Passive Components Blog
No Result
View All Result
  • Home
  • NewsFilter
    • All
    • Aerospace & Defence
    • Antenna
    • Applications
    • Automotive
    • Capacitors
    • Circuit Protection Devices
    • electro-mechanical news
    • Filters
    • Fuses
    • Inductors
    • Industrial
    • Integrated Passives
    • inter-connect news
    • Market & Supply Chain
    • Market Insights
    • Medical
    • Modelling and Simulation
    • New Materials & Supply
    • New Technologies
    • Non-linear Passives
    • Oscillators
    • Passive Sensors News
    • Resistors
    • RF & Microwave
    • Telecommunication
    • Weekly Digest

    From DCL to SSC: Bridging Electrical Symptoms and Structural Indicators in Tantalum Capacitors

    Vishay Unveils Multi-Turn Position Sensor for Harsh Industrial Environments

    YAGEO Introduces Automotive MOV Surge Protection Varistor

    TDK Releases Compact SMD Gate Drive Transformers for xEV

    Wk 26 Electronics Supply Chain Digest

    High-Q RF & Microwave MLCCs: A Cross-Vendor Benchmark

    Molex Unveils Automotive Ethernet Connectors for Next‑Gen SDV Architectures

    TAIYO YUDEN Introduced Hybrid Aluminum Capacitors for 48V Automotive Power Supplies

    ECIA Industry Pulse June 2026 Reaches Five‑Year High

    Trending Tags

    • Ripple Current
    • RF
    • Leakage Current
    • Tantalum vs Ceramic
    • Snubber
    • Low ESR
    • Feedthrough
    • Derating
    • Dielectric Constant
    • New Products
    • Market Reports
  • VideoFilter
    • All
    • Antenna videos
    • Capacitor videos
    • Circuit Protection Video
    • Filter videos
    • Fuse videos
    • Inductor videos
    • Inter-Connect Video
    • Non-linear passives videos
    • Oscillator videos
    • Passive sensors videos
    • Resistor videos

    KYOCERA AVX Presents Antenna Integrator Studio Tutorial for Antenna Placement and RF Design

    Power Design Simulation Tools for Faster Inductor Selection and Loss Optimization

    EMC‑Compliant PCB and Connector Design Guidelines

    Why Isolated DC/DC Power Supplies Fail Late, Würth Elektronik Podcast

    Designing 800 V DC EMC Filters: Calculation, Simulation and Measurement

    Current Sense Transformer Datasheet and Design‑in Guide

    Designing a USB Type‑C Flyback Planar Transformer with Frenetic’s Planar Tool

    Magnetics Design in High‑Frequency GaN Converters

    Qi2 Wireless Charging: Inductors, Capacitors and EMC Filters

    Trending Tags

    • Capacitors explained
    • Inductors explained
    • Resistors explained
    • Filters explained
    • Application Video Guidelines
    • EMC
    • New Products
    • Ripple Current
    • Simulation
    • Tantalum vs Ceramic
  • Knowledge Blog
  • DossiersNew
  • Suppliers
    • Who is Who
  • PCNS
    • PCNS 2025
    • PCNS 2023
    • PCNS 2021
    • PCNS 2019
    • PCNS 2017
  • Events
  • Home
  • NewsFilter
    • All
    • Aerospace & Defence
    • Antenna
    • Applications
    • Automotive
    • Capacitors
    • Circuit Protection Devices
    • electro-mechanical news
    • Filters
    • Fuses
    • Inductors
    • Industrial
    • Integrated Passives
    • inter-connect news
    • Market & Supply Chain
    • Market Insights
    • Medical
    • Modelling and Simulation
    • New Materials & Supply
    • New Technologies
    • Non-linear Passives
    • Oscillators
    • Passive Sensors News
    • Resistors
    • RF & Microwave
    • Telecommunication
    • Weekly Digest

    From DCL to SSC: Bridging Electrical Symptoms and Structural Indicators in Tantalum Capacitors

