![International Journal of Trend in
International Open Access Journal
ISSN No: 2456
@ IJTSRD | Available Online @ www.ijtsrd.com
Matlab/Simulink Mo
Three-Phase
Assistant Professor, Shah and
ABSTRACT
This paper concentrates on modeling and simulation
of single phase inverter as a frequency changer
modulated by sinusoidal Pulse Width Modulation
(PWM) technique. An inverter is a circuit that
converts DC sources to AC sources. To judge the
quality of voltage produced by a PWM inverter, a
detailed harmonic analysis of the voltage waveform is
done. Pulse width modulated (PWM) inverters are
among the most used power-electronic circuits in
practical applications. These inverters are capable of
producing ac voltages of variable magnitude as well
as variable frequency with less harmonic distortion.
The model is executed utilizing MATLAB/Simulink
software with the SimPower System Block Set using
PC simulation. MATLAB/Simulink is a successful
instrument to examine a PWM inverter. Major reasons
for using MATLAB are: Faster reaction, accessibility
of different simulation devices and the nonappearance
of joining issues. In this paper, Insulated Gate Bipolar
Transistor (IGBT) is used as switching power device.
IGBT is ideal since it high switching speed and also
high input impedance. Finally a
MATLAB/SIMULINK model for the SPWM is
presented. Various simulation results are also
included.
Keyword: SPWM, Total Harmonic Distortion,
MATLAB SIMULINK, Filter Design
I. INTRODUCTION
Variable voltage and frequency supply for AC drives
is invariably obtained from a three-phase VSI. A
number of PWM techniques have been presented to
obtain variable voltage and frequency supply [1]. The
most popular among those are carrier-based sinusoidal
PWM and SVPWM. The major advantages of this
scheme are low power consumption, high energy
efficient up to 90% and easy to implement and
International Journal of Trend in Scientific Research and Development (IJTSRD)
International Open Access Journal | www.ijtsrd.com
ISSN No: 2456 - 6470 | Volume - 2 | Issue – 6 | Sep
www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018
Simulink Model of Sinusoidal PWM
Phase Voltage Source Inverter
Asha Durafe
nd Anchor Kutchhi Engineering College, Maharashtra
concentrates on modeling and simulation
of single phase inverter as a frequency changer
modulated by sinusoidal Pulse Width Modulation
(PWM) technique. An inverter is a circuit that
converts DC sources to AC sources. To judge the
d by a PWM inverter, a
detailed harmonic analysis of the voltage waveform is
done. Pulse width modulated (PWM) inverters are
electronic circuits in
practical applications. These inverters are capable of
riable magnitude as well
as variable frequency with less harmonic distortion.
The model is executed utilizing MATLAB/Simulink
software with the SimPower System Block Set using
PC simulation. MATLAB/Simulink is a successful
ter. Major reasons
for using MATLAB are: Faster reaction, accessibility
of different simulation devices and the nonappearance
of joining issues. In this paper, Insulated Gate Bipolar
Transistor (IGBT) is used as switching power device.
it high switching speed and also
high input impedance. Finally a
MATLAB/SIMULINK model for the SPWM is
presented. Various simulation results are also
SPWM, Total Harmonic Distortion,
Variable voltage and frequency supply for AC drives
phase VSI. A
number of PWM techniques have been presented to
obtain variable voltage and frequency supply [1]. The
based sinusoidal
PWM and SVPWM. The major advantages of this
scheme are low power consumption, high energy
efficient up to 90% and easy to implement and
control. The main focus of this paper is to develop a
simple MATLAB/SIMULINK model. The reason for
choice of MATLAB/SIMULINK as a development
tool is because it is the most important and widely
used simulation software and is an integral part of
taught programme in most of the universities in
Electrical/Electronics Engineering courses. Firstly
model of a three-phase inverter in presented on the
basis of SPWM representation. This is followed by
the basic principle of SPWM. Finally a
MATLAB/SIMULINK model for the SPWM is
presented.
