Sdr Manufacturer USB Devices Driver



  1. Sdr Manufacturer Usb Devices Drivers
  2. Sdr Manufacturer USB Devices Driver

The main purpose is to offer a simple proof of concept application to get hands into DSP techniques. It supports SoftRock, FiFiSDR, FUNcube Dongle, SDR-4 ,rtl-sdr and any sound card based SDR front end.” — SDRSharp.com. SDR# (SDR-Sharp) versions 244+ (dev) have added support for RTL based SDRs supported by ExtIO. The USB installer program loads a driver certificate then the driver file so that it works on the latest versions of Windows. The SDR-4+ setup program can be downloaded as a zip file here. This installer program stores the USB drivers in a folder C:/SDR-4+ and places the ExtIO files in the HDSDR and Winrad folders in Program Files and Program.



Cross Country Wireless SDR-4+ Special Edition general coverage receiver

This receiver in now discontinued, web page for information only

We have been manufacturing the SDR-4+ receiver for 6 years. Over that time it has had undergone a process of gradual improvement with several custom versions made for some customers.

The SDR-4+ Special Edition brings all the changes together in one high performance SDR receiver combining a high IP3 push pull RF amplifier and switching mixer with improved RF filtering and a new low distortion and noise IQ amplifier.

The SDR-4+ Special Edition is an HF general coverage SDR receiver covering from 0.85 to 70.5 MHz.
It has a Si570 low noise synthesised VFO, relay switched band pass filtering, high linearity push pull RF amplifier and a built-in USB soundcard.

Key design features include:

  • Antenna isolation transformer with a 50 ohm impedance input for use with coax fed antennas

  • RF overload protection up to 150W for 10 seconds

  • Extra antenna isolation when the receiver is powered down

  • Relay switched RF band pass filters

  • RF amplifier now uses the same high IP3 push pull amplifier as used in our HF Multicoupler in the receiver front end

  • Built-in 16 bit USB stereo soundcard gives 89 dB dynamic range. Typically 8 bit SDR dongles have 45 db and 12 bit SDR receivers have 70 dB dynamic range. The total dynamic range is limited by the sound card so the receiver has a socket to connect to a external 24 bit sound card if required

  • Ability to select sampling rates down to 8 kHz so that a single transmission can fill the SDR waterfall display. Perfect for on-air monitoring of broadcast stations.

  • 3.5mm IQ audio output for connection to external high sampling rate or 24 bit sound cards

  • 3.5mm soundcard audio output for headphone monitoring or connection to datamodes program

  • Built in a compact aluminium case 175 x 106 x 30 mm for full RF shielding

Specifications:

  • Frequency range: 850 kHz to 70.5 MHz

  • Input impedance: 50 ohms

  • Clipping RF level: -13 dBm

  • Maximum frequency display: 48 kHz internal sound card, up to 192 kHz external sound card

  • Minimum discernable signal: -135 dBm

  • Input IP3: +31 dBm (measured with two -2 dBm carriers 12 MHz and 13.5 MHz)

  • Receiver modes: Depends upon the SDR software used with the receiver

  • Supply voltage: 5 Volts (from USB ports)

  • Supply current: 320 mA (from USB ports)

  • Connectors: BNC female (RF in 50 ohms), two USB B ports, two 3.5mm stereo jacks

  • Overall dimensions: 185 mm (L) x 110 mm (W) x 38 mm (H)

The SDR-4+ Special Edition receiver no longer uses 'dual use' (military/commercial) devices so it can now be sold without restriction.

The SDR-4+ receiver set-up FAQ sheet can be downloaded as a PDF file here .

The SDR-4+ receiver Quick Start Guide v1.6 can be downloaded as a PDF file here .

The SDR-4+ USB driver installer can be downloaded as a zip file here . The USB installer program loads a driver certificate then the driver file so that it works on the latest versions of Windows.

The SDR-4+ setup program can be downloaded as a zip file here . This installer program stores the USB drivers in a folder C:/SDR-4+ and places the ExtIO files in the HDSDR and Winrad folders in Program Files and Program Files (x86).

