mentioned in this publication are trademarks of their respective holders. SP80 User Guide, Rev. A, December 2013. Limited Warranty Terms and Conditions Product Limited Warranty.
Rechargeable Lithium-ion Batteries Receiver Use and Care This receiver uses one or two rechargeable Lithiumion batteries. The receiver can withstand the rough treatment that typically occurs in the field. However, the receiver is a high-precision electronic instrument and should be treated with reasonable care. WARNING - Do not damage the rechargeable Lithium-ion batteries. A damaged battery can cause an explosion or fire, and can result in personal injury and/or property damage.
UHF Radios Regulations and Safety. The receiver may be fitted with an internal radio as an option. It can also be connected to an external UHF radio. Regulations regarding the use of Ultra High Frequency (UHF) radio-modems vary greatly from country to country. In some countries, the UHF kit may be used without obtaining an end-user license. Other countries require end-user licensing. For licensing information, consult your local Spectra Precision dealer.
Table of Contents About Spectra Precision SP80 .............................................................1 SP80 Packout.....................................................................................2 Standard Accessories .............................................................2 Optional Accessories ..............................................................3 Other Optional Accessories .....................................................4 Discover Your New Equipment ........................
Base Setup....................................................................................... 29 Network Base ......................................................................29 Base in CSD Mode ...............................................................29 Base With Radio ..................................................................29 Internal vs. External Power Source.........................................30 Recording/Downloading GNSS Raw Data ...........................................
The Spectra Precision SP80 is a new-generation GNSS receiver that combines decades of GNSS RTK technology with a revolutionary new GNSS processing. Featuring the new 240-channel “6G” chipset, the SP80 system is optimized for tracking and processing signals from all GNSS constellations. In addition, SP80 is the most connected GNSS receiver in the industry. It is the first to offer a unique combination of integrated 3.5G cellular, WiFi and UHF communications with SMS, email and anti-theft features.
SP80 Packout English NOTE: Spectra Precision reserves the right to make changes to the lists of items provided below without prior notice. Standard Accessories The SP80 GNSS Single Receiver Kit (P/N 94334-00) consists of the following items. Item Picture Spare Part (1) SP80 GNSS receiver (Not Applicable) Li-Ion Battery, 2.6 Ah, 7.4 V, 19.2 Wh (Qty: 2) 92600-10 (one battery) Dual Li-Ion Battery Charger (does not include AC/DC power supply and cable) 61116-10 AC/DC Power Block, 65 W, 19 V, 3.
Three different kits specific to the SP80 are available as optional accessories. Item Picture Spare Part (1) SP80 UHF Kit P/N 92673-00 (2): UHF Module (Not Applicable) Base Pole Extension, 25 cm (9.5”) long, with oblong aperture 95672 Rover Range Pole, 2 m (6.5 ft) long, fiberglass, two parts, with specific tapping on top part 89937-10 Soft Bag for Range Pole 95860 T25 Torx Screwdriver, “L” shaped (Not Applicable) SP80 Field Power Kit P/N 94335: Power cable, 0.
English Other Optional Accessories Item UHF whip antenna, Procom, half-wave, with TNC adapter: • 410-430 MHz • 430-450 MHz • 450-470 MHz Ordering P/N: C3310190 C3310196 C3310188 UHF whip antenna, ¼ wave, with TNC adapter: • 410-430 MHz 67410-12 • 430-470 MHz 67410-11 Coaxial adapter cable (for use with P/N 95672) 96845 ADL Vantage Pro Accessories Kit.
English Discover Your New Equipment Take a few minutes to discover your new SP80. Front Panel [4] [6] [1] [2] [3] [5] [7] [8] • [1]: Power button. Hold the button depressed for about two seconds to turn on or off the receiver. • [2]: Display screen • [3]: Battery A LED indicator. • [4]: Battery A compartment. • [5]: Battery B LED indicator. • [6]: Battery B compartment. • [7]: Scroll button. Press this button to scroll through all the display functions (including alarm screens if any).
Bottom View English [7] [9] [8] [10] [11] [12] • [7]: Front panel (see details above) • [8]: Battery A compartment trapdoor • [9]: Battery B compartment trapdoor CAUTION - THE TWO TRAPDOORS SHOULD BE OPENED ONLY FOR INSERTING OR REMOVING BATTERIES. THE REST OF THE TIME, PLEASE ALWAYS KEEP THEM FULLY CLOSE TO PRESERVE WATERTIGHTNESS. • [10]: Power/data connector (DC input + RS232 serial port A). The connector socket is protected by a black rubber cap attached to the receiver case.
