spice modeling of power devices - mos-ak
TRANSCRIPT
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FROM ATOMS TO SYSTEMS
SPICE Modeling of Power Devices
Bogdan Tudor
December 2019
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Agenda
• Power MOSFET capacitances
• Capacitance modeling of symmetric GaN HEMT
• Asymmetric GaN HEMT example
• Advantages of TCAD-based SPICE modeling
• Other TCAD-based SPICE modeling examples: VDMOS, IGBT
• Power MOSFET macromodeling in Utmost IV and SmartSpice
• Conclusion
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MOSFET Capacitance Modeling
• 4-terminal MOSFET gate capacitance characterization
• Symmetric devices: Cgs and Cgd are often characterized together as Cgc = Cgs + Cgd.
• Cgc: the LCR “low” terminal connects to both s and d.
• Cgg = Cgs + Cgd + Cgb: LCR “low” terminal connected to s, d and b.
• Capacitances are measured with Vgs swept from negative to positive, at Vds = 0.
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Specific Power MOSFET Capacitances
• 3-terminal MOSFET• The b and s nodes are always connected together
• Main bias sweep is Vds
• Typical capacitances to measure:• Crss = Cgd
• Coss = Cgd + Cds
• Ciss = Cgs + Cgd
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Symmetric GaN HEMT Device
• Symmetric GaN HEMT structure study, presented at MOS-AK 2018
• 3 device structures: L = 1mm, 2mm and 3mm, respectively
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Symmetric GaN HEMT Capacitances
• MVSG HEMT model: Coss and Crss vs. Vds
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Asymmetric GaN HEMT Device Structure
• TCAD device structure calibrated based on published data
• P-type doped GaN gate resulting in Vth > 0 (“normally-off” device)
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Asymmetric GaN Device Structure: Challenges
• “Floating” GaN Buffer: SOI-like structure.
• Need to consider the gate current.
• Existing compact models are not based on this structure: may have to deal with unexpected device effects.
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Unusual Subthreshold Region Behavior
• Unusual behavior observed in the subthreshold region of Id(Vgs).
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Unusual Subthreshold Region Behavior
• The effect is due to carrier accumulation inside the GaNbuffer layer.
• A current path is formed through the GaN buffer’s inner region.
• This is different from the channel current of the main device.
• This appears to be a parasitic FET, in parallel with the main device, having a much lower effective mobility.
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Confirmation and SPICE Modeling
• The “parasitic FET” device is confirmed from the Id(Vds) characteristics at Vgs < 0.5V.
• The effect can be modeled by adding a GaN FET device in parallel with the main one, in the Utmost IV Netlist.
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Two FET SPICE Model Validation
• After extracting the linear region Id(Vgs) parameters, the modified netlist is confirmed.
Single FET netlist Netlist with added parasitic FET
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Unusual Behavior of the Cgs and CgdCapacitances
• The issue appears for Vgs > 1.6V.• Similar to the HVMOS LDD-related Cgs and Cgd behavior.
• May be modeled by an extra resistor in series with the drain of the two FET devices.
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Validation of the SPICE Macromodel
Netlist without the extra drain resistor Netlist with added drain resistor
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Gate Current Effect on gm
Gate current disabled Gate current enabled
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Asymmetric GaN HEMT: Macromodel Results
• Id(Vgs), gm(Vgs) and Ig(Vgs), at various Vds from 0.1V to 20V.
• Id(Vds) at Vgs < 0.5V (parasitic FET).
• Cgs(Vgs), Cgd(Vgs)
• Id(Vgs) at various temperatures
• Id(Vds) at Vgs >= 1V (self-heating)
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• TCAD simulations allows a separation of physical effects, not easy to achieve in real life (e.g., disabling self-heating).
TCAD-based SPICE Modeling:Unique Advantages
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TCAD-based SPICE Modeling:Unique Advantages (cont.)
• Model development: identifying specific device effects or parasitics and adding them to a SPICE macromodel, as extra circuit elements.
• Essential feature of Power MOSFET SPICE (macro)modeling.
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VDMOS Example: TCAD Structure
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VDMOS SPICE Modeling
• HiSIM_HV2 SPICE model using TCAD data
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IGBT SPICE Modeling
• HiSIM-IGBT SPICE model using TCAD data
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Power MOSFET Macromodel Example
• Power MOSFET typical macromodel, netlist definition and model cards in Utmost IV
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Power MOSFET MacromodelI-V and C-V Parameter Extraction
• Global I-V and C-V parameter optimization using Utmost IV
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Dynamic Characterization
• Gate charge test circuit and waveforms [1, 2]
• Reverse recovery time of the body diode [1]
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Gate Charge Parameters Tuning
• Using SmartSpice Rubberband with transient analysis
• Gate charge parameters
• Miller Plateau parameter tuning
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Reverse Recovery Parameter Tuning
• Reverse recovery time and charge (trr, Qrr) parameters
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Conclusion
• Symmetric GaN HEMT capacitance modeling
• Macromodel for Asymmetric GaN HEMT developed in Utmost IV using TCAD information
• TCAD-based SPICE modeling carries unique advantages
• Power Device modeling examples based on the HiSIM SPICE model family: VDMOS, IGBT
• Combining the capabilities of TCAD, Utmost IV and SmartSpice enables a complete modeling methodology of Power devices, including dynamic characterization
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References
1. *** “Power MOSFET Electrical Characteristics”, Toshiba Corporation, November 2016.
2. *** “Power MOSFET Basics”, Alpha & Omega Semiconductor, Application Note (http://www.aosmd.com/res/application_notes/mosfets/Power_MOSFET_Basics.pdf).
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Thank you!