Trimble r6 manual espaol
Continue to hold E. After 30—40 seconds, all LEDs turn off. All LEDs turn on and then off. The Power LED blinks a few times and then stays on. LED states Generally, a lit or slowly flashing LED indicates normal operation, an LED that is flashing quickly indicates a condition that may require attention, and an unlit LED indicates that no operation is occurring.
Possible LED states are shown below. LED flash patterns Possible flash patterns that indicate states of receiver operation are shown below.
For the RTK survey method, the controller must be attached to the rover. Depending on which version of GPS receiver you have, when the receiver is connected by cable or by Bluetooth wireless technology to a Trimble controller, you can log GPS data from the receiver to the controller, or to a PC card inserted in the controller. When you use a Trimble controller, you do not use the controls on the receiver.
Instead, you use the controller functions to set logging options, to specify file names, and to control when data is stored in job files, which can then be transferred to the office. For more information on logging data from a receiver using a Trimble controller, refer to the user guide for your controller. To reset the receiver to its factory default settings, make sure that the receiver is turned off and then press and hold the power button E for 15 seconds.
Power input The receiver can be powered by its internal battery, by an external power source connected to Port 1, or by both.
Typically, one internal Lithium-ion 2. When transmit mode is in use, the operating time is approximately 3 hours. When external voltage of less than 15 VDC is applied, the receiver turns on automatically. If an external power source is connected to Port 1, it is used in preference to the internal battery.
When there is no external power source connected, or if the external power supply fails, the internal battery is automatically used. The batteries charge sequentially and take approximately three hours each to fully charge from a full discharged state. The battery pack has an auto-reset circuit breaker, but short circuits may cause the battery pack to catch alight or to burn you.
Charging the battery The battery is supplied partially charged. Note — All battery types discharge over time when they are not being used. Batteries also discharge faster in colder temperatures.
To protect the battery from deep discharge 5 volts or less , the receiver stops drawing power when the battery pack discharges to 5. The receiver shuts down with no damage to receiver or battery.
The deep discharge protection circuit can be triggered if a battery with a low charge is left for several weeks. To try to recover a battery that has reached the deep discharge level, place it in the 2-pack charger. This may not always succeed. If the battery reaches this deep discharge state, it sets a protection circuit, also called the sleep or protection mode.
There is no damage or limiting of the life expectancy on the battery but the customer must replace the battery or send it to a Service Provider to recover it. If you use them in this depleted state, it will reduce their life expectancy. To ensure a full charge, and to optimize the life of the battery, leave it to charge overnight. Batteries may be kept on the charger indefinitely without damage to the batteries.
If you must store the batteries, fully charge them before storing, place them in a plastic bag, at room temperature, then fully recharge them at least once every three months. Battery charging is done externally using the 2-pack charger. You cannot charge the internal Lithium-ion battery by applying more than 15 volts to Port 1.
The 2-pack charger is included with all new receiver systems. Only a Trimble branded battery is authorized for use within Trimble products. Use of any other battery limits or voids any warranty for the product. The battery generally carries a 1-year warranty. Warranty is not offered on non-Trimble batteries, batteries that have been misused used outside of their stated operating specifications , or for normal wear and tear.
As the number of cycles approaches the maximum, the support capacity decreases. A new battery may have 6-hour support capacity, but an older battery may only have 1 hour. This is normal wear and tear. There are many variables when assessing the life of a battery.
Using the batteries for UHF transmission reduces this life expectancy to about 2 years. Power output The receiver does not output power from either of its two ports. The internal Lithium-ion battery is not charged when external power is applied to the receiver. Thread the receiver onto the range pole. Attach the controller bracket to the pole.
Insert the controller into the bracket. No cabling is required for a Trimble controller. Other system components You can use the following optional components with the receiver. You can also connect an external radio to either serial port, whether the internal radio is installed or not.
The customer can add receive-only frequencies. To add transmit frequencies directly into a connected unit, the customer must install a file that is generated and sent to them by the Service Provider or Trimble.
The UHF Transmit switch must be enabled before you can add transmit frequencies. Use the WinFlash utility to program licensed frequencies before you use the receiver.
