Combined Lighting Led Flexible PCB , Flexible Led Circuit Board 108LM/W 80 CRI

SKU:LZ-FLP021

R=279mm Sector Flexible LED PCB Board with 60pcs Samsung 2835 SMD LEDs 6500K for Combined Lighting

 

LED PCBA board,

Constant current

Samsung2835 SMD,

12X5 LEDs, 

R= 279mm

6500K

 

Application:

 

1. Ceiling lights

2. Advertisement light-box

3. Commercial luminaires

4. Channel lights

5. Troffer lamps
6. Architectural lighting
7. Decorative lighting

8. Panel lights

9. Down lights

 
We make Customized LED PCB&PCBA in your requirements.
 
Customized Dimension
Customized Circuit design
Customized LED quantity 
Customized Power
Specified LED Chip ( SAMSUNG, CREE, or Other Brand)
Other special requirements on the functions
 
Bergquist Aluminum base copper-clad laminate have excellent flame retardant, high mechanical strength, dimensional stability etc. Especially it has very good heat sink, electromagnetic shielding and solder float.
It's widely used for the modifier and sparker on fire for motorcycle and mobile, power LED, sound box, power supply module and acoustics shielding system etc.

 

One-Stop Service:Tell us your need as clear as possible, usually we could answer all your questions and do all the rest things
Free SampleWe could make samples for free if your need is exactly clear
PCB CopySend us the sample, and we could make a copy which would save your cost
PCBA and enclosure designTell us your idea and requirements, our professional sales will understand you quickly and make your need clear on paper
PCB manufacturingWe have own machine&equipment to make the PCB within 1 week while the gerber file offered or confirmed.
Component sourcing & PurchasingWe have cooperation with many IC components and LED chip manufacturer which could control the cost
PCBA 100% testEvery unit will be tested and aged of your order

 
 
 
PCB Cores
Engineers design printed circuit boards to work best within their particular application. The designs can specify the nature of the circuit, the PCB coating material, the size of the PCB and a variety of other qualities. One of the most basic qualities to change, however, is the core of the circuit board.
PCB bases come in a variety of materials, including:

  • FR-4: Most common of these materials is FR-4, a base composed of glass and epoxy. While fire-retardant, FR-4 tends to be relatively inefficient at transferring heat.
  • Epoxies: Another, albeit less common substrate for PCBs is a material known as an epoxy. While less durable than other options, epoxy-based PCBs are much cheaper to manufacture.
  • Metal-core: Metal-core PCBs are very effective for a variety of applications, specifically those involving heat transfers. These bases consist of metal, usually aluminum, laminated with copper. These metals give the circuit board improved electrical insulation and thermal conductivity.

When thermal qualities are not as important, FR-4 or epoxy bases are more common, as these tend to be relatively less expensive. However, when thermal qualities are important for the proper function of the end product, metal-core printed circuit boards are likely the solution.
About Aluminum PCBs
Most common among metal-core printed circuit boards is the aluminum PCB. This type of printed circuit board is built on top of an aluminum alloy base, instead of a fiberglass base. The alloy usually consists of a combination of magnesium, aluminum and silumin, altering the properties of the metal to best suit the needs of the application.
All aluminum PCBs consist of the following layers:

  • The Base Layer: The base layer of the PCB is the aluminum alloy sheet upon which the rest of the PCB builds. This alloy is typically designed to provide maximum electrical insulation and thermal conductivity.
  • The Thermal Insulation Layer: This layer is extremely important in the design of the PCB. Consisting of a ceramic polymer, this layer protects the PCB from mechanical or thermal damage by offering thermal resistance and viscoelastic properties. This works by absorbing the heat created as the current moves through the circuits and transferring it to the aluminum layer — there it disperses.
  • The Circuit Layer: This layer contributes most to the end function of the board, containing the copper foil circuits needed for the PCB to function.

These layers occur in any number of variations, with one or several thermal and circuit layers depending on the particular application. The layers listed also lend a number of different benefits to aluminum PCBs, which can be of use to several key industries.
 
Aluminum PCB Types
There are numerous ways the layers above can be altered to create new PCB designs. Each of these variations results in slightly different qualities of the PCB, making it more suitable for some industries and applications over others.
Some types of Aluminum PCBs include:

  • Flexible Aluminum: This relatively new material uses ceramic fillers and polyimide resin to provide excellent insulation and flexibility, all while retaining the aluminum’s impressive thermal conductivity. These PCBs can be formed to connect directly where they are needed. This eliminates the need for cables, connectors and fixtures, which can add to the end cost of the product. Once they are bent, however, they are meant to stay there — these PCBs are not designed to flex constantly.
  • Hybrid Aluminum: Just as it sounds, a non-thermal material fused to an aluminum base metal creates hybrid aluminum. Usually, the material is a circuit board made with conventional FR-4. By fusing these layers together, the circuit board can dissipate heat more effectively, as well as increase rigidity. These hybrids also tend to be less expensive than entirely aluminum products. The downside, however, is the loss of flexibility.
  • Multilayer Aluminum: In high performance power-supply applications, multilayer aluminum PCBs are generally the best. These PCBs consist of layers of thermally conductive dielectrics. While this multilayer approach can handle high performance, they tend to be less efficient when it comes to transferring heat However, overall these PCBs tend to be effective for basic heat dissipation in more complex designs.
  • Through-Hole Aluminum: For more complex constructions, the aluminum base of a PCB can be pre-drilled and back-filled with dielectric before being laminated with thermal materials. These are highly complex, and tend to be labor-intensive projects meant for particularly complicated or specific projects.


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