top of page
Search
foggouniswai1976

Virtual C.R.O. Crack







Virtual C.R.O. Crack + With Keygen For Windows The Virtual C.R.O. Crack Free Download 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. Crack For Windows 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 + The Virtual CRO is a useful software simulation of a digital C.R.O., based on the Tektronix C.R.O. 9680A. The software works in 'bipolar' mode, which means that all 'high' voltages are positive; all 'low' voltages are negative. The C.R.O. has 5 input channels and one output channel. There are three input channels (X, Y, Z) which have input ranges from -5 to +5 volts; and two input channels (TRIG and VOL) which have input ranges from 0 to 9 volts. The program features a collection of waveforms and calibration signals from the C.R.O. specifications, as well as some extras. First of all, the main window in the simulation features the display of a waveform. The waveform (or 'experiment') displayed is chosen from a set of common experiments. You may add your own by modifying the source code and re-compiling the program. You can also send a trigger signal to the C.R.O. input channel TRIG, and choose the delay between the trigger and the start of the displayed experiment. There are 4 'genesis' points where you can connect mathematical expressions to modify the displayed experiment. These include: - the amplitude of the displayed experiment at a given moment, - the voltage or current intensity, - the initial (for a sinusoidal signal) or final (for a pulse) phase of the displayed experiment, and - the'shape' (i.e. the 'function' that the displayed experiment is approximating). You can also perform an 'experiment' on the displayed signal using an external triggering system (e.g. from a signal generator 8e68912320 Virtual C.R.O. Crack 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 What's New in the? System Requirements For Virtual C.R.O.: Apple Mac - Mac with at least 4GB of RAM, with 512MB recommended - A 1 GHz or faster processor - A 1GB hard drive (hard drive space required for installation) - A Mac OS X v10.5 or newer (including v10.6 Snow Leopard) - A current version of Flash - An internet connection - 2GB of free hard disk space - 2GB of RAM - 2GB of available RAM - Internet


Related links:

1 view0 comments

Comments


bottom of page