Cellular modems and external radios Instead of the internal radio, you can use a cellular modem or external radio as the data communications link. This cable is supplied with the cellular modem or phone. Port 2 of the receiver supports full RS protocol, and should function correctly with most cellular phone cables.
Some cellular units may require custom cabling. For more information on using a cellular modem as a data link, refer to the Trimble Survey Controller User Guide. Application files An application file does not have to contain all of these records. When you apply an application file, any option that is not included in the records in the file remains at its current setting. For example, if you apply an application file that only specifies the elevation mask to use, all other settings remain as they were before the application file was applied.
You can store up to twenty different application files in the receiver. You can apply an application file's settings at the time it is transferred to the receiver or at any time afterwards.
Special application files The receiver has three special application files, which control important aspects of receiver configuration. This file configures the receiver after it is reset. To reset the receiver, hold down E for at least 15 seconds, or use the reset option in the GPS Configurator utility. Although you cannot change or delete the Default application file, you can use a Power Up application file to override any or all of the default settings.
Whenever you change the receiver's configuration, either in real time or by applying an application file, the Current file changes to match the new configuration. You cannot delete the Current file or change it directly, but every change to the receiver's current configuration is applied to the Current file as well. When you switch off the receiver then turn it on again, all the settings from the Current application file are applied, so you do not lose any changes that you have made.
The only exceptions are the following logging parameters: — Logging rate — Position rate — Elevation mask These parameters are always reset to the factory default values whenever the receiver is switched off. You can specify that the receiver is reset to defaults before the Power Up settings are applied. This ensures that restarting the receiver always resets it to factory defaults prior to applying the Power Up application file.
Alternatively, you can specify that the Power Up settings are applied immediately after the Current application file's settings have been.
Restarting the receiver results in a configuration that uses your default settings for the options you define in the Power Up file, but the current settings for all other options. By default, there is no Power Up application file on the receiver. If you want to use a Power Up application file, you need to create an application file in Configuration Toolbox and make sure that the Auto Power Up file option is selected in the File page.
The Power Up file is the only special application file that you can overwrite or delete from the receiver. Applying application files An application file's settings do not affect the receiver's configuration until you apply the application file.
You can do this at the same time that you save the file. Alternatively, you can save the file on the computer or in the receiver, then open it later and apply its settings. Storing application files You can store application files that you create in Configuration Toolbox on both your receiver and computer.
For example, each file can represent a different user sharing the same receiver, or a particular mode of operation or survey style. Naming application files The file name that you use to store the application file in the computer and the name under which the file is stored in the receiver are always the same. This makes recognizing and keeping track of your application files easier. If you change the name of the file on the receiver, this changes the file name used to store the application file on your computer.
Similarly, if you change the file name on the computer, the name of the file in the receiver will change. Interfaces 4. Radio connector Port 2. Each receiver port or connector is marked with an icon to indicate its main function, as shown below. Computer Supports RS comms. External radio Power in only. Computer Full 9-pin RS comms. External radio No power in or out. Not required if you use an external radio receiver. This assumes that the cable is attached to the connector labelled Port 2.
This data cable may be used for firmware upgrades and other computer functions with the receiver. Power must be supplied to the receiver through Port 1, or from the internal battery. This cable may be used for firmware upgrades through the receiver Port 1, while also supplying external power. This assumes that the cable is attached to the connector labeled Port 1.
Troubleshooting 5. It lists the tools needed for troubleshooting, describes how to analyze faults in the unit, and provides a list of error codes and their meanings. Test when received Test the unit when it is received and again before shipping it back to the customer see Test before shipping, page Name Element Pass 3 Inspection test Check for cracks and physical damage and missing parts and record the details Record all parts included with shipment.
For more information, see Chapter 9, Service Software. Many of the new RoHS compliant parts may be used for the non-compliant receiver. Make certain that you use the required part. You may be able to upgrade some options on some receivers—please discuss this with a Trimble Sales Representative. Older 2-pack chargers, which have no microswitch in the battery bay, cannot fully charge newer batteries.
