Exercice corrigés e p

Office National Des AéroportsAcadémie Internationale Mohamed VI de l’Aviation Civile

Office National Des Aéroports Académie Internationale Mohamed VI de l’Aviation Civile

Électronique de puissance – Exercices © M. ZEGRARI


!

"#$%&'( )* + )

$$

$ ! " #$ ""% &$

" "& #$ """'" ( ")" $

Charge inductive icc

vs

L

vcc R

is

Vm

π 3π 2π

vcc

0 ωt

π 2π 3π ωt

icc

*0

Redresseur Source CA

Vm

π 3π 2π

v1

0 ωt

Vm

π 3π 2π

v2

0 ωt

Vm

π 3π 2π

v3

0 ωt

i1

0 T/2

*0

T t

+*0

3T/2

i2

0 T/2

*0

T t

+*0

3T/2

i3

0 T/2

*0

T t

3T/2 td

td

td


,

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T1

220/220 V

vp

ip

Charge

R = 20 Ω

iT1

T

220 V 50 Hz

is

icc

vcc

vT1

vs

T2

T3 T4

D1

220/220 V

vp

ip

Charge très inductive

L = 2.8 H T

220 V 50 Hz

is

icc

vcc vs

D2

D3 D4

R = 110 Ω

vD1

iD1


.

= % . 0 1 & &-

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7 7 -"& "" 727 α " "& #$ $α %./1&&-(

α $ 9$"$

is iac

vac vs vs

T1

220 V 50 Hz

R = 110 Ω T2

T1 vAN ia

Charge inductive

R = 220 Ω ic

A

220/380 V 50 Hz

ib

icc

vcc

T2 T3

vBN

vCN

T4 T5 T6

L = 0.7 H B

C

N

T1

220/220 V

vp

ip

Charge très inductive

L = 1.8 H

iT1

T

220 V 50 Hz

is

icc

vcc

vT1

vs

T2

T3 T4

R = 20 Ω


/

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% (& % % /D (& /4D 6 6( 6(

(&& & "

Source continue

VCC = 120 V

iT vL

L iL

C vC R

Charge iR iD

iC

D

T vR = 300 V

PR = 1.5 kW

icc

Source continue

VCC = 48 V

iD vL

L iT

C vC R = 2 Ω

Charge iR iL

iC

D

T

vR = 12 V

icc

vF vD vT


1

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7.@/3: %

Vcc = 48 V

icc

T1

T3 T4

T2

L = 2.4 mH iac

vac

D1

D3 D4

D2

K2

K1

i2

i1

ich

vch

R = 50 Ω

E1 = 40 V

E2 = 40 V


2

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$$

3

• 6 " $ "#& " "&$""&

( ) [ ]π

=θ−π

=θθπ

= ππ

( ) ( )

==θ

θ−π

=θθπ

= ππ

• 6 " $ "#& "&$&

( ) [ ]π

=θ−π

=θθπ

= ππ

( ) ( )

==θ

θ−π

=θθπ

= ππ

• 6 "$ "#&"H "I"J

( ) [ ]π

=θ−π

=θθπ

= ππ

π

π

( ) π

π

π

π

θ

θ−π

=θθπ

=

Vm

π 3π 2π

v1

0 ωt

Vm

π 3π 2π

v2

0 ωt

Vm

π 3π 2π

v3

0 ωt

π/6 5π/6


4

3

• "$ , & & #$&"% "&

( )

=

−+=

( ) ( )

===

• " $ , && & #$&"% "&

( )

=

−+=

+

( ) ( )

−=

−==

• "$ , & & #$ "% "&

( )

=

+

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==

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π=×=×=

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==

Vm

π 3π 2π

vcc

0 ωt

*0

π 2π 3π ωt

icc

i1

0 T/2

*0

T t

+*0

3T/2

i2

0 T/2

*0

T t

+*0

3T/2

i3

0 T/2

*0

T t

3T/2 td

td

td

+*0


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π××=

π=

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===

!" "#&,#&-./Ω

-"&

6 ( ) ( ) ( )

=°+

π=α+

π=

( ) ( )!

===

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( ) ( ) ( ) !

=

π+π−ππ××=

α+α−ππ

=

%$ " %.01&-

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• 6 ( )

=°π

×=απ

=

• ( ) ( )

===

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=°×π

=απ

=


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=°

π×

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( ) ( )

===

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××π=××π=α=α

π

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α+α−π=

( ) ( )

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3 """, α

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( )

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πα+α−π==

!

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π×=

ω==α !

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+=

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&

&

=××−=∆−

= −

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( )( ) ( )

(,!

&

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=×××××−=

∆α−

= −

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=−=−=α

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−=

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+=

* $ +

&

&

=××=∆

= −


$!

-

α

=∆

-& #$ Ω===

"& $ ( ) (,

-

=××××=

∆α

= −

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& "367:.//3K3(7:.+//3

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=××××== −

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3 ( )

# ===

& &&"7.@/3

( ) ( )(!

#

# =

−×

=

−=−=

−

vch

0 t

ich

0.8 A

T/2

-40 V

40 V

-0.8 A

T/2

Exercice corrigés e p

Engineering

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