English Right-Side View [13] [14] [15] • [13]: SD card holder. An SD Card is a removable memory extension that can be used to: – Record GNSS raw data – Copy G-files from the internal memory – Or install firmware upgrades Maximum capacity according to SDHC standard: 32 GB The SD Card should be inserted into the receiver with its label side oriented downward (pins upward). • [14]: Standard (Mini) SIM card holder.
Left-Side View English [17] [16] • [16]: Rubber flap protecting the USB connector. To preserve watertightness, ALWAYS KEEP FULLY CLOSE when you don’t need to use the USB port. • [17]: USB connector emulating standard RS232 serial port (port B). For use in troubleshooting only. Phase Center Location See diagram below. These are relative measurements. L1 84.6 mm L2 77.6 mm The field software usually calculates the real height of the instrument, based on the location of the L1 phase center.
The height mark ([18]) is nested on the shock absorber diagonally to the front panel. English Height Mark 73 mm 0.239 6 ft Measu red dis tance [18] When the receiver is mounted on a tripod – for use as a base for example – making a slant measurement to determine the instrument height is often more convenient than making a vertical measurement from the ground mark to the antenna base.
English Special Key Combinations The SP80 has three different key combinations requiring that the receiver be initially turned off. See table below for details. Key combination + (Power + Scroll buttons) + (Power + Log buttons) + + (Power + Scroll + Log buttons) Screen Illumination & Buzzer Function Starts a firmware upgrade sequence from the file stored in the SD Card. Enters the Service mode in which the UHF module, if any, is temporarily connected to the receiver’s serial port A for radio settings.
WARNING - This receiver uses one or two rechargeable Lithium-ion batteries. To avoid personal injury or equipment damage, make sure that you read and understand the safety information at the front of this guide. The batteries are shipped partially charged. Depending on the time elapsed since then, the remaining charge may be even less. For this reason, you should first recharge the batteries completely before first use. (See warnings and safety information at the front of this guide.
English Inserting the Batteries [8] [9] [10] Each battery is fitted with four recesses, two on each side (see [8]). These allow you to slide the battery into tabs located at the bottom of the compartment (see [9]). Once the battery is fully inserted, a stop mechanism ([10]) is released by the battery to secure the electrical connection to the receiver (this mechanism prevents the battery from moving longitudinally).
[15] [16] A SIM card is needed to operate the internal modem when the receiver is used in Direct IP, NTRIP or CSD mode. You may also want the receiver to record GNSS raw data on an SD card rather than in its internal memory. In either case, insert the card through the procedure described below: 1. Open the rubber flap with the “SD” and “SIM” markings (on the right), pulling its tongue gently to the right. The tongue is that small part protruding from one end of the flap ([15]). 2.
English NOTE 1: If you only need to access the SD card holder, you may half-open the rubber flap. To do this, place three fingers on the area marked “SIM” on the flap while grasping the tongue to open the flap halfway (see [22]). NOTE 2: To remove a SIM or SD card, simply push the card a little bit further in causing the lock mechanism to be released (a click can be heard). Then release the card, which will then be automatically ejected. [22] Setting up the Receiver 1.
1. After your field survey is complete, hold depressed for about 2 seconds to turn off the SP80. 2. Don’t forget to charge the batteries at the end of your day. Batteries will charge overnight. NOTE: Need to download raw data files from the receiver? Refer to Downloading Raw Data Files on page 34.
Front Panel Displays English The diagram below explains how to scroll through the different displays using the Scroll button. A detailed description of each of them is provided in this section. 2 sec. Raw Data Recording Welcome Memory Management ATL On General Status Memory Error Messages, if any ATL Off Wifi* Modem* SD Card Receiver ID Radio* Position *: Skipped (not shown) if device absent (radio only) or off. NOTE: The screen shots illustrating this section are only examples.
See examples below for a rover (left) and a base (right). Refer to the tables below for more details on each of the icons or data reported on this screen. [1] [2] [3] [4] [5] [6] [7] [8] [9] Area NOTE: In the second column, the slash symbol (“/”) is used between icons to indicate that these icons occupy the area successively at the indicated displaying rate.