What other problems did you find? Please list the solutions in the same order as the failures. This information provides a starting point for a more complete report. Example of a complete report The following example shows typical information that Trimble needs in order to help you. The customer has tried to install a radio that is not allowed in the Trimble R6 receiver, or that was possibly shipped from the factory by mistake.
Error message that radio is not supported. SP verified fault Confirmed that radio cannot establish communications. Error message. UHF Transmit is enabled. Solution Hardware is not compatible with the receiver. Discuss with customer where radio door is. Found and installed. All Trimble Specifications tested and passed. Possible failures and suggested solutions The following symptoms may indicate failures in the receiver.
Some possible solutions are suggested. Condition Possible cause Solution The SV Tracking LED is lit The receiver is in monitor mode, — Turn the receiver off, wait 10 seconds and solidly and the ready for new firmware to be then turn on the receiver again. Try the suggested solutions in the order given. Solutions that do not require you to open the receiver are listed first. Symptom Without opening the unit, Open the unit and then try the following try the following LEDs turn on then turn off — Replace the battery.
Replace the door if the pads are worn. Replace if required. Replace the processor sensor board. Receiver rattles — Attach any loose dust caps. Water in receiver — Verify that there is no corrosion on the boards. If one board has corrosion, replace that board; if all boards have corrosion, replace the entire unit. Use de-ionized water or denatured alcohol to clean off any residue.
Do a seal integrity test. Symptom Without opening the unit, Open the unit and then try the following try the following Receiver does not turn on — Check the battery fuses.
Receiver does not — Turn off the receiver, wait 10 seconds respond and then turn it on again. Symptom Without opening the unit, Open the unit and then try the following try the following No satellites — Go outside to an area clear of — Check the L1 coax from the LNA to the obstructions.
You may need — Check for RF interference from to replace the coax for the test. You may need to replace transmitters. You may need to replace the coax for the test. Then try Port 2 with the cable. Run the KillActiveSync program. Cannot connect to the — Use the Lemo type cable at first. If that does not resolve the issue, do a second reset.
Bluetooth wireless controller. Turn on the receiver. Some USB versions have higher power and can jam up to meters feet. Bluetooth emission from the controller is somewhat directional.
Scan for a Bluetooth signal. If the relationship is corrupt or the serial number of either device does not match the communication will fail until renegotiated.
Receiver does not log — Insufficient internal memory. Symptom Without opening the unit, Open the unit and then try the following try the following Cannot connect to a — Make certain that the TSCe controller — Re-install the radio module. The TSCe controller has — Replace the processor sensor limited capability. Symptom Without opening the unit, Open the unit and then try the following try the following No radio reception — Verify every radio parameter for the — Check that the radio module is receiver and for the base plus correctly installed in the receiver.
The parameters selected — Replace the radio module. Note — The above test is critical. Note — Poor terrain trees, hills or buildings can decrease the transmit signal strength the range between the base and the rover.
If not OK, you have a TX failure. If OK, you have a problem on the RX radio side. Watch closely the original RX radio operation as well as that of the substitute.
Symptom Without opening the unit, Open the unit and then try the following try the following Poor radio reception — Is the Rover beyond the radio range — Check that the radio module is of the transmitter. Watch closely the original RX radio operation as well as the substitute.
If both RX radios perform poorly, there is probably external noise. Try another frequency. Move the RTK system to a different location. This is not a system failure.
Symptom Without opening the unit, Open the unit and then try the following try the following Base reference receiver — Check that the port settings between is not broadcasting the reference receiver and the radio are correct. If no connection is made, connect directly to the radio and change the port settings. Try to connect through the receiver again to ensure that they are communicating.
Roving receiver is not — Check if the reference receiver is not receiving radio signals broadcasting. Maintenance and Repair 6. For details, see Chapter 2, Specifications. The receiver can withstand the rough treatment that typically occurs in the field. Avoid using the receiver within meters approximately ft of powerful radar, television, or other transmitters. This may appear different on newer receivers. C Caution — Use only the exact torque specified for each step.
To disassemble the receiver, complete the following steps in the order given. Remove the battery. See page Remove the radio module. Remove the radome. Remove the antenna patch. Remove the processor board. Remove the endoskeleton. Remove the keypad. Removing the battery 1. Turn the receiver upside down. Squeeze together the buttons on each side of the battery cover and then pull away the cover.
