10 Unzen Kupfer PCB
- Providing cost-effective 10 oz copper PCB
- Providing extremely reliable 10 oz copper PCB
- macht extrem gute Qualität und freundlicher Preis
- 10 Jahre Erfahrung im Leiterplattendesign mit 10 Unze Kupfer
Is 10 Oz Copper PCB Better than 1 Oz Copper Thickness?
A 10oz copper PCB is better than 1oz copper in some ways. The advantages are summarized as follows:
●10oz copper PCB conducts a higher current load.
●It provides a better layout for thermal vias. In this case, the heat dissipation is more efficient.
●Due to its flat surface, the thick PCB ensures more efficient soldering
●This is more practical than a thin PCB. It can be used for multi-layer stacking for device miniaturization
10 oz copper PCB Capabilities
Venture Electronics offer 10 oz copper PCB manufacturing services at a reasonable price with good quality.
We also offer the quick turn service for urgent orders. Our factories are ISO 9001 and ISO 14001 certified with over 10 years’ experience. Pls look at our Capability to choose a suitable 10 Oz PCB for your project.
Component Mount Technique for 10 Oz Copper PCB
Both surface mount and through hole technologies are effective for 10oz copper PCB. But through hole technology (THT) is not suitable for a single layer.
Im Allgemeinen Oberflächenmontage-Technologie(SMT) provides permanent attachment of surface mount devices on the PC8 surface, it is used in small components, which makes the soldering strong that is required for smooth data transmission.
Conversely, THT is for large PC8 components. It uses the component’s wires to be placed in the holes. This technology requires stronger soldering than SMT. Therefore, it increases the manufacturing cost of 10oz copper PCB.
Ihr bester 10-Unzen-Kupfer-PCB-Partner
Venture offer valued customers the very great products at the most affordable pricing. We will give you the one-stop solution for all your 10 oz copper PCB demands. Any type of 10 oz copper PCB, contact Venture, we will provide you the best 10 oz copper PCB design solution, order or no order, we’re always happy to help your business. Venture can also supply other design that is related to 10 oz copper PCB like:
- Aluminum Base with 10 oz Copper PCB
- 10 oz dicke Kupferplatine
- FR4 2 10 oz copper PCB
- 2 Layers 10 oz copper PCB
- 10 Unzen schweres Kupfer-PCB
- 10 oz Metal Back Heavy Copper PCB
Ihr führender 10-Unzen-Kupfer-PCB-Lieferant in China
Venture 10 oz copper PCB is fabricated for different printed circuit board use. We are a professional 10 oz copper PCB supplier in China for over 10 years. Venture 10 oz copper PCB has leading performance and reliability. These copper utilized as an alloy. It combines the benefits of a growing trend in the printed circuit board industry.
Venture 10 oz copper PCB has heavy copper-plated vias that hold higher current through the board and help to transfer heat to an external heatsink. It has an on-board high-power-density planar transformer. Venture 10 oz copper PCB is extensively used in different industries. You can use our 10 oz copper for printed circuit board and etc. Also, use conveniently our 10 oz copper PCB into different utilizes.
Venture has a prime 10 oz copper PCB design supplying capacity, we can build hundreds of 10 oz copper PCB every day with our automated production line, so you will always have adequate 10 oz copper PCB even in peak days. We have some sets of different 10 oz copper PCB design supplying lines and in the 10 oz copper PCB production facility. Whether you are in require of a 10 oz copper PCB design distributor, retailer, or a custom 10 oz copper PCB design factory, Venture is always your most reliable choice because we can always supply your requirements.
We are committed to excellence and our innovations in the 10 oz copper PCB are an example of our dedication. Venture is an expert in the greatest 10 oz copper PCB design manufacturing. Our superior units come with full customer support. For value-added experiences, you can rely on us to give you a fair price. We are happy to hear from you.
Venture garantiert maximale Kontrolle über die Qualität und die Fähigkeit, nach Kundenspezifikationen zu entwerfen und zu fertigen. Wir können Ihnen beim Design Ihres Produkts behilflich sein und haben die Möglichkeit, es für Ihre Bewertung schnell herzustellen. Unsere Produkte unterliegen einer äußerst genauen Qualitätskontrolle für die von Ihnen geforderte Qualität.
