Virtual C.R.O. Crack+ Free Download [Mac/Win]

The Virtual C.R.O. Cracked Version program simulates a Cathode Ray Oscilloscope (C.R.O.). It has been designed for engineering students to study various waveforms using a C.R.O.-like interface, since the actual C.R.O. and the circuits they are studying may not always be available to them due to limited laboratory access.
Please note that this is merely a software simulation, and the waveforms that the program displays are software-generated (using programmed mathematical expressions). This is not a program which works with hardware circuits or reads data from the computer’s ports.
The virtual C.R.O. offers 5 input channels, plus inputs for external triggering and intensity modulation (Z input).What’signals’ are ‘connected’ to each channel is defined by the ‘experiment’ you select, and its parameters. The program includes a set of common experiments; you can add your own by modifying the source code and re-compiling the program.
Features of Virtual C.R.O.

User-defined source code (programmed mathematical expressions):
Each virtual C.R.O. can be fully controlled via its source code.
This includes input channels, scan rate, external triggering, triggers or NOT, and intensity modulation.
Programmed mathematical expressions are used to:

generate arbitrary waveforms (time, amplitude and frequency)

determine the rate of waveforms in the channel by adjusting the parameter “scan rate”

determine the width of a waveform in the channel by adjusting the parameter “period”

determine the timing of triggers in the channel by adjusting the parameter “trigger width”

determine the timing of external triggers in the channel by adjusting the parameter “trigger delay”

determine the delay between triggering the channel and a channel trigger by adjusting the parameter “delay”

detemine the frequency of a signal by adjusting the parameter “frequency”

detemine the amplitude of a signal by adjusting the parameter “amplitude”

determine the polarity (positive/negative) of a signal by adjusting the parameter “polarity”

determine the attenuation (in dB) of a signal by adjusting the parameter “attenuation”

Modify the clock rates of the input channels by adjusting the parameter “external clock”

View waveforms

View various oscilloscopes simultaneously

Virtual C.R.O. Crack+ PC/Windows [Updated]

keymacro is a mathematical macro recorder and play back tool that stores your keyboards macro’s as a text file, where you can then edit it as you wish and the program will automatically update the macro’s value as you type.

It records macro’s in the following formats:

Mode 1: Each line of text is a separate “keymacro” and is stored as a new line after typing a key.

Mode 2: If the user presses a key twice in a row, the keys are combined into one key macro.

Mode 3: If a key is held down for a certain time period, that number of keystrokes is added to the current keymacro.

The keyboard macro’s are activated by pressing Alt + N or pressing the button labeled ‘M’. When activated, a small dialog box will open, where you can edit the existing macro’s.

The “Save” button writes the current keymacro to a text file (normally the same folder that “keymacro.exe” is located in). The file will have the name of the macro, and the date/time of its activation.

The “Load” button reads the text file and the corresponding macro is activated. The dialog box is automatically closed.

Controls for Macro’s (Inputs/Outputs):

Alt-Button+M: Load/Save Macro’s.

Use tab-key for shortcuts and run key macros without waiting for the text input box to be cleared.

And more…. A lot more!

NOTE: This is a ‘one time’ purchase. After purchasing, it is a permanent download and no further payments are required. If you would like a copy for your friends, simply contact me and I will be happy to send you a link for the software.

More Information:

The Macro’s are recorded in Mode 3, so a key that is held down for more than a second causes the program to record a new key macro. For example, holding the ALT-KEY down and then typing some text, will cause a new macro to be recorded, and be played back when the ALT-KEY is pressed again. This function is controlled by the parameter “AutoLoadMacro”, which can be found in the “Input” section of the “Keymacro” dialog box.

When a user hits a key that was recorded in a “keymacro” of the program, the macro
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Virtual C.R.O. X64

Inputs:

– a Trigger Channel – triggers the start of the waveform data and sends it to the other inputs.
– Z input – intensity modulation (0-127) is sent to the other inputs.

Inputs:

– a Waveform Channel – generates the waveforms that are displayed.
– an Amplitude Channel – creates the waveform on the display, scaling it’s amplitude to be the value set on the channel.