The following figure shows the inside of the battery cover. The two foam pads can wear down, resulting in intermittent receiver operation power cycling. Step 2. Removing the radio module 1. Use a 1 Phillips screwdriver or bit to remove the six Phillips screws from the radio module access door. Note the two screw sizes and the use of Nylock washers on two of the screws. See Figure 6. Remove the radio module from the radio bay. Radio bay. Step 3.
Removing the radome 1. Use a 1 Phillips screwdriver or bit to remove the five Phillips screws from around the perimeter of the receiver. These screws hold the radome to the lower housing.
Note — To help you to reassemble the receiver, note the position of the raised radome and the central Trimble logo, relative to the keypad, and the mark on the inside of the radome that shows the mounting direction.
Remove the perimeter gasket from the lower housing and fit it onto the radome. The gasket can be fitted only one way. A gasket is included with a new radome. Step 4. With the keypad facing toward you, lift up the front of the antenna patch. Do not lift it more than 7. Use needlenose pliers to prise the front semi-rigid coax cable connector away from the board connector.
Do not bend the cables. Semi-rigid coax cables. Coax cable connections. Disconnect the first cable. With the pliers, grip the roughened area of the coax connector and then push towards the back. Disconnect the other cable. Repeat Step 3 and Step 4. Lift the antenna patch up out of the lower housing.
The following figure shows the processor sensor board. The red and black wires are from the battery contacts. Battery contact wires. Turn the antenna patch over. The semi-rigid coax cables are visible. Step 5. Removing the processor board 1. Use a 1 Phillips screwdriver or bit to remove the two battery cable screws that attach the battery power cables to the processor board.
With the keypad facing you, the red cable is on the right and the black cable is on the left. Battery cable screws. Use a 1 Phillips screwdriver to remove the seven Phillips screws from the processor board.
One of the screws, near the middle of the board is covered by a foam pad. Remove the processor board from the lower housing and set it aside. Step 6. Removing the endoskeleton The endoskeleton is immediately below the processor board. Use a 1 Phillips screwdriver or bit to remove the three Phillips screws that attach the endoskeleton to the lower housing. Remove the endoskeleton from the lower housing and set it aside. Keypad flex cable. Step 7. Removing the keypad 1.
If necessary, cut away any RTV silicone sealant from around the keypad exterior. On the lower housing interior, cut away any RTV from the keypad flex cable as it comes through the housing. Remove the keypad and then thoroughly clean any RTV residue from the housing. Step 8. Turn the receiver over so that you can access the connectors on the underside.
Use a Lemo connector nut tool to remove the Lemo connector-style nuts. During reassembly, you will replace this nut with a standard Lemo nut, which has two flat faces rather than notches. The special 4-notch Lemo nut tool is not currently available. Lemo connector Lemo nut. Phillips screw. This figure shows the DB-9 connector from the inside.
The Lemo connector can be replaced separately. Note — Bold red characters indicate a torque specification, for example Torque to 5 pound force inch To reassemble the receiver, complete the following steps in the order shown: 1.
Replace the keypad. Replace the endoskeleton. Replace the processor board. Replace the antenna patch. Replace the radome. Replace the radio door assembly. Replace the battery. Replacing the keypad 1. Make sure that the keypad area is thoroughly clean inside and out.
Remove the backing from the new keypad and then insert the flex cable through the existing hole in the housing. Feed the cable through fully. Press the keypad along the edges so that it sits firmly in place on the lower housing.
For good adhesion, continue to firmly press for 30 seconds. To ensure a seal, apply a small bead of non-flow, non-corrosive RTV GE to where the flex cable feeds through the housing.
Feed the Lemo connector through the hole. Tilt the DB-9 connector to one side and then press it into place in the lower housing. Tilt the connector back in the other direction to engage it in the lower housing through-hole. Do not apply Loctite. Torque to 6 pound force inch 68 Ncm. Turn the housing upside down. Apply a small bead of RF-type Loctite to the Lemo connector threads. Do not use Loctite Replace the 4-notch connector nut on the connector with the standard Lemo version, which has two flat faces rather than notches.
