Transistors|Evaluation
The Importance of the Recovery Characteristics of Primary-side Switching Elements in LLC Converters -Introduction-
2024.01.22
Points of this article
・LLC converters can be used to construct soft switching circuits using comparatively few components, and switching losses and voltage ringing can be reduced compared with hard switching methods.
・However, depending on the circuit input/output conditions, there is the concern that MOSFET switching elements may ultimately be destroyed.
・In this section, LLC converter circuit configurations and basic operation are first explained, and the importance of the recovery characteristics of primary-side MOSFETs in relation to off-resonance, which is a problem specific to LLC circuits, is described.
The Importance of the Recovery Characteristics of Primary-side Switching Elements in LLC Converters -Introduction-
An “LLC” converter is so called because of the use it makes of the resonance due to two inductors (L) and one capacitor (C). By utilizing the resonance of these components, zero-voltage switching (hereafter ZVS) operation when the primary-side switching element of the transformer is turned on, as well as zero-current switching (ZCS) of a diode on the secondary side, are possible.
Switching methods employing such resonance operations are called “soft switching methods”; compared with general hard switching methods, they make possible reductions in switching losses and voltage ringing, and so are used in the power supplies of thin form-factor TVs, office equipment and the like for which small size, high efficiency, and low noise are required, as well as in the DC-DC sections of onboard chargers (OBCs) and similar applications.
However, depending on the circuit input/output conditions, hard switching operation may occur, and if the recovery characteristics of the body diode of the MOSFET switching element are poor, in a worst-case scenario the MOSFET may be destroyed.
In this section on “The Importance of the Recovery Characteristics of Primary-side Switching Elements in LLC Converters”, we will first explain the circuit configuration and basic operation of LLC converters. Then, we will explain the importance of the recovery characteristics of primary-side MOSFETs for off-resonance, which is a problem specific to LLC converters.
- ・Basic Configuration of an LLC Converter
- ・Features of LLC Converter Operation
- ・Basic Operation of LLC Converters
- ・Importance of MOSFET Recovery Characteristics for Off-Resonance of LLC Converters
- ・The Importance of the Recovery Characteristics of Primary-side Switching Elements in LLC Converters ーSummaryー
Transistors
Basic
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Basics of Transistors
- Transistor Fundamentals: Structure, Types, and Operating Principles
- Bipolar Junction Transistor (BJT) Basics: Operation and Applications (NPN & PNP)
- NPN Transistor: Low-Side Switch Fundamentals
- PNP Transistor: High-Side Switch Fundamentals
- What is a Digital Transistor?
- Digital Transistor Selection
- ON Resistance
- Total Gate Charge
- How to select<Selecting Transistors to Ensure Safe Operation>
- Junction Temperature <Calculating Transistor Chip Temperature>
- What is a Load Switch?
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Basics of MOSFETs
- What are MOSFETs? – MOSFET Parasitic Capacitance and Its Temperature Characteristic
- What are MOSFETs? – MOSFET Switching Characteristics and Temperature Characteristics
- What are MOSFETs? – MOSFET Threshold Values, ID-VGS Characteristics, and Temperature Characteristics
- What are MOSFETs? – Super-junction MOSFET
- What are MOSFETs? – Types and Features of High Voltage Super-Junction MOSFET
- What are MOSFETs? – Fast trr SJ-MOSFET:PrestoMOS™
- MOSFET Thermal Resistance and Power Dissipation: Packages Capable of Back-Surface Heat Dissipation
- Introduction
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Confirming the Suitability of a Transistor in Actual Operation – Introduction
- Confirmation of the Chip Temperature
- Confirmation of Suitability in Actual Operation and Preparations
- Confirmation that Absolute Maximum Ratings are Satisfied
- Confirmation that Operation is within the SOA (Safe Operating Area)
- Confirmation that Operation is within the SOA Derated at the Actual Operating Temperature
- Confirmation that Average Power Consumption is within the Rated Power
- Summary
- Summary
Evaluation
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The Importance of the Recovery Characteristics of Primary-side Switching Elements in LLC Converters -Introduction-
- Basic Configuration of an LLC Converter
- Features of LLC Converter Operation
- Basic Operation of LLC Converters
- Importance of MOSFET Recovery Characteristics for Off-Resonance of LLC Converters
- The Importance of the Recovery Characteristics of Primary-side Switching Elements in LLC Converters ーSummaryー
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The Importance of the Reverse Recovery Characteristics of Switching Elements in Inverter Circuits -Introduction-
- Types of Inverter Circuits and Energization Methods
- Basic Operation of 3-Phase Modulation Inverter Circuits
- Comparison of Losses in a PrestoMOS™ MOSFET and a Standard SJ MOSFET Using Double-Pulse Tests (Actual Measurement Results)
- Comparison of Efficiency of a PrestoMOS™ MOSFET and a Standard SJ MOSFET in a 3-Phase Modulation Inverter Circuit (Simulations)
- The Importance of the Reverse Recovery Characteristics of Switching Elements in Inverter Circuits -Summary-
- Mechanisms of MOSFET Destruction
- About Double-Pulse Tests
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Improving the Power Conversion Efficiency of Phase Shift Full Bridge Circuits – Introduction
- Basic Configuration of a PSFB Circuit
- Basic Operation of PSFB Circuits
- Guidelines Relating to Operation of Switching Elements Under Light Loading
- Guidelines Relating to Operation of Switching Elements Under Heavy Loading
- Evaluation of Efficiency
- Improving the Power Conversion Efficiency of Phase Shift Full Bridge Circuit – Summary –