Wenn Sie eine 10-Unzen-Kupferplatine benötigen, können Sie sich gerne an uns wenden, um Unterstützung zu erhalten.
10 Unzen Kupfer PCB: Der ultimative FAQ-Leitfaden
This guide has everything you have been looking for about 10 Oz copper PCB.
Also, wenn Sie ein Experte sein wollen Kupferleiterplatten, lesen Sie diese Anleitung.
Was ist eine 10-Unzen-Kupferplatine?
A 10 oz copper board is a thick copper board with a total copper weight of 10 ounces.
The resulting thickness for the 10 oz copper is 14 mils or 0.0140 inches.
The 10 oz copper PCB can carry large current values.
Consequently, the dissipated thermal energy is also huge.
10 Unzen PCB
Wo werden 10-Oz-Kupfer-Leiterplatten verwendet?
The 10 oz copper PCB is used in applications requiring large current loads.
Some of the areas of application with such current demands include:
- Use in military equipment such as for systems for weapons control and radar management
- Charging systems for high voltage batteries
- Power supply and distribution equipment
What Qualities does the 10 Oz Copper PCB have?
You find the 10 oz copper CB with the following qualities:
· Ability to Conduct Large Currents
The 10 oz copper PCB can carry large current amounts without impairing performance.
You find that the current carrying capacity is due to the increased thickness of this board type.
A thick copper layer increases the cross-sectional area of the current path.
· Thermal Strain Fortitude
The 10 oz copper PCB can endure thermal strains resulting from the large current constructed.
The thermal power dissipated in the form of heat energy is directly related to the amount of current conducted.
· Good Strength Mechanically
Mechanical strength offers the board the required rigidity to support assembled parts to it such as electronic components.
A 10 oz copper PCB exhibits this strength via the connecting points and plated through-holes.
· Reliable Use
The 10 oz copper can be used in environments where boards with lower value thickness cannot be used.
Environments with high temperatures for example can pose a problem to standard thickness copper PCBs.
The 10 oz copper board can reliably function due to its superior thermal management property.
A 10 oz copper PCB is normally configured in a multilayer structure.
Using a multilayer configuration allows the 10 oz copper PCB to be fit into small devices.
The devices made are still able to exhibit high performance.
10 oz copper PCB can effectively conduct heat away from the PCB via a heat sink.
The dissipated heat in the board is conducted via heat vias to the Wärmeableiter.
The heat sink is attached to the bottom surface where it externally removes the thermal energy.
10 Oz PC
How is Temperature Rise Controlled on a 10 0z copper PCB?
For the 10 oz copper PCB, higher amounts of heat loss are experienced.
The increased thickness allows more current to be conducted resulting in more heat dissipation.
You also find that the trace width influences the amount of heat released.
The 10 oz copper PCB uses heat sinks to conduct heat away from the board.
A heat sink collects the dissipated heat energy from the board via conduction.
It then releases this heat externally via convection.
A heat sink is usually made of a material with good thermal conductivity such as copper or aluminium.
It is then attached to the bottom of the 10 oz copper PCB construction.
The attachment used should also be thermally conductive and preferably with matching CTE.
With construction of many layers, heat has to be collected from each and transferred to the heat sink.
Plated holes are used to conduct thermal energy through the layers.
Plating is done using a material with good thermal transfer property.
Heat sinks can be attached during the assembly process or built into the 10 oz copper PCB.
The latter option is less costly and with a superior outcome.
The thick copper used in the fabrication of the 10 oz copper PCB is also used for the heat sink.
When fabricating 10 oz copper PCBs with heat sinks, they are electroplated to the bottom surface.
This way, a continuous path is provided for the heat vias.
Furthermore, the vias provide a path of least resistance for the thermal energy.
How is Manual Routing Carried out in 10 Oz Copper Board PCB Assembly?
Routing is a procedure succeeding placement where wires are added for proper component connectivity.
This process can either be performed manually or automatically or both processes used.
