ece631/ee631q lecture 16: average value model
DESCRIPTION
ECE631/EE631Q Lecture 16: Average Value Model. S.D.Sudhoff Purdue University. IM Overview. Objectives For Today. Develop an Average Value Model for the 3-Phase Bridge Inverter Features Include conduction losses Ignore switching losses. Semiconductor Model. Transistor Diode. - PowerPoint PPT PresentationTRANSCRIPT
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EE631 – Spring 2005 1
ECE631/EE631QLecture 16: Average Value Model
S.D.Sudhoff
Purdue University
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EE631 – Spring 2005 2
IM Overview
ini
invinr
inC
aLi
bLi
cLi
Lacr
Lacr
Lacr
acL
acL
acL
Cacr
Cacr
Cacr
acC
acC
acC
aOi
bOi
abOv
*eqLi
*edLi
e
*eqOv*edOv
e
aLi
bLi
VoltageController
CurrentController Voltage
ControllerVoltage
Controller
cbOv
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EE631 – Spring 2005 3
Objectives For Today
• Develop an Average Value Model for the 3-Phase Bridge Inverter
• Features– Include conduction losses– Ignore switching losses
![Page 4: ECE631/EE631Q Lecture 16: Average Value Model](https://reader035.vdocuments.us/reader035/viewer/2022062723/56813cc5550346895da670d4/html5/thumbnails/4.jpg)
EE631 – Spring 2005 4
Semiconductor Model
• Transistor
• Diode
irvv swsw
irvv dd
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EE631 – Spring 2005 5
AVM – DC Currrent
• Consider the current reference frame
cicqiai ii cos
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EE631 – Spring 2005 6
AVM – DC Current
• Sine-Triangle Modulation with 3rd Harmonic
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EE631 – Spring 2005 7
AVM – DC Current
• We have
)1(21
asag dd
))(3cos()cos( 3 cicias ddd
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EE631 – Spring 2005 8
AVM – DC Current• We have
agaidca dii ,ˆ
2/3
2/,, )(ˆ
2
1
cicidcadca dii
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EE631 – Spring 2005 9
AVM – DC Current
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EE631 – Spring 2005 10
AVM – DC Current
• Thus we have for the a-phase
• The total dc current must be given by
)cos(4
1, ci
qidca idi
)cos(4
3 ciqidc idi
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EE631 – Spring 2005 11
AVM - Voltage• The fast average voltages may be expressed
0ˆ
0ˆˆ
aiag
aiagag iv
ivv
)1)(()(ˆ agaiddagaiswswdcag dirvdirvvv
)1)(()(ˆ agaiswswagaidddcag dirvdirvvv
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EE631 – Spring 2005 12
AVM - Voltage
• The fundamental component of the line-to-ground voltage may be expressed
cicifundag bav sincosˆ 11
ciciagciciag dvdva
2/3
2/
2/
2/1 )cos(ˆ
1)cos(ˆ
1
ciciagciciag dvdvb
2/3
2/
2/
2/1 )sin(ˆ
1)sin(ˆ
1
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EE631 – Spring 2005 13
AVM - Voltage
• After substantial manipulation
ciqcdswdsw
swddswdc
irrddrr
vvdvvva
)3cos()cos(3
4)(
2
1
)(2
cos)(2
1
351
1
ciqc
dsw
swddc
iddrr
dvvvb
)3sin(5
3)sin(
3
)(2
)sin()(2
1
3
1
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EE631 – Spring 2005 14
AVM - Voltage• After a little more work, we have
• To show this
1av ciqi
1bv cidi
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EE631 – Spring 2005 15
AVM - Voltage
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EE631 – Spring 2005 16
AVM – Modulation Signal
• Problem: we need to know d, d3, • Starting point: modulation indices
dc
qq v
vm
**
dc
dd v
vm
**
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EE631 – Spring 2005 17
AVM – Modulation Signal
• We will need the modulation signal in the current reference frame
*
*
*
*
)cos()sin
)sin()cos(
d
q
cici
cicicid
ciq
m
m
m
m
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EE631 – Spring 2005 18
AVM – Modulation Signal
• It can be shown that
• To show this
)angle( diqici jii
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EE631 – Spring 2005 19
AVM – Modulation Signal
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EE631 – Spring 2005 20
AVM – Modulation Signal
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EE631 – Spring 2005 21
AVM – Modulation Signal
• Lets also define a voltage reference frame
• In this frame)( **dqcv jmmangle
2*2**dq
cvq mmm
0* cvdm
)3cos()cos( *3
*cvcvas ddd
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EE631 – Spring 2005 22
AVM – Modulation Signal
• To show this
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EE631 – Spring 2005 23
AVM – Modulation Signal• Since we have
• We therefore have
)angle( diqici jii
)(angle)angle( **dqdiqi jmmjii
)( **dqcv jmmangle
))(3cos()cos( 3 cicias ddd
)3cos()cos( *3
*cvcvas ddd
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EE631 – Spring 2005 24
AVM Modulation Signal
• Desired magnitudes
• For unsaturated operation
** 2 cvqmd
**3 6
1dd
3
2* d
*dd
*33 dd
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EE631 – Spring 2005 25
AVM - Modulation
• Analysis plan for saturated operation
)3cos()cos( 3, cvcvaprxa ddd
2/
02
,
3
)())(,1,1bound(
),( cvcvaprxacva ddd
ddf
bxb
bxax
axa
xba ),,bound(
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EE631 – Spring 2005 26
AVM Modulation
• Results
1*
1*3
**311
*
2)4sin(
2
1
))(2sin(1
sin4
cvcv
cvcv
dd
dddd
111
*3
1*3
*1
*3
*
1*3
*33
sin)2cos(845cos2
)3cos()23(cos)29(
3
1
2
cvcvcv
cvcv
cv
d
dddd
ddd
1)3cos()cos( 131 cvcv dd
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EE631 – Spring 2005 27
AVM Modulation
• A subtle point
• This occurs when 5
6
3
2 d
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EE631 – Spring 2005 28
AVM – Hysteresis Modulator