Use the appropriate connector tool. Torque to 18 pound force inch Ncm. Replacing the endoskeleton 1. Place the endoskeleton into the lower housing. There is a notch in the endoskeleton that engages the lower housing tooth. There is also a flat area to allow keypad clearance. Note the two filter feedthroughs in the endoskeleton.
These distribute power from the battery to the processor board. Also note the very close tolerance of the center pin of the feedthrough, relative to the shell. The battery contact tang could possible short across the feedthrough, so inspect the contacts for shorts or damage. Endoskeleton feedthroughs. Replacing the processor board 1. Make sure that the blind mate connector on the underside of the board engages correctly. One of the screw holes is under a Poron pad.
Make certain the ring terminal does not contact the endoskeleton. The insulators are not included. Make sure that the plastic ring that holds the O-ring in place is installed and then install the O-ring so that it rests on the plastic ring. Replacing the antenna patch 1. Turn the antenna patch upside down to access the semi-rigid coax cables. This is the cable identified with a dot in Step 8 on page Replace the antenna patch onto the lower housing.
With the keypad facing you, lift the antenna patch to access the coax cables from the patch. Make sure that the coils in the coax cables are placed in the wells or pockets in the lower housing. Do not disturb the coax coil radius. Use the needlenose pliers to push the back cable connector onto the processor board connector. Do not lift the antenna patch up too far or you will crimp the coax cable.
Insert the cable directly not at an angle into the mating board connector. If the board connector is damaged, replace the board. Repeat Step 5 above for the front coax cable. This cable has a right-angle connection. Make sure that the coax cables are correctly routed and that there is nothing interfering with their path. Push the antenna patch onto the lower housing. The notch in the patch engages the key on the lower housing.
C Caution — If there is significant resistance when you push the patch down, stop immediately. Make sure that there is no interference. You may have installed the coax cables into the antenna patch connectors in the wrong order crossed over the wrong way. Install all six of the T-shaped, black plastic plugs, which the LEXAN bolts go through, into the top of the antenna patch. See Chapter 7, Assembly Drawings.
Tighten them slightly by hand. Repeat this until all bolts are correctly tightened. Replacing the radome 1. Make sure that the perimeter gasket on the radome is correctly installed.
Point the arrow toward the keypad in the lower housing. Put the radome in place, hold it together with the lower housing and then turn them upside down. Use a torque wrench with a 1 Phillips bit to tighten the screws in a rotational sequence, that is, apply turns to each screw and then move on to the next screw. Some screws may be Torx T8—use the Torx T8 tool for these. Repeat this until all screws are correctly tightened. Replacing the radio door assembly 1.
Turn the receiver upside down and place the radio module into its bay. Torque to 5 pound force inch When correctly engaged, the side catches click into place. Part replacement actions The following table describes what you must do when you replace the specified part. In all cases, you must complete the evaluation checklist and the part must pass. Use the part list and associated drawings to confirm the correct part and description. You may need to order more than one part when you replace certain items.
Note — Radio doors are undergoing a slight change. Installation instructions are included with the radio door. Install the product label. Let it cure for at least three hours. The original date of the unit will be used for the password. If the password is incorrect, provide Trimble Support with the sales order information for where the extended firmware warranty was purchased.
Install the firmware end date password. See Note. This board requires firmware 3. Firmware warranty — This may be purchased through Trimble Sales. Trimble sends extension a password with a new firmware end date.
The installation is usually done by the customer. Trimble will not pay for the installation of the password or firmware upgrade except in special circumstances.
Purchase this option models through Trimble Sales. Firmware version 2. Firmware 3. Hardware warranty — This may be purchased through Trimble sales. It does not extension require any action on the unit such as a password. Note — Some of these process actions are being modified. Checking the unit Note — The repair is not complete until you have checked the reassembled unit and completed the necessary checklist. Examine the reassembled unit.