II. Voltage Source Inverter:
The type of inverter where the in
controlled ac output is a voltage wave
output voltage waveform is mostly remaining
unaffected by the load. Due to this property, the VSI
have many industrial applications such as adjustable
speed drives and also in Power system for Flexible
AC Transmission.
A. Single Phase Full wave Bridge Inverter
It consists of two arms with a two semiconductor
switches on both arms with anti
diodes for discharging the reverse current. In case of
resistive-inductive load, the reverse load current fl
through these diodes. These diodes provide an
alternate path to inductive current which continue so
flow during the Turn OFF condition.
Fig1: Single Phase Full wave Bridge Inverter
Research and Development (IJTSRD)
www.ijtsrd.com
6 | Sep – Oct 2018
Oct 2018 Page: 753
Sinusoidal PWM For
Maharashtra, India
control. The main focus of this paper is to develop a
simple MATLAB/SIMULINK model. The reason for
IMULINK as a development
tool is because it is the most important and widely
used simulation software and is an integral part of
taught programme in most of the universities in
Electrical/Electronics Engineering courses. Firstly
rter in presented on the
basis of SPWM representation. This is followed by
the basic principle of SPWM. Finally a
MATLAB/SIMULINK model for the SPWM is
Voltage Source Inverter:
The type of inverter where the in dependently
is a voltage wave form, the
output voltage waveform is mostly remaining
unaffected by the load. Due to this property, the VSI
have many industrial applications such as adjustable
speed drives and also in Power system for Flexible
Single Phase Full wave Bridge Inverter:
It consists of two arms with a two semiconductor
switches on both arms with anti parallel freewheeling
diodes for discharging the reverse current. In case of
inductive load, the reverse load current flow
through these diodes. These diodes provide an
alternate path to inductive current which continue so
flow during the Turn OFF condition.
Fig1: Single Phase Full wave Bridge Inverter](https://image.slidesharecdn.com/116matlabsimulinkmodelofsinusoidalpwmforthree-phasevoltagesourceinverter-181121052935/85/Matlab-Simulink-Model-of-Sinusoidal-PWM-For-Three-Phase-Voltage-Source-Inverter-1-320.jpg)
![International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456
@ IJTSRD | Available Online @ www.ijtsrd.com
Table 1: Switching States
The switches are T1, T2, T3 and T4. The switches in
each branch is operated alternatively so that they are
not in same mode (ON /OFF) simultaneously .In
practice they are both OFF for short period
called blanking time, to avoid short circuiting.
switches T1 and T2 or T3 and T4 should operate in a
pair to get the output. These bridges legs are switched
such that the output voltage is shifted from one to
another and hence the change in polarity occurs in
voltage waveform. If the shift angle is zer
voltage is also zero and maximal when shift angle is
π.
B. SPWM (Sinusoidal Pulse Width Modulation
Technique):
This type of modulation is implemented by comparing
a sinusoidal modulating signal Vm (ωt) = Vm sin
with a triangular carrier signal of maximum height Vc
[8]. The natural intersection of Vm (ωt) and Vc
determine both the onset and duration of the
modulated pulses. PWM gives an approach to
diminish the Total Harmonic Distortion (THD) of
load current. The THD prerequisite can b
more effortlessly when the yield of PWM inverter is
separating. The unfiltered PWM yield will have a
generally high THD, yet the harmonic will be at the
much higher frequencies than for a square wave,
making sifting effectively. The aggregate
distortion, or THD, is characterized as the proportion
of the total of the powers of every single harmonic
segment to the power of the central. Control of the
switches for the sinusoidal PWM yield requires a
reference flag (tweaking or control flag) which is a
sinusoidal wave and a bearer flag which a triangular
wave that control the exchanging frequency. There
two kind of the exchanging for PWM, unipolar
exchanging and bipolar exchanging. In a unipolar
exchanging plan for PWM, the yield is change
either high.
