--- product_id: 6652563 title: "Garmin 18x LVC GPS Navigator Unit" brand: "garmin" price: "S/.445" currency: PEN in_stock: true reviews_count: 11 category: "Garmin" url: https://www.desertcart.pe/products/6652563-garmin-18x-lvc-gps-navigator-unit store_origin: PE region: Peru --- # 1µs precision pulse-per-second output 12-channel WAAS GPS receiver Integrated magnetic waterproof base Garmin 18x LVC GPS Navigator Unit **Brand:** garmin **Price:** S/.445 **Availability:** ✅ In Stock ## Summary > 🚀 Elevate your precision game with Garmin 18x LVC — timing and tracking that never quits! ## Quick Answers - **What is this?** Garmin 18x LVC GPS Navigator Unit by garmin - **How much does it cost?** S/.445 with free shipping - **Is it available?** Yes, in stock and ready to ship - **Where can I buy it?** [www.desertcart.pe](https://www.desertcart.pe/products/6652563-garmin-18x-lvc-gps-navigator-unit) ## Best For - garmin enthusiasts ## Why This Product - Trusted garmin brand quality - Free international shipping included - Worldwide delivery with tracking - 15-day hassle-free returns ## Key Features - • **WAAS-Enabled Accuracy:** Enhanced positioning precision (~3m) with WAAS/EGNOS support, outperforming standard GPS units in navigation tasks. - • **Compact & Rugged Design:** Sleek 2.4-inch puck form factor with a waterproof magnetic base built to endure rain, hail, and high-speed travel. - • **Precision Timing Mastery:** Achieve microsecond-level synchronization with the 1PPS LVC output—perfect for mission-critical timekeeping. - • **Plug & Play OEM Integration:** Bare wire LVC connection with non-volatile memory for hassle-free configuration and seamless system embedding. - • **Proven Longevity & Reliability:** Trusted for over 15 years in automotive, fleet, and enterprise-grade applications—built to keep running 24/7/365. ## Overview The Garmin 18x LVC GPS Navigator Unit is a compact, highly sensitive 12-channel WAAS-enabled GPS receiver designed for OEM applications requiring precise navigation and microsecond-accurate timing. Featuring a bare wire LVC interface, integrated magnetic waterproof base, and non-volatile memory for configuration retention, it delivers reliable performance in harsh environments and has proven its durability over 15 years of continuous use. Ideal for professionals demanding robust, accurate GPS data and precision pulse-per-second output for synchronization tasks. ## Description GARMIN 010-00321-36 GPS 18x LVC. The GPS 18x is a GPS sensor targeted to OEM clients for use in automotive, fleet vehicle, and electronics applications where a small, highly accurate GPS receiver is needed. This 12 parallel channel, WAAS enabled GPS receiver is available in either CMOS level serial or USB 2.0 full speed versions, and comes with an integrated magnetic base. The puck like receiver is 2.4 inches in diameter and weighs just ounces, making it an ideal solution in applications where space is at a premium. The GPS 18x is offered in three different cable configurations: A style USB, DB 9 pin serial with 12 volt cigarette lighter adapter /PC, or bare wire /LVC. The PC and LVC versions both default to output data in the industry standard NMEA 0183 data format, but may also be user programmed to output data in the GARMIN proprietary format. The USB version produces data only in the GARMIN proprietary format. All three versions of the GPS 18 come complete with non volatile memory for storage of configuration information, a real time clock, and raw measurement output data for sophisticated customer applications. The LVC version additionally provides a pulse per second logic level output whose rising edge is aligned to the UTC second within 1 microsecond. The USB 2.0 full speed version of the GPS18 is also compatible with USB 1.1 full speed hosts. Review: Great for timekeeping, highly sensitive receiver, very reliable (~15 years so far). - I purchased the GPS 18x LVC for NTP timekeeping purposes due to its highly-accurate 1-pulse-per-second output. This output is not available on the other GPS 18x models. For those interested only in navigation and not precision timekeeping, the GPS 18x USB model is probably the best option. As the LVC model is a "barewire" model meant for OEM integration, it requires a little bit of soldering to get setup the way one wants. I opted to connect the GPS to a small circuit board that supplies power to the GPS, has a fuse, and has indicator LEDs to show the state of the GPS: one LED shows that power is applied, with another LED shows when the PPS signal is transmitted. The circuit board has a DB-9 serial connection to the computer. Other people I know have connected the PPS and data wires directly to a DB-9 serial port and the power/ground wires to a male USB-A plug without any LEDs. Either way works fine -- the GPS draws about 60mA by itself (mine draws 75mA with the LEDs) and so can be powered easily off of a USB port (which can