What is the Difference between Decoration Lighting and Ordinary Light Bulbs?

Decoration lighting and ordinary lighting devices show essential differences in functional positioning and optical engineering implementation paths. The decoration lighting system takes visual aesthetic construction as its core goal. Its spectral control mechanism allows wavelength selective output within the visible light band, and generates a specific color temperature range through semiconductor devices or filter films. The dynamic light effect module integrates a waveform controller, which can programmatically adjust the frequency and phase difference of light intensity fluctuations to form pattern changes under the visual persistence effect.

Ordinary lighting devices are guided by meeting basic luminous flux requirements, adopt the principle of full-spectrum continuous emission, and focus on ensuring the color rendering index and spatial illumination uniformity. Its thermal management system focuses on controlling the junction temperature of the light emitter to ensure that the light decay threshold is maintained under continuous working conditions. The standardized interface design enhances compatibility with the power supply network, and the protection level configuration focuses on preventing dust penetration and liquid intrusion.

In terms of material selection, decoration lighting generally uses composite materials with gradient transmittance changes, and the surface microstructure is processed to form a composite light field of diffuse reflection and specular reflection. Ordinary lighting equipment focuses on the application of high-transmittance media to reduce optical path loss. In terms of circuit architecture, decorative lighting usually has built-in multi-channel driver chips to support color mixing logic operations, while ordinary lighting relies on constant current sources to maintain stable output.

The thermodynamic performance is significantly different. Decoration lighting allows overload operation within a specific time period to enhance the light performance, and the matching heat dissipation module has asymmetric heat conduction characteristics. Ordinary lighting strictly follows the thermal balance design principle to ensure that the shell temperature rise is always within the safe threshold. Both use double insulation structure in the dimension of electrical safety protection, but decoration lighting has an additional emergency power switching module to ensure the continuous presentation of dynamic effects.