Make sure that the screws are firm and that the perimeter gasket is not pinched or damaged. Test the unit for proper operation. See Chapter 8, Adjustment and Verification. Check the integrity of the seal on the unit: a. Insert the vacuum port adaptor into the underside housing of the receiver. When done, remove the vacuum port adaptor and then reinstall the 2 Phillips screw.
Torque to 16 pound force inch Ncm. Radio door compatibility and shielding methods This section describes the compatibility of radio doors with receivers, and several different shielding methods. Compatibility Because of the many changes in radio doors, the following compatibility limitations exist. SPS Do not use in other receivers. They are for use in the with firmware 3.
Use only those radio door PNs specified for a receiver. More information will be included with the new radios, and published in a Service Bulletin. Radios allowed in receivers The door colors will be different for GPS receivers used in different markets.
Follow the part lists carefully for each receiver and do not substitute parts that look the same. Most of these shielding methods are applied to the radio door. However, method 3 has the shield applied to the endoskeleton of the GPS receiver and poses problems.
The Trimble R6 receiver uses shield method 4. Method 2 is most effective for greater range between the base and the rover. The pad contacts and grounds the radio to the endoskeleton. Method 2 Primarily used in the versions of radio doors, this is a metal plate with several copper fingers, which contact the endoskeleton, and ground the radio to the GPS receiver.
For better performance, you can use this method on other -4X radio versions. Copper fingers. Two PEM nuts on the radio door are the primary contact to the endoskeleton EMI pad, which the radio contacts and grounds to.
This method offers special problems. Most new radio doors will use method 4. Since you are probably replacing the radio door, it is very likely that it uses shield method 4.
In this case, you must remove the EMI foam pad from the endoskeleton and clean the surface thoroughly before installing the new radio. PEM nut: one of two. EMI foam pad. Make sure that you do not also use shield method 3. If two foam pads are installed, the radio is not correctly grounded and will have poor receive range.
Transmit distance is not affected, although GPS jamming could occur. L-shaped bracket shield. A special radio door assembly contains a cellular modem that can transmit and receive using a cellular phone service carrier.
The customer selects a local cellular phone service carrier to provide RTK corrections. The customer buys a SIM card, either from a local cellular phone service carrier or from the Service Provider. The customer cannot install, test, or activate the cellular service on the GPS receiver. Only the Service Provider or Trimble may do this. The SIM card can be installed once and cannot be removed. GSM door activation requirements The customer chooses their preferred cellular phone service carrier to operate the Trimble R6 receiver.
In most cases the SIM card is activated when the cellular subscription is completed. The T-mobile cellular phone service carrier has been used with the Trimble R6 receiver but the customer is not limited to this one carrier.
Charge the customer for the cellular phone activation if you purchased a SIM card for the customer , and give full account details to the customer. Trimble recommends that you record the product serial number, GSM IMEI number, and other important information for future service needs.
The customer, or a dealer who is not an Authorized Service Provider, is not authorized to remove the GSM radio door assembly. This is a unique identifier on each GSM module. Make sure that the receiver has the firmware version 3. Run the WinFlash utility. To enable the GSM cellular option switch, a password from Trimble is required. Note — - Firmware version 3.
Use the WinFlash utility to check this. To determine which configuration options are enabled, use the WinFlash utility. Step 3: Installing the SIM card a. Arrange with the customer which SIM card to use in the receiver. This could be a SIM card provided by the customer, or one that you purchase for them. Trimble recommends that you buy and activate the SIM card for the customer. You must have all customer billing details available for the cellular phone service carrier to start billing.
Trimble also recommends that you have a SIM card for service testing purposes. Step 4: Testing the receiver a. To test the receiver, use a WinFlash diagnostic tool. Alternatively, use the TSCe controller to make and receive a call. Make sure that you have a base GPS receiver with an active cellular phone for data transmission.
The unit must pass the system test. Perform the Seal Integrity test, see page Customers may purchase an upgrade. In the WinFlash utility, this is called Cellular. Disassembling the receiver To remove the radio, see page The GSM radio door assembly is shown below. Note — Bold red characters indicate a torque specification, for example Torque to 6 pound force inch 68 Ncm.