This is a link to our CloudMe folder allowing the files included on the CD shipped with each receiver to be downloaded here .

The SDR program we recommend for first time users of SDR receivers is HDSDR which can be downloaded here .

Sdr

Authors of SDR software programs or other radio programs can add support for the SDR-4+ to their software using the SDR-4+ interface specification.

Nextway usb devices driver. Existing owners of SDR-4+ receivers can have their receivers upgraded to the new Special Edition specification. Contact us via info@crosscountrywireless.net for more details.

Manufacturer

The first YouTube video is a demonstration of the strong signal handling performance of the SDR-4+ Special Edition. The receiver is listening to the background noise floor in a small gap between the strong broadcast stations in the 41m short wave broadcast band. There is a 70 dB difference between the station carriers and the background noise. .

The second YouTube video is from our distributor LAM Communications giving details of the setup and use as a panadaptor.

Here is a list of sample HDSDR recordings taken over the years. A selection of SDR-4, SDR-4+ and Sentinel 2 receivers undergoing a final on-air test after bench testing are used and in one case a faulty receiver back for repair. These are taken using our antennas above the workshop, it's not a low noise environment!

If you have never used a SDR receiver before, download the HDSDR program from here and one of the recording files below. Open the HDSDR program and use the playback key to find and start the recording. Each recording is about 10 minutes long and you can use the tuning, filters and modes in HDSDR as if you were connected to the receiver. It's a great way to try it out and it's free.

Sample HDSDR RF recording using a SDR-4+ receiver and 40m dipole (99.5 MB) SSB field day contest 2017 40m SSB

Sample HDSDR RF recording using a SDR-4 receiver and 40m dipole (155.7 MB) Typical evening activity in 2012 on 40m SSB

Sample HDSDR RF recording using a SDR-4 receiver and 40m dipole (131.8 MB) Typical morning activity in 2014 on 40m SSB

Sample HDSDR RF recording using a SDR-4 receiver and 40m dipole (174 MB) Typical afternoon activity in 2014 on 40m SSB

Sample HDSDR RF recording using a SDR-4+ receiver and 40m dipole (107 MB) Early morning DX pileup in 2015 on 40m SSB

Sample HDSDR RF recording using a SDR-4+ receiver and Cobweb antenna (135 MB) Deliberate interference to the K1N DXpedition in 2015 on 15m SSB. Caution - strong language!

Sample HDSDR RF recording using a SDR-4+ receiver back for repair and Cobweb antenna (118 MB) ARRL HF contest in 2015 on 15m SSB.

Sample HDSDR RF recording using a Sentinel 2 receiver and single delta loop antenna for 20m (124 MB) 20m data modes activity in 2017 on 20m SSB.

Sample HDSDR RF recording using a Sentinel 2 receiver and single deta loop antenna for 20m (123 MB) CQ WW SSB contest in 2017 on 20m SSB.

Contact us via info@crosscountrywireless.net

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RTL-SDR Support Package Hardware Setup

To implement features in the Communications Toolbox™ Support Package for RTL-SDR Radio, you must establish communication between the host and the radio hardware.

If you are connecting two radios to the same host, see Configure Multiple RTL-SDR Radios after installing the support package but before installing the USB driver.

Install USB Driver (Windows)

USB Driver Installation Preparation

The support package installer guides you through installing the drivers required for using the RTL-SDR device as a software-defined radio (SDR) receiver. Before you begin, remove all nonessential USB devices from your computer so that you do not accidentally replace the driver for a different device.

These instructions are for installing the USB driver for one RTL-SDR device. To install more than one RTL-SDR device for use with this support package, see Configure Multiple RTL-SDR Radios.

Insert RTL-SDR Radio into USB Port

  1. Insert the RTL-SDR radio into an available USB port on your computer. If your operating system (OS) automatically installs a driver for the device as a DVB-T receiver, wait until the OS finishes the installation before continuing.

    Note

    Some USB 3 ports do not recognize the RTL-SDR radio correctly and can result in a connection error. Your hardware configuration might require you to plug the RTL-SDR device into a USB 2 port.

