V-2
... General AC Circuits II • AC circuits are a two-dimensional problem. • If we supply any AC circuit by a voltage V0sint, the time dependence of all the voltages and currents in the circuit will also oscillate with the same t but possibly different phase. • So it is necessary and sufficient to descr ...
... General AC Circuits II • AC circuits are a two-dimensional problem. • If we supply any AC circuit by a voltage V0sint, the time dependence of all the voltages and currents in the circuit will also oscillate with the same t but possibly different phase. • So it is necessary and sufficient to descr ...
Spice Lecture
... C_C1 1 2 0.01592u IC=0 V_V1 2 0 dc 0.0 ac 1.0 sin(0.0 1.0 1.0 0 0) .print ac V(1) .ac LIN 100 0.001 1e+06 .op -The title must be the first line in the netlist .END ...
... C_C1 1 2 0.01592u IC=0 V_V1 2 0 dc 0.0 ac 1.0 sin(0.0 1.0 1.0 0 0) .print ac V(1) .ac LIN 100 0.001 1e+06 .op -The title must be the first line in the netlist .END ...
Vs Jr . (2.5
... 2. Transform the 2 amp current source in parallel with the 6 ohm resistor to a voltage source and a resistor. ...
... 2. Transform the 2 amp current source in parallel with the 6 ohm resistor to a voltage source and a resistor. ...
ELECTRICAL QUANTITIES
... Impedances and admittances in complicated networks are combined in the same way as resistances and conductances, respectively. The impedance function Z(s) and Y(s) contain the same information as the characteristic equation. The pole-zero diagram contains the essential information of the impedance f ...
... Impedances and admittances in complicated networks are combined in the same way as resistances and conductances, respectively. The impedance function Z(s) and Y(s) contain the same information as the characteristic equation. The pole-zero diagram contains the essential information of the impedance f ...
2. Norton`s theorem
... 2. Norton’s theorem An American engineer, E.L. Norton at Bell Telephone Laboratories, proposed a theorem similar to Thevenin’s theorem. Norton’s theorem states that a linear two-terminal network can be replaced by an equivalent circuit consisting of a current source IN in parallel with resistor RN, ...
... 2. Norton’s theorem An American engineer, E.L. Norton at Bell Telephone Laboratories, proposed a theorem similar to Thevenin’s theorem. Norton’s theorem states that a linear two-terminal network can be replaced by an equivalent circuit consisting of a current source IN in parallel with resistor RN, ...
EET 162.01
... Use phasors and vectors to solve for impedance of inductive and capacitive circuits and the resulting voltages or currents. 3. Calculate time constants and resonance of reactive circuits. 4. Use oscilloscope and multimeter to measure variables within simple AC circuits containing capacitors, inducto ...
... Use phasors and vectors to solve for impedance of inductive and capacitive circuits and the resulting voltages or currents. 3. Calculate time constants and resonance of reactive circuits. 4. Use oscilloscope and multimeter to measure variables within simple AC circuits containing capacitors, inducto ...
Current and Circuits Voltage (V) - mrkearsley.com
... A total of 12 equations relate P, I, R, and V If you have any two of these measurements, you may find out the other two. ...
... A total of 12 equations relate P, I, R, and V If you have any two of these measurements, you may find out the other two. ...
Circuit Elements - sources
... 1. Voltage and current sources (active elements) 2. Resistors (passive element) ...
... 1. Voltage and current sources (active elements) 2. Resistors (passive element) ...
Network analysis (electrical circuits)
A network, in the context of electronics, is a collection of interconnected components. Network analysis is the process of finding the voltages across, and the currents through, every component in the network. There are many different techniques for calculating these values. However, for the most part, the applied technique assumes that the components of the network are all linear.The methods described in this article are only applicable to linear network analysis, except where explicitly stated.