IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC...
Transcript of IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC...
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IE1206 Embedded Electronics
Transients PWM
Phasor j PWM CCP CAP/IND-sensor
Le1
Le3
Le6
Le8
Le2
Ex1
Le9
Ex4 Le7
Written exam
William Sandqvist [email protected]
PIC-block Documentation, Serialcom Pulse sensorsI, U, R, P, series and parallel
Ex2
Ex5
Kirchhoffs laws Node analysis Two-terminals R2R AD
Trafo, Ethernet contactLe13
Pulse sensors, Menu program
Le4
KC1 LAB1
KC3 LAB3
KC4 LAB4
Ex3Le5 KC2 LAB2 Two-terminals, AD, Comparator/Schmitt
Step-up, RC-oscillator
Le10Ex6 LC-osc, DC-motor, CCP PWM
LP-filter TrafoLe12 Ex7 Display
Le11
Start of programing task
Display of programing task
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Easy to generate a sinusoidal voltage
Our entire power grid works
with sinusoidal voltage.
When the loop rotates with
constant speed in a magnetic
field a sine wave is generated.
So much easier, it can not be
…
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The sine wave – what do you remember?
periodT
timet
y
amplitudetopY ,ˆ
RMSY
2
ˆ12)sin(ˆ)(
YY
TfftYty
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(11.1) Phase
)sin(ˆ)( tYty
If a sine curve does
not begin with 0 the
function expression
has a phase angle .
Specify this function mathematically:
)10002sin(6)( ttu
y
)30(rad52,06
3arcsin)sin(63)0(
u
)52,06283sin(6)( ttu
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William Sandqvist [email protected]
Apples and pears?
In circuit analyses it is common (eg. in textbooks) to
expresses the angle of the sine function mixed in
radians ·t [rad] and in degrees [°].
This is obviously improper, but practical (!). The
user must "convert" phase angle to radians to
calculate the sine function value for any given time t.
(You have now been warned …)
)306283sin(6)( ttu
Conversion:
x[]= x[rad] 57,3
x[rad]= x[]0,017? ?
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William Sandqvist [email protected]
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Mean and effective value
T
ttu
UttuU
T
T
T
0
2
0
1med
d)(
0d)(
All pure AC voltages, has the mean value 0.
More interesting is the effective value – root
mean square, rms.
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(11.2) Example. RMS.
V63,11015
1058
1015
105)0)2(2(d)(
3
3
3
322
0
2
T
ttu
U
T
The rms value is what is normally used for an alternating
voltage U. 1,63 V effective value gives the same power in a
resistor as a 1,63 V pure DC voltage would do.
RMS, effective value
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William Sandqvist [email protected]
Sine wave effective value
2
1
2
1d)(sin 2 xx
)(sin 2 x
2
1
Effective value is often called RMS ( Root Mean Square ).
sin2 has the
mean value ½
Therefore:
2
UU
RMS,
effective value
Ex. 11.3
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Addition of sinusoidal quantities
)sin(ˆ111 tAy
)sin(ˆ222 tAy
?21 yy
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Addition of sinusoidal quantities
When we shall apply the circuit laws on AC circuits, we must
add the sines. The sum of two sinusoidal quantities of the same
frequency is always a new sine of this frequency, but with a new
amplitude and a new phase angle.
( Ooops! The result of the rather laborious calculations are
shown below).
)cos(A)cos(A
)sin(A)sin(Aarctansin)cos(AA2AA
)()()()sin(A)()sin(A)(
2211
22112121
2
2
2
1
21222111
t
tytytyttytty
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Sine wave as a pointer
A sinusoidal voltage or current,
can be represented by a pointer that
rotates (counterclockwise) with the
angular velocity [rad/sec] .
)sin(ˆ)( tYty
Wikipedia Phasors
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Simpler with vectors
If you ignore the "revolution"
and adds the pointers with
vector addition, as they stand at
the time t = 0, it then becomes a
whole lot easier!
Wikipedia Phasors
http://en.wikipedia.org/wiki/Phasors
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Pointer with complex numbers
30sinj1030cos10e103010 30j
A AC voltage 10 V that has the
phase 30° is usually written:
10 30° ( Phasor )
Once the vector additions require
more than the most common
geometrical formulas, it is instead
preferable to represent pointers
with complex numbers.
In electricity one uses j as imaginary unit, as i is already in use
for current.
baz j
Imaginary
axis
Real axis
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Phasor
A pointer (phasor) can either be viewed as a vector expressed in
polar coordinates, or as a complex number.
It is important to be able to describe alternating current phenomena
without necessarily having to require that the audience has a
knowledge of complex numbers - hence the vector method.
The complex numbers and j-method are powerful tools that
facilitate the processing of AC problems. They can be generalized
to the Fourier transform and Laplace transform, so the electro
engineer’s use of complex numbers is extensive.
