MCOB Structural Design Of The LED Modules

MCOB Structural Design Of The LED Modules

MCOB LED Modules: Basic Vocational Technology LED lighting solutions for low power consumption, inflation-proof and long lasting.

MCOB LED modules

Thanks to the use of this innovative platform, LED lighting fixtures become future-proof. In this way it is possible to use technological advances to improve the efficiency of lighting systems with LED and reduce costs. A LED lighting fixture designed based on the MCOB LED automatically takes advantage of the progress of the development of LED, without expensive modifications to the basic design. MCOB LED for clients SanLiBang

Reliability and innovation in the design; design of luminaires

Easy scalability thanks to the same geometries for different values of lumen Constant availability of the latest and advanced LED technologies can be used in the development of lighting equipment Reduce the complexity of the lighting fixtures to LED, for several generations of products Trouble-free operation thanks to perfectly matched components

Ceramic Substrate Process

Ceramic Substrate Process LED Light Modules Design
  • Thermal Radiation:
    By the characteristics of non-hear storing & high thermal conductivity , compared with previous insulating sheet, ceramic substrate decreases the affect with heat efficiency by insulating sheet and performs better at insulating result.

  • Direct heat dissipation:
    Traditional heat management system consists of heating unit → thermal layer → insulating layer → thermal layer → Alum heat sink. After the whole getting-through, quantity of heat suffers from attenuation Ceramic sheet with integrated conduction carries off higher heat quantity, not affected by insulating layer.

  • EMI Test:
    Owe to own insulating characteristics, ceramic has better heat management than per unit of Bronze, Aluminum ,reduce and electrical interference and easily pass EMI test.

Ceramic Introduction Parameter

  • 0.7mm thickness ,low value of thermal resistance. Size of 10*10mm =0.31K/W
  • 99% ALNO element
  • Double-side luminous 330 degree beam angle
  • 1700°C high temperature resistance
  • Coefficient of thermal conductivity>220W/(m.k)
  • Thermal conductivity 37 W/(m.k)
  • Refractive index nd>1.8, higher value, higher efficiency of light extraction
  • High voltage resistance 13,000 V
  • Breakdown strength 65kv/mm
  • High Carrying capacity. 100A current going through copper wire of 1mm width 3mm thickness, temperature increases by 17°C. and by 5°C via 2mm width 0.3mm thickness