MakerFocus GT-U7 GPS Module Satellite Navigation Positioning GPS Receiver Drone Microcontroller Compatible with NEO-6M 51 Microcontroller STM32 Arduino UNO R3

This little unit is a great value. It does appear to use an authentic U-Blox chip under the metal can and white label. Most U-Center software functions seem to work just fine. I interfaced mine to a Raspberry Pi 2 to make an NTP time server. The PPS connection allows accuracy down to a few 10s of nanoseconds. This requires configuring the Raspberry Pi to accept a PPS signal on one of the GPIO pins. I used the "GPSD" and "NTPD" packages, which interface nicely with the unit. Be sure to hook up to the TX and RX serial lines, as GPSD appears to update the time and other parameters that allow a rapid "cold" fix when first powered up. A word on power and levels . The module on the board operates at 3.3v!!!!! However, this board has a 5v > 3.3 volt regulator that allows powering from the USB connector. The Vcc pin also connects to the regulator input. ***UPDATED*** The module can only be powered from 5v on the Vcc pin. The onboard voltage regulator does not function properly with the Vcc pin connected to 3.3v. It appears to function normally, but will be subject to very frequent dropouts of 3D lock and other erratic operation. Also. operating the board from 3.3v on the Vcc pin would subject the device providing power to 5v on its 3.3v output should the USB port be connected to a computer for programming the board. Be careful. The TXD, RXD and PPS pins all operate with 3.3v as their logic high input/output levels!!! A read of the data sheet from the link in the listing clearly states theses interface pins are NOT 5 volt tolerant. That means if you use a device (like an Arduino) that uses 5v as its logic "high" to connect to an input on this device (RXD), you will probably damage the chip. It may work for a while, but it is stressing the chip beyond the absolute maximum ratings. The PPS and TXD pins are outputs, so no damage results connecting these to a device expecting a 5v input, but the data will be very sensitive to noise and corrupted data on the receiving device (an Arduino, for example). It may seem to work OK, but you would do better investing in a cheap bidirectional 5v <> 3.3v level converter chip for a few dollars if you want to connect to an Arduino. The device is perfectly matched in terms of voltage levels to a Raspberry Pi, however!

My application is timekeeping, and certainly does not involve flight control. This module was intriguing given its low price relative to other modules. Notes: • MicroUSB connector makes it super quick to check operation against a 9600 baud serial port/terminal. • Operates on 5V, and I’ve confirmed on a scope (and by use) that both the TXD and PPS output TTL levels. • Draws ~35ma @ 5V. • PPS is a positive-going 100ms pulse and it appears that the positive transitions mark the *next* received sentences, and seconds=00. Note that PPSs only appear when there’s an actual fix (eg. $GPRMC Status term = ‘A’) The little red LED on the breakout board seems to be wired as inverse-PPS, so solid red until a fix, then pulsing off in tandem with PPS. Useful. • I confirmed that two otherwise unrelated modules with fixes, do PPS exactly in tandem, as expected. • Sentences output (at 1s intervals of 9600 baud) are ($GP)RMC, VTG, GGA, GSA, GSV & GLL. I only needed RMC & GGA. • Position output was spot-on at least when static on my desk. Had no need to evaluate it in motion. • Sentences seem to work fine with the usual GPS parsing libraries, or if you roll your own. • The breakout module features what appears to be a small rechargeable coin cell spot-welded to its holder, permitting hot-starts. • The supplied patch antenna on a short pigtail with a U.FL connector works well. So does a more substantial GPS antenna terminated with a U.FL. Keep in mind U.FL connectors are not intended for repeated mating cycles. ie, they’re fragile! Use a magnifying glass when connecting. What I find questionable: • Vendors’ Amazon description claims to be “using the original UBLOX (sic) 7th generation chip”. Obviously, the “GT-U7” module on this breakout board does not claim to be a u-blox product. Is it then using some sort of “original” ublox chip inside it? Reading up on how to spot a fake on ublox’s site leads one to believe this is in fact some sort of clone of the u-blox Neo 6 or 7. Startup $GPTXT sentence claims itself as u-blox 7, tho… Questionable if module is in fact configurable via u-center, although u-center has no problem parsing its output. If you are expecting something genuine-ublox, do some research. • Questionable how 5V-tolerant RXD, the sole input on this breakout, might be. Since I do not plan on sending it any configuration, I’m leaving it disconnected and using the module in its default mode. • A schematic of this breakout board would be very useful, in particular to answer the previous question. Can’t seem to find one for it. Aargh. Easy enough to reverse-engineer, given motivation to do so. So, would I trust this product in my 1/8 scale autonomous jet-powered RC A380 model aircraft? Probably not. But for my timekeeping application, it works fine, thus not subtracting any stars since I’m realistic about its pedigree. ---