supply 100mA without the device needing to ask for more power). It's difficult to rate the GPS unit itself as it's so simple and there's not a whole lot of features: supply it with power, let it see the sky, and it starts outputting data. It managed to find an initial lock and output PPS signals within about 3 minutes of when I turned it on for the first time. Since then, it's able to reestablish a lock within about 5 seconds after being powered down and turned back on again. For testing purposes, I have it inside my apartment on top of a box placed next to my northeast-facing window and it is able to see between 5 and 9 satellites depending on the time of day. While no GPS receiver is meant to operate indoors due to the very weak strength of the GPS signals, the 18x is quite sensitive and gets quite reasonable signal indoors. The receiver is WAAS/EGNOS-enabled for improved precision (~3m vs. 10-15m). As the window in my computer room is on the northeast side of my apartment, the receiver cannot see the WAAS/EGNOS satellites in the southern sky. For those interested in setting up this GPS receiver for either navigation or timekeeping, the GPS 18x technical specification document, available from Garmin at [...] is of invaluable help, as well as the Garmin configuration software SNSRXCFG (Windows only, but supposedly works under WINE for Linux) which is available at the "Software" link at[...]. The out-of-the-box configuration for the GPS 18x was quite good, and I only changed a few settings with SNSRXCFG to reflect my specific needs (e.g. increasing the PPS duration from 100ms to 200ms, turning off the PPS signal if GPS lock was lost so that I don't inadvertently use bad timing information, etc.). Once I constructed the circuit board and soldered all the necessary components (about an hour or so), I simply followed the directions at [...] (specifically setting the "low_latency" flag with setserial, installing and configuring gpsd, and configuring NTP) and I had everything working in about 15 minutes. The GPSd software makes interfacing the GPS 18x with the computer trivial. After connecting the GPS to the computer and letting NTP run and stabilize for a few hours ntpq -p reported that the clock had an offset of 0.000 +- 0.003ms. That is, the clock was syncronized to the correct time with an uncertainty of three microseconds. That's excellent and about a thousand times better than using only internet timeservers. In short: this GPS receiver is well-suited for precision timekeeping and is quite inexpensive. A person with basic soldering skills can fabricate the necessary connector with little trouble. The configuration software from Garmin makes it very easy to change any settings on the device itself and the device is compatible with GPSd and NTP. If you're interested in GPS timekeeping this is almost certainly the best option. ##### Update Jan 28, 2012: I emailed Garmin with a few questions and they confirmed that unit only supports the L1 C/A GPS signal and WAAS/EGNOS-compatible augmentation systems. It does not support the new L2C or L5 signals, nor does it support Galileo or GLONASS. The modernized L1C signal transmitted by new GPS satellites will also support the existing L1 C/A signal, so existing receivers like this device will continue to work indefinitely. ##### Update Oct 13, 2012: I recently attended a conference in Germany and put this receiver on the roof of the car and connected the serial port to a laptop loaded with road navigation software. The magnetic base held it solidly in position at 160km/h (100mph) on the German autobahn. Such a mounting location resulted in a clear view of the sky at essentially all times: 10 GPS satellites were visible and tracked with a signal-to-noise ratio of 48-50 (which is excellent and extremely strong) for each satellite and excellent geometry (HDOP of 0.8). The unit was able to get EGNOS signal within a minute and estimated position uncertainty was 2.5 meters even while moving at 160km/h. The weather on the trip was poor and there was heavy rain: this did not affect the signal strength and the receiver remained waterproof along the whole journey. While the receiver is particularly suitable for timekeeping it is also quite satisfactory for navigation. ##### Update Oct 27, 2025: Everything is still working fine. I have several 18x LVCs that are in regular use and have been working fine for nearly 15 years. Although more advanced receivers are available, such as those that support other constellations like GLONASS (Russia), Galileo (EU), and Beidou (China) in addition to GPS (USA), have more channels (the 18x is 12-channels, I recently bought another receiver with 1,408 channels), support higher accuracy 1PPS precision (my u-blox M8T can do ~20 ns vs the 18x's 1000 ns precision), and have some additional useful features like specifying that it's in a fixed position, my 18x receivers continue to truck along