netTIMS FreeWire

Description:

Get this single box in your lab, and have a complete lab course running for 24 x 7 , to many students simultaneously. net TIMS FreeWire offers real TIMS experiments delivered online simultaneously to multiple students across LAN & Internet in real-time.

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  • netTIMS FreeWire

    Real hardware experiments via internet – More lab time, more savings
    net*TIMS FreeWire – Your Complete Multi-User Telecoms Lab Solution

    Get this single box in your lab, and have a complete lab course running for 24 x 7 , to many students simultaneously. net TIMS FreeWire offers real TIMS experiments delivered online simultaneously to multiple students across LAN & Internet in real-time.

    •    Students control real TIMS hardware from their PC, Laptops, Tablets and Smartphones to obtain immediate PC-scope display of the real signals
    •    One Unit for 30+students at once with independent control
    •    mmediate control via web browser – no software to download
    •    Real Circuits, not Simulation
    •    Continuous 24/7 access to real TIMS experiments
    •    Professors control and monitor student usage

    Builds student confidence and makes the experiment satisfying as the students are free to explore and learn by making mistakes. When they explore more, they learn more.

    Access live experiments and experience netTIMS FreeWire in action.
    Username: user, Password: visitor

    Go to Live NetTIMS FreeWire Experiment


    File download

    Download a PDF version product brochure

    FreeWire Demo

    netTIMS FreeWire in use, with local users via LAN and remote users via internet

    net*TIMS – FreeWire: No setup required by the Professors. All experiments included in the Control unit, which students can then access and control from within the lab and at a distance, to carry out the experiments.

    Simple Browser Log – On

    A user logs on to the net*TIMS FreeWire Server using their web browser. They receive a client screen, corresponding to the module set up on the TIMS System. The user can switch, insert or by-pass hardware modules in the experiment, for multi-stage experiments.

    blended learning infographics

    Multi-User

    The net*TIMS FreeWire Server manages a multiuser environment, allowing several students, each at a different location, to be logged onto the same FreeWire unit and independently carrying out different experiments or their own session of the same experiment.

  • Experiment Capabilities

    The list of Experiments that can be performed on netTIMS FreeWire is listed below for your information.

    Modelling Equations
    ASK
     DSBSC – generation
     BPSK
     AM – Amplitude Modulation
     FSK
     Armstrong’s phase modulator
     QPSK
     FM – WBFM
     QAM
     Sampling
     Eye patterns
     Phase division multiplex
     Line coding & decoding
     PWM – pulse width modulation
     DSSS spread spectrum
     PLL & Carrier Acquisition
     AM demodulation and SNR
     PCM – encoding & decoding
     The noisy channel
     PCM-TDM  non linearity & distortion

  • net*TIMS FreeWire FAQ

    • 1. How do I do the net*TIMS online experiment?
      You can go to any browser on your PC, (chrome, firefox or IE) and you will be able to access the experiments on a given IP address. The access will be controlled by username and password, set up by the Professor. On the screen, you can select modules, patch them together, and perform real experiments communicating to the real system.
    • 2. What can I control in the experiment?
      You are controlling real hardware TIMS modules in a real TIMS system, and viewing the real electrical signals via a PC based scope.

      All front panel toggle switches, rotary switches and Potentiometers can be changed by the user.
      net*TIMS switch: net*TIMS is an internet telecommunications instructional modelling software system
      All signal levels can therefore be altered and investigated.

      All significant points throughout the experiment can be viewed by moving the scope leads, ChA, ChB, and triggering points can also be altered to suit.

      The patching of the modules in the experiment can be altered if a SWITCH module is being used, otherwise the patching remains fixed. Modules also remain fixed for each experiment.

      All the knobs and switches are controllable. This image shows a typical toggle switch and Potentiometer knob control.
    • 3. How do I adjust the knobs?

      To adjust knobs, you can either:


      •    click on the knob and drag the knob pointer to your required point
      •    click on the knob, which highlights it, and then use left or right arrows on your keyboard to move by one increment at a time.
      •    click on either left half or right half of knob to rotate either anti-clockwise or clockwise respectively by one increment at a time.
    • 4. How do I adjust the toggle switches?
      To adjust toggle switches, you simply click on them and they cycle through the available positions – up, middle (for a three position switch) and down.
    • 5. How do toggle switches work?
      The scope is designed to mimic a traditional scope with manual controls. The TIME and FREQ buttons activate the time domain or frequency domain displays respectively.

      To select a point to view, firstly select a scope input channel by clicking on the input terminal alongside labels ChA, ChB or TRIG. This will highlight and number ALL outputs which are available for that input to connect to. Then, click on the highlighted output you wish to view. The scope lead will connect to that point. The number of points to view is fixed and determined by the experimental setup at the net*TIMS system unit. The ‘Single / XY / Acc’ switch selects between the default of single shot mode, XY mode where ChA is plotted against ChB and Accumulate mode. Accumulate mode continuously requests a new screen capture and overlays them onto the display. This is useful for viewing Eye diagrams and other subtle variations of a waveform over time. Triggering at the same point in the waveform is usually very important when using Accumulate modes in scopes.net*TIMS scope: TutorTIMS instructional modelling software

      The ‘wiring’ button changes the look of the patching of the wires, but doesn’t change the connections themselves. This can be useful to improve visibility of connections and settings.

      Use the ‘ELASTICITY’ control knob to vary the position of the patching leads to suit yourself.

      Triggering is very important in net*TIMS, as always in TIMS. The net*TIMS scope has full triggering features as on a normal scope.

      The Rise/OFF/Fall switch is used to turn on Triggering mode. The source of the trigger signal is then selected by the ChA/Ext/ChB switch. If EXTernal trigger is selected, then the trigger comes from the signal connected to the TRIG terminal with the green patching lead. LEVEL and DELAY set the trigger level and trigger delay time.

      When using FREQ mode on a channel, the x1, x2 and x4 switch zooms in on the FFT display for closer inspection. SNGL (single) and AVG(average) mode create an FFT display based on one screen capture or several.

      Beware of the aliasing which arises on digital scopes…creating false signals which appear correct. Always be aware of your time base settings and check that what you see is what you expect.