Overall; Recommended. Purchased to add GPS to a Heltec V3 LoRa device running Meshtastic. Hookup instructions can be found on the Meshtastic website and several other locations (Amazon Terms of Use prohibit providing the links, use your fav search engine to find them). Remember to redefine the GPIO pins for RXD (GPS_RX_PIN 45) and TXD (GPS_TX_PIN 46) signals. I didn't bother with the GPS_Enable pin for now, manually disconnecting the VCC header (may add a switch or the switching transistor mod described on the Meshtasitc site later). Pinout on the GPS board is slightly different than the examples I found, but the labeling is correct. I used the headers provided with the Heltec and with the GPS and a set of breadboard jumpers I already had for wiring, this simplifies disconnecting the GPS if not needed. The headers complicate packaging if you want to use one of the case designs on 3D printing sites or available for purchase. Of course, you can solder direct-wire for a less bulky assembly. The antenna is separate and comes with an IPEX connector to attach to the GPS board. The antenna can be mounted to maximize GPS signal reception while the GPS receiver can be mounted for GPS performance is good, and it picks up signals inside my house better than a USB-based GPS I use for 2M VHF AFSK APRS. The additional power consumption is not bad, a few days of tests suggests I can get a bit over 24 hours of operation with a 3000 mAH battery. The Heltec V3 is not ultra low power consumption, so I would expect much longer operation with a less power-hungry LoRa device.

Very sensitive module. I bought another antenna for it, but the included one is actually better, smaller, and can fit just beneath the top of my project case, where otherwise it would be buried under all the other electronics in the box. I didn't like the rechargeable backup battery, it held a little charge, but not for long. Thus maybe 10 seconds of disconnect from main power was ok, it would reacquire in 10 sec or so, but longer than that it would have to start from scratch, maybe 20 minutes or so. Maybe if i left it charging for 3 or 4 days it would have had more charge. But I just unsoldered the battery, removed the charging diode and fitted a CR2032 coin battery in a holder to the back. Should last a few years at 2 uA drain.

works; I'm using it for gps time in a ntp server

The first module was defective out of the box. As a first test I connected it to a laptop via USB, but the OS did not see a new USB device. I noticed the device was running really hot, and I checked an it was consuming 350ma (the spec is 45ma). Back to Amazon it went. The replacement worked incredibly well. When I attached it to my laptop it acted as a serial port device directly delivering the NEMA output. I was able to obtain a GPS fix quickly even indoors with its miniature antenna. The u-blox U-center software had no problem interacting the device. Given the option of using USB or TTL serial, the 1 PPS time pulse output, and the overall performance, the incrediblly small size and low power consumption, I am very happy with it. Overall I am giving this 2.5 stars. 0 stars for the first defective unit, and 5 for the replacement.

Works great. Easy add-on for a Raspberry Pi gps or ntp project.

I'm using these modules to get accurate time for a Raspberry Pi based clock. For a first test I simply connected one of the modules (the package contains two of them) using a micro-USB cable to a Linux laptop and confirmed that it was working properly. It took a little longer to setup the Raspberry Pi to enable a serial port on GPIO pins 14 & 15 as well as a PPS input on GPIO pin 18. After disconnecting the USB cable and using test leads with mini-clips, I connected the GPS module to the GPIO pins (as well as power) on the Raspberry Pi (I used a Pi 3B this time, but any model should work). Using gpsd I confirmed that I got time and position data from the module as well as the PPS ticks for extra clock precision. The sensitivity of the module is sufficient to get good data from several satellites anywhere within the house (I tried a number of locations to confirm the clock would work there). Unlike GPS modules that I have used in the past (like SiRF-III), these modules have an external antenna (included). Attaching the antenna to the module is a little fiddly (due to the small size of the connector) but the advantage is of course that the antenna can be placed outside of any project case that may otherwise block the reception. The GPS module has a sticker identifying it as a Goouuu GT-U7 but the software recognized it as a uBlox compatible module (given the low price it is either a uBlox product from an older generation or a 3rd-party clone). I did not do any testing regarding location accuracy or the speed of obtaining a 3D-fix since those are not relevant for my purpose. I'll keep the 2nd module for a future project. I'm perfectly happy with this purchase.