Sinusoidal alternating quantities can be represented as pointers,
phasors.”amount” ”phase”
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peak/effective value - phasor
baz j
The phasor lengths corresponds to sine peak values,
but since the effective value only is the peak value
scaled by 1/2 so it does not matter if you count
with peak values or effective values - as long as you
are consistent!
Imaginary
axis
Real axis
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The inductor and capacitor
counteracts changes
William Sandqvist [email protected]
The inductor and capacitor counteracts changes,
such as when connecting or disconnecting a source
to a circuit.
What if the source then is sinusoidal AC – which is
then changing continuously?
?
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Alternating current through resistor
RR
RRRRRR )sin(ˆ)()()()sin(ˆ)(
IRU
tIRtuRtitutIti
A sinusoidal currentiR(t) through a
resistor R provides a proportional
sinusoidal voltage drop uR(t) according to
Ohm's law. The current and voltage are in
phase. No energy is stored in the resistor.
Phasors UR and IR become parallel to each
other.
RR IRU
The phasor may be a peak pointer or effective value pointer as long as you
do not mix different types.
Complex phasor
Vector phasor
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Alternating current through inductor
LL
LL
ILU
tILtILtut
tiLtutIti
)
2sin(ˆ)cos(ˆ)(
d
)(d)()sin(ˆ)( L
LLLL
A sinusoidal current iL(t) through an inductor
provides, due to self-induction, a votage drop
uL(t) which is 90° before the current. Energy
stored in the magnetic field is used to provide
this voltage.
When using complex pointers one multiplies L with ”j”, this rotates the
voltage pointer +90° (in complex plane). The method automatically keeps
track of the phase angles!
LLLL jj IXILU
Vector phasor
Complex phasor
The phasor UL will be L·IL and it is 90° before IL. The entity L is the
”amount” of the inductor’s AC resistance, reactance XL [].
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Alternating current through capacitor
)2
sin(ˆ1)cos(ˆ1
)()sin(ˆ)(
d)(1
)()(1
d
d1
d
)(d
CCCCC
CCCC
tIC
tIC
tutIti
ttiC
tutiCt
q
Ct
tu
C
QU
A sinusoidal current iC(t) throug a
capacitor will charge it with the ”voltage
drop” uC(t) that lags 90° behind the
current. Energy is storered in the electric
field.
Vector phasor
Phasor UC is IC/(C) and it lags 90° after IC.
The entity 1/(C) is the ”amount” of the
capacitor’s AC resistance, reactance XC [].
CC
1I
CU
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Complex phasor and the sign of reactance
If you use complex phasor you get the
-90° phase by dividing (1/C) with ”j”.
CXI
CI
CU CCCC
11-j
j
1 Complex phasor
The method with complex pointer automatically keeps track
of the phase angles if we consider the capacitor reactance XC
as negative, and hence the inductor reactance XL as positive.
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Reactance frequency dependency
f
CXLX CL
2
1
][
LX
][
LX
]Hz[f]Hz[f
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LOG – LOG plot
Often electronics engineers use log-log scale. The inductor
and capacitor reactances will then both be "linear" relationship
in such charts.
][log scaleX L ][log scaleXC
]Hz[log scalef ]Hz[log scalef
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R L C
In general, our circuits are a mixture of different R L and C. The
phase between I and U is then not 90° but can have any
intermediate value. Positive phase means that the inductances
dominates over capacitances, we have inductive character IND.
Negative phase means that the capacitance dominates over the
inductances, we have capacitive character CAP.
The ratio between the voltage U and current I, the AC resistance,
is called impedace Z []. We then have OHM´s AC law: I
UZ
CAP
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Phasor diagrams
In order to calculate the AC
resistance, the impedance, Z, of a
composite circuit one must add
currents and voltages phasors to
obtain the total current I and the
total voltage U.
I
UZ The phasor diagram is our "blind stick" in to
the AC World!
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Ex. Phasor diagram (11.5)
At a certain frequency f the capacitor has the reactance |XC| and the resistor R
has the same amount (absolute value), R [].
Elementary diagrams for R L and C
Use the elementary diagrams for
R and C as building blocks to
draw the whole circuit phasor
diagram (for this actual
frequency f ).
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Try it your self …
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Example. Phasor diagram.
2R ||UI
R
UIIUI 2
RC2C
1) U2 reference phase ( = horizontal )
2)
3)
4)CCR 2 IIIII
5)
21C1
1
22 UURIRIU
IU
6)21 UUU
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William Sandqvist [email protected]
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Impedance ZThe circuit AC resistance,
impedance Z, one get as the ratio
between the length of U and I
phasors. The impedance phase
is the angle between U and I
phasors.
The current is before the voltage
in phase, so the circuit has a
capacitive character, CAP.
( Something else had hardly been
to wait since there are no coils in
the circuit )
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Complex phasors, j-method
90)jarg()j
1arg(
j
1j
90)jarg(jj
0)arg(
CCCC
LLLL
RR
CCC
IXIU
LLIXIU
RRIU
Complex phasors. OHM’s law for R L and C.
Complex phasors. OHM’s law for Z.
