quasi-resonant flyback converter simulations with saber - apec 2016
TRANSCRIPT
![Page 1: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/1.jpg)
Alan Courtay
March 22, 2016
Quasi-resonant Flyback Converter Simulation
Saber Tutorial
![Page 2: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/2.jpg)
© 2016 Synopsys, Inc. 2
Agenda
• Quasi-Resonant Flyback Converter (AN1326)
–Principles of Operation
–Simulation vs. Measurement
• Accurate Datasheet-Driven Modeling
–Controller Chip
–MOSFET
–Transformer
• Automated Verification
–EMI
– Loss / Efficiency
![Page 3: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/3.jpg)
© 2016 Synopsys, Inc. 3
Vin: 50/60Hz, 88 to 264 Vac
Vout1: 105 V ± 5%
Iout1: 0.1 to 0.35 A
Vripple1: 1%
Vout2: 14 V ± 10%
Iout2: 0.1 to 1 A
Vripple2: 1%
L6565-Based 50W QR ZVS Flyback
Vout3: 5 V ± 5%
Iout3: 50 mA
Vripple3: <1%
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© 2016 Synopsys, Inc. 4
Vin: 50/60Hz, 88 to 264 Vac
L6565-Based 50W QR ZVS Flyback
Power Stage
Vds
t Currents
t
Vr
Vr
Llk&Cd
Lp&Cd
Ipeak
Secondary
Vin
Primary Demagnetization
Ton
Llk+Lp
Cd
Llk+Lp
Vout1: 105 V ± 5%
Iout1: 0.1 to 0.35 A
Vripple1: 1%
Vout2: 14 V ± 10%
Iout2: 0.1 to 1 A
Vripple2: 1%
Discontinuous Conduction Mode
Peak Current Mode Control
Vout3: 5 V ± 5%
Iout3: 50 mA
Vripple3: <1%
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© 2016 Synopsys, Inc. 5
Vin: 50/60Hz, 88 to 264 Vac
L6565-Based 50W QR ZVS Flyback
Power Stage
Vds
t Currents
t
Ipeak
Vin
Ton Toff
Valley
Switching
Vout1: 105 V ± 5%
Iout1: 0.1 to 0.35 A
Vripple1: 1%
Vout2: 14 V ± 10%
Iout2: 0.1 to 1 A
Vripple2: 1% Vr
Vr
Vout3: 5 V ± 5%
Iout3: 50 mA
Vripple3: <1%
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© 2016 Synopsys, Inc. 6
Vin: 50/60Hz, 88 to 264 Vac
L6565-Based 50W QR ZVS Flyback
Power Stage
Vds
t Currents
t
Ipeak
Vin
Ton Toff
ZVS
Vr
Vin < Vr
Vout1: 105 V ± 5%
Iout1: 0.1 to 0.35 A
Vripple1: 1%
Vout2: 14 V ± 10%
Iout2: 0.1 to 1 A
Vripple2: 1%
Vout3: 5 V ± 5%
Iout3: 50 mA
Vripple3: <1%
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© 2016 Synopsys, Inc. 7
Vin: 50/60Hz, 88 to 264 Vac
L6565-Based 50W QR ZVS Flyback
Power Stage
Vds
t Currents
t
Ipeak
Vin
Ton Toff
Skip Cycle
Vout1: 105 V ± 5%
Iout1: 0.1 to 0.35 A
Vripple1: 1%
Vout2: 14 V ± 10%
Iout2: 0.1 to 1 A
Vripple2: 1%
Vout3: 5 V ± 5%
Iout3: 50 mA
Vripple3: <1%
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© 2016 Synopsys, Inc. 8
RCD
Clamp
Output Voltage Regulation Feedback
Vin: 50/60Hz, 88 to 264 Vac
Vout1: 105 V ± 5%
Iout1: 0.1 to 0.35 A
Vripple1: 1%
Vout2: 14 V ± 10%
Iout2: 0.1 to 1 A
Vripple2: 1%
L6565-Based 50W QR ZVS Flyback
Power Stage
Vcc
start-up
self-supply
Vout3: 5 V ± 5%
Iout3: 50 mA
Vripple3: <1%
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© 2016 Synopsys, Inc. 9
L6565-Based 50W QR ZVS Flyback
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© 2016 Synopsys, Inc. 10
Agenda
• Quasi-Resonant Flyback Converter (AN1326)
–Principles of Operation
–Simulation vs. Measurement
• Accurate Datasheet-Driven Modeling
–Controller Chip
–MOSFET
–Transformer
• Automated Verification
–EMI
– Loss / Efficiency
![Page 11: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/11.jpg)
© 2016 Synopsys, Inc. 11
Current Sense and Primary Voltage
Full Load, Vin = 100 V
4µs 4µs
1V
100V
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© 2016 Synopsys, Inc. 12
Current Sense and Primary Voltage
Full Load, Vin = 380 V
2µs 2µs
1V
100V
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© 2016 Synopsys, Inc. 13
Current Sense and Primary Voltage
Half Load, Vin = 100 V
4µs 4µs
1V
100V
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© 2016 Synopsys, Inc. 14
Current Sense and Primary Voltage
Half Load, Vin = 380 V
2µs 2µs
0.5V
100V
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© 2016 Synopsys, Inc. 15
Cycle Skipping / Frequency Foldback
Light Load, Vin = 300 V
5µs 5µs
0.5V
100V
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© 2016 Synopsys, Inc. 16
Current Sense and Primary Voltage
Standby, Vin = 380 V Burst Mode
100µs 100µs
0.5V
100V
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© 2016 Synopsys, Inc. 17
Agenda
• Quasi-Resonant Flyback Converter (AN1326)
–Principles of Operation
–Simulation vs. Measurement
• Accurate Datasheet-Driven Modeling
–Controller Chip
–MOSFET
–Transformer
• Automated Verification
–EMI
– Loss / Efficiency
![Page 18: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/18.jpg)
© 2016 Synopsys, Inc. 18
Modeling
Controller IC
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© 2016 Synopsys, Inc. 19
Modeling
Controller IC
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© 2016 Synopsys, Inc. 20
Modeling
Controller IC
Turn-on
Valley detection model
with StateAMS tool Blanking time
model with TLU tool
Frequency foldback
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© 2016 Synopsys, Inc. 21
Modeling
Controller IC
Turn-on
Turn-off
Line voltage feedforward
function implemented in MAST
Limits power capability
at high line voltage
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© 2016 Synopsys, Inc. 22
Modeling
Power MOSFET
