MacSpice then builds a numerical model of the circuit and analyses this. voltage plot for the transient data Voltage Divider - Sine vin 1 0 sin (0.0V 1.0V 50) ac 1.0 dc 0.0 r1 1 2 1.0K r2 2 0 1.0k.
HW TO USE MACSPICE TO CALCULATE CURRENT MAC
MacSpice runs on Intel architecture Apple Mac computers. To do this, type the command below on a terminal window: sudo systemctl restart apache2 Your server is now ready to accept rewrite rules. control dispose of any 'save' statements from previous runs delete all tran 0.1ms 20ms plot v (1) v (2) plot -i (vin). htaccess files You can set up URL rewrite rules directly on Apache’s configuration file. However, it is advisable to keep the rules in ‘.htaccess’ file on each website. To clarify, this isn't actually about, just SPICE in general. This generates a special output file with the. A few of the basics/features of EasyEDA are: Shows easier and efficient capabilities in circuit designing. It is compatible with Berkeley Spice 3f5 but incorporates many improvements - from simple bug-fixes to entirely new commands, algorithms and solution strategies. This file can be read using the Probe program and beautiful graphical displays of selected values can be obtained and printed. The handout on PSpice describes the operation of the Probe program. Can develop numerous open-source projects. Embedded with components purchase and PCB fabrication features. I usually find it quicker to simulate this kind of thing in LTSPICE, placing a capacitor in place of the MOSFET (if i do not have the mosfet model this is quicker to answer the basic question if the output amperes would fall within the transistor's specs) which is having same value as the "gate capacitance" (this is given in MOSFET data sheet for different voltages, select the voltage of interest as the P-0 value of your square or sine wave at MOSFET gate) and run the simulation, which will let you know the current wave form at collector pin (same as MOSFET gate, nearly).For example: the memory leaks that affected Spice 3f4 have been cured new algorithms have been developed to facilitate the simulation of large circuits, and to reduce simulation time MacSpice provides a robust multi-parameter optimizer and facilities for inter-process communication with other applications. certainly it will be more than 10 times Ic max (continuous). Refer to "peak instantaneous pulse collector current" in data sheet, or something similar sounding to know how much instantaneous current it can give in response to a brief pulse input. This is instantaneous and not correlated to your maximum collector current for transistor driver. I normally look at voltage gain only, RL/Re (load resistor over emitter resistor ) gives the voltage gain in a Common Emitter circuit, check if it satisfies your output requirements first.įor MOSFETs, the Gate charge will be given in data sheet, divide that by the rise time (usually in ns) to obtain the peak current. Other issues you raised like collector current resulting are not relevant except for calculating the power is within the transistors thermal dissipation requirements, which is also not an issue in your application.įurther, note that the actual collector current would depend on your LOAD resistor (Rc in parallel with your load resistor, the net value), you are making an error by thinking the collector current is Theoretical beta of transistor times Base current. Hence the practical way its done is to simply divide the input voltage less 0.6 volts by the resistor you have at input to base, this gives the max current draw from your rasp pi in worst case scenario, this scenario may not really be achieved in practice by your circuit, its really a circuit input impedance design criterion or thumb-rule. In your application, you should be more concerned about the max draw of current from the driving circuit (rasp pi) which you decided to restrict to 8ma. Beta or intrinsic gain of the transistor is not of as much practical interest as the actual gain when you employ the transistor in a circuit, because the circuit designer will do a trade-off of the beta, accepting a lower value of current gain to obtain a more temperature stable circuit. The curves typically show Vce marked on each curve, with Ib and Ic shown. And what do you mean by "minimum Ib required to fully open the transistor?".
The performance curves are to be found in the data sheet for the information you seek.
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