][Im][Im
arctan][Re
][Imarctan)arg(][Re][Re
)arg()arg(arg)arg(
ZIU
R
X
Z
ZZZIU
IUI
UZ
I
UZZIU
In fact, there will be four useful relationships!
Re, Im, Abs, Arg
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Ex. Complex phasors.
j1010320502j
1
2j
1
j
16
CfC
U = 20 V C = 320 F R = 10 f = 50 Hz
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William Sandqvist [email protected]
Ex. Complex phasors.
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
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William Sandqvist [email protected]
Ex. Complex phasors.
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
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William Sandqvist [email protected]
Ex. Complex phasors. I
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
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William Sandqvist [email protected]
Ex. Complex phasors. I
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
26,12,14,0j2140
j2,14,0)j31(
)j31(
j3-1
4
j)5-(5j10-
20
j
1
22
C//R
,,I
ZC
U
Z
UI
![Page 44: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/44.jpg)
William Sandqvist [email protected]
Ex. Complex phasors. U1
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
![Page 45: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/45.jpg)
William Sandqvist [email protected]
Ex. Complex phasors. U1
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
65,12)4(12j412
j412j)-10(j)2,14,0(j
1
22
1
1
U
CIU
![Page 46: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/46.jpg)
William Sandqvist [email protected]
Ex. Complex phasors. U2
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
![Page 47: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/47.jpg)
William Sandqvist [email protected]
Ex. Complex phasors. U2
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
94,848j48
j48j)3(1
j)3(1
j3-1
j120
j)5-(5j10-
j5-520
j
1
22
2
C//R
C//R2
U
ZC
ZUU
Voltage divider:
![Page 48: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/48.jpg)
William Sandqvist [email protected]
Ex. Complex phasors. IC
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
![Page 49: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/49.jpg)
William Sandqvist [email protected]
Ex. Complex phasors. IC
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
89,08,04,0j8,04,0
j8,04,0j10-
j48
j
1
22
C
2C
I
C
UI
![Page 50: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/50.jpg)
William Sandqvist [email protected]
Ex. Complex phasors. IR
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
![Page 51: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/51.jpg)
William Sandqvist [email protected]
Ex. Complex phasors. IR
U = 20 V C = 320 F R = 10 f = 50 Hz
j1010320502j
1
2j
1
j
16
CfC
j55)j1010(
)j1010(
j1010
)j10(10
j
1
j
1
R//C
CR
CR
Z
89,04,08,0j4,08,0
j4,08,010
j48
22
R
2R
I
R
UI
![Page 52: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/52.jpg)
William Sandqvist [email protected]
You get the phasor
chart by plotting the
points in the complex
plane!
![Page 53: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/53.jpg)
William Sandqvist [email protected]
Rotate diagram …When we draw the phasor
diagram it was natural to have
U2 as reference phase
(=horizontal), with the j-
method U was the natural
choice of reference phase
(=real).
Because it is easy to rotate the
chart, so, in practice, we have
the freedom of choosing any
entity as the reference.
))7,26sin(j)7,26(cos(
7,268
4arctan)j48arg()arg( 2
U
Multiply the all complex numbers by this
factor and the rotation will take effect!
![Page 54: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/54.jpg)
William Sandqvist [email protected]
Mathematica (11.5)
u = 20;
c = 320*10^-6;
r = 10;
f = 50;
w = 2*Pi*f;
xc = 1/(I*w*c);
N[xc]
zrc =
r*xc/(r+xc);
N[zrc]
i = u/(xc+zrc);
N[i]
N[Abs[i]]
u1 = i*xc;
N[u1]
N[Abs[u1]]
u2 =
u*zrc/(xc+zrc);
N[u2]
N[Abs[u2]]
ic = u2/xc;
N[ic]
N[Abs[ic]]
ir = u2/r;
N[ir]
N[Abs[ir]]
Mathematica understands complex
numbers ( I ) and has the functions
Abs[]
Arg[]
(180/Pi)*Arg[] to get degres
11.5.nb
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William Sandqvist [email protected]
![Page 57: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/57.jpg)
William Sandqvist [email protected]
Summary
Sinusoidal alternating quantities can be represented as pointers,
phasors,
”amount” ”phase”.
A pointer (phasor) can either be seen as a vector expressed in
polar coordinates, or as a complex number.
Calculations are usually best done with the complex
method, while phasor diagrams are used to visualize
and explain alternating current phenomena.
![Page 58: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/58.jpg)
William Sandqvist [email protected]
Notation
X
x Instant value
X Top value
XX Absolute value, the amount, magnitude
Complex phasor
![Page 59: IE1206 Embedded Electronics2 1 1 sin 2 ( x) dx ... Phasor diagrams In order to calculate the AC resistance, the impedance, Z, of a composite circuit one must add currents and voltages](https://reader034.fdocuments.in/reader034/viewer/2022043023/5f3e9e1286c4824493037955/html5/thumbnails/59.jpg)
William Sandqvist [email protected]