resonance in r-l-c circuit
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RESONANCE IN R-L-C CIRCUIT
1. SERIES CIRCUIT2. PARALLEL CIRCUIT
RESONANCE IN R-L-C SERIES CIRCUIT
Let us consider as R-L-C series circuit
We know that the impedance in R-L-C series circuit is
Where =2πfL & =
Such a circuit shown in figure is connected to an a.c. source of constant supply voltage V but having variable frequency. The frequency can be varied from zero, increasing and approaching infinity.
22| | L CZ R X X
𝓋
• Since and are functions of frequency, at a particular frequency of the applied voltage, and will became equal in magnitude.
Since
- 0
=
The circuit, when and hence , is said to be in resonance. In a series circuit current I remains the same throughout we can write,
i.e.
So, at resonance will cancel out each other.
the supply voltage
. The entire supply voltage will drop across the resistor R
Resonant frequency • At resonance
( is the resonant frequency)
Where L is the inductance in henry, C is the capacitance in farad and the resonant frequency in Hz
Under resonance condition the net reactance is zero . Hence the impedance of the circuit.
This is the minimum possible value of impedance. Hence, circuit current is maximum for the given value of R and its value is given by
The circuit behaves like a pure resistive circuit because net reactance is zero . So, the current is in phase with applied voltage .obviously, the power factor of the circuit is unity under resonance condition.
as current is maximum it produces large voltage drop across L and C.
2 2 0 0L CZ R X R X orX X
m
V VI
Z R Z R
Voltage across the inductance at resonance is given by
2
2
12
2
L m L m r
m r
m m m
m
V I X I L
I f L
L LI L I I
LCLC LC
LI
C
At resonance, the current the current flowing in the circuit is equal to V
R
2L
V L LV V
R C CR
Similarly voltage across capacitance at resonance is given by
Thus voltage drop across L and C are equal and many times the applied voltage. Hence voltage magnification occurs at the resonance condition.so series resonance condition is often refers to as voltage resonance.
2
1 1
2
11
22
C m C
m mr r
mm m
m
V I X
I IC f C
I LC LCI I
C CCLC
L V LI
C R C
Q-FACTOR IN R-L-C SERIES CIRCUIT
Q-FACTOR: In case of R-L-C series circuit Q-Factor is defined as the voltage magnification of the circuit at resonance. Current at resonance is given by
And voltage across inductance or capacitor is given by =
OR
Voltage magnification = voltage across L or C /applied voltage
OR
OR
m m
VI V I R
R
m LI X m CI X
LV
V CV
V L CV V
m L
m
I X
I R m C
m
I X
I R
CL XXOR
R R
Thus Q-factor
2
2
1
2 1
2
2 112 2
2
1 1
1
CL
r
r
r
r
XXOR
R RLOR
R CR
f LOR
R f CR
LOR
LCR CRLC
L LCOR
R LC R C
L
R C
21 1
2r
r
f LLQ factor
R C R f CR
Effects of series resonance
1. When a series in R-L-C circuit attains resonance i.e., the next reactance of the circuit is zero.
2. the impedance of the circuit is minimum.
3. Since Z is minimum, will be minimum.
4. Since I is maximum, the power dissipated would be maximum .
5. Since , . the supply voltage is in phase with the supply current
RESONANCE IN R-L-C PARALLEL CIRCUIT
In R-L-C series circuit electrical resonance takes place when the voltage across the inductance is equal to the voltage across the capacitance. Alternatively, resonance takes place when the power factor of the circuit becomes unity. this is the basic condition of resonance. It remains the same for parallel circuits also .thus resonance will occur in parallel circuit when the power factor of the entire circuit becomes unity . let us consider R-L-C parallel circuit
For parallel circuit, the applied voltage is taken as reference phasor. The current drawn an inductive coil lags the applied voltage by an phase angle .
The current drawn by capacitor leads the applied voltage by 90 . Now power factor of the entire circuit is in phase with the applied voltage. This will happen when the current drawn by the capacitive branch, equals to the reactive component of current of inductive branch.
Hence the resonance takes place the necessary condition is
……………(1)
Current in a capacitive branch, and ………...(2)
Current in inductive branch,
Where = impedance of the inductive branch
angle of lag
and
Now …………….(3)
sinC LI I C
C
VI
X
LL
VI
Z
LZ2 2
L LR jX R X 1
2
tan
sin
sin
L
L
L
L LL
L L L
X
RX
Z
X VXVI
Z Z Z
2
2
22
2 2
22 2
1
1
L
C L
L L C
r rr
r
r
VXV
X Z
Z X X
LR L L
C C
LL R
C
L RL
C
22
2
2
2
2
2
2
2
1
1
12
1 1
2
r
r
r
r
R
LC L
R
LC L
Rf
LC L
Rf
LC L
Now substituting the equations 2 and 3 in equation 1,we get
Where is a resonant frequency in Hertz. The expression is different from that of series circuit. However if the resistance (R) of the coil is negligible the expression of resonant frequency reduces to
1 1 1
2 2rf LC LC
From the phasor diagram it is clear that, the current in the inductive and capacitive branches may be many times greater then the resultant current under the condition of resonance. As the reactive component is 0 under resonance condition in order to satisfy the condition of unity power factor, the resultant current is minimum under this condition. From the above, it is observed that the current taken from the supply can be greatly magnified by means of a parallel resonant circuit. This current magnification is termed as
Q-factor of the circuit.
sintan
cosC L
L
I IQ factor
I I
At resonance the resultant current drawn by parallel circuit is in phase with the applied voltage.
resultant current
But under the condition of resonance
Resultant current
2L rX f L
R R
2cos .L
L L L
V R VRI I
Z Z Z
2 1L L C r
r
LZ X X L
C C
/ /
VR VR
L C L CR
Thus the impedance offered by a parallel resonant circuit .
This impedance is purely resistive and generally known as equivalent or dynamic impedance of the circuit.as the current at resonance is minimum, the dynamic impedance represents the maximum impedance offered by the circuit at resonance .
So the parallel circuit is consider as a condition of maximum impedance or minimum admittance.
The current at resonance is minimum , hence the circuit is sometimes called as rejecter circuit because it rejects that frequency to which it resonant.
The phenomenon of resonance is parallel circuits is of great importance because it forms the basis of tuned circuits in electronics.
L
CR
COMPARISION OF SERIES AND PARALLEL RESONANCE
Description
Impedance at resonance
Current at resonance
Resonant frequency
When
When
Power factor at resonance
Q- factor
It magnifies at resonance
Series circuit
Minimum given by
Maximum
𝒇 𝒓=𝟏
𝟐𝝅 √𝑳𝑪Circuit is capacitive (as the net
reactance is negative)
Circuit is inductive (as the net reactance is positive)
Unity
𝑿 𝑳
𝑹
voltage
Parallel circuit
Maximum given by
Minimum
𝒇 𝒓=𝟏𝟐𝝅 √ 𝟏
𝑳𝑪−𝑹𝟐
𝑳𝟐
Circuit is inductive (as the net susceptance is negative)
Circuit is capacitive (as the net susceptance is positive)
Unity
𝑿 𝑳
𝑹
current
• MADE BY• SIDDHI SHRIVAS
Thank You !
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