ROHM Solution Simulator: User Interface

Electrical Circuit Design

• Soldering Techniques and Solder Types
• Seven Tools for Soldering
• Seven Techniques for Printed Circuit Board Reworking
• Basic Alternating Current (AC) ＋
  • AC Circuits: Alternating Current, Waveforms, and Formulas
  • Complex Numbers in AC Circuit
  • Electrical Reactance
  • What is Impedance? AC Circuit Analysis and Design
  • Impedance Measurement: How to Choose Methods and Improve Accuracy
  • Impedance Matching: Why It Matters for Power Transfer and Signal Reflections
  • Resonant Circuits: Resonant Frequency and Q Factor
  • RLC Circuit: Series and Parallel, Applied circuits
  • What is AC Power? Active Power, Reactive Power, Apparent Power
  • Power Factor: Calculation and Efficiency Improvement
  • What is PFC?
  • Boundary Current Mode (BCM) PFC: Examples of Efficiency Improvement Using Diodes
  • Continuous Current Mode (CCM) PFC: Examples of Efficiency Improvement Using Diode
  • LED Illumination Circuits：Example of Efficiency Improvement and Noise Reduction Using MOSFETs
  • PFC Circuits for Air Conditioners：Example of Efficiency Improvement Using MOSFETs and Diodes
• Basic Direct Current (DC) ＋
  • Ohm’s Law: Voltage, Current, and Resistance
  • Electric Current and Voltage in DC Circuits
  • Kirchhoff’s Circuit Laws
  • What Is Mesh Analysis (Mesh Current Method)?
  • What Is Nodal Analysis (Nodal Voltage Analysis)?
  • Thevenin’s Theorem: DC Circuit Analysis
  • Norton’s Theorem: Equivalent Circuit Analysis
  • What Is the Superposition Theorem?
  • What Is the Δ–Y Transformation (Y–Δ Transformation)?
  • Voltage Divider Circuit
  • Current Divider and the Current Divider Rule

Thermal design

• About Thermal Design ＋
  • Changes in Engineering Trends and Thermal Design
  • A Mutual Understanding of Thermal Design
  • Fundamentals of Thermal Resistance and Heat Dissipation: About Thermal Resistance
  • Fundamentals of Thermal Resistance and Heat Dissipation: Heat Transmission and Heat Dissipation Paths
  • Fundamentals of Thermal Resistance and Heat Dissipation : Thermal Resistance in Conduction
  • Fundamentals of Thermal Resistance and Heat Dissipation : Thermal Resistance in Convection
  • Fundamentals of Thermal Resistance and Heat Dissipation : Thermal Resistance in Emission
  • Thermal Resistance Data: JEDEC Standards, Thermal Resistance Measurement Environments, and Circuit Boards
  • Thermal Resistance Data: Actual Data Example
  • Thermal Resistance Data: Definitions of Thermal Resistance, Thermal Characterization Parameters
  • Thermal Resistance Data: θ_JA and Ψ_JT in Estimation of T_J: Part 1
  • Thermal Resistance Data: θ_JA and Ψ_JT in Estimation of T_J: Part 2
  • Surface Temperature Measurements: Methods for Fastening Thermocouples
  • Surface Temperature Measurements: Thermocouple Mounting Position
  • Surface Temperature Measurements: Treatment of Thermocouple Tips
  • Surface Temperature Measurements: Influence of the Thermocouple
  • Estimating T_J: Basic Calculation Equations
  • Estimating T_J: Calculation Example Using θ_JA
  • Estimating T_J: Calculation Example Using Ψ_JT
  • Estimating T_J: Calculation Example Using Transient Thermal Resistance
  • Estimation of Heat Dissipation Area in Surface Mounting and Points to be Noted
  • Surface Temperature Measurements: Thermocouple Types
  • Summary
• Collection of Important Points Relating to Thermal Design ＋
  • Precautions Regarding Mounting by Hand Soldering
  • Influence of Copper Foil Thickness
  • Number of PCB Layers and Thermal Resistance
  • Positioning Vias Near Heat Sources
  • Influence of Mounting Positions
  • Influence of PCB Orientation
  • Future Thermal Simulations

