Download Droid Tesla Demo for free
Download Droid Tesla Demo This is a trial version of the Tesla Pro Droid!
Droid Tesla is a simple and powerful circuit simulator.
Download Droid Tesla Demo
Ideal for students new to the design and construction of electronic circuits,
Hobbyists, DIY enthusiasts, and even seasoned appsfire.co professionals looking for a handy, quick-to-use tool for performing electronic circuit design calculations.
It's interactivity and innovation. You can't find it in the best Spice tools for PC like Multisim, Ltspice, Orcad or Pspice (trademarks are the property of their respective owners).
DroidTesla Simulator solves basic resistive core circuits using Kirchoff's current law (KCL)
In the same way that a student does in the circuit course, the simulation systematically forms a matrix according to the KCL processing and then proceeds to solve the unknowns using various algebra techniques such as Gaussian elimination and branched matrix techniques.
For nonlinear components, such as a diode and a BJT, the DroidTesla engine searches for the approximate solution by making a first guess in a response.
Then improve the solution with successive calculations built on this assumption.
This is called an iterative process. DroidTesla simulation uses an iterative Newton-Raphson algorithm
Circuits solve nonlinear I / V relationships.
Reactive elements (capacitors and inductors), DroidTesla uses numerical integration methods to approximate the state of reactive elements as a function of time.
DroidTesla offers trapezoidal integration methods (I'll add the cogs method later) to approximate the state of interactive elements.
Although in most circuits both methods provide almost identical results, the gear method is generally considered to be more stable, but the trapezoidal method is faster and more accurate.
Download Droid Tesla Demo
Resistance
-Captain
-Potentiometer (only available in Pro version)
Bulb (Only available in Pro version)
- ideal operational amplifier
- Bipolar junction transistor (NPN PNP)
mosfet n-channel depletion
-boost mosfet n-channel
p-channel spletion mosfet
-mosfet p-channel encancent
- JFET N and P (Only available in Pro version only)
-PN Diode
-diode PN
-PN Zener Diode
- Alternating current source
-Direct current source
-Ac voltage source
-DC voltage source (battery)
CCVS - Controlled Current Voltage Source
CCCCS - current control current source
-VCVS - Voltage source connected in voltage
-VCCS - Voltage current control current source
-Square wave voltage source (only available in PRO version)
Liangle wave voltage source (only available in Pro version)
-AC ammeter
-DC ammeter AC voltmeter
-DC voltmeter
-Two-channel vibratory massacre (only available in Pro version)
Switch Switch (Only available in Pro version)
-SPDT switch (Only available in Pro version)
Policy control switch (only available in Pro version)
-Current Swi Control TCH (Only available in trial version)
-and (only available in Pro version)
-NAND (Only available in PRO version)
- Or (only available in Pro version)
Only available in Pro version)
-NO (Only available in Pro version)
-XOR (Only available in Pro version)
-XNOR (Only available in PRO version)
- JK Flip-Flop (Only available in PRO version)
-7 Display panel (only available in Pro version)
-IC 555 (Only available in Pro version)
-Transformer (only available in Pro version)
- Circuit Graetz (only available in PRO version)
If you are tuning oscillators
You must put a small initial value on an interactive element. (see examples)