When routing manually, you first start with the most sophisticated and difficult connections.
Approaching the routing process from the difficulty angle ensures a reduction of errors at latter routing efforts.
Following the connection of the complex routes, the next step is to work on the nets with tight fittings.
External routing for components using high currents follows with internal components pulling large voltage values completing the process.
What Material Characteristics are Required for the Inner Layer Core on 10 Oz Copper PCBs?
The following characteristics are pivotal for materials used for the inner layer core of the 10 oz copper board:
- A high glass transition temperature is important for the inner layer core.
A high value allows the core to withstand large thermal changes in the 10 oz copper board.
Otherwise, the inner layer would melt resulting in a weak material bond.
- Material used for inner layer core should have standard tensile strength.
Tensile strength gives the inner layer core ability to withstand stretching forces.
Such materials should not easily break or fold under strains.
- Another characteristic is the material’s shear strength. Shear strength is exhibited to tolerance against shear force.
When a shear force is applied, material succumbs to it by tearing.
The direction of tear is usually parallel to the application of the force.
- The materials used in the inner layer core should have matching or close CTEs.
The coefficient of thermal expansion illustrates the response to temperature changes for materials.
Materials with non-matching CTEs will respond differently to temperature changes.
- It is important to identify the dielectric constant of materials used in the inner layer core.
Das Dielektrizitätskonstante is especially useful when the 10 oz copper PCB is intended for use in a high-frequency environment.
- A low loss tangent is crucial to the inner layer core to prevent electromagnetic interference.
Loss tangent is actuated by wave energy absorption which is influenced by frequency levels.
- The inner layer core materials should not be able to easily absorb moisture content. Moisture content is prevalent in wet conditions and humid areas.
Water molecules affect the dielectric properties of the material and resistance to tracking effect.
- The material should have a high dielectric breakdown voltage.
Also, the materials selected for the inner layer are not desired for their electrical properties.
Their ability to conducted electric charge will affect the board connection even resulting in shorts.
How is the Copper Trace made on the 10 Oz Copper PCB?
When making copper traces on a 10 oz copper PCB, the length, width and spacing of the traces are important parameters.
Knowing the amount of current a trace is supposed to handle can help in providing just the right measurements.
Two approaches can be used to lay the copper trace on a 10 oz copper PCB.
You find the trace can either be etched or plated.
Radierung a copper trace involves the removal of the undesired copper surface that leaves the copper in the desired trace pattern.
In this process, a resist is used to cover the copper surface with the desired trace pattern.
An aqueous solution is then sprayed over the copper surface.
The exposed copper reacts with the solution but the surface covered with resist is left unaffected.
The resist is removed to expose the copper in the desired trace pattern.
Plating occurs when a metallic compound is deposited over another.
In plating a copper trace, the desired trace pattern is developed by depositing copper over the board surface.
The process is carried out such that the resulting pattern matches the design.
What are Some of the Considerations when Designing a 10 Oz Copper PCB?
Designing a 10 oz copper PCB requires attention to the nature of its application and its current demands.
You find the current-carrying ability of this PCB type results in increased heat dissipation.
As a result, considerations have to be made for thermal management.
Some identifiable design elements fort the 10 oz copper PCB includes:
- Board density which will influence the board size
- Configuration of the 10 oz copper PCB
- Current amount to be carried
- Trace length and width and spacing
- Art der Komponenten
- The spacing of components
- The mode of heat dissipation
Are 10 Oz Copper PCBs made with Multiple Layers?
You can find 10 oz copper PCBs as multi-layered boards.
A mehrschichtige Leiterplatte is a board with many layers. Using many layers offers increased density and reduced board size.
The layer count can be made to meet application needs.
10 oz copper PCBs can be made with a layer count of more than twenty.
You can find copper foils of half an ounce and 1 oz copper used in such a construction.
When making multi-layered boards, through-holes are used to provide interlayer connectivity.
How is the Glass Transition Temperature important in a 10 Oz Copper PCB?
When making a multi-layered 10 oz copper PCB, laminates are used to hold together the layers.
Laminates are usually composed of fiberglass material reinforced with epoxy or resin.
