From June 9 to June 12, the 2026 Guangzhou International Lighting Exhibition (Guangya Exhibition) officially came to a successful close. As a global benchmark for the lighting industry, this year’s exhibition focused on three core demands: intelligent lighting control, engineering lighting, and cross-border compatibility, attracting tens of thousands of professional buyers.

Demi Technology made a strong appearance with its full range of new dimmable driver power supplies and its self-developed disruptive MMPC multi-modal algorithm phase-cut technology. With practical products and verifiable technical advantages, the company became one of the focal points in the lighting power supply sector.

1. Full Product Line Launch: Covering Global Multi-Scenario Lighting Needs

At this exhibition, Demi presented a complete range of new products covering residential lighting, commercial applications, Europe–Asia engineering-grade dimming power supplies, linear lighting fixtures, and lighting system accessories—offering one-stop selection solutions for global customers:

1. Flagship Innovation: “MMPC Multi-Modal Algorithm Phase-Cut Dimming Driver”
   
   The core technological achievement of this exhibition, specifically developed to solve compatibility issues in traditional TRIAC dimming systems.
   
2. Integrated Solution: “Dimmer + Driver All-in-One Unit”
   
   Simplifies fixture structure and reduces assembly and wiring costs for lighting manufacturers.
   
3. Europe–Asia Engineering Preferred Series: 60W–400W High-Power Drivers
   
   Designed for large-scale commercial, industrial, and outdoor lighting projects such as supermarkets, factories, and infrastructure lighting. Complies with mainstream safety and energy efficiency standards in Europe and Asia.
   
4. Multi-Function Dimming & Tuning Matrix: CSA / HZA / DSD Series
   
   Covers multi-function dimming and color tuning, high-frequency flicker-free dimming, and high-precision linear dimming applications.
   
5. Linear Lighting Dedicated Series: Slim 5-in-1 Dimming Drivers
   
   Designed for cabinet lights, linear wall washers, and LED strips, suitable for narrow installation spaces without constraints.
   
6. Retro / Halogen Replacement Series: Electronic Transformer Dimming Drivers
   
   Suitable for traditional halogen retrofit applications and premium decorative lighting markets.
   

From low-power residential applications to high-power 400W engineering solutions, and from TRIAC phase-cut to 0–10V and multi-protocol hybrid dimming systems, the complete product matrix enables one-stop procurement and supports global markets including China, Europe, America, and the Middle East.

2. Technological Breakthrough: MMPC Multi-Modal Phase-Cut Algorithm Solves Industry Compatibility Issues

For a long time, the phase-cut dimming market has suffered from persistent industry pain points:

Traditional phase-cut drivers cannot simultaneously support both ELV (trailing-edge) and MLV (leading-edge) dimmers or systems. As a result, customers must stock two different types of power supplies, increasing inventory pressure. In addition, many conventional phase-cut drivers suffer from flickering and stuttering at low brightness levels, as well as poor dimming smoothness, leading to unsatisfactory user experience and frequent after-sales issues in high-end and export projects.

To address these real market challenges, Demi independently developed the MMPC Multi-Modal Algorithm Phase-Cut Dimming Technology, which has been fully integrated into multiple key products showcased at the exhibition:

1. Full Compatibility
   
   Built-in intelligent recognition algorithm automatically adapts to ELV/MLV dimmers and systems, significantly reducing SKU inventory pressure for manufacturers.
   
2. Smooth, Flicker-Free Dimming
   
   Multi-stage dynamic grayscale adjustment enables 0–100% linear brightness transition, eliminating flicker and jitter at low brightness levels, meeting international healthy lighting flicker-free standards.
   
3. Stable Load & Anti-Interference Performance
   
   Optimized for various wiring conditions and long-distance installation scenarios, effectively solving issues such as dimming failure and flickering in large-scale lighting projects.
   

During the exhibition, a live dimming demonstration area allowed visitors to compare traditional drivers with MMPC-based products. The smooth, seamless dimming performance received strong recognition from customers, with many engineering and export clients confirming sample testing and cooperation intentions on site.

3. Implementation Strategy: Full MMPC Deployment for Global Markets

The exhibition marks only the starting point of MMPC technology deployment. Demi plans to progressively integrate this multi-modal phase-cut algorithm across all phase-cut dimming product lines, without requiring additional cost from customers. All product lines will be upgraded in sync to enhance dimming performance.

This ensures that lighting manufacturers, engineering clients, and end users worldwide can enjoy stable, compatible, and intelligent dimming experiences—eliminating compatibility concerns while reducing inventory and after-sales costs across the industry.

4. Commitment to Innovation: Continuous Focus on the Dimming Driver Industry

As the exhibition concludes, innovation continues.

The lighting industry is clearly moving toward intelligent control, globalization, and engineering standardization. Customers’ requirements for driver compatibility, stability, and integration are continuously increasing.

Demi Technology remains fully committed to its core dimming driver business, always driven by real market needs rather than conceptual hype. The company focuses on delivering practical, testable, and globally adaptable products and technologies.

In the future, Demi will continue to invest in algorithm development, high-power engineering solutions, and multi-protocol integrated dimming innovations, providing more competitive driver power supply solutions for global lighting partners and jointly building high-quality intelligent lighting environments.