U-blox Mobile Phones & Portable Devices Driver Download For Windows 10

12/10/2021by admin

U-blox has announced the ALEX-R5, a miniature cellular module that integrates low power wide area (LPWA) connectivity and global navigation satellite system (GNSS) technology into an ultra-small system-in-package (SiP) form factor. Enhanced Mobile Broadband (eMBB): eMBB describes the high data rate and high capacity aspects of 5G with the goal of providing a mobile broadband experience on cellular phones and other connected devices mostly focused on high definition video streaming, virtual meetings, augmented reality and cloud computing. U-blox USB sensor driver for Windows 7 - User Guide 3 u-blox driver installation. To be able to use the Sensor, you have to i. Install the Sensor driver (See 3.1) ii. Connect the device (See 3.3) iii. Enable the sensor (See 3.3) To use the Virtual Com Port (VCP), you have to i. Gionee specializes in R & D, manufacturing and marketing of mobile phones. In May of 2005, Gionee was issued with licenses for operating GSM and CDMA mobile phones and permitted to produce 7 million mobile phones per year. Www.gionee.com u‑blox contacts Jean‑Pierre Wyss, Chief Financial Officer.

  1. U-blox Mobile Phones & Portable Devices Driver Download For Windows 10 Pro
  2. U-blox Mobile Phones & Portable Devices Driver Download For Windows 10 Windows 7
  3. U-blox Mobile Phones & Portable Devices Driver Download For Windows 10 64-bit

Courtesy of u-blox

LTE Cat 1 is a medium speed LTE standard designed for more feature‑rich IoT applications that require higher data speeds.

LTE Cat 1 sits between the high speed LTE categories that are most commonly seen in smartphones and the low speed LTE categories developed specifically for Internet of Things (IoT) and Machine‑to‑Machine (M2M) applications. It is the lowest cost LTE category that still has the required speeds to support data streaming.

Fast LTE categories – LTE Cat 4 and higher – are ideal for mobile broadband applications and have therefore become standard in mobile phones. IoT‑specific categories, such as LTE Cat M1 or Cat NB1 (also known as NB‑IoT), provide much lower data rates, while also providing optimized long battery life cycles and greater in‑building penetration as required by many IoT applications.

What is LTE Cat 1?
With speeds of 10 Mb/s downlink and 5 Mb/s uplink, LTE Cat 1 is ideal for a vast number of more feature‑rich M2M and IoT applications, including those that require video streaming and voice support. To ensure complete population and geographic coverage as LTE rolls out around the world, most LTE Cat 1 devices also provide 3G and 2G fallback connectivity.

In comparison to high speed 4G LTE categories, such as Cat 4 and greater, LTE Cat 1 provides:

  • Low power consumption with extended idle and sleep modes
  • Less complexity, resulting in a lower cost structure

In comparison to IoT‑specific technologies, such as Cat M1 and NB1, LTE Cat 1 supports:

  • Voice over LTE (VoLTE) in current implementations
  • Data streaming
  • Low latency applications

u‑blox – Leadership in Cat 1 Technology
u‑blox’s LARA‑R3 single‑mode LTE Cat 1 platform is the only cellular module in the market to feature a combination of LTE Cat 1 chipset and GNSS receiver, both developed in‑house.

If 2G or 3G fallback are required in areas with spotty LTE coverage, the u‑blox LARA‑R2 and TOBY‑R2 product series are most suitable and include variants that provide coverage around the world.

Key Applications

Smart metering
Cat 1 is well suited and ideal for monitoring medium bandwidth use cases, such as electricity meters and smart meter gateways. Such meters don’t need LTE Cat 4’s high data speeds of up to 150 Mbps that are designed for consumer mobile video streaming. The amounts of sent data are relatively small, the speed of transmission is not critical and low power operation is desirable, making the Cat 1 a perfect fit.

U-blox mobile phones & portable devices driver download for windows 10 pro

Smart buildings
Cat 1 technology still has sufficient data speeds for many video surveillance use cases, while also supporting voice services via voice over VoLTE. Many alarm services require a voice connection in case of an emergency and many home surveillance solutions make use of fixed‑position HD cameras connected to the cellular network, which allow people to monitor their homes, belongings and even pets, while they’re away from home.

Already, many basic aspects of a fleet’s vehicle and assets are being monitored using cellular LTE coverage. Parameters of importance include mileage, location, stops, engine usage and hours of service. LTE Cat 1 provides cellular in‑vehicle handover, which means connections aren’t lost in a moving vehicle. Many LTE Cat 1 implementations are multi‑mode and provide 2G or 3G fallback in areas where LTE networks may not be available.

Connected health
While VoLTE is in planning for LTE Cat M1, it is not yet implemented by network operators. LTE Cat 1 however already supports VoLTE in current implementations, making it ideally suited for stay‑in‑place solutions, outpatient monitoring and mobile medical alert systems.


Single and multi-mode LTE Cat 1 modules with positioning capability
LTE Cat 1 module based on u-blox LTE chipset with built-in GPS receiver

Installing the u-blox USB drivers for Windows for use with RTKLIB can be a little tricky now that u-blox has switched their default Windows configuration from using COM port drivers to using sensor device drivers. RTKLIB does not support sensor device drivers, so it is necessary to force the driver installation process to revert to a driver that supports the COM port interface.

To make things more confusing, there are actually three different drivers that will support the COM port interface. You can determine which driver you are using by opening the Windows Device Manager while the u-blox reciever is plugged into the computer. The receiver will either show up under “Ports” or under “Sensors”. If it shows up under “Sensors” then RTKLIB will not be able to see it. Here is an example of what it looks like when it shows up under “Ports”:

If it shows up under “Ports” it may be listed in one of three different ways depending on which driver is installed. They are:

USB Serial Device (COMx): This is the generic COM port Windows driver and is what u-blox recommends for Windows 10 when using the COM port interface. It will work fine with RTKLIB, but Windows has an annoying habit of automatically replacing it with the sensor driver, so I have recently stopped using this one.

u-blox Virtual COM Port (COMx): This is the driver recommended by u-blox if you want to support both the sensor interface and the COM port interface. It has some limitations though, the primary one being that you can only run one of these devices on a computer at a time, so I don’t recommend this one either.

U-blox Mobile Phones & Portable Devices Driver Download For Windows 10 Pro

u-blox GNSS Reciever (COMx): This is the older u-blox driver before they switched to the sensor interface. U-blox recommends this for older versions of Windows but I have started using this recently with Windows 10. So far I have found it works fine, and it does not automatically get replaced by Windows like the generic driver does. I recommend this one.

All three u-blox drivers are available for download from their Product Resources page. The older driver is listed as “u-blox GNSS Standard Driver for Windows”. U-blox has published a flowchart on their website to help users decide which driver to use and how to rollback to older drivers. Here is a copy of the document but it may be too small to read here and may be out of date by the time you read this so I suggest you click on this link to take you to the original document.

U-blox Mobile Phones & Portable Devices Driver Download For Windows 10 Windows 7


U-blox Mobile Phones & Portable Devices Driver Download For Windows 10 64-bit

To revert to the generic Windows driver with Windows 10, follow the instructions in the blue circle above. To revert to the older u-blox driver with Windows 10, you will want to first download that driver from the u-blox Product Resource page, then follow the instructions inside the blue circle.

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