without issue. The major advantage of the 18x is that it's a completely integrated unit that just needs wiring. Pretty much all other timing receivers are bare boards that need external wiring, cabling, etc. that add cost and hassle. For a general-purpose GPS receiver that also does really good timing, it's hard to go wrong with the 18x. Even though newer and better options are available, it's hard to go wrong with this one. Review: This has never let me down - I have purchased many of these units over the years, and have never been let down. It has always exceeded my expectations for accuracy and performance. I first purchased this unit many years ago for an APRS tracker in a vehicle, and it worked for years stuck to the roof of a vehicle. It is fully waterproof. It has internal magnates, and says it's rated for something like 65MPH, but honestly, I don't think many vehicles could/would ever attain a speed that would peel this off a roof. It also has a spot for a bolt mount (also weatherproof) , if you want to get serious and bolt it down. It also does not appear to discolor paint, at least the paint on my vehicles. It has an internal rechargeable super capacitor or battery that retains date/time/almanac for some period of time being powered down, to help with acquisition upon power up. Because of this, it would always have very fast signal acquisition upon power up, always less than 1 minute, and sometimes just a matter of a few seconds, and worked everywhere, including many parking ramps (!!) and only failing to acquire signals in underground parking garages! After an extended power down of weeks or months, the internal power will run down, and expect it to take up to a few minutes to get a good fix. It survived summers, winters, car washes, etc, and never failed. I purchased several others for balloon mounted APRS trackers, and again, they worked well, where other GPS units would routinely have a hard time dealing with the massive signal refraction caused from the satellite signal bending effects of 120,000 cubic feet of hot air directly overhead from a hot air balloon envelope. Years later, several more were purchased due to the 1PPS out signal to create an array of several GPS timed NTP servers for some product development use, that proved to be so reliable, accurate and stabile, - greatly exceeding the reliability "enterprise" NTP GPS timed servers in our case, due to the fact that there are no separate antenna/cable/connector components that can be compromised by moisture/weather- that they were then retained past development for full commercial use in an enterprise setting. The waterproof hockey puck all in one design really can't be beat! Those units have been running 24X7X365 for many years, stuck to the roof of a metal building in the snow, rain, hail, sleet, ice, heat, sun, without any detectable known issues. All in all, if you need a WAAS enabled GPS unit for a project, this can't be beat. The only down side to these units is that you need to solder them to something (project board or connector) to use them, and you'll need a Windows PC with serial to run Garmin's configuration/firmware update utility if you want to change any of the unit's options (change baud rate, or change it to no 1PPS output if sat signal is lost, NEMA string output configuration, etc). The ones I've purchased always were advertised as connectionless, but they always came with a non weatherproof test connector/header that could easily be snipped off. ## Features - High Sensitivity LVC Sensor with Bare Wire Connection - WAAS Enabled High Sensitivity GPS Receiver - Comes w/A Connector End that Can Attach to a CMOS for OEM Applications - Non Volatile Memory for Storage of Configuration Information - Raw Measurement Output Data for Sophisticated Customer Applications ## Technical Specifications | Specification | Value | |---------------|-------| | ASIN | B0016O3T7A | | Additional Features | Motion Sensor | | Are Batteries Included | No | | Audio Output Mode | Stereo | | Battery Average Life | 16 Hours | | Best Sellers Rank | #64,838 in Electronics ( See Top 100 in Electronics ) #25 in Marine GPS Units & Chartplotters | | Brand | Garmin | | Built-In Media | GPS 18x with serial, USB or bare wire connection | | Compatible Devices | Laptop | | Compatible Flash Memory Type | CF Type I | | Compatible with Vehicle Type | Car, Truck | | Connectivity Protocol | USB | | Connectivity Technology | USB | | Control Method | App | | Customer Reviews | 4.5 out of 5 stars 83 Reviews | | Display Type | LCD | | Global Trade Identification Number | 00753759077839 | | Human-Interface Input | Buttons | | Item Dimensions L x W x H | 4"L x 2"W x 4"H | | Item Weight | 116 Grams | | Manufacturer | Garmin | | Map Types | North America | | Mfr Part Number | 010-00321-36 | | Model Name | 18x LVC | | Model Number | 010-00321-36 | | Model Year | 2009 | | Mounting Type | Dashboard Mount, found in image | | Operating System | Windows | | Resolution | 480 x 272 | | Screen Size | 10 Inches | | Special Feature | Motion Sensor | | Supported Satellite Navigation System | GPS | | UPC | 753759077839 | | Unit Count | 1.0 Count | | Vehicle Service Type | Car, Truck | | Warranty Description | 365 Days (Parts) / 365 Days (Labor) | ## Product Details - **Audio Output Mode:** Stereo - **Battery Life:** 16 Hours - **Brand:** Garmin - **Connectivity Technology:** USB - **Included Components:** GPS 18x with serial, USB or bare wire connection - **Map Type:** North America - **Model Name:** 18x LVC - **Screen Size:** 10 Inches - **Special Feature:** Motion Sensor - **Vehicle Service Type:** Car, Truck ## Images ![Garmin 18x LVC GPS Navigator Unit - Image 1](https://m.media-amazon.com/images/I/51ZIfxQfT7L.jpg) ## Questions & Answers **Q: I would like to know if i can connect this to my icom ic9100 ham radio?** A: Yes. It connects to "Data 1" through an Icom OPC-1529R cable. Check out page 121 of the Icom IC-9100 manual for more details. **Q: Is this the same unit as a garmin gps 18x lvc, 5m** A: The -5m stands for a 5 meter cable. I have the -5m so I don't know how long the standard cable length is. **Q: Will this work with a kenwood tm-d710g ham radio using the supplied cable? cable has 3 wires, data in, data out, and ground.** A: The LVC uses 4 wires, 1 dcd, 2 rx , 3 tx, 5 G. If you don't require the pps signal, rransmitted on pin 1 dcd, and the interface is serial level, then it will work. The only really grear thing about the LVC is the pps signal. Otherwise, many gps receivers can do the job. **Q: Can you provide instructions on how to use/wire this with an icom ic-7100 (i saw the response for the 9100 but not sure if it will work for the 7100).** A: Since the guy who makes the unit that is sold on eBay for both the 9100 and 7100 sells it for both radios with the same hook-up, I would say yes... if it works for the 9100 it will work for the 7100. If you can't find it in the 7100 manual, the instructions in the 9100 should work exactly the same. It will work for the 9700 too but you have to have a different din plug to power it from the radio. I just put Anderson power poles on the power leads and power it from my main 12vDC power panel. ## Customer Reviews ### ⭐⭐⭐⭐⭐ Great for timekeeping, highly sensitive receiver, very reliable (~15 years so far). *by P***. on January 14, 2012* I purchased the GPS 18x LVC for NTP timekeeping purposes due to its highly-accurate 1-pulse-per-second output. This output is not available on the other GPS 18x models. For those interested only in navigation and not precision timekeeping, the GPS 18x USB model is probably the best option. As the LVC model is a "barewire" model meant for OEM integration, it requires a little bit of soldering to get setup the way one wants. I opted to connect the GPS to a small circuit board that supplies power to the GPS, has a fuse, and has indicator LEDs to show the state of the GPS: one LED shows that power is applied, with another LED shows when the PPS signal is transmitted. The circuit board has a DB-9 serial connection to the computer. Other people I know have connected the PPS and data wires directly to a DB-9 serial port and the power/ground wires to a male USB-A plug without any LEDs. Either way works fine -- the GPS draws about 60mA by itself (mine draws 75mA with the LEDs) and so can be powered easily off of a USB port (which can supply 100mA without the device needing to ask for more power). It's difficult to rate the GPS unit itself as it's so simple and there's not a whole lot of features: supply it with power, let it see the sky, and it starts outputting data. It managed to find an initial lock and output PPS signals within about 3 minutes of when I turned it on for the first time. Since then, it's able to reestablish a lock within about 5 seconds after being powered down and turned back on again. For testing purposes, I have it inside my apartment on top of a box placed next to my northeast-facing window and it is able to see between 5 and 9 satellites depending on the time of day. While no GPS receiver is meant to operate indoors due to the very weak strength of the GPS signals, the 18x is quite sensitive and gets quite reasonable signal indoors. The receiver is WAAS/EGNOS-enabled for improved precision (~3m vs. 10-15m). As the window in my computer room is on the northeast side of my apartment, the receiver cannot see the WAAS/EGNOS satellites in the southern sky. For those interested in setting up this GPS receiver for either navigation or timekeeping, the GPS 18x technical specification document, available from Garmin at [...] is of invaluable help, as well as the Garmin configuration software SNSRXCFG (Windows only, but supposedly works under WINE for Linux) which is available at the "Software" link at[...]