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456
www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018
Table 1: Switching States
The switches are T1, T2, T3 and T4. The switches in
each branch is operated alternatively so that they are
not in same mode (ON /OFF) simultaneously .In
short period of time
circuiting. The
switches T1 and T2 or T3 and T4 should operate in a
pair to get the output. These bridges legs are switched
such that the output voltage is shifted from one to
another and hence the change in polarity occurs in
voltage waveform. If the shift angle is zero, the output
voltage is also zero and maximal when shift angle is
SPWM (Sinusoidal Pulse Width Modulation
This type of modulation is implemented by comparing
ωt) = Vm sinωt
ignal of maximum height Vc
ωt) and Vc (ωt)
determine both the onset and duration of the
modulated pulses. PWM gives an approach to
diminish the Total Harmonic Distortion (THD) of
load current. The THD prerequisite can be met all the
more effortlessly when the yield of PWM inverter is
separating. The unfiltered PWM yield will have a
generally high THD, yet the harmonic will be at the
much higher frequencies than for a square wave,
making sifting effectively. The aggregate harmonic
distortion, or THD, is characterized as the proportion
of the total of the powers of every single harmonic
segment to the power of the central. Control of the
switches for the sinusoidal PWM yield requires a
ag) which is a
sinusoidal wave and a bearer flag which a triangular
wave that control the exchanging frequency. There
two kind of the exchanging for PWM, unipolar
exchanging and bipolar exchanging. In a unipolar
exchanging plan for PWM, the yield is changed from
Sinusoidal pulse width modulation technique is
adopted in order to reduce the harmonic content of
output voltage and to obtain an electrical near
sinusoidal output voltage.
III. Harmonics:
Harmonics are brought on by non
are loads that draw a non-sinusoidal current from a
sinusoidal voltage source. Some cases of harmonic
creating loads are
Electric circular segment heaters
Static VAR compensators
Inverters
DC converters
Switch Mode Power Supplies and AC or DC
engine drives
This paper describes the Harmonic examination of
Single Phase inverter with Pulse Width Modulation
(PWM). The Simulink demonstrate for both
straightforward and down to earth inverter has been
designed in MATLAB.
IV. Simulation Results:
Simulation model have been designed and
implemented using MATLAB SIMULINK tool. The
proposed Simulink model has been shown in figure 2
and figure 3 in which modeling and simulation of
single phase inverter as a frequenc
modulated by Pulse Width Modulation (PWM) has
been designed. Load voltage, load current have been
shown in figure 4. The PWM generation is shown in
figure 5 and the Harmonic profile with THD value is
shown in figure 6. The different parameters of
inverter, for example, R, C and Filter plane are shifted
and the subsequent voltage and current diagrams has
been examined.
