FPC Prototype in Humanized Way

Quick FPC, Rigid-flex PCB prototype and PCB Assembly

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What is FPC
Special attention points for flexible circuit wiring
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FPCway: Specialized manufacturer of flexible printed circuit boards and rigid-flexible printed circuits
Future Trends of Flexible Circuit Boards
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Normal Flex PCB Specifications
Flex PCB Polyimide Coverlay and Solder Mask
Flex PCB Boards and Connectors
About RA Copper and ED Copper
Introduction of Flexible PCB
5 Tips For Designing Flexible PCB
Advantages of FPC (Flexible PCB)
Evolution of the Flex Printed Circuit Board
Benefits of Using Flex Circuit Boards
Why Rigid-Flex PCBs are Economical?
Flexible PCB vs Rigid PCB
Development of Flexible printed circuit board (FPC) market
Traditional Manufacture Engineering of FPC Substrate
Development Trend of FPC Board
Flex PCB and the Manufacturing
About Flex PCB design
About Flex PCB and Assembly
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How to Select the Appropriate FPC Materials?
The Differences In Rigid PCB, Flex PCB and Rigid-Flex PCB
Flex-Rigid PCB Design Guidelines
Beneficials for Polyimide Flex PCB Boards
About Stiffener on Flex PCB FPC circuit Boards
About ENIG and ENEPIG
PCB Surface Finish Comparison
Copper Thickness for FPC Boards
Interconnect Solutions for Flexible Printed Circuits and Etched Foil Heaters
Advantages and Disadvantages of Rigid-Flex PCB
About FPC Plating Process
About EMI shield design for Flex Printed Circuit Board
PCB Assembly Blog
How to solve the problem of PCB warping deformation after welding large copper bar?
About PCB Assembly
QFP and BGA and the Development Trend in PCB assembly
Why some components need be baked before reflow soldering
About Flex PCB Assembly
Manual Soldering in SMT Assembly Manufacturing Process
BGA Components and BGA Assembly
Quick Understanding for PCB Assembly Process
About SMT Assembly (Surface Mount Technology)
About THT Assembly (Through-Hole Technology)
About Reflow Soldering
About_Wave_Soldering
PCB Assembly Inspections and Tests
Panel Requirements for PCB Assembly
About SMT (Surface Mount Technology)
FPC Research Blog
Preparation of FPC based on ultrasonic spraying method_4_Experimental Results
Preparation of FPC based on ultrasonic spraying method_3_Experimental Procedure
Preparation of FPC based on ultrasonic spraying method_2_Experimental Platform and Principle
Preparation of FPC based on ultrasonic spraying method_1_abstract
Research on Layout Design Method of Ultra-thin FPC_4_Analysis of Layout Design Methods
Research on Layout Design Method of Ultra-thin FPC_3_Analysis of Layout Design Methods
Research on Layout Design Method of Ultra-thin FPC_2_Analysis of Layout Design Methods
Research on Layout Design Method of Ultra-thin FPC_1_introduction
Research progress on polyimide FPC_2_the field of FPC
Research progress on polyimide FPC_1_Introduction
Analysis of Vibration Characteristics of FPCBs _4_Summary
Analysis of Vibration Characteristics of FPCBs _3_Finite Element Analysis
Analysis of Vibration Characteristics of FPCBs _2_Theory of Vibration Analysis
Analysis of Vibration Characteristics of FPCBs Under Random Vibration_1_Introduction
Design Methods for FPCBs_5_Practical Application
Design Methods for FPCBs_4_Electrical Circuit Design and Examples
Design Methods for FPCBs_3_Structure Design Method and Examples
Design Methods for FPCBs_2_Component Selection Methodology and Examples.
Research on Design Methods for FPCBs
Application of MPW technique for FPCBs _4_Summary
Application of MPW technique for FPCBs_3_Experimental results
Application of MPW technique for FPCBs_2_Experimental setup
Application of MPW technique for FPCBs_1_Principle of MPW
Application of FPCB in PC motherboards_4_ Results and discussion
Application of FPCB in PC motherboards_3_ Numerical analysis
Application of FPCB in PC_2_ Experimentation
Application of FPCB in PC motherboards
A Bus Planning Algorithm for FPC Design _4_Experimental result
A Bus Planning Algorithm for FPC Design _3_Proposed Algorithm
A Bus Planning Algorithm for FPC Design _2_Preliminaries
A Bus Planning Algorithm for FPC Design _1_Introduction

While a well-designed flexible circuit will eliminate many connectors, ultimately most flexible circuits need to connect to something. Probably the most common entity that a flex circuit connects to is a rigid printed circuit board, but cable harnesses, polyester membrane switches, and even other flex circuits are also possible connection partners. 

 

The connection is usually done by a hardware device with the purpose of providing electrical and mechanical connection. The connection must interface to both entities, although the specific mode of connection may be different. For example, a connector may have posts that insert into the vias on a circuit board, while simple insertion may be used for a flex tail with zero insertion force (ZIF) connection. There are thousands of different types of connectors for just about every conceivable combination of pitch, connection angle, material, number of connection points, and type of connection. There are companies that will design and fabricate custom connectors for your exact needs. 

 

Some of the criteria in considering a type of connector include the following: 

 

1. Base metals, including plating 

2. Substrate and conductor thickness 

3. Number of connection points 

4. Density of connection 

5. Current requirements 

6. Military, aerospace, automotive or medical specs 

7. Environment Mechanical strength requirements 

8. Field use Cost considerations 

 

The thousands of different types of connectors often can be categorized as some of the following types: 

 

1. Zero Insertion Force (ZIF): ZIF connectors require very little force for initial insertion; there is usually a latch, slide or lever that clamps down on the traces to provide a durable, robust connection. ZIF connectors allow a circuit to be inserted and removed multiple times with very little mechanical wear on the traces. 

 

2. Mechanical Crimp: A mechanical crimping connector physically pierces through the dielectric and conductor to make a connection. 

 

3. Solder Attached: This includes both through-hole connectors and surface mount connectors. The connector mates to pads or vias in the flexible circuit and is soldered for the electrical-mechanical connection. This type of connector includes circular connectors, D Subminiature connectors, pin and socket connectors. Z-Axis: A z-axis connector is made out of a special isomeric material that conducts electrical current in only one direction. 

 

4. Z- Axis connectors come in strips and do not need special a configuration to match the conductor pitch of the traces. 

 

5. Insertion connectors: Unlike ZIF, these insertion devices require a fair amount of force to insert and will significantly scratch or mar the conductor surface if pulled out. These connectors are low-cost and effective for single insertion applications. 

 

6. Sculptured (unsupported): Copper traces extend out to provide termination points. Sculptured circuits essentially have the terminals fabricated right into the flex. Selective plating and etching are used to “beef up” the terminal finger. 

 

There are a number of reliable connector suppliers that can help you with your connector requirements. And any enquiries feel free to contact us FPCway by sales@fpcway.com. We will always be here to provide the best FPC service.

Contact us

  • Email: sales@fpcway.com
  • Tel: 086 18576671093
  • Skype: Downey_PCB-PCBA
  • Address: No.12, Shapuwei Industrial Road
  • Songgang Street, Baoan District, Shenzhen

About us

  • Based in Shenzhen China, FPCway is professional at Flex PCB,
    Rigid-flex PCB and PCB assembly services
  • Flex PCB compliant ISO9001, ISO14001, TS16949, UL, RoHS.
    PCB Assembly compliant ISO9001, IATF16949, IPC-A-610E.
  • Our aim is "Humanized way to make Flex PCB". Choose us,
    you will have the best flex PCB and assembly partner.

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