Always torque to the exact pressure specified. Do not exceed these specifications. Installing the SIM card 1. Locate the SIM card connector on the radio door assembly. Open the connector strain relief, and then carefully insert the SIM card into the connector.
In all newer radio doors, there is an L-shaped grounding bracket. If you find an L-bracket on the radio door, you must remove the EMI foam pad from the endoskeleton. Do not use both shielding methods foam pad and L-bracket together. Install the radio door assembly into the radio door bay. The blind mate connector is common to all door assemblies; make sure that it clicks into place before you install the mounting screws. Note — The following figure shows the radio door that uses shielding method 3, which you are unlikely to see on a Trimble R6 receiver.
All new radio doors use shielding method 4. Torque to 6 pound Force Inch 68 Ncm. Do the following:. Reassemble the unit. Registering the Trimble R6 Bluetooth device with the controller 1. Make sure that the box next to the Enable BT check box is selected. Select Scan. The Trimble R6 receiver appears in the Untrusted column. Double-click that item and then select No. The Trimble R6 receiver appears in the Trusted column.
Click OK. Connecting to the receiver and getting CSQ 1. Start the Trimble Survey Controller software. Make sure that the CSQ is acceptable. For a voice call, the relationship between CSQ and performance is similar to that of a cellular phone. Setting up a survey style 1. Enter Trimble Internal. Give the dial-up a known working local telephone number and then press Enter.
The new entry with a name and phone number appears on the menu. Select that entry. Creating a new job to make a call from the receiver through the controller 1. Give the new job a name, select Enter and then select Accept.
Start the survey. The receiver should make a call to the chosen phone number. If the phone rings, the SIM card has been installed correctly and the service set up properly. Cancel the operation to hang up the phone. You can use it instead of the TSC2 test. The test validates that the SIM card is correct and installed properly.
It tests the GSM network connection at the location of test. Running the test 1. If necessary, download the GSMcheck utility from the Trimble Partners website and then install it on the office computer. Use a serial cable to connect the receiver to Com1 on the computer. You can use either the DB-9 port or the Lemo port.
Select or enter the following, according to your specific requirements: a. Otherwise, the program tells the modem to call the number. The user needs to be able to pick up and then hang up the call. The user enters these into the controller, which sets them in the modem.
Possible issues are that the user has not done this, so the settings are not present, or the service operator wants to make a test with their SIM and their GPRS service.
The original settings are restored. Click Test. While the test is running, a window shows each test element and writes the information to a log file:.
The test takes a few minutes to complete. Once the test is finished, the Cancel button changes to Close. You should see Passed for each of the test elements. Supporting information: Test flow The information appears in the log file as shown above. The test elements are listed below, in order, and described. You can use this log file as a Help file when you run the GSMcheck utility. No real validation is performed on any of these values, except that they were successfully retrieved.
Test element Description Resetting modem The modem is reset only if it is found to be in the sleeping state. If it is asleep, the wake command is sent and then the program repeatedly tries to get an acknowledgment from the module. If this step fails times out , either the module is not responding at all, or there is no SIM. This will fail only if there is no response to the request, or if the IMEI is empty or does not start with a digit.
If for "Rest of World" RoW , it must be … However, a "dummy" IMEI value, is also allowed. Will pass if it gets anything back. Must have voice and GPRS. This should check the bits, but currently expects the value "" Checking Software revision:"a09gg" Checks that the revision starts with or The rest of the string is not important here.
For Americas, the number should start with Q For RoW, it should start with Q Checking Hardware version Apagado: Diseado para soportar cadas del jaln a 2 m de altura sobre concreto.
Almacenamiento de datos: Memoria interna de 11 MB, ,6 horas de observables 2 La precisin y la confiabilidad pueden estar sujetas a anomalas debidas a errores por trayectoria mltiple, brutos aprox. La confiabilidad de la inicializacin se controla continuamente para asegurar la ms alta calidad. Al usar un receptor y una radio interna en modo de transmisin, se recomienda usar una batera externa de 6 Ah o ms. Todos los derechos reservados. Trimble y el logo del Globo terrqueo y el Tringulo son marcas comerciales de Trimble Navigation Limited, registradas en los Estados Unidos y en otros pases.
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