English Area [7] [8] [9] [8] + [9] Icon or Data Reported Meaning Where located, the right arrow indicates which battery is currently used. Batteries: A battery has been inserted in the compartment and the energy left in the battery is represented both / {percent} visually and as a percentage. These two indications are shown successively (percentage appears for 1 second every 5 seconds). The battery is missing (the battery compartment is empty).
See examples below for Internal Memory (left) and SD card (right). • 1st line: Memory identifier and capacity. If a left arrow appears at the beginning of the line, this means this memory is currently selected to collect data. • 2nd line: Free memory left (in bytes and percentage of nominal size) • 3rd line: Number of G-files currently stored in memory • 4th line: If data recording is in progress, name of the Gfile currently created. Otherwise, this line is empty.
English projection is defined in the local coordinate system used, coordinates may be either Easting (2nd line), Northing (3rd line), Height (4th line), or Latitude (2nd line), Longitude (3rd line) and Ellipsoidal Elevation (4th line). Devices Rover screen example: Base screen example Devices are always listed in this order: radio (if any), modem and WiFi. See screen examples and descriptions below. If one of these screens is not shown, that means the corresponding device is absent (radio only) or off.
The ATL Recording screen looks like one of the following, depending on whether an SD Card is inserted in the receiver (right-hand screen) or not (left-hand screen). You don’t normally have to record ATL data, but if for troubleshooting purposes, Technical Support asks you to do so, then proceed as follows: • With the ATL recording screen currently displayed, press the Log button. This will cause the receiver to start recording ATL data on the specified storage medium.
English Memory Management The flowchart below summarizes the different tasks you can perform at this point in the management of the receiver memory. ATL Recording Screen Clean up internal memory? No Yes No Delete all G-files? Yes Delete all files? Yes Yes No Format memory? No Yes Do you confirm? In progress... No Back to General Status Screen Power Off Screen When you hold down the Power button for a couple of seconds, the Spectra Precision logo will appear on the screen.
Take a look at the LED indicators on the SP80 front panel to read the discharging status of your batteries (Battery A LED is on the left, Battery B LED on the right). Conventions Used The following color conventions are used to describe the status of each of the two batteries: Color Graphics Green Red White Meaning The battery is being used to power the receiver, or is fully charged and not used. The AC/DC power block has been connected to the receiver.
English Possible Battery Statuses in the Field LED indications Meaning Only Battery A inserted Battery A high Battery A running low Battery A running very low (1) Only Battery B inserted Battery B high Battery B running low Battery B running very low (1) Batteries A and B inserted Arrow on general status screen indicates which battery is being used. Battery A being used is now low. Battery B is high and potentially usable. Next status below should logically follow when battery drops below 1%.
LED Meaning indications AC/DC Power Block Connected to Receiver, No Battery Inserted This LED color combination is obtained only after the receiver has been powered on. AC/DC Power Block Connected to Receiver, Battery A Inserted Battery A fully charged and not used. Battery A being charged from the AC/DC power block (3). AC/DC Power Block Connected to Receiver, Battery B Inserted Battery B fully charged and not used. Battery B being charged from the AC/DC power block (3).
English Possible Error Statuses LED indications Meaning Only Battery A inserted Battery temperature outside of permitted range (1). Only Battery B inserted Battery temperature outside of permitted range (1). Batteries A and B inserted Battery temperature outside of permitted temperature range. Use of any of the two batteries is prohibited (no discharging allowed). (1) AC/DC Adapter Connected to the Receiver, Battery A Inserted Battery temperature outside of permitted temperature range.
When a receiver powered from its battery is left unattended to operate as an RTK base, a special function is implemented in the receiver to let the rover operator (for example) be warned when the last battery in the base is getting low. When this occurs, and provided the underlying communication means are implemented, a text message and an email will be sent respectively to the phone number and email address that you entered while setting the receiver.
Rover Setup English Network Rover A network rover needs to receive RTK corrections over the Internet. This can be done in one of three ways: • Using the built-in cell modem, which can be operated after having inserted the SIM card purchased for this purpose. NOTE: Turn the SIM Card upside down (label facing upward) before inserting it. Once the card has been inserted, close the rubber flap. WARNING - PLEASE, MAKE SURE YOU INSERT THE SIM CARD INTO THE SIM CARD HOLDER AND NOT ELSEWHERE.