  2. Click . The installer opens the Zadig software in a separate window.

Install USB Driver with Zadig Software

If the Zadig software displays a User Control Account prompt, then the software requires administrative privileges to install the USB driver. Click Yes to continue.

Follow the directions in the Support Package Installer window to install Zadig device drivers.

Simxperience driver jobs. Caution

If the wrong device is selected when you install the driver, the selected device becomes unusable. For example, if the selected device is the keyboard, the keyboard will not be usable after the driver update.

Test Radio Connection (Windows)

On this page you can Confirm communication with your RTL-SDR radio and get information about the connected radio.

If test connection fails and the page does not update to show radio information:

  • Try putting the RTL-SDR radio in a different USB port.

  • Make sure the radio works by trying it in a different computer.

  • Check the Common Problems and Fixes, and topics that resolve your problem.

If you still cannot discern the problem, contact Tech Support at https://www.mathworks.com/support/.

Install USB Driver (Linux)

Sdr Manufacturer Usb Devices Drivers

The support package installer guides you through installing the drivers required for using the RTL-SDR device as a software-defined radio (SDR) receiver. The installer uses the files you downloaded during setup to install the RTL-SDR library.

RTL-SDR Install Driver

If you see this page, the installer uses the files you downloaded during setup to install the RTL-SDR library. The installation process requires permission to copy files to system directories. You might be prompted for your sudo password before the installation can continue.

If you are prompted, enter your sudo password in the MATLAB® Command Window, and then return to the installer. If you do not have a sudo password, click and contact your network administrator to install this software.

Devices

Insert RTL-SDR Radio into USB Port

  1. Insert the RTL-SDR radio into an available USB port on your computer.

  2. Click .

Test Radio Connection (Linux)

On this page, you can confirm communication with your RTL-SDR radio and get information about the connected radio.

If test connection fails and the page does not update to show radio information:

  • Try putting the RTL-SDR radio in a different USB port.

  • Make sure the radio works by trying it in a different computer.

  • If you do not see any radios listed after the installation is completed, the digital TV (DVB) driver may be superseding the RTL-SDR driver. If the device is in use by the DVB driver, the installer cannot access it. You might need to unload or blacklist the kernel module. See Kernel driver is active, or device is claimed by second instance of librtlsdr.

  • Check Common Problems and Fixes for topics that resolve your problem.

If you still cannot discern the problem, contact Tech Support at https://www.mathworks.com/support/.

Install USB Driver (Mac)

The support package installer guides you through installing the drivers required for using the RTL-SDR device as a software-defined radio (SDR) receiver. The installer uses the files you downloaded during setup.

Insert RTL-SDR Radio into USB Port

  1. Insert the RTL-SDR radio into an available USB port on your computer.

  2. Click .

Sdr Manufacturer USB Devices Driver

Test Radio Connection (Mac)

On this screen you can confirm communication with your RTL-SDR radio and get information about the connected radio. Drivers power shock absorbers.

If test connection fails and the page does not update to show radio information:

  • Try putting the RTL-SDR radio in a different USB port.

  • Make sure the radio works by trying it in a different computer.

  • Check Common Problems and Fixes for topics that resolve your problem.

If you still cannot discern the problem, contact Tech Support at https://www.mathworks.com/support/.

Verify Hardware Setup

This step helps you to verify that MATLAB can communicate with the RTL-SDR radio using the support package. If you get a successful status, it means that MATLAB can communicate with the radio and the radio is ready to be used.

  1. At the MATLAB command prompt, call the sdrsetup function.

    Note

    Each time you use the Communications Toolbox Support Package for RTL-SDR Radio with MATLAB, you must call sdrsetup. This function performs internal operations that enable you to use this support package cleanly every time.

  2. To get information for all radios connected to your computer, call the sdrinfo function:

    To get information on a specific radio, enter the function with this format:

    Address is the radio ID, for example:

    • If sdrinfo is successful, MATLAB returns a hardware information structure. For example:

    • If sdrinfo returns the message There was no response at address Address or it returns an empty cell array, then check for the following:

      • No radio connected

      • Radio ID not specified properly

      • USB driver not installed properly

  3. If the connection is successful, you can start designing your own radio interface.

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