    Vishay Unveils Multi-Turn Position Sensor for Harsh Industrial Environments

    YAGEO Introduces Automotive MOV Surge Protection Varistor

    TDK Releases Compact SMD Gate Drive Transformers for xEV

    Wk 26 Electronics Supply Chain Digest

    High-Q RF & Microwave MLCCs: A Cross-Vendor Benchmark

    Molex Unveils Automotive Ethernet Connectors for Next‑Gen SDV Architectures

    TAIYO YUDEN Introduced Hybrid Aluminum Capacitors for 48V Automotive Power Supplies

    ECIA Industry Pulse June 2026 Reaches Five‑Year High

    Trending Tags

    • Ripple Current
    • RF
    • Leakage Current
    • Tantalum vs Ceramic
    • Snubber
    • Low ESR
    • Feedthrough
    • Derating
    • Dielectric Constant
    • New Products
    • Market Reports
  • VideoFilter
    • All
    • Antenna videos
    • Capacitor videos
    • Circuit Protection Video
    • Filter videos
    • Fuse videos
    • Inductor videos
    • Inter-Connect Video
    • Non-linear passives videos
    • Oscillator videos
    • Passive sensors videos
    • Resistor videos

    KYOCERA AVX Presents Antenna Integrator Studio Tutorial for Antenna Placement and RF Design

    Power Design Simulation Tools for Faster Inductor Selection and Loss Optimization

    EMC‑Compliant PCB and Connector Design Guidelines

    Why Isolated DC/DC Power Supplies Fail Late, Würth Elektronik Podcast

    Designing 800 V DC EMC Filters: Calculation, Simulation and Measurement

    Current Sense Transformer Datasheet and Design‑in Guide

    Designing a USB Type‑C Flyback Planar Transformer with Frenetic’s Planar Tool

    Magnetics Design in High‑Frequency GaN Converters

    Qi2 Wireless Charging: Inductors, Capacitors and EMC Filters

    Trending Tags

    • Capacitors explained
    • Inductors explained
    • Resistors explained
    • Filters explained
    • Application Video Guidelines
    • EMC
    • New Products
    • Ripple Current
    • Simulation
    • Tantalum vs Ceramic
  • Knowledge Blog
  • DossiersNew
  • Suppliers
    • Who is Who
  • PCNS
    • PCNS 2025
    • PCNS 2023
    • PCNS 2021
    • PCNS 2019
    • PCNS 2017
  • Events
No Result
View All Result
Passive Components Blog
No Result
View All Result

Understanding Switched Capacitor Converters

9.6.2025
Reading Time: 4 mins read
A A

In this video prof. Sam Ben-Yaakov discusses regulated switched capacitors in converters, its efficiency, stress and voltage regulation

Switched capacitor converters (SCCs) are integral in modern electronics, offering compact solutions for voltage conversion without relying on inductors. This article delves into their basic configurations, efficiency challenges, stress factors, and mechanisms for voltage regulation.

RelatedPosts

Current Sense Transformer Datasheet and Design‑in Guide

Two‑capacitor paradox explained for engineers

Capacitances of Nonlinear MLCCs: What Datasheets Don’t Tell You

Basic Configurations of Switched Capacitor Converters

A fundamental SCC, often illustrated with schematics from Texas Instruments and Analog Devices, operates using MOSFET switches and flying capacitors:

  1. Inverting Converter (Texas Instruments Model):
    • Design: Four MOSFET switches connect the input through to a flying capacitor, then to the output.
    • Operation: In one phase, the capacitor connects to the input, storing charge. In the next phase, it connects to the output, releasing charge. The output voltage is negative relative to the grounded positive terminal, effectively inverting the input.
  2. Voltage Doublers/Dividers (Analog Devices Model):
    • Design: Configures capacitors in either series or parallel arrangements.
    • Operation: Depending on the input/output definition, the output can be double or half the input voltage.

Efficiency Challenges in SCCs

Efficiency in SCCs is influenced by internal losses due to:

  • Resistive Elements: MOSFET on-resistance and Equivalent Series Resistance (ESR) of capacitors contribute to power dissipation.
  • Load Conditions: At low currents, voltage drops are minimal, but as load increases, internal resistance causes significant drops.
  • Switching Frequency and Capacitor Size: Higher frequencies and larger capacitors reduce equivalent internal resistance, enhancing efficiency.

