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  the Sinusoidal Steady-State



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Electric Circuit Analysis by K. S. Suresh Kumar

10.5.2 
the Sinusoidal Steady-State
Sinusoidal steady-state refers to the steady-state that gets established in a circuit when all the 
independent sources in the circuit are sinusoids of same angular frequency. Like DC steady-state,
this steady-state too can exist only if all the terms in transient response die down to negligible levels 
with time.
The word ‘steady’ has the literal meaning of ‘unchanging’. This unfortunately gives an impression 
that steady-state is that state in a circuit in which all circuit variables are unchanging in time. This is an 
error that a beginner in Circuit Analysis has to guard against. Steady-state does not necessarily mean 
that circuit response is unchanging in time. It is so only in the case of a DC steady-state.


Steady-State Response and Forced Response 
10.29
To understand the meaning of the word ‘steady’ in the Circuit Analysis context, we have to look at 
the input forcing function and find out those features of the forcing function which remain unchanging 
with time. In the case of DC or step inputs, the input value itself is unchanging in [0
+
,

). In the case 
of sinusoidal input forcing function the amplitude of the sinusoid, its angular and cyclic frequencies, 
its phase and its shape in one period (i.e., sinusoidal shape) remain constant in time. Therefore, if a 
steady-state exists in a circuit under the action of such a forcing function, we can expect all circuit 
variables to have sinusoidal shape, fixed amplitudes, fixed frequency which is same as that of the 
forcing function and fixed phase with respect to forcing function. This is what is meant by sinusoidal 
steady state. 
Thus, a circuit excited by one or more sinusoidal forcing functions of 
same
frequency is 
said to have reached 
sinusoidal steady-state 
if all its transient response components have 
died down and all its circuit variables have 
sinusoidal
waveshape with 
same
frequency as 
that of forcing functions and 
fixed
amplitudes and phase angles.
The waveforms in Fig. 10.5-2 show the applied voltage and inductor current in an initially relaxed 
RL circuit with 

0.33 
W
and L 

0.33 H. A sinusoidal voltage 

1 sin (5t) V was switched on to 
the circuit at t 

0. The current waveform shows the exponential transient response in the first few 
seconds clearly. After about 10 s or so, the transient response has decayed to negligible level and the 
response contains only a sinusoidal waveform that is of same frequency as that of applied voltage. It 
has fixed amplitude and a fixed phase with respect to the input sine wave. Thus, the circuit has reached 
sinusoidal steady-state within few time constants (
t

1s).
1
2
Transient state
Sinusoidal steady-state
Applied voltage
Circuit current
1
0.5
–0.5
–1
3
11
12
13
t
(s)
Fig. 10.5-2 
Waveforms illustrating sinusoidal steady state
Sinusoidal steady-state is also referred to as AC steady-state in Circuit Analysis literature.

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