. The out-of-the-box configuration for the GPS 18x was quite good, and I only changed a few settings with SNSRXCFG to reflect my specific needs (e.g. increasing the PPS duration from 100ms to 200ms, turning off the PPS signal if GPS lock was lost so that I don't inadvertently use bad timing information, etc.). Once I constructed the circuit board and soldered all the necessary components (about an hour or so), I simply followed the directions at [...] (specifically setting the "low_latency" flag with setserial, installing and configuring gpsd, and configuring NTP) and I had everything working in about 15 minutes. The GPSd software makes interfacing the GPS 18x with the computer trivial. After connecting the GPS to the computer and letting NTP run and stabilize for a few hours ntpq -p reported that the clock had an offset of 0.000 +- 0.003ms. That is, the clock was syncronized to the correct time with an uncertainty of three microseconds. That's excellent and about a thousand times better than using only internet timeservers. In short: this GPS receiver is well-suited for precision timekeeping and is quite inexpensive. A person with basic soldering skills can fabricate the necessary connector with little trouble. The configuration software from Garmin makes it very easy to change any settings on the device itself and the device is compatible with GPSd and NTP. If you're interested in GPS timekeeping this is almost certainly the best option. ##### Update Jan 28, 2012: I emailed Garmin with a few questions and they confirmed that unit only supports the L1 C/A GPS signal and WAAS/EGNOS-compatible augmentation systems. It does not support the new L2C or L5 signals, nor does it support Galileo or GLONASS. The modernized L1C signal transmitted by new GPS satellites will also support the existing L1 C/A signal, so existing receivers like this device will continue to work indefinitely. ##### Update Oct 13, 2012: I recently attended a conference in Germany and put this receiver on the roof of the car and connected the serial port to a laptop loaded with road navigation software. The magnetic base held it solidly in position at 160km/h (100mph) on the German autobahn. Such a mounting location resulted in a clear view of the sky at essentially all times: 10 GPS satellites were visible and tracked with a signal-to-noise ratio of 48-50 (which is excellent and extremely strong) for each satellite and excellent geometry (HDOP of 0.8). The unit was able to get EGNOS signal within a minute and estimated position uncertainty was 2.5 meters even while moving at 160km/h. The weather on the trip was poor and there was heavy rain: this did not affect the signal strength and the receiver remained waterproof along the whole journey. While the receiver is particularly suitable for timekeeping it is also quite satisfactory for navigation. ##### Update Oct 27, 2025: Everything is still working fine. I have several 18x LVCs that are in regular use and have been working fine for nearly 15 years. Although more advanced receivers are available, such as those that support other constellations like GLONASS (Russia), Galileo (EU), and Beidou (China) in addition to GPS (USA), have more channels (the 18x is 12-channels, I recently bought another receiver with 1,408 channels), support higher accuracy 1PPS precision (my u-blox M8T can do ~20 ns vs the 18x's 1000 ns precision), and have some additional useful features like specifying that it's in a fixed position, my 18x receivers continue to truck along without issue. The major advantage of the 18x is that it's a completely integrated unit that just needs wiring. Pretty much all other timing receivers are bare boards that need external wiring, cabling, etc. that add cost and hassle. For a general-purpose GPS receiver that also does really good timing, it's hard to go wrong with the 18x. Even though newer and better options are available, it's hard to go wrong with this one. ### ⭐⭐⭐⭐⭐ This has never let me down *by J***R on April 15, 2014* I have purchased many of these units over the years, and have never been let down. It has always exceeded my expectations for accuracy and performance. I first purchased this unit many years ago for an APRS tracker in a vehicle, and it worked for years stuck to the roof of a vehicle. It is fully waterproof. It has internal magnates, and says it's rated for something like 65MPH, but honestly, I don't think many vehicles could/would ever attain a speed that would peel this off a roof. It also has a spot for a bolt mount (also weatherproof) , if you want to get serious and bolt it down. It also does not appear to discolor paint, at least the paint on my vehicles. It has an internal rechargeable super capacitor or battery that retains date/time/almanac for some period of time being powered down, to help with acquisition upon power up. Because of this, it would always have very fast signal acquisition upon power up, always less than 1 minute, and sometimes just a matter of a few seconds, and worked