Figure 2: Single phase SPWM Inverter
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456-6470
Oct 2018 Page: 754
Sinusoidal pulse width modulation technique is
adopted in order to reduce the harmonic content of
output voltage and to obtain an electrical near
Harmonics are brought on by non-straight loads that
sinusoidal current from a
sinusoidal voltage source. Some cases of harmonic
Electric circular segment heaters
Switch Mode Power Supplies and AC or DC
This paper describes the Harmonic examination of
Single Phase inverter with Pulse Width Modulation
(PWM). The Simulink demonstrate for both
straightforward and down to earth inverter has been
Simulation model have been designed and
implemented using MATLAB SIMULINK tool. The
proposed Simulink model has been shown in figure 2
and figure 3 in which modeling and simulation of
single phase inverter as a frequency changer
modulated by Pulse Width Modulation (PWM) has
been designed. Load voltage, load current have been
shown in figure 4. The PWM generation is shown in
figure 5 and the Harmonic profile with THD value is
shown in figure 6. The different parameters of the
inverter, for example, R, C and Filter plane are shifted
and the subsequent voltage and current diagrams has
Figure 2: Single phase SPWM Inverter](https://image.slidesharecdn.com/116matlabsimulinkmodelofsinusoidalpwmforthree-phasevoltagesourceinverter-181121052935/85/Matlab-Simulink-Model-of-Sinusoidal-PWM-For-Three-Phase-Voltage-Source-Inverter-2-320.jpg)
Matlab Simulink Model of Sinusoidal PWM For Three-Phase Voltage Source Inverter
- 1. International Journal of Trend in International Open Access Journal ISSN No: 2456 @ IJTSRD | Available Online @ www.ijtsrd.com Matlab/Simulink Mo Three-Phase Assistant Professor, Shah and ABSTRACT This paper concentrates on modeling and simulation of single phase inverter as a frequency changer modulated by sinusoidal Pulse Width Modulation (PWM) technique. An inverter is a circuit that converts DC sources to AC sources. To judge the quality of voltage produced by a PWM inverter, a detailed harmonic analysis of the voltage waveform is done. Pulse width modulated (PWM) inverters are among the most used power-electronic circuits in practical applications. These inverters are capable of producing ac voltages of variable magnitude as well as variable frequency with less harmonic distortion. The model is executed utilizing MATLAB/Simulink software with the SimPower System Block Set using PC simulation. MATLAB/Simulink is a successful instrument to examine a PWM inverter. Major reasons for using MATLAB are: Faster reaction, accessibility of different simulation devices and the nonappearance of joining issues. In this paper, Insulated Gate Bipolar Transistor (IGBT) is used as switching power device. IGBT is ideal since it high switching speed and also high input impedance. Finally a MATLAB/SIMULINK model for the SPWM is presented. Various simulation results are also included. Keyword: SPWM, Total Harmonic Distortion, MATLAB SIMULINK, Filter Design I. INTRODUCTION Variable voltage and frequency supply for AC drives is invariably obtained from a three-phase VSI. A number of PWM techniques have been presented to obtain variable voltage and frequency supply [1]. The most popular among those are carrier-based sinusoidal PWM and SVPWM. The major advantages of this scheme are low power consumption, high energy efficient up to 90% and easy to implement and International Journal of Trend in Scientific Research and Development (IJTSRD) International Open Access Journal | www.ijtsrd.com ISSN No: 2456 - 6470 | Volume - 2 | Issue – 6 | Sep www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018 Simulink Model of Sinusoidal PWM Phase Voltage Source Inverter Asha Durafe nd Anchor Kutchhi Engineering College, Maharashtra concentrates on modeling and simulation of single phase inverter as a frequency changer modulated by sinusoidal Pulse Width Modulation (PWM) technique. An inverter is a circuit that converts DC sources to AC sources. To judge the d by a PWM inverter, a detailed harmonic analysis of the voltage waveform is done. Pulse width modulated (PWM) inverters are electronic circuits in practical applications. These inverters are capable of riable magnitude as well as variable frequency with less harmonic distortion. The model is executed utilizing MATLAB/Simulink software with the SimPower System Block Set using PC simulation. MATLAB/Simulink is a successful