リーディングエッジ調光器とトレーリングエッジ調光器の違いは何ですか？

Dimmer issues like flickering or buzzing can wreck your lighting setup — the root cause often comes down to the type of dimmer you’re using.

The key difference between leading-edge and trailing-edge dimmers lies in the point of AC waveform they cut — front vs. back — which directly affects LED compatibility, dimming performance, and system noise.

• Leading-edge dimmers (TRIAC-based) cut the start of the AC cycle, are cheaper, and suit incandescent or halogen loads, but often cause flickering or buzzing in LEDs.
• Trailing-edge dimmers (MOSFET/IGBT-based) cut the end of the waveform, offer smooth, silent dimming, and are ideal for LEDs, though at a higher cost.
  👉 For modern LED lighting systems, trailing-edge dimmers are strongly recommended to ensure stable performance and avoid common dimming issues.

Not all dimmers work with all lights. If you’re unsure which dimmer to use, this guide breaks it down step by step so you can choose with confidence.

Introduction to Dimmer Switches?

Dimmer switches let users adjust the brightness of their lights — but not all dimmers are the same.

Dimmer switches are devices that reduce the brightness of a light by adjusting the voltage delivered to the light source.

Why Dimmers Matter

Dimmers help save energy, extend bulb life, and improve ambiance. But they must be compatible with the light type — especially with LEDs. Incompatibility can cause annoying issues like flicker, buzzing, or limited dimming range. That’s why understanding how dimmers work is critical before choosing one for your project.

Understanding Phase-Cut Dimming?

What exactly happens inside a dimmer switch when you turn the knob or slide the lever?

Phase-cut dimming reduces light output by chopping parts of the AC waveform — either at the start (leading-edge) or the end (trailing-edge) of each cycle.

Two Styles of Chopping

Phase-cut dimmers control power by interrupting the sine wave that delivers energy to a light source. There are two ways to do this:

The difference in cut location leads to completely different electrical behaviors, which affect compatibility with modern lighting systems.

What Are Leading-Edge Dimmers?

Many old-school dimmers fall into this category. They’ve been around for decades.

Leading-edge dimmers cut the voltage at the beginning of the AC waveform and are mainly based on TRIAC technology.

How They Work

These dimmers hold off voltage until a trigger point, then release it. This sudden jump causes a voltage spike — okay for resistive loads like incandescent bulbs but problematic for sensitive circuits in LEDs.

Common Use Cases

• 白熱電球
• Low-voltage halogens (with magnetic transformers)
• Some older compact fluorescents

Because they were designed for older lighting technologies, leading-edge dimmers often don’t play nice with LEDs unless both are specifically matched.

What Are Trailing-Edge Dimmers?

As LEDs became the norm, trailing-edge dimmers stepped in to provide better performance.

Trailing-edge dimmers cut the voltage at the end of the AC waveform and use MOSFETs or IGBTs for smoother, quieter dimming.

How They Work

Unlike their leading-edge cousins, these dimmers allow the waveform to start naturally, then switch off at the end. This method avoids abrupt voltage spikes, making them much more compatible with electronic circuitry found in LED drivers.

Common Use Cases

• LED bulbs and fixtures
• Low-voltage lighting with electronic transformers
• Modern residential and commercial dimming systems

Trailing-edge dimmers are especially effective at eliminating flickering and humming that many users complain about when dimming LEDs.

Key Differences Between Leading-Edge and Trailing-Edge Dimmers?

These two dimmer types may look similar on the outside — but inside, they behave completely differently.

The key difference is where they cut the AC wave: leading-edge cuts the start, trailing-edge cuts the end. This affects smoothness, noise, and LED compatibility.

Operational Mechanism

Performance Characteristics

Trailing-edge dimmers offer better dimming performance for LEDs. They eliminate buzz, reduce flicker, and offer a wider dimming range. Leading-edge dimmers, while cheaper, often struggle with these points unless paired with specific LED drivers.

互換性

Many off-the-shelf LED bulbs are designed for trailing-edge dimmers. Using a leading-edge dimmer on these may result in poor dimming behavior — or no dimming at all.

Advantages and Disadvantages of Leading-Edge Dimmers?

These are old but still used — and sometimes still the right choice.

Leading-edge dimmers are affordable and simple, but often cause issues when used with LEDs due to voltage spikes and limited dimming control.

長所

• Cost-effective: Often cheaper to produce and install.
• Simple design: Based on reliable TRIAC components.
• Good for resistive loads: Incandescent bulbs work well.

短所

• Poor LED compatibility: Can cause flicker or buzzing.
• Noisy operation: Audible hum is common with electronic loads.
• Limited range: Dimming curve may feel abrupt or uneven.

In budget-sensitive projects with legacy lighting, these dimmers can still be useful. But with modern lighting, they can quickly become a headache.

Advantages and Disadvantages of Trailing-Edge Dimmers?

They cost more, but you get what you pay for.

Trailing-edge dimmers are more expensive but offer better performance, quieter operation, and excellent compatibility with LEDs and modern drivers.

長所

• Smooth dimming: Ideal for sensitive LED drivers.
• Silent: No buzzing from transformers or electronics.
• LED-friendly: Designed to work with low-wattage modern lights.

短所

• Higher cost: Advanced components cost more.
• Complexity: Slightly more involved circuit design.

If long-term performance and lighting quality matter, trailing-edge dimmers are the smarter choice — especially for new LED systems.

Choosing the Right Dimmer for Your Lighting Needs?

Picking the right dimmer depends on your light source, budget, and performance goals.

Match your dimmer type to your lighting system: trailing-edge for modern LEDs, leading-edge only for old-style loads. Always check compatibility.

Questions to Ask

• What kind of bulb am I using?
• What type of transformer (if any) is in the system?
• How important is smooth dimming or noise-free operation?
• What’s the project budget?

If you’re unsure, go for trailing-edge — most high-quality LED drivers are optimized for them.

Common Issues and Troubleshooting Tips?

Even the right dimmer can cause trouble if it’s installed wrong or mismatched.

Flickering, buzzing, or limited dimming range are often due to mismatched dimmers and lamps. Check compatibility and wiring first.

Common Problems and Fixes

Always check the datasheet of your dimmer and your lamp. Many issues can be solved just by matching specs.

結論

Trailing-edge dimmers are the top choice for modern LEDs — they offer smoother dimming, better compatibility, and no buzzing.

Upgrade Your Lighting with boqi’s BQ-TTDIM Rotary Dimmer

Take full control of your lighting with the BQ-TTDIM, boqi’s rotary panel dimmer built for precision and performance. Designed for trailing edge dimming, it supports push-button switching and adjustable brightness from 0–100%, making it ideal for both residential and commercial use.

Key Benefits:

• Works with LED, halogen, and incandescent lights
• AC 200–240V input, up to 300W output power
• Overheat and overload protection for safer use
• Memory function saves your last brightness level
• Fully certified: CE, EMC, LVD, RoHS

With a compact form factor and a 5年保証, the BQ-TTDIM is a dependable, flicker-free solution for modern lighting systems.

boqi – Trusted dimming control for global lighting projects.
👉 お問い合わせ for pricing or bulk orders.