The glass transition temperature is an important parameter for these laminates.
The glass transition temperature is the temperature at which a material with glass properties tends to change form into a viscous state.
For laminates in 10 oz copper, they have to have a high glass transition temperature.
10 oz copper PCB carries large currents.
It follows that the amount of heat energy dissipated is equally large.
Laminates with low glass transition temperature will succumb to the thermal dissipation and change from leading to a weak structure.
Wie können Sie eine 10-Unzen-Kupferplatine testen?
Testing a 10 oz copper PCB can be effectively carried out by the in-circuit test.
In this test process, an assembled PCB is assessed by an electrically controlled probe.
This test type searches for shorts and opens in circuits, as well as capacitance and resistance.
In this test, multiple pins on a fiberglass base are used to conduct the test.
They are arranged such that their pins touch several points of test on a PCB.
Also, the points are located on circuit nodes on the 10 oz copper PCB.
You find that exerting a small force on the PCB pressing it against the pins creates contact.
Every pin interacts with a point on the board at the same time.
The pins are individually connected to measuring devices, as such; recordings for every test point are made.
The adherence of the pin bed and the 10 oz copper PCB is established by mechanical force or vacuum placement.
The latter process provides more accurate readings.
What Terminations are used On-chip Packages for the 10 Oz Copper PCB?
Terminations on component packages are points that allow for connectivity to the 10 oz copper PCB.
Terminations provide a method for an input and output exchange on the board surface.
Common termination methods used on the 10 oz copper PCB is peripheral and grid array.
Terminations are referred to as peripheral when they are found along the sides of the component package.
A grid-array termination is positioned at the base of a component package.
You find better conductivity with such terminations.
How can you Select a 10 Oz Copper PCB?
You will find different aspects related to the 10 oz copper PCB with most based on the needs of the application.
However, overall factors that will influence your selection include:
· Current Handling
The amount of current to be handled by your board influences trace parameters.
You can determine the appropriate width and spacing of your trace with knowledge of the current needs.
· Trace Characteristics
These characteristics include the length of the trace, the trace width, and the spacing between traces.
The trace parameters are useful in thermal management efforts.
For example, having wider spacing minimizes occurrences of tracking.
· Copper Tolerance
The 10 oz copper PCB will derive its tolerance from the fabrication method.
Tolerance refers to the closeness of the 10 oz copper PCB to its design requirements.
Close tolerances are desired for the 10 oz copper PCB.
The number of layers in a 10 oz copper PCB will depend on several factors.
First, the application of the board is crucial to the board construction.
You also find the desired board size and component density influential.
· Power Rating
10 oz copper PCBs with large power demands have large current capabilities.
Low resistance copper traces ensure more current is conducted to meet the power demands of board application.
· Component Composition
Components on the 10 oz copper board can be surface mounted or through-hole.
The board component composition can be mixed or consist of purely surface mounts or through-holes.
For multilayered boards, surface mounted components are typically used on the inner layers.
· Surface Finish
Any board surface has to be provided with a surface finish.
There are many options for the finish type based on cost and taste.
Electroless Nickel Immersion Gold (ENIG) is a common finish on the 10 oz copper PCB.
Others include Immersion Silver and hot solder level.
What are some of the Standards for a 10 Oz Copper PCB?
Standards for 10 oz copper PCBs ensure that certain design aspects and elements meet a set of defined thresholds.
This ensures products across the board are consistent and reliable.
Some of the standards used include:
With this standard, a test procedure for establishing foreign particles on the contacts of a PCB is provided.
The method ensures the functionality of the fingers is not disrupted.
This standard is used for 10 oz copper PCBs with an application in equipment for use in space.
It illustrates the rules for designing and making such boards.
The design, manufacture, and assembly of 10 oz copper PCBs is guided by this standard.
Of particular interest in the standards are the terminologies and their definitions.
The standard gives guidelines for the assembly of printed boards.
The 10 oz copper PCB is included in the board type definition.
This standard is specific to multilayer board configurations disregarding their fabrication method.
It entails the requirements for the board and its associated features and the test methods for quality concerns.