ter. Major reasons for using MATLAB are: Faster reaction, accessibility of different simulation devices and the nonappearance of joining issues. In this paper, Insulated Gate Bipolar Transistor (IGBT) is used as switching power device. it high switching speed and also high input impedance. Finally a MATLAB/SIMULINK model for the SPWM is presented. Various simulation results are also SPWM, Total Harmonic Distortion, Variable voltage and frequency supply for AC drives phase VSI. A number of PWM techniques have been presented to obtain variable voltage and frequency supply [1]. The based sinusoidal PWM and SVPWM. The major advantages of this scheme are low power consumption, high energy efficient up to 90% and easy to implement and control. The main focus of this paper is to develop a simple MATLAB/SIMULINK model. The reason for choice of MATLAB/SIMULINK as a development tool is because it is the most important and widely used simulation software and is an integral part of taught programme in most of the universities in Electrical/Electronics Engineering courses. Firstly model of a three-phase inverter in presented on the basis of SPWM representation. This is followed by the basic principle of SPWM. Finally a MATLAB/SIMULINK model for the SPWM is presented. II. Voltage Source Inverter: The type of inverter where the in controlled ac output is a voltage wave output voltage waveform is mostly remaining unaffected by the load. Due to this property, the VSI have many industrial applications such as adjustable speed drives and also in Power system for Flexible AC Transmission. A. Single Phase Full wave Bridge Inverter It consists of two arms with a two semiconductor switches on both arms with anti diodes for discharging the reverse current. In case of resistive-inductive load, the reverse load current fl through these diodes. These diodes provide an alternate path to inductive current which continue so flow during the Turn OFF condition. Fig1: Single Phase Full wave Bridge Inverter Research and Development (IJTSRD) www.ijtsrd.com 6 | Sep – Oct 2018 Oct 2018 Page: 753 Sinusoidal PWM For Maharashtra, India control. The main focus of this paper is to develop a simple MATLAB/SIMULINK model. The reason for IMULINK as a development tool is because it is the most important and widely used simulation software and is an integral part of taught programme in most of the universities in Electrical/Electronics Engineering courses. Firstly rter in presented on the basis of SPWM representation. This is followed by the basic principle of SPWM. Finally a MATLAB/SIMULINK model for the SPWM is Voltage Source Inverter: The type of inverter where the in dependently is a voltage wave form, the output voltage waveform is mostly remaining unaffected by the load. Due to this property, the VSI have many industrial applications such as adjustable speed drives and also in Power system for Flexible Single Phase Full wave Bridge Inverter: It consists of two arms with a two semiconductor switches on both arms with anti parallel freewheeling diodes for discharging the reverse current. In case of inductive load, the reverse load current flow through these diodes. These diodes provide an alternate path to inductive current which continue so flow during the Turn OFF condition. Fig1: Single Phase Full wave Bridge Inverter
- 2. International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 @ IJTSRD | Available Online @ www.ijtsrd.com Table 1: Switching States The switches are T1, T2, T3 and T4. The switches in each branch is operated alternatively so that they are not in same mode (ON /OFF) simultaneously .In practice they are both OFF for short period called blanking time, to avoid short circuiting. switches T1 and T2 or T3 and T4 should operate in a pair to get the output. These bridges legs are switched such that the output voltage is shifted from one to another and hence the change in polarity occurs in voltage waveform. If the shift angle is zer voltage is also zero and maximal when shift angle is π. B. SPWM (Sinusoidal Pulse Width Modulation Technique): This type of modulation is implemented by comparing a sinusoidal modulating signal Vm (ωt) = Vm sin with a triangular carrier signal of maximum height Vc [8]. The natural intersection of Vm (ωt) and Vc determine both the onset and duration of the modulated pulses. PWM gives an approach to diminish the Total Harmonic Distortion (THD) of load current. The THD prerequisite can