Voltage Stress and Regulation Techniques

Stress Factors:

  • Switch Stress: MOSFETs endure voltage swings that depend on the switching cycle.
  • Capacitor Stress: Capacitors face charge/discharge cycles leading to thermal and electrical stress.

Regulation Methods:

  1. Adjusting Switching Frequency: Changing the frequency alters the internal resistance, thereby regulating the output voltage.
  2. Control of MOSFET Resistance: Varying gate drive levels modifies MOSFET conduction resistance, affecting output voltage.
  3. Hybrid Solutions: Incorporating Low Dropout Regulators (LDOs) in series with SCCs for fine-tuning output voltages.

Simulation Insights and Practical Considerations

Simulations confirm theoretical models:

  • Load Impact: Higher load resistances reduce output current, minimizing voltage drops and improving efficiency.
  • Parasitic Inductances: Influence current waveforms, necessitating careful PCB layout to reduce oscillatory behavior.

Conclusion

Switched capacitor converters offer compact, efficient solutions for voltage conversion. While their efficiency can rival that of LDOs under certain conditions, understanding and mitigating internal losses and stress factors are crucial for optimal performance. By leveraging advanced control techniques and meticulous design, engineers can harness SCCs for a wide range of power management applications.

Related

Source: Sam Ben-Yaakov

Recent Posts

From DCL to SSC: Bridging Electrical Symptoms and Structural Indicators in Tantalum Capacitors

7.7.2026
18

High-Q RF & Microwave MLCCs: A Cross-Vendor Benchmark

2.7.2026
71

TAIYO YUDEN Introduced Hybrid Aluminum Capacitors for 48V Automotive Power Supplies

2.7.2026
49

YAGEO Announces July 2026 Capacitor Price Increase

1.7.2026
481

Enabling the 800 V AI Server Era: How C0G High-Voltage MLCC Supports Next-Generation Power Architectures

1.7.2026
129

MLCCs in the Age of AI: Q2 2026 Market Tightness

30.6.2026
358

AI Hardware Demand for Passive Components Dossier

30.6.2026
118

KYOCERA AVX Presents Antenna Integrator Studio Tutorial for Antenna Placement and RF Design

29.6.2026
21

Power Design Simulation Tools for Faster Inductor Selection and Loss Optimization

29.6.2026
33

Upcoming Events

Jul 14
16:00 - 17:00 CEST

EMC Design Essentials: Mastering Varistors and Common Mode Chokes

Jul 21
16:00 - 17:00 CEST

Safety by design: X and Y Interference suppression capacitors for power line filters

Jul 28
8:00 - 11:00 CEST

Post Procurement Testing of EEE Components for LEO Space Applications

View Calendar

Popular Posts

  • Boost Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • Buck Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • Flyback Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • LLC Resonant Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • MLCC and Ceramic Capacitors

    0 shares
    Share 0 Tweet 0
  • Earthing Systems and IEC Classification Explained

    0 shares
    Share 0 Tweet 0
  • Nvidia Vera Rubin: Why One AI Rack Needs So Many More MLCC Capacitors

    0 shares
    Share 0 Tweet 0
  • YAGEO Announces July 2026 Capacitor Price Increase

    0 shares
    Share 0 Tweet 0
  • MLCC Case Sizes Standards Explained

    0 shares
    Share 0 Tweet 0
  • Dual Active Bridge (DAB) Topology

    0 shares
    Share 0 Tweet 0

Newsletter Subscription

 

Passive Components Blog

© EPCI - Leading Passive Components Educational and Information Site

  • Home
  • Privacy Policy
  • EPCI Membership & Advertisement
  • About

No Result
View All Result
  • Home
  • Knowledge Blog
  • Dossiers
  • PCNS

© EPCI - Leading Passive Components Educational and Information Site

This website uses cookies. By continuing to use this website you are giving consent to cookies being used. Visit our Privacy and Cookie Policy.
Go to mobile version