new switched supplies with inductorseducypedia.karadimov.info/library/05 ss-basics_buckboost.pdf ·...
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![Page 1: New Switched supplies with inductorseducypedia.karadimov.info/library/05 SS-basics_buckboost.pdf · 2008. 4. 3. · Disadvantages: linear stabilizer: big volume and mass of the stabilizer,](https://reader036.vdocuments.us/reader036/viewer/2022081409/607384fd3d57c649b80fcf20/html5/thumbnails/1.jpg)
Switched supplies with inductors
Basic principles
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Basic information• Switched supplies = supplies that works with an impulse (switched)
regulation• Stabilizer coverts non-stabilized input (DC) to stabilized output DC
voltage => DC-DC Converters• Working frequency > 20kHz (above acoustic range), usually as high
as possible (> 1 MHz) (dimensions, mass, output signal filtration)• High requirements on electronic switch, accumulation inductor,
impulse transformer, recuperation diode (high working frequency, short switch on and off time, low barrier capacitance)
• All impulse (switched) supplies works in feedback configuration• Thyristor cannot be used as switching device (DC circuits)
Linear vs. switched Disadvantages: linear stabilizer: big volume and mass of the stabilizer,
low efficiencyAdvantages: high efficiency of regulation, low voltage devices, voltage
disturbances are filtered by line transformer
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Basic principlesSwitched supply with stabilization
switch
Accumulation filter
Switch
Switch controlVoltage sensing
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Simplified block circuit
Switch Output filter
Error amplifier
Output voltage sensing
Reference voltage
Switch control circuit
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Switched supply with input transformer
Regulated on secondary part
Switch Output filter
Error amplifier
Output voltage sensing
Reference voltage
Switch control circuit
Output rectifiersmoothing filterrectifiertransformer
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Switched supply without input transformer
Switch Output filter
Error amplifier
Output voltage sensing
Reference voltage
Output rectifier
smoothing filterrectifierImpulse
transformerWideband filter
Switch control circuit
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DC/DC changer
Switch Output filter
Error amplifier
Output voltage sensing
Reference voltage
Impulse transformer
Switch control circuit
Output rectifier
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Switched stabilizer controlling
T+T=T bac
Duty cycle controla) PFM: Ta=konst, T≠konst, Tb=g(Iz) fc=g(Iz)
b) PFM: Tb=konst, T≠konst, Ta=g(Iz) fc=g(Iz)
c) PWM: Tc=konst, Ta/Tb≠konst, Ta/Tb=g(Iz) fc=konst
On Off
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Impulse (switched) stabilizer – basic operation principle
U-kU=U ref2reg
Uk1=U ref2
Basic problems of impulse (switched) regulationOutput filter has lag character, it causes delay between corrected voltage and deviation. For good dynamic parameters is required high switching frequency
Switch Output filter
Error
amplifier
Output voltage sensing
Reference voltage
Switch control circuit
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Theoretical switching-regulator circuits
There are used three basic devices in all theoretical circuits. • switch• accumulating inductor • recuperating diode
In some cases, inductor can be changed by impulse transformer
Ta – switch ON timeTb – switch OFF timeTc – duty cycle
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Inductor operating principle
dtdiL=uL
dtuL1=di L
∫aT
oLLmax I+dtuL1=I
0
I+TUL1=I oa1Lmax
I-I=i oLmaxLaΔ
TUL1=i a1La
Δ
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BUCK-BOOST or inverting configuration
U-U 12 ≤max
TUL1=i a1La
Δ
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Operating principle of BUCK-BOOST configurationInterval TaSwitch is ON ,L accumulates magnetic field energy. Inductor current
Iu=i oL
T
0L +dt
a
∫
For energy of ideal changer in Ta and Tb
TLU=i a
1La
Δ
U1=konst,. For current increase at the end of Ta is:
Peek current at the end of Ta
i+I=I LoLmax aΔ
Accumulated energy Wa at the end of Ta
W+W=W aoa Δ
W=W ba
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Interval TbWhen inductor is disconnected from U1, negative voltage is induced on their pins (due to…), inductor behaves as energy supply, and current flows through Diode and capacitor. At the beginning of Tb:
W=W ba ΔΔ
i=i LL baΔΔ
TLU=i b
2Lb
Δ
TLU=TL
Ub
2a
1
TTU=U
b
a12
TLU=i a
1La
Δ
Operating principle of BUCK-BOOST configuration
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Minimum and maximum allowed load current
Min load current Izmin
0=I o
I<I zminz WW ba ≠
Max load current Izmax
• Limited by magnetic saturation of impulse transformer core
• IT is not allowed to be at saturation
Circuit disadvantages• Relatively high output ripple ΔU2,
especially at low output voltages and high load currents.
Reason:• In Ta is load supplied just from C• In Tb is C charged by high current
impulses • Voltage loss at diode, UAK≠0.• Parasitic R and L of real C.
Operating principle of BUCK-BOOST configuration
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Design of capacity- according to exponential discharging in Ta of RC circuit consist of load resistor and capacitor
U=(0)U 2C
U=)T(U CminaC
Voltage on capacitor when switch is switched ON (t=0)
Voltage on capacitor at the end of Ta, when ripple of output voltage is ΔU2
Exponential discharging
eU=ut-
2C τ
eU=U CRT-
2Cmin z
a
CRz=τ
UUR
T=C
Cmin
2z
a
ln
Output ripple is practically < 20%, equation can be simplified
IUT=
UU
RTC z
2
a
2
2
z
a
ΔΔ⋅≥
Operating principle of BUCK-BOOST configuration
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Circuit configuration with impulse transformerOperating principle – inductor is replaced by impulse transformer
TLU=i a
p
1pΔ
TLU=i b
s
2sΔ
nn=
ii
s
p
p
s
ΔΔ
inn=i s
p
sp ΔΔ
)nn(=
LL
p
s2
p
s
TLU
nn=T
LU
bs
2
p
sa
p
1 ⋅
)nn(
L1
TUnn=T
LU
s
p2
pb2
p
sa
p
1
UTT
nn=U 1
b
a
p
s2 ⋅
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Design example of buck boost switching regulator with impulse transformer
a) Design of transformer secondary coil Ls
Assumption - given U2 and Izmin. Iz = Io+Δis (average value). Io=0 for Izmin.
TT
2i=I
c
bszmin ⋅
Δ TLU=i b
s
2sΔ
TTT
LU
21=I
c
bb
s
2zmin ⋅⋅⋅
TT
I2U=L
c
b2
zmin
2s ⋅
Circuit configuration with impulse transformer
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b) Design of transformer primary
)nn(=
LL
p
s2
p
s )nn(L=L
s
p2
sp
Ls from previous slide
TT
I2U=L
c
b2
zmin
2s ⋅
Instead of square of transformer ratio
UTT
nn=U 1
b
a
p
s2 ⋅
)TT
UU()
TT
I2U(=L
b
a
2
12
c
b2
zmin
2p ⋅⋅⋅
TT
IU2U=L
c
a2
zmin2
12
p ⋅
Design example of buck boost switching regulator with impulse transformer
Circuit configuration with impulse transformer