Outputs:

– 3 axis channels for the waveform display.

How it works:

The initial display uses the amplitudes of the inputs to create the values of the axes. Then the waveform data is sent to the waveform channel; the channels are updated with the new values. This continues until the data is done.

You can stop the data by clicking in the C.R.O. window.

Screenshots:

The user interface.

A screenshot of the header of the experiment-file for the Triangle waveform.

A screenshot of the button-user interface.

A screenshot of the Amplitude channel interface.

A screenshot of the x axis of the Triangle waveform.

A screenshot of the y axis of the Triangle waveform.

A screenshot of the z axis of the Triangle waveform.

A screenshot of the Triangle waveform.

You can get the Virtual C.R.O. here:

Source code:

Version 1.0:

Program Version: 1.0-beta

Description: This is a beta version of the Virtual C.R.O. program. The virtual Cathode Ray Oscilloscope can be used to generate waveforms in 5 different channels, with 3 output channels. It also allows for an intensity modulation input (0-127).

The Virtual C.R.O. program simulates a Cathode Ray Oscilloscope (C.R.O.). It has been designed for engineering students to study various waveforms using a C.R.O.-like interface, since the actual C.R.O. and the circuits they are studying may not always be available to them due to limited laboratory access.

Please note that this is merely a software simulation, and the waveforms that the program displays are software-generated (using programmed mathematical expressions). This is not a program which works with hardware circuits or reads data from the computer’s ports.

What’s New in the?

In the vC.R.O. you can view:
1) single traces from a selection of channels (the ‘experiment’ can be run multiple times)
2) multiple traces from a selection of channels (‘experiment’ can be run multiple times)
3) ‘histograms’, using the definition of ‘bin’ in each experiment.
‘Traces’ and ‘histograms’ can be displayed in’real-time’ (i.e. the waveforms change as you change the user input), or you can ‘zoom in’ and display multiple traces in parallel.
Visible ‘timestamps’ can be used to display the actual sample-time of the waveforms, and a tick-counter can be used to display actual time in ‘x-axes’ for other parts of the waveform.

Ports:
A ‘port’ in the vC.R.O. is a separate “window” with its own input and output channels. Each port represents a separate ‘channel’ or ‘path’ in the experiment. The actual number of ‘input channels’ (or ‘output channels’ if you’re using the program to simulate a ‘Scope’) depends on the number of ‘channels’ or ‘paths’ available in the experiment.
Each port can be turned on or off using a separate input or output channel. The order of the ports in the’monitor window’ is determined by the order in which they were created.

User Inputs:
In the ‘user controls’ box you can set the operating parameters for each port, including the channel level and gain.

Graphic Outputs:
When running experiments with more than one trace, in the’monitor’ window the waveforms are displayed in parallel on the monitor, with the x-axis showing the time and the y-axis the voltage, with each port using its own color.
When using ‘Color’, you can choose to plot the raw data, or the real and imaginary parts of the complex values.
By default, a selected trace is plotted with a ‘highlighted’ area. This can be turned off, or set to either ‘linear’ or ‘logarithmic’ scale. You can also save the data in a.csv-file (please see Port Options).

Storage:
Each port can be saved in one of the following ways:
1) in a saved experiment ‘file’
2) saved in a ‘canvas’ (an individual image for each port)
3) saved as a series of ‘.jpg’ images
If you choose option 1) or 2) above, the experiment file or the image file names include a number, which is the number of times the experiment has been run. For example, a ‘name.m’ experiment file has the name ‘1’.A storage directory can be selected using the’storage’ box.

Port Options:

System Requirements:

Supported OS: Windows XP/Vista/7/8
Processor: Intel Pentium 4/AMD Athlon 64 or higher
Memory: 2 GB RAM
Hard Disk: 3GB space available
Video Card: 256 MB DirectX 9.0 compliant graphics card
DirectX: 9.0c
Sound Card: DirectX 9.0 sound device
iPod touch 3rd generation (3rd Generation) Audio Controller
iPhone/iPod touch 2nd Generation (2nd Generation) Audio Controller
iPad

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