Network Base A network base broadcasts its RTK corrections via the Internet. This can be done in one of two ways: • Using the built-in cell modem, which can be used after having inserted the SIM card purchased for this purpose. NOTE: Turn the SIM Card upside down (label facing upward) before inserting it. Once the card has been inserted, close the rubber flap. WARNING - PLEASE, MAKE SURE YOU INSERT THE SIM CARD INTO THE SIM CARD HOLDER AND NOT ELSEWHERE.
English Internal vs. External Power Source [1] [2] _ 30 + Consider the following before setting up a base: • If the base is left unattended for the whole day, you may want to power it from an external power source that will provide enough power for your work day. In this case, you may use the SP80 Field Power kit (see Optional Accessories on page 3) to connect the receiver to an external 12 V battery. See diagram in which [1] is cable P/N 95715 and [2] is cable P/N 83223-02.
English Recording/Downloading GNSS Raw Data Data Recording Flowchart No Raw Data Recording in progress... Raw Data Recording now in progress...
English Reminder: Scroll button: Log button: To start raw data recording: • Have the General Status screen displayed on the front panel display. • Press the Log button. If an SD card is present, you will be asked to specify the storage medium on which to record data: – Press the Log button to select the SD Card – Or press the Scroll button to select the internal memory. With no SD Card present, the above screen will be skipped as data recording will necessarily take place in the internal memory.
To stop an occupation: • From the General Status screen, press the Log button. The following screen is then displayed. • Press the Log button. This takes you back to the General Status screen. Note that raw data recording is still in progress. To start a new occupation (raw data recording still in progress): • From the General Status screen, press the Log button twice. To stop data recording: • From the General Status screen, press the Log button.
English Downloading Raw Data Files GNSS raw data files (G-files) recorded by the receiver (see Step-by-Step Procedure on page 31) can be made available to the post-processing software in one of three ways: • Either you record them directly to the SD card you’ve inserted into the receiver. Back in the office, just remove the SD card from the receiver, insert it into the computer’s SD card reader and start the post-processing phase. • Or you first record them to the receiver’s internal memory.
Batteries Vs. External Power Source The SP80 can be powered by its internal, removable batteries, or by an external power source connected to its Power/Data connector (serial port A; DC input). Typically, one 2.6 Ah battery provides approximately 5.0 hours of operation during an RTK survey.
English Charging Batteries, Scenario #2 • Keep the batteries in the receiver. • Use the AC/DC power block ([1]) that you connect to the receiver’s serial port through a jack/SAE adapter ([2]) and one of the possible two SAE/Lemo cables ([3]). [4] [1] [3] [2] More details are provided on the next page explaining which cables can be used as cable [3]. • Connect the AC/DC block to the power line using the appropriate power cord ([4).
English Using Cable P/N 59044-10-SPN from the Office Power Kit Power/Data Cable * AC/DC Power Block Power/Data Connector Power Cord SAE/Jack-f Adapter Cable * To AC Outlet SP80 *: These items are part of the SP80 Office Power Kit P/N 94336 (option). Using Cable P/N 95715 from the Field Power Kit This cable is primarily designed to power an RTK base from an external battery (see Completing Base Radio Setup With External UHF Antenna on page 50).
Anti-Theft Protection English Theory of Operation Purpose The SP80 integrates an anti-theft function to protect your equipment while it is left operating unattended. This protection is intended for a SP80 operated as a base. The anti-theft protection will discourage the theft of an SP80 receiver by rendering it useless without the anti-theft password. It will also aid in recovery of a stolen receiver by sending messages to its real owner with the receiver’s current location.
From the moment the anti-theft protection is enabled (and an anti-theft position has been saved in the receiver), a theft condition will be detected, and an alert will be issued: • If the receiver has unexpectedly been unable to deliver a valid position for the last 20 seconds or so. • Whenever the protected receiver computes a valid position that is distant by more than 100 meters (around 330 feet) from the anti-theft position.
English There won’t be any possibility for the thief to quit that mode and so the receiver will stay completely unusable (even if the SIM card is removed with intent to use a radio link instead for example). A theft alert will be issued however only if the communication channel (cellular modem, WiFi) has been left operational.
• • • • • • Power on the SP80. Wait until the boot sequence is over. On the data collector, launch Survey Pro and open a job. Select Switch to GNSS to select the GNSS survey mode. Connect Survey Pro to your SP80 via Bluetooth. Create the suitable receiver profile for your SP80. Go back to Manage Instruments and select the receiver profile you have just created. • Tap on . • Select the Alerts tab. This tab contains all the information you need to set the anti-theft protection. It is detailed below.