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© 2016 Synopsys, Inc. 23
Modeling
Power MOSFET
• DC Characteristics
Characterized
Temperatures
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© 2016 Synopsys, Inc. 24
Modeling
Power MOSFET
• DC Characteristics
• Interelectrode Capacitances
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© 2016 Synopsys, Inc. 25
Modeling
Power MOSFET
• DC Characteristics
• Interelectrode Capacitances
• Gate Charge Characteristic
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© 2016 Synopsys, Inc. 26
Modeling
Transformer
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© 2016 Synopsys, Inc. 27
Modeling
Transformer
• Ferrite Core 3C85
–Hysteresis (major and minor BH loops)
–Frequency dependent losses (hysteresis
and eddy currents)
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© 2016 Synopsys, Inc. 28
Modeling
Transformer
• Ferrite Core 3C85
–Hysteresis (major and minor BH loops)
–Frequency dependent losses (hysteresis
and eddy currents)
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© 2016 Synopsys, Inc. 29
Modeling
Transformer
• Ferrite Core 3C85
–Hysteresis (major and minor BH loops)
–Frequency dependent losses (hysteresis
and eddy currents)
![Page 30: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/30.jpg)
© 2016 Synopsys, Inc. 30
Modeling
Transformer
• Ferrite Core 3C85
–Hysteresis (major and minor BH loops)
–Frequency dependent losses (hysteresis
and eddy currents)
• Core geometry
–Air gap
– Lamination
![Page 31: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/31.jpg)
© 2016 Synopsys, Inc. 31
Modeling
Transformer
• Ferrite Core 3C85
–Hysteresis (major and minor BH loops)
–Frequency dependent losses (hysteresis
and eddy currents)
• Core geometry
–Air gap
– Lamination
• Windings (Cauer - 1D Model)
–Flux leakage
–Frequency dependent loss (skin and
proximity effects)
–Winding capacitances
![Page 32: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/32.jpg)
© 2016 Synopsys, Inc. 32
Modeling
Transformer
• Ferrite Core 3C85
–Hysteresis (major and minor BH loops)
–Frequency dependent losses (hysteresis
and eddy currents)
• Core geometry
–Air gap
– Lamination
• Windings (Cauer - 1D Model)
–Flux leakage
–Frequency dependent loss (skin and
proximity effects)
–Winding capacitances
![Page 33: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/33.jpg)
© 2016 Synopsys, Inc. 33
Agenda
• Quasi-Resonant Flyback Converter (AN1326)
–Principles of Operation
–Simulation vs. Measurement
• Accurate Datasheet-Driven Modeling
–Controller Chip
–MOSFET
–Transformer
• Automated Verification
–EMI
– Loss / Efficiency
![Page 34: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/34.jpg)
© 2016 Synopsys, Inc. 34
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© 2016 Synopsys, Inc. 35
LISN
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© 2016 Synopsys, Inc. 36
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© 2016 Synopsys, Inc. 37
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© 2016 Synopsys, Inc. 38
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© 2016 Synopsys, Inc. 39
Experiment Editor Basic Tasks
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© 2016 Synopsys, Inc. 40
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© 2016 Synopsys, Inc. 41
Parallel
Computing
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© 2016 Synopsys, Inc. 42
Loss breakdown
report
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© 2016 Synopsys, Inc. 43
Converter
efficiency
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© 2016 Synopsys, Inc. 44
Most dissipative
components
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© 2016 Synopsys, Inc. 45
Conduction Losses Switching Losses
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© 2016 Synopsys, Inc. 46
Conduction Losses Switching Losses
Rac = 50kΩ added across primary
to account for air gap fringing field
losses
NTC thermistor
adjusted to 2.5Ω
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© 2016 Synopsys, Inc. 47
Rac = 50kΩ added across primary
to account for air gap fringing field
losses
NTC thermistor
adjusted to 2.5Ω
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© 2016 Synopsys, Inc. 48
Conclusion
• High fidelity models characterized from datasheets
• Automated design verification / regression testing over broad
operating conditions
–Experiment Analyzer
–Fault Injection
–Worst Case Analysis / Extreme Value Analysis
–Statistical variations (Monte Carlo)
• Scalable solution
–Capacity for large designs (network of power converters)
–User or site (company wide) model library management
–Distributed/grid iterative analysis (parametric Vary, Monte-Carlo,
Worst-Case Analysis, Fault)
![Page 49: Quasi-resonant Flyback Converter Simulations with Saber - APEC 2016](https://reader034.vdocuments.us/reader034/viewer/2022052200/5877aa2a1a28ab826e8b6b07/html5/thumbnails/49.jpg)
© 2016 Synopsys, Inc. 49
Thank You
• Flyback design available on Synopsys Forum
• Improved IGBT Tool in 2016.03
Thank you to Sophia LI, Min ZHANG and Balaji EMANDI for their contributions.
Special thanks to Claudio ADRAGNA and Giovanni GRITTI from ST for their valuable feedback.