b more effortlessly when the yield of PWM inverter is separating. The unfiltered PWM yield will have a generally high THD, yet the harmonic will be at the much higher frequencies than for a square wave, making sifting effectively. The aggregate distortion, or THD, is characterized as the proportion of the total of the powers of every single harmonic segment to the power of the central. Control of the switches for the sinusoidal PWM yield requires a reference flag (tweaking or control flag) which is a sinusoidal wave and a bearer flag which a triangular wave that control the exchanging frequency. There two kind of the exchanging for PWM, unipolar exchanging and bipolar exchanging. In a unipolar exchanging plan for PWM, the yield is change either high. International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018 Table 1: Switching States The switches are T1, T2, T3 and T4. The switches in each branch is operated alternatively so that they are not in same mode (ON /OFF) simultaneously .In short period of time circuiting. The switches T1 and T2 or T3 and T4 should operate in a pair to get the output. These bridges legs are switched such that the output voltage is shifted from one to another and hence the change in polarity occurs in voltage waveform. If the shift angle is zero, the output voltage is also zero and maximal when shift angle is SPWM (Sinusoidal Pulse Width Modulation This type of modulation is implemented by comparing ωt) = Vm sinωt ignal of maximum height Vc ωt) and Vc (ωt) determine both the onset and duration of the modulated pulses. PWM gives an approach to diminish the Total Harmonic Distortion (THD) of load current. The THD prerequisite can be met all the more effortlessly when the yield of PWM inverter is separating. The unfiltered PWM yield will have a generally high THD, yet the harmonic will be at the much higher frequencies than for a square wave, making sifting effectively. The aggregate harmonic distortion, or THD, is characterized as the proportion of the total of the powers of every single harmonic segment to the power of the central. Control of the switches for the sinusoidal PWM yield requires a ag) which is a sinusoidal wave and a bearer flag which a triangular wave that control the exchanging frequency. There two kind of the exchanging for PWM, unipolar exchanging and bipolar exchanging. In a unipolar exchanging plan for PWM, the yield is changed from Sinusoidal pulse width modulation technique is adopted in order to reduce the harmonic content of output voltage and to obtain an electrical near sinusoidal output voltage. III. Harmonics: Harmonics are brought on by non are loads that draw a non-sinusoidal current from a sinusoidal voltage source. Some cases of harmonic creating loads are Electric circular segment heaters Static VAR compensators Inverters DC converters Switch Mode Power Supplies and AC or DC engine drives This paper describes the Harmonic examination of Single Phase inverter with Pulse Width Modulation (PWM). The Simulink demonstrate for both straightforward and down to earth inverter has been designed in MATLAB. IV. Simulation Results: Simulation model have been designed and implemented using MATLAB SIMULINK tool. The proposed Simulink model has been shown in figure 2 and figure 3 in which modeling and simulation of single phase inverter as a frequenc modulated by Pulse Width Modulation (PWM) has been designed. Load voltage, load current have been shown in figure 4. The PWM generation is shown in figure 5 and the Harmonic profile with THD value is shown in figure 6. The different parameters of inverter, for example, R, C and Filter plane are shifted and the subsequent voltage and current diagrams has been examined. Figure 2: Single phase SPWM Inverter International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456-6470 Oct 2018 Page: 754 Sinusoidal pulse width modulation technique is adopted in order to reduce the harmonic content of output voltage and to obtain an electrical near Harmonics are brought on by non-straight loads that sinusoidal current from a sinusoidal voltage source. Some cases of harmonic Electric circular segment heaters Switch Mode Power Supplies and AC or DC This paper describes the Harmonic examination of Single Phase inverter with Pulse Width Modulation (PWM). The Simulink demonstrate for both straightforward and down to earth inverter has been Simulation model have been designed and implemented using MATLAB SIMULINK tool. The proposed Simulink model has been shown in figure 2 and figure 3 in which modeling and simulation of single phase inverter as a frequency changer modulated by Pulse Width Modulation (PWM) has been designed. Load voltage, load current have been shown in figure 4. The PWM generation is shown in figure 5 and the Harmonic profile with THD value is shown in figure 6. The different parameters of the inverter, for example, R, C and Filter plane are shifted and the subsequent voltage and current diagrams has Figure 2: Single phase SPWM Inverter
