To put simply it is where the system is ballanced. Imagine a wave that's getting bigger and bigger as each cycle passes, this is known as an unstable system. Again imagine a wave getting smaller and smaller with each cycle, this is a stable system that tends to zero when this cycle meets the zero point the system is said to have reached its "steady-state" the time in which it takes to reach this state is usually a factor as well as the "overshoot"
Imagine putting a current into a system "turning it on" say it requires 3volts so the zero point discussed before would be the 3Volt point. When you turn the system on it doesnt just reach 3Volts instantly the power could possibly run past 3Volts, known as overshoot, then start to oscillate until it settle down much like a spring. When the oscillations settle down the system has reached steady state. dampening is commonly used to achieve this and prevent overshoot.
Jason MEng
In circuit analysis, there is steady state and transient conditions. transient conditions are how the circuit acts immediately following some action (such as turning on power, closing a switch, losing power, etc.). Steady state conditions is everything else.
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A circuit in which elements are connected in series.For example in RLC series circuit resistor,inductor and capacitor are connected in series.
the net oppostion offered by the rlc circuit for the ac current to pass through it is called the impedance of rlc circuitAnswerThe impedance of an RLC circuit is the vector sum of the circuit's resistance, inductive reactance, and capacitive reactance, expressed in ohms.
Actually Inductor oppose the change of current in the circuit..... Acts like a short circuit in steady state condition....
-- If the excitation source is AC, then the steady state of the circuit depends on the voltage, frequency, and waveform (harmonic content) of the source. -- If the excitation source is DC, then the steady state current in a series circuit is zero. DC doesn't pass through a capacitor.
In circuit analysis, there is steady state and transient conditions. transient conditions are how the circuit acts immediately following some action (such as turning on power, closing a switch, losing power, etc.). Steady state conditions is everything else.
In a RLC series circuit the Q factor magnify the voltage to the circuit.
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RLC is a type of electrical circuit that involves a resistor, an inductor and a capacitor. The throughput is the amount of energy travelling through the circuit.
The phase shift angle of an RLC circuit is constant for a constant frequency, but changes with different frequencies.The phase angle of the AC in the RLC circuit is however continuously changing. Otherwise it wouldn't be AC.
No, the resonant frequency of a RLC series circuit is only dependant on L and C. R will be the impedance of the circuit at resonance.
XL=Xc is the resonance condition for an RLC circuit
Rl,rc,rlc
1. The RLC series circuit is a very important example of a resonant circuit. It has a minimum of impedance Z=R at the resonant frequency, and the phase angle is equal to zero at resonance.AnswerThe impedance of an RLC circuit is the vector sum of the circuit's resistance, inductive reactance, and capacitive reactance -all of which are expressed in ohms. This applies whether the circuit is at resonance or not.
In general, the way to reduce effective Q in a parallel RLC circuit is to reduce the value of R.
A circuit in which elements are connected in series.For example in RLC series circuit resistor,inductor and capacitor are connected in series.