FAQ

 

1. Does the name 'Rino' mean anything?
2. What is WAAS?
3. What NMEA version does my RINO unit output?
4. Can I use Loran TD coordinates with my RINO?
5. Is the altimeter or barometer temperature compensated?
6. What happens to the pressure plot as my elevation changes?
7. What is normalized pressure?
8. What is the difference between ambient and normalized barometer pressure?
9. How can I use the barometer to track weather patterns?
10. Which pressure plot should I use to track the weather?
11. What do the electronic compass and barometric altimeter provide to the user?
12. Why does the elevation on my unit read 65,000 feet?
13. Why don't I see a pressure plot?
14. Why don't I see an elevation profile?
15. Why is my 'glide ratio to target' blank while I am navigating?
16. Why are the 'total ascent' and 'total descent' different after making a round trip?
17. How do I calibrate the Barometer?
18. Will the calibrated altitude remain accurate if I move to a new location?
19. Can my RINO take a pressure reading while the unit is off?
20. Why does my RINO show a minimal pressure change when I know that I climbed 1,000 feet?
21. Why does my elevation plot show a sharp change in elevation even though my elevation has not changed?
22. Why does the barometer/normalized pressure change when I calibrate the altimeter with a known elevation?
23. How do I update the operating software of my RINO unit?
24. Is my RINO waterproof?
25. Will my RINO float?
26. Can I connect an external antenna to my RINO?
27. How is the Thumb Stick (five-position cursor switch) used on so equipped RINO models?
28. Can I hard-wire my RINO unit directly to a 12 V power source?

 

 

Answers

 

1. Does the name 'Rino' mean anything?
   
   RINO is an acronym for Radio Integrated Navigation Outdoors.
    
2. What is WAAS?
   
   WAAS stands for the "Wide Area Augmentation System".
   
   WAAS is an FAA-funded project designed to improve the overall accuracy and integrity of GPS signals for flying in instrument meteorological conditions, primarily during the approach and landing phases of flight. It is a space-based system that broadcasts integrity information and correction data as determined by ground reference stations. At this time, the system is still in the development stage. The goal is to provide reliable signals with an accuracy of seven meters (21-22 ft), both horizontally and vertically, 95+% of the time. Current tests show the actual accuracy to be on the order of 2-3 meters. (see WAAS).
   
   For those GPS units that are WAAS enabled, a second antenna is not necessary to receive the signal.
    
3. What NMEA version does my RINO unit output?
   
   All Garmin GPS manuals will list the NMEA version (some units output more than one version) for that particular unit. Generally, this information is found in the back of the manual, just before the index.
    
4. Can I use Loran TD coordinates with my RINO?
   
   Garmin has added the Loran TD format to most new GPS units. This will allow consumers who have used Loran in the past to enter their old Loran TD numbers into their new Garmin GPS receivers. The GPS does not receive a Loran signal. It will simply convert the Loran TD that you enter and convert it to Lat/Lon for display or navigation. You will need to know the Loran chain number and the two secondary towers used to record the position you wish to convert to Lat/Lon or navigate to. If you would like more information on Loran TDs and your Garmin GPS unit, please see our Loran TD Position Handbook.
   
   Once you have set up your GPS for Loran TDs, you will be able to enter your Loran TD positions. You can then switch the GPS back to Lat/Lon, and the coordinates will be converted. Since the GPS unit makes the conversion based on a static model, there may be error introduced. You can also get error if an incorrect primary/secondary station is used or the order of if the two secondary stations is incorrect. Because of this error, we recommended you mark these waypoints upon arrival, this time using the GPS signals received for the most accurate position.
    
5. Is the altimeter or barometer temperature compensated?
   
   The barometer, which is responsible for altimeter readings, is not temperature compensated. Temperature changes in the measuring device will affect the barometer and altimeter readings, but these readings will remain within the stated accuracy for the device, approximately 10 feet with proper calibration by the user and slightly higher when using automatic GPS calibration.
    
6. What happens to the pressure plot as my elevation changes?
   
   The ambient pressure plot will reflect your change in altitude because pressure tends to decrease with an increase in elevation. The normalized/barometric pressure plot will remain level as the unit is taking into consideration your changing altitude and calculating this sea-level pressure. It is important to note that this calculation does not compensate for temperature or humidity.
    
7. What is normalized pressure?
   
   "Normalized" is a term used to represent the unit’s estimate of locally reported sea-level pressure (reported from a weather station or airport). Because normalized does not account for the affects of temperature and humidity on pressure, it is not accurate enough to be used to calibrate the altimeter. The term normalized in the RINO is replaced by "Barometer".
    
8. What is the difference between ambient and normalized barometer pressure?
   
   Ambient pressure is a sensor reading from the unit. Normalized barometer pressure is the unit's best estimate of locally reported sea-level pressure for your location. This estimated pressure does not compensate for humidity or temperature.
    
9. How can I use the barometer to track weather patterns?
   
   The rise and fall of the barometer indicates the movement of weather patterns across your area. Typically, a falling barometer indicates clouding conditions that may result in rain. A climbing barometer indicates the opposite, or clearing weather conditions. For more information on pressure trends, there are a number of websites to refer to as well as many books that will give greater explanation of barometric pressure and its relation to meteorological trends.
    
10. Which pressure plot should I use to track the weather?
    
    Plotting the barometer profile over time can be used for general forecasting. A falling barometer generally means clouding weather, while a rising barometer usually means clearing weather. Because a change in ambient pressure will reflect changes in both weather and altitude, an ambient pressure plot over time is not a good indicator of changing weather unless you are certain that your elevation has remained constant over the plotted period of time. The RINO 130 will display a 12-hour ambient pressure profile that is a good indicator of changing weather conditions only in the event that your elevation has remained constant over the plotted period.
     