Switching Noise

• Procedures in Noise Countermeasures ＋
  • Basics of Noise Countermeasures in Switching Power Supplies
  • Input Filters for Switching Power Supplies
• What is EMC? ＋
  • Basics of Spectrum
  • Differential (Normal) Mode Noise and Common Mode Noise－Causes and Measures
  • What is Crosstalk?
  • Noise Occurring in Switching Power Supplies
• Dealing with Noise Using Capacitors ＋
  • Understanding the Frequency Characteristics of Capacitors, Relative to ESR and ESL
  • Measures to Address Noise Using Capacitors
  • Effective Use of Decoupling (Bypass) Capacitors Point 1
  • Effective Use of Decoupling Capacitors　Point 2
  • Effective Use of Decoupling Capacitors, Other Matters to be Noted
  • Effective Use of Decoupling Capacitors, Summary
• Dealing with Noise Using Inductors ＋
  • Frequency-Impedance Characteristics of Inductors and Determination of Inductor’s Resonance Frequency
  • Basic Characteristics of Ferrite Beads and Inductors and Noise Countermeasures Using Them
  • Dealing with Noise Using Common Mode Filters
  • Points to be Noted: Crosstalk and Noise from GND Lines
  • Summary of Dealing with Noise Using Inductors
• Other Noise Countermeasures ＋
  • RC Snubber Circuit
• Basics of EMC – Summary

Simulation

• Thermal Simulation of PTC Heaters
• Thermal Simulation of Linear Regulators ＋
  • Thermal Simulation Circuits and Method for Linear Regulators
  • PCB Conditions for Thermal Simulation Models
  • Parameter Settings and Thermal Simulation Models
• Foundations of Electronic Circuit Simulation Introduction ＋
  • About SPICE
  • SPICE Simulators and SPICE Models
  • Types of SPICE simulation: DC Analysis, AC Analysis, Transient Analysis
  • Types of SPICE simulation: Monte Carlo
  • Convergence Properties and Stability of SPICE Simulations
  • Types of SPICE Model
  • SPICE Device Models: Diode Example–Part 1
  • SPICE Device Models: Diode Example–Part 2
  • SPICE Subcircuit Models: MOSFET Example―Part 1
  • SPICE Subcircuit Models: MOSFET Example―Part 2
  • SPICE Subcircuit Models: Models Using Mathematical Expressions
  • About Thermal Models
  • About Thermal Dynamic Model
  • Summary
• About the ROHM Solution Simulator ＋
  • How to Access the ROHM Solution Simulator
  • Trying Out the ROHM Solution Simulator (1)
  • Trying Out the ROHM Solution Simulator (2)
  • Starting a Simulation Circuit in the ROHM Solution Simulator
  • ROHM Solution Simulator Toolbar Functions and Basic Operations
  • ROHM Solution Simulator: User Interface
  • Execution of Simulations
  • Method for Displaying Simulation Results
  • Simulation Result Display Tool: Wavebox
  • Simulation Results Display Tool: Waveform Viewer
  • Customization of Simulations
  • Exporting Circuit Data to PartQuest™ Explorer
  • Purchasing Samples for Evaluation
• Optimization of PFC Circuits ＋
  • PFC Simulation Circuits Using Solution Circuits
  • PFC Circuits: Inductance Adjustment
  • PFC Circuits: Adjustment of Switching Frequency
  • PFC Circuits: Examination of Appropriate Gate Driving Voltages
  • PFC Circuits: Changing the Gate Resistance
  • PFC Circuits: Examination of Optimum Dead Time Values
  • Summary
• Optimization of Inverter Circuits
• About Thermal Simulations of DC-DC Converters
• Circuit-Theory-Based Design Simulation ＋
  • Transmission Waveform Simulation on Printed Circuit Boards Using MATLAB and ChatGPT