tste25 power electronics · 2016-12-07 · tste25/tomas jonsson 2016-12-06 4 m f odd multiple of 3...
TRANSCRIPT
![Page 1: TSTE25 Power Electronics · 2016-12-07 · TSTE25/Tomas Jonsson 2016-12-06 4 m f odd multiple of 3 Reduce harmonics. Harmonics of 3-ph vs 1-ph PWM • 1-ph bipolar PWM ... 2016 -12](https://reader033.vdocument.in/reader033/viewer/2022042310/5ed8ab426714ca7f47685a4e/html5/thumbnails/1.jpg)
TSTE25 Power Electronics
• Lecture 12
• Tomas Jonsson
• ISY/EKS
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Outline
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DC-AC switching inverters
3-phase inverter
Snubber circuits
Exercises
Project work
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Three-phase inverters
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Three legs
Controls phase shifted 120°
Midpoint not used
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Three-phase inverter
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mf odd multiple of 3
Reduce harmonics
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Harmonics of 3-ph vs 1-ph PWM
• 1-ph bipolarPWM
• 3-ph PWM
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Harmonics of 3-ph vs 1-ph PWM
• 1-ph unipolarPWM
• 3-ph PWM
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Three-phase inverter harmonics
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1-ph PWM 3-ph PWM
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Output voltage magnitude
• Single phase ac-voltage:
𝑉𝐴𝑁1 = 𝑚𝑎
𝑉𝑑2
• Phase-phase (Line-Line):
𝑉𝐿𝐿1 = 𝑚𝑎
𝑉𝑑2
3
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3rd harmonic PWM
• ma = 1
• Subtract a 3rd harmonic withmagnitude 1/6
• Peak of total output voltagereduced to
87%=3
2
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0 0.005 0.01 0.015 0.02 0.025 0.03 0.035 0.04-1
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1
time [s]
3rd
harmonic PWM
cos(wt)
-1/6*cos(3wt)
cos(wt)-1/6*cos(3wt)
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3rd harmonic PWM, cont
• ma = 1.15
• Single phase ac-voltage:
𝑉𝐴𝑁1 = 𝑚𝑎
𝑉𝑑
3
• Phase-phase (Line-Line):
𝑉𝐿𝐿1 = 𝑚𝑎𝑉𝑑
• Peak of total = 1
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0 0.005 0.01 0.015 0.02 0.025 0.03 0.035 0.04
-1
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1X: 0.0201
Y: 1.154
3rd
harmonic PWM
time [s]
1.15cos(wt)
-1.15/6*cos(3wt)
1.15(cos(wt)-1/6*cos(3wt))
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Lecture 12
Snubber circuits
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Problem with switching converters
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Switches turns on/off while conducting large currents Recovery time create large power dissipation
di/dt generates EMI (Electromagnetic interference)
Small size requires higher switching frequencies
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Example, full bridge leg
TSTE25/Tomas Jonsson
Finite di/dt and dv/dt
Parasitics: L, C, R
IO can be both positive and negative
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Hard switching waveform Stray inductance gives voltage overshoot
Stray capacitance gives current overshoot
Parasitics limits di/dt and dv/dt
PT- = vT- iT-
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Switch voltage and current
Short moments of high power dissipationDevice must cope with the power dissipation
Overshoot increases required SOA
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Snubber circuits for controlled switches
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Step-down example Lσ = L1 + L2 + L3 stray inductances
Voltage and current overshoot due to inductances
Three snubber types Turn-off, turn-on, over-voltage
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Turn-off snubber circuit for controlled switches
TSTE25/Tomas Jonsson
Diode to only include Rs
at switch turn-on
Simplified circuit for switch turn-off
Switch current at switch turn-off not affected by snubber circuit
𝑖𝑠𝑤 𝑡 = 𝐼0 1 −𝑡
𝑡𝑓𝑖
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Overvoltage snubber function
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At transistor switch-off completed t = 0 VCOV = VD
I0 goes through Df
Fast switch give iLσ(t=0) = I0
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Lecture 12
Exercises
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12-100
a) Calculate the short circuitcurrent in the Lab 3 circuit setup. Consider T1 and T2 to conduct at the same time. The dc-voltageis 15V.
b) Is this peak currentacceptable for the MOSFET without failure?
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D1
D2
560 µF+
Ud
-
Iv
T2
T1
+Uv
-
D3
D4T4
T3
+Uac
-Rload (10 ohm)
0.04 ohm
0.04 ohm
50nH
0.56 ohm
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12-102
a) In an DC/AC converter calculate the MOSFET case and junctiontemperature at 25 C ambient for 0.95A rms ac-side 50Hz load current. Use the data sheet for thermal and electrical data of the MOSFET.
– For switching loss calculation:tri = 38 ns, tfv = 690 ns, trv = 24 ns, tfi = 32 ns, mf=19
– Consider a MOSFET IRF540 without heatsink.
b) Adding a heatsink. Calculate the required thermal resistance (Rth) ofthe heatsink to keep the case temperature below 80 C when the peakrms current of the MOSFET is 20A. What is the junction temperaturein this case?
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22-13
• A MOSFET step-down converter such as shown in Fig. 22-10 operates at a switching frequency of 30 kHz with a 50% duty cycle at an ambient temperature of 50°C.
• The power supply Vd = 100 V and the load current I0 = 100 A.
• The free-wheeling diode is ideal but a stray inductance of 100 nHis in series with the diode.
• The MOSFET characteristics are listed below:BVDSS = 150 V; Tj,max = 150°C; Rth,j-a = 1 K/W; rDS(on) = 0.01 ohm, tri = tfi = 50 ns; trv = tfv = 200 ns; ID,max = 125 A
• Is the MOSFET overstressed in this application and if so, how? Be specific and quantitative in your answer.
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Project work flow2016-12-07 23TSTE25/Tomas Jonsson
• Converter circuit layout and selection of components.
– Define how to connect input and output to the source and the load.
– Which MOSFETs and diodes in the base circuit shall be used
– Calculate the operating range: Input/output voltage & current, duty
cycle or ma
– Determine a suitable switching frequency to satisfy requirements. The
boundaries typically set by distortion and losses.
– Select inductor size and required filter capacitors to meet the
requirements.
• Basic verification, simulation in MULTISIM
• Modification of the control design in Labview to meet the dedicated
application.
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