Ceramic thermal substrates claim a higher thermal conductivity than other components in metal core circuits.
Many mainstream applications have begun to use ceramics including solar equipment, LED televisions, smart mobile phones and automotive components.
These ceramic substrates are one of either thick or thin film. Thick is mostly used in the automotive and military fields for high heat generating equipment, while the latter is used mostly for powerful LEDs.
The main materials of these 2 kinds of ceramic thermal substrates are AlN, Alumina and Al₂O₃.
Metal Core PCBs
A simple blog about all things related to metal core PCBs and metal core PCB fabrication including LEDs, PCB materials and suppliers.
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San Francisco Circuits
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San Francisco CircuitsFriday, November 11, 2011
Wednesday, August 31, 2011
Low CTE Boards
CTE is the Coefficient of Thermal Expansion.
Understanding CTE in metal core PCB fabrication is critical. Every material expands or contracts when its temperature changes.
CTE is very important in board design since multiple materials are often used in the final assembly, causing situations of different levels expansion/contraction. This, in turn, can cause stress on the overall board or the solder joints.
Understanding CTE in metal core PCB fabrication is critical. Every material expands or contracts when its temperature changes.
CTE is very important in board design since multiple materials are often used in the final assembly, causing situations of different levels expansion/contraction. This, in turn, can cause stress on the overall board or the solder joints.
Monday, June 20, 2011
LED Prices & Effect on Metal Core PCB Fabrication
Many sources are discussing LED pricing in the next 5-15 years, with all sources pointing to a huge decrease in pricing for a number of reasons.
The most particular and promising other than the natural lowering of pricing from increased competition comes from the components and materials used.
The newer use of larger silicon carbide wafers will bring prices down eventually as well as the promising technology of GaN-on-Silicon wafers.
Pricing for assembled LED applications are predicted to drop by up to 100% from industry sources.
LEDs are up to 40 times more efficient and longer lasting than regular incandescent light bulbs. With the more affordable pricing, they will surely take over more of the new and replace old lighting applications.
This will also increase the effect of demand for metal core pcb designers, fabricators and assembly firms.
The most particular and promising other than the natural lowering of pricing from increased competition comes from the components and materials used.
The newer use of larger silicon carbide wafers will bring prices down eventually as well as the promising technology of GaN-on-Silicon wafers.
Pricing for assembled LED applications are predicted to drop by up to 100% from industry sources.
LEDs are up to 40 times more efficient and longer lasting than regular incandescent light bulbs. With the more affordable pricing, they will surely take over more of the new and replace old lighting applications.
This will also increase the effect of demand for metal core pcb designers, fabricators and assembly firms.
Tuesday, June 14, 2011
Nanotechnology Circuits in Wireless Devices
IBM researches released information that they designed nanotechnology circuits for use in wireless devices.
They are graphene-based making them the most thin electronic material available.
They are graphene-based making them the most thin electronic material available.
Thursday, June 2, 2011
IPC PCB Industry Reports
Off the topic of metal core boards and onto rigid and flex boards:
The IPC releases some information on the PCB industry for April 2011 compared to April 2010:
- Rigid PCB shipments are up just 0.8% (for the YTD, up ~5%)
- Flex PCB shipments are up a whopping 7.2%
This data just goes to show the huge increases in use for high technology boards over standard (soon to be called old technology) boards. Flex boards, rigid flex and metal core boards are becoming more and more commonplace in applications.
Source: IPC
The IPC releases some information on the PCB industry for April 2011 compared to April 2010:
- Rigid PCB shipments are up just 0.8% (for the YTD, up ~5%)
- Flex PCB shipments are up a whopping 7.2%
This data just goes to show the huge increases in use for high technology boards over standard (soon to be called old technology) boards. Flex boards, rigid flex and metal core boards are becoming more and more commonplace in applications.
Source: IPC
Friday, May 27, 2011
Back to Basics: What is a Printed Circuit Board?
Let's discuss some basics of PCBs and their components.
Printed Circuit Board Uses
We use PCBs everyday, whether you realize it or not. They're used in medical devices, automobiles, flashlights, mobile phones, defense systems, computers and so much more. Literally, everything that is "electronically alive" probably has a PCB in it.
What is a PCB?
It is a board of non-conductive material, either glass or plastic, that has electrically conductive patterns printed onto it, using either copper metal or India ink. In the case of metal core boards, this pattern uses an aluminum core, copper core or a combination of substrates. India ink, in comparison, is low in conductivity.
The electrically conductive portion of the board supplies an electrical current to various components on the circuit board that are attached during the PCB assembly process. The electrical components of the board control the rate of flow and the behavior of the electrical current.
Printing Methods: Etching & Silkscreen Printing
A substrate is a material that does not conduct electricity. A PCB is a substrate that has a electrically conductive pattern printed on it. The pattern dictates the flow of electrons and is etched onto the bare circuit board.
The etching process begins with cutting copper sheet metal to the same size as the substrate. Epoxy is used on the board to bind the conductive portion to the board then an etching machine cuts the desired pattern in the copper sheet, leaving a pattern on the substrate.
Silkscreen Printing can also be used to print on the boards. With this method a silkscreen printer prints onto the board with an electrically conductive ink.
Components & PCB Assembly
PCB Assembly or PCBA is the process of attaching or embedding components onto the printed board. Common components are diodes, resistors, heat syncs (for high heat applications; common with metal core boards) and magnets.
Leads are common and important on assembled PCBs as they act as the connection between the board and another electronic device.
Printed Circuit Board Uses
We use PCBs everyday, whether you realize it or not. They're used in medical devices, automobiles, flashlights, mobile phones, defense systems, computers and so much more. Literally, everything that is "electronically alive" probably has a PCB in it.
What is a PCB?
It is a board of non-conductive material, either glass or plastic, that has electrically conductive patterns printed onto it, using either copper metal or India ink. In the case of metal core boards, this pattern uses an aluminum core, copper core or a combination of substrates. India ink, in comparison, is low in conductivity.
The electrically conductive portion of the board supplies an electrical current to various components on the circuit board that are attached during the PCB assembly process. The electrical components of the board control the rate of flow and the behavior of the electrical current.
Printing Methods: Etching & Silkscreen Printing
A substrate is a material that does not conduct electricity. A PCB is a substrate that has a electrically conductive pattern printed on it. The pattern dictates the flow of electrons and is etched onto the bare circuit board.
The etching process begins with cutting copper sheet metal to the same size as the substrate. Epoxy is used on the board to bind the conductive portion to the board then an etching machine cuts the desired pattern in the copper sheet, leaving a pattern on the substrate.
Silkscreen Printing can also be used to print on the boards. With this method a silkscreen printer prints onto the board with an electrically conductive ink.
Components & PCB Assembly
PCB Assembly or PCBA is the process of attaching or embedding components onto the printed board. Common components are diodes, resistors, heat syncs (for high heat applications; common with metal core boards) and magnets.
Leads are common and important on assembled PCBs as they act as the connection between the board and another electronic device.
Monday, May 23, 2011
Metal Core PCB Demand on the Rise
The demand for LED products and LED applications has been steadily on the rise, in reports from Taiwan.
Taiwan manufacturers have reported that LED applications, primarily LED panels, are in greater demand and steadily increasing.
This will surely increase the demands and technology for metal core printed circuit boards and interconnects for the boards.
Taiwan manufacturers have reported that LED applications, primarily LED panels, are in greater demand and steadily increasing.
This will surely increase the demands and technology for metal core printed circuit boards and interconnects for the boards.
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