static void Main(string[] args) { Circuit sim = new Circuit(); var volt0 = sim.Create <VoltageInput>(); var g = sim.Create <Ground>(); var res0 = sim.Create <Resistor>(); res0.resistance = 1; sim.Connect(volt0.leadPos, res0.leadIn); sim.Connect(g.leadIn, res0.leadOut); for (int x = 1; x <= 3; x++) { sim.doTick(); // Ohm's Law Debug.Log(res0.getVoltageDelta(), res0.resistance * res0.getCurrent()); // V = I x R Debug.Log(res0.getCurrent(), res0.getVoltageDelta() / res0.resistance); // I = V / R Debug.Log(res0.resistance, res0.getVoltageDelta() / res0.getCurrent()); // R = V / I Debug.Log(res0.getLeadVoltage(0), res0.getLeadVoltage(0)); // Leads voltage } Console.WriteLine("program complete"); Console.ReadLine(); }
static void Main(string[] args) { Circuit sim = new Circuit(); var volt0 = sim.Create <VoltageInput>(Voltage.WaveType.DC); volt0.maxVoltage = 10; var res0 = sim.Create <Resistor>(6); var res1 = sim.Create <Resistor>(2); var res2 = sim.Create <Resistor>(6); var res3 = sim.Create <Resistor>(2); var res4 = sim.Create <Resistor>(6); var res5 = sim.Create <Resistor>(1000); var ground0 = sim.Create <Ground>(); sim.Connect(volt0.leadPos, res0.leadIn); sim.Connect(res0.leadOut, res1.leadIn); sim.Connect(volt0.leadPos, res2.leadIn); sim.Connect(res2.leadOut, res3.leadIn); sim.Connect(res3.leadOut, ground0.leadIn); sim.Connect(res1.leadOut, ground0.leadIn); sim.Connect(res3.leadOut, res4.leadIn); sim.Connect(res4.leadOut, res1.leadIn); for (int x = 1; x <= 1; x++) { sim.doTick(); // Ohm's Law LogSharp(res0.getVoltageDelta(), res0.resistance * res0.getCurrent()); // V = I x R LogSharp(res0.getCurrent(), res0.getVoltageDelta() / res0.resistance); // I = V / R LogSharp(res0.resistance, res0.getVoltageDelta() / res0.getCurrent()); // R = V / I LogSharp(volt0.getCurrent()); } Debug.Log("program complete"); }