- 3. International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 @ IJTSRD | Available Online @ www.ijtsrd.com Figure 3: SPWM Generator Figure 4: SPWM Waveform Figure 5: Load voltage and load Figure 6: THD of Output Voltage Waveform for Single Pulse Width Modulated Inverter International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456 www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018 Figure 3: SPWM Generator Figure 4: SPWM Waveform current THD of Output Voltage Waveform for Single Pulse Width Modulated Inverter V. Conclusion: This paper describes the Harmonic analysis of Single Phase inverter with Pulse Width Modulation (PWM). It includes both practical inverter generator circuit. The Simulink models for both the circuits have been simulated in MATLAB/SIMULINK. Its various parameters such as R, L load and filter design components are varied and the resulting voltage and current graphs have been studied. VI. References: 1. Kim. J, Choi. J & Hong. H, "Output LC Filter Design of Voltage Source Inverter Considering the Performance of Controller" IEEE Conference Publications, 2000. 2. Lin. W. Song & Huang. Reduction in Inverters by Use of Width Modulation” IEEE Transactions on Industrial Electronics - ELECTRON , vol. IECI- 1980 3. Gole. A. M “Harmonic Elimination in SPWM Inverter"1994, Halifax, Canada. 4. Ming Li, Dong Dai & Xikui Ma, "Slow Fast-Scale Instabilities in Voltage Controlled Full-Bridge Inverter" Journal: Circuits Systems and Signal Processing SIGNAL PROCESS , vol. 27, no. 6, pp. 811 2008. 5. Maswood. Ali. I & Al-Ammar. Essam "Analysis of a PWM Voltage Source Inverter with PI Controller under Non International Power Engineering Conference IPEC, 2010. 6. Anand. D & Jeevananthan .S "Modeling and Analysis of Conducted EMI Emissions of a Single-Phase PWM Inverters" Asian Power Electronics Journal, Vol. 4, No.3 December 2010. 7. Crowley. Ian. F & Leung. H. F "PWM Techniques: A Pure Sine Wave Inverter" Worcester Polytechnic Institute Major Qualifying Project, 2010. 8. J.M.D. Murphy and F.G. Turnbull, Power Electronic Control of AC motors, Perg 1988. 9. M. H. Rashid, Power Electronics, Prentice 1998. 10. Ned Mohan, M.Undeland and P.Robbins, Power Electronics, John Wiley & Sons, 1995. International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456-6470 Oct 2018 Page: 755 This paper describes the Harmonic analysis of Single Phase inverter with Pulse Width Modulation (PWM). It includes both practical inverter circuit and PWM generator circuit. The Simulink models for both the circuits have been simulated in MATLAB/SIMULINK. Its various parameters such as R, L load and filter design components are varied and the resulting voltage and current graphs have been Kim. J, Choi. J & Hong. H, "Output LC Filter Design of Voltage Source Inverter Considering the Performance of Controller" IEEE Conference Song & Huang. I. Bau “Harmonic Reduction in Inverters by Use of Sinusoidal Pulse Width Modulation” IEEE Transactions on IEEE TRANS IND -27, no. 3, pp. 201-207, M “Harmonic Elimination in SPWM Inverter"1994, Halifax, Canada. Ming Li, Dong Dai & Xikui Ma, "Slow-Scale and Scale Instabilities in Voltage- Mode Bridge Inverter" Journal: Circuits Systems and Signal Processing - CIRC SYST SIGNAL PROCESS , vol. 27, no. 6, pp. 811-831, Ammar. Essam "Analysis age Source Inverter with PI Controller under Non-ideal conditions” Power Engineering Conference- Anand. D & Jeevananthan .S "Modeling and Analysis of Conducted EMI Emissions of a Phase PWM Inverters" Asian Power ics Journal, Vol. 4, No.3 December 2010. Crowley. Ian. F & Leung. H. F "PWM Techniques: A Pure Sine Wave Inverter" Worcester Polytechnic Institute Major Qualifying J.M.D. Murphy and F.G. Turnbull, Power Electronic Control of AC motors, Pergamon Press, M. H. Rashid, Power Electronics, Prentice-Hall, Ned Mohan, M.Undeland and P.Robbins, Power Electronics, John Wiley & Sons, 1995.