everywhere, including many parking ramps (!!) and only failing to acquire signals in underground parking garages! After an extended power down of weeks or months, the internal power will run down, and expect it to take up to a few minutes to get a good fix. It survived summers, winters, car washes, etc, and never failed. I purchased several others for balloon mounted APRS trackers, and again, they worked well, where other GPS units would routinely have a hard time dealing with the massive signal refraction caused from the satellite signal bending effects of 120,000 cubic feet of hot air directly overhead from a hot air balloon envelope. Years later, several more were purchased due to the 1PPS out signal to create an array of several GPS timed NTP servers for some product development use, that proved to be so reliable, accurate and stabile, - greatly exceeding the reliability "enterprise" NTP GPS timed servers in our case, due to the fact that there are no separate antenna/cable/connector components that can be compromised by moisture/weather- that they were then retained past development for full commercial use in an enterprise setting. The waterproof hockey puck all in one design really can't be beat! Those units have been running 24X7X365 for many years, stuck to the roof of a metal building in the snow, rain, hail, sleet, ice, heat, sun, without any detectable known issues. All in all, if you need a WAAS enabled GPS unit for a project, this can't be beat. The only down side to these units is that you need to solder them to something (project board or connector) to use them, and you'll need a Windows PC with serial to run Garmin's configuration/firmware update utility if you want to change any of the unit's options (change baud rate, or change it to no 1PPS output if sat signal is lost, NEMA string output configuration, etc). The ones I've purchased always were advertised as connectionless, but they always came with a non weatherproof test connector/header that could easily be snipped off. ### ⭐⭐⭐⭐⭐ Excellent PPS time source *by S***R on April 2, 2010* The Garmin 18x LVC is a bare lead OEM GPS unit with a measurement pulse output aligned to the Universal Coordinated Time (UTC) second, within a maximum error of 1.0 microsecond (1.0 millionth of a second) Only the LVC variety outputs the measurement pulse (Pulse Per Second) signal. As a retail item this unit is primarily used for very accurate timekeeping. One could theoretically use it for navigation, but with bare leads you need to solder a connector on the unit, and there are other 18x models, not the LVC, that have connectors from the factory. But the 18x models with connectors DO NOT output the precision measurement pulse, so they are useless as reference clocks. You may wonder why anyone would need a clock accurate to within 1.0 microsecond. The clocks inside computers are notoriously inaccurate, sometimes up to an hour off per day. So, the Internet is peppered with reference clocks. People interested in time keeping will place a reference clock server online, and thousands of Desktop PCs also connected to the Internet can poll these servers to accurately set their clocks. The reference clocks need to be accurate, because of dispersion in distribution (i.e it takes a small bit of time for the client PCs to receive the time from the time server. Having microsecond accurate time servers insures no client will ever drift past 1/2 second from UTC. It's all automated. The user doesn't do anything. It just happens. So that is what this particular unit is for, from a retail perspective. There is a web page, [...] , explaining in very simple terms how to make a time server. Soldering skills are required for individuals to make use this unit. The 18x USB, not the 18x LVC, is handy for navigation via a laptop. ## Frequently Bought Together - Garmin 18x LVC GPS Navigator Unit - StarTech.com 16in (40cm) 9 Pin Serial Male to 10 Pin Motherboard Header Slot Plate - motherboard Serial Port Adapter (PLATE9M16), Gray - SABRENT USB 2.0 to Serial (9 Pin) DB 9 RS 232 Converter Cable, Prolific Chipset, HEXNUTS, [Windows 11/10/8.1/8/7/VISTA/XP, Mac OS X 10.6 and Above] 2.5 Feet (CB-DB9P) --- ## Why Shop on Desertcart? - 🛒 **Trusted by 1.3+ Million Shoppers** — Serving international shoppers since 2016 - 🌍 **Shop Globally** — Access 737+ million products across 21 categories - 💰 **No Hidden Fees** — All customs, duties, and taxes included in the price - 🔄 **15-Day Free Returns** — Hassle-free returns (30 days for PRO members) - 🔒 **Secure Payments** — Trusted payment options with buyer protection - ⭐ **TrustPilot Rated 4.5/5** — Based on 8,000+ happy customer reviews **Shop now:** [https://www.desertcart.pe/products/6652563-garmin-18x-lvc-gps-navigator-unit](https://www.desertcart.pe/products/6652563-garmin-18x-lvc-gps-navigator-unit) --- *Product available on Desertcart Peru* *Store origin: PE* *Last updated: 2026-05-12*