English – [3] Email Settings: This button allows you to configure your email account (i.e. that of the embedded email sender). You need to provide Survey Pro with the SMTP server name, the SMTP port number (default: 25), the user name and password for outgoing mail, and the sender’s email address (noreply@SP80.com by default). – [4] Password: Tap on this button to enter and confirm the password that will allow the field operator to disable the anti-theft protection.
• Tap to save the new contact. • Create as many contacts as necessary through the same procedure. • Tap again when you are done with the list of contacts. Enabling/Disabling the Anti-Theft Protection After you have set the receiver’s Alerts tab (see Alerts Tab on page 41) to meet your requirements, go to the Survey menu and then select one of the following functions: • Anti-Theft: This function shows the current status of the anti-theft protection (Enabled, Disabled or Alarm Raised).
English Using the AntiTheft Protection in FAST Survey • • • • Power on the SP80. Wait until the boot sequence is over. On the data collector, launch FAST Survey and open a job. Tap Equip to access the equipment menu. Tap on GPS Base. Through the four tabs presented, configure your SP80 base as desired. • Tap to complete the base configuration. • Still from the equipment menu, tap on the GPS Utilities button.
3. SMS tab: Allows you to enter up to 5 different phone numbers that will receive warning SMS, should alerts be set. The check box placed before each phone number entry allows you to quickly include or reject the phone number from the SMS distribution list. You can for example reject a phone number but keep it in memory for future use. Alert Level scroll-down list: Allows you to choose which alerts should be notified to the remote operator through SMS. See previous table for alerts classification.
Using the UHF Kit Option English The SP80 UHF kit is an option that you can use to implement a radio-based, standalone RTK base/rover system (see Optional Accessories on page 3 for more details on all the items provided in this kit). With this configuration, you have full control of your base as you can choose where and when to install and operate it. You will need two SP80 UHF kits to implement a complete radio-based RTK base/rover system. One kit will be installed on base side, the other on rover side.
[2] [1] [3] [4] • Power off the SP80 and turn it upside down. • Use the L-shaped Torx screwdriver provided in the SP80 UHF kit to loosen and remove the four screws ([1]) securing the 5/8” threaded insert plate. • Insert a finger into the 5/8” threaded hole ([2]), then gently pull the plate out of the receiver, making sure you free the ribbon cable anchored to the plate without damaging it ([3]). • Put away the 5/8” threaded insert plate in a safe place, possibly for subsequent use.
English Configuring the UHF Module • Use cable P/N59044-10-SPN from the SP80 Office Power Kit to connect the receiver to the computer (see diagram below). To Office Computer Via USB or DB9 Power/Data Cable * RS232 Serial Port A and DC Input RS232-to-USB Adapter Cable * (If required, may be connected to AC/DC power block via SAE/Jack Adapter Cable *) SP80 *: All these items are part of the SP80 Office Power Kit P/N 94336 (option).
[6] [7] Once the UHF module has been secured to the receiver (see Installing the UHF Module into the Receiver on page 47) and properly configured, do the following: • Screw the UHF whip antenna onto the coaxial connector of the UHF module ([6]). The antenna will therefore be oriented vertically upside down when used. NOTE: Being placed in vertical position, the UHF antenna will stay as sensitive as if it were oriented the other way round.
English Completing Base Radio Setup With External UHF Antenna [8] [9] [10] [11] Two types of base setups are possible with an external UHF antenna: • The UHF antenna may be installed in vertical position on the same tripod as the base receiver. For this setup, you may use one of the available two PacCrest radio accessory kit options.(see Other Optional Accessories on page 4; the two kits are similar in terms of the hardware provided to install the UHF antenna).
[13] Completing Base Radio Setup With Internal UHF Antenna • Screw the pole extension to the threaded part on the UHF module (see [13]). Spin the pole extension, rather than the receiver, taking care not to jam the coaxial cable extension when doing this. • Secure the receiver/pole extension assembly onto the tripod. • Connect the other end (female connector) of the coaxial cable extension to the coaxial cable coming down from the UHF antenna. • Set up the base on the chosen reference point.