11. What do the electronic compass and barometric altimeter provide to the user?
    
    The electronic compass allows the user to view his and her heading while either standing still or moving too slowly for the GPS to detect. The barometric altimeter allows the user to track recent changes in ambient air pressure. This allows the unit to calculate a precise altitude reading when properly calibrated.
     
12. Why does the elevation on my unit read 65,000 feet?
    
    This is likely the result of a pressure cell in the unit that is not functioning properly. You will need to return the unit to Garmin for service or repair. Please either call (1-800-800-1020) or e-mail Product Support for an RMA number and return instructions.
     
13. Why don't I see a pressure plot?
    
    The Pressure Plot page shown on the RINO 130 will display plotted pressure values up to 12 hours previous to the current time. These units will not display a pressure plot if they have not been powered on during the specified number of hours. Clearing the active track log will not clear a current pressure plot.
     
14. Why don't I see an elevation profile?
    
    You must have an active track log (not a saved track log or activated TracBack) to see the elevation profile. If you have cleared your active tracklog, you will not be able to view your elevation profile.
     
15. Why is my 'glide ratio to target' blank while I am navigating?
    
    Glide ratio to target will only appear if you have activated a GoTo and the waypoint you have chosen has a listed elevation that is significantly lower that your current GPS elevation.
     
16. Why are the 'total ascent' and 'total descent' different after making a round trip?
    
    Even when the unit is lying still, it is receiving signals from satellites and continuously calculating a position. In doing so, the unit is adding together small fluctuations in GPS altitude which, over time, produce the larger difference in total ascent and total descent that you may notice.
     
17. How do I calibrate the Barometer?
    
    This is a trick question, so be careful! What you are actually calibrating when you want to view the correct elevation or normalized barometric pressure is the altimeter (sometimes called barometric altimeter). The barometer is simply a sensor that determines the ambient air pressure, or the pressure around you. Once a pressure reading has been obtained, you can calibrate the altimeter based on either a known elevation or the barometric/normalized pressure.
     
18. Will the calibrated altitude remain accurate if I move to a new location?
    
    The calibrated altitude will be accurate only as long as you do not move into an area where the weather conditions are different. If the weather conditions are different, you will need to recalibrate the altimeter based on a new known elevation or correct pressure.
     
19. Can my RINO take a pressure reading while the unit is off?
    
    The RINO will not collect pressure readings while the unit itself is powered off. However, you may turn the GPS acquisition "Off" in the Setup Menu to conserve battery power while continuing to collect pressure readings. In this case, the unit itself is not off, only GPS acquisition. 
     
20. Why does my RINO show a minimal pressure change when I know that I climbed 1,000 feet?
    
    Small pressure changes represent relatively large changes in elevation.
    
    1,000 ft = 1"Hg or ~40mb
    
    For instance, when you begin a hike, you may look at your GPS unit and notice that the ambient pressure reading is 29.60"Hg. Later, after climbing what you know to be a 1,000-foot gain in elevation, you may notice that the ambient pressure reading is now 28.60"Hg. Using the 1,000ft = 1"Hg relationship, the difference in pressure (29.60Hg - 28.60 = 1.00Hg) represents the gain/loss in altitude.
     
21. Why does my elevation plot show a sharp change in elevation even though my elevation has not changed?
    
    The sharp change in elevation may be due to changing ambient air pressure. This behavior signals the need to recalibrate the altimeter with either a known elevation or the barometric pressure. This also may be due to the unit performing an auto-recalibration that uses GPS elevation to set the altimeter. If the ambient air pressure has been rising over time and the altimeter elevation has climbed, an auto-recalibration based on GPS altitude may result in a sharp decrease in this altimeter elevation value.
     
22. Why does the barometer/normalized pressure change when I calibrate the altimeter with a known elevation?
    
    Because the barometer/normalized pressure is calculated based on ambient pressure and elevation, changing the elevation will change the barometer/normalized pressure. For example, if you were to calibrate the altimeter with a known elevation of 2,500 ft, when the ambient pressure was 27.40" Hg, the barometric/normalized pressure would be around 29.90" Hg. This is based on the following rule of thumb: 1" Hg = 1,000 ft. If you were to recalibrate the altimeter while reading the same ambient pressure, but with a new elevation of 2,000 ft, the barometer/normalized pressure would now read about 27.90" Hg.
     
23. How do I update the operating software of my RINO unit?
    
    See Firmware > Installation.
     
24. Is my RINO waterproof?
    
    See the Specifications page.
     
25. Will my RINO float?
    
    Currently, only the Garmin GPS 7x and GPSMAP 7x models will float in water. Garmin recommends the use of lanyards to help ensure that handheld units are not lost overboard in a marine environment.
     
26. Can I connect an external antenna to my RINO?
    
    While RINO models are WAAS capable, none possess the ability to attach an external antenna. If you are looking for units that do have the capability to use a remotely mounted antenna, please look at our other products outside of the RINO family. A variety of product options are available.
     
27. How is the Thumb Stick (five-position cursor switch) used on so equipped RINO models?
    
    Please see Function > Button Operation for your RINO model.
     
28. Can I hard-wire my RINO unit directly to a 12 V power source?
    
    The RINO units rely on external voltage regulation and cannot be wired directly to a 12 V power source. Doing so will result in damage to the unit that is not covered under warranty.