The SparkFun RTK Torch is your one-stop shop for high-precision geolocation and GIS needs. We compiled your wish list and got it all: tri-band reception, tilt compensation, and millimeter accuracy; all protected inside of a waterproof housing.
With just the press of a button, the RTK Torch is the fastest way to take millimeter-grade measurements. By connecting your phone to the RTK Torch over Bluetooth, your phone or tablet can receive the NMEA output and work with most GIS software. This is exactly how professional-grade surveying devices have been operating for the past decade - we just made it faster, more precise, and a lot more economical.
The RTK Torch includes a feature we call Zero-Touch RTK. Give the device the WiFi credentials for a hot spot or other WiFi network and it will begin getting corrections without any further setup. No NTRIP credentials required! These corrections are obtained over WiFi from u-blox PointPerfect and are available in the US, EU, and various parts of Australia, Canada, Brazil, and Korea (see the coverage map). The RTK Torch includes a one month free subscription to PointPerfect. Additional subscriptions can be purchased if desired. If PointPerfect coverage is not available in your area, corrections from a local base station or service can be provided to the device over NTRIP (delivered via Bluetooth or WiFi).
We've upgraded the housing to a fully IP67 rated enclosure, so it’s waterproof when submerged up to 1 meter for up to 30 minutes when the USB cover is closed. The RTK Torch comes in a hard sided carrying case with lots of room for a tablet, data collector, or other device.
Under the hood of the SparkFun RTK Torch is an ESP32, a UM980 L1/L2/L5 high precision GNSS receiver from Unicore, and an IM-19 for tilt compensation. The addition of the L5 reception makes this portable GNSS device ideal for densely canopied areas where normal L1/L2 reception may have problems.
This device can be used in a variety of modes but these are six of the most common:
For more information on how each of these modes work, check out the hookup guide.
The RTK Torch runs open source software meaning you can fully obtain, see, and even modify the functionality of the device. This allows for easier feature expansion, bug maintenance, and longer device longevity.
The SparkFun RTK Torch kit includes everything you need: the enclosed device, thread adapter, charger, data cables, and carrying case, along with a free one month subscription to PointPerfect for RTK corrections via Internet. It does NOT include a surveying pole. Any additional items will need to be purchased separately.
Supported GIS Data Collector Software:
Overall Device
GNSS Receiver: UM980
Bluetooth® Transceiver: ESP32 WROOM
We welcome your comments and suggestions below. However, if you are looking for solutions to technical questions please see our Technical Assistance page.
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Does the tilt compensator work with Fieldgenius? Looks like an awesome product if it does. Similar internals to the Stonex/Hemisphere/Carlson GNSS units for a fraction of the price.
The Torch is compatible with Field Genius but we haven't yet tested the tilt sensor. We believe it will be since the RTK Torch modifies the NMEA before transmission to the GIS software (so it shouldn't know or care that tilt compensation is happening) but we all know what happens when you assume... We'll try to get it tested this follow week.
I'm setting up my new Torch. In the docs, it states "The ARP for the RTK Torch is 115mm to L1 and 118mm to L2/L5 reception." . The numbers refer to the offset from the base of the Torch
But in a video, Steven Wells states that the ARP is the base of the unit.
Which should I use? If it is the offsets, how can I enter two separate values (in SW MAPS, for instance) and how do I know which satellite band is being used (L2, L2 or L5) so I know which offset is accurate at that moment?
The Torch has an L1 antenna phase center of 115mm, and a L2/L5 phase center of 118mm. These are distances from the antenna reference point (basically the bottom of the unit). We're checking on this, but if the GIS app only has room for one ARP (or more technically 'ARP to APC'), the consensus seems to be to average the APCs: 115+118 / 2 = 116.5mm. So if you have a 1.8m long pole, you need to enter 1.8+0.1165 = 1.9165m into SW Maps. If the data entry is limited to three decimals then it's deal's choice of what to do with the 500 microns. At that point the thermal expansion of your surveying pole needs to be accounted for...