Technical Specifications English GNSS Characteristics • 240 GNSS channels – GPS L1 C/A, L1P (Y), L2P (Y), L2C, L5 – GLONASS L1 C/A, L2 C/A – BeiDou B1 (phase 2), B2 – Galileo E1, E5a, E5b – QZSS L1 C/A, L2C, L1 SAIF, L5 – SBAS (WAAS/EGNOS/MSAS/GAGAN) L1 C/A • Patented Z-Blade technology for optimal GNSS performance: – Full utilization of signals from all 6 GNSS systems (GPS, GLONASS, BeiDou, Galileo, QZSS and SBAS) – Enhanced GNSS-centric algorithm: Fully independent GNSS signal tracking and optimal data
• Instant-RTK® initialization – Typically 2 seconds for baselines less than 20 km – Reliability: up to 99.9% English Real-Time Performance • RTK initialization range: over 40 km Post-Processing Accuracy (RMS) (1) (2) Static & Fast Static: • Horizontal: 3 mm (0.118”) + 0.5 ppm • Vertical: 5 mm (0.196”) + 0.5 ppm High-precision Static (3): • Horizontal: 3 mm (0.118”) + 0.1 ppm • Vertical: 3.5 mm (0.137”) + 0.4 ppm Data Logging Characteristics Recording Interval: 0.
English • Environmental characteristics: – Operating temperature: -40° to +65°C (-40° to +149°F) (4) (5) (6) – Charging batteries left inside the receiver using an external power source: The ambient temperature should not exceed +40°C (104°F) – Storage temperature: -40° to +85°C (-40° to +185°F) (7) – Humidity: 100% condensing – IP67 waterproof, sealed against sand and dust – Drop: 2 m pole drop on concrete – Shock: ETS300 019 – Vibration: MIL-STD-810F • Power characteristics: – 2 Li-Ion hot-swappable batt
Data Collectors and Software See SP80 Packout on page 2. English Standard & Optional System Components The following options are available for use with SP80.
Appendix English USB Connection The receiver is fitted with a USB connector that you can use to establish an emulated RS232 serial line with a computer. This connection is made available for troubleshooting purposes only. CAUTION: Please install the required USB driver on your computer BEFORE connecting the receiver. The installer for this driver is one of the files: • SpectraPrecisionUSBSerialSetup_x64.exe (for 64-bit OS) • SpectraPrecisionUSBSerialSetup_x86.
Uploading mode ... Start Upgrade Unpack RFS Record RFS Unpack KERN Record KERNEL Record BOOT Rebooting Updating System {Spectra Precision logo} Uploading mode ... Unpack FW file Start Upgrade Upgrading G5.B Upgrading G5 Upgrading PMU Rebooting {Spectra Precision logo} {Normal receiver start up} 8. Remove the SD card from the receiver. 9. Check that the new firmware is installed (read the second line on the Receiver Identification Screen).
English Restoring Factory Settings This is done by pressing simultaneously the three front panel buttons (Power + Scroll + Log).
The table below lists some of the level-1 and level-2 alerts you should know. All indicate problems that can be remedied without external support. The ANTI-THEFT ALARM is a special one as it requires that you take the necessary steps to get your receiver back. These are left to your own initiative. # Alert 30 No SIM card detected 41 Memory Full 42 49 58 59 82 88 96 99 103 104 Remedy Level Insert SIM card, or replace (silent) SIM card. 2 Free memory space before doing anything else.
Index Symbols English "LOC" 19 "W84" 19 Numerics 3.
QZSS 52 R Radio screen 20 Range pole, 2 m 3 Raw data recording flowchart 31 Raw Data Recording Information 17 Receiver Information screen 19 Remote battery monitoring 27 Removing cards 14 Rover setups 28 S S DGPS 17 SBAS 52 SCR 20 Screen backlight 10 Screwdriver 3 Scroll button 5, 16 SD card holder 7 SD Card, Bluetooth, USB information 18 Send Alert Messages 42 Send Anti-Theft Messages 43 Service mode 10, 48 SHMP 8 Shock absorber 6 SIM card holder 7 Slant measurement 9, 14 Soft bag for range pole 3 Specia
SP80 GNSS Receiver User Guide Contact Information: AMERICAS EUROPE, MIDDLE EAST AND AFRICA ASIA-PACIFIC Spectra Precision Division 10368 Westmoor Drive Westminster, CO 80021, USA www.spectraprecision.com Spectra Precision Division Rue Thomas Edison ZAC de la Fleuriaye - CS 60433 44474 Carquefou (Nantes), France Spectra Precision Division 80 Marine Parade Road #22-06, Parkway Parade Singapore 449269, Singapore ©2014 Trimble Navigation Limited. All rights reserved.