Do you find Vias used in 10 Oz Copper PCBs?
Verschiedene Arten von Vias
Vias are a user in any multi-layered board configuration.
Vias provide paths for electrical and thermal conductivity on 10 oz copper PCBs.
The 10 oz copper PCB dissipates large thermal energy that is conducted to the heat sink below through vias.
You find blind vias used in 10 oz copper PCB to provide a surface to the inner layer connection.
Buried vias provide a connection between inner layers.
The vias are drilled like regular holes and then plated to make them conductive.
What is Designing for Assembly in 10 Oz Copper PCB?
Designing for assembly is a strategy used to design a board that will provide a simplified Leiterplattenbestückungsprozess.
PCB Design fabrication and assembly
When designing for assembly the following details are considered:
- The nature of the board populates
- The type of components
- The number of components to be attached to the board
- The number of layers needed
- The technique used to attach the components
How are Chips Directly attached to the 10 Oz Copper PCB?
Chip attachment on the board provides electrical conductivity and communication paths between the system board and chip.
You can directly attach a chip to board by using wire-bonding, automated bonding with tape, and flip-chipping.
Wire-bonding is one of the earliest and more prominent methods.
In this method, the chip has wired leads that are attached to drilled holes on the board.
You can easily inspect this attachment technique and easily replace chips.
Using automated bonding with tape allows the components to be tested before they are attached.
This technique is commonly used with components with low profiles.
Flip-chipping is an attachment technique that provides a more reliable electrical connection.
Why is the FR-4 Commonly used the Prepreg for 10 Oz Copper PCB?
Das FR-4 is a variant of the fire retardant material that is used to bind the layers of a 10 oz copper PCB.
The FR-4 is preferred due to the following features:
- The FR-4 is highly compatible. You can use the FR-4 with a variety of different material types including inorganic fillers.
- The cost of FR-4 is low thanks to its easy production with existing technology.
- FR-4 is widely used in other industries making it easily available
- With the restrictive use of lead due to its hazardous nature, the FR-4 can still be used in lead-free assembly processes.
- The FR-4 material has good performance stability.
- The use of FR-4 with other material allows certain properties such as dielectric and board thickness to be controlled. Furthermore, this allows you to tailor your prepreg with the demands of the application.
- FR-4 has good mechanical properties which give the board good mechanical strength.
- The FR-4 also has good thermal and electrical properties.
How is the Lamination Carried Out for the 10 Oz Copper PCB?
In the lamination process, the prepreg material is combined with copper foils amounting to 10 oz weight.
To form a laminate, the prepreg and copper foils of desired copper weight are made to the desired sheet sizes first.
They are then arranged in the appropriate configuration.
You find the copper films and prepreg material are separated by metalized plates and loaded into presses.
The presses are vacuumed and the laminate stacks subjected to temperature and pressure conditions. This is referred to as the press cycle.
The press conditions and time is taken depend on the earlier processing of the prepreg and its composition.
Platens in the press are heated via steam, oils, or electric power.
To achieve smooth surfaces and prevent the intrusion of foreign matter, the process is carried out in a clean environment.
Controlling temperature is essential to ensure the resin adheres correctly.
Furthermore, cooling should be carefully done to avoid uneven cooling on the laminate surface.
The level of curing achieved with the laminate is determined by the duration of the lamination process.
What are the Characteristics of Digital-based 10 Oz Copper PCBs?
10 oz copper PCBs used in digital applications have the following characteristics:
- You find such printed circuit boards a large component density. Furthermore, most of these components are leaded with high pin counts due to their address buses.
- 10 oz copper PCBs used in digital circuits offer faster performance levels. This is due to their considerably fast edges and reduced delays in propagation.
- You find effects in the transmission line prevalent in digital circuits in the form of coupling and reflections. The board can have an improper response when operating as a result.
- These boards have decreased sensitivity to impedance inequality levels in materials.
- The circuit elements for digital-based 10 oz copper PCBs are small in size with less emphasis on the accuracy of features.
With this information, am sure you can choose a suitable 10 Oz PCB.
However, if you have any questions, feel free to contact Venture team.