Add to Cart
FPC single layer PCB board with 3M sticker
Flex Pcb Design FPC Single Layer Flex PCB Board With 3M Sticker
PCB parameter:
Product category: FPC single panel
Basic parameters:
Application: car navigation
Type: single-sided FPC flexible circuit board
Size: 68.2 * 115mm
Tolerance: ± 0.03mm
Plate thickness: 0.13mm
PI reinforcement: 0.225mm
Surface treatment: sinking gold 1 mile
NOTE1:
Two different 3MTESA (Tesa8853) should be sticked to the specified two areas. (on BOTTOM)
-Part1 and Part2 are two separate sticker
-3MTESA (Tesa8853) should be sticked to the specified out of square area in Part1
Advantages of Flexible Printed Circuit Boards
The production of flexible printed circuit boards is a technology
that is in demand in the manufacture of a wide variety of products.
Flexible boards are found in electronic panels and onboard
equipment, medical diagnostic equipment, smartphones, and even
space satellites.
Manufacturers of electrical appliances and equipment choose flexible printed circuit boards for the following properties:
Slim Base: Reduced the size of electronic devices, and due to its
flexibility, the PCB can be folded and reduced in size if
necessary.
Reduced weight: With a flexible base, these PCBs are 70-80% lighter
than their rigid base counterparts.
Improved heat transfer: this is facilitated by a thin, flat base
that distributes heat evenly across the surface of the board.
The production of flexible printed circuit boards using innovative
technology is gradually replacing the wire harnesses, connectors,
and cables traditionally used in the instrument manufacturing
process.
Flexible PCB Board Provides Several Advantages
High installation speed: no cables to be twisted into bundles – it
is enough to install boards with flexible conductors. Errors are
excluded, as in the case of wiring.
Reliable connections: Single-boarded conductors are more stable and
easier to control impedance, crosstalk, and noise.
Ergonomic Mounting: Compared to heavier cables, the flexible
printed circuit boards reduce the mounting area and product weight
by 75%.
Reduced operating costs: Flexible circuit boards are resistant to
shock and vibration and require fewer repairs.
Functionality: The flex board may have rigid sections required for
mounting some equipment components.
Bending strength is the main reason for the reliability of a
flexible printed circuit board. Components of this type, under the
most adverse conditions, last much longer than the old rigid boards
with round cables.
Flexible PCB Instant Quote Online
You can learn more about the technological possibilities of printed
circuit board production, additional requirements, and cost by
sending us an instant quote for flex PCB.
Production of Flexible PCB Maintaining Highest Standards
All produced boards undergo mandatory quality control of
metallization in the hole and are also checked for good
solderability and flatness.
The cost of production of prototypes of printed circuit boards
The price of printed circuit boards produced to order depends on the following criteria:
Materials used;
Size and design;
Foil thickness;
Number of holes;
Accuracy class and difficulty level.
Faster Turnaround
The presence of high-tech production facilities allows the ONESEINE
flex to manufacture printed circuit boards of any complexity in the
shortest possible time.
Technical equipment, knowledge of all the subtleties of the process, and the use of exclusively high-quality materials allow us to provide a full range of services, from project development to fully functional electronic assembly.
FAQS
What is flex in PCB?
A flexible circuit board is made of flexible materials such as polyimide, polyester, or other similar materials. These boards come with bending and flex features to fit into specific shapes and provide a more efficient use of space.
Where are flex PCBs used?
The top three applications of flex PCB are: medical devices, consumer electronics, automotive components, and more
What is a flex PCB made of?
Flexible PCB is made of polyimide, polyester, polyethylene naphthalate (PEN), polyetherimide (PEI), and polyethylene terephthalate (PET).
Why use Flex PCB?
Flexible PCBs are ideal for several applications which require flexibility in frequent movements. Similarly, flex PCBs can provide excellent performance in equipment where high-density interconnections are required.
Flex vs Rigid PCB
The basic difference between flex and rigid PCB is the choice of materials and their bending capacity. Flex PCB has flexible characters whereas rigid boards are tight and they are used where design requirements are harder and strong.
What is flexible pcb price?
The price of flexible PCB depends on design, material, and minimum order quantity. If you want to get an instant quote for flexible PCB, you can contact our sales department.
Rigid-flex pcb circuits
Rigid-flex circuits are a hybrid construction flex circuit consisting of rigid and flexible substrates which are laminated together into a single structure. Rigid-flex circuits should not be confused with rigidized flex constructions, which are simply flex circuits to which a stiffener is attached to support the weight of the electronic components locally. A rigidized or stiffened flex circuit can have one or more conductor layers. Thus while the two terms may sound similar, they represent products that are quite different.
The layers of a rigid flex are also normally electrically interconnected by means of plated through holes. Over the years, rigid-flex circuits have enjoyed tremendous popularity among military product designer, however the technology has found increased use in commercial products. While often considered a specialty product for low volume applications because of the challenges, an impressive effort to use the technology was made by Compaq computer in the production of boards for a laptop computer in the 1990s. While the computer's main rigid-flex PCBA did not flex during use, subsequent designs by Compaq utilized rigid-flex circuits for the hinged display cable, passing 10s of 1000s of flexures during testing. By 2013, the use of rigid-flex circuits in consumer laptop computers is now common.
Rigid-flex boards are normally multilayer structures; however, two metal layer constructions are sometimes used.